rtc_base/thread.cc - src - Git at Google

 /*
  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "rtc_base/thread.h"

 #if defined(WEBRTC_WIN)
 #include <comdef.h>
 #elif defined(WEBRTC_POSIX)
 #include <time.h>
 #else
 #error "Either WEBRTC_WIN or WEBRTC_POSIX needs to be defined."
 #endif

 #include "rtc_base/checks.h"
 #include "rtc_base/logging.h"
 #include "rtc_base/nullsocketserver.h"
 #include "rtc_base/platform_thread.h"
 #include "rtc_base/stringutils.h"
 #include "rtc_base/timeutils.h"
 #include "rtc_base/trace_event.h"

 namespace rtc {

 ThreadManager* ThreadManager::Instance() {
   RTC_DEFINE_STATIC_LOCAL(ThreadManager, thread_manager, ());
   return &thread_manager;
 }

 ThreadManager::~ThreadManager() {
   // By above RTC_DEFINE_STATIC_LOCAL.
   RTC_NOTREACHED() << "ThreadManager should never be destructed.";
 }

 // static
 Thread* Thread::Current() {
   ThreadManager* manager = ThreadManager::Instance();
   Thread* thread = manager->CurrentThread();

 #ifndef NO_MAIN_THREAD_WRAPPING
   // Only autowrap the thread which instantiated the ThreadManager.
   if (!thread && manager->IsMainThread()) {
     thread = new Thread(SocketServer::CreateDefault());
     thread->WrapCurrentWithThreadManager(manager, true);
   }
 #endif

   return thread;
 }

 #if defined(WEBRTC_POSIX)
 #if !defined(WEBRTC_MAC)
 ThreadManager::ThreadManager() : main_thread_ref_(CurrentThreadRef()) {
   pthread_key_create(&key_, nullptr);
 }
 #endif

 Thread *ThreadManager::CurrentThread() {
   return static_cast<Thread *>(pthread_getspecific(key_));
 }

 void ThreadManager::SetCurrentThread(Thread* thread) {
 #if RTC_DLOG_IS_ON
   if (CurrentThread() && thread) {
     RTC_DLOG(LS_ERROR) << "SetCurrentThread: Overwriting an existing value?";
   }
 #endif  // RTC_DLOG_IS_ON
   pthread_setspecific(key_, thread);
 }
 #endif

 #if defined(WEBRTC_WIN)
 ThreadManager::ThreadManager()
     : key_(TlsAlloc()), main_thread_ref_(CurrentThreadRef()) {
 }

 Thread *ThreadManager::CurrentThread() {
   return static_cast<Thread *>(TlsGetValue(key_));
 }

 void ThreadManager::SetCurrentThread(Thread *thread) {
   RTC_DCHECK(!CurrentThread() || !thread);
   TlsSetValue(key_, thread);
 }
 #endif

 Thread *ThreadManager::WrapCurrentThread() {
   Thread* result = CurrentThread();
   if (nullptr == result) {
     result = new Thread(SocketServer::CreateDefault());
     result->WrapCurrentWithThreadManager(this, true);
   }
   return result;
 }

 void ThreadManager::UnwrapCurrentThread() {
   Thread* t = CurrentThread();
   if (t && !(t->IsOwned())) {
     t->UnwrapCurrent();
     delete t;
   }
 }

 bool ThreadManager::IsMainThread() {
   return IsThreadRefEqual(CurrentThreadRef(), main_thread_ref_);
 }

 Thread::ScopedDisallowBlockingCalls::ScopedDisallowBlockingCalls()
   : thread_(Thread::Current()),
     previous_state_(thread_->SetAllowBlockingCalls(false)) {
 }

 Thread::ScopedDisallowBlockingCalls::~ScopedDisallowBlockingCalls() {
   RTC_DCHECK(thread_->IsCurrent());
   thread_->SetAllowBlockingCalls(previous_state_);
 }

 // DEPRECATED.
 Thread::Thread() : Thread(SocketServer::CreateDefault()) {}

 Thread::Thread(SocketServer* ss) : Thread(ss, /*do_init=*/true) {}

 Thread::Thread(std::unique_ptr<SocketServer> ss)
     : Thread(std::move(ss), /*do_init=*/true) {}

 Thread::Thread(SocketServer* ss, bool do_init)
     : MessageQueue(ss, /*do_init=*/false) {
   SetName("Thread", this);  // default name
   if (do_init) {
     DoInit();
   }
 }

 Thread::Thread(std::unique_ptr<SocketServer> ss, bool do_init)
     : MessageQueue(std::move(ss), false) {
   SetName("Thread", this);  // default name
   if (do_init) {
     DoInit();
   }
 }

 Thread::~Thread() {
   Stop();
   DoDestroy();
 }

 bool Thread::IsCurrent() const {
   return ThreadManager::Instance()->CurrentThread() == this;
 }

 std::unique_ptr<Thread> Thread::CreateWithSocketServer() {
   return std::unique_ptr<Thread>(new Thread(SocketServer::CreateDefault()));
 }

 std::unique_ptr<Thread> Thread::Create() {
   return std::unique_ptr<Thread>(
       new Thread(std::unique_ptr<SocketServer>(new NullSocketServer())));
 }

 bool Thread::SleepMs(int milliseconds) {
   AssertBlockingIsAllowedOnCurrentThread();

 #if defined(WEBRTC_WIN)
   ::Sleep(milliseconds);
   return true;
 #else
   // POSIX has both a usleep() and a nanosleep(), but the former is deprecated,
   // so we use nanosleep() even though it has greater precision than necessary.
   struct timespec ts;
   ts.tv_sec = milliseconds / 1000;
   ts.tv_nsec = (milliseconds % 1000) * 1000000;
   int ret = nanosleep(&ts, nullptr);
   if (ret != 0) {
     RTC_LOG_ERR(LS_WARNING) << "nanosleep() returning early";
     return false;
   }
   return true;
 #endif
 }

 bool Thread::SetName(const std::string& name, const void* obj) {
   RTC_DCHECK(!IsRunning());

   name_ = name;
   if (obj) {
     char buf[16];
     sprintfn(buf, sizeof(buf), " 0x%p", obj);
     name_ += buf;
   }
   return true;
 }

 bool Thread::Start(Runnable* runnable) {
   RTC_DCHECK(!IsRunning());

   if (IsRunning())
     return false;

   Restart();  // reset IsQuitting() if the thread is being restarted

   // Make sure that ThreadManager is created on the main thread before
   // we start a new thread.
   ThreadManager::Instance();

   owned_ = true;

   ThreadInit* init = new ThreadInit;
   init->thread = this;
   init->runnable = runnable;
 #if defined(WEBRTC_WIN)
   thread_ = CreateThread(nullptr, 0, PreRun, init, 0, &thread_id_);
   if (!thread_) {
     return false;
   }
 #elif defined(WEBRTC_POSIX)
   pthread_attr_t attr;
   pthread_attr_init(&attr);

   int error_code = pthread_create(&thread_, &attr, PreRun, init);
   if (0 != error_code) {
     RTC_LOG(LS_ERROR) << "Unable to create pthread, error " << error_code;
     thread_ = 0;
     return false;
   }
   RTC_DCHECK(thread_);
 #endif
   return true;
 }

 bool Thread::WrapCurrent() {
   return WrapCurrentWithThreadManager(ThreadManager::Instance(), true);
 }

 void Thread::UnwrapCurrent() {
   // Clears the platform-specific thread-specific storage.
   ThreadManager::Instance()->SetCurrentThread(nullptr);
 #if defined(WEBRTC_WIN)
   if (thread_ != nullptr) {
     if (!CloseHandle(thread_)) {
       RTC_LOG_GLE(LS_ERROR)
           << "When unwrapping thread, failed to close handle.";
     }
     thread_ = nullptr;
     thread_id_ = 0;
   }
 #elif defined(WEBRTC_POSIX)
   thread_ = 0;
 #endif
 }

 void Thread::SafeWrapCurrent() {
   WrapCurrentWithThreadManager(ThreadManager::Instance(), false);
 }

 void Thread::Join() {
   if (!IsRunning())
     return;

   RTC_DCHECK(!IsCurrent());
   if (Current() && !Current()->blocking_calls_allowed_) {
     RTC_LOG(LS_WARNING) << "Waiting for the thread to join, "
                         << "but blocking calls have been disallowed";
   }

 #if defined(WEBRTC_WIN)
   RTC_DCHECK(thread_ != nullptr);
   WaitForSingleObject(thread_, INFINITE);
   CloseHandle(thread_);
   thread_ = nullptr;
   thread_id_ = 0;
 #elif defined(WEBRTC_POSIX)
   pthread_join(thread_, nullptr);
   thread_ = 0;
 #endif
 }

 bool Thread::SetAllowBlockingCalls(bool allow) {
   RTC_DCHECK(IsCurrent());
   bool previous = blocking_calls_allowed_;
   blocking_calls_allowed_ = allow;
   return previous;
 }

 // static
 void Thread::AssertBlockingIsAllowedOnCurrentThread() {
 #if !defined(NDEBUG)
   Thread* current = Thread::Current();
   RTC_DCHECK(!current || current->blocking_calls_allowed_);
 #endif
 }

 // static
 #if !defined(WEBRTC_MAC)
 #if defined(WEBRTC_WIN)
 DWORD WINAPI Thread::PreRun(LPVOID pv) {
 #else
 void* Thread::PreRun(void* pv) {
 #endif
   ThreadInit* init = static_cast<ThreadInit*>(pv);
   ThreadManager::Instance()->SetCurrentThread(init->thread);
   rtc::SetCurrentThreadName(init->thread->name_.c_str());
   if (init->runnable) {
     init->runnable->Run(init->thread);
   } else {
     init->thread->Run();
   }
   ThreadManager::Instance()->SetCurrentThread(nullptr);
   delete init;
 #ifdef WEBRTC_WIN
   return 0;
 #else
   return nullptr;
 #endif
 }
 #endif

 void Thread::Run() {
   ProcessMessages(kForever);
 }

 bool Thread::IsOwned() {
   RTC_DCHECK(IsRunning());
   return owned_;
 }

 void Thread::Stop() {
   MessageQueue::Quit();
   Join();
 }

 void Thread::Send(const Location& posted_from,
                   MessageHandler* phandler,
                   uint32_t id,
                   MessageData* pdata) {
   if (IsQuitting())
     return;

   // Sent messages are sent to the MessageHandler directly, in the context
   // of "thread", like Win32 SendMessage. If in the right context,
   // call the handler directly.
   Message msg;
   msg.posted_from = posted_from;
   msg.phandler = phandler;
   msg.message_id = id;
   msg.pdata = pdata;
   if (IsCurrent()) {
     phandler->OnMessage(&msg);
     return;
   }

   AssertBlockingIsAllowedOnCurrentThread();

   AutoThread thread;
   Thread *current_thread = Thread::Current();
   RTC_DCHECK(current_thread != nullptr);  // AutoThread ensures this

   bool ready = false;
   {
     CritScope cs(&crit_);
     _SendMessage smsg;
     smsg.thread = current_thread;
     smsg.msg = msg;
     smsg.ready = &ready;
     sendlist_.push_back(smsg);
   }

   // Wait for a reply
   WakeUpSocketServer();

   bool waited = false;
   crit_.Enter();
   while (!ready) {
     crit_.Leave();
     // We need to limit "ReceiveSends" to |this| thread to avoid an arbitrary
     // thread invoking calls on the current thread.
     current_thread->ReceiveSendsFromThread(this);
     current_thread->socketserver()->Wait(kForever, false);
     waited = true;
     crit_.Enter();
   }
   crit_.Leave();

   // Our Wait loop above may have consumed some WakeUp events for this
   // MessageQueue, that weren't relevant to this Send.  Losing these WakeUps can
   // cause problems for some SocketServers.
   //
   // Concrete example:
   // Win32SocketServer on thread A calls Send on thread B.  While processing the
   // message, thread B Posts a message to A.  We consume the wakeup for that
   // Post while waiting for the Send to complete, which means that when we exit
   // this loop, we need to issue another WakeUp, or else the Posted message
   // won't be processed in a timely manner.

   if (waited) {
     current_thread->socketserver()->WakeUp();
   }
 }

 void Thread::ReceiveSends() {
   ReceiveSendsFromThread(nullptr);
 }

 void Thread::ReceiveSendsFromThread(const Thread* source) {
   // Receive a sent message. Cleanup scenarios:
   // - thread sending exits: We don't allow this, since thread can exit
   //   only via Join, so Send must complete.
   // - thread receiving exits: Wakeup/set ready in Thread::Clear()
   // - object target cleared: Wakeup/set ready in Thread::Clear()
   _SendMessage smsg;

   crit_.Enter();
   while (PopSendMessageFromThread(source, &smsg)) {
     crit_.Leave();

     smsg.msg.phandler->OnMessage(&smsg.msg);

     crit_.Enter();
     *smsg.ready = true;
     smsg.thread->socketserver()->WakeUp();
   }
   crit_.Leave();
 }

 bool Thread::PopSendMessageFromThread(const Thread* source, _SendMessage* msg) {
   for (std::list<_SendMessage>::iterator it = sendlist_.begin();
        it != sendlist_.end(); ++it) {
     if (it->thread == source || source == nullptr) {
       *msg = *it;
       sendlist_.erase(it);
       return true;
     }
   }
   return false;
 }

 void Thread::InvokeInternal(const Location& posted_from,
                             MessageHandler* handler) {
   TRACE_EVENT2("webrtc", "Thread::Invoke", "src_file_and_line",
                posted_from.file_and_line(), "src_func",
                posted_from.function_name());
   Send(posted_from, handler);
 }

 void Thread::Clear(MessageHandler* phandler,
                    uint32_t id,
                    MessageList* removed) {
   CritScope cs(&crit_);

   // Remove messages on sendlist_ with phandler
   // Object target cleared: remove from send list, wakeup/set ready
   // if sender not null.

   std::list<_SendMessage>::iterator iter = sendlist_.begin();
   while (iter != sendlist_.end()) {
     _SendMessage smsg = *iter;
     if (smsg.msg.Match(phandler, id)) {
       if (removed) {
         removed->push_back(smsg.msg);
       } else {
         delete smsg.msg.pdata;
       }
       iter = sendlist_.erase(iter);
       *smsg.ready = true;
       smsg.thread->socketserver()->WakeUp();
       continue;
     }
     ++iter;
   }

   MessageQueue::Clear(phandler, id, removed);
 }

 #if !defined(WEBRTC_MAC)
 // Note that these methods have a separate implementation for mac and ios
 // defined in webrtc/rtc_base/thread_darwin.mm.
 bool Thread::ProcessMessages(int cmsLoop) {
   // Using ProcessMessages with a custom clock for testing and a time greater
   // than 0 doesn't work, since it's not guaranteed to advance the custom
   // clock's time, and may get stuck in an infinite loop.
   RTC_DCHECK(GetClockForTesting() == nullptr || cmsLoop == 0 ||
              cmsLoop == kForever);
   int64_t msEnd = (kForever == cmsLoop) ? 0 : TimeAfter(cmsLoop);
   int cmsNext = cmsLoop;

   while (true) {
     Message msg;
     if (!Get(&msg, cmsNext))
       return !IsQuitting();
     Dispatch(&msg);

     if (cmsLoop != kForever) {
       cmsNext = static_cast<int>(TimeUntil(msEnd));
       if (cmsNext < 0)
         return true;
     }
   }
 }
 #endif

 bool Thread::WrapCurrentWithThreadManager(ThreadManager* thread_manager,
                                           bool need_synchronize_access) {
   RTC_DCHECK(!IsRunning());

 #if defined(WEBRTC_WIN)
   if (need_synchronize_access) {
     // We explicitly ask for no rights other than synchronization.
     // This gives us the best chance of succeeding.
     thread_ = OpenThread(SYNCHRONIZE, FALSE, GetCurrentThreadId());
     if (!thread_) {
       RTC_LOG_GLE(LS_ERROR) << "Unable to get handle to thread.";
       return false;
     }
     thread_id_ = GetCurrentThreadId();
   }
 #elif defined(WEBRTC_POSIX)
   thread_ = pthread_self();
 #endif
   owned_ = false;
   thread_manager->SetCurrentThread(this);
   return true;
 }

 bool Thread::IsRunning() {
 #if defined(WEBRTC_WIN)
   return thread_ != nullptr;
 #elif defined(WEBRTC_POSIX)
   return thread_ != 0;
 #endif
 }

 AutoThread::AutoThread()
     : Thread(SocketServer::CreateDefault(), /*do_init=*/false) {
   DoInit();
   if (!ThreadManager::Instance()->CurrentThread()) {
     ThreadManager::Instance()->SetCurrentThread(this);
   }
 }

 AutoThread::~AutoThread() {
   Stop();
   DoDestroy();
   if (ThreadManager::Instance()->CurrentThread() == this) {
     ThreadManager::Instance()->SetCurrentThread(nullptr);
   }
 }

 AutoSocketServerThread::AutoSocketServerThread(SocketServer* ss)
     : Thread(ss, /*do_init=*/false) {
   DoInit();
   old_thread_ = ThreadManager::Instance()->CurrentThread();
   // Temporarily set the current thread to nullptr so that we can keep checks
   // around that catch unintentional pointer overwrites.
   rtc::ThreadManager::Instance()->SetCurrentThread(nullptr);
   rtc::ThreadManager::Instance()->SetCurrentThread(this);
   if (old_thread_) {
     MessageQueueManager::Remove(old_thread_);
   }
 }

 AutoSocketServerThread::~AutoSocketServerThread() {
   RTC_DCHECK(ThreadManager::Instance()->CurrentThread() == this);
   // Some tests post destroy messages to this thread. To avoid memory
   // leaks, we have to process those messages. In particular
   // P2PTransportChannelPingTest, relying on the message posted in
   // cricket::Connection::Destroy.
   ProcessMessages(0);
   // Stop and destroy the thread before clearing it as the current thread.
   // Sometimes there are messages left in the MessageQueue that will be
   // destroyed by DoDestroy, and sometimes the destructors of the message and/or
   // its contents rely on this thread still being set as the current thread.
   Stop();
   DoDestroy();
   rtc::ThreadManager::Instance()->SetCurrentThread(nullptr);
   rtc::ThreadManager::Instance()->SetCurrentThread(old_thread_);
   if (old_thread_) {
     MessageQueueManager::Add(old_thread_);
   }
 }

 }  // namespace rtc
	/*
	* Copyright 2004 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "rtc_base/thread.h"

	#if defined(WEBRTC_WIN)
	#include <comdef.h>
	#elif defined(WEBRTC_POSIX)
	#include <time.h>
	#else
	#error "Either WEBRTC_WIN or WEBRTC_POSIX needs to be defined."
	#endif

	#include "rtc_base/checks.h"
	#include "rtc_base/logging.h"
	#include "rtc_base/nullsocketserver.h"
	#include "rtc_base/platform_thread.h"
	#include "rtc_base/stringutils.h"
	#include "rtc_base/timeutils.h"
	#include "rtc_base/trace_event.h"

	namespace rtc {

	ThreadManager* ThreadManager::Instance() {
	RTC_DEFINE_STATIC_LOCAL(ThreadManager, thread_manager, ());
	return &thread_manager;
	}

	ThreadManager::~ThreadManager() {
	// By above RTC_DEFINE_STATIC_LOCAL.
	RTC_NOTREACHED() << "ThreadManager should never be destructed.";
	}

	// static
	Thread* Thread::Current() {
	ThreadManager* manager = ThreadManager::Instance();
	Thread* thread = manager->CurrentThread();

	#ifndef NO_MAIN_THREAD_WRAPPING
	// Only autowrap the thread which instantiated the ThreadManager.
	if (!thread && manager->IsMainThread()) {
	thread = new Thread(SocketServer::CreateDefault());
	thread->WrapCurrentWithThreadManager(manager, true);
	}
	#endif

	return thread;
	}

	#if defined(WEBRTC_POSIX)
	#if !defined(WEBRTC_MAC)
	ThreadManager::ThreadManager() : main_thread_ref_(CurrentThreadRef()) {
	pthread_key_create(&key_, nullptr);
	}
	#endif

	Thread *ThreadManager::CurrentThread() {
	return static_cast<Thread *>(pthread_getspecific(key_));
	}

	void ThreadManager::SetCurrentThread(Thread* thread) {
	#if RTC_DLOG_IS_ON
	if (CurrentThread() && thread) {
	RTC_DLOG(LS_ERROR) << "SetCurrentThread: Overwriting an existing value?";
	}
	#endif // RTC_DLOG_IS_ON
	pthread_setspecific(key_, thread);
	}
	#endif

	#if defined(WEBRTC_WIN)
	ThreadManager::ThreadManager()
	: key_(TlsAlloc()), main_thread_ref_(CurrentThreadRef()) {
	}

	Thread *ThreadManager::CurrentThread() {
	return static_cast<Thread *>(TlsGetValue(key_));
	}

	void ThreadManager::SetCurrentThread(Thread *thread) {
	RTC_DCHECK(!CurrentThread() \|\| !thread);
	TlsSetValue(key_, thread);
	}
	#endif

	Thread *ThreadManager::WrapCurrentThread() {
	Thread* result = CurrentThread();
	if (nullptr == result) {
	result = new Thread(SocketServer::CreateDefault());
	result->WrapCurrentWithThreadManager(this, true);
	}
	return result;
	}

	void ThreadManager::UnwrapCurrentThread() {
	Thread* t = CurrentThread();
	if (t && !(t->IsOwned())) {
	t->UnwrapCurrent();
	delete t;
	}
	}

	bool ThreadManager::IsMainThread() {
	return IsThreadRefEqual(CurrentThreadRef(), main_thread_ref_);
	}

	Thread::ScopedDisallowBlockingCalls::ScopedDisallowBlockingCalls()
	: thread_(Thread::Current()),
	previous_state_(thread_->SetAllowBlockingCalls(false)) {
	}

	Thread::ScopedDisallowBlockingCalls::~ScopedDisallowBlockingCalls() {
	RTC_DCHECK(thread_->IsCurrent());
	thread_->SetAllowBlockingCalls(previous_state_);
	}

	// DEPRECATED.
	Thread::Thread() : Thread(SocketServer::CreateDefault()) {}

	Thread::Thread(SocketServer* ss) : Thread(ss, /do_init=/true) {}

	Thread::Thread(std::unique_ptr<SocketServer> ss)
	: Thread(std::move(ss), /do_init=/true) {}

	Thread::Thread(SocketServer* ss, bool do_init)
	: MessageQueue(ss, /do_init=/false) {
	SetName("Thread", this); // default name
	if (do_init) {
	DoInit();
	}
	}

	Thread::Thread(std::unique_ptr<SocketServer> ss, bool do_init)
	: MessageQueue(std::move(ss), false) {
	SetName("Thread", this); // default name
	if (do_init) {
	DoInit();
	}
	}

	Thread::~Thread() {
	Stop();
	DoDestroy();
	}

	bool Thread::IsCurrent() const {
	return ThreadManager::Instance()->CurrentThread() == this;
	}

	std::unique_ptr<Thread> Thread::CreateWithSocketServer() {
	return std::unique_ptr<Thread>(new Thread(SocketServer::CreateDefault()));
	}

	std::unique_ptr<Thread> Thread::Create() {
	return std::unique_ptr<Thread>(
	new Thread(std::unique_ptr<SocketServer>(new NullSocketServer())));
	}

	bool Thread::SleepMs(int milliseconds) {
	AssertBlockingIsAllowedOnCurrentThread();

	#if defined(WEBRTC_WIN)
	::Sleep(milliseconds);
	return true;
	#else
	// POSIX has both a usleep() and a nanosleep(), but the former is deprecated,
	// so we use nanosleep() even though it has greater precision than necessary.
	struct timespec ts;
	ts.tv_sec = milliseconds / 1000;
	ts.tv_nsec = (milliseconds % 1000) * 1000000;
	int ret = nanosleep(&ts, nullptr);
	if (ret != 0) {
	RTC_LOG_ERR(LS_WARNING) << "nanosleep() returning early";
	return false;
	}
	return true;
	#endif
	}

	bool Thread::SetName(const std::string& name, const void* obj) {
	RTC_DCHECK(!IsRunning());

	name_ = name;
	if (obj) {
	char buf[16];
	sprintfn(buf, sizeof(buf), " 0x%p", obj);
	name_ += buf;
	}
	return true;
	}

	bool Thread::Start(Runnable* runnable) {
	RTC_DCHECK(!IsRunning());

	if (IsRunning())
	return false;

	Restart(); // reset IsQuitting() if the thread is being restarted

	// Make sure that ThreadManager is created on the main thread before
	// we start a new thread.
	ThreadManager::Instance();

	owned_ = true;

	ThreadInit* init = new ThreadInit;
	init->thread = this;
	init->runnable = runnable;
	#if defined(WEBRTC_WIN)
	thread_ = CreateThread(nullptr, 0, PreRun, init, 0, &thread_id_);
	if (!thread_) {
	return false;
	}
	#elif defined(WEBRTC_POSIX)
	pthread_attr_t attr;
	pthread_attr_init(&attr);

	int error_code = pthread_create(&thread_, &attr, PreRun, init);
	if (0 != error_code) {
	RTC_LOG(LS_ERROR) << "Unable to create pthread, error " << error_code;
	thread_ = 0;
	return false;
	}
	RTC_DCHECK(thread_);
	#endif
	return true;
	}

	bool Thread::WrapCurrent() {
	return WrapCurrentWithThreadManager(ThreadManager::Instance(), true);
	}

	void Thread::UnwrapCurrent() {
	// Clears the platform-specific thread-specific storage.
	ThreadManager::Instance()->SetCurrentThread(nullptr);
	#if defined(WEBRTC_WIN)
	if (thread_ != nullptr) {
	if (!CloseHandle(thread_)) {
	RTC_LOG_GLE(LS_ERROR)
	<< "When unwrapping thread, failed to close handle.";
	}
	thread_ = nullptr;
	thread_id_ = 0;
	}
	#elif defined(WEBRTC_POSIX)
	thread_ = 0;
	#endif
	}

	void Thread::SafeWrapCurrent() {
	WrapCurrentWithThreadManager(ThreadManager::Instance(), false);
	}

	void Thread::Join() {
	if (!IsRunning())
	return;

	RTC_DCHECK(!IsCurrent());
	if (Current() && !Current()->blocking_calls_allowed_) {
	RTC_LOG(LS_WARNING) << "Waiting for the thread to join, "
	<< "but blocking calls have been disallowed";
	}

	#if defined(WEBRTC_WIN)
	RTC_DCHECK(thread_ != nullptr);
	WaitForSingleObject(thread_, INFINITE);
	CloseHandle(thread_);
	thread_ = nullptr;
	thread_id_ = 0;
	#elif defined(WEBRTC_POSIX)
	pthread_join(thread_, nullptr);
	thread_ = 0;
	#endif
	}

	bool Thread::SetAllowBlockingCalls(bool allow) {
	RTC_DCHECK(IsCurrent());
	bool previous = blocking_calls_allowed_;
	blocking_calls_allowed_ = allow;
	return previous;
	}

	// static
	void Thread::AssertBlockingIsAllowedOnCurrentThread() {
	#if !defined(NDEBUG)
	Thread* current = Thread::Current();
	RTC_DCHECK(!current \|\| current->blocking_calls_allowed_);
	#endif
	}

	// static
	#if !defined(WEBRTC_MAC)
	#if defined(WEBRTC_WIN)
	DWORD WINAPI Thread::PreRun(LPVOID pv) {
	#else
	void* Thread::PreRun(void* pv) {
	#endif
	ThreadInit* init = static_cast<ThreadInit*>(pv);
	ThreadManager::Instance()->SetCurrentThread(init->thread);
	rtc::SetCurrentThreadName(init->thread->name_.c_str());
	if (init->runnable) {
	init->runnable->Run(init->thread);
	} else {
	init->thread->Run();
	}
	ThreadManager::Instance()->SetCurrentThread(nullptr);
	delete init;
	#ifdef WEBRTC_WIN
	return 0;
	#else
	return nullptr;
	#endif
	}
	#endif

	void Thread::Run() {
	ProcessMessages(kForever);
	}

	bool Thread::IsOwned() {
	RTC_DCHECK(IsRunning());
	return owned_;
	}

	void Thread::Stop() {
	MessageQueue::Quit();
	Join();
	}

	void Thread::Send(const Location& posted_from,
	MessageHandler* phandler,
	uint32_t id,
	MessageData* pdata) {
	if (IsQuitting())
	return;

	// Sent messages are sent to the MessageHandler directly, in the context
	// of "thread", like Win32 SendMessage. If in the right context,
	// call the handler directly.
	Message msg;
	msg.posted_from = posted_from;
	msg.phandler = phandler;
	msg.message_id = id;
	msg.pdata = pdata;
	if (IsCurrent()) {
	phandler->OnMessage(&msg);
	return;
	}

	AssertBlockingIsAllowedOnCurrentThread();

	AutoThread thread;
	Thread *current_thread = Thread::Current();
	RTC_DCHECK(current_thread != nullptr); // AutoThread ensures this

	bool ready = false;
	{
	CritScope cs(&crit_);
	_SendMessage smsg;
	smsg.thread = current_thread;
	smsg.msg = msg;
	smsg.ready = &ready;
	sendlist_.push_back(smsg);
	}

	// Wait for a reply
	WakeUpSocketServer();

	bool waited = false;
	crit_.Enter();
	while (!ready) {
	crit_.Leave();
	// We need to limit "ReceiveSends" to \|this\| thread to avoid an arbitrary
	// thread invoking calls on the current thread.
	current_thread->ReceiveSendsFromThread(this);
	current_thread->socketserver()->Wait(kForever, false);
	waited = true;
	crit_.Enter();
	}
	crit_.Leave();

	// Our Wait loop above may have consumed some WakeUp events for this
	// MessageQueue, that weren't relevant to this Send. Losing these WakeUps can
	// cause problems for some SocketServers.
	//
	// Concrete example:
	// Win32SocketServer on thread A calls Send on thread B. While processing the
	// message, thread B Posts a message to A. We consume the wakeup for that
	// Post while waiting for the Send to complete, which means that when we exit
	// this loop, we need to issue another WakeUp, or else the Posted message
	// won't be processed in a timely manner.

	if (waited) {
	current_thread->socketserver()->WakeUp();
	}
	}

	void Thread::ReceiveSends() {
	ReceiveSendsFromThread(nullptr);
	}

	void Thread::ReceiveSendsFromThread(const Thread* source) {
	// Receive a sent message. Cleanup scenarios:
	// - thread sending exits: We don't allow this, since thread can exit
	// only via Join, so Send must complete.
	// - thread receiving exits: Wakeup/set ready in Thread::Clear()
	// - object target cleared: Wakeup/set ready in Thread::Clear()
	_SendMessage smsg;

	crit_.Enter();
	while (PopSendMessageFromThread(source, &smsg)) {
	crit_.Leave();

	smsg.msg.phandler->OnMessage(&smsg.msg);

	crit_.Enter();
	*smsg.ready = true;
	smsg.thread->socketserver()->WakeUp();
	}
	crit_.Leave();
	}

	bool Thread::PopSendMessageFromThread(const Thread* source, _SendMessage* msg) {
	for (std::list<_SendMessage>::iterator it = sendlist_.begin();
	it != sendlist_.end(); ++it) {
	if (it->thread == source \|\| source == nullptr) {
	msg = it;
	sendlist_.erase(it);
	return true;
	}
	}
	return false;
	}

	void Thread::InvokeInternal(const Location& posted_from,
	MessageHandler* handler) {
	TRACE_EVENT2("webrtc", "Thread::Invoke", "src_file_and_line",
	posted_from.file_and_line(), "src_func",
	posted_from.function_name());
	Send(posted_from, handler);
	}

	void Thread::Clear(MessageHandler* phandler,
	uint32_t id,
	MessageList* removed) {
	CritScope cs(&crit_);

	// Remove messages on sendlist_ with phandler
	// Object target cleared: remove from send list, wakeup/set ready
	// if sender not null.

	std::list<_SendMessage>::iterator iter = sendlist_.begin();
	while (iter != sendlist_.end()) {
	_SendMessage smsg = *iter;
	if (smsg.msg.Match(phandler, id)) {
	if (removed) {
	removed->push_back(smsg.msg);
	} else {
	delete smsg.msg.pdata;
	}
	iter = sendlist_.erase(iter);
	*smsg.ready = true;
	smsg.thread->socketserver()->WakeUp();
	continue;
	}
	++iter;
	}

	MessageQueue::Clear(phandler, id, removed);
	}

	#if !defined(WEBRTC_MAC)
	// Note that these methods have a separate implementation for mac and ios
	// defined in webrtc/rtc_base/thread_darwin.mm.
	bool Thread::ProcessMessages(int cmsLoop) {
	// Using ProcessMessages with a custom clock for testing and a time greater
	// than 0 doesn't work, since it's not guaranteed to advance the custom
	// clock's time, and may get stuck in an infinite loop.
	RTC_DCHECK(GetClockForTesting() == nullptr \|\| cmsLoop == 0 \|\|
	cmsLoop == kForever);
	int64_t msEnd = (kForever == cmsLoop) ? 0 : TimeAfter(cmsLoop);
	int cmsNext = cmsLoop;

	while (true) {
	Message msg;
	if (!Get(&msg, cmsNext))
	return !IsQuitting();
	Dispatch(&msg);

	if (cmsLoop != kForever) {
	cmsNext = static_cast<int>(TimeUntil(msEnd));
	if (cmsNext < 0)
	return true;
	}
	}
	}
	#endif

	bool Thread::WrapCurrentWithThreadManager(ThreadManager* thread_manager,
	bool need_synchronize_access) {
	RTC_DCHECK(!IsRunning());

	#if defined(WEBRTC_WIN)
	if (need_synchronize_access) {
	// We explicitly ask for no rights other than synchronization.
	// This gives us the best chance of succeeding.
	thread_ = OpenThread(SYNCHRONIZE, FALSE, GetCurrentThreadId());
	if (!thread_) {
	RTC_LOG_GLE(LS_ERROR) << "Unable to get handle to thread.";
	return false;
	}
	thread_id_ = GetCurrentThreadId();
	}
	#elif defined(WEBRTC_POSIX)
	thread_ = pthread_self();
	#endif
	owned_ = false;
	thread_manager->SetCurrentThread(this);
	return true;
	}

	bool Thread::IsRunning() {
	#if defined(WEBRTC_WIN)
	return thread_ != nullptr;
	#elif defined(WEBRTC_POSIX)
	return thread_ != 0;
	#endif
	}

	AutoThread::AutoThread()
	: Thread(SocketServer::CreateDefault(), /do_init=/false) {
	DoInit();
	if (!ThreadManager::Instance()->CurrentThread()) {
	ThreadManager::Instance()->SetCurrentThread(this);
	}
	}

	AutoThread::~AutoThread() {
	Stop();
	DoDestroy();
	if (ThreadManager::Instance()->CurrentThread() == this) {
	ThreadManager::Instance()->SetCurrentThread(nullptr);
	}
	}

	AutoSocketServerThread::AutoSocketServerThread(SocketServer* ss)
	: Thread(ss, /do_init=/false) {
	DoInit();
	old_thread_ = ThreadManager::Instance()->CurrentThread();
	// Temporarily set the current thread to nullptr so that we can keep checks
	// around that catch unintentional pointer overwrites.
	rtc::ThreadManager::Instance()->SetCurrentThread(nullptr);
	rtc::ThreadManager::Instance()->SetCurrentThread(this);
	if (old_thread_) {
	MessageQueueManager::Remove(old_thread_);
	}
	}

	AutoSocketServerThread::~AutoSocketServerThread() {
	RTC_DCHECK(ThreadManager::Instance()->CurrentThread() == this);
	// Some tests post destroy messages to this thread. To avoid memory
	// leaks, we have to process those messages. In particular
	// P2PTransportChannelPingTest, relying on the message posted in
	// cricket::Connection::Destroy.
	ProcessMessages(0);
	// Stop and destroy the thread before clearing it as the current thread.
	// Sometimes there are messages left in the MessageQueue that will be
	// destroyed by DoDestroy, and sometimes the destructors of the message and/or
	// its contents rely on this thread still being set as the current thread.
	Stop();
	DoDestroy();
	rtc::ThreadManager::Instance()->SetCurrentThread(nullptr);
	rtc::ThreadManager::Instance()->SetCurrentThread(old_thread_);
	if (old_thread_) {
	MessageQueueManager::Add(old_thread_);
	}
	}

	} // namespace rtc