// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef BASE_THREADING_THREAD_LOCAL_STORAGE_H_ #define BASE_THREADING_THREAD_LOCAL_STORAGE_H_ #include #include "base/base_export.h" #include "build/build_config.h" #if BUILDFLAG(IS_WIN) #include "base/win/windows_types.h" #elif BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA) #include #endif namespace base { class SamplingHeapProfiler; namespace debug { class GlobalActivityTracker; } // namespace debug namespace trace_event { class MallocDumpProvider; } // namespace trace_event namespace internal { class ThreadLocalStorageTestInternal; // WARNING: You should *NOT* use this class directly. // PlatformThreadLocalStorage is a low-level abstraction of the OS's TLS // interface. Instead, you should use one of the following: // * ThreadLocalOwnedPointer (from thread_local.h) for unique_ptrs. // * ThreadLocalStorage::StaticSlot/Slot for more direct control of the slot. class BASE_EXPORT PlatformThreadLocalStorage { public: #if BUILDFLAG(IS_WIN) typedef unsigned long TLSKey; enum : unsigned { TLS_KEY_OUT_OF_INDEXES = TLS_OUT_OF_INDEXES }; #elif BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA) typedef pthread_key_t TLSKey; // The following is a "reserved key" which is used in our generic Chromium // ThreadLocalStorage implementation. We expect that an OS will not return // such a key, but if it is returned (i.e., the OS tries to allocate it) we // will just request another key. enum { TLS_KEY_OUT_OF_INDEXES = 0x7FFFFFFF }; #endif // The following methods need to be supported on each OS platform, so that // the Chromium ThreadLocalStore functionality can be constructed. // Chromium will use these methods to acquire a single OS slot, and then use // that to support a much larger number of Chromium slots (independent of the // OS restrictions). // The following returns true if it successfully is able to return an OS // key in |key|. static bool AllocTLS(TLSKey* key); // Note: FreeTLS() doesn't have to be called, it is fine with this leak, OS // might not reuse released slot, you might just reset the TLS value with // SetTLSValue(). static void FreeTLS(TLSKey key); static void SetTLSValue(TLSKey key, void* value); static void* GetTLSValue(TLSKey key) { #if BUILDFLAG(IS_WIN) return TlsGetValue(key); #elif BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA) return pthread_getspecific(key); #endif } // Each platform (OS implementation) is required to call this method on each // terminating thread when the thread is about to terminate. This method // will then call all registered destructors for slots in Chromium // ThreadLocalStorage, until there are no slot values remaining as having // been set on this thread. // Destructors may end up being called multiple times on a terminating // thread, as other destructors may re-set slots that were previously // destroyed. #if BUILDFLAG(IS_WIN) // Since Windows which doesn't support TLS destructor, the implementation // should use GetTLSValue() to retrieve the value of TLS slot. static void OnThreadExit(); #elif BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA) // |Value| is the data stored in TLS slot, The implementation can't use // GetTLSValue() to retrieve the value of slot as it has already been reset // in Posix. static void OnThreadExit(void* value); #endif }; } // namespace internal // Wrapper for thread local storage. This class doesn't do much except provide // an API for portability. class BASE_EXPORT ThreadLocalStorage { public: // Prototype for the TLS destructor function, which can be optionally used to // cleanup thread local storage on thread exit. 'value' is the data that is // stored in thread local storage. typedef void (*TLSDestructorFunc)(void* value); // A key representing one value stored in TLS. Use as a class member or a // local variable. If you need a static storage duration variable, use the // following pattern with a NoDestructor: // void MyDestructorFunc(void* value); // ThreadLocalStorage::Slot& ImportantContentTLS() { // static NoDestructor important_content_tls( // &MyDestructorFunc); // return *important_content_tls; // } class BASE_EXPORT Slot final { public: // |destructor| is a pointer to a function to perform per-thread cleanup of // this object. If set to nullptr, no cleanup is done for this TLS slot. explicit Slot(TLSDestructorFunc destructor = nullptr); Slot(const Slot&) = delete; Slot& operator=(const Slot&) = delete; // If a destructor was set for this slot, removes the destructor so that // remaining threads exiting will not free data. ~Slot(); // Get the thread-local value stored in slot 'slot'. // Values are guaranteed to initially be zero. void* Get() const; // Set the thread-local value stored in slot 'slot' to // value 'value'. void Set(void* value); private: void Initialize(TLSDestructorFunc destructor); void Free(); static constexpr size_t kInvalidSlotValue = static_cast(-1); size_t slot_ = kInvalidSlotValue; uint32_t version_ = 0; }; ThreadLocalStorage(const ThreadLocalStorage&) = delete; ThreadLocalStorage& operator=(const ThreadLocalStorage&) = delete; private: // In most cases, most callers should not need access to HasBeenDestroyed(). // If you are working in code that runs during thread destruction, contact the // base OWNERs for advice and then make a friend request. // // Returns |true| if Chrome's implementation of TLS is being or has been // destroyed during thread destruction. Attempting to call Slot::Get() during // destruction is disallowed and will hit a DCHECK. Any code that relies on // TLS during thread destruction must first check this method before calling // Slot::Get(). friend class SequenceCheckerImpl; friend class SamplingHeapProfiler; friend class ThreadCheckerImpl; friend class internal::ThreadLocalStorageTestInternal; friend class trace_event::MallocDumpProvider; friend class debug::GlobalActivityTracker; static bool HasBeenDestroyed(); }; } // namespace base #endif // BASE_THREADING_THREAD_LOCAL_STORAGE_H_