/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * 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_PORT_H__ #define __PJMEDIA_PORT_H__ /** * @file port.h * @brief Port interface declaration */ #include #include #include #include #include #include #include /** @addtogroup PJMEDIA_PORT Media Ports Framework @{ @section media_port_intro Media Port Concepts @subsection The Media Port A media port (represented with pjmedia_port "class") provides a generic and extensible framework for implementing media elements. Media element itself could be a media source, sink, or processing element. A media port interface basically has the following properties: - media port information (pjmedia_port_info) to describe the media port properties (sampling rate, number of channels, etc.), - optional pointer to function to acquire frames from the port (the get_frame() interface), which will be called by #pjmedia_port_get_frame() public API, and - optional pointer to function to store frames to the port (the put_frame() interface) which will be called by #pjmedia_port_put_frame() public API. The get_frame() and put_frame() interface of course would only need to be implemented if the media port emits and/or takes media frames respectively. Media ports are passive "objects". By default, there is no worker thread to run the media flow. Applications (or other PJMEDIA components, as explained in @ref PJMEDIA_PORT_CLOCK) must actively call #pjmedia_port_get_frame() or #pjmedia_port_put_frame() from/to the media port in order to retrieve/store media frames. Some media ports (such as @ref PJMEDIA_CONF and @ref PJMEDIA_RESAMPLE_PORT) may be interconnected with (or encapsulate) other port, to perform the combined task of the ports, while some others represent the ultimate source/sink termination for the media. Interconnection means the upstream media port will call get_frame() and put_frame() to its downstream media port. For this to happen, the media ports need to have the same format, where format is defined as combination of sample format, clock rate, channel count, bits per sample, and samples per frame for audio media. @subsection port_clock_ex1 Example: Manual Resampling For example, suppose application wants to convert the sampling rate of one WAV file to another. In this case, application would create and arrange media ports connection as follows: \image html sample-manual-resampling.jpg Application would setup the media ports using the following pseudo- code: \code pjmedia_port *player, *resample, *writer; pj_status_t status; // Create the file player port. status = pjmedia_wav_player_port_create(pool, "Input.WAV", // file name 20, // ptime. PJMEDIA_FILE_NO_LOOP, // flags 0, // buffer size NULL, // user data. &player ); PJ_ASSERT_RETURN(status==PJ_SUCCESS, PJ_SUCCESS); // Create the resample port with specifying the target sampling rate, // and with the file port as the source. This will effectively // connect the resample port with the player port. status = pjmedia_resample_port_create( pool, player, 8000, 0, &resample); PJ_ASSERT_RETURN(status==PJ_SUCCESS, PJ_SUCCESS); // Create the file writer, specifying the resample port's configuration // as the WAV parameters. status pjmedia_wav_writer_port_create(pool, "Output.WAV", // file name. resample->info.clock_rate, resample->info.channel_count, resample->info.samples_per_frame, resample->info.bits_per_sample, 0, // flags 0, // buffer size NULL, // user data. &writer); \endcode After the ports have been set up, application can perform the conversion process by running this loop: \code pj_int16_t samplebuf[MAX_FRAME]; while (1) { pjmedia_frame frame; pj_status_t status; frame.buf = samplebuf; frame.size = sizeof(samplebuf); // Get the frame from resample port. status = pjmedia_port_get_frame(resample, &frame); if (status != PJ_SUCCESS || frame.type == PJMEDIA_FRAME_TYPE_NONE) { // End-of-file, end the conversion. break; } // Put the frame to write port. status = pjmedia_port_put_frame(writer, &frame); if (status != PJ_SUCCESS) { // Error in writing the file. break; } } \endcode For the sake of completeness, after the resampling process is done, application would need to destroy the ports: \code // Note: by default, destroying resample port will destroy the // the downstream port too. pjmedia_port_destroy(resample); pjmedia_port_destroy(writer); \endcode The above steps are okay for our simple purpose of changing file's sampling rate. But for other purposes, the process of reading and writing frames need to be done in timely manner (for example, sending RTP packets to remote stream). And more over, as the application's scope goes bigger, the same pattern of manually reading/writing frames comes up more and more often, thus perhaps it would be better if PJMEDIA provides mechanism to automate this process. And indeed PJMEDIA does provide such mechanism, which is described in @ref PJMEDIA_PORT_CLOCK section. @subsection media_port_autom Automating Media Flow PJMEDIA provides few mechanisms to make media flows automatically among media ports. This concept is described in @ref PJMEDIA_PORT_CLOCK section. */ PJ_BEGIN_DECL /* Since media port's callback is called synchronously and has a return value, * it can introduce a deadlock when a mutex is held before calling it. * To prevent this, media ports' set_eof_cb() and set_cb() functions have * been deprecated and replaced by set_eof_cb2() and set_cb2(), which * will call the callback asynchronously without expecting any return value. * * See also https://trac.pjsip.org/repos/ticket/2251. */ #ifndef DEPRECATED_FOR_TICKET_2251 # define DEPRECATED_FOR_TICKET_2251 0 #endif /** * Create 32bit port signature from ASCII characters. */ #define PJMEDIA_PORT_SIG(a,b,c,d) PJMEDIA_OBJ_SIG(a,b,c,d) /** * Port operation setting. */ typedef enum pjmedia_port_op { /** * No change to the port TX or RX settings. */ PJMEDIA_PORT_NO_CHANGE, /** * TX or RX is disabled from the port. It means get_frame() or * put_frame() WILL NOT be called for this port. */ PJMEDIA_PORT_DISABLE, /** * TX or RX is muted, which means that get_frame() or put_frame() * will still be called, but the audio frame is discarded. */ PJMEDIA_PORT_MUTE, /** * Enable TX and RX to/from this port. */ PJMEDIA_PORT_ENABLE } pjmedia_port_op; /** * Port info. */ typedef struct pjmedia_port_info { pj_str_t name; /**< Port name. */ pj_uint32_t signature; /**< Port signature. */ pjmedia_dir dir; /**< Port direction. */ pjmedia_format fmt; /**< Format. */ } pjmedia_port_info; /** * Utility to retrieve audio clock rate/sampling rate value from * pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Audio clock rate. */ PJ_INLINE(unsigned) PJMEDIA_PIA_SRATE(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.clock_rate; } /** * Utility to retrieve audio channel count value from pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Audio channel count. */ PJ_INLINE(unsigned) PJMEDIA_PIA_CCNT(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.channel_count; } /** * Utility to retrieve audio bits per sample value from pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Number of bits per sample. */ PJ_INLINE(unsigned) PJMEDIA_PIA_BITS(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.bits_per_sample; } /** * Utility to retrieve audio frame interval (ptime) value from * pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Frame interval in msec. */ PJ_INLINE(unsigned) PJMEDIA_PIA_PTIME(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.frame_time_usec / 1000; } /** * This is a utility routine to retrieve the audio samples_per_frame value * from port info. * * @param pia Pointer to port info containing audio format. * @return Samples per frame value. */ PJ_INLINE(unsigned) PJMEDIA_PIA_SPF(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return PJMEDIA_AFD_SPF(&pia->fmt.det.aud); } /** * This is a utility routine to retrieve the average bitrate value * from port info. * * @param pia Pointer to port info containing audio format. * @return Bitrate, in bits per second. */ PJ_INLINE(unsigned) PJMEDIA_PIA_AVG_BPS(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.avg_bps; } /** * This is a utility routine to retrieve the maximum bitrate value * from port info. * * @param pia Pointer to port info containing audio format. * @return Bitrate, in bits per second. */ PJ_INLINE(unsigned) PJMEDIA_PIA_MAX_BPS(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return pia->fmt.det.aud.max_bps; } /** * This is a utility routine to retrieve the average audio frame size value * from pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Frame size in bytes. */ PJ_INLINE(unsigned) PJMEDIA_PIA_AVG_FSZ(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return PJMEDIA_AFD_AVG_FSZ(&pia->fmt.det.aud); } /** * Utility to retrieve audio frame size from maximum bitrate from * pjmedia_port_info. * * @param pia Pointer to port info containing audio format. * @return Frame size in bytes. */ PJ_INLINE(unsigned) PJMEDIA_PIA_MAX_FSZ(const pjmedia_port_info *pia) { pj_assert(pia->fmt.type==PJMEDIA_TYPE_AUDIO && pia->fmt.detail_type==PJMEDIA_FORMAT_DETAIL_AUDIO); return PJMEDIA_AFD_MAX_FSZ(&pia->fmt.det.aud); } /** * Port interface. */ typedef struct pjmedia_port { pjmedia_port_info info; /**< Port information. */ /** Port data can be used by the port creator to attach arbitrary * value to be associated with the port. */ struct port_data { void *pdata; /**< Pointer data. */ long ldata; /**< Long data. */ } port_data; /** * Get clock source. * This should only be called by #pjmedia_port_get_clock_src(). */ pjmedia_clock_src* (*get_clock_src)(struct pjmedia_port *this_port, pjmedia_dir dir); /** * Sink interface. * This should only be called by #pjmedia_port_put_frame(). */ pj_status_t (*put_frame)(struct pjmedia_port *this_port, pjmedia_frame *frame); /** * Source interface. * This should only be called by #pjmedia_port_get_frame(). */ pj_status_t (*get_frame)(struct pjmedia_port *this_port, pjmedia_frame *frame); /** * Called to destroy this port. */ pj_status_t (*on_destroy)(struct pjmedia_port *this_port); } pjmedia_port; /** * This is an auxiliary function to initialize port info for * ports which deal with PCM audio. * * @param info The port info to be initialized. * @param name Port name. * @param signature Port signature. * @param clock_rate Port's clock rate. * @param channel_count Number of channels. * @param bits_per_sample Bits per sample. * @param samples_per_frame Number of samples per frame. * * @return PJ_SUCCESS on success. */ PJ_DECL(pj_status_t) pjmedia_port_info_init( pjmedia_port_info *info, const pj_str_t *name, unsigned signature, unsigned clock_rate, unsigned channel_count, unsigned bits_per_sample, unsigned samples_per_frame); /** * This is an auxiliary function to initialize port info for * ports which deal with PCM audio. * * @param info The port info to be initialized. * @param name Port name. * @param signature Port signature. * @param dir Port's direction. * @param fmt Port's media format. * * @return PJ_SUCCESS on success. */ PJ_DECL(pj_status_t) pjmedia_port_info_init2(pjmedia_port_info *info, const pj_str_t *name, unsigned signature, pjmedia_dir dir, const pjmedia_format *fmt); /** * Get a clock source from the port. * * @param port The media port. * @param dir Media port's direction. * * @return The clock source or NULL if clock source is not present * in the port. */ PJ_DECL(pjmedia_clock_src *) pjmedia_port_get_clock_src( pjmedia_port *port, pjmedia_dir dir ); /** * Get a frame from the port (and subsequent downstream ports). * * @param port The media port. * @param frame Frame to store samples. * * @return PJ_SUCCESS on success, or the appropriate error code. */ PJ_DECL(pj_status_t) pjmedia_port_get_frame( pjmedia_port *port, pjmedia_frame *frame ); /** * Put a frame to the port (and subsequent downstream ports). * * @param port The media port. * @param frame Frame to the put to the port. * * @return PJ_SUCCESS on success, or the appropriate error code. */ PJ_DECL(pj_status_t) pjmedia_port_put_frame( pjmedia_port *port, pjmedia_frame *frame ); /** * Destroy port (and subsequent downstream ports) * * @param port The media port. * * @return PJ_SUCCESS on success, or the appropriate error code. */ PJ_DECL(pj_status_t) pjmedia_port_destroy( pjmedia_port *port ); PJ_END_DECL /** * @} */ #endif /* __PJMEDIA_PORT_H__ */