fml/message_loop_task_queues_unittests.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #define FML_USED_ON_EMBEDDER

 #include "flutter/fml/message_loop_task_queues.h"

 #include <thread>

 #include "flutter/fml/synchronization/count_down_latch.h"
 #include "flutter/fml/synchronization/waitable_event.h"
 #include "gtest/gtest.h"

 namespace fml {
 namespace testing {

 class TestWakeable : public fml::Wakeable {
  public:
   using WakeUpCall = std::function<void(const fml::TimePoint)>;

   explicit TestWakeable(WakeUpCall call) : wake_up_call_(call) {}

   void WakeUp(fml::TimePoint time_point) override { wake_up_call_(time_point); }

  private:
   WakeUpCall wake_up_call_;
 };

 TEST(MessageLoopTaskQueue, StartsWithNoPendingTasks) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   ASSERT_FALSE(task_queue->HasPendingTasks(queue_id));
 }

 TEST(MessageLoopTaskQueue, RegisterOneTask) {
   const auto time = fml::TimePoint::Max();

   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   task_queue->SetWakeable(queue_id,
                           new TestWakeable([&time](fml::TimePoint wake_time) {
                             ASSERT_TRUE(wake_time == time);
                           }));

   task_queue->RegisterTask(
       queue_id, [] {}, time);
   ASSERT_TRUE(task_queue->HasPendingTasks(queue_id));
   ASSERT_TRUE(task_queue->GetNumPendingTasks(queue_id) == 1);
 }

 TEST(MessageLoopTaskQueue, RegisterTwoTasksAndCount) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   task_queue->RegisterTask(
       queue_id, [] {}, fml::TimePoint::Now());
   task_queue->RegisterTask(
       queue_id, [] {}, fml::TimePoint::Max());
   ASSERT_TRUE(task_queue->HasPendingTasks(queue_id));
   ASSERT_TRUE(task_queue->GetNumPendingTasks(queue_id) == 2);
 }

 TEST(MessageLoopTaskQueue, PreserveTaskOrdering) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   int test_val = 0;

   // order: 0
   task_queue->RegisterTask(
       queue_id, [&test_val]() { test_val = 1; }, fml::TimePoint::Now());

   // order: 1
   task_queue->RegisterTask(
       queue_id, [&test_val]() { test_val = 2; }, fml::TimePoint::Now());

   const auto now = fml::TimePoint::Now();
   int expected_value = 1;
   for (;;) {
     fml::closure invocation = task_queue->GetNextTaskToRun(queue_id, now);
     if (!invocation) {
       break;
     }
     invocation();
     ASSERT_TRUE(test_val == expected_value);
     expected_value++;
   }
 }

 void TestNotifyObservers(fml::TaskQueueId queue_id) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   std::vector<fml::closure> observers =
       task_queue->GetObserversToNotify(queue_id);
   for (const auto& observer : observers) {
     observer();
   }
 }

 TEST(MessageLoopTaskQueue, AddRemoveNotifyObservers) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();

   int test_val = 0;
   intptr_t key = 123;

   task_queue->AddTaskObserver(queue_id, key, [&test_val]() { test_val = 1; });
   TestNotifyObservers(queue_id);
   ASSERT_TRUE(test_val == 1);

   test_val = 0;
   task_queue->RemoveTaskObserver(queue_id, key);
   TestNotifyObservers(queue_id);
   ASSERT_TRUE(test_val == 0);
 }

 TEST(MessageLoopTaskQueue, WakeUpIndependentOfTime) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();

   int num_wakes = 0;
   task_queue->SetWakeable(
       queue_id, new TestWakeable(
                     [&num_wakes](fml::TimePoint wake_time) { ++num_wakes; }));

   task_queue->RegisterTask(
       queue_id, []() {}, fml::TimePoint::Now());
   task_queue->RegisterTask(
       queue_id, []() {}, fml::TimePoint::Max());

   ASSERT_TRUE(num_wakes == 2);
 }

 TEST(MessageLoopTaskQueue, WokenUpWithNewerTime) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   fml::CountDownLatch latch(2);

   fml::TimePoint expected = fml::TimePoint::Max();

   task_queue->SetWakeable(
       queue_id, new TestWakeable([&latch, &expected](fml::TimePoint wake_time) {
         ASSERT_TRUE(wake_time == expected);
         latch.CountDown();
       }));

   task_queue->RegisterTask(
       queue_id, []() {}, fml::TimePoint::Max());

   const auto now = fml::TimePoint::Now();
   expected = now;
   task_queue->RegisterTask(
       queue_id, []() {}, now);

   latch.Wait();
 }

 TEST(MessageLoopTaskQueue, NotifyObserversWhileCreatingQueues) {
   auto task_queues = fml::MessageLoopTaskQueues::GetInstance();
   fml::TaskQueueId queue_id = task_queues->CreateTaskQueue();
   fml::AutoResetWaitableEvent first_observer_executing, before_second_observer;

   task_queues->AddTaskObserver(queue_id, queue_id + 1, [&]() {
     first_observer_executing.Signal();
     before_second_observer.Wait();
   });

   for (int i = 0; i < 100; i++) {
     task_queues->AddTaskObserver(queue_id, queue_id + i + 2, [] {});
   }

   std::thread notify_observers([&]() { TestNotifyObservers(queue_id); });

   first_observer_executing.Wait();

   for (int i = 0; i < 100; i++) {
     task_queues->CreateTaskQueue();
   }

   before_second_observer.Signal();
   notify_observers.join();
 }

 TEST(MessageLoopTaskQueue, QueueDoNotOwnItself) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto queue_id = task_queue->CreateTaskQueue();
   ASSERT_FALSE(task_queue->Owns(queue_id, queue_id));
 }

 // TODO(chunhtai): This unit-test is flaky and sometimes fails asynchronizely
 // after the test has finished.
 // https://github.com/flutter/flutter/issues/43858
 TEST(MessageLoopTaskQueue, DISABLED_ConcurrentQueueAndTaskCreatingCounts) {
   auto task_queues = fml::MessageLoopTaskQueues::GetInstance();
   const int base_queue_id = task_queues->CreateTaskQueue();

   const int num_queues = 100;
   std::atomic_bool created[num_queues * 3];
   std::atomic_int num_tasks[num_queues * 3];
   std::mutex task_count_mutex[num_queues * 3];
   std::atomic_int done = 0;

   for (int i = 0; i < num_queues * 3; i++) {
     num_tasks[i] = 0;
     created[i] = false;
   }

   auto creation_func = [&] {
     for (int i = 0; i < num_queues; i++) {
       fml::TaskQueueId queue_id = task_queues->CreateTaskQueue();
       int limit = queue_id - base_queue_id;
       created[limit] = true;

       for (int cur_q = 1; cur_q < limit; cur_q++) {
         if (created[cur_q]) {
           std::scoped_lock counter(task_count_mutex[cur_q]);
           int cur_num_tasks = rand() % 10;
           for (int k = 0; k < cur_num_tasks; k++) {
             task_queues->RegisterTask(
                 fml::TaskQueueId(base_queue_id + cur_q), [] {},
                 fml::TimePoint::Now());
           }
           num_tasks[cur_q] += cur_num_tasks;
         }
       }
     }
     done++;
   };

   std::thread creation_1(creation_func);
   std::thread creation_2(creation_func);

   while (done < 2) {
     for (int i = 0; i < num_queues * 3; i++) {
       if (created[i]) {
         std::scoped_lock counter(task_count_mutex[i]);
         int num_pending = task_queues->GetNumPendingTasks(
             fml::TaskQueueId(base_queue_id + i));
         int num_added = num_tasks[i];
         ASSERT_EQ(num_pending, num_added);
       }
     }
   }

   creation_1.join();
   creation_2.join();
 }

 TEST(MessageLoopTaskQueue, RegisterTaskWakesUpOwnerQueue) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
   auto platform_queue = task_queue->CreateTaskQueue();
   auto raster_queue = task_queue->CreateTaskQueue();

   std::vector<fml::TimePoint> wakes;

   task_queue->SetWakeable(platform_queue,
                           new TestWakeable([&wakes](fml::TimePoint wake_time) {
                             wakes.push_back(wake_time);
                           }));

   task_queue->SetWakeable(raster_queue,
                           new TestWakeable([](fml::TimePoint wake_time) {
                             // The raster queue is owned by the platform queue.
                             ASSERT_FALSE(true);
                           }));

   auto time1 = fml::TimePoint::Now() + fml::TimeDelta::FromMilliseconds(1);
   auto time2 = fml::TimePoint::Now() + fml::TimeDelta::FromMilliseconds(2);

   ASSERT_EQ(0UL, wakes.size());

   task_queue->RegisterTask(
       platform_queue, []() {}, time1);

   ASSERT_EQ(1UL, wakes.size());
   ASSERT_EQ(time1, wakes[0]);

   task_queue->Merge(platform_queue, raster_queue);

   task_queue->RegisterTask(
       raster_queue, []() {}, time2);

   ASSERT_EQ(3UL, wakes.size());
   ASSERT_EQ(time1, wakes[1]);
   ASSERT_EQ(time1, wakes[2]);
 }

 }  // namespace testing
 }  // namespace fml
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#define FML_USED_ON_EMBEDDER

	#include "flutter/fml/message_loop_task_queues.h"

	#include <thread>

	#include "flutter/fml/synchronization/count_down_latch.h"
	#include "flutter/fml/synchronization/waitable_event.h"
	#include "gtest/gtest.h"

	namespace fml {
	namespace testing {

	class TestWakeable : public fml::Wakeable {
	public:
	using WakeUpCall = std::function<void(const fml::TimePoint)>;

	explicit TestWakeable(WakeUpCall call) : wake_up_call_(call) {}

	void WakeUp(fml::TimePoint time_point) override { wake_up_call_(time_point); }

	private:
	WakeUpCall wake_up_call_;
	};

	TEST(MessageLoopTaskQueue, StartsWithNoPendingTasks) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	ASSERT_FALSE(task_queue->HasPendingTasks(queue_id));
	}

	TEST(MessageLoopTaskQueue, RegisterOneTask) {
	const auto time = fml::TimePoint::Max();

	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	task_queue->SetWakeable(queue_id,
	new TestWakeable([&time](fml::TimePoint wake_time) {
	ASSERT_TRUE(wake_time == time);
	}));

	task_queue->RegisterTask(
	queue_id, [] {}, time);
	ASSERT_TRUE(task_queue->HasPendingTasks(queue_id));
	ASSERT_TRUE(task_queue->GetNumPendingTasks(queue_id) == 1);
	}

	TEST(MessageLoopTaskQueue, RegisterTwoTasksAndCount) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	task_queue->RegisterTask(
	queue_id, [] {}, fml::TimePoint::Now());
	task_queue->RegisterTask(
	queue_id, [] {}, fml::TimePoint::Max());
	ASSERT_TRUE(task_queue->HasPendingTasks(queue_id));
	ASSERT_TRUE(task_queue->GetNumPendingTasks(queue_id) == 2);
	}

	TEST(MessageLoopTaskQueue, PreserveTaskOrdering) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	int test_val = 0;

	// order: 0
	task_queue->RegisterTask(
	queue_id, [&test_val]() { test_val = 1; }, fml::TimePoint::Now());

	// order: 1
	task_queue->RegisterTask(
	queue_id, [&test_val]() { test_val = 2; }, fml::TimePoint::Now());

	const auto now = fml::TimePoint::Now();
	int expected_value = 1;
	for (;;) {
	fml::closure invocation = task_queue->GetNextTaskToRun(queue_id, now);
	if (!invocation) {
	break;
	}
	invocation();
	ASSERT_TRUE(test_val == expected_value);
	expected_value++;
	}
	}

	void TestNotifyObservers(fml::TaskQueueId queue_id) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	std::vector<fml::closure> observers =
	task_queue->GetObserversToNotify(queue_id);
	for (const auto& observer : observers) {
	observer();
	}
	}

	TEST(MessageLoopTaskQueue, AddRemoveNotifyObservers) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();

	int test_val = 0;
	intptr_t key = 123;

	task_queue->AddTaskObserver(queue_id, key, [&test_val]() { test_val = 1; });
	TestNotifyObservers(queue_id);
	ASSERT_TRUE(test_val == 1);

	test_val = 0;
	task_queue->RemoveTaskObserver(queue_id, key);
	TestNotifyObservers(queue_id);
	ASSERT_TRUE(test_val == 0);
	}

	TEST(MessageLoopTaskQueue, WakeUpIndependentOfTime) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();

	int num_wakes = 0;
	task_queue->SetWakeable(
	queue_id, new TestWakeable(
	[&num_wakes](fml::TimePoint wake_time) { ++num_wakes; }));

	task_queue->RegisterTask(
	queue_id, []() {}, fml::TimePoint::Now());
	task_queue->RegisterTask(
	queue_id, []() {}, fml::TimePoint::Max());

	ASSERT_TRUE(num_wakes == 2);
	}

	TEST(MessageLoopTaskQueue, WokenUpWithNewerTime) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	fml::CountDownLatch latch(2);

	fml::TimePoint expected = fml::TimePoint::Max();

	task_queue->SetWakeable(
	queue_id, new TestWakeable([&latch, &expected](fml::TimePoint wake_time) {
	ASSERT_TRUE(wake_time == expected);
	latch.CountDown();
	}));

	task_queue->RegisterTask(
	queue_id, []() {}, fml::TimePoint::Max());

	const auto now = fml::TimePoint::Now();
	expected = now;
	task_queue->RegisterTask(
	queue_id, []() {}, now);

	latch.Wait();
	}

	TEST(MessageLoopTaskQueue, NotifyObserversWhileCreatingQueues) {
	auto task_queues = fml::MessageLoopTaskQueues::GetInstance();
	fml::TaskQueueId queue_id = task_queues->CreateTaskQueue();
	fml::AutoResetWaitableEvent first_observer_executing, before_second_observer;

	task_queues->AddTaskObserver(queue_id, queue_id + 1, [&]() {
	first_observer_executing.Signal();
	before_second_observer.Wait();
	});

	for (int i = 0; i < 100; i++) {
	task_queues->AddTaskObserver(queue_id, queue_id + i + 2, [] {});
	}

	std::thread notify_observers([&]() { TestNotifyObservers(queue_id); });

	first_observer_executing.Wait();

	for (int i = 0; i < 100; i++) {
	task_queues->CreateTaskQueue();
	}

	before_second_observer.Signal();
	notify_observers.join();
	}

	TEST(MessageLoopTaskQueue, QueueDoNotOwnItself) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto queue_id = task_queue->CreateTaskQueue();
	ASSERT_FALSE(task_queue->Owns(queue_id, queue_id));
	}

	// TODO(chunhtai): This unit-test is flaky and sometimes fails asynchronizely
	// after the test has finished.
	// https://github.com/flutter/flutter/issues/43858
	TEST(MessageLoopTaskQueue, DISABLED_ConcurrentQueueAndTaskCreatingCounts) {
	auto task_queues = fml::MessageLoopTaskQueues::GetInstance();
	const int base_queue_id = task_queues->CreateTaskQueue();

	const int num_queues = 100;
	std::atomic_bool created[num_queues * 3];
	std::atomic_int num_tasks[num_queues * 3];
	std::mutex task_count_mutex[num_queues * 3];
	std::atomic_int done = 0;

	for (int i = 0; i < num_queues * 3; i++) {
	num_tasks[i] = 0;
	created[i] = false;
	}

	auto creation_func = [&] {
	for (int i = 0; i < num_queues; i++) {
	fml::TaskQueueId queue_id = task_queues->CreateTaskQueue();
	int limit = queue_id - base_queue_id;
	created[limit] = true;

	for (int cur_q = 1; cur_q < limit; cur_q++) {
	if (created[cur_q]) {
	std::scoped_lock counter(task_count_mutex[cur_q]);
	int cur_num_tasks = rand() % 10;
	for (int k = 0; k < cur_num_tasks; k++) {
	task_queues->RegisterTask(
	fml::TaskQueueId(base_queue_id + cur_q), [] {},
	fml::TimePoint::Now());
	}
	num_tasks[cur_q] += cur_num_tasks;
	}
	}
	}
	done++;
	};

	std::thread creation_1(creation_func);
	std::thread creation_2(creation_func);

	while (done < 2) {
	for (int i = 0; i < num_queues * 3; i++) {
	if (created[i]) {
	std::scoped_lock counter(task_count_mutex[i]);
	int num_pending = task_queues->GetNumPendingTasks(
	fml::TaskQueueId(base_queue_id + i));
	int num_added = num_tasks[i];
	ASSERT_EQ(num_pending, num_added);
	}
	}
	}

	creation_1.join();
	creation_2.join();
	}

	TEST(MessageLoopTaskQueue, RegisterTaskWakesUpOwnerQueue) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();
	auto platform_queue = task_queue->CreateTaskQueue();
	auto raster_queue = task_queue->CreateTaskQueue();

	std::vector<fml::TimePoint> wakes;

	task_queue->SetWakeable(platform_queue,
	new TestWakeable([&wakes](fml::TimePoint wake_time) {
	wakes.push_back(wake_time);
	}));

	task_queue->SetWakeable(raster_queue,
	new TestWakeable([](fml::TimePoint wake_time) {
	// The raster queue is owned by the platform queue.
	ASSERT_FALSE(true);
	}));

	auto time1 = fml::TimePoint::Now() + fml::TimeDelta::FromMilliseconds(1);
	auto time2 = fml::TimePoint::Now() + fml::TimeDelta::FromMilliseconds(2);

	ASSERT_EQ(0UL, wakes.size());

	task_queue->RegisterTask(
	platform_queue, []() {}, time1);

	ASSERT_EQ(1UL, wakes.size());
	ASSERT_EQ(time1, wakes[0]);

	task_queue->Merge(platform_queue, raster_queue);

	task_queue->RegisterTask(
	raster_queue, []() {}, time2);

	ASSERT_EQ(3UL, wakes.size());
	ASSERT_EQ(time1, wakes[1]);
	ASSERT_EQ(time1, wakes[2]);
	}

	} // namespace testing
	} // namespace fml