/* * FireWire Backend for Jack * using FFADO * FFADO = Firewire (pro-)audio for linux * * http://www.ffado.org * http://www.jackaudio.org * * Copyright (C) 2005-2007 Pieter Palmers * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * Main Jack driver entry routines * */ #include #include #include #include #include #include #include #include #include #include "internal.h" #include "engine.h" #include #include #include "ffado_driver.h" #define SAMPLE_MAX_24BIT 8388608.0f #define SAMPLE_MAX_16BIT 32768.0f static int ffado_driver_stop (ffado_driver_t *driver); #define FIREWIRE_REQUIRED_FFADO_API_VERSION 8 // enable verbose messages static int g_verbose=0; static int ffado_driver_attach (ffado_driver_t *driver) { char buf[64]; char buf2[64]; channel_t chn; jack_port_t *port=NULL; int port_flags; jack_latency_range_t range; g_verbose=driver->engine->verbose; if (driver->engine->set_buffer_size (driver->engine, driver->period_size)) { jack_error ("FFADO: cannot set engine buffer size to %d (check MIDI)", driver->period_size); return -1; } driver->engine->set_sample_rate (driver->engine, driver->sample_rate); /* preallocate some buffers such that they don't have to be allocated in RT context (or from the stack) */ /* the null buffer is a buffer that contains one period of silence */ driver->nullbuffer = calloc(driver->period_size, sizeof(ffado_sample_t)); if(driver->nullbuffer == NULL) { printError("could not allocate memory for null buffer"); return -1; } /* calloc should do this, but it can't hurt to be sure */ memset(driver->nullbuffer, 0, driver->period_size*sizeof(ffado_sample_t)); /* the scratch buffer is a buffer of one period that can be used as dummy memory */ driver->scratchbuffer = calloc(driver->period_size, sizeof(ffado_sample_t)); if(driver->scratchbuffer == NULL) { printError("could not allocate memory for scratch buffer"); return -1; } /* packetizer thread options */ driver->device_options.realtime=(driver->engine->control->real_time? 1 : 0); driver->device_options.packetizer_priority = driver->engine->rtpriority; if (driver->device_options.packetizer_priority > 98) { driver->device_options.packetizer_priority = 98; } if (driver->device_options.packetizer_priority < 1) { driver->device_options.packetizer_priority = 1; } driver->dev = ffado_streaming_init(driver->device_info, driver->device_options); if(!driver->dev) { printError("Error creating FFADO streaming device"); return -1; } if (driver->device_options.realtime) { printMessage("Streaming thread running with Realtime scheduling, priority %d", driver->device_options.packetizer_priority); } else { printMessage("Streaming thread running without Realtime scheduling"); } ffado_streaming_set_audio_datatype(driver->dev, ffado_audio_datatype_float); /* ports */ port_flags = JackPortIsOutput|JackPortIsPhysical|JackPortIsTerminal; driver->capture_nchannels=ffado_streaming_get_nb_capture_streams(driver->dev); driver->capture_channels=calloc(driver->capture_nchannels, sizeof(ffado_capture_channel_t)); if(driver->capture_channels==NULL) { printError("could not allocate memory for capture channel list"); return -1; } for (chn = 0; chn < driver->capture_nchannels; chn++) { ffado_streaming_get_capture_stream_name(driver->dev, chn, buf, sizeof(buf) - 1); driver->capture_channels[chn].stream_type=ffado_streaming_get_capture_stream_type(driver->dev, chn); if(driver->capture_channels[chn].stream_type == ffado_stream_type_audio) { snprintf(buf2, 64, "C%d_%s",(int)chn,buf); // needed to avoid duplicate names printMessage ("Registering audio capture port %s", buf2); if ((port = jack_port_register (driver->client, buf2, JACK_DEFAULT_AUDIO_TYPE, port_flags, 0)) == NULL) { printError (" cannot register port for %s", buf2); break; } driver->capture_ports = jack_slist_append (driver->capture_ports, port); // setup port parameters if (ffado_streaming_set_capture_stream_buffer(driver->dev, chn, NULL)) { printError(" cannot configure initial port buffer for %s", buf2); } if(ffado_streaming_capture_stream_onoff(driver->dev, chn, 1)) { printError(" cannot enable port %s", buf2); } } else if(driver->capture_channels[chn].stream_type == ffado_stream_type_midi) { snprintf(buf2, 64, "C%d_%s",(int)chn,buf); // needed to avoid duplicate names printMessage ("Registering midi capture port %s", buf2); if ((port = jack_port_register (driver->client, buf2, JACK_DEFAULT_MIDI_TYPE, port_flags, 0)) == NULL) { printError (" cannot register port for %s", buf2); break; } driver->capture_ports = jack_slist_append (driver->capture_ports, port); // setup port parameters if (ffado_streaming_set_capture_stream_buffer(driver->dev, chn, NULL)) { printError(" cannot configure initial port buffer for %s", buf2); } if(ffado_streaming_capture_stream_onoff(driver->dev, chn, 1)) { printError(" cannot enable port %s", buf2); } // setup midi unpacker midi_unpack_init(&driver->capture_channels[chn].midi_unpack); midi_unpack_reset(&driver->capture_channels[chn].midi_unpack); // setup the midi buffer driver->capture_channels[chn].midi_buffer = calloc(driver->period_size, sizeof(uint32_t)); } else { printMessage ("Don't register capture port %s", buf); // we have to add a NULL entry in the list to be able to loop over the channels in the read/write routines driver->capture_ports = jack_slist_append (driver->capture_ports, NULL); } range.min = range.max = driver->period_size + driver->capture_frame_latency; jack_port_set_latency_range (port, JackCaptureLatency, &range); } port_flags = JackPortIsInput|JackPortIsPhysical|JackPortIsTerminal; driver->playback_nchannels=ffado_streaming_get_nb_playback_streams(driver->dev); driver->playback_channels=calloc(driver->playback_nchannels, sizeof(ffado_playback_channel_t)); if(driver->playback_channels==NULL) { printError("could not allocate memory for playback channel list"); return -1; } for (chn = 0; chn < driver->playback_nchannels; chn++) { ffado_streaming_get_playback_stream_name(driver->dev, chn, buf, sizeof(buf) - 1); driver->playback_channels[chn].stream_type=ffado_streaming_get_playback_stream_type(driver->dev, chn); if(driver->playback_channels[chn].stream_type == ffado_stream_type_audio) { snprintf(buf2, 64, "P%d_%s",(int)chn,buf); // needed to avoid duplicate names printMessage ("Registering audio playback port %s", buf2); if ((port = jack_port_register (driver->client, buf2, JACK_DEFAULT_AUDIO_TYPE, port_flags, 0)) == NULL) { printError(" cannot register port for %s", buf2); break; } driver->playback_ports = jack_slist_append (driver->playback_ports, port); // setup port parameters if (ffado_streaming_set_playback_stream_buffer(driver->dev, chn, NULL)) { printError(" cannot configure initial port buffer for %s", buf2); } if(ffado_streaming_playback_stream_onoff(driver->dev, chn, 1)) { printError(" cannot enable port %s", buf2); } } else if(driver->playback_channels[chn].stream_type == ffado_stream_type_midi) { snprintf(buf2, 64, "P%d_%s",(int)chn,buf); // needed to avoid duplicate names printMessage ("Registering midi playback port %s", buf2); if ((port = jack_port_register (driver->client, buf2, JACK_DEFAULT_MIDI_TYPE, port_flags, 0)) == NULL) { printError(" cannot register port for %s", buf2); break; } driver->playback_ports = jack_slist_append (driver->playback_ports, port); // setup port parameters if (ffado_streaming_set_playback_stream_buffer(driver->dev, chn, NULL)) { printError(" cannot configure initial port buffer for %s", buf2); } if(ffado_streaming_playback_stream_onoff(driver->dev, chn, 1)) { printError(" cannot enable port %s", buf2); } // setup midi packer midi_pack_reset(&driver->playback_channels[chn].midi_pack); // setup the midi buffer driver->playback_channels[chn].midi_buffer = calloc(driver->period_size, sizeof(uint32_t)); } else { printMessage ("Don't register playback port %s", buf); // we have to add a NULL entry in the list to be able to loop over the channels in the read/write routines driver->playback_ports = jack_slist_append (driver->playback_ports, NULL); } range.min = range.max = (driver->period_size * (driver->device_options.nb_buffers - 1)) + driver->playback_frame_latency; jack_port_set_latency_range (port, JackPlaybackLatency, &range); } if(ffado_streaming_prepare(driver->dev)) { printError("Could not prepare streaming device!"); return -1; } return jack_activate (driver->client); } static int ffado_driver_detach (ffado_driver_t *driver) { JSList *node; unsigned int chn; if (driver->engine == NULL) { return 0; } for (node = driver->capture_ports; node; node = jack_slist_next (node)) { // Don't try to unregister NULL entries added for non-audio // ffado ports by ffado_driver_attach(). if (node->data != NULL) { jack_port_unregister (driver->client, ((jack_port_t *) node->data)); } } jack_slist_free (driver->capture_ports); driver->capture_ports = 0; for (node = driver->playback_ports; node; node = jack_slist_next (node)) { if (node->data != NULL) { jack_port_unregister (driver->client, ((jack_port_t *) node->data)); } } jack_slist_free (driver->playback_ports); driver->playback_ports = 0; ffado_streaming_finish(driver->dev); driver->dev=NULL; for (chn = 0; chn < driver->capture_nchannels; chn++) { if(driver->capture_channels[chn].midi_buffer) free(driver->capture_channels[chn].midi_buffer); } free(driver->capture_channels); for (chn = 0; chn < driver->playback_nchannels; chn++) { if(driver->playback_channels[chn].midi_buffer) free(driver->playback_channels[chn].midi_buffer); } free(driver->playback_channels); free(driver->nullbuffer); free(driver->scratchbuffer); return 0; } static int ffado_driver_read (ffado_driver_t * driver, jack_nframes_t nframes) { channel_t chn; int nb_connections; JSList *node; jack_port_t* port; printEnter(); for (chn = 0, node = driver->capture_ports; node; node = jack_slist_next (node), chn++) { if(driver->capture_channels[chn].stream_type == ffado_stream_type_audio) { port = (jack_port_t *) node->data; nb_connections = jack_port_connected (port); /* if there are no connections, use the dummy buffer and disable the stream */ if(nb_connections) { ffado_streaming_capture_stream_onoff(driver->dev, chn, 1); ffado_streaming_set_capture_stream_buffer(driver->dev, chn, (char *)(jack_port_get_buffer (port, nframes))); } else { ffado_streaming_capture_stream_onoff(driver->dev, chn, 0); ffado_streaming_set_capture_stream_buffer(driver->dev, chn, (char *)(driver->scratchbuffer)); } } else if (driver->capture_channels[chn].stream_type == ffado_stream_type_midi) { port = (jack_port_t *) node->data; nb_connections = jack_port_connected (port); if(nb_connections) { ffado_streaming_capture_stream_onoff(driver->dev, chn, 1); } else { ffado_streaming_capture_stream_onoff(driver->dev, chn, 0); } /* always set a buffer */ ffado_streaming_set_capture_stream_buffer(driver->dev, chn, (char *)(driver->capture_channels[chn].midi_buffer)); } else { /* ensure a valid buffer */ ffado_streaming_set_capture_stream_buffer(driver->dev, chn, (char *)(driver->scratchbuffer)); ffado_streaming_capture_stream_onoff(driver->dev, chn, 0); } } /* now transfer the buffers */ ffado_streaming_transfer_capture_buffers(driver->dev); /* process the midi data */ for (chn = 0, node = driver->capture_ports; node; node = jack_slist_next (node), chn++) { if (driver->capture_channels[chn].stream_type == ffado_stream_type_midi) { jack_default_audio_sample_t* buf; int i; int done; uint32_t *midi_buffer = driver->capture_channels[chn].midi_buffer; midi_unpack_t *midi_unpack = &driver->capture_channels[chn].midi_unpack; port = (jack_port_t *) node->data; nb_connections = jack_port_connected (port); buf = jack_port_get_buffer (port, nframes); /* if the returned buffer is invalid, discard the midi data */ jack_midi_clear_buffer(buf); /* no connections means no processing */ if(nb_connections == 0) continue; /* else unpack note that libffado guarantees that midi bytes are on 8-byte aligned indexes */ for(i = 0; i < nframes; i += 8) { if(midi_buffer[i] & 0xFF000000) { done = midi_unpack_buf(midi_unpack, (unsigned char *)(midi_buffer+i), 1, buf, i); if (done != 1) { printError("MIDI buffer overflow in channel %d\n", chn); break; } } } } } printExit(); return 0; } static int ffado_driver_write (ffado_driver_t * driver, jack_nframes_t nframes) { channel_t chn; int nb_connections; JSList *node; jack_port_t *port; printEnter(); driver->process_count++; if (driver->engine->freewheeling) { return 0; } for (chn = 0, node = driver->playback_ports; node; node = jack_slist_next (node), chn++) { if(driver->playback_channels[chn].stream_type == ffado_stream_type_audio) { port = (jack_port_t *) node->data; nb_connections = jack_port_connected (port); /* use the silent buffer + disable if there are no connections */ if(nb_connections) { ffado_streaming_playback_stream_onoff(driver->dev, chn, 1); ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(jack_port_get_buffer (port, nframes))); } else { ffado_streaming_playback_stream_onoff(driver->dev, chn, 0); ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(driver->nullbuffer)); } } else if (driver->playback_channels[chn].stream_type == ffado_stream_type_midi) { jack_default_audio_sample_t* buf; int nevents; int i; midi_pack_t *midi_pack = &driver->playback_channels[chn].midi_pack; uint32_t *midi_buffer = driver->playback_channels[chn].midi_buffer; int min_next_pos = 0; port = (jack_port_t *) node->data; nb_connections = jack_port_connected (port); /* skip if no connections */ if(nb_connections == 0) { ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(driver->nullbuffer)); ffado_streaming_playback_stream_onoff(driver->dev, chn, 0); continue; } memset(midi_buffer, 0, nframes * sizeof(uint32_t)); ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(midi_buffer)); ffado_streaming_playback_stream_onoff(driver->dev, chn, 1); /* check if we still have to process bytes from the previous period */ /* if(driver->playback_channels[chn].nb_overflow_bytes) { printMessage("have to process %d bytes from previous period", driver->playback_channels[chn].nb_overflow_bytes); } */ for (i=0; iplayback_channels[chn].nb_overflow_bytes; ++i) { midi_buffer[min_next_pos] = 0x01000000 | (driver->playback_channels[chn].overflow_buffer[i] & 0xFF); min_next_pos += 8; } driver->playback_channels[chn].nb_overflow_bytes=0; /* process the events in this period */ buf = jack_port_get_buffer (port, nframes); nevents = jack_midi_get_event_count(buf); for (i=0; i= nframes) { int f; /* printMessage("midi message crosses period boundary"); */ driver->playback_channels[chn].nb_overflow_bytes = event.size - j; if(driver->playback_channels[chn].nb_overflow_bytes > MIDI_OVERFLOW_BUFFER_SIZE) { printError("too much midi bytes cross period boundary"); driver->playback_channels[chn].nb_overflow_bytes = MIDI_OVERFLOW_BUFFER_SIZE; } /* save the bytes that still have to be transmitted in the next period */ for(f = 0; f < driver->playback_channels[chn].nb_overflow_bytes; f++) { driver->playback_channels[chn].overflow_buffer[f] = event.buffer[j+f]; } /* exit since we can't transmit anything anymore. the rate should be controlled */ if(i < nevents-1) { printError("%d midi events lost due to period crossing", nevents-i-1); } break; } else { midi_buffer[pos] = 0x01000000 | (event.buffer[j] & 0xFF); pos += 8; min_next_pos = pos; } } } } else { /* ensure a valid buffer */ ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(driver->nullbuffer)); ffado_streaming_playback_stream_onoff(driver->dev, chn, 0); } } ffado_streaming_transfer_playback_buffers(driver->dev); printExit(); return 0; } //static inline jack_nframes_t static jack_nframes_t ffado_driver_wait (ffado_driver_t *driver, int extra_fd, int *status, float *delayed_usecs) { jack_time_t wait_enter; jack_time_t wait_ret; ffado_wait_response response; printEnter(); wait_enter = driver->engine->get_microseconds (); if (wait_enter > driver->wait_next) { /* * This processing cycle was delayed past the * next due interrupt! Do not account this as * a wakeup delay: */ driver->wait_next = 0; driver->wait_late++; } // *status = -2; interrupt // *status = -3; timeout // *status = -4; extra FD response = ffado_streaming_wait(driver->dev); wait_ret = driver->engine->get_microseconds (); if (driver->wait_next && wait_ret > driver->wait_next) { *delayed_usecs = wait_ret - driver->wait_next; } driver->wait_last = wait_ret; driver->wait_next = wait_ret + driver->period_usecs; driver->engine->transport_cycle_start (driver->engine, wait_ret); if (response == ffado_wait_ok) { // all good *status=0; } else if (response == ffado_wait_xrun) { // xrun happened, but it's handled *status=0; return 0; } else if (response == ffado_wait_error) { // an error happened (unhandled xrun) // this should be fatal *status=-1; return 0; } else if (response == ffado_wait_shutdown) { // we are to shutdown the ffado system // this should be fatal *status=-1; return 0; } else { // we don't know about this response code printError("unknown wait response (%d) from ffado", response); // this should be fatal *status=-1; return 0; } driver->last_wait_ust = wait_ret; // FIXME: this should do something more useful *delayed_usecs = 0; printExit(); return driver->period_size; } static int ffado_driver_run_cycle (ffado_driver_t *driver) { jack_engine_t *engine = driver->engine; int wait_status=0; float delayed_usecs=0.0; jack_nframes_t nframes = ffado_driver_wait (driver, -1, &wait_status, &delayed_usecs); if ((wait_status < 0)) { printError( "wait status < 0! (= %d)",wait_status); return -1; } if ((nframes == 0)) { /* we detected an xrun and restarted: notify * clients about the delay. */ printMessage("xrun detected"); engine->delay (engine, delayed_usecs); return 0; } return engine->run_cycle (engine, nframes, delayed_usecs); } /* * in a null cycle we should discard the input and write silence to the outputs */ static int ffado_driver_null_cycle (ffado_driver_t* driver, jack_nframes_t nframes) { channel_t chn; JSList *node; ffado_streaming_stream_type stream_type; printEnter(); if (driver->engine->freewheeling) { return 0; } // write silence to buffer for (chn = 0, node = driver->playback_ports; node; node = jack_slist_next (node), chn++) { stream_type=ffado_streaming_get_playback_stream_type(driver->dev, chn); if(stream_type == ffado_stream_type_audio) { ffado_streaming_set_playback_stream_buffer(driver->dev, chn, (char *)(driver->nullbuffer)); } } ffado_streaming_transfer_playback_buffers(driver->dev); // read & discard from input ports for (chn = 0, node = driver->capture_ports; node; node = jack_slist_next (node), chn++) { stream_type=ffado_streaming_get_capture_stream_type(driver->dev, chn); if(stream_type == ffado_stream_type_audio) { ffado_streaming_set_capture_stream_buffer(driver->dev, chn, (char *)(driver->scratchbuffer)); } } ffado_streaming_transfer_capture_buffers(driver->dev); printExit(); return 0; } static int ffado_driver_start (ffado_driver_t *driver) { int retval=0; if((retval=ffado_streaming_start(driver->dev))) { printError("Could not start streaming threads: %d", retval); return retval; } return 0; } static int ffado_driver_stop (ffado_driver_t *driver) { int retval=0; if((retval=ffado_streaming_stop(driver->dev))) { printError("Could not stop streaming threads"); return retval; } return 0; } static int ffado_driver_bufsize (ffado_driver_t* driver, jack_nframes_t nframes) { printError("Buffer size change requested but not supported!!!"); /* driver->period_size = nframes; driver->period_usecs = (jack_time_t) floor ((((float) nframes) / driver->sample_rate) * 1000000.0f); */ /* tell the engine to change its buffer size */ #if 0 if (driver->engine->set_buffer_size (driver->engine, nframes)) { jack_error ("FFADO: cannot set engine buffer size to %d (check MIDI)", nframes); return -1; } #endif return -1; // unsupported } typedef void (*JackDriverFinishFunction) (jack_driver_t *); ffado_driver_t * ffado_driver_new (jack_client_t * client, char *name, ffado_jack_settings_t *params) { ffado_driver_t *driver; if(ffado_get_api_version() != FIREWIRE_REQUIRED_FFADO_API_VERSION) { printError("Incompatible libffado version! (%s)", ffado_get_version()); return NULL; } printMessage("Starting firewire backend (%s)", ffado_get_version()); driver = calloc (1, sizeof (ffado_driver_t)); /* Setup the jack interfaces */ jack_driver_nt_init ((jack_driver_nt_t *) driver); driver->nt_attach = (JackDriverNTAttachFunction) ffado_driver_attach; driver->nt_detach = (JackDriverNTDetachFunction) ffado_driver_detach; driver->nt_start = (JackDriverNTStartFunction) ffado_driver_start; driver->nt_stop = (JackDriverNTStopFunction) ffado_driver_stop; driver->nt_run_cycle = (JackDriverNTRunCycleFunction) ffado_driver_run_cycle; driver->null_cycle = (JackDriverNullCycleFunction) ffado_driver_null_cycle; driver->write = (JackDriverReadFunction) ffado_driver_write; driver->read = (JackDriverReadFunction) ffado_driver_read; driver->nt_bufsize = (JackDriverNTBufSizeFunction) ffado_driver_bufsize; /* copy command line parameter contents to the driver structure */ memcpy(&driver->settings,params,sizeof(ffado_jack_settings_t)); /* prepare all parameters */ driver->sample_rate = params->sample_rate; driver->period_size = params->period_size; driver->last_wait_ust = 0; driver->period_usecs = (jack_time_t) floor ((((float) driver->period_size) * 1000000.0f) / driver->sample_rate); driver->client = client; driver->engine = NULL; memset(&driver->device_options,0,sizeof(driver->device_options)); driver->device_options.sample_rate=params->sample_rate; driver->device_options.period_size=params->period_size; driver->device_options.nb_buffers=params->buffer_size; driver->capture_frame_latency = params->capture_frame_latency; driver->playback_frame_latency = params->playback_frame_latency; driver->device_options.slave_mode=params->slave_mode; driver->device_options.snoop_mode=params->snoop_mode; driver->device_options.verbose=params->verbose_level; driver->device_info.nb_device_spec_strings=1; driver->device_info.device_spec_strings=calloc(1, sizeof(char *)); driver->device_info.device_spec_strings[0]=strdup(params->device_info); debugPrint(DEBUG_LEVEL_STARTUP, " Driver compiled on %s %s for FFADO %s (API version %d)", __DATE__, __TIME__, ffado_get_version(), ffado_get_api_version()); debugPrint(DEBUG_LEVEL_STARTUP, " Created driver %s", name); debugPrint(DEBUG_LEVEL_STARTUP, " period_size: %d", driver->period_size); debugPrint(DEBUG_LEVEL_STARTUP, " period_usecs: %d", driver->period_usecs); debugPrint(DEBUG_LEVEL_STARTUP, " sample rate: %d", driver->sample_rate); return (ffado_driver_t *) driver; } static void ffado_driver_delete (ffado_driver_t *driver) { unsigned int i; jack_driver_nt_finish ((jack_driver_nt_t *) driver); for (i=0; i < driver->device_info.nb_device_spec_strings; i++) { free (driver->device_info.device_spec_strings[i]); } free (driver->device_info.device_spec_strings); free (driver); } /* * dlopen plugin stuff */ const char driver_client_name[] = "firewire_pcm"; const jack_driver_desc_t * driver_get_descriptor () { jack_driver_desc_t * desc; jack_driver_param_desc_t * params; unsigned int i; desc = calloc (1, sizeof (jack_driver_desc_t)); strcpy (desc->name, "firewire"); desc->nparams = 11; params = calloc (desc->nparams, sizeof (jack_driver_param_desc_t)); desc->params = params; i = 0; strcpy (params[i].name, "device"); params[i].character = 'd'; params[i].type = JackDriverParamString; strcpy (params[i].value.str, "hw:0"); strcpy (params[i].short_desc, "The FireWire device to use."); strcpy (params[i].long_desc, "The FireWire device to use. Please consult the FFADO documentation for more info."); i++; strcpy (params[i].name, "period"); params[i].character = 'p'; params[i].type = JackDriverParamUInt; params[i].value.ui = 1024; strcpy (params[i].short_desc, "Frames per period"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "nperiods"); params[i].character = 'n'; params[i].type = JackDriverParamUInt; params[i].value.ui = 3; strcpy (params[i].short_desc, "Number of periods of playback latency"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "rate"); params[i].character = 'r'; params[i].type = JackDriverParamUInt; params[i].value.ui = 48000U; strcpy (params[i].short_desc, "Sample rate"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "capture"); params[i].character = 'i'; params[i].type = JackDriverParamUInt; params[i].value.ui = 1U; strcpy (params[i].short_desc, "Provide capture ports."); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "playback"); params[i].character = 'o'; params[i].type = JackDriverParamUInt; params[i].value.ui = 1U; strcpy (params[i].short_desc, "Provide playback ports."); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "input-latency"); params[i].character = 'I'; params[i].type = JackDriverParamUInt; params[i].value.ui = 0; strcpy (params[i].short_desc, "Extra input latency (frames)"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "output-latency"); params[i].character = 'O'; params[i].type = JackDriverParamUInt; params[i].value.ui = 0; strcpy (params[i].short_desc, "Extra output latency (frames)"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "slave"); params[i].character = 'x'; params[i].type = JackDriverParamUInt; params[i].value.ui = 0U; strcpy (params[i].short_desc, "Act as a BounceDevice slave"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "slave"); params[i].character = 'X'; params[i].type = JackDriverParamUInt; params[i].value.ui = 0U; strcpy (params[i].short_desc, "Operate in snoop mode"); strcpy (params[i].long_desc, params[i].short_desc); i++; strcpy (params[i].name, "verbose"); params[i].character = 'v'; params[i].type = JackDriverParamUInt; params[i].value.ui = 0U; strcpy (params[i].short_desc, "Verbose level for the firewire backend"); strcpy (params[i].long_desc, params[i].short_desc); return desc; } jack_driver_t * driver_initialize (jack_client_t *client, JSList * params) { jack_driver_t *driver; const JSList * node; const jack_driver_param_t * param; ffado_jack_settings_t cmlparams; char *device_name="hw:0"; cmlparams.period_size_set=0; cmlparams.sample_rate_set=0; cmlparams.buffer_size_set=0; /* default values */ cmlparams.period_size=1024; cmlparams.sample_rate=48000; cmlparams.buffer_size=3; cmlparams.playback_ports=1; cmlparams.capture_ports=1; cmlparams.playback_frame_latency=0; cmlparams.capture_frame_latency=0; cmlparams.slave_mode=0; cmlparams.snoop_mode=0; cmlparams.verbose_level=0; for (node = params; node; node = jack_slist_next (node)) { param = (jack_driver_param_t *) node->data; switch (param->character) { case 'd': device_name = strdup (param->value.str); break; case 'p': cmlparams.period_size = param->value.ui; cmlparams.period_size_set = 1; break; case 'n': cmlparams.buffer_size = param->value.ui; cmlparams.buffer_size_set = 1; break; case 'r': cmlparams.sample_rate = param->value.ui; cmlparams.sample_rate_set = 1; break; case 'i': cmlparams.capture_ports = param->value.ui; break; case 'o': cmlparams.playback_ports = param->value.ui; break; case 'I': cmlparams.capture_frame_latency = param->value.ui; break; case 'O': cmlparams.playback_frame_latency = param->value.ui; break; case 'x': cmlparams.slave_mode = param->value.ui; break; case 'X': cmlparams.snoop_mode = param->value.ui; break; case 'v': cmlparams.verbose_level = param->value.ui; break; } } // temporary cmlparams.device_info = device_name; driver=(jack_driver_t *)ffado_driver_new (client, "ffado_pcm", &cmlparams); return driver; } void driver_finish (jack_driver_t *driver) { ffado_driver_t *drv=(ffado_driver_t *) driver; // If jack hasn't called the detach method, do it now. As of jack 0.101.1 // the detach method was not being called explicitly on closedown, and // we need it to at least deallocate the iso resources. if (drv->dev != NULL) ffado_driver_detach(drv); ffado_driver_delete (drv); }