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jack2/linux/freebob/JackFreebobDriver.cpp

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  1. /*

  2. Copyright (C) 2001 Paul Davis

  3. Copyright (C) 2004 Grame

  4. Copyright (C) 2007 Pieter Palmers

  5. 

  6. This program is free software; you can redistribute it and/or modify

  7. it under the terms of the GNU General Public License as published by

  8. the Free Software Foundation; either version 2 of the License, or

  9. (at your option) any later version.

  10. 

  11. This program is distributed in the hope that it will be useful,

  12. but WITHOUT ANY WARRANTY; without even the implied warranty of

  13. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  14. GNU General Public License for more details.

  15. 

  16. You should have received a copy of the GNU General Public License

  17. along with this program; if not, write to the Free Software

  18. Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

  19. 

  20. */

  21. 

  22. #include <iostream>

  23. #include <unistd.h>

  24. 

  25. #include <math.h>

  26. #include <stdio.h>

  27. #include <memory.h>

  28. #include <unistd.h>

  29. #include <stdlib.h>

  30. #include <errno.h>

  31. #include <stdarg.h>

  32. #include <signal.h>

  33. #include <sys/types.h>

  34. #include <sys/time.h>

  35. #include <regex.h>

  36. #include <string.h>

  37. 

  38. #include "JackFreebobDriver.h"

  39. #include "JackEngineControl.h"

  40. #include "JackClientControl.h"

  41. #include "JackPort.h"

  42. #include "JackGraphManager.h"

  43. 

  44. namespace Jack

  45. {

  46. 

  47. #define jack_get_microseconds GetMicroSeconds

  48. 

  49. #define SAMPLE_MAX_24BIT  8388608.0f

  50. #define SAMPLE_MAX_16BIT  32768.0f

  51. 

  52. int

  53. JackFreebobDriver::freebob_driver_read (freebob_driver_t * driver, jack_nframes_t nframes)

  54. {

  55.     jack_default_audio_sample_t* buf = NULL;

  56.     freebob_sample_t nullbuffer[nframes];

  57.     void *addr_of_nullbuffer = (void *)nullbuffer;

  58. 

  59.     freebob_streaming_stream_type stream_type;

  60. 

  61.     printEnter();

  62. 

  63.     // make sure all buffers have a valid buffer if not connected

  64.     for (int i = 0; i < driver->capture_nchannels; i++) {

  65.         stream_type = freebob_streaming_get_playback_stream_type(driver->dev, i);

  66.         if (stream_type == freebob_stream_type_audio) {

  67.             freebob_streaming_set_playback_stream_buffer(driver->dev, i,

  68.                     (char *)(nullbuffer), freebob_buffer_type_float);

  69.         } else if (stream_type == freebob_stream_type_midi) {

  70.             // these should be read/written with the per-stream functions

  71.         } else {	// empty other buffers without doing something with them

  72.             freebob_streaming_set_playback_stream_buffer(driver->dev, i,

  73.                     (char *)(nullbuffer), freebob_buffer_type_uint24);

  74.         }

  75.     }

  76. 

  77.     for (int i = 0; i < fCaptureChannels; i++) {

  78.         stream_type = freebob_streaming_get_capture_stream_type(driver->dev, i);

  79.         if (stream_type == freebob_stream_type_audio) {

  80. 

  81.             if (fGraphManager->GetConnectionsNum(fCapturePortList[i]) > 0) {

  82.                 buf = (jack_default_audio_sample_t*)fGraphManager->GetBuffer(fCapturePortList[i],  nframes);

  83. 

  84.                 if (!buf) {

  85.                     buf = (jack_default_audio_sample_t *)addr_of_nullbuffer;

  86.                 }

  87. 

  88.                 freebob_streaming_set_capture_stream_buffer(driver->dev, i, (char *)(buf), freebob_buffer_type_float);

  89.             }

  90.         } else if (stream_type == freebob_stream_type_midi) {

  91.             // these should be read/written with the per-stream functions

  92.         } else {	// empty other buffers without doing something with them

  93.             freebob_streaming_set_capture_stream_buffer(driver->dev, i, (char *)(nullbuffer), freebob_buffer_type_uint24);

  94.         }

  95. 

  96.     }

  97. 

  98.     // now transfer the buffers

  99.     freebob_streaming_transfer_capture_buffers(driver->dev);

  100.     printExit();

  101.     return 0;

  102. }

  103. 

  104. int

  105. JackFreebobDriver::freebob_driver_write (freebob_driver_t * driver, jack_nframes_t nframes)

  106. {

  107.     channel_t chn;

  108.     JSList *node;

  109.     jack_default_audio_sample_t* buf = NULL;

  110. 	jack_port_t *port;

  111. 

  112.     freebob_streaming_stream_type stream_type;

  113. 

  114.     freebob_sample_t nullbuffer[nframes];

  115.     void *addr_of_nullbuffer = (void*)nullbuffer;

  116. 

  117.     memset(&nullbuffer, 0, nframes*sizeof(freebob_sample_t));

  118. 

  119.     printEnter();

  120.     driver->process_count++;

  121.     assert(driver->dev);

  122. 

  123.     // make sure all buffers output silence if not connected

  124.     for (int i = 0; i < driver->playback_nchannels; i++) {

  125.         stream_type = freebob_streaming_get_playback_stream_type(driver->dev, i);

  126.         if (stream_type == freebob_stream_type_audio) {

  127.             freebob_streaming_set_playback_stream_buffer(driver->dev, i,

  128.                     (char *)(nullbuffer), freebob_buffer_type_float);

  129.         } else if (stream_type == freebob_stream_type_midi) {

  130.             // these should be read/written with the per-stream functions

  131.         } else { // empty other buffers without doing something with them

  132.             freebob_streaming_set_playback_stream_buffer(driver->dev, i,

  133.                     (char *)(nullbuffer), freebob_buffer_type_uint24);

  134.         }

  135.     }

  136. 

  137.     for (int i = 0; i < fPlaybackChannels; i++) {

  138.         stream_type = freebob_streaming_get_playback_stream_type(driver->dev, i);

  139.         if (stream_type == freebob_stream_type_audio) {

  140.             // Ouput ports

  141.             if (fGraphManager->GetConnectionsNum(fPlaybackPortList[i]) > 0) {

  142.                 buf = (jack_default_audio_sample_t*)fGraphManager->GetBuffer(fPlaybackPortList[i], nframes);

  143. 				if (!buf) {

  144.                     buf = (jack_default_audio_sample_t *)addr_of_nullbuffer;

  145.                 }

  146.                 freebob_streaming_set_playback_stream_buffer(driver->dev, i, (char *)(buf), freebob_buffer_type_float);

  147.             }

  148.         }

  149.     }

  150. 

  151.     freebob_streaming_transfer_playback_buffers(driver->dev);

  152.     printExit();

  153.     return 0;

  154. }

  155. 

  156. jack_nframes_t

  157. JackFreebobDriver::freebob_driver_wait (freebob_driver_t *driver, int extra_fd, int *status,

  158.                                         float *delayed_usecs)

  159. {

  160.     int nframes;

  161.     jack_time_t wait_enter;

  162.     jack_time_t wait_ret;

  163. 

  164.     printEnter();

  165. 

  166.     wait_enter = jack_get_microseconds ();

  167.     if (wait_enter > driver->wait_next) {

  168.         /*

  169.         	* This processing cycle was delayed past the

  170.         	* next due interrupt!  Do not account this as

  171.         	* a wakeup delay:

  172.         	*/

  173.         driver->wait_next = 0;

  174.         driver->wait_late++;

  175.     }

  176. // *status = -2; interrupt

  177. // *status = -3; timeout

  178. // *status = -4; extra FD

  179. 

  180.     nframes = freebob_streaming_wait(driver->dev);

  181. 

  182.     wait_ret = jack_get_microseconds ();

  183. 

  184.     if (driver->wait_next && wait_ret > driver->wait_next) {

  185.         *delayed_usecs = wait_ret - driver->wait_next;

  186.     }

  187.     driver->wait_last = wait_ret;

  188.     driver->wait_next = wait_ret + driver->period_usecs;

  189. // 	driver->engine->transport_cycle_start (driver->engine, wait_ret);

  190. 

  191.     if (nframes < 0) {

  192.         *status = 0;

  193.         return 0;

  194.     }

  195. 

  196.     *status = 0;

  197.     fLastWaitUst = wait_ret;

  198. 

  199.     // FIXME: this should do something more usefull

  200.     *delayed_usecs = 0;

  201.     printExit();

  202.     return nframes - nframes % driver->period_size;

  203. }

  204. 

  205. int

  206. JackFreebobDriver::freebob_driver_start (freebob_driver_t *driver)

  207. {

  208.     int retval = 0;

  209. 

  210. #ifdef FREEBOB_DRIVER_WITH_MIDI

  211.     if (driver->midi_handle) {

  212.         if ((retval = freebob_driver_midi_start(driver->midi_handle))) {

  213.             printError("Could not start MIDI threads");

  214.             return retval;

  215.         }

  216.     }

  217. #endif

  218. 

  219.     if ((retval = freebob_streaming_start(driver->dev))) {

  220.         printError("Could not start streaming threads");

  221. #ifdef FREEBOB_DRIVER_WITH_MIDI

  222.         if (driver->midi_handle) {

  223.             freebob_driver_midi_stop(driver->midi_handle);

  224.         }

  225. #endif

  226.         return retval;

  227.     }

  228. 

  229.     return 0;

  230. }

  231. 

  232. int

  233. JackFreebobDriver::freebob_driver_stop (freebob_driver_t *driver)

  234. {

  235.     int retval = 0;

  236. 

  237. #ifdef FREEBOB_DRIVER_WITH_MIDI

  238.     if (driver->midi_handle) {

  239.         if ((retval = freebob_driver_midi_stop(driver->midi_handle))) {

  240.             printError("Could not stop MIDI threads");

  241.             return retval;

  242.         }

  243.     }

  244. #endif

  245.     if ((retval = freebob_streaming_stop(driver->dev))) {

  246.         printError("Could not stop streaming threads");

  247.         return retval;

  248.     }

  249. 

  250.     return 0;

  251. }

  252. 

  253. int

  254. JackFreebobDriver::freebob_driver_restart (freebob_driver_t *driver)

  255. {

  256.     if (Stop())

  257.         return -1;

  258.     return Start();

  259. }

  260. 

  261. int

  262. JackFreebobDriver::SetBufferSize (jack_nframes_t nframes)

  263. {

  264.     printError("Buffer size change requested but not supported!!!");

  265. 

  266.     /*

  267.      driver->period_size = nframes; 

  268.     driver->period_usecs =

  269.     	(jack_time_t) floor ((((float) nframes) / driver->sample_rate)

  270.     			     * 1000000.0f);

  271.     */

  272. 

  273.     /* tell the engine to change its buffer size */

  274.     //driver->engine->set_buffer_size (driver->engine, nframes);

  275. 

  276.     return -1; // unsupported

  277. }

  278. 

  279. typedef void (*JackDriverFinishFunction) (jack_driver_t *);

  280. 

  281. freebob_driver_t *

  282. JackFreebobDriver::freebob_driver_new (char *name,

  283.                                        freebob_jack_settings_t *params)

  284. {

  285.     freebob_driver_t *driver;

  286. 

  287.     assert(params);

  288. 

  289.     if (freebob_get_api_version() != 1) {

  290.         printMessage("Incompatible libfreebob version! (%s)", freebob_get_version());

  291.         return NULL;

  292.     }

  293. 

  294.     printMessage("Starting Freebob backend (%s)", freebob_get_version());

  295. 

  296.     driver = (freebob_driver_t*)calloc (1, sizeof (freebob_driver_t));

  297. 

  298.     /* Setup the jack interfaces */

  299.     jack_driver_nt_init ((jack_driver_nt_t *) driver);

  300. 

  301.     /*	driver->nt_attach    = (JackDriverNTAttachFunction)   freebob_driver_attach;

  302.     	driver->nt_detach    = (JackDriverNTDetachFunction)   freebob_driver_detach;

  303.     	driver->nt_start     = (JackDriverNTStartFunction)    freebob_driver_start;

  304.     	driver->nt_stop      = (JackDriverNTStopFunction)     freebob_driver_stop;

  305.     	driver->nt_run_cycle = (JackDriverNTRunCycleFunction) freebob_driver_run_cycle;

  306.     	driver->null_cycle   = (JackDriverNullCycleFunction)  freebob_driver_null_cycle;

  307.     	driver->write        = (JackDriverReadFunction)       freebob_driver_write;

  308.     	driver->read         = (JackDriverReadFunction)       freebob_driver_read;

  309.     	driver->nt_bufsize   = (JackDriverNTBufSizeFunction)  freebob_driver_bufsize;

  310. 	*/

  311. 

  312.     /* copy command line parameter contents to the driver structure */

  313.     memcpy(&driver->settings, params, sizeof(freebob_jack_settings_t));

  314. 

  315.     /* prepare all parameters */

  316.     driver->sample_rate = params->sample_rate;

  317.     driver->period_size = params->period_size;

  318.     fLastWaitUst = 0;

  319. 

  320.     driver->period_usecs =

  321.         (jack_time_t) floor ((((float) driver->period_size) * 1000000.0f) / driver->sample_rate);

  322. 

  323. // 	driver->client = client;

  324.     driver->engine = NULL;

  325. 

  326.     memset(&driver->device_options, 0, sizeof(driver->device_options));

  327.     driver->device_options.sample_rate = params->sample_rate;

  328.     driver->device_options.period_size = params->period_size;

  329.     driver->device_options.nb_buffers = params->buffer_size;

  330.     driver->device_options.node_id = params->node_id;

  331.     driver->device_options.port = params->port;

  332.     driver->capture_frame_latency = params->capture_frame_latency;

  333.     driver->playback_frame_latency = params->playback_frame_latency;

  334. 

  335.     if (!params->capture_ports) {

  336.         driver->device_options.directions |= FREEBOB_IGNORE_CAPTURE;

  337.     }

  338. 

  339.     if (!params->playback_ports) {

  340.         driver->device_options.directions |= FREEBOB_IGNORE_PLAYBACK;

  341.     }

  342. 

  343.     debugPrint(DEBUG_LEVEL_STARTUP, " Driver compiled on %s %s", __DATE__, __TIME__);

  344.     debugPrint(DEBUG_LEVEL_STARTUP, " Created driver %s", name);

  345.     debugPrint(DEBUG_LEVEL_STARTUP, "            period_size: %d", driver->period_size);

  346.     debugPrint(DEBUG_LEVEL_STARTUP, "            period_usecs: %d", driver->period_usecs);

  347.     debugPrint(DEBUG_LEVEL_STARTUP, "            sample rate: %d", driver->sample_rate);

  348. 

  349.     return (freebob_driver_t *) driver;

  350. }

  351. 

  352. void

  353. JackFreebobDriver::freebob_driver_delete (freebob_driver_t *driver)

  354. {

  355. 	free (driver);

  356. }

  357. 

  358. #ifdef FREEBOB_DRIVER_WITH_MIDI

  359. /*

  360.  * MIDI support

  361.  */

  362. 

  363. // the thread that will queue the midi events from the seq to the stream buffers

  364. 

  365. void *

  366. JackFreebobDriver::freebob_driver_midi_queue_thread(void *arg)

  367. {

  368.     freebob_driver_midi_handle_t *m = (freebob_driver_midi_handle_t *)arg;

  369.     assert(m);

  370.     snd_seq_event_t *ev;

  371.     unsigned char work_buffer[MIDI_TRANSMIT_BUFFER_SIZE];

  372.     int bytes_to_send;

  373.     int b;

  374.     int i;

  375. 

  376.     printMessage("MIDI queue thread started");

  377. 

  378.     while (1) {

  379.         // get next event, if one is present

  380.         while ((snd_seq_event_input(m->seq_handle, &ev) > 0)) {

  381.             // get the port this event is originated from

  382.             freebob_midi_port_t *port = NULL;

  383.             for (i = 0;i < m->nb_output_ports;i++) {

  384.                 if (m->output_ports[i]->seq_port_nr == ev->dest.port) {

  385.                     port = m->output_ports[i];

  386.                     break;

  387.                 }

  388.             }

  389. 

  390.             if (!port) {

  391.                 printError(" Could not find target port for event: dst=%d src=%d", ev->dest.port, ev->source.port);

  392. 				break;

  393.             }

  394. 

  395.             // decode it to the work buffer

  396.             if ((bytes_to_send = snd_midi_event_decode ( port->parser,

  397.                                  work_buffer,

  398.                                  MIDI_TRANSMIT_BUFFER_SIZE,

  399.                                  ev)) < 0) { // failed

  400.                 printError(" Error decoding event for port %d (errcode=%d)", port->seq_port_nr, bytes_to_send);

  401.                 bytes_to_send = 0;

  402.                 //return -1;

  403.             }

  404. 

  405.             for (b = 0;b < bytes_to_send;b++) {

  406.                 freebob_sample_t tmp_event = work_buffer[b];

  407.                 if (freebob_streaming_write(m->dev, port->stream_nr, &tmp_event, 1) < 1) {

  408.                     printError(" Midi send buffer overrun");

  409.                 }

  410.             }

  411.         }

  412. 

  413.         // sleep for some time

  414.         usleep(MIDI_THREAD_SLEEP_TIME_USECS);

  415.     }

  416.     return NULL;

  417. }

  418. 

  419. // the dequeue thread (maybe we need one thread per stream)

  420. void *

  421. JackFreebobDriver::freebob_driver_midi_dequeue_thread (void *arg)

  422. {

  423.     freebob_driver_midi_handle_t *m = (freebob_driver_midi_handle_t *)arg;

  424. 

  425.     int i;

  426.     int s;

  427.     int samples_read;

  428. 

  429.     assert(m);

  430. 

  431.     while (1) {

  432.         // read incoming events

  433. 

  434.         for (i = 0;i < m->nb_input_ports;i++) {

  435.             unsigned int buff[64];

  436. 			freebob_midi_port_t *port = m->input_ports[i];

  437.             if (!port) {

  438.                 printError(" something went wrong when setting up the midi input port map (%d)", i);

  439.             }

  440. 

  441.             do {

  442.                 samples_read = freebob_streaming_read(m->dev, port->stream_nr, buff, 64);

  443. 

  444.                 for (s = 0;s < samples_read;s++) {

  445.                     unsigned int *byte = (buff + s) ;

  446.                     snd_seq_event_t ev;

  447.                     if ((snd_midi_event_encode_byte(port->parser, (*byte) & 0xFF, &ev)) > 0) {

  448.                         // a midi message is complete, send it out to ALSA

  449.                         snd_seq_ev_set_subs(&ev);

  450.                         snd_seq_ev_set_direct(&ev);

  451.                         snd_seq_ev_set_source(&ev, port->seq_port_nr);

  452.                         snd_seq_event_output_direct(port->seq_handle, &ev);

  453.                     }

  454.                 }

  455.             } while (samples_read > 0);

  456.         }

  457. 

  458.         // sleep for some time

  459.         usleep(MIDI_THREAD_SLEEP_TIME_USECS);

  460.     }

  461.     return NULL;

  462. }

  463. 

  464. freebob_driver_midi_handle_t *

  465. JackFreebobDriver::freebob_driver_midi_init(freebob_driver_t *driver)

  466. {

  467.     char buf[256];

  468.     channel_t chn;

  469.     int nchannels;

  470.     int i = 0;

  471. 

  472.     freebob_device_t *dev = driver->dev;

  473.     assert(dev);

  474. 

  475.     freebob_driver_midi_handle_t *m = calloc(1, sizeof(freebob_driver_midi_handle_t));

  476.     if (!m) {

  477.         printError("not enough memory to create midi structure");

  478.         return NULL;

  479.     }

  480. 

  481.     if (snd_seq_open(&m->seq_handle, "default", SND_SEQ_OPEN_DUPLEX, SND_SEQ_NONBLOCK) < 0) {

  482.         printError("Error opening ALSA sequencer.");

  483.         free(m);

  484.         return NULL;

  485.     }

  486. 

  487.     snd_seq_set_client_name(m->seq_handle, "FreeBoB Jack MIDI");

  488. 

  489.     // find out the number of midi in/out ports we need to setup

  490.     nchannels = freebob_streaming_get_nb_capture_streams(dev);

  491.     m->nb_input_ports = 0;

  492. 

  493.     for (chn = 0; chn < nchannels; chn++) {

  494.         if (freebob_streaming_get_capture_stream_type(dev, chn) == freebob_stream_type_midi) {

  495.             m->nb_input_ports++;

  496.         }

  497.     }

  498. 

  499.     m->input_ports = calloc(m->nb_input_ports, sizeof(freebob_midi_port_t *));

  500.     if (!m->input_ports) {

  501.         printError("not enough memory to create midi structure");

  502.         free(m);

  503.         return NULL;

  504.     }

  505. 

  506.     i = 0;

  507.     for (chn = 0; chn < nchannels; chn++) {

  508.         if (freebob_streaming_get_capture_stream_type(dev, chn) == freebob_stream_type_midi) {

  509.             m->input_ports[i] = calloc(1, sizeof(freebob_midi_port_t));

  510.             if (!m->input_ports[i]) {

  511.                 // fixme

  512.                 printError("Could not allocate memory for seq port");

  513.                 continue;

  514.             }

  515. 

  516.             freebob_streaming_get_capture_stream_name(dev, chn, buf, sizeof(buf) - 1);

  517.             printMessage("Register MIDI IN port %s", buf);

  518. 

  519.             m->input_ports[i]->seq_port_nr = snd_seq_create_simple_port(m->seq_handle, buf,

  520.                                              SND_SEQ_PORT_CAP_READ | SND_SEQ_PORT_CAP_SUBS_READ,

  521.                                              SND_SEQ_PORT_TYPE_MIDI_GENERIC);

  522. 

  523.             if (m->input_ports[i]->seq_port_nr < 0) {

  524.                 printError("Could not create seq port");

  525.                 m->input_ports[i]->stream_nr = -1;

  526.                 m->input_ports[i]->seq_port_nr = -1;

  527.             } else {

  528.                 m->input_ports[i]->stream_nr = chn;

  529.                 m->input_ports[i]->seq_handle = m->seq_handle;

  530.                 if (snd_midi_event_new  ( ALSA_SEQ_BUFF_SIZE, &(m->input_ports[i]->parser)) < 0) {

  531.                     printError("could not init parser for MIDI IN port %d", i);

  532.                     m->input_ports[i]->stream_nr = -1;

  533.                     m->input_ports[i]->seq_port_nr = -1;

  534.                 }

  535.             }

  536. 

  537.             i++;

  538.         }

  539.     }

  540. 

  541.     // playback

  542.     nchannels = freebob_streaming_get_nb_playback_streams(dev);

  543. 

  544.     m->nb_output_ports = 0;

  545. 

  546.     for (chn = 0; chn < nchannels; chn++) {

  547.         if (freebob_streaming_get_playback_stream_type(dev, chn) == freebob_stream_type_midi) {

  548.             m->nb_output_ports++;

  549.         }

  550.     }

  551. 

  552.     m->output_ports = calloc(m->nb_output_ports, sizeof(freebob_midi_port_t *));

  553.     if (!m->output_ports) {

  554.         printError("not enough memory to create midi structure");

  555.         for (i = 0; i < m->nb_input_ports; i++) {

  556.             free(m->input_ports[i]);

  557.         }

  558.         free(m->input_ports);

  559.         free(m);

  560.         return NULL;

  561.     }

  562. 

  563.     i = 0;

  564.     for (chn = 0; chn < nchannels; chn++) {

  565.         if (freebob_streaming_get_playback_stream_type(dev, chn) == freebob_stream_type_midi) {

  566.             m->output_ports[i] = calloc(1, sizeof(freebob_midi_port_t));

  567.             if (!m->output_ports[i]) {

  568.                 // fixme

  569.                 printError("Could not allocate memory for seq port");

  570.                 continue;

  571.             }

  572. 

  573.             freebob_streaming_get_playback_stream_name(dev, chn, buf, sizeof(buf) - 1);

  574.             printMessage("Register MIDI OUT port %s", buf);

  575. 

  576.             m->output_ports[i]->seq_port_nr = snd_seq_create_simple_port(m->seq_handle, buf,

  577.                                               SND_SEQ_PORT_CAP_WRITE | SND_SEQ_PORT_CAP_SUBS_WRITE,

  578.                                               SND_SEQ_PORT_TYPE_MIDI_GENERIC);

  579. 

  580.             if (m->output_ports[i]->seq_port_nr < 0) {

  581.                 printError("Could not create seq port");

  582.                 m->output_ports[i]->stream_nr = -1;

  583.                 m->output_ports[i]->seq_port_nr = -1;

  584.             } else {

  585.                 m->output_ports[i]->stream_nr = chn;

  586.                 m->output_ports[i]->seq_handle = m->seq_handle;

  587.                 if (snd_midi_event_new  ( ALSA_SEQ_BUFF_SIZE, &(m->output_ports[i]->parser)) < 0) {

  588.                     printError("could not init parser for MIDI OUT port %d", i);

  589.                     m->output_ports[i]->stream_nr = -1;

  590.                     m->output_ports[i]->seq_port_nr = -1;

  591.                 }

  592.             }

  593. 

  594.             i++;

  595.         }

  596.     }

  597. 

  598.     m->dev = dev;

  599.     m->driver = driver;

  600.     return m;

  601. }

  602. 

  603. int

  604. JackFreebobDriver::freebob_driver_midi_start (freebob_driver_midi_handle_t *m)

  605. {

  606.     assert(m);

  607.     // start threads

  608. 

  609.     m->queue_thread_realtime = (m->driver->engine->control->real_time ? 1 : 0);

  610.     m->queue_thread_priority =

  611.         m->driver->engine->control->client_priority +

  612.         FREEBOB_RT_PRIORITY_MIDI_RELATIVE;

  613. 

  614.     if (m->queue_thread_priority > 98) {

  615.         m->queue_thread_priority = 98;

  616.     }

  617.     if (m->queue_thread_realtime) {

  618.         printMessage("MIDI threads running with Realtime scheduling, priority %d",

  619.                      m->queue_thread_priority);

  620.     } else {

  621.         printMessage("MIDI threads running without Realtime scheduling");

  622.     }

  623. 

  624.     if (jack_client_create_thread(NULL, &m->queue_thread, m->queue_thread_priority, m->queue_thread_realtime, freebob_driver_midi_queue_thread, (void *)m)) {

  625.         printError(" cannot create midi queueing thread");

  626.         return -1;

  627.     }

  628. 

  629.     if (jack_client_create_thread(NULL, &m->dequeue_thread, m->queue_thread_priority, m->queue_thread_realtime, freebob_driver_midi_dequeue_thread, (void *)m)) {

  630.         printError(" cannot create midi dequeueing thread");

  631.         return -1;

  632.     }

  633.     return 0;

  634. }

  635. 

  636. int

  637. JackFreebobDriver::freebob_driver_midi_stop (freebob_driver_midi_handle_t *m)

  638. {

  639.     assert(m);

  640. 

  641.     pthread_cancel (m->queue_thread);

  642.     pthread_join (m->queue_thread, NULL);

  643. 

  644.     pthread_cancel (m->dequeue_thread);

  645.     pthread_join (m->dequeue_thread, NULL);

  646.     return 0;

  647. }

  648. 

  649. void

  650. JackFreebobDriver::freebob_driver_midi_finish (freebob_driver_midi_handle_t *m)

  651. {

  652.     assert(m);

  653. 

  654.     int i;

  655.     // TODO: add state info here, if not stopped then stop

  656. 

  657.     for (i = 0;i < m->nb_input_ports;i++) {

  658.         free(m->input_ports[i]);

  659.     }

  660.     free(m->input_ports);

  661. 

  662.     for (i = 0;i < m->nb_output_ports;i++) {

  663.         free(m->output_ports[i]);

  664.     }

  665.     free(m->output_ports);

  666.     free(m);

  667. }

  668. #endif

  669. 

  670. int JackFreebobDriver::Attach()

  671. {

  672.     JackPort* port;

  673.     int port_index;

  674.     unsigned long port_flags;

  675. 

  676.     char buf[JACK_PORT_NAME_SIZE];

  677.     char portname[JACK_PORT_NAME_SIZE];

  678. 

  679.     freebob_driver_t* driver = (freebob_driver_t*)fDriver;

  680. 

  681.     JackLog("JackFreebobDriver::Attach fBufferSize %ld fSampleRate %ld\n", fEngineControl->fBufferSize, fEngineControl->fSampleRate);

  682. 

  683.     g_verbose = (fEngineControl->fVerbose ? 1 : 0);

  684.     driver->device_options.verbose = (fEngineControl->fVerbose ? 1 : 0);

  685. 

  686.     /* packetizer thread options */

  687.     driver->device_options.realtime = (fEngineControl->fRealTime ? 1 : 0);

  688. 

  689.     driver->device_options.packetizer_priority = fEngineControl->fPriority +

  690.             FREEBOB_RT_PRIORITY_PACKETIZER_RELATIVE;

  691.     if (driver->device_options.packetizer_priority > 98) {

  692.         driver->device_options.packetizer_priority = 98;

  693.     }

  694. 

  695.     // initialize the thread

  696.     driver->dev = freebob_streaming_init(&driver->device_info, driver->device_options);

  697. 

  698.     if (!driver->dev) {

  699.         printError("FREEBOB: Error creating virtual device");

  700.         return -1;

  701.     }

  702. 

  703. #ifdef FREEBOB_DRIVER_WITH_MIDI

  704.     driver->midi_handle = freebob_driver_midi_init(driver);

  705.     if (!driver->midi_handle) {

  706.         printError("-----------------------------------------------------------");

  707.         printError("Error creating midi device!");

  708.         printError("FreeBob will run without MIDI support.");

  709.         printError("Consult the above error messages to solve the problem. ");

  710.         printError("-----------------------------------------------------------\n\n");

  711.     }

  712. #endif

  713. 

  714.     if (driver->device_options.realtime) {

  715.         printMessage("Streaming thread running with Realtime scheduling, priority %d",

  716.                      driver->device_options.packetizer_priority);

  717.     } else {

  718.         printMessage("Streaming thread running without Realtime scheduling");

  719.     }

  720. 

  721.     /* ports */

  722. 

  723.     // capture

  724.     port_flags = JackPortIsOutput | JackPortIsPhysical | JackPortIsTerminal;

  725. 

  726.     driver->capture_nchannels = freebob_streaming_get_nb_capture_streams(driver->dev);

  727.     driver->capture_nchannels_audio = 0;

  728. 

  729.     for (unsigned int i = 0; i < driver->capture_nchannels; i++) {

  730. 

  731.         freebob_streaming_get_capture_stream_name(driver->dev, i, portname, sizeof(portname) - 1);

  732.         snprintf(buf, sizeof(buf) - 1, "%s:%s", fClientControl->fName, portname);

  733. 

  734.         if (freebob_streaming_get_capture_stream_type(driver->dev, i) != freebob_stream_type_audio) {

  735.             printMessage ("Don't register capture port %s", buf);

  736.         } else {

  737.             printMessage ("Registering capture port %s", buf);

  738. 

  739.             if ((port_index = fGraphManager->AllocatePort(fClientControl->fRefNum, buf, (JackPortFlags)port_flags)) == NO_PORT) {

  740.                 jack_error("driver: cannot register port for %s", buf);

  741.                 return -1;

  742.             }

  743.             port = fGraphManager->GetPort(port_index);

  744.             port->SetLatency(driver->period_size + driver->capture_frame_latency);

  745.             fCapturePortList[i] = port_index;

  746.             JackLog("JackFreebobDriver::Attach fCapturePortList[i] %ld \n", port_index);

  747.             driver->capture_nchannels_audio++;

  748.         }

  749.     }

  750. 

  751.     // playback

  752.     port_flags = JackPortIsInput | JackPortIsPhysical | JackPortIsTerminal;

  753. 

  754.     driver->playback_nchannels = freebob_streaming_get_nb_playback_streams(driver->dev);

  755.     driver->playback_nchannels_audio = 0;

  756. 

  757.     for (int i = 0; i < driver->playback_nchannels; i++) {

  758. 

  759.         freebob_streaming_get_playback_stream_name(driver->dev, i, portname, sizeof(portname) - 1);

  760.         snprintf(buf, sizeof(buf) - 1, "%s:%s", fClientControl->fName, portname);

  761. 

  762.         if (freebob_streaming_get_playback_stream_type(driver->dev, i) != freebob_stream_type_audio) {

  763.             printMessage ("Don't register playback port %s", buf);

  764.         } else {

  765.             printMessage ("Registering playback port %s", buf);

  766.             if ((port_index = fGraphManager->AllocatePort(fClientControl->fRefNum, buf, (JackPortFlags)port_flags)) == NO_PORT) {

  767.                 jack_error("driver: cannot register port for %s", buf);

  768.                 return -1;

  769.             }

  770.             port = fGraphManager->GetPort(port_index);

  771.             port->SetLatency((driver->period_size * (driver->device_options.nb_buffers - 1)) + driver->playback_frame_latency);

  772.             fPlaybackPortList[i] = port_index;

  773.             JackLog("JackFreebobDriver::Attach fPlaybackPortList[i] %ld \n", port_index);

  774.             driver->playback_nchannels_audio++;

  775.         }

  776.     }

  777. 

  778.     fCaptureChannels = driver->capture_nchannels_audio;

  779.     fPlaybackChannels = driver->playback_nchannels_audio;

  780. 

  781.     assert(fCaptureChannels < PORT_NUM);

  782.     assert(fPlaybackChannels < PORT_NUM);

  783. 

  784.     // this makes no sense...

  785.     assert(fCaptureChannels + fPlaybackChannels > 0);

  786.     return 0;

  787. }

  788. 

  789. int JackFreebobDriver::Detach()

  790. {

  791.     freebob_driver_t* driver = (freebob_driver_t*)fDriver;

  792.     JackLog("JackFreebobDriver::Detach\n");

  793. 

  794.     // finish the libfreebob streaming

  795.     freebob_streaming_finish(driver->dev);

  796.     driver->dev = NULL;

  797. 

  798. #ifdef FREEBOB_DRIVER_WITH_MIDI

  799.     if (driver->midi_handle) {

  800.         freebob_driver_midi_finish(driver->midi_handle);

  801.     }

  802.     driver->midi_handle = NULL;

  803. #endif

  804. 

  805. 	return JackAudioDriver::Detach();  // Generic JackAudioDriver Detach

  806. }

  807. 

  808. int JackFreebobDriver::Open(freebob_jack_settings_t *params)

  809. {

  810.     // Generic JackAudioDriver Open

  811.     if (JackAudioDriver::Open(

  812.                 params->period_size, params->sample_rate,

  813.                 params->playback_ports, params->playback_ports,

  814.                 0, 0, 0, "", "",

  815.                 params->capture_frame_latency, params->playback_frame_latency) != 0) {

  816.         return -1;

  817.     }

  818. 

  819.     fDriver = (jack_driver_t *)freebob_driver_new ("freebob_pcm", params);

  820. 

  821.     if (fDriver) {

  822.         // FreeBoB driver may have changed the in/out values

  823.         fCaptureChannels = ((freebob_driver_t *)fDriver)->capture_nchannels_audio;

  824.         fPlaybackChannels = ((freebob_driver_t *)fDriver)->playback_nchannels_audio;

  825.         return 0;

  826.     } else {

  827.         return -1;

  828.     }

  829. }

  830. 

  831. int JackFreebobDriver::Close()

  832. {

  833.     JackAudioDriver::Close();

  834.     freebob_driver_delete((freebob_driver_t*)fDriver);

  835.     return 0;

  836. }

  837. 

  838. int JackFreebobDriver::Start()

  839. {

  840.     return freebob_driver_start((freebob_driver_t *)fDriver);

  841. }

  842. 

  843. int JackFreebobDriver::Stop()

  844. {

  845.     return freebob_driver_stop((freebob_driver_t *)fDriver);

  846. }

  847. 

  848. int JackFreebobDriver::Read()

  849. {

  850.     printEnter();

  851. 

  852.     /* Taken from freebob_driver_run_cycle */

  853.     freebob_driver_t* driver = (freebob_driver_t*)fDriver;

  854.     int wait_status = 0;

  855.     float delayed_usecs = 0.0;

  856. 

  857.     jack_nframes_t nframes = freebob_driver_wait (driver, -1, &wait_status,

  858.                              &delayed_usecs);

  859. 

  860.     if ((wait_status < 0)) {

  861.         printError( "wait status < 0! (= %d)", wait_status);

  862.         return -1;

  863.     }

  864. 

  865.     if (nframes == 0) {

  866. 

  867.         /* we detected an xrun and restarted: notify

  868.          * clients about the delay. 

  869.          */

  870.         //engine->delay (engine, delayed_usecs);

  871.         JackLog("FreeBoB XRun \n");

  872.         //NotifyXRun(jack_get_microseconds());

  873.         NotifyXRun(fLastWaitUst);

  874.         //return 0;

  875.         return -1;

  876.     }

  877. 

  878.     //fLastWaitUst = GetMicroSeconds(); // Take callback date here

  879.     if (nframes != fEngineControl->fBufferSize)

  880.         JackLog("JackFreebobDriver::Read nframes = %ld\n", nframes);

  881. 

  882.     //return engine->run_cycle (engine, nframes, delayed_usecs);

  883.     fDelayedUst = (jack_time_t)delayed_usecs;

  884.     printExit();

  885.     return freebob_driver_read((freebob_driver_t *)fDriver, fEngineControl->fBufferSize);

  886. }

  887. 

  888. int JackFreebobDriver::Write()

  889. {

  890.     printEnter();

  891. 

  892.     //JackLog("write\n");

  893.     int res = freebob_driver_write((freebob_driver_t *)fDriver, fEngineControl->fBufferSize);

  894.     jack_time_t write_time = GetMicroSeconds();

  895. 

  896.     /*

  897.     if (write_time > (fLastWaitUst - fDelayedUst) + fEngineControl->fPeriodUsecs) {

  898.     	JackLog("FreeBoB write XRun \n");

  899.     	NotifyXRun(write_time);

  900.     }

  901.     */

  902.     printExit();

  903.     return res;

  904. }

  905. 

  906. void

  907. JackFreebobDriver::jack_driver_init (jack_driver_t *driver)

  908. {

  909.     memset (driver, 0, sizeof (*driver));

  910. 

  911.     driver->attach = 0;

  912.     driver->detach = 0;

  913.     driver->write = 0;

  914.     driver->read = 0;

  915.     driver->null_cycle = 0;

  916.     driver->bufsize = 0;

  917.     driver->start = 0;

  918.     driver->stop = 0;

  919. }

  920. 

  921. void

  922. JackFreebobDriver::jack_driver_nt_init (jack_driver_nt_t * driver)

  923. {

  924.     memset (driver, 0, sizeof (*driver));

  925. 

  926.     jack_driver_init ((jack_driver_t *) driver);

  927. 

  928.     driver->attach = 0;

  929.     driver->detach = 0;

  930.     driver->bufsize = 0;

  931.     driver->stop = 0;

  932.     driver->start = 0;

  933. 

  934.     driver->nt_bufsize = 0;

  935.     driver->nt_start = 0;

  936.     driver->nt_stop = 0;

  937.     driver->nt_attach = 0;

  938.     driver->nt_detach = 0;

  939.     driver->nt_run_cycle = 0;

  940. }

  941. 

  942. } // end of namespace

  943. 

  944. #ifdef __cplusplus

  945. extern "C"

  946. {

  947. #endif

  948. 

  949.     const jack_driver_desc_t *

  950.     driver_get_descriptor () {

  951.         jack_driver_desc_t * desc;

  952.         jack_driver_param_desc_t * params;

  953.         unsigned int i;

  954. 

  955.         desc = (jack_driver_desc_t *)calloc (1, sizeof (jack_driver_desc_t));

  956. 

  957.         strcpy (desc->name, "freebob");

  958.         desc->nparams = 11;

  959. 

  960.         params = (jack_driver_param_desc_t *)calloc (desc->nparams, sizeof (jack_driver_param_desc_t));

  961.         desc->params = params;

  962. 

  963.         i = 0;

  964.         strcpy (params[i].name, "device");

  965.         params[i].character  = 'd';

  966.         params[i].type       = JackDriverParamString;

  967.         strcpy (params[i].value.str,  "hw:0");

  968.         strcpy (params[i].short_desc, "The FireWire device to use. Format is: 'hw:port[,node]'.");

  969.         strcpy (params[i].long_desc,  params[i].short_desc);

  970. 

  971.         i++;

  972.         strcpy (params[i].name, "period");

  973.         params[i].character  = 'p';

  974.         params[i].type       = JackDriverParamUInt;

  975.         params[i].value.ui   = 1024;

  976.         strcpy (params[i].short_desc, "Frames per period");

  977.         strcpy (params[i].long_desc, params[i].short_desc);

  978. 

  979.         i++;

  980.         strcpy (params[i].name, "nperiods");

  981.         params[i].character  = 'n';

  982.         params[i].type       = JackDriverParamUInt;

  983.         params[i].value.ui   = 3;

  984.         strcpy (params[i].short_desc, "Number of periods of playback latency");

  985.         strcpy (params[i].long_desc, params[i].short_desc);

  986. 

  987.         i++;

  988.         strcpy (params[i].name, "rate");

  989.         params[i].character  = 'r';

  990.         params[i].type       = JackDriverParamUInt;

  991.         params[i].value.ui   = 48000U;

  992.         strcpy (params[i].short_desc, "Sample rate");

  993.         strcpy (params[i].long_desc, params[i].short_desc);

  994. 

  995.         i++;

  996.         strcpy (params[i].name, "capture");

  997.         params[i].character  = 'C';

  998.         params[i].type       = JackDriverParamBool;

  999.         params[i].value.i    = 0;

  1000.         strcpy (params[i].short_desc, "Provide capture ports.");

  1001.         strcpy (params[i].long_desc, params[i].short_desc);

  1002. 

  1003.         i++;

  1004.         strcpy (params[i].name, "playback");

  1005.         params[i].character  = 'P';

  1006.         params[i].type       = JackDriverParamBool;

  1007.         params[i].value.i    = 0;

  1008.         strcpy (params[i].short_desc, "Provide playback ports.");

  1009.         strcpy (params[i].long_desc, params[i].short_desc);

  1010. 

  1011.         i++;

  1012.         strcpy (params[i].name, "duplex");

  1013.         params[i].character  = 'D';

  1014.         params[i].type       = JackDriverParamBool;

  1015.         params[i].value.i    = 1;

  1016.         strcpy (params[i].short_desc, "Provide both capture and playback ports.");

  1017.         strcpy (params[i].long_desc, params[i].short_desc);

  1018. 

  1019.         i++;

  1020.         strcpy (params[i].name, "input-latency");

  1021.         params[i].character  = 'I';

  1022.         params[i].type       = JackDriverParamUInt;

  1023.         params[i].value.ui    = 0;

  1024.         strcpy (params[i].short_desc, "Extra input latency (frames)");

  1025.         strcpy (params[i].long_desc, params[i].short_desc);

  1026. 

  1027.         i++;

  1028.         strcpy (params[i].name, "output-latency");

  1029.         params[i].character  = 'O';

  1030.         params[i].type       = JackDriverParamUInt;

  1031.         params[i].value.ui    = 0;

  1032.         strcpy (params[i].short_desc, "Extra output latency (frames)");

  1033.         strcpy (params[i].long_desc, params[i].short_desc);

  1034. 

  1035.         i++;

  1036.         strcpy (params[i].name, "inchannels");

  1037.         params[i].character  = 'i';

  1038.         params[i].type       = JackDriverParamUInt;

  1039.         params[i].value.ui    = 0;

  1040.         strcpy (params[i].short_desc, "Number of input channels to provide (note: currently ignored)");

  1041.         strcpy (params[i].long_desc, params[i].short_desc);

  1042. 

  1043.         i++;

  1044.         strcpy (params[i].name, "outchannels");

  1045.         params[i].character  = 'o';

  1046.         params[i].type       = JackDriverParamUInt;

  1047.         params[i].value.ui    = 0;

  1048.         strcpy (params[i].short_desc, "Number of output channels to provide (note: currently ignored)");

  1049.         strcpy (params[i].long_desc, params[i].short_desc);

  1050. 

  1051.         return desc;

  1052.     }

  1053. 

  1054.     Jack::JackDriverClientInterface* driver_initialize(Jack::JackEngine* engine, Jack::JackSynchro** table, const JSList* params) {

  1055.         jack_driver_t *driver;

  1056. 

  1057.         unsigned int port = 0;

  1058.         unsigned int node_id = -1;

  1059.         int nbitems;

  1060. 

  1061.         const JSList * node;

  1062.         const jack_driver_param_t * param;

  1063. 

  1064.         freebob_jack_settings_t cmlparams;

  1065. 

  1066.         char *device_name = "hw:0";

  1067. 

  1068.         cmlparams.period_size_set = 0;

  1069.         cmlparams.sample_rate_set = 0;

  1070.         cmlparams.buffer_size_set = 0;

  1071.         cmlparams.port_set = 0;

  1072.         cmlparams.node_id_set = 0;

  1073. 

  1074.         /* default values */

  1075.         cmlparams.period_size = 1024;

  1076.         cmlparams.sample_rate = 48000;

  1077.         cmlparams.buffer_size = 3;

  1078.         cmlparams.port = 0;

  1079.         cmlparams.node_id = -1;

  1080.         cmlparams.playback_ports = 0;

  1081.         cmlparams.capture_ports = 0;

  1082.         cmlparams.playback_frame_latency = 0;

  1083.         cmlparams.capture_frame_latency = 0;

  1084. 

  1085.         for (node = params; node; node = jack_slist_next (node)) {

  1086.             param = (jack_driver_param_t *) node->data;

  1087. 

  1088.             switch (param->character) {

  1089.                 case 'd':

  1090.                     device_name = strdup (param->value.str);

  1091.                     break;

  1092.                 case 'p':

  1093.                     cmlparams.period_size = param->value.ui;

  1094.                     cmlparams.period_size_set = 1;

  1095.                     break;

  1096.                 case 'n':

  1097.                     cmlparams.buffer_size = param->value.ui;

  1098.                     cmlparams.buffer_size_set = 1;

  1099.                     break;

  1100.                 case 'r':

  1101.                     cmlparams.sample_rate = param->value.ui;

  1102.                     cmlparams.sample_rate_set = 1;

  1103.                     break;

  1104.                 case 'C':

  1105.                     cmlparams.capture_ports = 1;

  1106.                     break;

  1107.                 case 'P':

  1108.                     cmlparams.playback_ports = 1;

  1109.                     break;

  1110.                 case 'D':

  1111.                     cmlparams.capture_ports = 1;

  1112.                     cmlparams.playback_ports = 1;

  1113.                     break;

  1114.                 case 'I':

  1115.                     cmlparams.capture_frame_latency = param->value.ui;

  1116.                     break;

  1117.                 case 'O':

  1118.                     cmlparams.playback_frame_latency = param->value.ui;

  1119.                     break;

  1120.                     // ignore these for now

  1121.                 case 'i':

  1122.                     break;

  1123.                 case 'o':

  1124.                     break;

  1125.             }

  1126.         }

  1127. 

  1128.         /* duplex is the default */

  1129.         if (!cmlparams.playback_ports && !cmlparams.capture_ports) {

  1130.             cmlparams.playback_ports = TRUE;

  1131.             cmlparams.capture_ports = TRUE;

  1132.         }

  1133. 

  1134.         nbitems = sscanf(device_name, "hw:%u,%u", &port, &node_id);

  1135.         if (nbitems < 2) {

  1136.             nbitems = sscanf(device_name, "hw:%u", &port);

  1137. 

  1138.             if (nbitems < 1) {

  1139.                 free(device_name);

  1140.                 printError("device (-d) argument not valid\n");

  1141.                 return NULL;

  1142.             } else {

  1143.                 cmlparams.port = port;

  1144.                 cmlparams.port_set = 1;

  1145. 

  1146.                 cmlparams.node_id = -1;

  1147.                 cmlparams.node_id_set = 0;

  1148.             }

  1149.         } else {

  1150.             cmlparams.port = port;

  1151.             cmlparams.port_set = 1;

  1152. 

  1153.             cmlparams.node_id = node_id;

  1154.             cmlparams.node_id_set = 1;

  1155.         }

  1156. 

  1157.         jack_error("Freebob using Firewire port %d, node %d", cmlparams.port, cmlparams.node_id);

  1158. 

  1159.         Jack::JackFreebobDriver* freebob_driver = new Jack::JackFreebobDriver("freebob_pcm", engine, table);

  1160.         Jack::JackDriverClientInterface* threaded_driver = new Jack::JackThreadedDriver(freebob_driver);

  1161.         // Special open for FreeBoB driver...

  1162.         if (freebob_driver->Open(&cmlparams) == 0) {

  1163.             return threaded_driver;

  1164.         } else {

  1165.             delete threaded_driver; // Delete the decorated driver

  1166.             return NULL;

  1167.         }

  1168.     }

  1169. 

  1170. #ifdef __cplusplus

  1171. }

  1172. #endif

  1173.