// 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. #include #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/location.h" #include "base/macros.h" #include "base/run_loop.h" #include "base/single_thread_task_runner.h" #include "base/test/task_environment.h" #include "base/threading/platform_thread.h" #include "base/threading/thread_task_runner_handle.h" #include "base/time/time.h" #include "components/timers/alarm_timer_chromeos.h" #include "testing/gtest/include/gtest/gtest.h" // Most of these tests have been lifted right out of timer_unittest.cc with only // cosmetic changes. We want the AlarmTimer to be a drop-in replacement for the // regular Timer so it should pass the same tests as the Timer class. namespace timers { namespace { constexpr base::TimeDelta kTenMilliseconds = base::TimeDelta::FromMilliseconds(10); class AlarmTimerTester { public: AlarmTimerTester(bool* did_run, base::TimeDelta delay, base::OnceClosure quit_closure) : did_run_(did_run), quit_closure_(std::move(quit_closure)), delay_(delay), timer_(SimpleAlarmTimer::CreateForTesting()) {} void Start() { timer_->Start( FROM_HERE, delay_, base::BindRepeating(&AlarmTimerTester::Run, base::Unretained(this))); } private: void Run() { *did_run_ = true; if (quit_closure_) std::move(quit_closure_).Run(); } bool* did_run_; base::OnceClosure quit_closure_; const base::TimeDelta delay_; std::unique_ptr timer_; DISALLOW_COPY_AND_ASSIGN(AlarmTimerTester); }; class SelfDeletingAlarmTimerTester { public: SelfDeletingAlarmTimerTester(bool* did_run, base::TimeDelta delay, base::OnceClosure quit_closure) : did_run_(did_run), quit_closure_(std::move(quit_closure)), delay_(delay), timer_(SimpleAlarmTimer::CreateForTesting()) {} void Start() { timer_->Start(FROM_HERE, delay_, base::BindRepeating(&SelfDeletingAlarmTimerTester::Run, base::Unretained(this))); } private: void Run() { *did_run_ = true; timer_.reset(); if (quit_closure_) std::move(quit_closure_).Run(); } bool* did_run_; base::OnceClosure quit_closure_; const base::TimeDelta delay_; std::unique_ptr timer_; DISALLOW_COPY_AND_ASSIGN(SelfDeletingAlarmTimerTester); }; } // namespace //----------------------------------------------------------------------------- // Each test is run against each type of MessageLoop. That way we are sure // that timers work properly in all configurations. TEST(AlarmTimerTest, SimpleAlarmTimer) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; bool did_run = false; AlarmTimerTester f(&did_run, kTenMilliseconds, run_loop.QuitWhenIdleClosure()); f.Start(); run_loop.Run(); EXPECT_TRUE(did_run); } TEST(AlarmTimerTest, SimpleAlarmTimer_Cancel) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); bool did_run_a = false; AlarmTimerTester* a = new AlarmTimerTester(&did_run_a, kTenMilliseconds, base::OnceClosure()); // This should run before the timer expires. base::ThreadTaskRunnerHandle::Get()->DeleteSoon(FROM_HERE, a); // Now start the timer. a->Start(); base::RunLoop run_loop; bool did_run_b = false; AlarmTimerTester b(&did_run_b, kTenMilliseconds, run_loop.QuitWhenIdleClosure()); b.Start(); run_loop.Run(); EXPECT_FALSE(did_run_a); EXPECT_TRUE(did_run_b); } // If underlying timer does not handle this properly, we will crash or fail // in full page heap environment. TEST(AlarmTimerTest, SelfDeletingAlarmTimer) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; bool did_run = false; SelfDeletingAlarmTimerTester f(&did_run, kTenMilliseconds, run_loop.QuitWhenIdleClosure()); f.Start(); run_loop.Run(); EXPECT_TRUE(did_run); } TEST(AlarmTimerTest, AlarmTimerZeroDelay) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; bool did_run = false; AlarmTimerTester f(&did_run, base::TimeDelta(), run_loop.QuitWhenIdleClosure()); f.Start(); run_loop.Run(); EXPECT_TRUE(did_run); } TEST(AlarmTimerTest, AlarmTimerZeroDelay_Cancel) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); bool did_run_a = false; AlarmTimerTester* a = new AlarmTimerTester(&did_run_a, base::TimeDelta(), base::OnceClosure()); // This should run before the timer expires. base::ThreadTaskRunnerHandle::Get()->DeleteSoon(FROM_HERE, a); // Now start the timer. a->Start(); base::RunLoop run_loop; bool did_run_b = false; AlarmTimerTester b(&did_run_b, base::TimeDelta(), run_loop.QuitWhenIdleClosure()); b.Start(); run_loop.Run(); EXPECT_FALSE(did_run_a); EXPECT_TRUE(did_run_b); } TEST(AlarmTimerTest, MessageLoopShutdown) { // This test is designed to verify that shutdown of the // message loop does not cause crashes if there were pending // timers not yet fired. It may only trigger exceptions // if debug heap checking is enabled. bool did_run = false; { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); AlarmTimerTester a(&did_run, kTenMilliseconds, base::OnceClosure()); AlarmTimerTester b(&did_run, kTenMilliseconds, base::OnceClosure()); AlarmTimerTester c(&did_run, kTenMilliseconds, base::OnceClosure()); AlarmTimerTester d(&did_run, kTenMilliseconds, base::OnceClosure()); a.Start(); b.Start(); // Allow FileDescriptorWatcher to start watching the timers. Without this, // tasks posted by FileDescriptorWatcher::WatchReadable() are leaked. base::RunLoop().RunUntilIdle(); } // SimpleAlarmTimers destruct. SHOULD NOT CRASH, of course. EXPECT_FALSE(did_run); } TEST(AlarmTimerTest, NonRepeatIsRunning) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); auto timer = SimpleAlarmTimer::CreateForTesting(); EXPECT_FALSE(timer->IsRunning()); timer->Start(FROM_HERE, base::TimeDelta::FromDays(1), base::DoNothing()); // Allow FileDescriptorWatcher to start watching the timer. Without this, a // task posted by FileDescriptorWatcher::WatchReadable() is leaked. base::RunLoop().RunUntilIdle(); EXPECT_TRUE(timer->IsRunning()); timer->Stop(); EXPECT_FALSE(timer->IsRunning()); ASSERT_FALSE(timer->user_task().is_null()); timer->Reset(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(timer->IsRunning()); } TEST(AlarmTimerTest, RetainNonRepeatIsRunning) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); auto timer = SimpleAlarmTimer::CreateForTesting(); EXPECT_FALSE(timer->IsRunning()); timer->Start(FROM_HERE, base::TimeDelta::FromDays(1), base::DoNothing()); // Allow FileDescriptorWatcher to start watching the timer. Without this, a // task posted by FileDescriptorWatcher::WatchReadable() is leaked. base::RunLoop().RunUntilIdle(); EXPECT_TRUE(timer->IsRunning()); timer->Reset(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(timer->IsRunning()); timer->Stop(); EXPECT_FALSE(timer->IsRunning()); timer->Reset(); base::RunLoop().RunUntilIdle(); EXPECT_TRUE(timer->IsRunning()); } namespace { bool g_callback_happened1 = false; bool g_callback_happened2 = false; void ClearAllCallbackHappened() { g_callback_happened1 = false; g_callback_happened2 = false; } void SetCallbackHappened1(base::OnceClosure quit_closure) { g_callback_happened1 = true; if (quit_closure) std::move(quit_closure).Run(); } void SetCallbackHappened2(base::OnceClosure quit_closure) { g_callback_happened2 = true; if (quit_closure) std::move(quit_closure).Run(); } TEST(AlarmTimerTest, ContinuationStopStart) { ClearAllCallbackHappened(); base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); auto timer = SimpleAlarmTimer::CreateForTesting(); timer->Start(FROM_HERE, base::TimeDelta::FromMilliseconds(10), base::BindRepeating(&SetCallbackHappened1, base::DoNothing().Repeatedly())); timer->Stop(); base::RunLoop run_loop; timer->Start(FROM_HERE, base::TimeDelta::FromMilliseconds(40), base::BindRepeating(&SetCallbackHappened2, run_loop.QuitWhenIdleClosure())); run_loop.Run(); EXPECT_FALSE(g_callback_happened1); EXPECT_TRUE(g_callback_happened2); } TEST(AlarmTimerTest, ContinuationReset) { ClearAllCallbackHappened(); base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; auto timer = SimpleAlarmTimer::CreateForTesting(); timer->Start(FROM_HERE, base::TimeDelta::FromMilliseconds(10), base::BindRepeating(&SetCallbackHappened1, run_loop.QuitWhenIdleClosure())); timer->Reset(); ASSERT_FALSE(timer->user_task().is_null()); run_loop.Run(); EXPECT_TRUE(g_callback_happened1); } // Verify that no crash occurs if a timer is deleted while its callback is // running. TEST(AlarmTimerTest, DeleteTimerWhileCallbackIsRunning) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; // Will be deleted by the callback. auto timer = SimpleAlarmTimer::CreateForTesting(); auto* timer_ptr = timer.get(); timer_ptr->Start( FROM_HERE, base::TimeDelta::FromMilliseconds(10), base::BindRepeating([](std::unique_ptr timer, base::RunLoop* run_loop) { run_loop->Quit(); }, base::Passed(std::move(timer)), &run_loop)); run_loop.Run(); } // Verify that no crash occurs if a zero-delay timer is deleted while its // callback is running. TEST(AlarmTimerTest, DeleteTimerWhileCallbackIsRunningZeroDelay) { base::test::TaskEnvironment task_environment( base::test::TaskEnvironment::MainThreadType::IO); base::RunLoop run_loop; // Will be deleted by the callback. auto timer = SimpleAlarmTimer::CreateForTesting(); auto* timer_ptr = timer.get(); timer_ptr->Start( FROM_HERE, base::TimeDelta(), base::BindRepeating([](std::unique_ptr timer, base::RunLoop* run_loop) { run_loop->Quit(); }, base::Passed(std::move(timer)), &run_loop)); run_loop.Run(); } } // namespace } // namespace timers