src/media/audio/audio_input_controller_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2012 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 "base/basictypes.h"
 #include "base/bind.h"
 #include "base/message_loop.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/test/test_timeouts.h"
 #include "media/audio/audio_input_controller.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using ::testing::_;
 using ::testing::AtLeast;
 using ::testing::Exactly;
 using ::testing::InvokeWithoutArgs;
 using ::testing::NotNull;

 namespace media {

 static const int kSampleRate = AudioParameters::kAudioCDSampleRate;
 static const int kBitsPerSample = 16;
 static const ChannelLayout kChannelLayout = CHANNEL_LAYOUT_STEREO;
 static const int kSamplesPerPacket = kSampleRate / 10;

 // Posts MessageLoop::QuitClosure() on specified message loop.
 ACTION_P(QuitMessageLoop, loop_or_proxy) {
   loop_or_proxy->PostTask(FROM_HERE, MessageLoop::QuitClosure());
 }

 // Posts MessageLoop::QuitClosure() on specified message loop after a certain
 // number of calls given by |limit|.
 ACTION_P3(CheckCountAndPostQuitTask, count, limit, loop_or_proxy) {
   if (++*count >= limit) {
     loop_or_proxy->PostTask(FROM_HERE, MessageLoop::QuitClosure());
   }
 }

 // Closes AudioOutputController synchronously.
 static void CloseAudioController(AudioInputController* controller) {
   controller->Close(MessageLoop::QuitClosure());
   MessageLoop::current()->Run();
 }

 class MockAudioInputControllerEventHandler
     : public AudioInputController::EventHandler {
  public:
   MockAudioInputControllerEventHandler() {}

   MOCK_METHOD1(OnCreated, void(AudioInputController* controller));
   MOCK_METHOD1(OnRecording, void(AudioInputController* controller));
   MOCK_METHOD2(OnError, void(AudioInputController* controller, int error_code));
   MOCK_METHOD3(OnData, void(AudioInputController* controller,
                             const uint8* data, uint32 size));

  private:
   DISALLOW_COPY_AND_ASSIGN(MockAudioInputControllerEventHandler);
 };

 // Test fixture.
 class AudioInputControllerTest : public testing::Test {
  public:
   AudioInputControllerTest() {}
   virtual ~AudioInputControllerTest() {}

  protected:
   MessageLoop message_loop_;

  private:
   DISALLOW_COPY_AND_ASSIGN(AudioInputControllerTest);
 };

 // Test AudioInputController for create and close without recording audio.
 TEST_F(AudioInputControllerTest, CreateAndClose) {
   MockAudioInputControllerEventHandler event_handler;

   // OnCreated() will be posted once.
   EXPECT_CALL(event_handler, OnCreated(NotNull()))
       .WillOnce(QuitMessageLoop(&message_loop_));

   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
                          kSampleRate, kBitsPerSample, kSamplesPerPacket);
   scoped_refptr<AudioInputController> controller =
       AudioInputController::Create(audio_manager.get(), &event_handler, params);
   ASSERT_TRUE(controller.get());

   // Wait for OnCreated() to fire.
   message_loop_.Run();

   // Close the AudioInputController synchronously.
   CloseAudioController(controller);
 }

 // Test a normal call sequence of create, record and close.
 TEST_F(AudioInputControllerTest, RecordAndClose) {
   MockAudioInputControllerEventHandler event_handler;
   int count = 0;

   // OnCreated() will be called once.
   EXPECT_CALL(event_handler, OnCreated(NotNull()))
       .Times(Exactly(1));

   // OnRecording() will be called only once.
   EXPECT_CALL(event_handler, OnRecording(NotNull()))
       .Times(Exactly(1));

   // OnData() shall be called ten times.
   EXPECT_CALL(event_handler, OnData(NotNull(), NotNull(), _))
       .Times(AtLeast(10))
       .WillRepeatedly(CheckCountAndPostQuitTask(&count, 10,
           message_loop_.message_loop_proxy()));

   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
                          kSampleRate, kBitsPerSample, kSamplesPerPacket);

   // Creating the AudioInputController should render an OnCreated() call.
   scoped_refptr<AudioInputController> controller =
       AudioInputController::Create(audio_manager.get(), &event_handler, params);
   ASSERT_TRUE(controller.get());

   // Start recording and trigger one OnRecording() call.
   controller->Record();

   // Record and wait until ten OnData() callbacks are received.
   message_loop_.Run();

   // Close the AudioInputController synchronously.
   CloseAudioController(controller);
 }

 // Test that the AudioInputController reports an error when the input stream
 // stops without an OnClose() callback. This can happen when the underlying
 // audio layer stops feeding data as a result of a removed microphone device.
 TEST_F(AudioInputControllerTest, RecordAndError) {
   MockAudioInputControllerEventHandler event_handler;
   int count = 0;

   // OnCreated() will be called once.
   EXPECT_CALL(event_handler, OnCreated(NotNull()))
       .Times(Exactly(1));

   // OnRecording() will be called only once.
   EXPECT_CALL(event_handler, OnRecording(NotNull()))
       .Times(Exactly(1));

   // OnData() shall be called ten times.
   EXPECT_CALL(event_handler, OnData(NotNull(), NotNull(), _))
       .Times(AtLeast(10))
       .WillRepeatedly(CheckCountAndPostQuitTask(&count, 10,
           message_loop_.message_loop_proxy()));

   // OnError() will be called after the data stream stops while the
   // controller is in a recording state.
   EXPECT_CALL(event_handler, OnError(NotNull(), 0))
       .Times(Exactly(1))
       .WillOnce(QuitMessageLoop(&message_loop_));

   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
                          kSampleRate, kBitsPerSample, kSamplesPerPacket);

   // Creating the AudioInputController should render an OnCreated() call.
   scoped_refptr<AudioInputController> controller =
       AudioInputController::Create(audio_manager.get(), &event_handler, params);
   ASSERT_TRUE(controller.get());

   // Start recording and trigger one OnRecording() call.
   controller->Record();

   // Record and wait until ten OnData() callbacks are received.
   message_loop_.Run();

   // Stop the stream and verify that OnError() is posted.
   AudioInputStream* stream = controller->stream_for_testing();
   stream->Stop();
   message_loop_.Run();

   // Close the AudioInputController synchronously.
   CloseAudioController(controller);
 }

 // Test that AudioInputController rejects insanely large packet sizes.
 TEST_F(AudioInputControllerTest, SamplesPerPacketTooLarge) {
   // Create an audio device with a very large packet size.
   MockAudioInputControllerEventHandler event_handler;

   // OnCreated() shall not be called in this test.
   EXPECT_CALL(event_handler, OnCreated(NotNull()))
     .Times(Exactly(0));

   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
                          kSampleRate, kBitsPerSample, kSamplesPerPacket * 1000);
   scoped_refptr<AudioInputController> controller =
       AudioInputController::Create(audio_manager.get(), &event_handler, params);
   ASSERT_FALSE(controller);
 }

 // Test calling AudioInputController::Close multiple times.
 TEST_F(AudioInputControllerTest, CloseTwice) {
   MockAudioInputControllerEventHandler event_handler;

   // OnRecording() will be called only once.
   EXPECT_CALL(event_handler, OnCreated(NotNull()));

   // OnRecording() will be called only once.
   EXPECT_CALL(event_handler, OnRecording(NotNull()))
       .Times(Exactly(1));

   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
                          kSampleRate, kBitsPerSample, kSamplesPerPacket);
   scoped_refptr<AudioInputController> controller =
       AudioInputController::Create(audio_manager.get(), &event_handler, params);
   ASSERT_TRUE(controller.get());

   controller->Record();

   controller->Close(MessageLoop::QuitClosure());
   MessageLoop::current()->Run();

   controller->Close(MessageLoop::QuitClosure());
   MessageLoop::current()->Run();
 }

 }  // namespace media
	// Copyright (c) 2012 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 "base/basictypes.h"
	#include "base/bind.h"
	#include "base/message_loop.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/test/test_timeouts.h"
	#include "media/audio/audio_input_controller.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using ::testing::_;
	using ::testing::AtLeast;
	using ::testing::Exactly;
	using ::testing::InvokeWithoutArgs;
	using ::testing::NotNull;

	namespace media {

	static const int kSampleRate = AudioParameters::kAudioCDSampleRate;
	static const int kBitsPerSample = 16;
	static const ChannelLayout kChannelLayout = CHANNEL_LAYOUT_STEREO;
	static const int kSamplesPerPacket = kSampleRate / 10;

	// Posts MessageLoop::QuitClosure() on specified message loop.
	ACTION_P(QuitMessageLoop, loop_or_proxy) {
	loop_or_proxy->PostTask(FROM_HERE, MessageLoop::QuitClosure());
	}

	// Posts MessageLoop::QuitClosure() on specified message loop after a certain
	// number of calls given by \|limit\|.
	ACTION_P3(CheckCountAndPostQuitTask, count, limit, loop_or_proxy) {
	if (++*count >= limit) {
	loop_or_proxy->PostTask(FROM_HERE, MessageLoop::QuitClosure());
	}
	}

	// Closes AudioOutputController synchronously.
	static void CloseAudioController(AudioInputController* controller) {
	controller->Close(MessageLoop::QuitClosure());
	MessageLoop::current()->Run();
	}

	class MockAudioInputControllerEventHandler
	: public AudioInputController::EventHandler {
	public:
	MockAudioInputControllerEventHandler() {}

	MOCK_METHOD1(OnCreated, void(AudioInputController* controller));
	MOCK_METHOD1(OnRecording, void(AudioInputController* controller));
	MOCK_METHOD2(OnError, void(AudioInputController* controller, int error_code));
	MOCK_METHOD3(OnData, void(AudioInputController* controller,
	const uint8* data, uint32 size));

	private:
	DISALLOW_COPY_AND_ASSIGN(MockAudioInputControllerEventHandler);
	};

	// Test fixture.
	class AudioInputControllerTest : public testing::Test {
	public:
	AudioInputControllerTest() {}
	virtual ~AudioInputControllerTest() {}

	protected:
	MessageLoop message_loop_;

	private:
	DISALLOW_COPY_AND_ASSIGN(AudioInputControllerTest);
	};

	// Test AudioInputController for create and close without recording audio.
	TEST_F(AudioInputControllerTest, CreateAndClose) {
	MockAudioInputControllerEventHandler event_handler;

	// OnCreated() will be posted once.
	EXPECT_CALL(event_handler, OnCreated(NotNull()))
	.WillOnce(QuitMessageLoop(&message_loop_));

	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
	kSampleRate, kBitsPerSample, kSamplesPerPacket);
	scoped_refptr<AudioInputController> controller =
	AudioInputController::Create(audio_manager.get(), &event_handler, params);
	ASSERT_TRUE(controller.get());

	// Wait for OnCreated() to fire.
	message_loop_.Run();

	// Close the AudioInputController synchronously.
	CloseAudioController(controller);
	}

	// Test a normal call sequence of create, record and close.
	TEST_F(AudioInputControllerTest, RecordAndClose) {
	MockAudioInputControllerEventHandler event_handler;
	int count = 0;

	// OnCreated() will be called once.
	EXPECT_CALL(event_handler, OnCreated(NotNull()))
	.Times(Exactly(1));

	// OnRecording() will be called only once.
	EXPECT_CALL(event_handler, OnRecording(NotNull()))
	.Times(Exactly(1));

	// OnData() shall be called ten times.
	EXPECT_CALL(event_handler, OnData(NotNull(), NotNull(), _))
	.Times(AtLeast(10))
	.WillRepeatedly(CheckCountAndPostQuitTask(&count, 10,
	message_loop_.message_loop_proxy()));

	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
	kSampleRate, kBitsPerSample, kSamplesPerPacket);

	// Creating the AudioInputController should render an OnCreated() call.
	scoped_refptr<AudioInputController> controller =
	AudioInputController::Create(audio_manager.get(), &event_handler, params);
	ASSERT_TRUE(controller.get());

	// Start recording and trigger one OnRecording() call.
	controller->Record();

	// Record and wait until ten OnData() callbacks are received.
	message_loop_.Run();

	// Close the AudioInputController synchronously.
	CloseAudioController(controller);
	}

	// Test that the AudioInputController reports an error when the input stream
	// stops without an OnClose() callback. This can happen when the underlying
	// audio layer stops feeding data as a result of a removed microphone device.
	TEST_F(AudioInputControllerTest, RecordAndError) {
	MockAudioInputControllerEventHandler event_handler;
	int count = 0;

	// OnCreated() will be called once.
	EXPECT_CALL(event_handler, OnCreated(NotNull()))
	.Times(Exactly(1));

	// OnRecording() will be called only once.
	EXPECT_CALL(event_handler, OnRecording(NotNull()))
	.Times(Exactly(1));

	// OnData() shall be called ten times.
	EXPECT_CALL(event_handler, OnData(NotNull(), NotNull(), _))
	.Times(AtLeast(10))
	.WillRepeatedly(CheckCountAndPostQuitTask(&count, 10,
	message_loop_.message_loop_proxy()));

	// OnError() will be called after the data stream stops while the
	// controller is in a recording state.
	EXPECT_CALL(event_handler, OnError(NotNull(), 0))
	.Times(Exactly(1))
	.WillOnce(QuitMessageLoop(&message_loop_));

	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
	kSampleRate, kBitsPerSample, kSamplesPerPacket);

	// Creating the AudioInputController should render an OnCreated() call.
	scoped_refptr<AudioInputController> controller =
	AudioInputController::Create(audio_manager.get(), &event_handler, params);
	ASSERT_TRUE(controller.get());

	// Start recording and trigger one OnRecording() call.
	controller->Record();

	// Record and wait until ten OnData() callbacks are received.
	message_loop_.Run();

	// Stop the stream and verify that OnError() is posted.
	AudioInputStream* stream = controller->stream_for_testing();
	stream->Stop();
	message_loop_.Run();

	// Close the AudioInputController synchronously.
	CloseAudioController(controller);
	}

	// Test that AudioInputController rejects insanely large packet sizes.
	TEST_F(AudioInputControllerTest, SamplesPerPacketTooLarge) {
	// Create an audio device with a very large packet size.
	MockAudioInputControllerEventHandler event_handler;

	// OnCreated() shall not be called in this test.
	EXPECT_CALL(event_handler, OnCreated(NotNull()))
	.Times(Exactly(0));

	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
	kSampleRate, kBitsPerSample, kSamplesPerPacket * 1000);
	scoped_refptr<AudioInputController> controller =
	AudioInputController::Create(audio_manager.get(), &event_handler, params);
	ASSERT_FALSE(controller);
	}

	// Test calling AudioInputController::Close multiple times.
	TEST_F(AudioInputControllerTest, CloseTwice) {
	MockAudioInputControllerEventHandler event_handler;

	// OnRecording() will be called only once.
	EXPECT_CALL(event_handler, OnCreated(NotNull()));

	// OnRecording() will be called only once.
	EXPECT_CALL(event_handler, OnRecording(NotNull()))
	.Times(Exactly(1));

	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	AudioParameters params(AudioParameters::AUDIO_FAKE, kChannelLayout,
	kSampleRate, kBitsPerSample, kSamplesPerPacket);
	scoped_refptr<AudioInputController> controller =
	AudioInputController::Create(audio_manager.get(), &event_handler, params);
	ASSERT_TRUE(controller.get());

	controller->Record();

	controller->Close(MessageLoop::QuitClosure());
	MessageLoop::current()->Run();

	controller->Close(MessageLoop::QuitClosure());
	MessageLoop::current()->Run();
	}

	} // namespace media