ipc/ipc_cpu_perftest.cc - platform/external/libchrome - Gitiles

 // 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 <memory>

 #include "base/message_loop/message_loop.h"
 #include "base/process/process_metrics.h"
 #include "base/run_loop.h"
 #include "base/strings/stringprintf.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/test/perf_log.h"
 #include "base/timer/timer.h"
 #include "ipc/ipc_channel_proxy.h"
 #include "ipc/ipc_perftest_messages.h"
 #include "ipc/ipc_perftest_util.h"
 #include "ipc/ipc_sync_channel.h"
 #include "ipc/ipc_test.mojom.h"
 #include "ipc/ipc_test_base.h"
 #include "mojo/edk/test/mojo_test_base.h"
 #include "mojo/edk/test/multiprocess_test_helper.h"
 #include "mojo/public/cpp/bindings/binding.h"
 #include "mojo/public/cpp/system/message_pipe.h"

 namespace IPC {
 namespace {

 struct TestParams {
   TestParams() = default;
   TestParams(size_t in_message_size,
              size_t in_frames_per_second,
              size_t in_messages_per_frame,
              size_t in_duration_in_seconds)
       : message_size(in_message_size),
         frames_per_second(in_frames_per_second),
         messages_per_frame(in_messages_per_frame),
         duration_in_seconds(in_duration_in_seconds) {}

   size_t message_size;
   size_t frames_per_second;
   size_t messages_per_frame;
   size_t duration_in_seconds;
 };

 std::vector<TestParams> GetDefaultTestParams() {
   std::vector<TestParams> list;
   list.push_back({144, 20, 10, 10});
   list.push_back({144, 60, 10, 10});
   return list;
 }

 std::string GetLogTitle(const std::string& label, const TestParams& params) {
   return base::StringPrintf(
       "%s_MsgSize_%zu_FrmPerSec_%zu_MsgPerFrm_%zu", label.c_str(),
       params.message_size, params.frames_per_second, params.messages_per_frame);
 }

 base::TimeDelta GetFrameTime(size_t frames_per_second) {
   return base::TimeDelta::FromSecondsD(1.0 / frames_per_second);
 }

 class PerfCpuLogger {
  public:
   explicit PerfCpuLogger(base::StringPiece test_name)
       : test_name_(test_name),
         process_metrics_(base::ProcessMetrics::CreateCurrentProcessMetrics()) {
     process_metrics_->GetPlatformIndependentCPUUsage();
   }

   ~PerfCpuLogger() {
     double result = process_metrics_->GetPlatformIndependentCPUUsage();
     base::LogPerfResult(test_name_.c_str(), result, "%");
   }

  private:
   std::string test_name_;
   std::unique_ptr<base::ProcessMetrics> process_metrics_;

   DISALLOW_COPY_AND_ASSIGN(PerfCpuLogger);
 };

 MULTIPROCESS_TEST_MAIN(MojoPerfTestClientTestChildMain) {
   MojoPerfTestClient client;
   int rv = mojo::edk::test::MultiprocessTestHelper::RunClientMain(
       base::Bind(&MojoPerfTestClient::Run, base::Unretained(&client)),
       true /* pass_pipe_ownership_to_main */);

   base::RunLoop run_loop;
   run_loop.RunUntilIdle();

   return rv;
 }

 class ChannelSteadyPingPongListener : public Listener {
  public:
   ChannelSteadyPingPongListener() = default;

   ~ChannelSteadyPingPongListener() override = default;

   void Init(Sender* sender) {
     DCHECK(!sender_);
     sender_ = sender;
   }

   void SetTestParams(const TestParams& params,
                      const std::string& label,
                      bool sync,
                      const base::Closure& quit_closure) {
     params_ = params;
     label_ = label;
     sync_ = sync;
     quit_closure_ = quit_closure;
     payload_ = std::string(params.message_size, 'a');
   }

   bool OnMessageReceived(const Message& message) override {
     CHECK(sender_);

     bool handled = true;
     IPC_BEGIN_MESSAGE_MAP(ChannelSteadyPingPongListener, message)
       IPC_MESSAGE_HANDLER(TestMsg_Hello, OnHello)
       IPC_MESSAGE_HANDLER(TestMsg_Ping, OnPing)
       IPC_MESSAGE_UNHANDLED(handled = false)
     IPC_END_MESSAGE_MAP()
     return handled;
   }

   void OnHello() {
     cpu_logger_ = std::make_unique<PerfCpuLogger>(GetLogTitle(label_, params_));

     frame_count_down_ = params_.frames_per_second * params_.duration_in_seconds;

     timer_.Start(FROM_HERE, GetFrameTime(params_.frames_per_second), this,
                  &ChannelSteadyPingPongListener::StartPingPong);
   }

   void StartPingPong() {
     if (sync_) {
       base::TimeTicks before = base::TimeTicks::Now();
       for (count_down_ = params_.messages_per_frame; count_down_ > 0;
            --count_down_) {
         std::string response;
         sender_->Send(new TestMsg_SyncPing(payload_, &response));
         DCHECK_EQ(response, payload_);
       }

       if (base::TimeTicks::Now() - before >
           GetFrameTime(params_.frames_per_second)) {
         LOG(ERROR) << "Frame " << frame_count_down_
                    << " wasn't able to complete on time!";
       }

       CHECK_GT(frame_count_down_, 0);
       frame_count_down_--;
       if (frame_count_down_ == 0)
         StopPingPong();
     } else {
       if (count_down_ != 0) {
         LOG(ERROR) << "Frame " << frame_count_down_
                    << " wasn't able to complete on time!";
       } else {
         SendPong();
       }
       count_down_ = params_.messages_per_frame;
     }
   }

   void StopPingPong() {
     cpu_logger_.reset();
     timer_.AbandonAndStop();
     quit_closure_.Run();
   }

   void OnPing(const std::string& payload) {
     // Include message deserialization in latency.
     DCHECK_EQ(payload_.size(), payload.size());

     CHECK_GT(count_down_, 0);
     count_down_--;
     if (count_down_ > 0) {
       SendPong();
     } else {
       CHECK_GT(frame_count_down_, 0);
       frame_count_down_--;
       if (frame_count_down_ == 0)
         StopPingPong();
     }
   }

   void SendPong() { sender_->Send(new TestMsg_Ping(payload_)); }

  private:
   Sender* sender_ = nullptr;
   TestParams params_;
   std::string payload_;
   std::string label_;
   bool sync_ = false;

   int count_down_ = 0;
   int frame_count_down_ = 0;

   base::RepeatingTimer timer_;
   std::unique_ptr<PerfCpuLogger> cpu_logger_;

   base::Closure quit_closure_;
 };

 class ChannelSteadyPingPongTest : public IPCChannelMojoTestBase {
  public:
   ChannelSteadyPingPongTest() = default;
   ~ChannelSteadyPingPongTest() override = default;

   void RunPingPongServer(const std::string& label, bool sync) {
     Init("MojoPerfTestClient");

     // Set up IPC channel and start client.
     ChannelSteadyPingPongListener listener;

     std::unique_ptr<ChannelProxy> channel_proxy;
     std::unique_ptr<base::WaitableEvent> shutdown_event;

     if (sync) {
       shutdown_event = std::make_unique<base::WaitableEvent>(
           base::WaitableEvent::ResetPolicy::MANUAL,
           base::WaitableEvent::InitialState::NOT_SIGNALED);
       channel_proxy = IPC::SyncChannel::Create(
           TakeHandle().release(), IPC::Channel::MODE_SERVER, &listener,
           GetIOThreadTaskRunner(), base::ThreadTaskRunnerHandle::Get(), false,
           shutdown_event.get());
     } else {
       channel_proxy = IPC::ChannelProxy::Create(
           TakeHandle().release(), IPC::Channel::MODE_SERVER, &listener,
           GetIOThreadTaskRunner(), base::ThreadTaskRunnerHandle::Get());
     }
     listener.Init(channel_proxy.get());

     LockThreadAffinity thread_locker(kSharedCore);
     std::vector<TestParams> params_list = GetDefaultTestParams();
     for (const auto& params : params_list) {
       base::RunLoop run_loop;

       listener.SetTestParams(params, label, sync,
                              run_loop.QuitWhenIdleClosure());

       // This initial message will kick-start the ping-pong of messages.
       channel_proxy->Send(new TestMsg_Hello);

       run_loop.Run();
     }

     // Send quit message.
     channel_proxy->Send(new TestMsg_Quit);

     EXPECT_TRUE(WaitForClientShutdown());
     channel_proxy.reset();
   }
 };

 TEST_F(ChannelSteadyPingPongTest, AsyncPingPong) {
   RunPingPongServer("IPC_CPU_Async", false);
 }

 TEST_F(ChannelSteadyPingPongTest, SyncPingPong) {
   RunPingPongServer("IPC_CPU_Sync", true);
 }

 class MojoSteadyPingPongTest : public mojo::edk::test::MojoTestBase {
  public:
   MojoSteadyPingPongTest() = default;

  protected:
   void RunPingPongServer(MojoHandle mp, const std::string& label, bool sync) {
     label_ = label;
     sync_ = sync;

     mojo::MessagePipeHandle mp_handle(mp);
     mojo::ScopedMessagePipeHandle scoped_mp(mp_handle);
     ping_receiver_.Bind(IPC::mojom::ReflectorPtrInfo(std::move(scoped_mp), 0u));

     LockThreadAffinity thread_locker(kSharedCore);
     std::vector<TestParams> params_list = GetDefaultTestParams();
     for (const auto& params : params_list) {
       params_ = params;
       payload_ = std::string(params.message_size, 'a');

       ping_receiver_->Ping("hello", base::Bind(&MojoSteadyPingPongTest::OnHello,
                                                base::Unretained(this)));
       base::RunLoop run_loop;
       quit_closure_ = run_loop.QuitWhenIdleClosure();
       run_loop.Run();
     }

     ping_receiver_->Quit();

     ignore_result(ping_receiver_.PassInterface().PassHandle().release());
   }

   void OnHello(const std::string& value) {
     cpu_logger_ = std::make_unique<PerfCpuLogger>(GetLogTitle(label_, params_));

     frame_count_down_ = params_.frames_per_second * params_.duration_in_seconds;

     timer_.Start(FROM_HERE, GetFrameTime(params_.frames_per_second), this,
                  &MojoSteadyPingPongTest::StartPingPong);
   }

   void StartPingPong() {
     if (sync_) {
       base::TimeTicks before = base::TimeTicks::Now();
       for (count_down_ = params_.messages_per_frame; count_down_ > 0;
            --count_down_) {
         std::string response;
         ping_receiver_->SyncPing(payload_, &response);
         DCHECK_EQ(response, payload_);
       }

       if (base::TimeTicks::Now() - before >
           GetFrameTime(params_.frames_per_second)) {
         LOG(ERROR) << "Frame " << frame_count_down_
                    << " wasn't able to complete on time!";
       }

       CHECK_GT(frame_count_down_, 0);
       frame_count_down_--;
       if (frame_count_down_ == 0)
         StopPingPong();
     } else {
       if (count_down_ != 0) {
         LOG(ERROR) << "Frame " << frame_count_down_
                    << " wasn't able to complete on time!";
       } else {
         SendPing();
       }
       count_down_ = params_.messages_per_frame;
     }
   }

   void StopPingPong() {
     cpu_logger_.reset();
     timer_.AbandonAndStop();
     quit_closure_.Run();
   }

   void OnPong(const std::string& value) {
     // Include message deserialization in latency.
     DCHECK_EQ(payload_.size(), value.size());

     CHECK_GT(count_down_, 0);
     count_down_--;
     if (count_down_ > 0) {
       SendPing();
     } else {
       CHECK_GT(frame_count_down_, 0);
       frame_count_down_--;
       if (frame_count_down_ == 0)
         StopPingPong();
     }
   }

   void SendPing() {
     ping_receiver_->Ping(payload_, base::Bind(&MojoSteadyPingPongTest::OnPong,
                                               base::Unretained(this)));
   }

   static int RunPingPongClient(MojoHandle mp) {
     mojo::MessagePipeHandle mp_handle(mp);
     mojo::ScopedMessagePipeHandle scoped_mp(mp_handle);

     LockThreadAffinity thread_locker(kSharedCore);
     base::RunLoop run_loop;
     ReflectorImpl impl(std::move(scoped_mp), run_loop.QuitWhenIdleClosure());
     run_loop.Run();
     return 0;
   }

  private:
   TestParams params_;
   std::string payload_;
   std::string label_;
   bool sync_ = false;

   IPC::mojom::ReflectorPtr ping_receiver_;

   int count_down_ = 0;
   int frame_count_down_ = 0;

   base::RepeatingTimer timer_;
   std::unique_ptr<PerfCpuLogger> cpu_logger_;

   base::Closure quit_closure_;

   DISALLOW_COPY_AND_ASSIGN(MojoSteadyPingPongTest);
 };

 DEFINE_TEST_CLIENT_WITH_PIPE(PingPongClient, MojoSteadyPingPongTest, h) {
   base::MessageLoop main_message_loop;
   return RunPingPongClient(h);
 }

 // Similar to ChannelSteadyPingPongTest above, but uses a Mojo interface
 // instead of raw IPC::Messages.
 TEST_F(MojoSteadyPingPongTest, AsyncPingPong) {
   RunTestClient("PingPongClient", [&](MojoHandle h) {
     base::MessageLoop main_message_loop;
     RunPingPongServer(h, "Mojo_CPU_Async", false);
   });
 }

 TEST_F(MojoSteadyPingPongTest, SyncPingPong) {
   RunTestClient("PingPongClient", [&](MojoHandle h) {
     base::MessageLoop main_message_loop;
     RunPingPongServer(h, "Mojo_CPU_Sync", true);
   });
 }

 }  // namespace
 }  // namespace IPC
	// 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 <memory>

	#include "base/message_loop/message_loop.h"
	#include "base/process/process_metrics.h"
	#include "base/run_loop.h"
	#include "base/strings/stringprintf.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/test/perf_log.h"
	#include "base/timer/timer.h"
	#include "ipc/ipc_channel_proxy.h"
	#include "ipc/ipc_perftest_messages.h"
	#include "ipc/ipc_perftest_util.h"
	#include "ipc/ipc_sync_channel.h"
	#include "ipc/ipc_test.mojom.h"
	#include "ipc/ipc_test_base.h"
	#include "mojo/edk/test/mojo_test_base.h"
	#include "mojo/edk/test/multiprocess_test_helper.h"
	#include "mojo/public/cpp/bindings/binding.h"
	#include "mojo/public/cpp/system/message_pipe.h"

	namespace IPC {
	namespace {

	struct TestParams {
	TestParams() = default;
	TestParams(size_t in_message_size,
	size_t in_frames_per_second,
	size_t in_messages_per_frame,
	size_t in_duration_in_seconds)
	: message_size(in_message_size),
	frames_per_second(in_frames_per_second),
	messages_per_frame(in_messages_per_frame),
	duration_in_seconds(in_duration_in_seconds) {}

	size_t message_size;
	size_t frames_per_second;
	size_t messages_per_frame;
	size_t duration_in_seconds;
	};

	std::vector<TestParams> GetDefaultTestParams() {
	std::vector<TestParams> list;
	list.push_back({144, 20, 10, 10});
	list.push_back({144, 60, 10, 10});
	return list;
	}

	std::string GetLogTitle(const std::string& label, const TestParams& params) {
	return base::StringPrintf(
	"%s_MsgSize_%zu_FrmPerSec_%zu_MsgPerFrm_%zu", label.c_str(),
	params.message_size, params.frames_per_second, params.messages_per_frame);
	}

	base::TimeDelta GetFrameTime(size_t frames_per_second) {
	return base::TimeDelta::FromSecondsD(1.0 / frames_per_second);
	}

	class PerfCpuLogger {
	public:
	explicit PerfCpuLogger(base::StringPiece test_name)
	: test_name_(test_name),
	process_metrics_(base::ProcessMetrics::CreateCurrentProcessMetrics()) {
	process_metrics_->GetPlatformIndependentCPUUsage();
	}

	~PerfCpuLogger() {
	double result = process_metrics_->GetPlatformIndependentCPUUsage();
	base::LogPerfResult(test_name_.c_str(), result, "%");
	}

	private:
	std::string test_name_;
	std::unique_ptr<base::ProcessMetrics> process_metrics_;

	DISALLOW_COPY_AND_ASSIGN(PerfCpuLogger);
	};

	MULTIPROCESS_TEST_MAIN(MojoPerfTestClientTestChildMain) {
	MojoPerfTestClient client;
	int rv = mojo::edk::test::MultiprocessTestHelper::RunClientMain(
	base::Bind(&MojoPerfTestClient::Run, base::Unretained(&client)),
	true /* pass_pipe_ownership_to_main */);

	base::RunLoop run_loop;
	run_loop.RunUntilIdle();

	return rv;
	}

	class ChannelSteadyPingPongListener : public Listener {
	public:
	ChannelSteadyPingPongListener() = default;

	~ChannelSteadyPingPongListener() override = default;

	void Init(Sender* sender) {
	DCHECK(!sender_);
	sender_ = sender;
	}

	void SetTestParams(const TestParams& params,
	const std::string& label,
	bool sync,
	const base::Closure& quit_closure) {
	params_ = params;
	label_ = label;
	sync_ = sync;
	quit_closure_ = quit_closure;
	payload_ = std::string(params.message_size, 'a');
	}

	bool OnMessageReceived(const Message& message) override {
	CHECK(sender_);

	bool handled = true;
	IPC_BEGIN_MESSAGE_MAP(ChannelSteadyPingPongListener, message)
	IPC_MESSAGE_HANDLER(TestMsg_Hello, OnHello)
	IPC_MESSAGE_HANDLER(TestMsg_Ping, OnPing)
	IPC_MESSAGE_UNHANDLED(handled = false)
	IPC_END_MESSAGE_MAP()
	return handled;
	}

	void OnHello() {
	cpu_logger_ = std::make_unique<PerfCpuLogger>(GetLogTitle(label_, params_));

	frame_count_down_ = params_.frames_per_second * params_.duration_in_seconds;

	timer_.Start(FROM_HERE, GetFrameTime(params_.frames_per_second), this,
	&ChannelSteadyPingPongListener::StartPingPong);
	}

	void StartPingPong() {
	if (sync_) {
	base::TimeTicks before = base::TimeTicks::Now();
	for (count_down_ = params_.messages_per_frame; count_down_ > 0;
	--count_down_) {
	std::string response;
	sender_->Send(new TestMsg_SyncPing(payload_, &response));
	DCHECK_EQ(response, payload_);
	}

	if (base::TimeTicks::Now() - before >
	GetFrameTime(params_.frames_per_second)) {
	LOG(ERROR) << "Frame " << frame_count_down_
	<< " wasn't able to complete on time!";
	}

	CHECK_GT(frame_count_down_, 0);
	frame_count_down_--;
	if (frame_count_down_ == 0)
	StopPingPong();
	} else {
	if (count_down_ != 0) {
	LOG(ERROR) << "Frame " << frame_count_down_
	<< " wasn't able to complete on time!";
	} else {
	SendPong();
	}
	count_down_ = params_.messages_per_frame;
	}
	}

	void StopPingPong() {
	cpu_logger_.reset();
	timer_.AbandonAndStop();
	quit_closure_.Run();
	}

	void OnPing(const std::string& payload) {
	// Include message deserialization in latency.
	DCHECK_EQ(payload_.size(), payload.size());

	CHECK_GT(count_down_, 0);
	count_down_--;
	if (count_down_ > 0) {
	SendPong();
	} else {
	CHECK_GT(frame_count_down_, 0);
	frame_count_down_--;
	if (frame_count_down_ == 0)
	StopPingPong();
	}
	}

	void SendPong() { sender_->Send(new TestMsg_Ping(payload_)); }

	private:
	Sender* sender_ = nullptr;
	TestParams params_;
	std::string payload_;
	std::string label_;
	bool sync_ = false;

	int count_down_ = 0;
	int frame_count_down_ = 0;

	base::RepeatingTimer timer_;
	std::unique_ptr<PerfCpuLogger> cpu_logger_;

	base::Closure quit_closure_;
	};

	class ChannelSteadyPingPongTest : public IPCChannelMojoTestBase {
	public:
	ChannelSteadyPingPongTest() = default;
	~ChannelSteadyPingPongTest() override = default;

	void RunPingPongServer(const std::string& label, bool sync) {
	Init("MojoPerfTestClient");

	// Set up IPC channel and start client.
	ChannelSteadyPingPongListener listener;

	std::unique_ptr<ChannelProxy> channel_proxy;
	std::unique_ptr<base::WaitableEvent> shutdown_event;

	if (sync) {
	shutdown_event = std::make_unique<base::WaitableEvent>(
	base::WaitableEvent::ResetPolicy::MANUAL,
	base::WaitableEvent::InitialState::NOT_SIGNALED);
	channel_proxy = IPC::SyncChannel::Create(
	TakeHandle().release(), IPC::Channel::MODE_SERVER, &listener,
	GetIOThreadTaskRunner(), base::ThreadTaskRunnerHandle::Get(), false,
	shutdown_event.get());
	} else {
	channel_proxy = IPC::ChannelProxy::Create(
	TakeHandle().release(), IPC::Channel::MODE_SERVER, &listener,
	GetIOThreadTaskRunner(), base::ThreadTaskRunnerHandle::Get());
	}
	listener.Init(channel_proxy.get());

	LockThreadAffinity thread_locker(kSharedCore);
	std::vector<TestParams> params_list = GetDefaultTestParams();
	for (const auto& params : params_list) {
	base::RunLoop run_loop;

	listener.SetTestParams(params, label, sync,
	run_loop.QuitWhenIdleClosure());

	// This initial message will kick-start the ping-pong of messages.
	channel_proxy->Send(new TestMsg_Hello);

	run_loop.Run();
	}

	// Send quit message.
	channel_proxy->Send(new TestMsg_Quit);

	EXPECT_TRUE(WaitForClientShutdown());
	channel_proxy.reset();
	}
	};

	TEST_F(ChannelSteadyPingPongTest, AsyncPingPong) {
	RunPingPongServer("IPC_CPU_Async", false);
	}

	TEST_F(ChannelSteadyPingPongTest, SyncPingPong) {
	RunPingPongServer("IPC_CPU_Sync", true);
	}

	class MojoSteadyPingPongTest : public mojo::edk::test::MojoTestBase {
	public:
	MojoSteadyPingPongTest() = default;

	protected:
	void RunPingPongServer(MojoHandle mp, const std::string& label, bool sync) {
	label_ = label;
	sync_ = sync;

	mojo::MessagePipeHandle mp_handle(mp);
	mojo::ScopedMessagePipeHandle scoped_mp(mp_handle);
	ping_receiver_.Bind(IPC::mojom::ReflectorPtrInfo(std::move(scoped_mp), 0u));

	LockThreadAffinity thread_locker(kSharedCore);
	std::vector<TestParams> params_list = GetDefaultTestParams();
	for (const auto& params : params_list) {
	params_ = params;
	payload_ = std::string(params.message_size, 'a');

	ping_receiver_->Ping("hello", base::Bind(&MojoSteadyPingPongTest::OnHello,
	base::Unretained(this)));
	base::RunLoop run_loop;
	quit_closure_ = run_loop.QuitWhenIdleClosure();
	run_loop.Run();
	}

	ping_receiver_->Quit();

	ignore_result(ping_receiver_.PassInterface().PassHandle().release());
	}

	void OnHello(const std::string& value) {
	cpu_logger_ = std::make_unique<PerfCpuLogger>(GetLogTitle(label_, params_));

	frame_count_down_ = params_.frames_per_second * params_.duration_in_seconds;

	timer_.Start(FROM_HERE, GetFrameTime(params_.frames_per_second), this,
	&MojoSteadyPingPongTest::StartPingPong);
	}

	void StartPingPong() {
	if (sync_) {
	base::TimeTicks before = base::TimeTicks::Now();
	for (count_down_ = params_.messages_per_frame; count_down_ > 0;
	--count_down_) {
	std::string response;
	ping_receiver_->SyncPing(payload_, &response);
	DCHECK_EQ(response, payload_);
	}

	if (base::TimeTicks::Now() - before >
	GetFrameTime(params_.frames_per_second)) {
	LOG(ERROR) << "Frame " << frame_count_down_
	<< " wasn't able to complete on time!";
	}

	CHECK_GT(frame_count_down_, 0);
	frame_count_down_--;
	if (frame_count_down_ == 0)
	StopPingPong();
	} else {
	if (count_down_ != 0) {
	LOG(ERROR) << "Frame " << frame_count_down_
	<< " wasn't able to complete on time!";
	} else {
	SendPing();
	}
	count_down_ = params_.messages_per_frame;
	}
	}

	void StopPingPong() {
	cpu_logger_.reset();
	timer_.AbandonAndStop();
	quit_closure_.Run();
	}

	void OnPong(const std::string& value) {
	// Include message deserialization in latency.
	DCHECK_EQ(payload_.size(), value.size());

	CHECK_GT(count_down_, 0);
	count_down_--;
	if (count_down_ > 0) {
	SendPing();
	} else {
	CHECK_GT(frame_count_down_, 0);
	frame_count_down_--;
	if (frame_count_down_ == 0)
	StopPingPong();
	}
	}

	void SendPing() {
	ping_receiver_->Ping(payload_, base::Bind(&MojoSteadyPingPongTest::OnPong,
	base::Unretained(this)));
	}

	static int RunPingPongClient(MojoHandle mp) {
	mojo::MessagePipeHandle mp_handle(mp);
	mojo::ScopedMessagePipeHandle scoped_mp(mp_handle);

	LockThreadAffinity thread_locker(kSharedCore);
	base::RunLoop run_loop;
	ReflectorImpl impl(std::move(scoped_mp), run_loop.QuitWhenIdleClosure());
	run_loop.Run();
	return 0;
	}

	private:
	TestParams params_;
	std::string payload_;
	std::string label_;
	bool sync_ = false;

	IPC::mojom::ReflectorPtr ping_receiver_;

	int count_down_ = 0;
	int frame_count_down_ = 0;

	base::RepeatingTimer timer_;
	std::unique_ptr<PerfCpuLogger> cpu_logger_;

	base::Closure quit_closure_;

	DISALLOW_COPY_AND_ASSIGN(MojoSteadyPingPongTest);
	};

	DEFINE_TEST_CLIENT_WITH_PIPE(PingPongClient, MojoSteadyPingPongTest, h) {
	base::MessageLoop main_message_loop;
	return RunPingPongClient(h);
	}

	// Similar to ChannelSteadyPingPongTest above, but uses a Mojo interface
	// instead of raw IPC::Messages.
	TEST_F(MojoSteadyPingPongTest, AsyncPingPong) {
	RunTestClient("PingPongClient", [&](MojoHandle h) {
	base::MessageLoop main_message_loop;
	RunPingPongServer(h, "Mojo_CPU_Async", false);
	});
	}

	TEST_F(MojoSteadyPingPongTest, SyncPingPong) {
	RunTestClient("PingPongClient", [&](MojoHandle h) {
	base::MessageLoop main_message_loop;
	RunPingPongServer(h, "Mojo_CPU_Sync", true);
	});
	}

	} // namespace
	} // namespace IPC