// Copyright 2016 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/task/sequenced_task_runner.h" #include #include "base/functional/bind.h" #include "base/functional/callback.h" #include "base/functional/callback_helpers.h" #include "base/gtest_prod_util.h" #include "base/location.h" #include "base/memory/raw_ptr.h" #include "base/memory/scoped_refptr.h" #include "base/run_loop.h" #include "base/sequence_checker_impl.h" #include "base/task/sequenced_task_runner.h" #include "base/task/thread_pool.h" #include "base/test/bind.h" #include "base/test/gtest_util.h" #include "base/test/null_task_runner.h" #include "base/test/task_environment.h" #include "base/test/test_mock_time_task_runner.h" #include "base/test/test_simple_task_runner.h" #include "base/threading/thread.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class FlagOnDelete { public: FlagOnDelete(bool* deleted, scoped_refptr expected_deletion_sequence) : deleted_(deleted), expected_deletion_sequence_(std::move(expected_deletion_sequence)) {} FlagOnDelete(const FlagOnDelete&) = delete; FlagOnDelete& operator=(const FlagOnDelete&) = delete; ~FlagOnDelete() { EXPECT_FALSE(*deleted_); *deleted_ = true; if (expected_deletion_sequence_) EXPECT_TRUE(expected_deletion_sequence_->RunsTasksInCurrentSequence()); } private: raw_ptr deleted_; const scoped_refptr expected_deletion_sequence_; }; class SequencedTaskRunnerTest : public testing::Test { public: SequencedTaskRunnerTest(const SequencedTaskRunnerTest&) = delete; SequencedTaskRunnerTest& operator=(const SequencedTaskRunnerTest&) = delete; protected: SequencedTaskRunnerTest() : foreign_thread_("foreign") {} void SetUp() override { foreign_thread_.Start(); foreign_runner_ = foreign_thread_.task_runner(); } scoped_refptr foreign_runner_; Thread foreign_thread_; private: test::TaskEnvironment task_environment_; }; } // namespace using SequenceBoundUniquePtr = std::unique_ptr; TEST_F(SequencedTaskRunnerTest, OnTaskRunnerDeleterOnMainThread) { bool deleted_on_main_thread = false; SequenceBoundUniquePtr ptr( new FlagOnDelete(&deleted_on_main_thread, SequencedTaskRunner::GetCurrentDefault()), OnTaskRunnerDeleter(SequencedTaskRunner::GetCurrentDefault())); EXPECT_FALSE(deleted_on_main_thread); foreign_runner_->PostTask(FROM_HERE, DoNothingWithBoundArgs(std::move(ptr))); { RunLoop run_loop; foreign_runner_->PostTaskAndReply(FROM_HERE, BindOnce([] {}), run_loop.QuitClosure()); run_loop.Run(); } EXPECT_TRUE(deleted_on_main_thread); } TEST_F(SequencedTaskRunnerTest, OnTaskRunnerDeleterTargetStoppedEarly) { bool deleted_on_main_thread = false; FlagOnDelete* raw = new FlagOnDelete( &deleted_on_main_thread, SequencedTaskRunner::GetCurrentDefault()); SequenceBoundUniquePtr ptr(raw, OnTaskRunnerDeleter(foreign_runner_)); EXPECT_FALSE(deleted_on_main_thread); // Stopping the target ahead of deleting |ptr| should make its // OnTaskRunnerDeleter no-op. foreign_thread_.Stop(); ptr = nullptr; EXPECT_FALSE(deleted_on_main_thread); delete raw; EXPECT_TRUE(deleted_on_main_thread); } TEST_F(SequencedTaskRunnerTest, DelayedTaskHandle_RunTask) { auto task_runner = MakeRefCounted(); bool task_ran = false; DelayedTaskHandle delayed_task_handle = task_runner->PostCancelableDelayedTask( subtle::PostDelayedTaskPassKeyForTesting(), FROM_HERE, BindLambdaForTesting([&task_ran]() { task_ran = true; }), Seconds(1)); EXPECT_TRUE(delayed_task_handle.IsValid()); EXPECT_TRUE(task_runner->HasPendingTask()); // Run the delayed task. task_runner->FastForwardUntilNoTasksRemain(); EXPECT_FALSE(delayed_task_handle.IsValid()); EXPECT_FALSE(task_runner->HasPendingTask()); EXPECT_TRUE(task_ran); } TEST_F(SequencedTaskRunnerTest, DelayedTaskHandle_CancelTask) { auto task_runner = MakeRefCounted(); bool task_ran = false; DelayedTaskHandle delayed_task_handle = task_runner->PostCancelableDelayedTask( subtle::PostDelayedTaskPassKeyForTesting(), FROM_HERE, BindLambdaForTesting([&task_ran]() { task_ran = true; }), Seconds(1)); EXPECT_TRUE(delayed_task_handle.IsValid()); EXPECT_TRUE(task_runner->HasPendingTask()); // Cancel the delayed task. delayed_task_handle.CancelTask(); EXPECT_FALSE(delayed_task_handle.IsValid()); EXPECT_FALSE(task_runner->HasPendingTask()); EXPECT_FALSE(task_ran); } TEST_F(SequencedTaskRunnerTest, DelayedTaskHandle_DestroyTask) { auto task_runner = MakeRefCounted(); bool task_ran = false; DelayedTaskHandle delayed_task_handle = task_runner->PostCancelableDelayedTask( subtle::PostDelayedTaskPassKeyForTesting(), FROM_HERE, BindLambdaForTesting([&task_ran]() { task_ran = true; }), Seconds(1)); EXPECT_TRUE(delayed_task_handle.IsValid()); EXPECT_TRUE(task_runner->HasPendingTask()); // Destroy the pending task. task_runner->ClearPendingTasks(); EXPECT_FALSE(delayed_task_handle.IsValid()); EXPECT_FALSE(task_runner->HasPendingTask()); EXPECT_FALSE(task_ran); } // Tests that if PostCancelableDelayedTask() fails, the returned handle will be // invalid. TEST_F(SequencedTaskRunnerTest, DelayedTaskHandle_PostTaskFailed) { auto task_runner = MakeRefCounted(); bool task_ran = false; DelayedTaskHandle delayed_task_handle = task_runner->PostCancelableDelayedTask( subtle::PostDelayedTaskPassKeyForTesting(), FROM_HERE, BindLambdaForTesting([&task_ran]() { task_ran = true; }), Seconds(1)); EXPECT_FALSE(delayed_task_handle.IsValid()); EXPECT_FALSE(task_ran); } namespace { // Tests for the SequencedTaskRunner::CurrentDefaultHandle machinery. class SequencedTaskRunnerCurrentDefaultHandleTest : public ::testing::Test { protected: // Verifies that the context it runs on has a // SequencedTaskRunner::CurrentDefaultHandle and that posting to it results in // the posted task running in that same context (sequence). static void VerifyCurrentSequencedTaskRunner() { ASSERT_TRUE(SequencedTaskRunner::HasCurrentDefault()); scoped_refptr task_runner = SequencedTaskRunner::GetCurrentDefault(); ASSERT_TRUE(task_runner); // Use SequenceCheckerImpl to make sure it's not a no-op in Release builds. std::unique_ptr sequence_checker = std::make_unique(); task_runner->PostTask( FROM_HERE, base::BindOnce( &SequencedTaskRunnerCurrentDefaultHandleTest::CheckValidSequence, std::move(sequence_checker))); } static void CheckValidSequence( std::unique_ptr sequence_checker) { EXPECT_TRUE(sequence_checker->CalledOnValidSequence()); } test::TaskEnvironment task_environment_; }; } // namespace TEST_F(SequencedTaskRunnerCurrentDefaultHandleTest, FromTaskEnvironment) { VerifyCurrentSequencedTaskRunner(); RunLoop().RunUntilIdle(); } TEST_F(SequencedTaskRunnerCurrentDefaultHandleTest, FromThreadPoolSequencedTask) { base::ThreadPool::CreateSequencedTaskRunner({})->PostTask( FROM_HERE, base::BindOnce(&SequencedTaskRunnerCurrentDefaultHandleTest:: VerifyCurrentSequencedTaskRunner)); task_environment_.RunUntilIdle(); } TEST_F(SequencedTaskRunnerCurrentDefaultHandleTest, NoHandleFromUnsequencedTask) { base::ThreadPool::PostTask(base::BindOnce( []() { EXPECT_FALSE(SequencedTaskRunner::HasCurrentDefault()); })); task_environment_.RunUntilIdle(); } // Verify that `CurrentDefaultHandle` can be used to set the current default // `SequencedTaskRunner` to null in a scope that already has a default. TEST_F(SequencedTaskRunnerCurrentDefaultHandleTest, OverrideWithNull) { EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); auto tr1 = SequencedTaskRunner::GetCurrentDefault(); EXPECT_TRUE(tr1); { SequencedTaskRunner::CurrentDefaultHandle handle( nullptr, SequencedTaskRunner::CurrentDefaultHandle::MayAlreadyExist{}); EXPECT_FALSE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_CHECK_DEATH( { auto tr2 = SequencedTaskRunner::GetCurrentDefault(); }); } EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_EQ(tr1, SequencedTaskRunner::GetCurrentDefault()); } // Verify that `CurrentDefaultHandle` can be used to set the current default // `SequencedTaskRunner` to a non-null value in a scope that already has a // default. TEST_F(SequencedTaskRunnerCurrentDefaultHandleTest, OverrideWithNonNull) { EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); auto tr1 = SequencedTaskRunner::GetCurrentDefault(); EXPECT_TRUE(tr1); { auto tr2 = MakeRefCounted(); SequencedTaskRunner::CurrentDefaultHandle handle( tr2, SequencedTaskRunner::CurrentDefaultHandle::MayAlreadyExist{}); EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_EQ(tr2, SequencedTaskRunner::GetCurrentDefault()); } EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_EQ(tr1, SequencedTaskRunner::GetCurrentDefault()); } TEST(SequencedTaskRunnerCurrentDefaultHandleTestWithoutTaskEnvironment, FromHandleInScope) { scoped_refptr test_task_runner = MakeRefCounted(); EXPECT_FALSE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_FALSE(SingleThreadTaskRunner::HasCurrentDefault()); { SequencedTaskRunner::CurrentDefaultHandle current_default(test_task_runner); EXPECT_TRUE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_FALSE(SingleThreadTaskRunner::HasCurrentDefault()); EXPECT_EQ(test_task_runner, SequencedTaskRunner::GetCurrentDefault()); } EXPECT_FALSE(SequencedTaskRunner::HasCurrentDefault()); EXPECT_FALSE(SingleThreadTaskRunner::HasCurrentDefault()); } } // namespace base