src/media/audio/win/audio_low_latency_input_win_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 <windows.h>
 #include <mmsystem.h>

 #include "base/basictypes.h"
 #include "base/environment.h"
 #include "base/file_util.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/message_loop.h"
 #include "base/path_service.h"
 #include "base/test/test_timeouts.h"
 #include "base/win/scoped_com_initializer.h"
 #include "media/audio/audio_io.h"
 #include "media/audio/audio_manager_base.h"
 #include "media/audio/win/audio_low_latency_input_win.h"
 #include "media/audio/win/core_audio_util_win.h"
 #include "media/base/seekable_buffer.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using base::win::ScopedCOMInitializer;
 using ::testing::_;
 using ::testing::AnyNumber;
 using ::testing::AtLeast;
 using ::testing::Gt;
 using ::testing::NotNull;

 namespace media {

 ACTION_P3(CheckCountAndPostQuitTask, count, limit, loop) {
   if (++*count >= limit) {
     loop->PostTask(FROM_HERE, MessageLoop::QuitClosure());
   }
 }

 class MockAudioInputCallback : public AudioInputStream::AudioInputCallback {
  public:
   MOCK_METHOD5(OnData, void(AudioInputStream* stream,
       const uint8* src, uint32 size,
       uint32 hardware_delay_bytes, double volume));
   MOCK_METHOD1(OnClose, void(AudioInputStream* stream));
   MOCK_METHOD2(OnError, void(AudioInputStream* stream, int code));
 };

 // This audio sink implementation should be used for manual tests only since
 // the recorded data is stored on a raw binary data file.
 class WriteToFileAudioSink : public AudioInputStream::AudioInputCallback {
  public:
   // Allocate space for ~10 seconds of data @ 48kHz in stereo:
   // 2 bytes per sample, 2 channels, 10ms @ 48kHz, 10 seconds <=> 1920000 bytes.
   static const size_t kMaxBufferSize = 2 * 2 * 480 * 100 * 10;

   explicit WriteToFileAudioSink(const char* file_name)
       : buffer_(0, kMaxBufferSize),
         bytes_to_write_(0) {
     FilePath file_path;
     EXPECT_TRUE(PathService::Get(base::DIR_EXE, &file_path));
     file_path = file_path.AppendASCII(file_name);
     binary_file_ = file_util::OpenFile(file_path, "wb");
     DLOG_IF(ERROR, !binary_file_) << "Failed to open binary PCM data file.";
     LOG(INFO) << ">> Output file: " << file_path.value()
               << " has been created.";
   }

   virtual ~WriteToFileAudioSink() {
     size_t bytes_written = 0;
     while (bytes_written < bytes_to_write_) {
       const uint8* chunk;
       int chunk_size;

       // Stop writing if no more data is available.
       if (!buffer_.GetCurrentChunk(&chunk, &chunk_size))
         break;

       // Write recorded data chunk to the file and prepare for next chunk.
       fwrite(chunk, 1, chunk_size, binary_file_);
       buffer_.Seek(chunk_size);
       bytes_written += chunk_size;
     }
     file_util::CloseFile(binary_file_);
   }

   // AudioInputStream::AudioInputCallback implementation.
   virtual void OnData(AudioInputStream* stream,
                       const uint8* src,
                       uint32 size,
                       uint32 hardware_delay_bytes,
                       double volume) {
     // Store data data in a temporary buffer to avoid making blocking
     // fwrite() calls in the audio callback. The complete buffer will be
     // written to file in the destructor.
     if (buffer_.Append(src, size)) {
       bytes_to_write_ += size;
     }
   }

   virtual void OnClose(AudioInputStream* stream) {}
   virtual void OnError(AudioInputStream* stream, int code) {}

  private:
   media::SeekableBuffer buffer_;
   FILE* binary_file_;
   size_t bytes_to_write_;
 };

 // Convenience method which ensures that we are not running on the build
 // bots and that at least one valid input device can be found. We also
 // verify that we are not running on XP since the low-latency (WASAPI-
 // based) version requires Windows Vista or higher.
 static bool CanRunAudioTests(AudioManager* audio_man) {
   if (!CoreAudioUtil::IsSupported()) {
     LOG(WARNING) << "This tests requires Windows Vista or higher.";
     return false;
   }
   // TODO(henrika): note that we use Wave today to query the number of
   // existing input devices.
   bool input = audio_man->HasAudioInputDevices();
   LOG_IF(WARNING, !input) << "No input device detected.";
   return input;
 }

 // Convenience method which creates a default AudioInputStream object but
 // also allows the user to modify the default settings.
 class AudioInputStreamWrapper {
  public:
   explicit AudioInputStreamWrapper(AudioManager* audio_manager)
       : com_init_(ScopedCOMInitializer::kMTA),
         audio_man_(audio_manager),
         format_(AudioParameters::AUDIO_PCM_LOW_LATENCY),
         channel_layout_(CHANNEL_LAYOUT_STEREO),
         bits_per_sample_(16) {
     // Use native/mixing sample rate and 10ms frame size as default.
     sample_rate_ = static_cast<int>(
         WASAPIAudioInputStream::HardwareSampleRate(
             AudioManagerBase::kDefaultDeviceId));
     samples_per_packet_ = sample_rate_ / 100;
   }

   ~AudioInputStreamWrapper() {}

   // Creates AudioInputStream object using default parameters.
   AudioInputStream* Create() {
     return CreateInputStream();
   }

   // Creates AudioInputStream object using non-default parameters where the
   // frame size is modified.
   AudioInputStream* Create(int samples_per_packet) {
     samples_per_packet_ = samples_per_packet;
     return CreateInputStream();
   }

   AudioParameters::Format format() const { return format_; }
   int channels() const {
     return ChannelLayoutToChannelCount(channel_layout_);
   }
   int bits_per_sample() const { return bits_per_sample_; }
   int sample_rate() const { return sample_rate_; }
   int samples_per_packet() const { return samples_per_packet_; }

  private:
   AudioInputStream* CreateInputStream() {
     AudioInputStream* ais = audio_man_->MakeAudioInputStream(
         AudioParameters(format_, channel_layout_, sample_rate_,
                         bits_per_sample_, samples_per_packet_),
                         AudioManagerBase::kDefaultDeviceId);
     EXPECT_TRUE(ais);
     return ais;
   }

   ScopedCOMInitializer com_init_;
   AudioManager* audio_man_;
   AudioParameters::Format format_;
   ChannelLayout channel_layout_;
   int bits_per_sample_;
   int sample_rate_;
   int samples_per_packet_;
 };

 // Convenience method which creates a default AudioInputStream object.
 static AudioInputStream* CreateDefaultAudioInputStream(
     AudioManager* audio_manager) {
   AudioInputStreamWrapper aisw(audio_manager);
   AudioInputStream* ais = aisw.Create();
   return ais;
 }

 // Verify that we can retrieve the current hardware/mixing sample rate
 // for all available input devices.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamHardwareSampleRate) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;

   ScopedCOMInitializer com_init(ScopedCOMInitializer::kMTA);

   // Retrieve a list of all available input devices.
   media::AudioDeviceNames device_names;
   audio_manager->GetAudioInputDeviceNames(&device_names);

   // Scan all available input devices and repeat the same test for all of them.
   for (media::AudioDeviceNames::const_iterator it = device_names.begin();
        it != device_names.end(); ++it) {
     // Retrieve the hardware sample rate given a specified audio input device.
     // TODO(tommi): ensure that we don't have to cast here.
     int fs = static_cast<int>(WASAPIAudioInputStream::HardwareSampleRate(
         it->unique_id));
     EXPECT_GE(fs, 0);
   }
 }

 // Test Create(), Close() calling sequence.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamCreateAndClose) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;
   AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
   ais->Close();
 }

 // Test Open(), Close() calling sequence.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenAndClose) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;
   AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
   EXPECT_TRUE(ais->Open());
   ais->Close();
 }

 // Test Open(), Start(), Close() calling sequence.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenStartAndClose) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;
   AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
   EXPECT_TRUE(ais->Open());
   MockAudioInputCallback sink;
   ais->Start(&sink);
   EXPECT_CALL(sink, OnClose(ais))
       .Times(1);
   ais->Close();
 }

 // Test Open(), Start(), Stop(), Close() calling sequence.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenStartStopAndClose) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;
   AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
   EXPECT_TRUE(ais->Open());
   MockAudioInputCallback sink;
   ais->Start(&sink);
   ais->Stop();
   EXPECT_CALL(sink, OnClose(ais))
       .Times(1);
   ais->Close();
 }

 // Test some additional calling sequences.
 TEST(WinAudioInputTest, WASAPIAudioInputStreamMiscCallingSequences) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;
   AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
   WASAPIAudioInputStream* wais = static_cast<WASAPIAudioInputStream*>(ais);

   // Open(), Open() should fail the second time.
   EXPECT_TRUE(ais->Open());
   EXPECT_FALSE(ais->Open());

   MockAudioInputCallback sink;

   // Start(), Start() is a valid calling sequence (second call does nothing).
   ais->Start(&sink);
   EXPECT_TRUE(wais->started());
   ais->Start(&sink);
   EXPECT_TRUE(wais->started());

   // Stop(), Stop() is a valid calling sequence (second call does nothing).
   ais->Stop();
   EXPECT_FALSE(wais->started());
   ais->Stop();
   EXPECT_FALSE(wais->started());

   EXPECT_CALL(sink, OnClose(ais))
     .Times(1);
   ais->Close();
 }

 TEST(WinAudioInputTest, WASAPIAudioInputStreamTestPacketSizes) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;

   int count = 0;
   MessageLoopForUI loop;

   // 10 ms packet size.

   // Create default WASAPI input stream which records in stereo using
   // the shared mixing rate. The default buffer size is 10ms.
   AudioInputStreamWrapper aisw(audio_manager.get());
   AudioInputStream* ais = aisw.Create();
   EXPECT_TRUE(ais->Open());

   MockAudioInputCallback sink;

   // Derive the expected size in bytes of each recorded packet.
   uint32 bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
       (aisw.bits_per_sample() / 8);

   // We use 10ms packets and will run the test until ten packets are received.
   // All should contain valid packets of the same size and a valid delay
   // estimate.
   EXPECT_CALL(sink, OnData(
       ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
       .Times(AtLeast(10))
       .WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
   ais->Start(&sink);
   loop.Run();
   ais->Stop();

   // Store current packet size (to be used in the subsequent tests).
   int samples_per_packet_10ms = aisw.samples_per_packet();

   EXPECT_CALL(sink, OnClose(ais))
       .Times(1);
   ais->Close();

   // 20 ms packet size.

   count = 0;
   ais = aisw.Create(2 * samples_per_packet_10ms);
   EXPECT_TRUE(ais->Open());
   bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
       (aisw.bits_per_sample() / 8);

   EXPECT_CALL(sink, OnData(
       ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
       .Times(AtLeast(10))
       .WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
   ais->Start(&sink);
   loop.Run();
   ais->Stop();

   EXPECT_CALL(sink, OnClose(ais))
       .Times(1);
   ais->Close();

   // 5 ms packet size.

   count = 0;
   ais = aisw.Create(samples_per_packet_10ms / 2);
   EXPECT_TRUE(ais->Open());
   bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
     (aisw.bits_per_sample() / 8);

   EXPECT_CALL(sink, OnData(
       ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
       .Times(AtLeast(10))
       .WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
   ais->Start(&sink);
   loop.Run();
   ais->Stop();

   EXPECT_CALL(sink, OnClose(ais))
       .Times(1);
   ais->Close();
 }

 // This test is intended for manual tests and should only be enabled
 // when it is required to store the captured data on a local file.
 // By default, GTest will print out YOU HAVE 1 DISABLED TEST.
 // To include disabled tests in test execution, just invoke the test program
 // with --gtest_also_run_disabled_tests or set the GTEST_ALSO_RUN_DISABLED_TESTS
 // environment variable to a value greater than 0.
 TEST(WinAudioInputTest, DISABLED_WASAPIAudioInputStreamRecordToFile) {
   scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
   if (!CanRunAudioTests(audio_manager.get()))
     return;

   // Name of the output PCM file containing captured data. The output file
   // will be stored in the directory containing 'media_unittests.exe'.
   // Example of full name: \src\build\Debug\out_stereo_10sec.pcm.
   const char* file_name = "out_stereo_10sec.pcm";

   AudioInputStreamWrapper aisw(audio_manager.get());
   AudioInputStream* ais = aisw.Create();
   EXPECT_TRUE(ais->Open());

   LOG(INFO) << ">> Sample rate: " << aisw.sample_rate() << " [Hz]";
   WriteToFileAudioSink file_sink(file_name);
   LOG(INFO) << ">> Speak into the default microphone while recording.";
   ais->Start(&file_sink);
   base::PlatformThread::Sleep(TestTimeouts::action_timeout());
   ais->Stop();
   LOG(INFO) << ">> Recording has stopped.";
   ais->Close();
 }

 }  // 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 <windows.h>
	#include <mmsystem.h>

	#include "base/basictypes.h"
	#include "base/environment.h"
	#include "base/file_util.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/message_loop.h"
	#include "base/path_service.h"
	#include "base/test/test_timeouts.h"
	#include "base/win/scoped_com_initializer.h"
	#include "media/audio/audio_io.h"
	#include "media/audio/audio_manager_base.h"
	#include "media/audio/win/audio_low_latency_input_win.h"
	#include "media/audio/win/core_audio_util_win.h"
	#include "media/base/seekable_buffer.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using base::win::ScopedCOMInitializer;
	using ::testing::_;
	using ::testing::AnyNumber;
	using ::testing::AtLeast;
	using ::testing::Gt;
	using ::testing::NotNull;

	namespace media {

	ACTION_P3(CheckCountAndPostQuitTask, count, limit, loop) {
	if (++*count >= limit) {
	loop->PostTask(FROM_HERE, MessageLoop::QuitClosure());
	}
	}

	class MockAudioInputCallback : public AudioInputStream::AudioInputCallback {
	public:
	MOCK_METHOD5(OnData, void(AudioInputStream* stream,
	const uint8* src, uint32 size,
	uint32 hardware_delay_bytes, double volume));
	MOCK_METHOD1(OnClose, void(AudioInputStream* stream));
	MOCK_METHOD2(OnError, void(AudioInputStream* stream, int code));
	};

	// This audio sink implementation should be used for manual tests only since
	// the recorded data is stored on a raw binary data file.
	class WriteToFileAudioSink : public AudioInputStream::AudioInputCallback {
	public:
	// Allocate space for ~10 seconds of data @ 48kHz in stereo:
	// 2 bytes per sample, 2 channels, 10ms @ 48kHz, 10 seconds <=> 1920000 bytes.
	static const size_t kMaxBufferSize = 2 * 2 * 480 * 100 * 10;

	explicit WriteToFileAudioSink(const char* file_name)
	: buffer_(0, kMaxBufferSize),
	bytes_to_write_(0) {
	FilePath file_path;
	EXPECT_TRUE(PathService::Get(base::DIR_EXE, &file_path));
	file_path = file_path.AppendASCII(file_name);
	binary_file_ = file_util::OpenFile(file_path, "wb");
	DLOG_IF(ERROR, !binary_file_) << "Failed to open binary PCM data file.";
	LOG(INFO) << ">> Output file: " << file_path.value()
	<< " has been created.";
	}

	virtual ~WriteToFileAudioSink() {
	size_t bytes_written = 0;
	while (bytes_written < bytes_to_write_) {
	const uint8* chunk;
	int chunk_size;

	// Stop writing if no more data is available.
	if (!buffer_.GetCurrentChunk(&chunk, &chunk_size))
	break;

	// Write recorded data chunk to the file and prepare for next chunk.
	fwrite(chunk, 1, chunk_size, binary_file_);
	buffer_.Seek(chunk_size);
	bytes_written += chunk_size;
	}
	file_util::CloseFile(binary_file_);
	}

	// AudioInputStream::AudioInputCallback implementation.
	virtual void OnData(AudioInputStream* stream,
	const uint8* src,
	uint32 size,
	uint32 hardware_delay_bytes,
	double volume) {
	// Store data data in a temporary buffer to avoid making blocking
	// fwrite() calls in the audio callback. The complete buffer will be
	// written to file in the destructor.
	if (buffer_.Append(src, size)) {
	bytes_to_write_ += size;
	}
	}

	virtual void OnClose(AudioInputStream* stream) {}
	virtual void OnError(AudioInputStream* stream, int code) {}

	private:
	media::SeekableBuffer buffer_;
	FILE* binary_file_;
	size_t bytes_to_write_;
	};

	// Convenience method which ensures that we are not running on the build
	// bots and that at least one valid input device can be found. We also
	// verify that we are not running on XP since the low-latency (WASAPI-
	// based) version requires Windows Vista or higher.
	static bool CanRunAudioTests(AudioManager* audio_man) {
	if (!CoreAudioUtil::IsSupported()) {
	LOG(WARNING) << "This tests requires Windows Vista or higher.";
	return false;
	}
	// TODO(henrika): note that we use Wave today to query the number of
	// existing input devices.
	bool input = audio_man->HasAudioInputDevices();
	LOG_IF(WARNING, !input) << "No input device detected.";
	return input;
	}

	// Convenience method which creates a default AudioInputStream object but
	// also allows the user to modify the default settings.
	class AudioInputStreamWrapper {
	public:
	explicit AudioInputStreamWrapper(AudioManager* audio_manager)
	: com_init_(ScopedCOMInitializer::kMTA),
	audio_man_(audio_manager),
	format_(AudioParameters::AUDIO_PCM_LOW_LATENCY),
	channel_layout_(CHANNEL_LAYOUT_STEREO),
	bits_per_sample_(16) {
	// Use native/mixing sample rate and 10ms frame size as default.
	sample_rate_ = static_cast<int>(
	WASAPIAudioInputStream::HardwareSampleRate(
	AudioManagerBase::kDefaultDeviceId));
	samples_per_packet_ = sample_rate_ / 100;
	}

	~AudioInputStreamWrapper() {}

	// Creates AudioInputStream object using default parameters.
	AudioInputStream* Create() {
	return CreateInputStream();
	}

	// Creates AudioInputStream object using non-default parameters where the
	// frame size is modified.
	AudioInputStream* Create(int samples_per_packet) {
	samples_per_packet_ = samples_per_packet;
	return CreateInputStream();
	}

	AudioParameters::Format format() const { return format_; }
	int channels() const {
	return ChannelLayoutToChannelCount(channel_layout_);
	}
	int bits_per_sample() const { return bits_per_sample_; }
	int sample_rate() const { return sample_rate_; }
	int samples_per_packet() const { return samples_per_packet_; }

	private:
	AudioInputStream* CreateInputStream() {
	AudioInputStream* ais = audio_man_->MakeAudioInputStream(
	AudioParameters(format_, channel_layout_, sample_rate_,
	bits_per_sample_, samples_per_packet_),
	AudioManagerBase::kDefaultDeviceId);
	EXPECT_TRUE(ais);
	return ais;
	}

	ScopedCOMInitializer com_init_;
	AudioManager* audio_man_;
	AudioParameters::Format format_;
	ChannelLayout channel_layout_;
	int bits_per_sample_;
	int sample_rate_;
	int samples_per_packet_;
	};

	// Convenience method which creates a default AudioInputStream object.
	static AudioInputStream* CreateDefaultAudioInputStream(
	AudioManager* audio_manager) {
	AudioInputStreamWrapper aisw(audio_manager);
	AudioInputStream* ais = aisw.Create();
	return ais;
	}

	// Verify that we can retrieve the current hardware/mixing sample rate
	// for all available input devices.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamHardwareSampleRate) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;

	ScopedCOMInitializer com_init(ScopedCOMInitializer::kMTA);

	// Retrieve a list of all available input devices.
	media::AudioDeviceNames device_names;
	audio_manager->GetAudioInputDeviceNames(&device_names);

	// Scan all available input devices and repeat the same test for all of them.
	for (media::AudioDeviceNames::const_iterator it = device_names.begin();
	it != device_names.end(); ++it) {
	// Retrieve the hardware sample rate given a specified audio input device.
	// TODO(tommi): ensure that we don't have to cast here.
	int fs = static_cast<int>(WASAPIAudioInputStream::HardwareSampleRate(
	it->unique_id));
	EXPECT_GE(fs, 0);
	}
	}

	// Test Create(), Close() calling sequence.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamCreateAndClose) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;
	AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
	ais->Close();
	}

	// Test Open(), Close() calling sequence.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenAndClose) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;
	AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
	EXPECT_TRUE(ais->Open());
	ais->Close();
	}

	// Test Open(), Start(), Close() calling sequence.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenStartAndClose) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;
	AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
	EXPECT_TRUE(ais->Open());
	MockAudioInputCallback sink;
	ais->Start(&sink);
	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();
	}

	// Test Open(), Start(), Stop(), Close() calling sequence.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamOpenStartStopAndClose) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;
	AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
	EXPECT_TRUE(ais->Open());
	MockAudioInputCallback sink;
	ais->Start(&sink);
	ais->Stop();
	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();
	}

	// Test some additional calling sequences.
	TEST(WinAudioInputTest, WASAPIAudioInputStreamMiscCallingSequences) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;
	AudioInputStream* ais = CreateDefaultAudioInputStream(audio_manager.get());
	WASAPIAudioInputStream* wais = static_cast<WASAPIAudioInputStream*>(ais);

	// Open(), Open() should fail the second time.
	EXPECT_TRUE(ais->Open());
	EXPECT_FALSE(ais->Open());

	MockAudioInputCallback sink;

	// Start(), Start() is a valid calling sequence (second call does nothing).
	ais->Start(&sink);
	EXPECT_TRUE(wais->started());
	ais->Start(&sink);
	EXPECT_TRUE(wais->started());

	// Stop(), Stop() is a valid calling sequence (second call does nothing).
	ais->Stop();
	EXPECT_FALSE(wais->started());
	ais->Stop();
	EXPECT_FALSE(wais->started());

	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();
	}

	TEST(WinAudioInputTest, WASAPIAudioInputStreamTestPacketSizes) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;

	int count = 0;
	MessageLoopForUI loop;

	// 10 ms packet size.

	// Create default WASAPI input stream which records in stereo using
	// the shared mixing rate. The default buffer size is 10ms.
	AudioInputStreamWrapper aisw(audio_manager.get());
	AudioInputStream* ais = aisw.Create();
	EXPECT_TRUE(ais->Open());

	MockAudioInputCallback sink;

	// Derive the expected size in bytes of each recorded packet.
	uint32 bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
	(aisw.bits_per_sample() / 8);

	// We use 10ms packets and will run the test until ten packets are received.
	// All should contain valid packets of the same size and a valid delay
	// estimate.
	EXPECT_CALL(sink, OnData(
	ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
	.Times(AtLeast(10))
	.WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
	ais->Start(&sink);
	loop.Run();
	ais->Stop();

	// Store current packet size (to be used in the subsequent tests).
	int samples_per_packet_10ms = aisw.samples_per_packet();

	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();

	// 20 ms packet size.

	count = 0;
	ais = aisw.Create(2 * samples_per_packet_10ms);
	EXPECT_TRUE(ais->Open());
	bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
	(aisw.bits_per_sample() / 8);

	EXPECT_CALL(sink, OnData(
	ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
	.Times(AtLeast(10))
	.WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
	ais->Start(&sink);
	loop.Run();
	ais->Stop();

	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();

	// 5 ms packet size.

	count = 0;
	ais = aisw.Create(samples_per_packet_10ms / 2);
	EXPECT_TRUE(ais->Open());
	bytes_per_packet = aisw.channels() * aisw.samples_per_packet() *
	(aisw.bits_per_sample() / 8);

	EXPECT_CALL(sink, OnData(
	ais, NotNull(), bytes_per_packet, Gt(bytes_per_packet), _))
	.Times(AtLeast(10))
	.WillRepeatedly(CheckCountAndPostQuitTask(&count, 10, &loop));
	ais->Start(&sink);
	loop.Run();
	ais->Stop();

	EXPECT_CALL(sink, OnClose(ais))
	.Times(1);
	ais->Close();
	}

	// This test is intended for manual tests and should only be enabled
	// when it is required to store the captured data on a local file.
	// By default, GTest will print out YOU HAVE 1 DISABLED TEST.
	// To include disabled tests in test execution, just invoke the test program
	// with --gtest_also_run_disabled_tests or set the GTEST_ALSO_RUN_DISABLED_TESTS
	// environment variable to a value greater than 0.
	TEST(WinAudioInputTest, DISABLED_WASAPIAudioInputStreamRecordToFile) {
	scoped_ptr<AudioManager> audio_manager(AudioManager::Create());
	if (!CanRunAudioTests(audio_manager.get()))
	return;

	// Name of the output PCM file containing captured data. The output file
	// will be stored in the directory containing 'media_unittests.exe'.
	// Example of full name: \src\build\Debug\out_stereo_10sec.pcm.
	const char* file_name = "out_stereo_10sec.pcm";

	AudioInputStreamWrapper aisw(audio_manager.get());
	AudioInputStream* ais = aisw.Create();
	EXPECT_TRUE(ais->Open());

	LOG(INFO) << ">> Sample rate: " << aisw.sample_rate() << " [Hz]";
	WriteToFileAudioSink file_sink(file_name);
	LOG(INFO) << ">> Speak into the default microphone while recording.";
	ais->Start(&file_sink);
	base::PlatformThread::Sleep(TestTimeouts::action_timeout());
	ais->Stop();
	LOG(INFO) << ">> Recording has stopped.";
	ais->Close();
	}

	} // namespace media