// 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 #include "flutter/fml/message_loop.h" #include "gtest/gtest.h" #include "lib/ftl/synchronization/waitable_event.h" #define TIME_SENSITIVE(x) TimeSensitiveTest_##x TEST(MessageLoop, GetCurrent) { std::thread thread([]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); ASSERT_TRUE(fml::MessageLoop::GetCurrent().GetTaskRunner()); }); thread.join(); } TEST(MessageLoop, DifferentThreadsHaveDifferentLoops) { fml::MessageLoop* loop1 = nullptr; ftl::AutoResetWaitableEvent latch1; ftl::AutoResetWaitableEvent term1; std::thread thread1([&loop1, &latch1, &term1]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); loop1 = &fml::MessageLoop::GetCurrent(); latch1.Signal(); term1.Wait(); }); fml::MessageLoop* loop2 = nullptr; ftl::AutoResetWaitableEvent latch2; ftl::AutoResetWaitableEvent term2; std::thread thread2([&loop2, &latch2, &term2]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); loop2 = &fml::MessageLoop::GetCurrent(); latch2.Signal(); term2.Wait(); }); latch1.Wait(); latch2.Wait(); ASSERT_FALSE(loop1 == loop2); term1.Signal(); term2.Signal(); thread1.join(); thread2.join(); } TEST(MessageLoop, CanRunAndTerminate) { bool started = false; bool terminated = false; std::thread thread([&started, &terminated]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); ASSERT_TRUE(loop.GetTaskRunner()); loop.GetTaskRunner()->PostTask([&terminated]() { fml::MessageLoop::GetCurrent().Terminate(); terminated = true; }); loop.Run(); started = true; }); thread.join(); ASSERT_TRUE(started); ASSERT_TRUE(terminated); } TEST(MessageLoop, NonDelayedTasksAreRunInOrder) { const size_t count = 100; bool started = false; bool terminated = false; std::thread thread([&started, &terminated, count]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); size_t current = 0; for (size_t i = 0; i < count; i++) { loop.GetTaskRunner()->PostTask([&terminated, count, i, ¤t]() { ASSERT_EQ(current, i); current++; if (count == i + 1) { fml::MessageLoop::GetCurrent().Terminate(); terminated = true; } }); } loop.Run(); ASSERT_EQ(current, count); started = true; }); thread.join(); ASSERT_TRUE(started); ASSERT_TRUE(terminated); } TEST(MessageLoop, DelayedTasksAtSameTimeAreRunInOrder) { const size_t count = 100; bool started = false; bool terminated = false; std::thread thread([&started, &terminated, count]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); size_t current = 0; const auto now_plus_some = ftl::TimePoint::Now() + ftl::TimeDelta::FromMilliseconds(2); for (size_t i = 0; i < count; i++) { loop.GetTaskRunner()->PostTaskForTime( [&terminated, count, i, ¤t]() { ASSERT_EQ(current, i); current++; if (count == i + 1) { fml::MessageLoop::GetCurrent().Terminate(); terminated = true; } }, now_plus_some); } loop.Run(); ASSERT_EQ(current, count); started = true; }); thread.join(); ASSERT_TRUE(started); ASSERT_TRUE(terminated); } TEST(MessageLoop, CheckRunsTaskOnCurrentThread) { ftl::RefPtr runner; ftl::AutoResetWaitableEvent latch; std::thread thread([&runner, &latch]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); runner = loop.GetTaskRunner(); latch.Signal(); ASSERT_TRUE(loop.GetTaskRunner()->RunsTasksOnCurrentThread()); }); latch.Wait(); ASSERT_TRUE(runner); ASSERT_FALSE(runner->RunsTasksOnCurrentThread()); thread.join(); } TEST(MessageLoop, TIME_SENSITIVE(SingleDelayedTaskByDelta)) { bool checked = false; std::thread thread([&checked]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); auto begin = ftl::TimePoint::Now(); loop.GetTaskRunner()->PostDelayedTask( [begin, &checked]() { auto delta = ftl::TimePoint::Now() - begin; auto ms = delta.ToMillisecondsF(); ASSERT_GE(ms, 3); ASSERT_LE(ms, 7); checked = true; fml::MessageLoop::GetCurrent().Terminate(); }, ftl::TimeDelta::FromMilliseconds(5)); loop.Run(); }); thread.join(); ASSERT_TRUE(checked); } TEST(MessageLoop, TIME_SENSITIVE(SingleDelayedTaskForTime)) { bool checked = false; std::thread thread([&checked]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); auto begin = ftl::TimePoint::Now(); loop.GetTaskRunner()->PostTaskForTime( [begin, &checked]() { auto delta = ftl::TimePoint::Now() - begin; auto ms = delta.ToMillisecondsF(); ASSERT_GE(ms, 3); ASSERT_LE(ms, 7); checked = true; fml::MessageLoop::GetCurrent().Terminate(); }, ftl::TimePoint::Now() + ftl::TimeDelta::FromMilliseconds(5)); loop.Run(); }); thread.join(); ASSERT_TRUE(checked); } TEST(MessageLoop, TIME_SENSITIVE(MultipleDelayedTasksWithIncreasingDeltas)) { const auto count = 10; int checked = false; std::thread thread([&checked, count]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); for (int target_ms = 0 + 2; target_ms < count + 2; target_ms++) { auto begin = ftl::TimePoint::Now(); loop.GetTaskRunner()->PostDelayedTask( [begin, target_ms, &checked]() { auto delta = ftl::TimePoint::Now() - begin; auto ms = delta.ToMillisecondsF(); ASSERT_GE(ms, target_ms - 2); ASSERT_LE(ms, target_ms + 2); checked++; if (checked == count) { fml::MessageLoop::GetCurrent().Terminate(); } }, ftl::TimeDelta::FromMilliseconds(target_ms)); } loop.Run(); }); thread.join(); ASSERT_EQ(checked, count); } TEST(MessageLoop, TIME_SENSITIVE(MultipleDelayedTasksWithDecreasingDeltas)) { const auto count = 10; int checked = false; std::thread thread([&checked, count]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); auto& loop = fml::MessageLoop::GetCurrent(); for (int target_ms = count + 2; target_ms >= 0 + 2; target_ms--) { auto begin = ftl::TimePoint::Now(); loop.GetTaskRunner()->PostDelayedTask( [begin, target_ms, &checked]() { auto delta = ftl::TimePoint::Now() - begin; auto ms = delta.ToMillisecondsF(); ASSERT_GE(ms, target_ms - 2); ASSERT_LE(ms, target_ms + 2); checked++; if (checked == count) { fml::MessageLoop::GetCurrent().Terminate(); } }, ftl::TimeDelta::FromMilliseconds(target_ms)); } loop.Run(); }); thread.join(); ASSERT_EQ(checked, count); } TEST(MessageLoop, TaskObserverFire) { bool started = false; bool terminated = false; std::thread thread([&started, &terminated]() { fml::MessageLoop::EnsureInitializedForCurrentThread(); const size_t count = 25; auto& loop = fml::MessageLoop::GetCurrent(); size_t task_count = 0; size_t obs_count = 0; loop.SetTaskObserver([&obs_count]() { obs_count++; }); for (size_t i = 0; i < count; i++) { loop.GetTaskRunner()->PostTask([&terminated, count, i, &task_count]() { ASSERT_EQ(task_count, i); task_count++; if (count == i + 1) { fml::MessageLoop::GetCurrent().Terminate(); terminated = true; } }); } loop.Run(); ASSERT_EQ(task_count, count); ASSERT_EQ(obs_count, count); started = true; }); thread.join(); ASSERT_TRUE(started); ASSERT_TRUE(terminated); }