media/base/android/media_service_throttler_unittest.cc - chromium/src - Git at Google

 // Copyright 2016 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 "media/base/android/media_service_throttler.h"

 #include "base/message_loop/message_loop.h"
 #include "base/test/simple_test_tick_clock.h"
 #include "media/base/android/media_server_crash_listener.h"
 #include "media/base/fake_single_thread_task_runner.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace media {

 // From base/media/android/media_service_throttler.cc
 const int kMaxBurstClients = 10;

 class MediaServiceThrottlerTest : public testing::Test {
  public:
   MediaServiceThrottlerTest() {
     throttler_ = MediaServiceThrottler::GetInstance();
     clock_.SetNowTicks(base::TimeTicks());
     throttler_->SetTickClockForTesting(&clock_);
     test_task_runner_ =
         base::MakeRefCounted<FakeSingleThreadTaskRunner>(&clock_);
     throttler_->ResetInternalStateForTesting();
     throttler_->SetCrashListenerTaskRunnerForTesting(test_task_runner_);
     base_delay_ = throttler_->GetBaseThrottlingRateForTesting();
   }

   void SimulateCrashes(int number_of_crashes) {
     for (int i = 0; i < number_of_crashes; ++i)
       throttler_->OnMediaServerCrash(false);
   }

   // Simulates the scheduling of |number_of_clients| and returns the last
   // scheduling delay.
   base::TimeDelta SimulateClientCreations(int number_of_clients) {
     for (int i = 0; i < number_of_clients - 1; ++i)
       throttler_->GetDelayForClientCreation();

     return throttler_->GetDelayForClientCreation();
   }

   base::TimeDelta GetCurrentDelayBetweenClients() {
     // Schedule two clients and return the difference between their scheduling
     // slots.
     return -(throttler_->GetDelayForClientCreation() -
              throttler_->GetDelayForClientCreation());
   }

   base::TimeTicks TestNow() { return clock_.NowTicks(); }

   MediaServiceThrottler* throttler_;
   base::SimpleTestTickClock clock_;

   base::TimeDelta base_delay_;

   scoped_refptr<FakeSingleThreadTaskRunner> test_task_runner_;

   // Necessary, or else base::ThreadTaskRunnerHandle::Get() fails.
   base::MessageLoop message_loop_;

  private:
   DISALLOW_COPY_AND_ASSIGN(MediaServiceThrottlerTest);
 };

 // Canary test case.
 TEST_F(MediaServiceThrottlerTest, BaseCase) {
   EXPECT_EQ(base::TimeDelta(), throttler_->GetDelayForClientCreation());
 }

 // Makes sure we can "burst" schedule clients.
 TEST_F(MediaServiceThrottlerTest, NoCrash_UnderBurstThreshold_ShouldNotDelay) {
   int number_burst_client_scheduled = 0;

   while (base::TimeDelta() == throttler_->GetDelayForClientCreation())
     number_burst_client_scheduled++;

   EXPECT_EQ(kMaxBurstClients, number_burst_client_scheduled);
 }

 // Makes sure that, when burst scheduling a client, we schedule it from
 // last scheduled burst client (vs scheduling it |base_delay_| from now).
 TEST_F(MediaServiceThrottlerTest, NoCrash_OverBurstThreshold_ShouldDelay) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   // Make sure the next client that is scheduled is scheduled in its normal time
   // slot.
   EXPECT_EQ(base_delay_ * (kMaxBurstClients + 1),
             throttler_->GetDelayForClientCreation());
 }

 // Makes sure that clients are scheduled |base_delay| apart.
 TEST_F(MediaServiceThrottlerTest,
        NoCrash_OverBurstThreshold_ShouldDelayLinearly) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   // Delays between two clients should be |base_delay_| appart.
   EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());

   // Delays should remain constant (GetCurrentDelayBetweenClients() is not
   // idempotent and actually schedules new clients).
   EXPECT_EQ(GetCurrentDelayBetweenClients(), GetCurrentDelayBetweenClients());
 }

 // Makes sure that for every |base_delay_| that has elapsed, we can burst
 // schedule an extra client.
 TEST_F(MediaServiceThrottlerTest,
        NoCrash_BurstThreshold_ShouldBeSlidingWindow) {
   // Schedule some clients below the burst threshold.
   SimulateClientCreations(7);

   clock_.Advance(base_delay_ * 5);

   // Make sure the passage of allows for more clients to be scheduled, since
   // 7 + 8 > kMaxBurstClients.
   EXPECT_EQ(base::TimeDelta(), SimulateClientCreations(8));
 }

 // Makes sure that, if not enough time has elapsed, we do not burst schedule
 // new clients.
 TEST_F(MediaServiceThrottlerTest,
        NoCrash_OverBurstThresholdWithTimeLapse_ShouldDelay) {
   // Schedule some clients way above the burst threshold.
   SimulateClientCreations(3 * kMaxBurstClients);

   // Advance the time so there are still 2 * kMaxBurstClients pending clients.
   clock_.Advance(base_delay_ * kMaxBurstClients);

   // Make sure delay we do not burst schedule new clients.
   EXPECT_NE(base::TimeDelta(), throttler_->GetDelayForClientCreation());
 }

 // Makes sure that after a certain amount of inactivity, the scheduling clock is
 // reset.
 TEST_F(MediaServiceThrottlerTest, NoCrash_LongInactivity_ShouldReset) {
   // Schedule two minute's worth of clients
   SimulateClientCreations(base::TimeDelta::FromMinutes(2) / base_delay_);

   // Advance the time so the scheduler perceived a full minute of inactivity.
   clock_.Advance(base::TimeDelta::FromSeconds(61));

   // Make sure new clients are burst scheduled.
   EXPECT_EQ(base::TimeDelta(), throttler_->GetDelayForClientCreation());
 }

 // Makes sure that crashes increase the scheduling delay.
 TEST_F(MediaServiceThrottlerTest, WithCrash_BaseCase_DelayShouldIncrease) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   base::TimeDelta no_crash_delay = GetCurrentDelayBetweenClients();

   SimulateCrashes(1);

   base::TimeDelta crash_delay = GetCurrentDelayBetweenClients();

   EXPECT_NE(base_delay_, crash_delay);
   EXPECT_GT(crash_delay, no_crash_delay);
 }

 // Makes sure that we tolerate 1 crash per minute.
 TEST_F(MediaServiceThrottlerTest,
        WithCrash_SingleCrash_DelayShouldNotIncrease) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   SimulateCrashes(1);
   clock_.Advance(base::TimeDelta::FromMilliseconds(1));

   // Because we use the floor function when calculating crashes, a small time
   // advance should nullify a single crash.
   EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());
 }

 // Makes sure that more than 1 crash per minute causes increased delays.
 TEST_F(MediaServiceThrottlerTest, WithCrash_ManyCrashes_DelayShouldIncrease) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   SimulateCrashes(2);
   clock_.Advance(base::TimeDelta::FromMilliseconds(1));

   // The delay after crashes should be greater than the base delay.
   EXPECT_LT(base_delay_, GetCurrentDelayBetweenClients());
 }

 // Makes sure that an increase in server crashes leads to delay increases.
 TEST_F(MediaServiceThrottlerTest,
        WithCrash_ConsecutiveCrashes_DelayShouldIncreaseWithNumberOfCrashes) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   base::TimeDelta last_delay = base_delay_;

   for (int i = 0; i < 5; ++i) {
     SimulateCrashes(1);
     base::TimeDelta current_delay = GetCurrentDelayBetweenClients();
     EXPECT_LT(last_delay, current_delay);
     last_delay = current_delay;
   }
 }

 // Makes sure that crashes affect the number of burst clients we can schedule.
 TEST_F(MediaServiceThrottlerTest, WithCrash_ShouldAllowFewerBurstClients) {
   int number_burst_client_scheduled = 0;

   SimulateCrashes(1);

   while (base::TimeDelta() == throttler_->GetDelayForClientCreation())
     number_burst_client_scheduled++;

   EXPECT_GT(kMaxBurstClients, number_burst_client_scheduled);
 }

 // Makes sure delays are capped to a certain maximal value.
 TEST_F(MediaServiceThrottlerTest, WithCrash_ManyCrashes_DelayShouldMaxOut) {
   // Schedule clients until the next one would be over burst threshold.
   SimulateClientCreations(kMaxBurstClients);

   SimulateCrashes(10);
   base::TimeDelta capped_delay = GetCurrentDelayBetweenClients();

   SimulateCrashes(10);

   EXPECT_EQ(capped_delay, GetCurrentDelayBetweenClients());
 }

 // Makes sure a minute without crashes resets the crash counter.
 TEST_F(MediaServiceThrottlerTest, WithCrash_NoCrashesForAMinute_ShouldReset) {
   SimulateCrashes(10);

   // The effective server crash count should be reset because it has been over
   // a minute since the last crash.
   clock_.Advance(base::TimeDelta::FromSeconds(61));

   SimulateClientCreations(kMaxBurstClients);

   EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());
 }

 // Makes sure a steady crashes do not resets the crash counter.
 TEST_F(MediaServiceThrottlerTest, WithCrash_ConstantCrashes_ShouldNotReset) {
   SimulateCrashes(9);

   // The effective server crash count should not be reset.
   clock_.Advance(base::TimeDelta::FromSeconds(59));
   SimulateCrashes(1);
   clock_.Advance(base::TimeDelta::FromSeconds(2));

   SimulateClientCreations(kMaxBurstClients);

   EXPECT_LT(base_delay_, GetCurrentDelayBetweenClients());
 }

 // Makes sure the crash listener shuts down after a minute of not having
 // received any client creation request.
 TEST_F(MediaServiceThrottlerTest, CrashListener_NoRequests_ShouldShutDown) {
   // Schedule many minutes worth of clients. This is to prove that the
   // MediaServerCrashListener's clean up happens after lack of requests, as
   // opposed to lack of actually scheduled clients.
   SimulateClientCreations(base::TimeDelta::FromMinutes(3) / base_delay_);

   // The MediaServerCrashListener should be alive, with 1s second to spare.
   clock_.Advance(base::TimeDelta::FromSeconds(59));
   test_task_runner_->RunTasks();
   EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

   // Requesting a new client creation should reset the interal timer, and
   // cancel the release request that was scheduled 59 seconds ago.
   throttler_->GetDelayForClientCreation();

   // The MediaServerCrashListener should be alive, with 58s second to spare.
   clock_.Advance(base::TimeDelta::FromSeconds(2));
   test_task_runner_->RunTasks();
   EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

   // The MediaServerCrashListener should be dead.
   clock_.Advance(base::TimeDelta::FromSeconds(59));
   test_task_runner_->RunTasks();
   EXPECT_FALSE(throttler_->IsCrashListenerAliveForTesting());
 }

 // Makes sure the crash listener shuts down after a minute of not having
 // received any client creation request, regardless of when crashes occur.
 TEST_F(MediaServiceThrottlerTest,
        CrashListener_NoRequestsWithCrashes_ShouldShutDown) {
   // Schedule many minutes worth of clients. This is to prove that the
   // MediaServerCrashListener's clean up happens after lack of requests, as
   // opposed to lack of actually scheduled clients.
   SimulateClientCreations(base::TimeDelta::FromMinutes(3) / base_delay_);

   // The MediaServerCrashListener should be alive, with 1s second to spare.
   clock_.Advance(base::TimeDelta::FromSeconds(59));
   test_task_runner_->RunTasks();
   EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

   // Crashes should not affect the MediaServerCrashListener's lifetime.
   SimulateCrashes(1);

   // The MediaServerCrashListener should be dead.
   clock_.Advance(base::TimeDelta::FromSeconds(2));
   test_task_runner_->RunTasks();
   EXPECT_FALSE(throttler_->IsCrashListenerAliveForTesting());
 }

 }  // namespace media
	// Copyright 2016 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 "media/base/android/media_service_throttler.h"

	#include "base/message_loop/message_loop.h"
	#include "base/test/simple_test_tick_clock.h"
	#include "media/base/android/media_server_crash_listener.h"
	#include "media/base/fake_single_thread_task_runner.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace media {

	// From base/media/android/media_service_throttler.cc
	const int kMaxBurstClients = 10;

	class MediaServiceThrottlerTest : public testing::Test {
	public:
	MediaServiceThrottlerTest() {
	throttler_ = MediaServiceThrottler::GetInstance();
	clock_.SetNowTicks(base::TimeTicks());
	throttler_->SetTickClockForTesting(&clock_);
	test_task_runner_ =
	base::MakeRefCounted<FakeSingleThreadTaskRunner>(&clock_);
	throttler_->ResetInternalStateForTesting();
	throttler_->SetCrashListenerTaskRunnerForTesting(test_task_runner_);
	base_delay_ = throttler_->GetBaseThrottlingRateForTesting();
	}

	void SimulateCrashes(int number_of_crashes) {
	for (int i = 0; i < number_of_crashes; ++i)
	throttler_->OnMediaServerCrash(false);
	}

	// Simulates the scheduling of \|number_of_clients\| and returns the last
	// scheduling delay.
	base::TimeDelta SimulateClientCreations(int number_of_clients) {
	for (int i = 0; i < number_of_clients - 1; ++i)
	throttler_->GetDelayForClientCreation();

	return throttler_->GetDelayForClientCreation();
	}

	base::TimeDelta GetCurrentDelayBetweenClients() {
	// Schedule two clients and return the difference between their scheduling
	// slots.
	return -(throttler_->GetDelayForClientCreation() -
	throttler_->GetDelayForClientCreation());
	}

	base::TimeTicks TestNow() { return clock_.NowTicks(); }

	MediaServiceThrottler* throttler_;
	base::SimpleTestTickClock clock_;

	base::TimeDelta base_delay_;

	scoped_refptr<FakeSingleThreadTaskRunner> test_task_runner_;

	// Necessary, or else base::ThreadTaskRunnerHandle::Get() fails.
	base::MessageLoop message_loop_;

	private:
	DISALLOW_COPY_AND_ASSIGN(MediaServiceThrottlerTest);
	};

	// Canary test case.
	TEST_F(MediaServiceThrottlerTest, BaseCase) {
	EXPECT_EQ(base::TimeDelta(), throttler_->GetDelayForClientCreation());
	}

	// Makes sure we can "burst" schedule clients.
	TEST_F(MediaServiceThrottlerTest, NoCrash_UnderBurstThreshold_ShouldNotDelay) {
	int number_burst_client_scheduled = 0;

	while (base::TimeDelta() == throttler_->GetDelayForClientCreation())
	number_burst_client_scheduled++;

	EXPECT_EQ(kMaxBurstClients, number_burst_client_scheduled);
	}

	// Makes sure that, when burst scheduling a client, we schedule it from
	// last scheduled burst client (vs scheduling it \|base_delay_\| from now).
	TEST_F(MediaServiceThrottlerTest, NoCrash_OverBurstThreshold_ShouldDelay) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	// Make sure the next client that is scheduled is scheduled in its normal time
	// slot.
	EXPECT_EQ(base_delay_ * (kMaxBurstClients + 1),
	throttler_->GetDelayForClientCreation());
	}

	// Makes sure that clients are scheduled \|base_delay\| apart.
	TEST_F(MediaServiceThrottlerTest,
	NoCrash_OverBurstThreshold_ShouldDelayLinearly) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	// Delays between two clients should be \|base_delay_\| appart.
	EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());

	// Delays should remain constant (GetCurrentDelayBetweenClients() is not
	// idempotent and actually schedules new clients).
	EXPECT_EQ(GetCurrentDelayBetweenClients(), GetCurrentDelayBetweenClients());
	}

	// Makes sure that for every \|base_delay_\| that has elapsed, we can burst
	// schedule an extra client.
	TEST_F(MediaServiceThrottlerTest,
	NoCrash_BurstThreshold_ShouldBeSlidingWindow) {
	// Schedule some clients below the burst threshold.
	SimulateClientCreations(7);

	clock_.Advance(base_delay_ * 5);

	// Make sure the passage of allows for more clients to be scheduled, since
	// 7 + 8 > kMaxBurstClients.
	EXPECT_EQ(base::TimeDelta(), SimulateClientCreations(8));
	}

	// Makes sure that, if not enough time has elapsed, we do not burst schedule
	// new clients.
	TEST_F(MediaServiceThrottlerTest,
	NoCrash_OverBurstThresholdWithTimeLapse_ShouldDelay) {
	// Schedule some clients way above the burst threshold.
	SimulateClientCreations(3 * kMaxBurstClients);

	// Advance the time so there are still 2 * kMaxBurstClients pending clients.
	clock_.Advance(base_delay_ * kMaxBurstClients);

	// Make sure delay we do not burst schedule new clients.
	EXPECT_NE(base::TimeDelta(), throttler_->GetDelayForClientCreation());
	}

	// Makes sure that after a certain amount of inactivity, the scheduling clock is
	// reset.
	TEST_F(MediaServiceThrottlerTest, NoCrash_LongInactivity_ShouldReset) {
	// Schedule two minute's worth of clients
	SimulateClientCreations(base::TimeDelta::FromMinutes(2) / base_delay_);

	// Advance the time so the scheduler perceived a full minute of inactivity.
	clock_.Advance(base::TimeDelta::FromSeconds(61));

	// Make sure new clients are burst scheduled.
	EXPECT_EQ(base::TimeDelta(), throttler_->GetDelayForClientCreation());
	}

	// Makes sure that crashes increase the scheduling delay.
	TEST_F(MediaServiceThrottlerTest, WithCrash_BaseCase_DelayShouldIncrease) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	base::TimeDelta no_crash_delay = GetCurrentDelayBetweenClients();

	SimulateCrashes(1);

	base::TimeDelta crash_delay = GetCurrentDelayBetweenClients();

	EXPECT_NE(base_delay_, crash_delay);
	EXPECT_GT(crash_delay, no_crash_delay);
	}

	// Makes sure that we tolerate 1 crash per minute.
	TEST_F(MediaServiceThrottlerTest,
	WithCrash_SingleCrash_DelayShouldNotIncrease) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	SimulateCrashes(1);
	clock_.Advance(base::TimeDelta::FromMilliseconds(1));

	// Because we use the floor function when calculating crashes, a small time
	// advance should nullify a single crash.
	EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());
	}

	// Makes sure that more than 1 crash per minute causes increased delays.
	TEST_F(MediaServiceThrottlerTest, WithCrash_ManyCrashes_DelayShouldIncrease) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	SimulateCrashes(2);
	clock_.Advance(base::TimeDelta::FromMilliseconds(1));

	// The delay after crashes should be greater than the base delay.
	EXPECT_LT(base_delay_, GetCurrentDelayBetweenClients());
	}

	// Makes sure that an increase in server crashes leads to delay increases.
	TEST_F(MediaServiceThrottlerTest,
	WithCrash_ConsecutiveCrashes_DelayShouldIncreaseWithNumberOfCrashes) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	base::TimeDelta last_delay = base_delay_;

	for (int i = 0; i < 5; ++i) {
	SimulateCrashes(1);
	base::TimeDelta current_delay = GetCurrentDelayBetweenClients();
	EXPECT_LT(last_delay, current_delay);
	last_delay = current_delay;
	}
	}

	// Makes sure that crashes affect the number of burst clients we can schedule.
	TEST_F(MediaServiceThrottlerTest, WithCrash_ShouldAllowFewerBurstClients) {
	int number_burst_client_scheduled = 0;

	SimulateCrashes(1);

	while (base::TimeDelta() == throttler_->GetDelayForClientCreation())
	number_burst_client_scheduled++;

	EXPECT_GT(kMaxBurstClients, number_burst_client_scheduled);
	}

	// Makes sure delays are capped to a certain maximal value.
	TEST_F(MediaServiceThrottlerTest, WithCrash_ManyCrashes_DelayShouldMaxOut) {
	// Schedule clients until the next one would be over burst threshold.
	SimulateClientCreations(kMaxBurstClients);

	SimulateCrashes(10);
	base::TimeDelta capped_delay = GetCurrentDelayBetweenClients();

	SimulateCrashes(10);

	EXPECT_EQ(capped_delay, GetCurrentDelayBetweenClients());
	}

	// Makes sure a minute without crashes resets the crash counter.
	TEST_F(MediaServiceThrottlerTest, WithCrash_NoCrashesForAMinute_ShouldReset) {
	SimulateCrashes(10);

	// The effective server crash count should be reset because it has been over
	// a minute since the last crash.
	clock_.Advance(base::TimeDelta::FromSeconds(61));

	SimulateClientCreations(kMaxBurstClients);

	EXPECT_EQ(base_delay_, GetCurrentDelayBetweenClients());
	}

	// Makes sure a steady crashes do not resets the crash counter.
	TEST_F(MediaServiceThrottlerTest, WithCrash_ConstantCrashes_ShouldNotReset) {
	SimulateCrashes(9);

	// The effective server crash count should not be reset.
	clock_.Advance(base::TimeDelta::FromSeconds(59));
	SimulateCrashes(1);
	clock_.Advance(base::TimeDelta::FromSeconds(2));

	SimulateClientCreations(kMaxBurstClients);

	EXPECT_LT(base_delay_, GetCurrentDelayBetweenClients());
	}

	// Makes sure the crash listener shuts down after a minute of not having
	// received any client creation request.
	TEST_F(MediaServiceThrottlerTest, CrashListener_NoRequests_ShouldShutDown) {
	// Schedule many minutes worth of clients. This is to prove that the
	// MediaServerCrashListener's clean up happens after lack of requests, as
	// opposed to lack of actually scheduled clients.
	SimulateClientCreations(base::TimeDelta::FromMinutes(3) / base_delay_);

	// The MediaServerCrashListener should be alive, with 1s second to spare.
	clock_.Advance(base::TimeDelta::FromSeconds(59));
	test_task_runner_->RunTasks();
	EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

	// Requesting a new client creation should reset the interal timer, and
	// cancel the release request that was scheduled 59 seconds ago.
	throttler_->GetDelayForClientCreation();

	// The MediaServerCrashListener should be alive, with 58s second to spare.
	clock_.Advance(base::TimeDelta::FromSeconds(2));
	test_task_runner_->RunTasks();
	EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

	// The MediaServerCrashListener should be dead.
	clock_.Advance(base::TimeDelta::FromSeconds(59));
	test_task_runner_->RunTasks();
	EXPECT_FALSE(throttler_->IsCrashListenerAliveForTesting());
	}

	// Makes sure the crash listener shuts down after a minute of not having
	// received any client creation request, regardless of when crashes occur.
	TEST_F(MediaServiceThrottlerTest,
	CrashListener_NoRequestsWithCrashes_ShouldShutDown) {
	// Schedule many minutes worth of clients. This is to prove that the
	// MediaServerCrashListener's clean up happens after lack of requests, as
	// opposed to lack of actually scheduled clients.
	SimulateClientCreations(base::TimeDelta::FromMinutes(3) / base_delay_);

	// The MediaServerCrashListener should be alive, with 1s second to spare.
	clock_.Advance(base::TimeDelta::FromSeconds(59));
	test_task_runner_->RunTasks();
	EXPECT_TRUE(throttler_->IsCrashListenerAliveForTesting());

	// Crashes should not affect the MediaServerCrashListener's lifetime.
	SimulateCrashes(1);

	// The MediaServerCrashListener should be dead.
	clock_.Advance(base::TimeDelta::FromSeconds(2));
	test_task_runner_->RunTasks();
	EXPECT_FALSE(throttler_->IsCrashListenerAliveForTesting());
	}

	} // namespace media