base/test/scoped_task_environment.cc - platform/external/libchrome - Gitiles

 // Copyright 2017 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/test/scoped_task_environment.h"

 #include "base/bind_helpers.h"
 #include "base/logging.h"
 #include "base/run_loop.h"
 #include "base/synchronization/condition_variable.h"
 #include "base/synchronization/lock.h"
 #include "base/task_scheduler/post_task.h"
 #include "base/task_scheduler/task_scheduler.h"
 #include "base/task_scheduler/task_scheduler_impl.h"
 #include "base/threading/thread_task_runner_handle.h"
 #include "base/time/time.h"

 namespace base {
 namespace test {

 namespace {

 class TaskObserver : public MessageLoop::TaskObserver {
  public:
   TaskObserver() = default;

   // MessageLoop::TaskObserver:
   void WillProcessTask(const PendingTask& pending_task) override {}
   void DidProcessTask(const PendingTask& pending_task) override {
     ++task_count_;
   }

   int task_count() const { return task_count_; }

  private:
   int task_count_ = 0;

   DISALLOW_COPY_AND_ASSIGN(TaskObserver);
 };

 }  // namespace

 class ScopedTaskEnvironment::TestTaskTracker
     : public internal::TaskSchedulerImpl::TaskTrackerImpl {
  public:
   TestTaskTracker();

   void RegisterOnQueueEmptyClosure(OnceClosure queue_empty_closure);
   void AssertOnQueueEmptyClosureIsNull();

   // Allow running tasks.
   void AllowRunRask();

   // Disallow running tasks. No-ops and returns false if a task is running.
   bool DisallowRunTasks();

  private:
   friend class ScopedTaskEnvironment;

   // internal::TaskSchedulerImpl::TaskTrackerImpl:
   void PerformRunTask(std::unique_ptr<internal::Task> task,
                       internal::Sequence* sequence) override;
   void OnRunNextTaskCompleted() override;

   // Synchronizes accesses to members below.
   Lock lock_;

   // Closure posted to the main thread when the task queue becomes empty.
   OnceClosure queue_empty_closure_;

   // True if running tasks is allowed.
   bool can_run_tasks_ = true;

   // Signaled when |can_run_tasks_| becomes true.
   ConditionVariable can_run_tasks_cv_;

   // Number of tasks that are currently running.
   int num_tasks_running_ = 0;

   DISALLOW_COPY_AND_ASSIGN(TestTaskTracker);
 };

 ScopedTaskEnvironment::ScopedTaskEnvironment(
     MainThreadType main_thread_type,
     ExecutionMode execution_control_mode)
     : execution_control_mode_(execution_control_mode),
       message_loop_(main_thread_type == MainThreadType::DEFAULT
                         ? MessageLoop::TYPE_DEFAULT
                         : (main_thread_type == MainThreadType::UI
                                ? MessageLoop::TYPE_UI
                                : MessageLoop::TYPE_IO)),
       task_tracker_(new TestTaskTracker()) {
   CHECK(!TaskScheduler::GetInstance());

   // Instantiate a TaskScheduler with 1 thread in each of its 4 pools. Threads
   // stay alive even when they don't have work.
   constexpr int kMaxThreads = 1;
   const TimeDelta kSuggestedReclaimTime = TimeDelta::Max();
   const SchedulerWorkerPoolParams worker_pool_params(
       SchedulerWorkerPoolParams::StandbyThreadPolicy::ONE, kMaxThreads,
       kSuggestedReclaimTime);
   TaskScheduler::SetInstance(MakeUnique<internal::TaskSchedulerImpl>(
       "ScopedTaskEnvironment", WrapUnique(task_tracker_)));
   task_scheduler_ = TaskScheduler::GetInstance();
   TaskScheduler::GetInstance()->Start({worker_pool_params, worker_pool_params,
                                        worker_pool_params, worker_pool_params});

   if (execution_control_mode_ == ExecutionMode::QUEUED)
     CHECK(task_tracker_->DisallowRunTasks());
 }

 ScopedTaskEnvironment::~ScopedTaskEnvironment() {
   // Ideally this would RunLoop().RunUntilIdle() here to catch any errors or
   // infinite post loop in the remaining work but this isn't possible right now
   // because base::~MessageLoop() didn't use to do this and adding it here would
   // make the migration away from MessageLoop that much harder.
   CHECK_EQ(TaskScheduler::GetInstance(), task_scheduler_);
   // Without FlushForTesting(), DeleteSoon() and ReleaseSoon() tasks could be
   // skipped, resulting in memory leaks.
   task_tracker_->AllowRunRask();
   TaskScheduler::GetInstance()->FlushForTesting();
   TaskScheduler::GetInstance()->Shutdown();
   TaskScheduler::GetInstance()->JoinForTesting();
   TaskScheduler::SetInstance(nullptr);
 }

 scoped_refptr<base::SingleThreadTaskRunner>
 ScopedTaskEnvironment::GetMainThreadTaskRunner() {
   return message_loop_.task_runner();
 }

 void ScopedTaskEnvironment::RunUntilIdle() {
   for (;;) {
     RunLoop run_loop;

     // Register a closure to stop running tasks on the main thread when the
     // TaskScheduler queue becomes empty.
     task_tracker_->RegisterOnQueueEmptyClosure(run_loop.QuitWhenIdleClosure());

     // The closure registered above may never run if the TaskScheduler queue
     // starts empty. Post a TaskScheduler tasks to make sure that the queue
     // doesn't start empty.
     PostTask(FROM_HERE, BindOnce(&DoNothing));

     // Run main thread and TaskScheduler tasks.
     task_tracker_->AllowRunRask();
     TaskObserver task_observer;
     MessageLoop::current()->AddTaskObserver(&task_observer);
     run_loop.Run();
     MessageLoop::current()->RemoveTaskObserver(&task_observer);

     task_tracker_->AssertOnQueueEmptyClosureIsNull();

     // If tasks other than the QuitWhenIdle closure ran on the main thread, they
     // may have posted TaskScheduler tasks that didn't run yet. Another
     // iteration is required to run them.
     //
     // If the ExecutionMode is QUEUED and DisallowRunTasks() fails,
     // another iteration is required to make sure that RunUntilIdle() doesn't
     // return while TaskScheduler tasks are still allowed to run.
     //
     // Note: DisallowRunTasks() fails when a TaskScheduler task is running. A
     // TaskScheduler task may be running after the TaskScheduler queue became
     // empty even if no tasks ran on the main thread in these cases:
     // - An undelayed task became ripe for execution.
     // - A task was posted from an external thread.
     if (task_observer.task_count() == 1 &&
         (execution_control_mode_ != ExecutionMode::QUEUED ||
          task_tracker_->DisallowRunTasks())) {
       break;
     }
   }
 }

 ScopedTaskEnvironment::TestTaskTracker::TestTaskTracker()
     : can_run_tasks_cv_(&lock_) {}

 void ScopedTaskEnvironment::TestTaskTracker::RegisterOnQueueEmptyClosure(
     OnceClosure queue_empty_closure) {
   AutoLock auto_lock(lock_);
   CHECK(!queue_empty_closure_);
   queue_empty_closure_ = std::move(queue_empty_closure);
 }

 void ScopedTaskEnvironment::TestTaskTracker::AssertOnQueueEmptyClosureIsNull() {
   AutoLock auto_lock(lock_);
   CHECK(!queue_empty_closure_);
 }

 void ScopedTaskEnvironment::TestTaskTracker::AllowRunRask() {
   AutoLock auto_lock(lock_);
   can_run_tasks_ = true;
   can_run_tasks_cv_.Broadcast();
 }

 bool ScopedTaskEnvironment::TestTaskTracker::DisallowRunTasks() {
   AutoLock auto_lock(lock_);

   // Can't disallow run task if there are tasks running.
   if (num_tasks_running_ > 0)
     return false;

   can_run_tasks_ = false;
   return true;
 }

 void ScopedTaskEnvironment::TestTaskTracker::PerformRunTask(
     std::unique_ptr<internal::Task> task,
     internal::Sequence* sequence) {
   {
     AutoLock auto_lock(lock_);

     while (!can_run_tasks_)
       can_run_tasks_cv_.Wait();

     ++num_tasks_running_;
   }

   internal::TaskSchedulerImpl::TaskTrackerImpl::PerformRunTask(std::move(task),
                                                                sequence);

   {
     AutoLock auto_lock(lock_);

     CHECK_GT(num_tasks_running_, 0);
     CHECK(can_run_tasks_);

     --num_tasks_running_;
   }
 }

 void ScopedTaskEnvironment::TestTaskTracker::OnRunNextTaskCompleted() {
   // Notify the main thread when no tasks are running or queued.
   AutoLock auto_lock(lock_);
   if (num_tasks_running_ == 0 && GetNumPendingUndelayedTasksForTesting() == 0 &&
       queue_empty_closure_) {
     std::move(queue_empty_closure_).Run();
   }
 }

 }  // namespace test
 }  // namespace base
	// Copyright 2017 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/test/scoped_task_environment.h"

	#include "base/bind_helpers.h"
	#include "base/logging.h"
	#include "base/run_loop.h"
	#include "base/synchronization/condition_variable.h"
	#include "base/synchronization/lock.h"
	#include "base/task_scheduler/post_task.h"
	#include "base/task_scheduler/task_scheduler.h"
	#include "base/task_scheduler/task_scheduler_impl.h"
	#include "base/threading/thread_task_runner_handle.h"
	#include "base/time/time.h"

	namespace base {
	namespace test {

	namespace {

	class TaskObserver : public MessageLoop::TaskObserver {
	public:
	TaskObserver() = default;

	// MessageLoop::TaskObserver:
	void WillProcessTask(const PendingTask& pending_task) override {}
	void DidProcessTask(const PendingTask& pending_task) override {
	++task_count_;
	}

	int task_count() const { return task_count_; }

	private:
	int task_count_ = 0;

	DISALLOW_COPY_AND_ASSIGN(TaskObserver);
	};

	} // namespace

	class ScopedTaskEnvironment::TestTaskTracker
	: public internal::TaskSchedulerImpl::TaskTrackerImpl {
	public:
	TestTaskTracker();

	void RegisterOnQueueEmptyClosure(OnceClosure queue_empty_closure);
	void AssertOnQueueEmptyClosureIsNull();

	// Allow running tasks.
	void AllowRunRask();

	// Disallow running tasks. No-ops and returns false if a task is running.
	bool DisallowRunTasks();

	private:
	friend class ScopedTaskEnvironment;

	// internal::TaskSchedulerImpl::TaskTrackerImpl:
	void PerformRunTask(std::unique_ptr<internal::Task> task,
	internal::Sequence* sequence) override;
	void OnRunNextTaskCompleted() override;

	// Synchronizes accesses to members below.
	Lock lock_;

	// Closure posted to the main thread when the task queue becomes empty.
	OnceClosure queue_empty_closure_;

	// True if running tasks is allowed.
	bool can_run_tasks_ = true;

	// Signaled when \|can_run_tasks_\| becomes true.
	ConditionVariable can_run_tasks_cv_;

	// Number of tasks that are currently running.
	int num_tasks_running_ = 0;

	DISALLOW_COPY_AND_ASSIGN(TestTaskTracker);
	};

	ScopedTaskEnvironment::ScopedTaskEnvironment(
	MainThreadType main_thread_type,
	ExecutionMode execution_control_mode)
	: execution_control_mode_(execution_control_mode),
	message_loop_(main_thread_type == MainThreadType::DEFAULT
	? MessageLoop::TYPE_DEFAULT
	: (main_thread_type == MainThreadType::UI
	? MessageLoop::TYPE_UI
	: MessageLoop::TYPE_IO)),
	task_tracker_(new TestTaskTracker()) {
	CHECK(!TaskScheduler::GetInstance());

	// Instantiate a TaskScheduler with 1 thread in each of its 4 pools. Threads
	// stay alive even when they don't have work.
	constexpr int kMaxThreads = 1;
	const TimeDelta kSuggestedReclaimTime = TimeDelta::Max();
	const SchedulerWorkerPoolParams worker_pool_params(
	SchedulerWorkerPoolParams::StandbyThreadPolicy::ONE, kMaxThreads,
	kSuggestedReclaimTime);
	TaskScheduler::SetInstance(MakeUnique<internal::TaskSchedulerImpl>(
	"ScopedTaskEnvironment", WrapUnique(task_tracker_)));
	task_scheduler_ = TaskScheduler::GetInstance();
	TaskScheduler::GetInstance()->Start({worker_pool_params, worker_pool_params,
	worker_pool_params, worker_pool_params});

	if (execution_control_mode_ == ExecutionMode::QUEUED)
	CHECK(task_tracker_->DisallowRunTasks());
	}

	ScopedTaskEnvironment::~ScopedTaskEnvironment() {
	// Ideally this would RunLoop().RunUntilIdle() here to catch any errors or
	// infinite post loop in the remaining work but this isn't possible right now
	// because base::~MessageLoop() didn't use to do this and adding it here would
	// make the migration away from MessageLoop that much harder.
	CHECK_EQ(TaskScheduler::GetInstance(), task_scheduler_);
	// Without FlushForTesting(), DeleteSoon() and ReleaseSoon() tasks could be
	// skipped, resulting in memory leaks.
	task_tracker_->AllowRunRask();
	TaskScheduler::GetInstance()->FlushForTesting();
	TaskScheduler::GetInstance()->Shutdown();
	TaskScheduler::GetInstance()->JoinForTesting();
	TaskScheduler::SetInstance(nullptr);
	}

	scoped_refptr<base::SingleThreadTaskRunner>
	ScopedTaskEnvironment::GetMainThreadTaskRunner() {
	return message_loop_.task_runner();
	}

	void ScopedTaskEnvironment::RunUntilIdle() {
	for (;;) {
	RunLoop run_loop;

	// Register a closure to stop running tasks on the main thread when the
	// TaskScheduler queue becomes empty.
	task_tracker_->RegisterOnQueueEmptyClosure(run_loop.QuitWhenIdleClosure());

	// The closure registered above may never run if the TaskScheduler queue
	// starts empty. Post a TaskScheduler tasks to make sure that the queue
	// doesn't start empty.
	PostTask(FROM_HERE, BindOnce(&DoNothing));

	// Run main thread and TaskScheduler tasks.
	task_tracker_->AllowRunRask();
	TaskObserver task_observer;
	MessageLoop::current()->AddTaskObserver(&task_observer);
	run_loop.Run();
	MessageLoop::current()->RemoveTaskObserver(&task_observer);

	task_tracker_->AssertOnQueueEmptyClosureIsNull();

	// If tasks other than the QuitWhenIdle closure ran on the main thread, they
	// may have posted TaskScheduler tasks that didn't run yet. Another
	// iteration is required to run them.
	//
	// If the ExecutionMode is QUEUED and DisallowRunTasks() fails,
	// another iteration is required to make sure that RunUntilIdle() doesn't
	// return while TaskScheduler tasks are still allowed to run.
	//
	// Note: DisallowRunTasks() fails when a TaskScheduler task is running. A
	// TaskScheduler task may be running after the TaskScheduler queue became
	// empty even if no tasks ran on the main thread in these cases:
	// - An undelayed task became ripe for execution.
	// - A task was posted from an external thread.
	if (task_observer.task_count() == 1 &&
	(execution_control_mode_ != ExecutionMode::QUEUED \|\|
	task_tracker_->DisallowRunTasks())) {
	break;
	}
	}
	}

	ScopedTaskEnvironment::TestTaskTracker::TestTaskTracker()
	: can_run_tasks_cv_(&lock_) {}

	void ScopedTaskEnvironment::TestTaskTracker::RegisterOnQueueEmptyClosure(
	OnceClosure queue_empty_closure) {
	AutoLock auto_lock(lock_);
	CHECK(!queue_empty_closure_);
	queue_empty_closure_ = std::move(queue_empty_closure);
	}

	void ScopedTaskEnvironment::TestTaskTracker::AssertOnQueueEmptyClosureIsNull() {
	AutoLock auto_lock(lock_);
	CHECK(!queue_empty_closure_);
	}

	void ScopedTaskEnvironment::TestTaskTracker::AllowRunRask() {
	AutoLock auto_lock(lock_);
	can_run_tasks_ = true;
	can_run_tasks_cv_.Broadcast();
	}

	bool ScopedTaskEnvironment::TestTaskTracker::DisallowRunTasks() {
	AutoLock auto_lock(lock_);

	// Can't disallow run task if there are tasks running.
	if (num_tasks_running_ > 0)
	return false;

	can_run_tasks_ = false;
	return true;
	}

	void ScopedTaskEnvironment::TestTaskTracker::PerformRunTask(
	std::unique_ptr<internal::Task> task,
	internal::Sequence* sequence) {
	{
	AutoLock auto_lock(lock_);

	while (!can_run_tasks_)
	can_run_tasks_cv_.Wait();

	++num_tasks_running_;
	}

	internal::TaskSchedulerImpl::TaskTrackerImpl::PerformRunTask(std::move(task),
	sequence);

	{
	AutoLock auto_lock(lock_);

	CHECK_GT(num_tasks_running_, 0);
	CHECK(can_run_tasks_);

	--num_tasks_running_;
	}
	}

	void ScopedTaskEnvironment::TestTaskTracker::OnRunNextTaskCompleted() {
	// Notify the main thread when no tasks are running or queued.
	AutoLock auto_lock(lock_);
	if (num_tasks_running_ == 0 && GetNumPendingUndelayedTasksForTesting() == 0 &&
	queue_empty_closure_) {
	std::move(queue_empty_closure_).Run();
	}
	}

	} // namespace test
	} // namespace base