talk/third_party/mediastreamer/jackcard.c - vendor/opensource/libjingle - Git at Google

 /*
   The mediastreamer library aims at providing modular media processing and I/O
 	for linphone, but also for any telephony application.
   Copyright (C) 2001  Simon MORLAT simon.morlat@linphone.org

   This library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   This library 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
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with this library; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

   JACK support
   Copyright (C) 2004  Tobias Gehrig tobias@gehrig.tk
 */

 #include "jackcard.h"

 #ifdef __JACK_ENABLED__

 #include "msossread.h"
 #include "msosswrite.h"

 #include <signal.h>

 #define READBUFFERSIZE 524288
 #define WRITEBUFFERSIZE 524288
 #define BSIZE 512

 /**
  * jack_shutdown:
  * @arg:
  *
  * This is the shutdown callback for this JACK application.
  * It is called by JACK if the server ever shuts down or
  * decides to disconnect the client.
  *
  */
 void
 jack_shutdown (void *arg)
 {
   JackCard* obj = (JackCard*) arg;

   obj->jack_running = FALSE;
   obj->jack_active = FALSE;
   obj->read.port = NULL;
   if (obj->read.open)
     obj->read.init = TRUE;
   obj->write.port = NULL;
   if (obj->write.open)
     obj->write.init = TRUE;
 }

 int samplerate(jack_nframes_t rate, void *arg)
 {
   JackCard* obj = (JackCard*) arg;
   int error;

   obj->rate = rate;
   if (obj->read.open) {
     obj->read.data.src_ratio = (double)obj->read.rate / (double)obj->rate;
     obj->read.data.input_frames = (long)((double)obj->read.frames/obj->read.data.src_ratio);
     g_free(obj->read.data.data_in);
     obj->read.data.data_in = malloc(obj->read.data.input_frames*sizeof(float));
     if (obj->read.src_state)
       if ((error = src_set_ratio(obj->read.src_state, obj->read.data.src_ratio)) != 0)
 	g_warning("Error while resetting the write samplerate: %s", src_strerror(error));
   }
   if (obj->write.open) {
     obj->write.data.src_ratio = (double)obj->rate / (double)obj->write.rate;
     obj->write.data.output_frames = (long)((double)obj->write.frames*obj->write.data.src_ratio);
     g_free(obj->write.data.data_out);
     obj->write.data.data_out = malloc(obj->write.data.output_frames*sizeof(float));
     if (obj->write.src_state)
       if ((error = src_set_ratio(obj->write.src_state, obj->write.data.src_ratio)) != 0)
 	g_warning("Error while resetting the write samplerate: %s", src_strerror(error));
   }
   return 0;
 }

 /*
  * The process callback for this JACK application.
  * It is called by JACK at the appropriate times.
  * @nframes :
  * @arg :
  */
 int
 process (jack_nframes_t nframes, void *arg)
 {
   JackCard* obj = (JackCard*) arg;
   sample_t *out;
   sample_t *in;

   if (obj->clear && !obj->write.can_process) {
     out = (sample_t *) jack_port_get_buffer (obj->write.port, nframes);
     memset (out, 0, nframes * sizeof(sample_t));
     obj->clear = FALSE;
   }

   if (!obj->can_process)
     return 0;

   if(obj->read.can_process) {
     in = (sample_t *) jack_port_get_buffer (obj->read.port, nframes);
     jack_ringbuffer_write (obj->read.buffer, (void *) in, sizeof(sample_t) * nframes);
   }

   if (obj->write.can_process) {
     out = (sample_t *) jack_port_get_buffer (obj->write.port, nframes);
     memset (out, 0, nframes * sizeof(sample_t));
     if (obj->clear && jack_ringbuffer_read_space(obj->write.buffer) == 0) {
       obj->write.can_process = FALSE;
       if (!obj->read.open)
 	obj->can_process = FALSE;
       obj->clear = FALSE;
       return 0;
     }
     jack_ringbuffer_read (obj->write.buffer, (void *) out, sizeof(sample_t) * nframes);
   }
   return 0;
 }

 int jack_init(JackCard* obj)
 {
   char* client_name;
   int error;

   if (!obj->jack_running) {
     obj->client = NULL;
     client_name = g_strdup_printf("linphone-%u", g_random_int());
     if ((obj->client = jack_client_new (client_name)) == NULL) {
       g_warning("cannot create jack client");
       g_free(client_name);
       return -1;
     }
     g_message("Found Jack Daemon");
     g_free(client_name);

     /* tell the JACK server to call `process()' whenever
        there is work to be done.
     */
     jack_set_process_callback (obj->client, process, obj);

     /* tell the JACK server to call `jack_shutdown()' if
        it ever shuts down, either entirely, or if it
        just decides to stop calling us.
     */
     jack_on_shutdown (obj->client, jack_shutdown, obj);
     jack_set_sample_rate_callback (obj->client, samplerate, obj);
     obj->rate = jack_get_sample_rate (obj->client);
     if (obj->rate == 0) {
       g_warning ("rate is 0???");
       if (jack_client_close(obj->client) != 0)
 	g_warning("could not close client");
       return -1;
     }
     obj->buffer_size = jack_get_buffer_size(obj->client);
     obj->jack_running = TRUE;
   }

   if (!obj->jack_active) {
     if (jack_activate (obj->client)) {
       g_warning("cannot activate jack client");
       return -1;
     } else obj->jack_active = TRUE;
   }

   if (obj->read.init) {
     if (!obj->read.port && (obj->read.port = jack_port_register (obj->client, "input", JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0))==NULL) {
       g_warning("error while trying to register input port");
       return -1;
     }
     if (!obj->read.phys_ports && (obj->read.phys_ports = jack_get_ports (obj->client, NULL, NULL, JackPortIsPhysical|JackPortIsOutput)) == NULL) {
       g_warning("Cannot find any physical capture ports\n");
       jack_port_unregister(obj->client, obj->read.port);
       obj->read.port = NULL;
       return -1;
     }
     if (!jack_port_connected(obj->read.port))
       if ((error = jack_connect (obj->client, obj->read.phys_ports[0], jack_port_name (obj->read.port))) != 0) {
 	g_warning("cannot connect input ports: %s -> %s\n", jack_port_name (obj->read.port), obj->read.phys_ports[0]);
 	if (error == EEXIST) g_warning("connection already made");
 	else {
 	  jack_port_unregister(obj->client, obj->read.port);
 	  obj->read.port = NULL;
 	  return -1;
 	}
       }
     obj->read.init = FALSE;
   }

   if (obj->write.init) {
     if (!obj->write.port && (obj->write.port = jack_port_register (obj->client, "output", JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0))==NULL) {
       g_warning("error while trying to register output port");
       return -1;
     }
     if (!obj->write.phys_ports && (obj->write.phys_ports = jack_get_ports (obj->client, NULL, NULL, JackPortIsPhysical|JackPortIsInput)) == NULL) {
       g_warning("Cannot find any physical playback ports\n");
       jack_port_unregister(obj->client, obj->write.port);
       obj->write.port = NULL;
       return -1;
     }
     if (!jack_port_connected(obj->write.port)) {
       if ((error = jack_connect (obj->client, jack_port_name (obj->write.port), obj->write.phys_ports[0])) != 0) {
 	g_warning("cannot connect output ports: %s -> %s\n", jack_port_name (obj->write.port), obj->write.phys_ports[0]);
 	if (error == EEXIST) g_warning("connection already made");
 	else {
 	  jack_port_unregister(obj->client, obj->write.port);
 	  obj->write.port = NULL;
 	  return -1;
 	}
       }
       if ((error = jack_connect (obj->client, jack_port_name (obj->write.port), obj->write.phys_ports[1])) != 0) {
 	g_warning("cannot connect output ports: %s -> %s\n", jack_port_name (obj->write.port), obj->write.phys_ports[1]);
 	if (error == EEXIST) g_warning("connection already made");
 	else {
 	  jack_port_unregister(obj->client, obj->write.port);
 	  obj->write.port = NULL;
 	  return -1;
 	}
       }
     }
     obj->write.init = FALSE;
   }
   return 0;
 }

 int jack_card_open_r(JackCard *obj,int bits,int stereo,int rate)
 {
   int channels = stereo + 1, bsize, error;
   obj->read.init = TRUE;
   if (jack_init(obj) != 0) return -1;

   obj->read.rate = rate;
   obj->sample_size = bits / 8;
   obj->frame_size = channels * obj->sample_size;
   bsize = BSIZE;
   obj->read.frames = bsize / 2;
   SND_CARD(obj)->bsize = bsize;
   SND_CARD(obj)->flags |= SND_CARD_FLAGS_OPENED;
   obj->read.channels = channels;
   if ((obj->read.src_state = src_new (SRC_SINC_FASTEST, channels, &error)) == NULL)
     g_warning("Error while initializing the samplerate converter: %s", src_strerror(error));
   obj->read.data.src_ratio = (double)rate / (double)obj->rate;
   obj->read.data.input_frames = (long)((double)obj->read.frames/obj->read.data.src_ratio);
   obj->read.data.data_in = malloc(obj->read.data.input_frames*sizeof(float));
   obj->read.data.data_out = malloc(obj->read.frames*sizeof(float));
   obj->read.data.end_of_input = 0;
   if (!obj->read.buffer)
     obj->read.buffer = jack_ringbuffer_create(READBUFFERSIZE);
   obj->read.can_process = TRUE;
   obj->can_process = TRUE;
   obj->read.open = TRUE;
   obj->read.init = FALSE;
   return 0;
 }

 int jack_card_open_w(JackCard *obj,int bits,int stereo,int rate)
 {
   int channels = stereo + 1, bsize, err;
   obj->write.init = TRUE;
   if (jack_init(obj) != 0) return -1;

   obj->write.rate = rate;
   obj->sample_size = bits / 8;
   obj->frame_size = channels * obj->sample_size;
   bsize = BSIZE;
   obj->write.frames = bsize / 2;
   SND_CARD(obj)->bsize = bsize;
   SND_CARD(obj)->flags |= SND_CARD_FLAGS_OPENED;
   obj->write.channels = channels;
   if ((obj->write.src_state = src_new (SRC_SINC_FASTEST, channels, &err)) == NULL)
     g_warning("Error while initializing the samplerate converter: %s", src_strerror(err));
   obj->write.data.src_ratio = (double)obj->rate / (double)rate;
   obj->write.data.data_in = malloc(obj->write.frames*sizeof(float));
   obj->write.data.end_of_input = 0;
   obj->write.data.output_frames = (long)((double)obj->write.frames*obj->write.data.src_ratio);
   obj->write.data.data_out = malloc(obj->write.data.output_frames*sizeof(float));
   if (!obj->write.buffer)
     obj->write.buffer = jack_ringbuffer_create(WRITEBUFFERSIZE);
   obj->write.can_process = TRUE;
   obj->can_process = TRUE;
   obj->write.open = TRUE;
   obj->write.init = FALSE;
   return 0;
 }

 void jack_card_set_blocking_mode(JackCard *obj, gboolean yesno)
 {
 }

 void jack_card_close_r(JackCard *obj)
 {
   obj->read.open = FALSE;
   obj->read.init = FALSE;
   obj->read.can_process = FALSE;
   if (!obj->write.open)
     obj->can_process = FALSE;
   if (obj->read.src_state)
     obj->read.src_state = src_delete (obj->read.src_state);
   g_free(obj->read.data.data_in);
   g_free(obj->read.data.data_out);
 }

 void jack_card_close_w(JackCard *obj)
 {
   obj->write.open = FALSE;
   obj->write.init = FALSE;
   obj->clear = TRUE;
   if (!obj->jack_running) {
     obj->write.can_process = FALSE;
     obj->can_process = FALSE;
   }
   if (obj->write.src_state)
     obj->write.src_state = src_delete (obj->write.src_state);
   g_free(obj->write.data.data_in);
   g_free(obj->write.data.data_out);
 }

 int jack_card_probe(JackCard *obj,int bits,int stereo,int rate)
 {
   if (obj->jack_running) return BSIZE;
   else if (jack_init(obj) == 0) return BSIZE;
   else return -1;
 }

 void jack_card_destroy(JackCard *obj)
 {
   if (obj->jack_running) jack_client_close (obj->client);
   snd_card_uninit(SND_CARD(obj));
   if (obj->read.buffer) {
     jack_ringbuffer_free(obj->read.buffer);
     obj->read.buffer = NULL;
   }
   if (obj->write.buffer) {
     jack_ringbuffer_free(obj->write.buffer);
     obj->write.buffer = NULL;
   }
   if (obj->read.phys_ports) {
     g_free(obj->read.phys_ports);
     obj->read.phys_ports = NULL;
   }
   if (obj->write.phys_ports) {
     g_free(obj->write.phys_ports);
     obj->write.phys_ports = NULL;
   }
 }

 gboolean jack_card_can_read(JackCard *obj)
 {
   g_return_val_if_fail(obj->read.buffer!=NULL,0);
   if (jack_ringbuffer_read_space(obj->read.buffer)>=(long)((double)obj->read.frames/obj->read.data.src_ratio)*sizeof(sample_t)) return TRUE;
   else return FALSE;
 }

 int jack_card_read(JackCard *obj,char *buf,int size)
 {
   size_t bytes, can_read, i;
   int error;
   float norm, value;

   g_return_val_if_fail((obj->read.buffer!=NULL)&&(obj->read.src_state!=NULL),-1);
   if (jack_init(obj) != 0) return -1;
   size /= 2;
   can_read = MIN(size, obj->read.frames);
   //  can_read = MIN(((long)((double)can_read / obj->read.data.src_ratio))*sizeof(sample_t), jack_ringbuffer_read_space(obj->read.buffer));
   can_read = ((long)((double)can_read / obj->read.data.src_ratio))*sizeof(sample_t);
   obj->read.can_process = FALSE;
   bytes = jack_ringbuffer_read (obj->read.buffer, (void *)obj->read.data.data_in, can_read);
   obj->read.can_process = TRUE;
   obj->read.data.input_frames = bytes / sizeof(sample_t);
   can_read = MIN(size, obj->read.frames);
   obj->read.data.output_frames = can_read;
   if ((error = src_process(obj->read.src_state, &(obj->read.data))) != 0)
     g_warning("error while samplerate conversion. error: %s", src_strerror(error));
   norm = obj->read.level*obj->level*(float)0x8000;
   for (i=0; i < obj->read.data.output_frames_gen; i++) {
     value = obj->read.data.data_out[i]*norm;
     if (value >= 32767.0)
       ((short*)buf)[i] = 32767;
     else if (value <= -32768.0)
       ((short*)buf)[i] = -32768;
     else
       ((short*)buf)[i] = (short)value;
   }
   bytes = obj->read.data.output_frames_gen * 2;
   return bytes;
 }

 int jack_card_write(JackCard *obj,char *buf,int size)
 {
   size_t bytes, can_write, i;
   int error;
   float norm;

   g_return_val_if_fail((obj->write.buffer!=NULL)&&(obj->write.src_state!=NULL),-1);
   if (jack_init(obj) != 0) return -1;
   size /= 2;
   can_write = MIN(size, obj->write.frames);
   norm = obj->write.level*obj->level/(float)0x8000;
   for (i=0; i<can_write; i++) {
     obj->write.data.data_in[i] = (float)((short*)buf)[i]*norm;
   }
   obj->write.data.input_frames = can_write;
   if ((error = src_process(obj->write.src_state, &(obj->write.data))) != 0)
     g_warning("error while samplerate conversion. error: %s", src_strerror(error));
   obj->write.can_process = FALSE;
   bytes = jack_ringbuffer_write (obj->write.buffer, (void *) obj->write.data.data_out, sizeof(sample_t)*obj->write.data.output_frames_gen);
   obj->write.can_process = TRUE;
   return bytes;
 }

 void jack_card_set_level(JackCard *obj,gint way,gint a)
 {
   switch(way){
   case SND_CARD_LEVEL_GENERAL:
     obj->level = (float)a / 100.0;
     break;
   case SND_CARD_LEVEL_INPUT:
     obj->read.level = (float)a / 100.0;
     break;
   case SND_CARD_LEVEL_OUTPUT:
     obj->write.level = (float)a / 100.0;
     break;
   default:
     g_warning("jack_card_set_level: unsupported command.");
   }
 }

 gint jack_card_get_level(JackCard *obj,gint way)
 {
   gint value = 0;

   switch(way){
   case SND_CARD_LEVEL_GENERAL:
     value = (gint)(obj->level*100.0);
     break;
   case SND_CARD_LEVEL_INPUT:
     value = (gint)(obj->read.level*100.0);
     break;
   case SND_CARD_LEVEL_OUTPUT:
     value = (gint)(obj->write.level*100.0);
     break;
   default:
     g_warning("jack_card_get_level: unsupported command.");
   }
   return value;
 }

 void jack_card_set_source(JackCard *obj,int source)
 {
 }

 MSFilter *jack_card_create_read_filter(JackCard *card)
 {
 	MSFilter *f=ms_oss_read_new();
 	ms_oss_read_set_device(MS_OSS_READ(f),SND_CARD(card)->index);
 	return f;
 }

 MSFilter *jack_card_create_write_filter(JackCard *card)
 {
 	MSFilter *f=ms_oss_write_new();
 	ms_oss_write_set_device(MS_OSS_WRITE(f),SND_CARD(card)->index);
 	return f;
 }
 SndCard * jack_card_new(jack_client_t *client)
 {
 	JackCard * obj;
 	SndCard *base;

 	obj= g_new0(JackCard,1);

 	if (!client) return NULL;
 	obj->client = client;
 	obj->jack_running = TRUE;
 	obj->jack_active = FALSE;
 	obj->can_process = FALSE;
 	obj->clear = TRUE;
 	obj->write.can_process = FALSE;
 	obj->write.open = FALSE;
 	obj->write.init = TRUE;
 	obj->write.port = NULL;
 	obj->write.phys_ports = NULL;
 	obj->write.buffer = NULL;
 	obj->read.can_process = FALSE;
 	obj->read.open = FALSE;
 	obj->read.init = TRUE;
 	obj->read.port = NULL;
 	obj->read.phys_ports = NULL;
 	obj->read.buffer = NULL;

 	/* tell the JACK server to call `process()' whenever
            there is work to be done.
         */
         jack_set_process_callback (client, process, obj);

         /* tell the JACK server to call `jack_shutdown()' if
            it ever shuts down, either entirely, or if it
            just decides to stop calling us.
         */
         jack_on_shutdown (client, jack_shutdown, obj);

 	jack_set_sample_rate_callback (client, samplerate, obj);

 	obj->rate = jack_get_sample_rate (client);
 	obj->buffer_size = jack_get_buffer_size(obj->client);

 	jack_init(obj);

 	base= SND_CARD(obj);
 	snd_card_init(base);

 #ifdef HAVE_GLIB
 	base->card_name=g_strdup_printf("JACK client");
 #else
 	base->card_name=malloc(100);
 	snprintf(base->card_name, 100, "JACK client");
 #endif

 	base->_probe=(SndCardOpenFunc)jack_card_probe;
 	base->_open_r=(SndCardOpenFunc)jack_card_open_r;
 	base->_open_w=(SndCardOpenFunc)jack_card_open_w;
 	base->_can_read=(SndCardPollFunc)jack_card_can_read;
 	base->_set_blocking_mode=(SndCardSetBlockingModeFunc)jack_card_set_blocking_mode;
 	base->_read=(SndCardIOFunc)jack_card_read;
 	base->_write=(SndCardIOFunc)jack_card_write;
 	base->_close_r=(SndCardCloseFunc)jack_card_close_r;
 	base->_close_w=(SndCardCloseFunc)jack_card_close_w;
 	base->_set_rec_source=(SndCardMixerSetRecSourceFunc)jack_card_set_source;
 	base->_set_level=(SndCardMixerSetLevelFunc)jack_card_set_level;
 	base->_get_level=(SndCardMixerGetLevelFunc)jack_card_get_level;
 	base->_destroy=(SndCardDestroyFunc)jack_card_destroy;
 	base->_create_read_filter=(SndCardCreateFilterFunc)jack_card_create_read_filter;
 	base->_create_write_filter=(SndCardCreateFilterFunc)jack_card_create_write_filter;

 	obj->read.buffer=NULL;
 	obj->write.buffer=NULL;
 	obj->buffer_size = 0;
 	obj->level = 1.0;
 	obj->write.level = 1.0;
 	obj->read.level = 1.0;

 	return base;
 }


 gint jack_card_manager_init(SndCardManager *m, gint index)
 {
   jack_client_t *client = NULL;
   char* client_name;

   client_name=g_strdup_printf("linphone-%u", g_random_int());
   if ((client = jack_client_new (client_name))!= NULL)
     {
       g_message("Found Jack Daemon");
       g_free(client_name);
       m->cards[index]=jack_card_new(client);
       m->cards[index]->index=index;
       return 1;
     } else {
       g_free(client_name);
       return 0;
     }
 }

 #endif
	/*
	The mediastreamer library aims at providing modular media processing and I/O
	for linphone, but also for any telephony application.
	Copyright (C) 2001 Simon MORLAT simon.morlat@linphone.org

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2.1 of the License, or (at your option) any later version.

	This library 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
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with this library; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

	JACK support
	Copyright (C) 2004 Tobias Gehrig tobias@gehrig.tk
	*/

	#include "jackcard.h"

	#ifdef __JACK_ENABLED__

	#include "msossread.h"
	#include "msosswrite.h"

	#include <signal.h>

	#define READBUFFERSIZE 524288
	#define WRITEBUFFERSIZE 524288
	#define BSIZE 512

	/**
	* jack_shutdown:
	* @arg:
	*
	* This is the shutdown callback for this JACK application.
	* It is called by JACK if the server ever shuts down or
	* decides to disconnect the client.
	*
	*/
	void
	jack_shutdown (void *arg)
	{
	JackCard* obj = (JackCard*) arg;

	obj->jack_running = FALSE;
	obj->jack_active = FALSE;
	obj->read.port = NULL;
	if (obj->read.open)
	obj->read.init = TRUE;
	obj->write.port = NULL;
	if (obj->write.open)
	obj->write.init = TRUE;
	}

	int samplerate(jack_nframes_t rate, void *arg)
	{
	JackCard* obj = (JackCard*) arg;
	int error;

	obj->rate = rate;
	if (obj->read.open) {
	obj->read.data.src_ratio = (double)obj->read.rate / (double)obj->rate;
	obj->read.data.input_frames = (long)((double)obj->read.frames/obj->read.data.src_ratio);
	g_free(obj->read.data.data_in);
	obj->read.data.data_in = malloc(obj->read.data.input_frames*sizeof(float));
	if (obj->read.src_state)
	if ((error = src_set_ratio(obj->read.src_state, obj->read.data.src_ratio)) != 0)
	g_warning("Error while resetting the write samplerate: %s", src_strerror(error));
	}
	if (obj->write.open) {
	obj->write.data.src_ratio = (double)obj->rate / (double)obj->write.rate;
	obj->write.data.output_frames = (long)((double)obj->write.frames*obj->write.data.src_ratio);
	g_free(obj->write.data.data_out);
	obj->write.data.data_out = malloc(obj->write.data.output_frames*sizeof(float));
	if (obj->write.src_state)
	if ((error = src_set_ratio(obj->write.src_state, obj->write.data.src_ratio)) != 0)
	g_warning("Error while resetting the write samplerate: %s", src_strerror(error));
	}
	return 0;
	}

	/*
	* The process callback for this JACK application.
	* It is called by JACK at the appropriate times.
	* @nframes :
	* @arg :
	*/
	int
	process (jack_nframes_t nframes, void *arg)
	{
	JackCard* obj = (JackCard*) arg;
	sample_t *out;
	sample_t *in;

	if (obj->clear && !obj->write.can_process) {
	out = (sample_t *) jack_port_get_buffer (obj->write.port, nframes);
	memset (out, 0, nframes * sizeof(sample_t));
	obj->clear = FALSE;
	}

	if (!obj->can_process)
	return 0;

	if(obj->read.can_process) {
	in = (sample_t *) jack_port_get_buffer (obj->read.port, nframes);
	jack_ringbuffer_write (obj->read.buffer, (void ) in, sizeof(sample_t) nframes);
	}

	if (obj->write.can_process) {
	out = (sample_t *) jack_port_get_buffer (obj->write.port, nframes);
	memset (out, 0, nframes * sizeof(sample_t));
	if (obj->clear && jack_ringbuffer_read_space(obj->write.buffer) == 0) {
	obj->write.can_process = FALSE;
	if (!obj->read.open)
	obj->can_process = FALSE;
	obj->clear = FALSE;
	return 0;
	}
	jack_ringbuffer_read (obj->write.buffer, (void ) out, sizeof(sample_t) nframes);
	}
	return 0;
	}

	int jack_init(JackCard* obj)
	{
	char* client_name;
	int error;

	if (!obj->jack_running) {
	obj->client = NULL;
	client_name = g_strdup_printf("linphone-%u", g_random_int());
	if ((obj->client = jack_client_new (client_name)) == NULL) {
	g_warning("cannot create jack client");
	g_free(client_name);
	return -1;
	}
	g_message("Found Jack Daemon");
	g_free(client_name);

	/* tell the JACK server to call `process()' whenever
	there is work to be done.
	*/
	jack_set_process_callback (obj->client, process, obj);

	/* tell the JACK server to call `jack_shutdown()' if
	it ever shuts down, either entirely, or if it
	just decides to stop calling us.
	*/
	jack_on_shutdown (obj->client, jack_shutdown, obj);
	jack_set_sample_rate_callback (obj->client, samplerate, obj);
	obj->rate = jack_get_sample_rate (obj->client);
	if (obj->rate == 0) {
	g_warning ("rate is 0???");
	if (jack_client_close(obj->client) != 0)
	g_warning("could not close client");
	return -1;
	}
	obj->buffer_size = jack_get_buffer_size(obj->client);
	obj->jack_running = TRUE;
	}

	if (!obj->jack_active) {
	if (jack_activate (obj->client)) {
	g_warning("cannot activate jack client");
	return -1;
	} else obj->jack_active = TRUE;
	}

	if (obj->read.init) {
	if (!obj->read.port && (obj->read.port = jack_port_register (obj->client, "input", JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0))==NULL) {
	g_warning("error while trying to register input port");
	return -1;
	}
	if (!obj->read.phys_ports && (obj->read.phys_ports = jack_get_ports (obj->client, NULL, NULL, JackPortIsPhysical\|JackPortIsOutput)) == NULL) {
	g_warning("Cannot find any physical capture ports\n");
	jack_port_unregister(obj->client, obj->read.port);
	obj->read.port = NULL;
	return -1;
	}
	if (!jack_port_connected(obj->read.port))
	if ((error = jack_connect (obj->client, obj->read.phys_ports[0], jack_port_name (obj->read.port))) != 0) {
	g_warning("cannot connect input ports: %s -> %s\n", jack_port_name (obj->read.port), obj->read.phys_ports[0]);
	if (error == EEXIST) g_warning("connection already made");
	else {
	jack_port_unregister(obj->client, obj->read.port);
	obj->read.port = NULL;
	return -1;
	}
	}
	obj->read.init = FALSE;
	}

	if (obj->write.init) {
	if (!obj->write.port && (obj->write.port = jack_port_register (obj->client, "output", JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0))==NULL) {
	g_warning("error while trying to register output port");
	return -1;
	}
	if (!obj->write.phys_ports && (obj->write.phys_ports = jack_get_ports (obj->client, NULL, NULL, JackPortIsPhysical\|JackPortIsInput)) == NULL) {
	g_warning("Cannot find any physical playback ports\n");
	jack_port_unregister(obj->client, obj->write.port);
	obj->write.port = NULL;
	return -1;
	}
	if (!jack_port_connected(obj->write.port)) {
	if ((error = jack_connect (obj->client, jack_port_name (obj->write.port), obj->write.phys_ports[0])) != 0) {
	g_warning("cannot connect output ports: %s -> %s\n", jack_port_name (obj->write.port), obj->write.phys_ports[0]);
	if (error == EEXIST) g_warning("connection already made");
	else {
	jack_port_unregister(obj->client, obj->write.port);
	obj->write.port = NULL;
	return -1;
	}
	}
	if ((error = jack_connect (obj->client, jack_port_name (obj->write.port), obj->write.phys_ports[1])) != 0) {
	g_warning("cannot connect output ports: %s -> %s\n", jack_port_name (obj->write.port), obj->write.phys_ports[1]);
	if (error == EEXIST) g_warning("connection already made");
	else {
	jack_port_unregister(obj->client, obj->write.port);
	obj->write.port = NULL;
	return -1;
	}
	}
	}
	obj->write.init = FALSE;
	}
	return 0;
	}

	int jack_card_open_r(JackCard *obj,int bits,int stereo,int rate)
	{
	int channels = stereo + 1, bsize, error;
	obj->read.init = TRUE;
	if (jack_init(obj) != 0) return -1;

	obj->read.rate = rate;
	obj->sample_size = bits / 8;
	obj->frame_size = channels * obj->sample_size;
	bsize = BSIZE;
	obj->read.frames = bsize / 2;
	SND_CARD(obj)->bsize = bsize;
	SND_CARD(obj)->flags \|= SND_CARD_FLAGS_OPENED;
	obj->read.channels = channels;
	if ((obj->read.src_state = src_new (SRC_SINC_FASTEST, channels, &error)) == NULL)
	g_warning("Error while initializing the samplerate converter: %s", src_strerror(error));
	obj->read.data.src_ratio = (double)rate / (double)obj->rate;
	obj->read.data.input_frames = (long)((double)obj->read.frames/obj->read.data.src_ratio);
	obj->read.data.data_in = malloc(obj->read.data.input_frames*sizeof(float));
	obj->read.data.data_out = malloc(obj->read.frames*sizeof(float));
	obj->read.data.end_of_input = 0;
	if (!obj->read.buffer)
	obj->read.buffer = jack_ringbuffer_create(READBUFFERSIZE);
	obj->read.can_process = TRUE;
	obj->can_process = TRUE;
	obj->read.open = TRUE;
	obj->read.init = FALSE;
	return 0;
	}

	int jack_card_open_w(JackCard *obj,int bits,int stereo,int rate)
	{
	int channels = stereo + 1, bsize, err;
	obj->write.init = TRUE;
	if (jack_init(obj) != 0) return -1;

	obj->write.rate = rate;
	obj->sample_size = bits / 8;
	obj->frame_size = channels * obj->sample_size;
	bsize = BSIZE;
	obj->write.frames = bsize / 2;
	SND_CARD(obj)->bsize = bsize;
	SND_CARD(obj)->flags \|= SND_CARD_FLAGS_OPENED;
	obj->write.channels = channels;
	if ((obj->write.src_state = src_new (SRC_SINC_FASTEST, channels, &err)) == NULL)
	g_warning("Error while initializing the samplerate converter: %s", src_strerror(err));
	obj->write.data.src_ratio = (double)obj->rate / (double)rate;
	obj->write.data.data_in = malloc(obj->write.frames*sizeof(float));
	obj->write.data.end_of_input = 0;
	obj->write.data.output_frames = (long)((double)obj->write.frames*obj->write.data.src_ratio);
	obj->write.data.data_out = malloc(obj->write.data.output_frames*sizeof(float));
	if (!obj->write.buffer)
	obj->write.buffer = jack_ringbuffer_create(WRITEBUFFERSIZE);
	obj->write.can_process = TRUE;
	obj->can_process = TRUE;
	obj->write.open = TRUE;
	obj->write.init = FALSE;
	return 0;
	}

	void jack_card_set_blocking_mode(JackCard *obj, gboolean yesno)
	{
	}

	void jack_card_close_r(JackCard *obj)
	{
	obj->read.open = FALSE;
	obj->read.init = FALSE;
	obj->read.can_process = FALSE;
	if (!obj->write.open)
	obj->can_process = FALSE;
	if (obj->read.src_state)
	obj->read.src_state = src_delete (obj->read.src_state);
	g_free(obj->read.data.data_in);
	g_free(obj->read.data.data_out);
	}

	void jack_card_close_w(JackCard *obj)
	{
	obj->write.open = FALSE;
	obj->write.init = FALSE;
	obj->clear = TRUE;
	if (!obj->jack_running) {
	obj->write.can_process = FALSE;
	obj->can_process = FALSE;
	}
	if (obj->write.src_state)
	obj->write.src_state = src_delete (obj->write.src_state);
	g_free(obj->write.data.data_in);
	g_free(obj->write.data.data_out);
	}

	int jack_card_probe(JackCard *obj,int bits,int stereo,int rate)
	{
	if (obj->jack_running) return BSIZE;
	else if (jack_init(obj) == 0) return BSIZE;
	else return -1;
	}

	void jack_card_destroy(JackCard *obj)
	{
	if (obj->jack_running) jack_client_close (obj->client);
	snd_card_uninit(SND_CARD(obj));
	if (obj->read.buffer) {
	jack_ringbuffer_free(obj->read.buffer);
	obj->read.buffer = NULL;
	}
	if (obj->write.buffer) {
	jack_ringbuffer_free(obj->write.buffer);
	obj->write.buffer = NULL;
	}
	if (obj->read.phys_ports) {
	g_free(obj->read.phys_ports);
	obj->read.phys_ports = NULL;
	}
	if (obj->write.phys_ports) {
	g_free(obj->write.phys_ports);
	obj->write.phys_ports = NULL;
	}
	}

	gboolean jack_card_can_read(JackCard *obj)
	{
	g_return_val_if_fail(obj->read.buffer!=NULL,0);
	if (jack_ringbuffer_read_space(obj->read.buffer)>=(long)((double)obj->read.frames/obj->read.data.src_ratio)*sizeof(sample_t)) return TRUE;
	else return FALSE;
	}

	int jack_card_read(JackCard obj,char buf,int size)
	{
	size_t bytes, can_read, i;
	int error;
	float norm, value;

	g_return_val_if_fail((obj->read.buffer!=NULL)&&(obj->read.src_state!=NULL),-1);
	if (jack_init(obj) != 0) return -1;
	size /= 2;
	can_read = MIN(size, obj->read.frames);
	// can_read = MIN(((long)((double)can_read / obj->read.data.src_ratio))*sizeof(sample_t), jack_ringbuffer_read_space(obj->read.buffer));
	can_read = ((long)((double)can_read / obj->read.data.src_ratio))*sizeof(sample_t);
	obj->read.can_process = FALSE;
	bytes = jack_ringbuffer_read (obj->read.buffer, (void *)obj->read.data.data_in, can_read);
	obj->read.can_process = TRUE;
	obj->read.data.input_frames = bytes / sizeof(sample_t);
	can_read = MIN(size, obj->read.frames);
	obj->read.data.output_frames = can_read;
	if ((error = src_process(obj->read.src_state, &(obj->read.data))) != 0)
	g_warning("error while samplerate conversion. error: %s", src_strerror(error));
	norm = obj->read.levelobj->level(float)0x8000;
	for (i=0; i < obj->read.data.output_frames_gen; i++) {
	value = obj->read.data.data_out[i]*norm;
	if (value >= 32767.0)
	((short*)buf)[i] = 32767;
	else if (value <= -32768.0)
	((short*)buf)[i] = -32768;
	else
	((short*)buf)[i] = (short)value;
	}
	bytes = obj->read.data.output_frames_gen * 2;
	return bytes;
	}

	int jack_card_write(JackCard obj,char buf,int size)
	{
	size_t bytes, can_write, i;
	int error;
	float norm;

	g_return_val_if_fail((obj->write.buffer!=NULL)&&(obj->write.src_state!=NULL),-1);
	if (jack_init(obj) != 0) return -1;
	size /= 2;
	can_write = MIN(size, obj->write.frames);
	norm = obj->write.level*obj->level/(float)0x8000;
	for (i=0; i<can_write; i++) {
	obj->write.data.data_in[i] = (float)((short)buf)[i]norm;
	}
	obj->write.data.input_frames = can_write;
	if ((error = src_process(obj->write.src_state, &(obj->write.data))) != 0)
	g_warning("error while samplerate conversion. error: %s", src_strerror(error));
	obj->write.can_process = FALSE;
	bytes = jack_ringbuffer_write (obj->write.buffer, (void ) obj->write.data.data_out, sizeof(sample_t)obj->write.data.output_frames_gen);
	obj->write.can_process = TRUE;
	return bytes;
	}

	void jack_card_set_level(JackCard *obj,gint way,gint a)
	{
	switch(way){
	case SND_CARD_LEVEL_GENERAL:
	obj->level = (float)a / 100.0;
	break;
	case SND_CARD_LEVEL_INPUT:
	obj->read.level = (float)a / 100.0;
	break;
	case SND_CARD_LEVEL_OUTPUT:
	obj->write.level = (float)a / 100.0;
	break;
	default:
	g_warning("jack_card_set_level: unsupported command.");
	}
	}

	gint jack_card_get_level(JackCard *obj,gint way)
	{
	gint value = 0;

	switch(way){
	case SND_CARD_LEVEL_GENERAL:
	value = (gint)(obj->level*100.0);
	break;
	case SND_CARD_LEVEL_INPUT:
	value = (gint)(obj->read.level*100.0);
	break;
	case SND_CARD_LEVEL_OUTPUT:
	value = (gint)(obj->write.level*100.0);
	break;
	default:
	g_warning("jack_card_get_level: unsupported command.");
	}
	return value;
	}

	void jack_card_set_source(JackCard *obj,int source)
	{
	}

	MSFilter jack_card_create_read_filter(JackCard card)
	{
	MSFilter *f=ms_oss_read_new();
	ms_oss_read_set_device(MS_OSS_READ(f),SND_CARD(card)->index);
	return f;
	}

	MSFilter jack_card_create_write_filter(JackCard card)
	{
	MSFilter *f=ms_oss_write_new();
	ms_oss_write_set_device(MS_OSS_WRITE(f),SND_CARD(card)->index);
	return f;
	}
	SndCard * jack_card_new(jack_client_t *client)
	{
	JackCard * obj;
	SndCard *base;

	obj= g_new0(JackCard,1);

	if (!client) return NULL;
	obj->client = client;
	obj->jack_running = TRUE;
	obj->jack_active = FALSE;
	obj->can_process = FALSE;
	obj->clear = TRUE;
	obj->write.can_process = FALSE;
	obj->write.open = FALSE;
	obj->write.init = TRUE;
	obj->write.port = NULL;
	obj->write.phys_ports = NULL;
	obj->write.buffer = NULL;
	obj->read.can_process = FALSE;
	obj->read.open = FALSE;
	obj->read.init = TRUE;
	obj->read.port = NULL;
	obj->read.phys_ports = NULL;
	obj->read.buffer = NULL;

	/* tell the JACK server to call `process()' whenever
	there is work to be done.
	*/
	jack_set_process_callback (client, process, obj);

	/* tell the JACK server to call `jack_shutdown()' if
	it ever shuts down, either entirely, or if it
	just decides to stop calling us.
	*/
	jack_on_shutdown (client, jack_shutdown, obj);

	jack_set_sample_rate_callback (client, samplerate, obj);

	obj->rate = jack_get_sample_rate (client);
	obj->buffer_size = jack_get_buffer_size(obj->client);

	jack_init(obj);

	base= SND_CARD(obj);
	snd_card_init(base);

	#ifdef HAVE_GLIB
	base->card_name=g_strdup_printf("JACK client");
	#else
	base->card_name=malloc(100);
	snprintf(base->card_name, 100, "JACK client");
	#endif

	base->_probe=(SndCardOpenFunc)jack_card_probe;
	base->_open_r=(SndCardOpenFunc)jack_card_open_r;
	base->_open_w=(SndCardOpenFunc)jack_card_open_w;
	base->_can_read=(SndCardPollFunc)jack_card_can_read;
	base->_set_blocking_mode=(SndCardSetBlockingModeFunc)jack_card_set_blocking_mode;
	base->_read=(SndCardIOFunc)jack_card_read;
	base->_write=(SndCardIOFunc)jack_card_write;
	base->_close_r=(SndCardCloseFunc)jack_card_close_r;
	base->_close_w=(SndCardCloseFunc)jack_card_close_w;
	base->_set_rec_source=(SndCardMixerSetRecSourceFunc)jack_card_set_source;
	base->_set_level=(SndCardMixerSetLevelFunc)jack_card_set_level;
	base->_get_level=(SndCardMixerGetLevelFunc)jack_card_get_level;
	base->_destroy=(SndCardDestroyFunc)jack_card_destroy;
	base->_create_read_filter=(SndCardCreateFilterFunc)jack_card_create_read_filter;
	base->_create_write_filter=(SndCardCreateFilterFunc)jack_card_create_write_filter;

	obj->read.buffer=NULL;
	obj->write.buffer=NULL;
	obj->buffer_size = 0;
	obj->level = 1.0;
	obj->write.level = 1.0;
	obj->read.level = 1.0;

	return base;
	}


	gint jack_card_manager_init(SndCardManager *m, gint index)
	{
	jack_client_t *client = NULL;
	char* client_name;

	client_name=g_strdup_printf("linphone-%u", g_random_int());
	if ((client = jack_client_new (client_name))!= NULL)
	{
	g_message("Found Jack Daemon");
	g_free(client_name);
	m->cards[index]=jack_card_new(client);
	m->cards[index]->index=index;
	return 1;
	} else {
	g_free(client_name);
	return 0;
	}
	}

	#endif