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|
/*
*
* Copyright 2016 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT 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 <grpc/support/port_platform.h>
#include "src/core/lib/iomgr/error.h"
#include <inttypes.h>
#include <string.h>
#include <grpc/impl/codegen/status.h>
#include <grpc/support/alloc.h>
#include <grpc/support/log.h>
#include <grpc/support/string_util.h>
#ifdef GPR_WINDOWS
#include <grpc/support/log_windows.h>
#endif
#include "src/core/lib/debug/trace.h"
#include "src/core/lib/gpr/useful.h"
#include "src/core/lib/iomgr/error_internal.h"
#include "src/core/lib/slice/slice_internal.h"
grpc_core::DebugOnlyTraceFlag grpc_trace_error_refcount(false,
"error_refcount");
grpc_core::DebugOnlyTraceFlag grpc_trace_closure(false, "closure");
static gpr_atm g_error_creation_allowed = true;
void grpc_disable_error_creation() {
gpr_atm_no_barrier_store(&g_error_creation_allowed, false);
}
void grpc_enable_error_creation() {
gpr_atm_no_barrier_store(&g_error_creation_allowed, true);
}
#ifdef GRPC_ERROR_IS_ABSEIL_STATUS
absl::Status grpc_status_create(absl::StatusCode code, absl::string_view msg,
const grpc_core::DebugLocation& location,
size_t children_count, absl::Status* children) {
absl::Status s = StatusCreate(code, msg, location, {});
for (size_t i = 0; i < children_count; ++i) {
if (!children[i].ok()) {
grpc_core::StatusAddChild(&s, children[i]);
}
}
return s;
}
std::string grpc_error_std_string(absl::Status error) {
return grpc_core::StatusToString(error);
}
absl::Status grpc_os_error(const grpc_core::DebugLocation& location, int err,
const char* call_name) {
absl::Status s =
StatusCreate(absl::StatusCode::kUnknown, "OS Error", location, {});
grpc_core::StatusSetInt(&s, grpc_core::StatusIntProperty::kErrorNo, err);
grpc_core::StatusSetStr(&s, grpc_core::StatusStrProperty::kOsError,
strerror(err));
grpc_core::StatusSetStr(&s, grpc_core::StatusStrProperty::kSyscall,
call_name);
return s;
}
#ifdef GPR_WINDOWS
absl::Status grpc_wsa_error(const grpc_core::DebugLocation& location, int err,
const char* call_name) {
char* utf8_message = gpr_format_message(err);
absl::Status s =
StatusCreate(absl::StatusCode::kUnavailable, "WSA Error", location, {});
StatusSetInt(&s, grpc_core::StatusIntProperty::kWsaError, err);
StatusSetStr(&s, grpc_core::StatusStrProperty::kOsError, utf8_message);
StatusSetStr(&s, grpc_core::StatusStrProperty::kSyscall, call_name);
return s;
}
#endif
grpc_error_handle grpc_error_set_int(grpc_error_handle src,
grpc_error_ints which, intptr_t value) {
if (src == GRPC_ERROR_NONE) {
src = absl::UnknownError("");
StatusSetInt(&src, grpc_core::StatusIntProperty::kRpcStatus,
GRPC_STATUS_OK);
}
grpc_core::StatusSetInt(
&src, static_cast<grpc_core::StatusIntProperty>(which), value);
return src;
}
bool grpc_error_get_int(grpc_error_handle error, grpc_error_ints which,
intptr_t* p) {
absl::optional<intptr_t> value = grpc_core::StatusGetInt(
error, static_cast<grpc_core::StatusIntProperty>(which));
if (value.has_value()) {
*p = *value;
return true;
} else {
// TODO(veblush): Remove this once absl::Status migration is done
if (which == GRPC_ERROR_INT_GRPC_STATUS) {
switch (error.code()) {
case absl::StatusCode::kOk:
*p = GRPC_STATUS_OK;
return true;
case absl::StatusCode::kResourceExhausted:
*p = GRPC_STATUS_RESOURCE_EXHAUSTED;
return true;
case absl::StatusCode::kCancelled:
*p = GRPC_STATUS_CANCELLED;
return true;
default:
break;
}
}
return false;
}
}
grpc_error_handle grpc_error_set_str(grpc_error_handle src,
grpc_error_strs which,
absl::string_view str) {
if (src == GRPC_ERROR_NONE) {
src = absl::UnknownError("");
StatusSetInt(&src, grpc_core::StatusIntProperty::kRpcStatus,
GRPC_STATUS_OK);
}
if (which == GRPC_ERROR_STR_DESCRIPTION) {
// To change the message of absl::Status, a new instance should be created
// with a code and payload because it doesn't have a setter for it.
absl::Status s = absl::Status(src.code(), str);
src.ForEachPayload(
[&](absl::string_view type_url, const absl::Cord& payload) {
s.SetPayload(type_url, payload);
});
return s;
} else {
grpc_core::StatusSetStr(
&src, static_cast<grpc_core::StatusStrProperty>(which), str);
}
return src;
}
bool grpc_error_get_str(grpc_error_handle error, grpc_error_strs which,
std::string* s) {
if (which == GRPC_ERROR_STR_DESCRIPTION) {
// absl::Status uses the message field for GRPC_ERROR_STR_DESCRIPTION
// instead of using payload.
absl::string_view msg = error.message();
if (msg.empty()) {
return false;
} else {
*s = std::string(msg);
return true;
}
} else {
absl::optional<std::string> value = grpc_core::StatusGetStr(
error, static_cast<grpc_core::StatusStrProperty>(which));
if (value.has_value()) {
*s = std::move(*value);
return true;
} else {
// TODO(veblush): Remove this once absl::Status migration is done
if (which == GRPC_ERROR_STR_GRPC_MESSAGE) {
switch (error.code()) {
case absl::StatusCode::kOk:
*s = "";
return true;
case absl::StatusCode::kResourceExhausted:
*s = "RESOURCE_EXHAUSTED";
return true;
case absl::StatusCode::kCancelled:
*s = "CANCELLED";
return true;
default:
break;
}
}
return false;
}
}
}
grpc_error_handle grpc_error_add_child(grpc_error_handle src,
grpc_error_handle child) {
if (src.ok()) {
return child;
} else {
if (!child.ok()) {
grpc_core::StatusAddChild(&src, child);
}
return src;
}
}
bool grpc_log_error(const char* what, grpc_error_handle error, const char* file,
int line) {
GPR_DEBUG_ASSERT(error != GRPC_ERROR_NONE);
gpr_log(file, line, GPR_LOG_SEVERITY_ERROR, "%s: %s", what,
grpc_core::StatusToString(error).c_str());
return false;
}
#else // GRPC_ERROR_IS_ABSEIL_STATUS
static const char* error_int_name(grpc_error_ints key) {
switch (key) {
case GRPC_ERROR_INT_ERRNO:
return "errno";
case GRPC_ERROR_INT_FILE_LINE:
return "file_line";
case GRPC_ERROR_INT_STREAM_ID:
return "stream_id";
case GRPC_ERROR_INT_GRPC_STATUS:
return "grpc_status";
case GRPC_ERROR_INT_OFFSET:
return "offset";
case GRPC_ERROR_INT_INDEX:
return "index";
case GRPC_ERROR_INT_SIZE:
return "size";
case GRPC_ERROR_INT_HTTP2_ERROR:
return "http2_error";
case GRPC_ERROR_INT_TSI_CODE:
return "tsi_code";
case GRPC_ERROR_INT_FD:
return "fd";
case GRPC_ERROR_INT_WSA_ERROR:
return "wsa_error";
case GRPC_ERROR_INT_HTTP_STATUS:
return "http_status";
case GRPC_ERROR_INT_OCCURRED_DURING_WRITE:
return "occurred_during_write";
case GRPC_ERROR_INT_CHANNEL_CONNECTIVITY_STATE:
return "channel_connectivity_state";
case GRPC_ERROR_INT_LB_POLICY_DROP:
return "lb_policy_drop";
case GRPC_ERROR_INT_MAX:
GPR_UNREACHABLE_CODE(return "unknown");
}
GPR_UNREACHABLE_CODE(return "unknown");
}
static const char* error_str_name(grpc_error_strs key) {
switch (key) {
case GRPC_ERROR_STR_KEY:
return "key";
case GRPC_ERROR_STR_VALUE:
return "value";
case GRPC_ERROR_STR_DESCRIPTION:
return "description";
case GRPC_ERROR_STR_OS_ERROR:
return "os_error";
case GRPC_ERROR_STR_TARGET_ADDRESS:
return "target_address";
case GRPC_ERROR_STR_SYSCALL:
return "syscall";
case GRPC_ERROR_STR_FILE:
return "file";
case GRPC_ERROR_STR_GRPC_MESSAGE:
return "grpc_message";
case GRPC_ERROR_STR_RAW_BYTES:
return "raw_bytes";
case GRPC_ERROR_STR_TSI_ERROR:
return "tsi_error";
case GRPC_ERROR_STR_FILENAME:
return "filename";
case GRPC_ERROR_STR_MAX:
GPR_UNREACHABLE_CODE(return "unknown");
}
GPR_UNREACHABLE_CODE(return "unknown");
}
static const char* error_time_name(grpc_error_times key) {
switch (key) {
case GRPC_ERROR_TIME_CREATED:
return "created";
case GRPC_ERROR_TIME_MAX:
GPR_UNREACHABLE_CODE(return "unknown");
}
GPR_UNREACHABLE_CODE(return "unknown");
}
#ifndef NDEBUG
grpc_error_handle grpc_error_do_ref(grpc_error_handle err, const char* file,
int line) {
if (grpc_trace_error_refcount.enabled()) {
gpr_log(GPR_DEBUG, "%p: %" PRIdPTR " -> %" PRIdPTR " [%s:%d]", err,
gpr_atm_no_barrier_load(&err->atomics.refs.count),
gpr_atm_no_barrier_load(&err->atomics.refs.count) + 1, file, line);
}
gpr_ref(&err->atomics.refs);
return err;
}
#else
grpc_error_handle grpc_error_do_ref(grpc_error_handle err) {
gpr_ref(&err->atomics.refs);
return err;
}
#endif
static void unref_errs(grpc_error_handle err) {
uint8_t slot = err->first_err;
while (slot != UINT8_MAX) {
grpc_linked_error* lerr =
reinterpret_cast<grpc_linked_error*>(err->arena + slot);
GRPC_ERROR_UNREF(lerr->err);
GPR_ASSERT(err->last_err == slot ? lerr->next == UINT8_MAX
: lerr->next != UINT8_MAX);
slot = lerr->next;
}
}
static void unref_strs(grpc_error_handle err) {
for (size_t which = 0; which < GRPC_ERROR_STR_MAX; ++which) {
uint8_t slot = err->strs[which];
if (slot != UINT8_MAX) {
grpc_slice_unref_internal(
*reinterpret_cast<grpc_slice*>(err->arena + slot));
}
}
}
static void error_destroy(grpc_error_handle err) {
GPR_ASSERT(!grpc_error_is_special(err));
unref_errs(err);
unref_strs(err);
gpr_free(
reinterpret_cast<void*>(gpr_atm_acq_load(&err->atomics.error_string)));
gpr_free(err);
}
#ifndef NDEBUG
void grpc_error_do_unref(grpc_error_handle err, const char* file, int line) {
if (grpc_trace_error_refcount.enabled()) {
gpr_log(GPR_DEBUG, "%p: %" PRIdPTR " -> %" PRIdPTR " [%s:%d]", err,
gpr_atm_no_barrier_load(&err->atomics.refs.count),
gpr_atm_no_barrier_load(&err->atomics.refs.count) - 1, file, line);
}
if (gpr_unref(&err->atomics.refs)) {
error_destroy(err);
}
}
#else
void grpc_error_do_unref(grpc_error_handle err) {
if (gpr_unref(&err->atomics.refs)) {
error_destroy(err);
}
}
#endif
static uint8_t get_placement(grpc_error_handle* err, size_t size) {
GPR_ASSERT(*err);
uint8_t slots = static_cast<uint8_t>(size / sizeof(intptr_t));
if ((*err)->arena_size + slots > (*err)->arena_capacity) {
(*err)->arena_capacity = static_cast<uint8_t>(std::min(
size_t(UINT8_MAX - 1), size_t(3 * (*err)->arena_capacity / 2)));
if ((*err)->arena_size + slots > (*err)->arena_capacity) {
return UINT8_MAX;
}
#ifndef NDEBUG
grpc_error_handle orig = *err;
#endif
*err = static_cast<grpc_error_handle>(gpr_realloc(
*err, sizeof(grpc_error) + (*err)->arena_capacity * sizeof(intptr_t)));
#ifndef NDEBUG
if (grpc_trace_error_refcount.enabled()) {
if (*err != orig) {
gpr_log(GPR_DEBUG, "realloc %p -> %p", orig, *err);
}
}
#endif
}
uint8_t placement = (*err)->arena_size;
(*err)->arena_size = static_cast<uint8_t>((*err)->arena_size + slots);
return placement;
}
static void internal_set_int(grpc_error_handle* err, grpc_error_ints which,
intptr_t value) {
uint8_t slot = (*err)->ints[which];
if (slot == UINT8_MAX) {
slot = get_placement(err, sizeof(value));
if (slot == UINT8_MAX) {
gpr_log(GPR_ERROR, "Error %p is full, dropping int {\"%s\":%" PRIiPTR "}",
*err, error_int_name(which), value);
return;
}
}
(*err)->ints[which] = slot;
(*err)->arena[slot] = value;
}
static void internal_set_str(grpc_error_handle* err, grpc_error_strs which,
const grpc_slice& value) {
uint8_t slot = (*err)->strs[which];
if (slot == UINT8_MAX) {
slot = get_placement(err, sizeof(value));
if (slot == UINT8_MAX) {
char* str = grpc_slice_to_c_string(value);
gpr_log(GPR_ERROR, "Error %p is full, dropping string {\"%s\":\"%s\"}",
*err, error_str_name(which), str);
gpr_free(str);
return;
}
} else {
grpc_slice_unref_internal(
*reinterpret_cast<grpc_slice*>((*err)->arena + slot));
}
(*err)->strs[which] = slot;
memcpy((*err)->arena + slot, &value, sizeof(value));
}
static char* fmt_time(gpr_timespec tm);
static void internal_set_time(grpc_error_handle* err, grpc_error_times which,
gpr_timespec value) {
uint8_t slot = (*err)->times[which];
if (slot == UINT8_MAX) {
slot = get_placement(err, sizeof(value));
if (slot == UINT8_MAX) {
char* time_str = fmt_time(value);
gpr_log(GPR_ERROR, "Error %p is full, dropping \"%s\":\"%s\"}", *err,
error_time_name(which), time_str);
gpr_free(time_str);
return;
}
}
(*err)->times[which] = slot;
memcpy((*err)->arena + slot, &value, sizeof(value));
}
const char* grpc_error_string(grpc_error_handle err);
static void internal_add_error(grpc_error_handle* err,
grpc_error_handle new_err) {
grpc_linked_error new_last = {new_err, UINT8_MAX};
uint8_t slot = get_placement(err, sizeof(grpc_linked_error));
if (slot == UINT8_MAX) {
gpr_log(GPR_ERROR, "Error %p is full, dropping error %p = %s", *err,
new_err, grpc_error_string(new_err));
GRPC_ERROR_UNREF(new_err);
return;
}
if ((*err)->first_err == UINT8_MAX) {
GPR_ASSERT((*err)->last_err == UINT8_MAX);
(*err)->last_err = slot;
(*err)->first_err = slot;
} else {
GPR_ASSERT((*err)->last_err != UINT8_MAX);
grpc_linked_error* old_last =
reinterpret_cast<grpc_linked_error*>((*err)->arena + (*err)->last_err);
old_last->next = slot;
(*err)->last_err = slot;
}
memcpy((*err)->arena + slot, &new_last, sizeof(grpc_linked_error));
}
#define SLOTS_PER_INT (1) // == (sizeof(intptr_t) / sizeof(intptr_t))
#define SLOTS_PER_STR (sizeof(grpc_slice) / sizeof(intptr_t))
#define SLOTS_PER_TIME (sizeof(gpr_timespec) / sizeof(intptr_t))
#define SLOTS_PER_LINKED_ERROR (sizeof(grpc_linked_error) / sizeof(intptr_t))
// size of storing one int and two slices and a timespec. For line, desc, file,
// and time created
#define DEFAULT_ERROR_CAPACITY \
(SLOTS_PER_INT + (SLOTS_PER_STR * 2) + SLOTS_PER_TIME)
// It is very common to include and extra int and string in an error
#define SURPLUS_CAPACITY (2 * SLOTS_PER_INT + SLOTS_PER_TIME)
grpc_error_handle grpc_error_create(const char* file, int line,
const grpc_slice& desc,
grpc_error_handle* referencing,
size_t num_referencing) {
uint8_t initial_arena_capacity = static_cast<uint8_t>(
DEFAULT_ERROR_CAPACITY +
static_cast<uint8_t>(num_referencing * SLOTS_PER_LINKED_ERROR) +
SURPLUS_CAPACITY);
grpc_error_handle err = static_cast<grpc_error_handle>(
gpr_malloc(sizeof(*err) + initial_arena_capacity * sizeof(intptr_t)));
if (err == nullptr) { // TODO(ctiller): make gpr_malloc return NULL
return GRPC_ERROR_OOM;
}
#ifndef NDEBUG
if (!gpr_atm_no_barrier_load(&g_error_creation_allowed)) {
gpr_log(GPR_ERROR,
"Error creation occurred when error creation was disabled [%s:%d]",
file, line);
abort();
}
if (grpc_trace_error_refcount.enabled()) {
gpr_log(GPR_DEBUG, "%p create [%s:%d]", err, file, line);
}
#endif
err->arena_size = 0;
err->arena_capacity = initial_arena_capacity;
err->first_err = UINT8_MAX;
err->last_err = UINT8_MAX;
memset(err->ints, UINT8_MAX, GRPC_ERROR_INT_MAX);
memset(err->strs, UINT8_MAX, GRPC_ERROR_STR_MAX);
memset(err->times, UINT8_MAX, GRPC_ERROR_TIME_MAX);
internal_set_int(&err, GRPC_ERROR_INT_FILE_LINE, line);
internal_set_str(&err, GRPC_ERROR_STR_FILE,
grpc_slice_from_static_string(file));
internal_set_str(&err, GRPC_ERROR_STR_DESCRIPTION, desc);
for (size_t i = 0; i < num_referencing; ++i) {
if (referencing[i] == GRPC_ERROR_NONE) continue;
internal_add_error(
&err,
GRPC_ERROR_REF(
referencing[i])); // TODO(ncteisen), change ownership semantics
}
internal_set_time(&err, GRPC_ERROR_TIME_CREATED, gpr_now(GPR_CLOCK_REALTIME));
gpr_atm_no_barrier_store(&err->atomics.error_string, 0);
gpr_ref_init(&err->atomics.refs, 1);
return err;
}
static void ref_strs(grpc_error_handle err) {
for (size_t i = 0; i < GRPC_ERROR_STR_MAX; ++i) {
uint8_t slot = err->strs[i];
if (slot != UINT8_MAX) {
grpc_slice_ref_internal(
*reinterpret_cast<grpc_slice*>(err->arena + slot));
}
}
}
static void ref_errs(grpc_error_handle err) {
uint8_t slot = err->first_err;
while (slot != UINT8_MAX) {
grpc_linked_error* lerr =
reinterpret_cast<grpc_linked_error*>(err->arena + slot);
(void)GRPC_ERROR_REF(lerr->err);
slot = lerr->next;
}
}
static grpc_error_handle copy_error_and_unref(grpc_error_handle in) {
grpc_error_handle out;
if (grpc_error_is_special(in)) {
out = GRPC_ERROR_CREATE_FROM_STATIC_STRING("unknown");
if (in == GRPC_ERROR_NONE) {
internal_set_str(&out, GRPC_ERROR_STR_DESCRIPTION,
grpc_slice_from_static_string("no error"));
internal_set_int(&out, GRPC_ERROR_INT_GRPC_STATUS, GRPC_STATUS_OK);
} else if (in == GRPC_ERROR_OOM) {
internal_set_str(&out, GRPC_ERROR_STR_DESCRIPTION,
grpc_slice_from_static_string("oom"));
} else if (in == GRPC_ERROR_CANCELLED) {
internal_set_str(&out, GRPC_ERROR_STR_DESCRIPTION,
grpc_slice_from_static_string("cancelled"));
internal_set_int(&out, GRPC_ERROR_INT_GRPC_STATUS, GRPC_STATUS_CANCELLED);
}
} else if (gpr_ref_is_unique(&in->atomics.refs)) {
out = in;
} else {
uint8_t new_arena_capacity = in->arena_capacity;
// the returned err will be added to, so we ensure this is room to avoid
// unneeded allocations.
if (in->arena_capacity - in->arena_size <
static_cast<uint8_t> SLOTS_PER_STR) {
new_arena_capacity = static_cast<uint8_t>(3 * new_arena_capacity / 2);
}
out = static_cast<grpc_error_handle>(
gpr_malloc(sizeof(*in) + new_arena_capacity * sizeof(intptr_t)));
#ifndef NDEBUG
if (grpc_trace_error_refcount.enabled()) {
gpr_log(GPR_DEBUG, "%p create copying %p", out, in);
}
#endif
// bulk memcpy of the rest of the struct.
// NOLINTNEXTLINE(bugprone-sizeof-expression)
size_t skip = sizeof(&out->atomics);
memcpy(reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(out) + skip),
reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(in) + skip),
sizeof(*in) + (in->arena_size * sizeof(intptr_t)) - skip);
// manually set the atomics and the new capacity
gpr_atm_no_barrier_store(&out->atomics.error_string, 0);
gpr_ref_init(&out->atomics.refs, 1);
out->arena_capacity = new_arena_capacity;
ref_strs(out);
ref_errs(out);
GRPC_ERROR_UNREF(in);
}
return out;
}
grpc_error_handle grpc_error_set_int(grpc_error_handle src,
grpc_error_ints which, intptr_t value) {
grpc_error_handle new_err = copy_error_and_unref(src);
internal_set_int(&new_err, which, value);
return new_err;
}
struct special_error_status_map {
grpc_status_code code;
const char* msg;
size_t len;
};
const special_error_status_map error_status_map[] = {
{GRPC_STATUS_OK, "", 0}, // GRPC_ERROR_NONE
{GRPC_STATUS_INVALID_ARGUMENT, "", 0}, // GRPC_ERROR_RESERVED_1
{GRPC_STATUS_RESOURCE_EXHAUSTED, "RESOURCE_EXHAUSTED",
strlen("RESOURCE_EXHAUSTED")}, // GRPC_ERROR_OOM
{GRPC_STATUS_INVALID_ARGUMENT, "", 0}, // GRPC_ERROR_RESERVED_2
{GRPC_STATUS_CANCELLED, "CANCELLED",
strlen("CANCELLED")}, // GRPC_ERROR_CANCELLED
};
bool grpc_error_get_int(grpc_error_handle err, grpc_error_ints which,
intptr_t* p) {
if (grpc_error_is_special(err)) {
if (which != GRPC_ERROR_INT_GRPC_STATUS) return false;
*p = error_status_map[reinterpret_cast<size_t>(err)].code;
return true;
}
uint8_t slot = err->ints[which];
if (slot != UINT8_MAX) {
if (p != nullptr) *p = err->arena[slot];
return true;
}
return false;
}
grpc_error_handle grpc_error_set_str(grpc_error_handle src,
grpc_error_strs which,
absl::string_view str) {
grpc_error_handle new_err = copy_error_and_unref(src);
internal_set_str(&new_err, which,
grpc_slice_from_copied_buffer(str.data(), str.length()));
return new_err;
}
bool grpc_error_get_str(grpc_error_handle err, grpc_error_strs which,
std::string* s) {
if (grpc_error_is_special(err)) {
if (which != GRPC_ERROR_STR_GRPC_MESSAGE) return false;
const special_error_status_map& msg =
error_status_map[reinterpret_cast<size_t>(err)];
*s = std::string(msg.msg, msg.len);
return true;
}
uint8_t slot = err->strs[which];
if (slot != UINT8_MAX) {
grpc_slice* slice = reinterpret_cast<grpc_slice*>(err->arena + slot);
*s = std::string(grpc_core::StringViewFromSlice(*slice));
return true;
} else {
return false;
}
}
grpc_error_handle grpc_error_add_child(grpc_error_handle src,
grpc_error_handle child) {
if (src != GRPC_ERROR_NONE) {
if (child == GRPC_ERROR_NONE) {
/* \a child is empty. Simply return the ref to \a src */
return src;
} else if (child != src) {
grpc_error_handle new_err = copy_error_and_unref(src);
internal_add_error(&new_err, child);
return new_err;
} else {
/* \a src and \a child are the same. Drop one of the references and return
* the other */
GRPC_ERROR_UNREF(child);
return src;
}
} else {
/* \a src is empty. Simply return the ref to \a child */
return child;
}
}
static const char* no_error_string = "\"OK\"";
static const char* oom_error_string = "\"RESOURCE_EXHAUSTED\"";
static const char* cancelled_error_string = "\"CANCELLED\"";
struct kv_pair {
char* key;
char* value;
};
struct kv_pairs {
kv_pair* kvs;
size_t num_kvs;
size_t cap_kvs;
};
static void append_chr(char c, char** s, size_t* sz, size_t* cap) {
if (*sz == *cap) {
*cap = std::max(size_t(8), 3 * *cap / 2);
*s = static_cast<char*>(gpr_realloc(*s, *cap));
}
(*s)[(*sz)++] = c;
}
static void append_str(const char* str, char** s, size_t* sz, size_t* cap) {
for (const char* c = str; *c; c++) {
append_chr(*c, s, sz, cap);
}
}
static void append_esc_str(const uint8_t* str, size_t len, char** s, size_t* sz,
size_t* cap) {
static const char* hex = "0123456789abcdef";
append_chr('"', s, sz, cap);
for (size_t i = 0; i < len; i++, str++) {
if (*str < 32 || *str >= 127) {
append_chr('\\', s, sz, cap);
switch (*str) {
case '\b':
append_chr('b', s, sz, cap);
break;
case '\f':
append_chr('f', s, sz, cap);
break;
case '\n':
append_chr('n', s, sz, cap);
break;
case '\r':
append_chr('r', s, sz, cap);
break;
case '\t':
append_chr('t', s, sz, cap);
break;
default:
append_chr('u', s, sz, cap);
append_chr('0', s, sz, cap);
append_chr('0', s, sz, cap);
append_chr(hex[*str >> 4], s, sz, cap);
append_chr(hex[*str & 0x0f], s, sz, cap);
break;
}
} else {
append_chr(static_cast<char>(*str), s, sz, cap);
}
}
append_chr('"', s, sz, cap);
}
static void append_kv(kv_pairs* kvs, char* key, char* value) {
if (kvs->num_kvs == kvs->cap_kvs) {
kvs->cap_kvs = std::max(3 * kvs->cap_kvs / 2, size_t(4));
kvs->kvs = static_cast<kv_pair*>(
gpr_realloc(kvs->kvs, sizeof(*kvs->kvs) * kvs->cap_kvs));
}
kvs->kvs[kvs->num_kvs].key = key;
kvs->kvs[kvs->num_kvs].value = value;
kvs->num_kvs++;
}
static char* key_int(grpc_error_ints which) {
return gpr_strdup(error_int_name(which));
}
static char* fmt_int(intptr_t p) {
char* s;
gpr_asprintf(&s, "%" PRIdPTR, p);
return s;
}
static void collect_ints_kvs(grpc_error_handle err, kv_pairs* kvs) {
for (size_t which = 0; which < GRPC_ERROR_INT_MAX; ++which) {
uint8_t slot = err->ints[which];
if (slot != UINT8_MAX) {
append_kv(kvs, key_int(static_cast<grpc_error_ints>(which)),
fmt_int(err->arena[slot]));
}
}
}
static char* key_str(grpc_error_strs which) {
return gpr_strdup(error_str_name(which));
}
static char* fmt_str(const grpc_slice& slice) {
char* s = nullptr;
size_t sz = 0;
size_t cap = 0;
append_esc_str(GRPC_SLICE_START_PTR(slice), GRPC_SLICE_LENGTH(slice), &s, &sz,
&cap);
append_chr(0, &s, &sz, &cap);
return s;
}
static void collect_strs_kvs(grpc_error_handle err, kv_pairs* kvs) {
for (size_t which = 0; which < GRPC_ERROR_STR_MAX; ++which) {
uint8_t slot = err->strs[which];
if (slot != UINT8_MAX) {
append_kv(kvs, key_str(static_cast<grpc_error_strs>(which)),
fmt_str(*reinterpret_cast<grpc_slice*>(err->arena + slot)));
}
}
}
static char* key_time(grpc_error_times which) {
return gpr_strdup(error_time_name(which));
}
static char* fmt_time(gpr_timespec tm) {
char* out;
const char* pfx = "!!";
switch (tm.clock_type) {
case GPR_CLOCK_MONOTONIC:
pfx = "@monotonic:";
break;
case GPR_CLOCK_REALTIME:
pfx = "@";
break;
case GPR_CLOCK_PRECISE:
pfx = "@precise:";
break;
case GPR_TIMESPAN:
pfx = "";
break;
}
gpr_asprintf(&out, "\"%s%" PRId64 ".%09d\"", pfx, tm.tv_sec, tm.tv_nsec);
return out;
}
static void collect_times_kvs(grpc_error_handle err, kv_pairs* kvs) {
for (size_t which = 0; which < GRPC_ERROR_TIME_MAX; ++which) {
uint8_t slot = err->times[which];
if (slot != UINT8_MAX) {
append_kv(kvs, key_time(static_cast<grpc_error_times>(which)),
fmt_time(*reinterpret_cast<gpr_timespec*>(err->arena + slot)));
}
}
}
static void add_errs(grpc_error_handle err, char** s, size_t* sz, size_t* cap) {
uint8_t slot = err->first_err;
bool first = true;
while (slot != UINT8_MAX) {
grpc_linked_error* lerr =
reinterpret_cast<grpc_linked_error*>(err->arena + slot);
if (!first) append_chr(',', s, sz, cap);
first = false;
const char* e = grpc_error_string(lerr->err);
append_str(e, s, sz, cap);
GPR_ASSERT(err->last_err == slot ? lerr->next == UINT8_MAX
: lerr->next != UINT8_MAX);
slot = lerr->next;
}
}
static char* errs_string(grpc_error_handle err) {
char* s = nullptr;
size_t sz = 0;
size_t cap = 0;
append_chr('[', &s, &sz, &cap);
add_errs(err, &s, &sz, &cap);
append_chr(']', &s, &sz, &cap);
append_chr(0, &s, &sz, &cap);
return s;
}
static int cmp_kvs(const void* a, const void* b) {
const kv_pair* ka = static_cast<const kv_pair*>(a);
const kv_pair* kb = static_cast<const kv_pair*>(b);
return strcmp(ka->key, kb->key);
}
static char* finish_kvs(kv_pairs* kvs) {
char* s = nullptr;
size_t sz = 0;
size_t cap = 0;
append_chr('{', &s, &sz, &cap);
for (size_t i = 0; i < kvs->num_kvs; i++) {
if (i != 0) append_chr(',', &s, &sz, &cap);
append_esc_str(reinterpret_cast<const uint8_t*>(kvs->kvs[i].key),
strlen(kvs->kvs[i].key), &s, &sz, &cap);
gpr_free(kvs->kvs[i].key);
append_chr(':', &s, &sz, &cap);
append_str(kvs->kvs[i].value, &s, &sz, &cap);
gpr_free(kvs->kvs[i].value);
}
append_chr('}', &s, &sz, &cap);
append_chr(0, &s, &sz, &cap);
gpr_free(kvs->kvs);
return s;
}
const char* grpc_error_string(grpc_error_handle err) {
if (err == GRPC_ERROR_NONE) return no_error_string;
if (err == GRPC_ERROR_OOM) return oom_error_string;
if (err == GRPC_ERROR_CANCELLED) return cancelled_error_string;
void* p =
reinterpret_cast<void*>(gpr_atm_acq_load(&err->atomics.error_string));
if (p != nullptr) {
return static_cast<const char*>(p);
}
kv_pairs kvs;
memset(&kvs, 0, sizeof(kvs));
collect_ints_kvs(err, &kvs);
collect_strs_kvs(err, &kvs);
collect_times_kvs(err, &kvs);
if (err->first_err != UINT8_MAX) {
append_kv(&kvs, gpr_strdup("referenced_errors"), errs_string(err));
}
qsort(kvs.kvs, kvs.num_kvs, sizeof(kv_pair), cmp_kvs);
char* out = finish_kvs(&kvs);
if (!gpr_atm_rel_cas(&err->atomics.error_string, 0,
reinterpret_cast<gpr_atm>(out))) {
gpr_free(out);
out = reinterpret_cast<char*>(gpr_atm_acq_load(&err->atomics.error_string));
}
return out;
}
std::string grpc_error_std_string(grpc_error_handle error) {
return std::string(grpc_error_string(error));
}
grpc_error_handle grpc_os_error(const char* file, int line, int err,
const char* call_name) {
return grpc_error_set_str(
grpc_error_set_str(
grpc_error_set_int(
grpc_error_create(file, line,
grpc_slice_from_static_string(strerror(err)),
nullptr, 0),
GRPC_ERROR_INT_ERRNO, err),
GRPC_ERROR_STR_OS_ERROR, strerror(err)),
GRPC_ERROR_STR_SYSCALL, call_name);
}
#ifdef GPR_WINDOWS
grpc_error_handle grpc_wsa_error(const char* file, int line, int err,
const char* call_name) {
char* utf8_message = gpr_format_message(err);
grpc_error_handle error = grpc_error_set_int(
grpc_error_set_str(
grpc_error_set_str(
grpc_error_set_int(
grpc_error_create(file, line,
grpc_slice_from_static_string("OS Error"),
NULL, 0),
GRPC_ERROR_INT_WSA_ERROR, err),
GRPC_ERROR_STR_OS_ERROR, utf8_message),
GRPC_ERROR_STR_SYSCALL, call_name),
GRPC_ERROR_INT_GRPC_STATUS, GRPC_STATUS_UNAVAILABLE);
gpr_free(utf8_message);
return error;
}
#endif
bool grpc_log_error(const char* what, grpc_error_handle error, const char* file,
int line) {
GPR_DEBUG_ASSERT(error != GRPC_ERROR_NONE);
const char* msg = grpc_error_string(error);
gpr_log(file, line, GPR_LOG_SEVERITY_ERROR, "%s: %s", what, msg);
GRPC_ERROR_UNREF(error);
return false;
}
#endif // GRPC_ERROR_IS_ABSEIL_STATUS
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