jni/pjproject-android/.svn/pristine/c7/c75ce8c72326825eafd6732395c2f5e0b803fed3.svn-base - jami-client-android - Gitiles

 /* $Id$ */
 /*
  * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
  * Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  */
 #ifndef __PJMEDIA_SOUND_H__
 #define __PJMEDIA_SOUND_H__


 /**
  * @file sound.h
  * @brief Legacy sound device API
  */
 #include <pjmedia-audiodev/audiodev.h>
 #include <pjmedia/types.h>


 PJ_BEGIN_DECL

 /**
  * @defgroup PJMED_SND Portable Sound Hardware Abstraction
  * @ingroup PJMED_SND_PORT
  * @brief PJMEDIA abstraction for sound device hardware
  * @{
  *
  * <strong>Warning: this sound device API has been deprecated
  * and replaced by PJMEDIA Audio Device API. Please see
  * http://trac.pjsip.org/repos/wiki/Audio_Dev_API for more
  * information.</strong>
  *
  * This section describes lower level abstraction for sound device
  * hardware. Application normally uses the higher layer @ref
  * PJMED_SND_PORT abstraction since it works seamlessly with
  * @ref PJMEDIA_PORT.
  *
  * The sound hardware abstraction basically runs <b>asychronously</b>,
  * and application must register callbacks to be called to receive/
  * supply audio frames from/to the sound hardware.
  *
  * A full duplex sound stream (created with #pjmedia_snd_open())
  * requires application to supply two callbacks:
  *  - <b><tt>rec_cb</tt></b> callback to be called when it has finished
  *    capturing one media frame, and
  *  - <b><tt>play_cb</tt></b> callback to be called when it needs media
  *    frame to be played to the sound playback hardware.
  *
  * Half duplex sound stream (created with #pjmedia_snd_open_rec() or
  * #pjmedia_snd_open_player()) will only need one of the callback to
  * be specified.
  *
  * After sound stream is created, application need to call
  * #pjmedia_snd_stream_start() to start capturing/playing back media
  * frames from/to the sound device.
  */

 /** Opaque declaration for pjmedia_snd_stream. */
 typedef struct pjmedia_snd_stream pjmedia_snd_stream;

 /**
  * Device information structure returned by #pjmedia_snd_get_dev_info.
  */
 typedef struct pjmedia_snd_dev_info
 {
     char	name[64];	        /**< Device name.		    */
     unsigned	input_count;	        /**< Max number of input channels.  */
     unsigned	output_count;	        /**< Max number of output channels. */
     unsigned	default_samples_per_sec;/**< Default sampling rate.	    */
 } pjmedia_snd_dev_info;

 /**
  * Stream information, can be retrieved from a live stream by calling
  * #pjmedia_snd_stream_get_info().
  */
 typedef struct pjmedia_snd_stream_info
 {
     pjmedia_dir	dir;		    /**< Stream direction.		    */
     int		play_id;	    /**< Playback dev id, or -1 for rec only*/
     int		rec_id;		    /**< Capture dev id, or -1 for play only*/
     unsigned	clock_rate;	    /**< Actual clock rate.		    */
     unsigned	channel_count;	    /**< Number of channels.		    */
     unsigned	samples_per_frame;  /**< Samples per frame.		    */
     unsigned	bits_per_sample;    /**< Bits per sample.		    */
     unsigned	rec_latency;	    /**< Record latency, in samples.	    */
     unsigned	play_latency;	    /**< Playback latency, in samples.	    */
 } pjmedia_snd_stream_info;

 /**
  * This callback is called by player stream when it needs additional data
  * to be played by the device. Application must fill in the whole of output
  * buffer with sound samples.
  *
  * @param user_data	User data associated with the stream.
  * @param timestamp	Timestamp, in samples.
  * @param output	Buffer to be filled out by application.
  * @param size		The size requested in bytes, which will be equal to
  *			the size of one whole packet.
  *
  * @return		Non-zero to stop the stream.
  */
 typedef pj_status_t (*pjmedia_snd_play_cb)(/* in */   void *user_data,
 				      /* in */   pj_uint32_t timestamp,
 				      /* out */  void *output,
 				      /* out */  unsigned size);

 /**
  * This callback is called by recorder stream when it has captured the whole
  * packet worth of audio samples.
  *
  * @param user_data	User data associated with the stream.
  * @param timestamp	Timestamp, in samples.
  * @param output	Buffer containing the captured audio samples.
  * @param size		The size of the data in the buffer, in bytes.
  *
  * @return		Non-zero to stop the stream.
  */
 typedef pj_status_t (*pjmedia_snd_rec_cb)(/* in */   void *user_data,
 				     /* in */   pj_uint32_t timestamp,
 				     /* in */   void *input,
 				     /* in*/    unsigned size);

 /**
  * Init the sound library.
  *
  * @param factory	The sound factory.
  *
  * @return		Zero on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_init(pj_pool_factory *factory);


 /**
  * Get the number of devices detected by the library.
  *
  * @return		Number of devices.
  */
 PJ_DECL(int) pjmedia_snd_get_dev_count(void);


 /**
  * Get device info.
  *
  * @param index		The index of the device, which should be in the range
  *			from zero to #pjmedia_snd_get_dev_count - 1.
  */
 PJ_DECL(const pjmedia_snd_dev_info*) pjmedia_snd_get_dev_info(unsigned index);


 /**
  * Set sound device latency, this function must be called before sound device
  * opened, or otherwise default latency setting will be used, @see
  * PJMEDIA_SND_DEFAULT_REC_LATENCY & PJMEDIA_SND_DEFAULT_PLAY_LATENCY.
  *
  * Choosing latency value is not straightforward, it should accomodate both
  * minimum latency and stability. Lower latency tends to cause sound device
  * less reliable (producing audio dropouts) on CPU load disturbance. Moreover,
  * the best latency setting may vary based on many aspects, e.g: sound card,
  * CPU, OS, kernel, etc.
  *
  * @param input_latency	    The latency of input device, in ms, set to 0
  *			    for default PJMEDIA_SND_DEFAULT_REC_LATENCY.
  * @param output_latency    The latency of output device, in ms, set to 0
  *			    for default PJMEDIA_SND_DEFAULT_PLAY_LATENCY.
  *
  * @return		    PJ_SUCCESS on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_set_latency(unsigned input_latency,
 					     unsigned output_latency);


 /**
  * Create sound stream for both capturing audio and audio playback,  from the
  * same device. This is the recommended way to create simultaneous recorder
  * and player streams (instead of creating separate capture and playback
  * streams), because it works on backends that does not allow
  * a device to be opened more than once.
  *
  * @param rec_id	    Device index for recorder/capture stream, or
  *			    -1 to use the first capable device.
  * @param play_id	    Device index for playback stream, or -1 to use
  *			    the first capable device.
  * @param clock_rate	    Sound device's clock rate to set.
  * @param channel_count	    Set number of channels, 1 for mono, or 2 for
  *			    stereo. The channel count determines the format
  *			    of the frame.
  * @param samples_per_frame Number of samples per frame.
  * @param bits_per_sample   Set the number of bits per sample. The normal
  *			    value for this parameter is 16 bits per sample.
  * @param rec_cb	    Callback to handle captured audio samples.
  * @param play_cb	    Callback to be called when the sound player needs
  *			    more audio samples to play.
  * @param user_data	    User data to be associated with the stream.
  * @param p_snd_strm	    Pointer to receive the stream instance.
  *
  * @return		    PJ_SUCCESS on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_open(int rec_id,
 				      int play_id,
 				      unsigned clock_rate,
 				      unsigned channel_count,
 				      unsigned samples_per_frame,
 				      unsigned bits_per_sample,
 				      pjmedia_snd_rec_cb rec_cb,
 				      pjmedia_snd_play_cb play_cb,
 				      void *user_data,
 				      pjmedia_snd_stream **p_snd_strm);


 /**
  * Create a unidirectional audio stream for capturing audio samples from
  * the sound device.
  *
  * @param index		    Device index, or -1 to let the library choose the
  *			    first available device.
  * @param clock_rate	    Sound device's clock rate to set.
  * @param channel_count	    Set number of channels, 1 for mono, or 2 for
  *			    stereo. The channel count determines the format
  *			    of the frame.
  * @param samples_per_frame Number of samples per frame.
  * @param bits_per_sample   Set the number of bits per sample. The normal
  *			    value for this parameter is 16 bits per sample.
  * @param rec_cb	    Callback to handle captured audio samples.
  * @param user_data	    User data to be associated with the stream.
  * @param p_snd_strm	    Pointer to receive the stream instance.
  *
  * @return		    PJ_SUCCESS on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_open_rec( int index,
 					   unsigned clock_rate,
 					   unsigned channel_count,
 					   unsigned samples_per_frame,
 					   unsigned bits_per_sample,
 					   pjmedia_snd_rec_cb rec_cb,
 					   void *user_data,
 					   pjmedia_snd_stream **p_snd_strm);

 /**
  * Create a unidirectional audio stream for playing audio samples to the
  * sound device.
  *
  * @param index		    Device index, or -1 to let the library choose the
  *			    first available device.
  * @param clock_rate	    Sound device's clock rate to set.
  * @param channel_count	    Set number of channels, 1 for mono, or 2 for
  *			    stereo. The channel count determines the format
  *			    of the frame.
  * @param samples_per_frame Number of samples per frame.
  * @param bits_per_sample   Set the number of bits per sample. The normal
  *			    value for this parameter is 16 bits per sample.
  * @param play_cb	    Callback to be called when the sound player needs
  *			    more audio samples to play.
  * @param user_data	    User data to be associated with the stream.
  * @param p_snd_strm	    Pointer to receive the stream instance.
  *
  * @return		    PJ_SUCCESS on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_open_player( int index,
 					 unsigned clock_rate,
 					 unsigned channel_count,
 					 unsigned samples_per_frame,
 					 unsigned bits_per_sample,
 					 pjmedia_snd_play_cb play_cb,
 					 void *user_data,
 					 pjmedia_snd_stream **p_snd_strm );


 /**
  * Get information about live stream.
  *
  * @param strm		The stream to be queried.
  * @param pi		Pointer to stream information to be filled up with
  *			information about the stream.
  *
  * @return		PJ_SUCCESS on success or the appropriate error code.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_stream_get_info(pjmedia_snd_stream *strm,
 						 pjmedia_snd_stream_info *pi);


 /**
  * Start the stream.
  *
  * @param stream	The recorder or player stream.
  *
  * @return		Zero on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_stream_start(pjmedia_snd_stream *stream);

 /**
  * Stop the stream.
  *
  * @param stream	The recorder or player stream.
  *
  * @return		Zero on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_stream_stop(pjmedia_snd_stream *stream);

 /**
  * Destroy the stream.
  *
  * @param stream	The recorder of player stream.
  *
  * @return		Zero on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_stream_close(pjmedia_snd_stream *stream);

 /**
  * Deinitialize sound library.
  *
  * @return		Zero on success.
  */
 PJ_DECL(pj_status_t) pjmedia_snd_deinit(void);


 /**
  * @}
  */

 PJ_END_DECL


 #endif	/* __PJMEDIA_SOUND_H__ */
	/* $Id$ */
	/*
	* Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
	* Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*/
	#ifndef __PJMEDIA_SOUND_H__
	#define __PJMEDIA_SOUND_H__


	/**
	* @file sound.h
	* @brief Legacy sound device API
	*/
	#include <pjmedia-audiodev/audiodev.h>
	#include <pjmedia/types.h>


	PJ_BEGIN_DECL

	/**
	* @defgroup PJMED_SND Portable Sound Hardware Abstraction
	* @ingroup PJMED_SND_PORT
	* @brief PJMEDIA abstraction for sound device hardware
	* @{
	*
	* <strong>Warning: this sound device API has been deprecated
	* and replaced by PJMEDIA Audio Device API. Please see
	* http://trac.pjsip.org/repos/wiki/Audio_Dev_API for more
	* information.</strong>
	*
	* This section describes lower level abstraction for sound device
	* hardware. Application normally uses the higher layer @ref
	* PJMED_SND_PORT abstraction since it works seamlessly with
	* @ref PJMEDIA_PORT.
	*
	* The sound hardware abstraction basically runs <b>asychronously</b>,
	* and application must register callbacks to be called to receive/
	* supply audio frames from/to the sound hardware.
	*
	* A full duplex sound stream (created with #pjmedia_snd_open())
	* requires application to supply two callbacks:
	* - <b><tt>rec_cb</tt></b> callback to be called when it has finished
	* capturing one media frame, and
	* - <b><tt>play_cb</tt></b> callback to be called when it needs media
	* frame to be played to the sound playback hardware.
	*
	* Half duplex sound stream (created with #pjmedia_snd_open_rec() or
	* #pjmedia_snd_open_player()) will only need one of the callback to
	* be specified.
	*
	* After sound stream is created, application need to call
	* #pjmedia_snd_stream_start() to start capturing/playing back media
	* frames from/to the sound device.
	*/

	/** Opaque declaration for pjmedia_snd_stream. */
	typedef struct pjmedia_snd_stream pjmedia_snd_stream;

	/**
	* Device information structure returned by #pjmedia_snd_get_dev_info.
	*/
	typedef struct pjmedia_snd_dev_info
	{
	char name[64]; /*< Device name. /
	unsigned input_count; /*< Max number of input channels. /
	unsigned output_count; /*< Max number of output channels. /
	unsigned default_samples_per_sec;/*< Default sampling rate. /
	} pjmedia_snd_dev_info;

	/**
	* Stream information, can be retrieved from a live stream by calling
	* #pjmedia_snd_stream_get_info().
	*/
	typedef struct pjmedia_snd_stream_info
	{
	pjmedia_dir dir; /*< Stream direction. /
	int play_id; /*< Playback dev id, or -1 for rec only/
	int rec_id; /*< Capture dev id, or -1 for play only/
	unsigned clock_rate; /*< Actual clock rate. /
	unsigned channel_count; /*< Number of channels. /
	unsigned samples_per_frame; /*< Samples per frame. /
	unsigned bits_per_sample; /*< Bits per sample. /
	unsigned rec_latency; /*< Record latency, in samples. /
	unsigned play_latency; /*< Playback latency, in samples. /
	} pjmedia_snd_stream_info;

	/**
	* This callback is called by player stream when it needs additional data
	* to be played by the device. Application must fill in the whole of output
	* buffer with sound samples.
	*
	* @param user_data User data associated with the stream.
	* @param timestamp Timestamp, in samples.
	* @param output Buffer to be filled out by application.
	* @param size The size requested in bytes, which will be equal to
	* the size of one whole packet.
	*
	* @return Non-zero to stop the stream.
	*/
	typedef pj_status_t (pjmedia_snd_play_cb)(/ in / void user_data,
	/* in */ pj_uint32_t timestamp,
	/* out / void output,
	/* out */ unsigned size);

	/**
	* This callback is called by recorder stream when it has captured the whole
	* packet worth of audio samples.
	*
	* @param user_data User data associated with the stream.
	* @param timestamp Timestamp, in samples.
	* @param output Buffer containing the captured audio samples.
	* @param size The size of the data in the buffer, in bytes.
	*
	* @return Non-zero to stop the stream.
	*/
	typedef pj_status_t (pjmedia_snd_rec_cb)(/ in / void user_data,
	/* in */ pj_uint32_t timestamp,
	/* in / void input,
	/* in*/ unsigned size);

	/**
	* Init the sound library.
	*
	* @param factory The sound factory.
	*
	* @return Zero on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_init(pj_pool_factory *factory);


	/**
	* Get the number of devices detected by the library.
	*
	* @return Number of devices.
	*/
	PJ_DECL(int) pjmedia_snd_get_dev_count(void);


	/**
	* Get device info.
	*
	* @param index The index of the device, which should be in the range
	* from zero to #pjmedia_snd_get_dev_count - 1.
	*/
	PJ_DECL(const pjmedia_snd_dev_info*) pjmedia_snd_get_dev_info(unsigned index);


	/**
	* Set sound device latency, this function must be called before sound device
	* opened, or otherwise default latency setting will be used, @see
	* PJMEDIA_SND_DEFAULT_REC_LATENCY & PJMEDIA_SND_DEFAULT_PLAY_LATENCY.
	*
	* Choosing latency value is not straightforward, it should accomodate both
	* minimum latency and stability. Lower latency tends to cause sound device
	* less reliable (producing audio dropouts) on CPU load disturbance. Moreover,
	* the best latency setting may vary based on many aspects, e.g: sound card,
	* CPU, OS, kernel, etc.
	*
	* @param input_latency The latency of input device, in ms, set to 0
	* for default PJMEDIA_SND_DEFAULT_REC_LATENCY.
	* @param output_latency The latency of output device, in ms, set to 0
	* for default PJMEDIA_SND_DEFAULT_PLAY_LATENCY.
	*
	* @return PJ_SUCCESS on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_set_latency(unsigned input_latency,
	unsigned output_latency);


	/**
	* Create sound stream for both capturing audio and audio playback, from the
	* same device. This is the recommended way to create simultaneous recorder
	* and player streams (instead of creating separate capture and playback
	* streams), because it works on backends that does not allow
	* a device to be opened more than once.
	*
	* @param rec_id Device index for recorder/capture stream, or
	* -1 to use the first capable device.
	* @param play_id Device index for playback stream, or -1 to use
	* the first capable device.
	* @param clock_rate Sound device's clock rate to set.
	* @param channel_count Set number of channels, 1 for mono, or 2 for
	* stereo. The channel count determines the format
	* of the frame.
	* @param samples_per_frame Number of samples per frame.
	* @param bits_per_sample Set the number of bits per sample. The normal
	* value for this parameter is 16 bits per sample.
	* @param rec_cb Callback to handle captured audio samples.
	* @param play_cb Callback to be called when the sound player needs
	* more audio samples to play.
	* @param user_data User data to be associated with the stream.
	* @param p_snd_strm Pointer to receive the stream instance.
	*
	* @return PJ_SUCCESS on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_open(int rec_id,
	int play_id,
	unsigned clock_rate,
	unsigned channel_count,
	unsigned samples_per_frame,
	unsigned bits_per_sample,
	pjmedia_snd_rec_cb rec_cb,
	pjmedia_snd_play_cb play_cb,
	void *user_data,
	pjmedia_snd_stream **p_snd_strm);


	/**
	* Create a unidirectional audio stream for capturing audio samples from
	* the sound device.
	*
	* @param index Device index, or -1 to let the library choose the
	* first available device.
	* @param clock_rate Sound device's clock rate to set.
	* @param channel_count Set number of channels, 1 for mono, or 2 for
	* stereo. The channel count determines the format
	* of the frame.
	* @param samples_per_frame Number of samples per frame.
	* @param bits_per_sample Set the number of bits per sample. The normal
	* value for this parameter is 16 bits per sample.
	* @param rec_cb Callback to handle captured audio samples.
	* @param user_data User data to be associated with the stream.
	* @param p_snd_strm Pointer to receive the stream instance.
	*
	* @return PJ_SUCCESS on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_open_rec( int index,
	unsigned clock_rate,
	unsigned channel_count,
	unsigned samples_per_frame,
	unsigned bits_per_sample,
	pjmedia_snd_rec_cb rec_cb,
	void *user_data,
	pjmedia_snd_stream **p_snd_strm);

	/**
	* Create a unidirectional audio stream for playing audio samples to the
	* sound device.
	*
	* @param index Device index, or -1 to let the library choose the
	* first available device.
	* @param clock_rate Sound device's clock rate to set.
	* @param channel_count Set number of channels, 1 for mono, or 2 for
	* stereo. The channel count determines the format
	* of the frame.
	* @param samples_per_frame Number of samples per frame.
	* @param bits_per_sample Set the number of bits per sample. The normal
	* value for this parameter is 16 bits per sample.
	* @param play_cb Callback to be called when the sound player needs
	* more audio samples to play.
	* @param user_data User data to be associated with the stream.
	* @param p_snd_strm Pointer to receive the stream instance.
	*
	* @return PJ_SUCCESS on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_open_player( int index,
	unsigned clock_rate,
	unsigned channel_count,
	unsigned samples_per_frame,
	unsigned bits_per_sample,
	pjmedia_snd_play_cb play_cb,
	void *user_data,
	pjmedia_snd_stream **p_snd_strm );


	/**
	* Get information about live stream.
	*
	* @param strm The stream to be queried.
	* @param pi Pointer to stream information to be filled up with
	* information about the stream.
	*
	* @return PJ_SUCCESS on success or the appropriate error code.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_stream_get_info(pjmedia_snd_stream *strm,
	pjmedia_snd_stream_info *pi);


	/**
	* Start the stream.
	*
	* @param stream The recorder or player stream.
	*
	* @return Zero on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_stream_start(pjmedia_snd_stream *stream);

	/**
	* Stop the stream.
	*
	* @param stream The recorder or player stream.
	*
	* @return Zero on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_stream_stop(pjmedia_snd_stream *stream);

	/**
	* Destroy the stream.
	*
	* @param stream The recorder of player stream.
	*
	* @return Zero on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_stream_close(pjmedia_snd_stream *stream);

	/**
	* Deinitialize sound library.
	*
	* @return Zero on success.
	*/
	PJ_DECL(pj_status_t) pjmedia_snd_deinit(void);



	/**
	* @}
	*/

	PJ_END_DECL


	#endif /* __PJMEDIA_SOUND_H__ */