content/browser/startup_task_runner_unittest.cc - chromium/src - Git at Google

 // Copyright 2013 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 "content/browser/startup_task_runner.h"

 #include <utility>

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "base/callback.h"
 #include "base/location.h"
 #include "base/run_loop.h"
 #include "base/single_thread_task_runner.h"
 #include "base/task_runner.h"

 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace content {
 namespace {

 using base::Closure;
 using testing::_;
 using testing::Assign;
 using testing::Invoke;

 int observer_calls = 0;
 int task_count = 0;
 int observer_result;

 void Observer(int result) {
   observer_calls++;
   observer_result = result;
 }

 class StartupTaskRunnerTest : public testing::Test {
  public:
   void SetUp() override {
     last_task_ = 0;
     observer_calls = 0;
     task_count = 0;
   }

   int Task1() {
     last_task_ = 1;
     task_count++;
     return 0;
   }

   int Task2() {
     last_task_ = 2;
     task_count++;
     return 0;
   }

   int FailingTask() {
     // Task returning failure
     last_task_ = 3;
     task_count++;
     return 1;
   }

   int GetLastTask() { return last_task_; }

  private:

   int last_task_;
 };

 // We can't use the real message loop, even if we want to, since doing so on
 // Android requires a complex Java infrastructure. The test would have to built
 // as a content_shell test; but content_shell startup invokes the class we are
 // trying to test.
 //
 // The mocks are not directly in TaskRunnerProxy because reference counted
 // objects seem to confuse the mocking framework

 class MockTaskRunner {
  public:
   MOCK_METHOD2(PostDelayedTask, bool(const base::Location&, base::TimeDelta));
   MOCK_METHOD2(PostNonNestableDelayedTask,
                bool(const base::Location&, base::TimeDelta));
 };

 class TaskRunnerProxy : public base::SingleThreadTaskRunner {
  public:
   TaskRunnerProxy(MockTaskRunner* mock) : mock_(mock) {}
   bool RunsTasksInCurrentSequence() const override { return true; }
   bool PostDelayedTask(const base::Location& location,
                        base::OnceClosure closure,
                        base::TimeDelta delta) override {
     last_task_ = std::move(closure);
     return mock_->PostDelayedTask(location, delta);
   }
   bool PostNonNestableDelayedTask(const base::Location& location,
                                   base::OnceClosure closure,
                                   base::TimeDelta delta) override {
     last_task_ = std::move(closure);
     return mock_->PostNonNestableDelayedTask(location, delta);
   }

   base::OnceClosure TakeLastTaskClosure() { return std::move(last_task_); }

  private:
   ~TaskRunnerProxy() override {}

   MockTaskRunner* mock_;
   base::OnceClosure last_task_;
 };

 TEST_F(StartupTaskRunnerTest, SynchronousExecution) {
   MockTaskRunner mock_runner;
   scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

   EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
   EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

   StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

   StartupTask task1 =
       base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
   runner.AddTask(std::move(task1));
   EXPECT_EQ(GetLastTask(), 0);
   StartupTask task2 =
       base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
   runner.AddTask(std::move(task2));

   // Nothing should run until we tell them to.
   EXPECT_EQ(GetLastTask(), 0);
   runner.RunAllTasksNow();

   // On an immediate StartupTaskRunner the tasks should now all have run.
   EXPECT_EQ(GetLastTask(), 2);

   EXPECT_EQ(task_count, 2);
   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(observer_result, 0);

   // Running the tasks asynchronously shouldn't do anything
   // In particular Post... should not be called
   runner.StartRunningTasksAsync();

   // No more tasks should be run and the observer should not have been called
   // again
   EXPECT_EQ(task_count, 2);
   EXPECT_EQ(observer_calls, 1);
 }

 TEST_F(StartupTaskRunnerTest, NullObserver) {
   MockTaskRunner mock_runner;
   scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

   EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
   EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

   StartupTaskRunner runner(base::OnceCallback<void(int)>(), proxy);

   StartupTask task1 =
       base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
   runner.AddTask(std::move(task1));
   EXPECT_EQ(GetLastTask(), 0);
   StartupTask task2 =
       base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
   runner.AddTask(std::move(task2));

   // Nothing should run until we tell them to.
   EXPECT_EQ(GetLastTask(), 0);
   runner.RunAllTasksNow();

   // On an immediate StartupTaskRunner the tasks should now all have run.
   EXPECT_EQ(GetLastTask(), 2);
   EXPECT_EQ(task_count, 2);

   // Running the tasks asynchronously shouldn't do anything
   // In particular Post... should not be called
   runner.StartRunningTasksAsync();

   // No more tasks should have been run
   EXPECT_EQ(task_count, 2);

   EXPECT_EQ(observer_calls, 0);
 }

 TEST_F(StartupTaskRunnerTest, SynchronousExecutionFailedTask) {
   MockTaskRunner mock_runner;
   scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

   EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
   EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

   StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

   StartupTask task3 =
       base::Bind(&StartupTaskRunnerTest::FailingTask, base::Unretained(this));
   runner.AddTask(std::move(task3));
   EXPECT_EQ(GetLastTask(), 0);
   StartupTask task2 =
       base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
   runner.AddTask(std::move(task2));

   // Nothing should run until we tell them to.
   EXPECT_EQ(GetLastTask(), 0);
   runner.RunAllTasksNow();

   // Only the first task should have run, since it failed
   EXPECT_EQ(GetLastTask(), 3);
   EXPECT_EQ(task_count, 1);
   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(observer_result, 1);

   // After a failed task all remaining tasks should be cancelled
   // In particular Post... should not be called by running asynchronously
   runner.StartRunningTasksAsync();

   // The observer should only be called the first time the queue completes and
   // no more tasks should have run
   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(task_count, 1);
 }

 TEST_F(StartupTaskRunnerTest, AsynchronousExecution) {

   MockTaskRunner mock_runner;
   scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

   EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
   EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(
                                _, base::TimeDelta::FromMilliseconds(0)))
       .Times(testing::Between(2, 3))
       .WillRepeatedly(testing::Return(true));

   StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

   StartupTask task1 =
       base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
   runner.AddTask(std::move(task1));
   StartupTask task2 =
       base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
   runner.AddTask(std::move(task2));

   // Nothing should run until we tell them to.
   EXPECT_EQ(GetLastTask(), 0);
   runner.StartRunningTasksAsync();

   // No tasks should have run yet, since we the message loop hasn't run.
   EXPECT_EQ(GetLastTask(), 0);

   // Fake the actual message loop. Each time a task is run a new task should
   // be added to the queue, hence updating "task". The loop should actually run
   // at most 3 times (once for each task plus possibly once for the observer),
   // the "4" is a backstop.
   for (int i = 0; i < 4 && observer_calls == 0; i++) {
     proxy->TakeLastTaskClosure().Run();
     EXPECT_EQ(i + 1, GetLastTask());
   }
   EXPECT_EQ(task_count, 2);
   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(observer_result, 0);

   // Check that running synchronously now doesn't do anything

   runner.RunAllTasksNow();
   EXPECT_EQ(task_count, 2);
   EXPECT_EQ(observer_calls, 1);
 }

 TEST_F(StartupTaskRunnerTest, AsynchronousExecutionFailedTask) {

   MockTaskRunner mock_runner;
   scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

   EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
   EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(
                                _, base::TimeDelta::FromMilliseconds(0)))
       .Times(testing::Between(1, 2))
       .WillRepeatedly(testing::Return(true));

   StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

   StartupTask task3 =
       base::Bind(&StartupTaskRunnerTest::FailingTask, base::Unretained(this));
   runner.AddTask(std::move(task3));
   StartupTask task2 =
       base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
   runner.AddTask(std::move(task2));

   // Nothing should run until we tell them to.
   EXPECT_EQ(GetLastTask(), 0);
   runner.StartRunningTasksAsync();

   // No tasks should have run yet, since we the message loop hasn't run.
   EXPECT_EQ(GetLastTask(), 0);

   // Fake the actual message loop. Each time a task is run a new task should
   // be added to the queue, hence updating "task". The loop should actually run
   // at most twice (once for the failed task plus possibly once for the
   // observer), the "4" is a backstop.
   for (int i = 0; i < 4 && observer_calls == 0; i++)
     proxy->TakeLastTaskClosure().Run();
   EXPECT_EQ(GetLastTask(), 3);
   EXPECT_EQ(task_count, 1);

   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(observer_result, 1);

   // Check that running synchronously now doesn't do anything
   runner.RunAllTasksNow();
   EXPECT_EQ(observer_calls, 1);
   EXPECT_EQ(task_count, 1);
 }
 }  // namespace
 }  // namespace content
	// Copyright 2013 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 "content/browser/startup_task_runner.h"

	#include <utility>

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "base/callback.h"
	#include "base/location.h"
	#include "base/run_loop.h"
	#include "base/single_thread_task_runner.h"
	#include "base/task_runner.h"

	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace content {
	namespace {

	using base::Closure;
	using testing::_;
	using testing::Assign;
	using testing::Invoke;

	int observer_calls = 0;
	int task_count = 0;
	int observer_result;

	void Observer(int result) {
	observer_calls++;
	observer_result = result;
	}

	class StartupTaskRunnerTest : public testing::Test {
	public:
	void SetUp() override {
	last_task_ = 0;
	observer_calls = 0;
	task_count = 0;
	}

	int Task1() {
	last_task_ = 1;
	task_count++;
	return 0;
	}

	int Task2() {
	last_task_ = 2;
	task_count++;
	return 0;
	}

	int FailingTask() {
	// Task returning failure
	last_task_ = 3;
	task_count++;
	return 1;
	}

	int GetLastTask() { return last_task_; }

	private:

	int last_task_;
	};

	// We can't use the real message loop, even if we want to, since doing so on
	// Android requires a complex Java infrastructure. The test would have to built
	// as a content_shell test; but content_shell startup invokes the class we are
	// trying to test.
	//
	// The mocks are not directly in TaskRunnerProxy because reference counted
	// objects seem to confuse the mocking framework

	class MockTaskRunner {
	public:
	MOCK_METHOD2(PostDelayedTask, bool(const base::Location&, base::TimeDelta));
	MOCK_METHOD2(PostNonNestableDelayedTask,
	bool(const base::Location&, base::TimeDelta));
	};

	class TaskRunnerProxy : public base::SingleThreadTaskRunner {
	public:
	TaskRunnerProxy(MockTaskRunner* mock) : mock_(mock) {}
	bool RunsTasksInCurrentSequence() const override { return true; }
	bool PostDelayedTask(const base::Location& location,
	base::OnceClosure closure,
	base::TimeDelta delta) override {
	last_task_ = std::move(closure);
	return mock_->PostDelayedTask(location, delta);
	}
	bool PostNonNestableDelayedTask(const base::Location& location,
	base::OnceClosure closure,
	base::TimeDelta delta) override {
	last_task_ = std::move(closure);
	return mock_->PostNonNestableDelayedTask(location, delta);
	}

	base::OnceClosure TakeLastTaskClosure() { return std::move(last_task_); }

	private:
	~TaskRunnerProxy() override {}

	MockTaskRunner* mock_;
	base::OnceClosure last_task_;
	};

	TEST_F(StartupTaskRunnerTest, SynchronousExecution) {
	MockTaskRunner mock_runner;
	scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

	EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
	EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

	StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

	StartupTask task1 =
	base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
	runner.AddTask(std::move(task1));
	EXPECT_EQ(GetLastTask(), 0);
	StartupTask task2 =
	base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
	runner.AddTask(std::move(task2));

	// Nothing should run until we tell them to.
	EXPECT_EQ(GetLastTask(), 0);
	runner.RunAllTasksNow();

	// On an immediate StartupTaskRunner the tasks should now all have run.
	EXPECT_EQ(GetLastTask(), 2);

	EXPECT_EQ(task_count, 2);
	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(observer_result, 0);

	// Running the tasks asynchronously shouldn't do anything
	// In particular Post... should not be called
	runner.StartRunningTasksAsync();

	// No more tasks should be run and the observer should not have been called
	// again
	EXPECT_EQ(task_count, 2);
	EXPECT_EQ(observer_calls, 1);
	}

	TEST_F(StartupTaskRunnerTest, NullObserver) {
	MockTaskRunner mock_runner;
	scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

	EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
	EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

	StartupTaskRunner runner(base::OnceCallback<void(int)>(), proxy);

	StartupTask task1 =
	base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
	runner.AddTask(std::move(task1));
	EXPECT_EQ(GetLastTask(), 0);
	StartupTask task2 =
	base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
	runner.AddTask(std::move(task2));

	// Nothing should run until we tell them to.
	EXPECT_EQ(GetLastTask(), 0);
	runner.RunAllTasksNow();

	// On an immediate StartupTaskRunner the tasks should now all have run.
	EXPECT_EQ(GetLastTask(), 2);
	EXPECT_EQ(task_count, 2);

	// Running the tasks asynchronously shouldn't do anything
	// In particular Post... should not be called
	runner.StartRunningTasksAsync();

	// No more tasks should have been run
	EXPECT_EQ(task_count, 2);

	EXPECT_EQ(observer_calls, 0);
	}

	TEST_F(StartupTaskRunnerTest, SynchronousExecutionFailedTask) {
	MockTaskRunner mock_runner;
	scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

	EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
	EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(_, _)).Times(0);

	StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

	StartupTask task3 =
	base::Bind(&StartupTaskRunnerTest::FailingTask, base::Unretained(this));
	runner.AddTask(std::move(task3));
	EXPECT_EQ(GetLastTask(), 0);
	StartupTask task2 =
	base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
	runner.AddTask(std::move(task2));

	// Nothing should run until we tell them to.
	EXPECT_EQ(GetLastTask(), 0);
	runner.RunAllTasksNow();

	// Only the first task should have run, since it failed
	EXPECT_EQ(GetLastTask(), 3);
	EXPECT_EQ(task_count, 1);
	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(observer_result, 1);

	// After a failed task all remaining tasks should be cancelled
	// In particular Post... should not be called by running asynchronously
	runner.StartRunningTasksAsync();

	// The observer should only be called the first time the queue completes and
	// no more tasks should have run
	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(task_count, 1);
	}

	TEST_F(StartupTaskRunnerTest, AsynchronousExecution) {

	MockTaskRunner mock_runner;
	scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

	EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
	EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(
	_, base::TimeDelta::FromMilliseconds(0)))
	.Times(testing::Between(2, 3))
	.WillRepeatedly(testing::Return(true));

	StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

	StartupTask task1 =
	base::Bind(&StartupTaskRunnerTest::Task1, base::Unretained(this));
	runner.AddTask(std::move(task1));
	StartupTask task2 =
	base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
	runner.AddTask(std::move(task2));

	// Nothing should run until we tell them to.
	EXPECT_EQ(GetLastTask(), 0);
	runner.StartRunningTasksAsync();

	// No tasks should have run yet, since we the message loop hasn't run.
	EXPECT_EQ(GetLastTask(), 0);

	// Fake the actual message loop. Each time a task is run a new task should
	// be added to the queue, hence updating "task". The loop should actually run
	// at most 3 times (once for each task plus possibly once for the observer),
	// the "4" is a backstop.
	for (int i = 0; i < 4 && observer_calls == 0; i++) {
	proxy->TakeLastTaskClosure().Run();
	EXPECT_EQ(i + 1, GetLastTask());
	}
	EXPECT_EQ(task_count, 2);
	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(observer_result, 0);

	// Check that running synchronously now doesn't do anything

	runner.RunAllTasksNow();
	EXPECT_EQ(task_count, 2);
	EXPECT_EQ(observer_calls, 1);
	}

	TEST_F(StartupTaskRunnerTest, AsynchronousExecutionFailedTask) {

	MockTaskRunner mock_runner;
	scoped_refptr<TaskRunnerProxy> proxy = new TaskRunnerProxy(&mock_runner);

	EXPECT_CALL(mock_runner, PostDelayedTask(_, _)).Times(0);
	EXPECT_CALL(mock_runner, PostNonNestableDelayedTask(
	_, base::TimeDelta::FromMilliseconds(0)))
	.Times(testing::Between(1, 2))
	.WillRepeatedly(testing::Return(true));

	StartupTaskRunner runner(base::BindOnce(&Observer), proxy);

	StartupTask task3 =
	base::Bind(&StartupTaskRunnerTest::FailingTask, base::Unretained(this));
	runner.AddTask(std::move(task3));
	StartupTask task2 =
	base::Bind(&StartupTaskRunnerTest::Task2, base::Unretained(this));
	runner.AddTask(std::move(task2));

	// Nothing should run until we tell them to.
	EXPECT_EQ(GetLastTask(), 0);
	runner.StartRunningTasksAsync();

	// No tasks should have run yet, since we the message loop hasn't run.
	EXPECT_EQ(GetLastTask(), 0);

	// Fake the actual message loop. Each time a task is run a new task should
	// be added to the queue, hence updating "task". The loop should actually run
	// at most twice (once for the failed task plus possibly once for the
	// observer), the "4" is a backstop.
	for (int i = 0; i < 4 && observer_calls == 0; i++)
	proxy->TakeLastTaskClosure().Run();
	EXPECT_EQ(GetLastTask(), 3);
	EXPECT_EQ(task_count, 1);

	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(observer_result, 1);

	// Check that running synchronously now doesn't do anything
	runner.RunAllTasksNow();
	EXPECT_EQ(observer_calls, 1);
	EXPECT_EQ(task_count, 1);
	}
	} // namespace
	} // namespace content