src/media/audio/win/audio_low_latency_input_win.h - 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.
 //
 // Implementation of AudioInputStream for Windows using Windows Core Audio
 // WASAPI for low latency capturing.
 //
 // Overview of operation:
 //
 // - An object of WASAPIAudioInputStream is created by the AudioManager
 //   factory.
 // - Next some thread will call Open(), at that point the underlying
 //   Core Audio APIs are utilized to create two WASAPI interfaces called
 //   IAudioClient and IAudioCaptureClient.
 // - Then some thread will call Start(sink).
 //   A thread called "wasapi_capture_thread" is started and this thread listens
 //   on an event signal which is set periodically by the audio engine for
 //   each recorded data packet. As a result, data samples will be provided
 //   to the registered sink.
 // - At some point, a thread will call Stop(), which stops and joins the
 //   capture thread and at the same time stops audio streaming.
 // - The same thread that called stop will call Close() where we cleanup
 //   and notify the audio manager, which likely will destroy this object.
 //
 // Implementation notes:
 //
 // - The minimum supported client is Windows Vista.
 // - This implementation is single-threaded, hence:
 //    o Construction and destruction must take place from the same thread.
 //    o It is recommended to call all APIs from the same thread as well.
 // - It is recommended to first acquire the native sample rate of the default
 //   input device and then use the same rate when creating this object. Use
 //   WASAPIAudioInputStream::HardwareSampleRate() to retrieve the sample rate.
 // - Calling Close() also leads to self destruction.
 //
 // Core Audio API details:
 //
 // - Utilized MMDevice interfaces:
 //     o IMMDeviceEnumerator
 //     o IMMDevice
 // - Utilized WASAPI interfaces:
 //     o IAudioClient
 //     o IAudioCaptureClient
 // - The stream is initialized in shared mode and the processing of the
 //   audio buffer is event driven.
 // - The Multimedia Class Scheduler service (MMCSS) is utilized to boost
 //   the priority of the capture thread.
 // - Audio applications that use the MMDevice API and WASAPI typically use
 //   the ISimpleAudioVolume interface to manage stream volume levels on a
 //   per-session basis. It is also possible to use of the IAudioEndpointVolume
 //   interface to control the master volume level of an audio endpoint device.
 //   This implementation is using the ISimpleAudioVolume interface.
 //   MSDN states that "In rare cases, a specialized audio application might
 //   require the use of the IAudioEndpointVolume".
 //
 #ifndef MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_
 #define MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_

 #include <Audioclient.h>
 #include <MMDeviceAPI.h>

 #include <string>

 #include "base/compiler_specific.h"
 #include "base/threading/non_thread_safe.h"
 #include "base/threading/platform_thread.h"
 #include "base/threading/simple_thread.h"
 #include "base/win/scoped_co_mem.h"
 #include "base/win/scoped_com_initializer.h"
 #include "base/win/scoped_comptr.h"
 #include "base/win/scoped_handle.h"
 #include "media/audio/audio_input_stream_impl.h"
 #include "media/audio/audio_parameters.h"
 #include "media/base/media_export.h"

 namespace media {

 class AudioManagerWin;

 // AudioInputStream implementation using Windows Core Audio APIs.
 class MEDIA_EXPORT WASAPIAudioInputStream
     : public AudioInputStreamImpl,
       public base::DelegateSimpleThread::Delegate,
       NON_EXPORTED_BASE(public base::NonThreadSafe) {
  public:
   // The ctor takes all the usual parameters, plus |manager| which is the
   // the audio manager who is creating this object.
   WASAPIAudioInputStream(AudioManagerWin* manager,
                          const AudioParameters& params,
                          const std::string& device_id);
   // The dtor is typically called by the AudioManager only and it is usually
   // triggered by calling AudioInputStream::Close().
   virtual ~WASAPIAudioInputStream();

   // Implementation of AudioInputStream.
   virtual bool Open() OVERRIDE;
   virtual void Start(AudioInputCallback* callback) OVERRIDE;
   virtual void Stop() OVERRIDE;
   virtual void Close() OVERRIDE;
   virtual double GetMaxVolume() OVERRIDE;
   virtual void SetVolume(double volume) OVERRIDE;
   virtual double GetVolume() OVERRIDE;

   // Retrieves the sample rate used by the audio engine for its internal
   // processing/mixing of shared-mode streams given a specifed device.
   static int HardwareSampleRate(const std::string& device_id);

   // Retrieves the number of audio channels used by the audio engine for its
   // internal processing/mixing of shared-mode streams given a specified device.
   static uint32 HardwareChannelCount(const std::string& device_id);

   bool started() const { return started_; }

  private:
   // DelegateSimpleThread::Delegate implementation.
   virtual void Run() OVERRIDE;

   // Issues the OnError() callback to the |sink_|.
   void HandleError(HRESULT err);

   // The Open() method is divided into these sub methods.
   HRESULT SetCaptureDevice();
   HRESULT ActivateCaptureDevice();
   HRESULT GetAudioEngineStreamFormat();
   bool DesiredFormatIsSupported();
   HRESULT InitializeAudioEngine();

   // Retrieves the stream format that the audio engine uses for its internal
   // processing/mixing of shared-mode streams.
   static HRESULT GetMixFormat(const std::string& device_id,
                               WAVEFORMATEX** device_format);

   // Our creator, the audio manager needs to be notified when we close.
   AudioManagerWin* manager_;

   // Capturing is driven by this thread (which has no message loop).
   // All OnData() callbacks will be called from this thread.
   base::DelegateSimpleThread* capture_thread_;

   // Contains the desired audio format which is set up at construction.
   WAVEFORMATEX format_;

   bool opened_;
   bool started_;

   // Size in bytes of each audio frame (4 bytes for 16-bit stereo PCM)
   size_t frame_size_;

   // Size in audio frames of each audio packet where an audio packet
   // is defined as the block of data which the user received in each
   // OnData() callback.
   size_t packet_size_frames_;

   // Size in bytes of each audio packet.
   size_t packet_size_bytes_;

   // Length of the audio endpoint buffer.
   size_t endpoint_buffer_size_frames_;

   // Contains the unique name of the selected endpoint device.
   // Note that AudioManagerBase::kDefaultDeviceId represents the default
   // device role and is not a valid ID as such.
   std::string device_id_;

   // Conversion factor used in delay-estimation calculations.
   // Converts a raw performance counter value to 100-nanosecond unit.
   double perf_count_to_100ns_units_;

   // Conversion factor used in delay-estimation calculations.
   // Converts from milliseconds to audio frames.
   double ms_to_frame_count_;

   // Pointer to the object that will receive the recorded audio samples.
   AudioInputCallback* sink_;

   // Windows Multimedia Device (MMDevice) API interfaces.

   // An IMMDevice interface which represents an audio endpoint device.
   base::win::ScopedComPtr<IMMDevice> endpoint_device_;

   // Windows Audio Session API (WASAP) interfaces.

   // An IAudioClient interface which enables a client to create and initialize
   // an audio stream between an audio application and the audio engine.
   base::win::ScopedComPtr<IAudioClient> audio_client_;

   // The IAudioCaptureClient interface enables a client to read input data
   // from a capture endpoint buffer.
   base::win::ScopedComPtr<IAudioCaptureClient> audio_capture_client_;

   // The ISimpleAudioVolume interface enables a client to control the
   // master volume level of an audio session.
   // The volume-level is a value in the range 0.0 to 1.0.
   // This interface does only work with shared-mode streams.
   base::win::ScopedComPtr<ISimpleAudioVolume> simple_audio_volume_;

   // The audio engine will signal this event each time a buffer has been
   // recorded.
   base::win::ScopedHandle audio_samples_ready_event_;

   // This event will be signaled when capturing shall stop.
   base::win::ScopedHandle stop_capture_event_;

   DISALLOW_COPY_AND_ASSIGN(WASAPIAudioInputStream);
 };

 }  // namespace media

 #endif  // MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_
	// 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.
	//
	// Implementation of AudioInputStream for Windows using Windows Core Audio
	// WASAPI for low latency capturing.
	//
	// Overview of operation:
	//
	// - An object of WASAPIAudioInputStream is created by the AudioManager
	// factory.
	// - Next some thread will call Open(), at that point the underlying
	// Core Audio APIs are utilized to create two WASAPI interfaces called
	// IAudioClient and IAudioCaptureClient.
	// - Then some thread will call Start(sink).
	// A thread called "wasapi_capture_thread" is started and this thread listens
	// on an event signal which is set periodically by the audio engine for
	// each recorded data packet. As a result, data samples will be provided
	// to the registered sink.
	// - At some point, a thread will call Stop(), which stops and joins the
	// capture thread and at the same time stops audio streaming.
	// - The same thread that called stop will call Close() where we cleanup
	// and notify the audio manager, which likely will destroy this object.
	//
	// Implementation notes:
	//
	// - The minimum supported client is Windows Vista.
	// - This implementation is single-threaded, hence:
	// o Construction and destruction must take place from the same thread.
	// o It is recommended to call all APIs from the same thread as well.
	// - It is recommended to first acquire the native sample rate of the default
	// input device and then use the same rate when creating this object. Use
	// WASAPIAudioInputStream::HardwareSampleRate() to retrieve the sample rate.
	// - Calling Close() also leads to self destruction.
	//
	// Core Audio API details:
	//
	// - Utilized MMDevice interfaces:
	// o IMMDeviceEnumerator
	// o IMMDevice
	// - Utilized WASAPI interfaces:
	// o IAudioClient
	// o IAudioCaptureClient
	// - The stream is initialized in shared mode and the processing of the
	// audio buffer is event driven.
	// - The Multimedia Class Scheduler service (MMCSS) is utilized to boost
	// the priority of the capture thread.
	// - Audio applications that use the MMDevice API and WASAPI typically use
	// the ISimpleAudioVolume interface to manage stream volume levels on a
	// per-session basis. It is also possible to use of the IAudioEndpointVolume
	// interface to control the master volume level of an audio endpoint device.
	// This implementation is using the ISimpleAudioVolume interface.
	// MSDN states that "In rare cases, a specialized audio application might
	// require the use of the IAudioEndpointVolume".
	//
	#ifndef MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_
	#define MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_

	#include <Audioclient.h>
	#include <MMDeviceAPI.h>

	#include <string>

	#include "base/compiler_specific.h"
	#include "base/threading/non_thread_safe.h"
	#include "base/threading/platform_thread.h"
	#include "base/threading/simple_thread.h"
	#include "base/win/scoped_co_mem.h"
	#include "base/win/scoped_com_initializer.h"
	#include "base/win/scoped_comptr.h"
	#include "base/win/scoped_handle.h"
	#include "media/audio/audio_input_stream_impl.h"
	#include "media/audio/audio_parameters.h"
	#include "media/base/media_export.h"

	namespace media {

	class AudioManagerWin;

	// AudioInputStream implementation using Windows Core Audio APIs.
	class MEDIA_EXPORT WASAPIAudioInputStream
	: public AudioInputStreamImpl,
	public base::DelegateSimpleThread::Delegate,
	NON_EXPORTED_BASE(public base::NonThreadSafe) {
	public:
	// The ctor takes all the usual parameters, plus \|manager\| which is the
	// the audio manager who is creating this object.
	WASAPIAudioInputStream(AudioManagerWin* manager,
	const AudioParameters& params,
	const std::string& device_id);
	// The dtor is typically called by the AudioManager only and it is usually
	// triggered by calling AudioInputStream::Close().
	virtual ~WASAPIAudioInputStream();

	// Implementation of AudioInputStream.
	virtual bool Open() OVERRIDE;
	virtual void Start(AudioInputCallback* callback) OVERRIDE;
	virtual void Stop() OVERRIDE;
	virtual void Close() OVERRIDE;
	virtual double GetMaxVolume() OVERRIDE;
	virtual void SetVolume(double volume) OVERRIDE;
	virtual double GetVolume() OVERRIDE;

	// Retrieves the sample rate used by the audio engine for its internal
	// processing/mixing of shared-mode streams given a specifed device.
	static int HardwareSampleRate(const std::string& device_id);

	// Retrieves the number of audio channels used by the audio engine for its
	// internal processing/mixing of shared-mode streams given a specified device.
	static uint32 HardwareChannelCount(const std::string& device_id);

	bool started() const { return started_; }

	private:
	// DelegateSimpleThread::Delegate implementation.
	virtual void Run() OVERRIDE;

	// Issues the OnError() callback to the \|sink_\|.
	void HandleError(HRESULT err);

	// The Open() method is divided into these sub methods.
	HRESULT SetCaptureDevice();
	HRESULT ActivateCaptureDevice();
	HRESULT GetAudioEngineStreamFormat();
	bool DesiredFormatIsSupported();
	HRESULT InitializeAudioEngine();

	// Retrieves the stream format that the audio engine uses for its internal
	// processing/mixing of shared-mode streams.
	static HRESULT GetMixFormat(const std::string& device_id,
	WAVEFORMATEX** device_format);

	// Our creator, the audio manager needs to be notified when we close.
	AudioManagerWin* manager_;

	// Capturing is driven by this thread (which has no message loop).
	// All OnData() callbacks will be called from this thread.
	base::DelegateSimpleThread* capture_thread_;

	// Contains the desired audio format which is set up at construction.
	WAVEFORMATEX format_;

	bool opened_;
	bool started_;

	// Size in bytes of each audio frame (4 bytes for 16-bit stereo PCM)
	size_t frame_size_;

	// Size in audio frames of each audio packet where an audio packet
	// is defined as the block of data which the user received in each
	// OnData() callback.
	size_t packet_size_frames_;

	// Size in bytes of each audio packet.
	size_t packet_size_bytes_;

	// Length of the audio endpoint buffer.
	size_t endpoint_buffer_size_frames_;

	// Contains the unique name of the selected endpoint device.
	// Note that AudioManagerBase::kDefaultDeviceId represents the default
	// device role and is not a valid ID as such.
	std::string device_id_;

	// Conversion factor used in delay-estimation calculations.
	// Converts a raw performance counter value to 100-nanosecond unit.
	double perf_count_to_100ns_units_;

	// Conversion factor used in delay-estimation calculations.
	// Converts from milliseconds to audio frames.
	double ms_to_frame_count_;

	// Pointer to the object that will receive the recorded audio samples.
	AudioInputCallback* sink_;

	// Windows Multimedia Device (MMDevice) API interfaces.

	// An IMMDevice interface which represents an audio endpoint device.
	base::win::ScopedComPtr<IMMDevice> endpoint_device_;

	// Windows Audio Session API (WASAP) interfaces.

	// An IAudioClient interface which enables a client to create and initialize
	// an audio stream between an audio application and the audio engine.
	base::win::ScopedComPtr<IAudioClient> audio_client_;

	// The IAudioCaptureClient interface enables a client to read input data
	// from a capture endpoint buffer.
	base::win::ScopedComPtr<IAudioCaptureClient> audio_capture_client_;

	// The ISimpleAudioVolume interface enables a client to control the
	// master volume level of an audio session.
	// The volume-level is a value in the range 0.0 to 1.0.
	// This interface does only work with shared-mode streams.
	base::win::ScopedComPtr<ISimpleAudioVolume> simple_audio_volume_;

	// The audio engine will signal this event each time a buffer has been
	// recorded.
	base::win::ScopedHandle audio_samples_ready_event_;

	// This event will be signaled when capturing shall stop.
	base::win::ScopedHandle stop_capture_event_;

	DISALLOW_COPY_AND_ASSIGN(WASAPIAudioInputStream);
	};

	} // namespace media

	#endif // MEDIA_AUDIO_WIN_AUDIO_LOW_LATENCY_INPUT_WIN_H_