base/threading/thread.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/threading/thread.h"

 #include "base/bind.h"
 #include "base/lazy_instance.h"
 #include "base/third_party/dynamic_annotations/dynamic_annotations.h"
 #include "base/threading/thread_id_name_manager.h"
 #include "base/threading/thread_local.h"
 #include "base/threading/thread_restrictions.h"
 #include "base/synchronization/waitable_event.h"

 #if defined(OS_WIN)
 #include "base/win/scoped_com_initializer.h"
 #endif

 namespace base {

 namespace {

 // We use this thread-local variable to record whether or not a thread exited
 // because its Stop method was called.  This allows us to catch cases where
 // MessageLoop::QuitWhenIdle() is called directly, which is unexpected when
 // using a Thread to setup and run a MessageLoop.
 base::LazyInstance<base::ThreadLocalBoolean> lazy_tls_bool =
     LAZY_INSTANCE_INITIALIZER;

 }  // namespace

 // This is used to trigger the message loop to exit.
 void ThreadQuitHelper() {
   MessageLoop::current()->QuitWhenIdle();
   Thread::SetThreadWasQuitProperly(true);
 }

 // Used to pass data to ThreadMain.  This structure is allocated on the stack
 // from within StartWithOptions.
 struct Thread::StartupData {
   // We get away with a const reference here because of how we are allocated.
   const Thread::Options& options;

   // Used to synchronize thread startup.
   WaitableEvent event;

   explicit StartupData(const Options& opt)
       : options(opt),
         event(false, false) {}
 };

 Thread::Options::Options()
     : message_loop_type(MessageLoop::TYPE_DEFAULT),
       stack_size(0) {
 }

 Thread::Options::Options(MessageLoop::Type type,
                          size_t size)
     : message_loop_type(type),
       stack_size(size) {
 }

 Thread::Options::~Options() {
 }

 Thread::Thread(const std::string& name)
     :
 #if defined(OS_WIN)
       com_status_(NONE),
 #endif
       started_(false),
       stopping_(false),
       running_(false),
       startup_data_(NULL),
       thread_(0),
       message_loop_(NULL),
       thread_id_(kInvalidThreadId),
       name_(name) {
 }

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

 bool Thread::Start() {
   Options options;
 #if defined(OS_WIN)
   if (com_status_ == STA)
     options.message_loop_type = MessageLoop::TYPE_UI;
 #endif
   return StartWithOptions(options);
 }

 bool Thread::StartWithOptions(const Options& options) {
   DCHECK(!message_loop_);
 #if defined(OS_WIN)
   DCHECK((com_status_ != STA) ||
       (options.message_loop_type == MessageLoop::TYPE_UI));
 #endif

   SetThreadWasQuitProperly(false);

   StartupData startup_data(options);
   startup_data_ = &startup_data;

   if (!PlatformThread::Create(options.stack_size, this, &thread_)) {
     DLOG(ERROR) << "failed to create thread";
     startup_data_ = NULL;
     return false;
   }

   // Wait for the thread to start and initialize message_loop_
   base::ThreadRestrictions::ScopedAllowWait allow_wait;
   startup_data.event.Wait();

   // set it to NULL so we don't keep a pointer to some object on the stack.
   startup_data_ = NULL;
   started_ = true;

   DCHECK(message_loop_);
   return true;
 }

 void Thread::Stop() {
   if (!started_)
     return;

   StopSoon();

   // Wait for the thread to exit.
   //
   // TODO(darin): Unfortunately, we need to keep message_loop_ around until
   // the thread exits.  Some consumers are abusing the API.  Make them stop.
   //
   PlatformThread::Join(thread_);

   // The thread should NULL message_loop_ on exit.
   DCHECK(!message_loop_);

   // The thread no longer needs to be joined.
   started_ = false;

   stopping_ = false;
 }

 void Thread::StopSoon() {
   // We should only be called on the same thread that started us.

   // Reading thread_id_ without a lock can lead to a benign data race
   // with ThreadMain, so we annotate it to stay silent under ThreadSanitizer.
   DCHECK_NE(ANNOTATE_UNPROTECTED_READ(thread_id_), PlatformThread::CurrentId());

   if (stopping_ || !message_loop_)
     return;

   stopping_ = true;
   message_loop_->PostTask(FROM_HERE, base::Bind(&ThreadQuitHelper));
 }

 bool Thread::IsRunning() const {
   return running_;
 }

 void Thread::SetPriority(ThreadPriority priority) {
   // The thread must be started (and id known) for this to be
   // compatible with all platforms.
   DCHECK_NE(thread_id_, kInvalidThreadId);
   PlatformThread::SetThreadPriority(thread_, priority);
 }

 void Thread::Run(MessageLoop* message_loop) {
   message_loop->Run();
 }

 void Thread::SetThreadWasQuitProperly(bool flag) {
   lazy_tls_bool.Pointer()->Set(flag);
 }

 bool Thread::GetThreadWasQuitProperly() {
   bool quit_properly = true;
 #ifndef NDEBUG
   quit_properly = lazy_tls_bool.Pointer()->Get();
 #endif
   return quit_properly;
 }

 void Thread::ThreadMain() {
   {
     // The message loop for this thread.
     // Allocated on the heap to centralize any leak reports at this line.
     scoped_ptr<MessageLoop> message_loop;
     if (!startup_data_->options.message_pump_factory.is_null()) {
       message_loop.reset(
           new MessageLoop(startup_data_->options.message_pump_factory.Run()));
     } else {
       message_loop.reset(
           new MessageLoop(startup_data_->options.message_loop_type));
     }

     // Complete the initialization of our Thread object.
     thread_id_ = PlatformThread::CurrentId();
     PlatformThread::SetName(name_.c_str());
     ANNOTATE_THREAD_NAME(name_.c_str());  // Tell the name to race detector.
     message_loop->set_thread_name(name_);
     message_loop_ = message_loop.get();

 #if defined(OS_WIN)
     scoped_ptr<win::ScopedCOMInitializer> com_initializer;
     if (com_status_ != NONE) {
       com_initializer.reset((com_status_ == STA) ?
           new win::ScopedCOMInitializer() :
           new win::ScopedCOMInitializer(win::ScopedCOMInitializer::kMTA));
     }
 #endif

     // Let the thread do extra initialization.
     // Let's do this before signaling we are started.
     Init();

     running_ = true;
     startup_data_->event.Signal();
     // startup_data_ can't be touched anymore since the starting thread is now
     // unlocked.

     Run(message_loop_);
     running_ = false;

     // Let the thread do extra cleanup.
     CleanUp();

 #if defined(OS_WIN)
     com_initializer.reset();
 #endif

     // Assert that MessageLoop::Quit was called by ThreadQuitHelper.
     DCHECK(GetThreadWasQuitProperly());

     // We can't receive messages anymore.
     message_loop_ = NULL;
   }
 }

 }  // namespace base
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/threading/thread.h"

	#include "base/bind.h"
	#include "base/lazy_instance.h"
	#include "base/third_party/dynamic_annotations/dynamic_annotations.h"
	#include "base/threading/thread_id_name_manager.h"
	#include "base/threading/thread_local.h"
	#include "base/threading/thread_restrictions.h"
	#include "base/synchronization/waitable_event.h"

	#if defined(OS_WIN)
	#include "base/win/scoped_com_initializer.h"
	#endif

	namespace base {

	namespace {

	// We use this thread-local variable to record whether or not a thread exited
	// because its Stop method was called. This allows us to catch cases where
	// MessageLoop::QuitWhenIdle() is called directly, which is unexpected when
	// using a Thread to setup and run a MessageLoop.
	base::LazyInstance<base::ThreadLocalBoolean> lazy_tls_bool =
	LAZY_INSTANCE_INITIALIZER;

	} // namespace

	// This is used to trigger the message loop to exit.
	void ThreadQuitHelper() {
	MessageLoop::current()->QuitWhenIdle();
	Thread::SetThreadWasQuitProperly(true);
	}

	// Used to pass data to ThreadMain. This structure is allocated on the stack
	// from within StartWithOptions.
	struct Thread::StartupData {
	// We get away with a const reference here because of how we are allocated.
	const Thread::Options& options;

	// Used to synchronize thread startup.
	WaitableEvent event;

	explicit StartupData(const Options& opt)
	: options(opt),
	event(false, false) {}
	};

	Thread::Options::Options()
	: message_loop_type(MessageLoop::TYPE_DEFAULT),
	stack_size(0) {
	}

	Thread::Options::Options(MessageLoop::Type type,
	size_t size)
	: message_loop_type(type),
	stack_size(size) {
	}

	Thread::Options::~Options() {
	}

	Thread::Thread(const std::string& name)
	:
	#if defined(OS_WIN)
	com_status_(NONE),
	#endif
	started_(false),
	stopping_(false),
	running_(false),
	startup_data_(NULL),
	thread_(0),
	message_loop_(NULL),
	thread_id_(kInvalidThreadId),
	name_(name) {
	}

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

	bool Thread::Start() {
	Options options;
	#if defined(OS_WIN)
	if (com_status_ == STA)
	options.message_loop_type = MessageLoop::TYPE_UI;
	#endif
	return StartWithOptions(options);
	}

	bool Thread::StartWithOptions(const Options& options) {
	DCHECK(!message_loop_);
	#if defined(OS_WIN)
	DCHECK((com_status_ != STA) \|\|
	(options.message_loop_type == MessageLoop::TYPE_UI));
	#endif

	SetThreadWasQuitProperly(false);

	StartupData startup_data(options);
	startup_data_ = &startup_data;

	if (!PlatformThread::Create(options.stack_size, this, &thread_)) {
	DLOG(ERROR) << "failed to create thread";
	startup_data_ = NULL;
	return false;
	}

	// Wait for the thread to start and initialize message_loop_
	base::ThreadRestrictions::ScopedAllowWait allow_wait;
	startup_data.event.Wait();

	// set it to NULL so we don't keep a pointer to some object on the stack.
	startup_data_ = NULL;
	started_ = true;

	DCHECK(message_loop_);
	return true;
	}

	void Thread::Stop() {
	if (!started_)
	return;

	StopSoon();

	// Wait for the thread to exit.
	//
	// TODO(darin): Unfortunately, we need to keep message_loop_ around until
	// the thread exits. Some consumers are abusing the API. Make them stop.
	//
	PlatformThread::Join(thread_);

	// The thread should NULL message_loop_ on exit.
	DCHECK(!message_loop_);

	// The thread no longer needs to be joined.
	started_ = false;

	stopping_ = false;
	}

	void Thread::StopSoon() {
	// We should only be called on the same thread that started us.

	// Reading thread_id_ without a lock can lead to a benign data race
	// with ThreadMain, so we annotate it to stay silent under ThreadSanitizer.
	DCHECK_NE(ANNOTATE_UNPROTECTED_READ(thread_id_), PlatformThread::CurrentId());

	if (stopping_ \|\| !message_loop_)
	return;

	stopping_ = true;
	message_loop_->PostTask(FROM_HERE, base::Bind(&ThreadQuitHelper));
	}

	bool Thread::IsRunning() const {
	return running_;
	}

	void Thread::SetPriority(ThreadPriority priority) {
	// The thread must be started (and id known) for this to be
	// compatible with all platforms.
	DCHECK_NE(thread_id_, kInvalidThreadId);
	PlatformThread::SetThreadPriority(thread_, priority);
	}

	void Thread::Run(MessageLoop* message_loop) {
	message_loop->Run();
	}

	void Thread::SetThreadWasQuitProperly(bool flag) {
	lazy_tls_bool.Pointer()->Set(flag);
	}

	bool Thread::GetThreadWasQuitProperly() {
	bool quit_properly = true;
	#ifndef NDEBUG
	quit_properly = lazy_tls_bool.Pointer()->Get();
	#endif
	return quit_properly;
	}

	void Thread::ThreadMain() {
	{
	// The message loop for this thread.
	// Allocated on the heap to centralize any leak reports at this line.
	scoped_ptr<MessageLoop> message_loop;
	if (!startup_data_->options.message_pump_factory.is_null()) {
	message_loop.reset(
	new MessageLoop(startup_data_->options.message_pump_factory.Run()));
	} else {
	message_loop.reset(
	new MessageLoop(startup_data_->options.message_loop_type));
	}

	// Complete the initialization of our Thread object.
	thread_id_ = PlatformThread::CurrentId();
	PlatformThread::SetName(name_.c_str());
	ANNOTATE_THREAD_NAME(name_.c_str()); // Tell the name to race detector.
	message_loop->set_thread_name(name_);
	message_loop_ = message_loop.get();

	#if defined(OS_WIN)
	scoped_ptr<win::ScopedCOMInitializer> com_initializer;
	if (com_status_ != NONE) {
	com_initializer.reset((com_status_ == STA) ?
	new win::ScopedCOMInitializer() :
	new win::ScopedCOMInitializer(win::ScopedCOMInitializer::kMTA));
	}
	#endif

	// Let the thread do extra initialization.
	// Let's do this before signaling we are started.
	Init();

	running_ = true;
	startup_data_->event.Signal();
	// startup_data_ can't be touched anymore since the starting thread is now
	// unlocked.

	Run(message_loop_);
	running_ = false;

	// Let the thread do extra cleanup.
	CleanUp();

	#if defined(OS_WIN)
	com_initializer.reset();
	#endif

	// Assert that MessageLoop::Quit was called by ThreadQuitHelper.
	DCHECK(GetThreadWasQuitProperly());

	// We can't receive messages anymore.
	message_loop_ = NULL;
	}
	}

	} // namespace base