brillo/message_loops/fake_message_loop_unittest.cc - platform/external/libbrillo - Git at Google

 // Copyright 2015 The Chromium OS 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 <brillo/message_loops/fake_message_loop.h>

 #include <memory>
 #include <vector>

 #include <base/bind.h>
 #include <base/location.h>
 #include <base/test/simple_test_clock.h>
 #include <gtest/gtest.h>

 #include <brillo/bind_lambda.h>
 #include <brillo/message_loops/message_loop.h>

 using base::Bind;
 using base::Time;
 using base::TimeDelta;
 using std::vector;

 namespace brillo {

 using TaskId = MessageLoop::TaskId;

 class FakeMessageLoopTest : public ::testing::Test {
  protected:
   void SetUp() override {
     loop_.reset(new FakeMessageLoop(nullptr));
     EXPECT_TRUE(loop_.get());
   }
   void TearDown() override {
     EXPECT_FALSE(loop_->PendingTasks());
   }

   base::SimpleTestClock clock_;
   std::unique_ptr<FakeMessageLoop> loop_;
 };

 TEST_F(FakeMessageLoopTest, CancelTaskInvalidValuesTest) {
   EXPECT_FALSE(loop_->CancelTask(MessageLoop::kTaskIdNull));
   EXPECT_FALSE(loop_->CancelTask(1234));
 }

 TEST_F(FakeMessageLoopTest, PostDelayedTaskRunsInOrder) {
   vector<int> order;
   auto callback = [](std::vector<int>* order, int value) {
     order->push_back(value);
   };
   loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 1),
                          TimeDelta::FromSeconds(1));
   loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 4),
                          TimeDelta::FromSeconds(4));
   loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 3),
                          TimeDelta::FromSeconds(3));
   loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 2),
                          TimeDelta::FromSeconds(2));
   // Run until all the tasks are run.
   loop_->Run();
   EXPECT_EQ((vector<int>{1, 2, 3, 4}), order);
 }

 TEST_F(FakeMessageLoopTest, PostDelayedTaskAdvancesTheTime) {
   Time start = Time::FromInternalValue(1000000);
   clock_.SetNow(start);
   loop_.reset(new FakeMessageLoop(&clock_));
   loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(1));
   loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(2));
   EXPECT_FALSE(loop_->RunOnce(false));
   // If the callback didn't run, the time shouldn't change.
   EXPECT_EQ(start, clock_.Now());

   // If we run only one callback, the time should be set to the time that
   // callack ran.
   EXPECT_TRUE(loop_->RunOnce(true));
   EXPECT_EQ(start + TimeDelta::FromSeconds(1), clock_.Now());

   // If the clock is advanced manually, we should be able to run the
   // callback without blocking, since the firing time is in the past.
   clock_.SetNow(start + TimeDelta::FromSeconds(3));
   EXPECT_TRUE(loop_->RunOnce(false));
   // The time should not change even if the callback is due in the past.
   EXPECT_EQ(start + TimeDelta::FromSeconds(3), clock_.Now());
 }

 TEST_F(FakeMessageLoopTest, WatchFileDescriptorWaits) {
   int fd = 1234;
   // We will simulate this situation. At the beginning, we will watch for a
   // file descriptor that won't trigger for 10s. Then we will pretend it is
   // ready after 10s and expect its callback to run just once.
   int called = 0;
   TaskId task_id = loop_->WatchFileDescriptor(
       FROM_HERE, fd, MessageLoop::kWatchRead, false,
       Bind([](int* called) { (*called)++; }, base::Unretained(&called)));
   EXPECT_NE(MessageLoop::kTaskIdNull, task_id);

   auto callback = [](FakeMessageLoop* loop) { loop->BreakLoop(); };
   EXPECT_NE(
       MessageLoop::kTaskIdNull,
       loop_->PostDelayedTask(Bind(callback, base::Unretained(loop_.get())),
                              TimeDelta::FromSeconds(10)));
   EXPECT_NE(
       MessageLoop::kTaskIdNull,
       loop_->PostDelayedTask(Bind(callback, base::Unretained(loop_.get())),
                              TimeDelta::FromSeconds(20)));
   loop_->Run();
   EXPECT_EQ(0, called);

   loop_->SetFileDescriptorReadiness(fd, MessageLoop::kWatchRead, true);
   loop_->Run();
   EXPECT_EQ(1, called);
   EXPECT_FALSE(loop_->CancelTask(task_id));
 }

 TEST_F(FakeMessageLoopTest, PendingTasksTest) {
   loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(1));
   EXPECT_TRUE(loop_->PendingTasks());
   loop_->Run();
 }

 }  // namespace brillo
	// Copyright 2015 The Chromium OS 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 <brillo/message_loops/fake_message_loop.h>

	#include <memory>
	#include <vector>

	#include <base/bind.h>
	#include <base/location.h>
	#include <base/test/simple_test_clock.h>
	#include <gtest/gtest.h>

	#include <brillo/bind_lambda.h>
	#include <brillo/message_loops/message_loop.h>

	using base::Bind;
	using base::Time;
	using base::TimeDelta;
	using std::vector;

	namespace brillo {

	using TaskId = MessageLoop::TaskId;

	class FakeMessageLoopTest : public ::testing::Test {
	protected:
	void SetUp() override {
	loop_.reset(new FakeMessageLoop(nullptr));
	EXPECT_TRUE(loop_.get());
	}
	void TearDown() override {
	EXPECT_FALSE(loop_->PendingTasks());
	}

	base::SimpleTestClock clock_;
	std::unique_ptr<FakeMessageLoop> loop_;
	};

	TEST_F(FakeMessageLoopTest, CancelTaskInvalidValuesTest) {
	EXPECT_FALSE(loop_->CancelTask(MessageLoop::kTaskIdNull));
	EXPECT_FALSE(loop_->CancelTask(1234));
	}

	TEST_F(FakeMessageLoopTest, PostDelayedTaskRunsInOrder) {
	vector<int> order;
	auto callback = [](std::vector<int>* order, int value) {
	order->push_back(value);
	};
	loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 1),
	TimeDelta::FromSeconds(1));
	loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 4),
	TimeDelta::FromSeconds(4));
	loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 3),
	TimeDelta::FromSeconds(3));
	loop_->PostDelayedTask(Bind(callback, base::Unretained(&order), 2),
	TimeDelta::FromSeconds(2));
	// Run until all the tasks are run.
	loop_->Run();
	EXPECT_EQ((vector<int>{1, 2, 3, 4}), order);
	}

	TEST_F(FakeMessageLoopTest, PostDelayedTaskAdvancesTheTime) {
	Time start = Time::FromInternalValue(1000000);
	clock_.SetNow(start);
	loop_.reset(new FakeMessageLoop(&clock_));
	loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(1));
	loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(2));
	EXPECT_FALSE(loop_->RunOnce(false));
	// If the callback didn't run, the time shouldn't change.
	EXPECT_EQ(start, clock_.Now());

	// If we run only one callback, the time should be set to the time that
	// callack ran.
	EXPECT_TRUE(loop_->RunOnce(true));
	EXPECT_EQ(start + TimeDelta::FromSeconds(1), clock_.Now());

	// If the clock is advanced manually, we should be able to run the
	// callback without blocking, since the firing time is in the past.
	clock_.SetNow(start + TimeDelta::FromSeconds(3));
	EXPECT_TRUE(loop_->RunOnce(false));
	// The time should not change even if the callback is due in the past.
	EXPECT_EQ(start + TimeDelta::FromSeconds(3), clock_.Now());
	}

	TEST_F(FakeMessageLoopTest, WatchFileDescriptorWaits) {
	int fd = 1234;
	// We will simulate this situation. At the beginning, we will watch for a
	// file descriptor that won't trigger for 10s. Then we will pretend it is
	// ready after 10s and expect its callback to run just once.
	int called = 0;
	TaskId task_id = loop_->WatchFileDescriptor(
	FROM_HERE, fd, MessageLoop::kWatchRead, false,
	Bind([](int* called) { (*called)++; }, base::Unretained(&called)));
	EXPECT_NE(MessageLoop::kTaskIdNull, task_id);

	auto callback = [](FakeMessageLoop* loop) { loop->BreakLoop(); };
	EXPECT_NE(
	MessageLoop::kTaskIdNull,
	loop_->PostDelayedTask(Bind(callback, base::Unretained(loop_.get())),
	TimeDelta::FromSeconds(10)));
	EXPECT_NE(
	MessageLoop::kTaskIdNull,
	loop_->PostDelayedTask(Bind(callback, base::Unretained(loop_.get())),
	TimeDelta::FromSeconds(20)));
	loop_->Run();
	EXPECT_EQ(0, called);

	loop_->SetFileDescriptorReadiness(fd, MessageLoop::kWatchRead, true);
	loop_->Run();
	EXPECT_EQ(1, called);
	EXPECT_FALSE(loop_->CancelTask(task_id));
	}

	TEST_F(FakeMessageLoopTest, PendingTasksTest) {
	loop_->PostDelayedTask(Bind(&base::DoNothing), TimeDelta::FromSeconds(1));
	EXPECT_TRUE(loop_->PendingTasks());
	loop_->Run();
	}

	} // namespace brillo