media/audio/audio_manager.h - platform/external/chromium_org - 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.

 #ifndef MEDIA_AUDIO_AUDIO_MANAGER_H_
 #define MEDIA_AUDIO_AUDIO_MANAGER_H_

 #include <string>

 #include "base/basictypes.h"
 #include "base/memory/ref_counted.h"
 #include "base/strings/string16.h"
 #include "media/audio/audio_device_name.h"
 #include "media/audio/audio_logging.h"
 #include "media/audio/audio_parameters.h"

 namespace base {
 class SingleThreadTaskRunner;
 }

 namespace media {

 class AudioInputStream;
 class AudioOutputStream;

 // Manages all audio resources.  Provides some convenience functions that avoid
 // the need to provide iterators over the existing streams.
 class MEDIA_EXPORT AudioManager {
   public:
    virtual ~AudioManager();

   // Construct the audio manager; only one instance is allowed.  The manager
   // will forward CreateAudioLog() calls to the provided AudioLogFactory; as
   // such |audio_log_factory| must outlive the AudioManager.
   static AudioManager* Create(AudioLogFactory* audio_log_factory);

   // Similar to Create() except uses a FakeAudioLogFactory for testing.
   static AudioManager* CreateForTesting();

   // Returns the pointer to the last created instance, or NULL if not yet
   // created. This is a utility method for the code outside of media directory,
   // like src/chrome.
   static AudioManager* Get();

   // Returns true if the OS reports existence of audio devices. This does not
   // guarantee that the existing devices support all formats and sample rates.
   virtual bool HasAudioOutputDevices() = 0;

   // Returns true if the OS reports existence of audio recording devices. This
   // does not guarantee that the existing devices support all formats and
   // sample rates.
   virtual bool HasAudioInputDevices() = 0;

   // Returns a human readable string for the model/make of the active audio
   // input device for this computer.
   virtual base::string16 GetAudioInputDeviceModel() = 0;

   // Opens the platform default audio input settings UI.
   // Note: This could invoke an external application/preferences pane, so
   // ideally must not be called from the UI thread or other time sensitive
   // threads to avoid blocking the rest of the application.
   virtual void ShowAudioInputSettings() = 0;

   // Appends a list of available input devices to |device_names|,
   // which must initially be empty. It is not guaranteed that all the
   // devices in the list support all formats and sample rates for
   // recording.
   //
   // Not threadsafe; in production this should only be called from the
   // Audio worker thread (see GetWorkerTaskRunner()).
   virtual void GetAudioInputDeviceNames(AudioDeviceNames* device_names) = 0;

   // Appends a list of available output devices to |device_names|,
   // which must initially be empty.
   //
   // Not threadsafe; in production this should only be called from the
   // Audio worker thread (see GetWorkerTaskRunner()).
   virtual void GetAudioOutputDeviceNames(AudioDeviceNames* device_names) = 0;

   // Factory for all the supported stream formats. |params| defines parameters
   // of the audio stream to be created.
   //
   // |params.sample_per_packet| is the requested buffer allocation which the
   // audio source thinks it can usually fill without blocking. Internally two
   // or three buffers are created, one will be locked for playback and one will
   // be ready to be filled in the call to AudioSourceCallback::OnMoreData().
   //
   // To create a stream for the default output device, pass an empty string
   // for |device_id|, otherwise the specified audio device will be opened.
   //
   // Returns NULL if the combination of the parameters is not supported, or if
   // we have reached some other platform specific limit.
   //
   // |params.format| can be set to AUDIO_PCM_LOW_LATENCY and that has two
   // effects:
   // 1- Instead of triple buffered the audio will be double buffered.
   // 2- A low latency driver or alternative audio subsystem will be used when
   //    available.
   //
   // Do not free the returned AudioOutputStream. It is owned by AudioManager.
   virtual AudioOutputStream* MakeAudioOutputStream(
       const AudioParameters& params,
       const std::string& device_id) = 0;

   // Creates new audio output proxy. A proxy implements
   // AudioOutputStream interface, but unlike regular output stream
   // created with MakeAudioOutputStream() it opens device only when a
   // sound is actually playing.
   virtual AudioOutputStream* MakeAudioOutputStreamProxy(
       const AudioParameters& params,
       const std::string& device_id) = 0;

   // Factory to create audio recording streams.
   // |channels| can be 1 or 2.
   // |sample_rate| is in hertz and can be any value supported by the platform.
   // |bits_per_sample| can be any value supported by the platform.
   // |samples_per_packet| is in hertz as well and can be 0 to |sample_rate|,
   // with 0 suggesting that the implementation use a default value for that
   // platform.
   // Returns NULL if the combination of the parameters is not supported, or if
   // we have reached some other platform specific limit.
   //
   // Do not free the returned AudioInputStream. It is owned by AudioManager.
   // When you are done with it, call |Stop()| and |Close()| to release it.
   virtual AudioInputStream* MakeAudioInputStream(
       const AudioParameters& params, const std::string& device_id) = 0;

   // Returns the task runner used for audio IO.
   virtual scoped_refptr<base::SingleThreadTaskRunner> GetTaskRunner() = 0;

   // Heavyweight tasks should use GetWorkerTaskRunner() instead of
   // GetTaskRunner(). On most platforms they are the same, but some share the
   // UI loop with the audio IO loop.
   virtual scoped_refptr<base::SingleThreadTaskRunner> GetWorkerTaskRunner() = 0;

   // Allows clients to listen for device state changes; e.g. preferred sample
   // rate or channel layout changes.  The typical response to receiving this
   // callback is to recreate the stream.
   class AudioDeviceListener {
    public:
     virtual void OnDeviceChange() = 0;
   };

   virtual void AddOutputDeviceChangeListener(AudioDeviceListener* listener) = 0;
   virtual void RemoveOutputDeviceChangeListener(
       AudioDeviceListener* listener) = 0;

   // Returns the default output hardware audio parameters for opening output
   // streams. It is a convenience interface to
   // AudioManagerBase::GetPreferredOutputStreamParameters and each AudioManager
   // does not need their own implementation to this interface.
   // TODO(tommi): Remove this method and use GetOutputStreamParameteres instead.
   virtual AudioParameters GetDefaultOutputStreamParameters() = 0;

   // Returns the output hardware audio parameters for a specific output device.
   virtual AudioParameters GetOutputStreamParameters(
       const std::string& device_id) = 0;

   // Returns the input hardware audio parameters of the specific device
   // for opening input streams. Each AudioManager needs to implement their own
   // version of this interface.
   virtual AudioParameters GetInputStreamParameters(
       const std::string& device_id) = 0;

   // Returns the device id of an output device that belongs to the same hardware
   // as the specified input device.
   // If the hardware has only an input device (e.g. a webcam), the return value
   // will be empty (which the caller can then interpret to be the default output
   // device).  Implementations that don't yet support this feature, must return
   // an empty string. Must be called on the audio worker thread (see
   // GetWorkerTaskRunner()).
   virtual std::string GetAssociatedOutputDeviceID(
       const std::string& input_device_id) = 0;

   // Create a new AudioLog object for tracking the behavior for one or more
   // instances of the given component.  See AudioLogFactory for more details.
   virtual scoped_ptr<AudioLog> CreateAudioLog(
       AudioLogFactory::AudioComponent component) = 0;

  protected:
   AudioManager();

  private:
   DISALLOW_COPY_AND_ASSIGN(AudioManager);
 };

 }  // namespace media

 #endif  // MEDIA_AUDIO_AUDIO_MANAGER_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.

	#ifndef MEDIA_AUDIO_AUDIO_MANAGER_H_
	#define MEDIA_AUDIO_AUDIO_MANAGER_H_

	#include <string>

	#include "base/basictypes.h"
	#include "base/memory/ref_counted.h"
	#include "base/strings/string16.h"
	#include "media/audio/audio_device_name.h"
	#include "media/audio/audio_logging.h"
	#include "media/audio/audio_parameters.h"

	namespace base {
	class SingleThreadTaskRunner;
	}

	namespace media {

	class AudioInputStream;
	class AudioOutputStream;

	// Manages all audio resources. Provides some convenience functions that avoid
	// the need to provide iterators over the existing streams.
	class MEDIA_EXPORT AudioManager {
	public:
	virtual ~AudioManager();

	// Construct the audio manager; only one instance is allowed. The manager
	// will forward CreateAudioLog() calls to the provided AudioLogFactory; as
	// such \|audio_log_factory\| must outlive the AudioManager.
	static AudioManager* Create(AudioLogFactory* audio_log_factory);

	// Similar to Create() except uses a FakeAudioLogFactory for testing.
	static AudioManager* CreateForTesting();

	// Returns the pointer to the last created instance, or NULL if not yet
	// created. This is a utility method for the code outside of media directory,
	// like src/chrome.
	static AudioManager* Get();

	// Returns true if the OS reports existence of audio devices. This does not
	// guarantee that the existing devices support all formats and sample rates.
	virtual bool HasAudioOutputDevices() = 0;

	// Returns true if the OS reports existence of audio recording devices. This
	// does not guarantee that the existing devices support all formats and
	// sample rates.
	virtual bool HasAudioInputDevices() = 0;

	// Returns a human readable string for the model/make of the active audio
	// input device for this computer.
	virtual base::string16 GetAudioInputDeviceModel() = 0;

	// Opens the platform default audio input settings UI.
	// Note: This could invoke an external application/preferences pane, so
	// ideally must not be called from the UI thread or other time sensitive
	// threads to avoid blocking the rest of the application.
	virtual void ShowAudioInputSettings() = 0;

	// Appends a list of available input devices to \|device_names\|,
	// which must initially be empty. It is not guaranteed that all the
	// devices in the list support all formats and sample rates for
	// recording.
	//
	// Not threadsafe; in production this should only be called from the
	// Audio worker thread (see GetWorkerTaskRunner()).
	virtual void GetAudioInputDeviceNames(AudioDeviceNames* device_names) = 0;

	// Appends a list of available output devices to \|device_names\|,
	// which must initially be empty.
	//
	// Not threadsafe; in production this should only be called from the
	// Audio worker thread (see GetWorkerTaskRunner()).
	virtual void GetAudioOutputDeviceNames(AudioDeviceNames* device_names) = 0;

	// Factory for all the supported stream formats. \|params\| defines parameters
	// of the audio stream to be created.
	//
	// \|params.sample_per_packet\| is the requested buffer allocation which the
	// audio source thinks it can usually fill without blocking. Internally two
	// or three buffers are created, one will be locked for playback and one will
	// be ready to be filled in the call to AudioSourceCallback::OnMoreData().
	//
	// To create a stream for the default output device, pass an empty string
	// for \|device_id\|, otherwise the specified audio device will be opened.
	//
	// Returns NULL if the combination of the parameters is not supported, or if
	// we have reached some other platform specific limit.
	//
	// \|params.format\| can be set to AUDIO_PCM_LOW_LATENCY and that has two
	// effects:
	// 1- Instead of triple buffered the audio will be double buffered.
	// 2- A low latency driver or alternative audio subsystem will be used when
	// available.
	//
	// Do not free the returned AudioOutputStream. It is owned by AudioManager.
	virtual AudioOutputStream* MakeAudioOutputStream(
	const AudioParameters& params,
	const std::string& device_id) = 0;

	// Creates new audio output proxy. A proxy implements
	// AudioOutputStream interface, but unlike regular output stream
	// created with MakeAudioOutputStream() it opens device only when a
	// sound is actually playing.
	virtual AudioOutputStream* MakeAudioOutputStreamProxy(
	const AudioParameters& params,
	const std::string& device_id) = 0;

	// Factory to create audio recording streams.
	// \|channels\| can be 1 or 2.
	// \|sample_rate\| is in hertz and can be any value supported by the platform.
	// \|bits_per_sample\| can be any value supported by the platform.
	// \|samples_per_packet\| is in hertz as well and can be 0 to \|sample_rate\|,
	// with 0 suggesting that the implementation use a default value for that
	// platform.
	// Returns NULL if the combination of the parameters is not supported, or if
	// we have reached some other platform specific limit.
	//
	// Do not free the returned AudioInputStream. It is owned by AudioManager.
	// When you are done with it, call \|Stop()\| and \|Close()\| to release it.
	virtual AudioInputStream* MakeAudioInputStream(
	const AudioParameters& params, const std::string& device_id) = 0;

	// Returns the task runner used for audio IO.
	virtual scoped_refptr<base::SingleThreadTaskRunner> GetTaskRunner() = 0;

	// Heavyweight tasks should use GetWorkerTaskRunner() instead of
	// GetTaskRunner(). On most platforms they are the same, but some share the
	// UI loop with the audio IO loop.
	virtual scoped_refptr<base::SingleThreadTaskRunner> GetWorkerTaskRunner() = 0;

	// Allows clients to listen for device state changes; e.g. preferred sample
	// rate or channel layout changes. The typical response to receiving this
	// callback is to recreate the stream.
	class AudioDeviceListener {
	public:
	virtual void OnDeviceChange() = 0;
	};

	virtual void AddOutputDeviceChangeListener(AudioDeviceListener* listener) = 0;
	virtual void RemoveOutputDeviceChangeListener(
	AudioDeviceListener* listener) = 0;

	// Returns the default output hardware audio parameters for opening output
	// streams. It is a convenience interface to
	// AudioManagerBase::GetPreferredOutputStreamParameters and each AudioManager
	// does not need their own implementation to this interface.
	// TODO(tommi): Remove this method and use GetOutputStreamParameteres instead.
	virtual AudioParameters GetDefaultOutputStreamParameters() = 0;

	// Returns the output hardware audio parameters for a specific output device.
	virtual AudioParameters GetOutputStreamParameters(
	const std::string& device_id) = 0;

	// Returns the input hardware audio parameters of the specific device
	// for opening input streams. Each AudioManager needs to implement their own
	// version of this interface.
	virtual AudioParameters GetInputStreamParameters(
	const std::string& device_id) = 0;

	// Returns the device id of an output device that belongs to the same hardware
	// as the specified input device.
	// If the hardware has only an input device (e.g. a webcam), the return value
	// will be empty (which the caller can then interpret to be the default output
	// device). Implementations that don't yet support this feature, must return
	// an empty string. Must be called on the audio worker thread (see
	// GetWorkerTaskRunner()).
	virtual std::string GetAssociatedOutputDeviceID(
	const std::string& input_device_id) = 0;

	// Create a new AudioLog object for tracking the behavior for one or more
	// instances of the given component. See AudioLogFactory for more details.
	virtual scoped_ptr<AudioLog> CreateAudioLog(
	AudioLogFactory::AudioComponent component) = 0;

	protected:
	AudioManager();

	private:
	DISALLOW_COPY_AND_ASSIGN(AudioManager);
	};

	} // namespace media

	#endif // MEDIA_AUDIO_AUDIO_MANAGER_H_