// Copyright 2014 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. // An implementation of WebThread in terms of base::MessageLoop and // base::Thread #include "content/child/webthread_impl.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/message_loop/message_loop.h" #include "base/pending_task.h" #include "base/threading/platform_thread.h" namespace content { WebThreadBase::WebThreadBase() {} WebThreadBase::~WebThreadBase() {} class WebThreadBase::TaskObserverAdapter : public base::MessageLoop::TaskObserver { public: TaskObserverAdapter(WebThread::TaskObserver* observer) : observer_(observer) {} void WillProcessTask(const base::PendingTask& pending_task) override { observer_->willProcessTask(); } void DidProcessTask(const base::PendingTask& pending_task) override { observer_->didProcessTask(); } private: WebThread::TaskObserver* observer_; }; void WebThreadBase::addTaskObserver(TaskObserver* observer) { CHECK(isCurrentThread()); std::pair result = task_observer_map_.insert( std::make_pair(observer, static_cast(NULL))); if (result.second) result.first->second = new TaskObserverAdapter(observer); base::MessageLoop::current()->AddTaskObserver(result.first->second); } void WebThreadBase::removeTaskObserver(TaskObserver* observer) { CHECK(isCurrentThread()); TaskObserverMap::iterator iter = task_observer_map_.find(observer); if (iter == task_observer_map_.end()) return; base::MessageLoop::current()->RemoveTaskObserver(iter->second); delete iter->second; task_observer_map_.erase(iter); } WebThreadImpl::WebThreadImpl(const char* name) : thread_(new base::Thread(name)) { thread_->Start(); } // RunWebThreadTask takes the ownership of |task| from base::Closure and // deletes it on the first invocation of the closure for thread-safety. // base::Closure made from RunWebThreadTask is copyable but Closure::Run // should be called at most only once. // This is because WebThread::Task can contain RefPtr to a // thread-unsafe-reference-counted object (e.g. WorkerThreadTask can contain // RefPtr to WebKit's StringImpl), and if we don't delete |task| here, // it causes a race condition as follows: // [A] In task->run(), more RefPtr's to the refcounted object can be created, // and the reference counter of the object can be modified via these // RefPtr's (as intended) on the thread where the task is executed. // [B] However, base::Closure still retains the ownership of WebThread::Task // even after RunWebThreadTask is called. // When base::Closure is deleted, WebThread::Task is deleted and the // reference counter of the object is decreased by one, possibly from a // different thread from [A], which is a race condition. // Taking the ownership of |task| here by using scoped_ptr and base::Passed // removes the reference counter modification of [B] and the race condition. // When the closure never runs at all, the corresponding WebThread::Task is // destructed when base::Closure is deleted (like [B]). In this case, there // are no reference counter modification like [A] (because task->run() is not // executed), so there are no race conditions. // See https://crbug.com/390851 for more details. static void RunWebThreadTask(scoped_ptr task) { task->run(); } void WebThreadImpl::postTask(Task* task) { thread_->message_loop()->PostTask( FROM_HERE, base::Bind(RunWebThreadTask, base::Passed(scoped_ptr(task)))); } void WebThreadImpl::postDelayedTask(Task* task, long long delay_ms) { thread_->message_loop()->PostDelayedTask( FROM_HERE, base::Bind(RunWebThreadTask, base::Passed(scoped_ptr(task))), base::TimeDelta::FromMilliseconds(delay_ms)); } void WebThreadImpl::enterRunLoop() { CHECK(isCurrentThread()); CHECK(!thread_->message_loop()->is_running()); // We don't support nesting. thread_->message_loop()->Run(); } void WebThreadImpl::exitRunLoop() { CHECK(isCurrentThread()); CHECK(thread_->message_loop()->is_running()); thread_->message_loop()->Quit(); } bool WebThreadImpl::isCurrentThread() const { return thread_->thread_id() == base::PlatformThread::CurrentId(); } blink::PlatformThreadId WebThreadImpl::threadId() const { return thread_->thread_id(); } WebThreadImpl::~WebThreadImpl() { thread_->Stop(); } WebThreadImplForMessageLoop::WebThreadImplForMessageLoop( scoped_refptr main_thread_task_runner) : main_thread_task_runner_(main_thread_task_runner), thread_id_(base::PlatformThread::CurrentId()) {} void WebThreadImplForMessageLoop::postTask(Task* task) { main_thread_task_runner_->PostTask( FROM_HERE, base::Bind(RunWebThreadTask, base::Passed(make_scoped_ptr(task)))); } void WebThreadImplForMessageLoop::postDelayedTask(Task* task, long long delay_ms) { main_thread_task_runner_->PostDelayedTask( FROM_HERE, base::Bind(RunWebThreadTask, base::Passed(make_scoped_ptr(task))), base::TimeDelta::FromMilliseconds(delay_ms)); } void WebThreadImplForMessageLoop::enterRunLoop() { CHECK(isCurrentThread()); // We don't support nesting. CHECK(!base::MessageLoop::current()->is_running()); base::MessageLoop::current()->Run(); } void WebThreadImplForMessageLoop::exitRunLoop() { CHECK(isCurrentThread()); CHECK(base::MessageLoop::current()->is_running()); base::MessageLoop::current()->Quit(); } bool WebThreadImplForMessageLoop::isCurrentThread() const { return main_thread_task_runner_->BelongsToCurrentThread(); } blink::PlatformThreadId WebThreadImplForMessageLoop::threadId() const { return thread_id_; } WebThreadImplForMessageLoop::~WebThreadImplForMessageLoop() {} } // namespace content