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Carla/source/native-plugins/zynaddsubfx/Nio/OssEngine.cpp

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  1. /*

  2.   ZynAddSubFX - a software synthesizer

  3. 

  4.   OSSaudiooutput.C - Audio output for Open Sound System

  5.   Copyright (C) 2002-2005 Nasca Octavian Paul

  6.   Author: Nasca Octavian Paul

  7. 

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

  9.   modify it under the terms of the GNU General Public License

  10.   as published by the Free Software Foundation; either version 2

  11.   of the License, or (at your option) any later version.

  12. */

  13. 

  14. #include "OssEngine.h"

  15. #include "Compressor.h"

  16. 

  17. #include "../Misc/Util.h"

  18. #include "../Misc/Config.h"

  19. #include "../globals.h"

  20. 

  21. #include <cstring>

  22. #include <stdlib.h>

  23. #include <stdio.h>

  24. #include <fcntl.h>

  25. #include <errno.h>

  26. #include <sys/soundcard.h>

  27. #include <sys/stat.h>

  28. #include <sys/ioctl.h>

  29. #include <unistd.h>

  30. #include <iostream>

  31. #include <signal.h>

  32. 

  33. #include "InMgr.h"

  34. 

  35. using namespace std;

  36. 

  37. namespace zyncarla {

  38. 

  39. /*

  40.  * The following statemachine converts MIDI commands to USB MIDI

  41.  * packets, derived from Linux's usbmidi.c, which was written by

  42.  * "Clemens Ladisch". It is used to figure out when a MIDI command is

  43.  * complete, without having to read the first byte of the next MIDI

  44.  * command. This is useful when connecting to so-called system PIPEs

  45.  * and FIFOs. See "man mkfifo".

  46.  *

  47.  * Return values:

  48.  *    0: No command

  49.  * Else: Command is complete

  50.  */

  51. static unsigned char

  52. OssMidiParse(struct OssMidiParse &midi_parse,

  53.     unsigned char cn, unsigned char b)

  54. {

  55.         unsigned char p0 = (cn << 4);

  56. 

  57.         if(b >= 0xf8) {

  58.                 midi_parse.temp_0[0] = p0 | 0x0f;

  59.                 midi_parse.temp_0[1] = b;

  60.                 midi_parse.temp_0[2] = 0;

  61.                 midi_parse.temp_0[3] = 0;

  62.                 midi_parse.temp_cmd = midi_parse.temp_0;

  63.                 return (1);

  64. 

  65.         } else if(b >= 0xf0) {

  66.                 switch (b) {

  67.                 case 0xf0:              /* system exclusive begin */

  68.                         midi_parse.temp_1[1] = b;

  69.                         midi_parse.state = OSSMIDI_ST_SYSEX_1;

  70.                         break;

  71.                 case 0xf1:              /* MIDI time code */

  72.                 case 0xf3:              /* song select */

  73.                         midi_parse.temp_1[1] = b;

  74.                         midi_parse.state = OSSMIDI_ST_1PARAM;

  75.                         break;

  76.                 case 0xf2:              /* song position pointer */

  77.                         midi_parse.temp_1[1] = b;

  78.                         midi_parse.state = OSSMIDI_ST_2PARAM_1;

  79.                         break;

  80.                 case 0xf4:              /* unknown */

  81.                 case 0xf5:              /* unknown */

  82.                         midi_parse.state = OSSMIDI_ST_UNKNOWN;

  83.                         break;

  84.                 case 0xf6:              /* tune request */

  85.                         midi_parse.temp_1[0] = p0 | 0x05;

  86.                         midi_parse.temp_1[1] = 0xf6;

  87.                         midi_parse.temp_1[2] = 0;

  88.                         midi_parse.temp_1[3] = 0;

  89.                         midi_parse.temp_cmd = midi_parse.temp_1;

  90.                         midi_parse.state = OSSMIDI_ST_UNKNOWN;

  91.                         return (1);

  92. 

  93.                 case 0xf7:              /* system exclusive end */

  94.                         switch (midi_parse.state) {

  95.                         case OSSMIDI_ST_SYSEX_0:

  96.                                 midi_parse.temp_1[0] = p0 | 0x05;

  97.                                 midi_parse.temp_1[1] = 0xf7;

  98.                                 midi_parse.temp_1[2] = 0;

  99.                                 midi_parse.temp_1[3] = 0;

  100.                                 midi_parse.temp_cmd = midi_parse.temp_1;

  101.                                 midi_parse.state = OSSMIDI_ST_UNKNOWN;

  102.                                 return (1);

  103.                         case OSSMIDI_ST_SYSEX_1:

  104.                                 midi_parse.temp_1[0] = p0 | 0x06;

  105.                                 midi_parse.temp_1[2] = 0xf7;

  106.                                 midi_parse.temp_1[3] = 0;

  107.                                 midi_parse.temp_cmd = midi_parse.temp_1;

  108.                                 midi_parse.state = OSSMIDI_ST_UNKNOWN;

  109.                                 return (1);

  110.                         case OSSMIDI_ST_SYSEX_2:

  111.                                 midi_parse.temp_1[0] = p0 | 0x07;

  112.                                 midi_parse.temp_1[3] = 0xf7;

  113.                                 midi_parse.temp_cmd = midi_parse.temp_1;

  114.                                 midi_parse.state = OSSMIDI_ST_UNKNOWN;

  115.                                 return (1);

  116.                         }

  117.                         midi_parse.state = OSSMIDI_ST_UNKNOWN;

  118.                         break;

  119.                 }

  120.         } else if(b >= 0x80) {

  121.                 midi_parse.temp_1[1] = b;

  122.                 if((b >= 0xc0) && (b <= 0xdf)) {

  123.                         midi_parse.state = OSSMIDI_ST_1PARAM;

  124.                 } else {

  125.                         midi_parse.state = OSSMIDI_ST_2PARAM_1;

  126.                 }

  127.         } else {                        /* b < 0x80 */

  128.                 switch (midi_parse.state) {

  129.                 case OSSMIDI_ST_1PARAM:

  130.                         if(midi_parse.temp_1[1] < 0xf0) {

  131.                                 p0 |= midi_parse.temp_1[1] >> 4;

  132.                         } else {

  133.                                 p0 |= 0x02;

  134.                                 midi_parse.state = OSSMIDI_ST_UNKNOWN;

  135.                         }

  136.                         midi_parse.temp_1[0] = p0;

  137.                         midi_parse.temp_1[2] = b;

  138.                         midi_parse.temp_1[3] = 0;

  139.                         midi_parse.temp_cmd = midi_parse.temp_1;

  140.                         return (1);

  141.                 case OSSMIDI_ST_2PARAM_1:

  142.                         midi_parse.temp_1[2] = b;

  143.                         midi_parse.state = OSSMIDI_ST_2PARAM_2;

  144.                         break;

  145.                 case OSSMIDI_ST_2PARAM_2:

  146.                         if(midi_parse.temp_1[1] < 0xf0) {

  147.                                 p0 |= midi_parse.temp_1[1] >> 4;

  148.                                 midi_parse.state = OSSMIDI_ST_2PARAM_1;

  149.                         } else {

  150.                                 p0 |= 0x03;

  151.                                 midi_parse.state = OSSMIDI_ST_UNKNOWN;

  152.                         }

  153.                         midi_parse.temp_1[0] = p0;

  154.                         midi_parse.temp_1[3] = b;

  155.                         midi_parse.temp_cmd = midi_parse.temp_1;

  156.                         return (1);

  157.                 case OSSMIDI_ST_SYSEX_0:

  158.                         midi_parse.temp_1[1] = b;

  159.                         midi_parse.state = OSSMIDI_ST_SYSEX_1;

  160.                         break;

  161.                 case OSSMIDI_ST_SYSEX_1:

  162.                         midi_parse.temp_1[2] = b;

  163.                         midi_parse.state = OSSMIDI_ST_SYSEX_2;

  164.                         break;

  165.                 case OSSMIDI_ST_SYSEX_2:

  166.                         midi_parse.temp_1[0] = p0 | 0x04;

  167.                         midi_parse.temp_1[3] = b;

  168.                         midi_parse.temp_cmd = midi_parse.temp_1;

  169.                         midi_parse.state = OSSMIDI_ST_SYSEX_0;

  170.                         return (1);

  171.                 default:

  172.                         break;

  173.                 }

  174.         }

  175.         return (0);

  176. }

  177. 

  178. OssEngine::OssEngine(const SYNTH_T &synth,

  179.     const oss_devs_t& oss_devs)

  180.     :AudioOut(synth), audioThread(NULL), midiThread(NULL),

  181.     linux_oss_wave_out_dev(oss_devs.linux_wave_out),

  182.     linux_oss_seq_in_dev(oss_devs.linux_seq_in)

  183. {

  184.     name = "OSS";

  185. 

  186.     midi.handle  = -1;

  187.     audio.handle = -1;

  188. 

  189.     /* allocate worst case audio buffer */

  190.     audio.smps.ps32 = new int[synth.buffersize * 2];

  191.     memset(audio.smps.ps32, 0, sizeof(int) * synth.buffersize * 2);

  192.     memset(&midi.state, 0, sizeof(midi.state));

  193. 

  194.     audio.peaks[0] = 0;

  195. }

  196. 

  197. OssEngine::~OssEngine()

  198. {

  199.     Stop();

  200.     delete [] audio.smps.ps32;

  201. }

  202. 

  203. bool OssEngine::openAudio()

  204. {

  205.     int x;

  206. 

  207.     if(audio.handle != -1)

  208.         return true;  //already open

  209. 

  210.     int snd_fragment;

  211.     int snd_stereo     = 1; //stereo;

  212.     int snd_samplerate = synth.samplerate;

  213. 

  214.     const char *device = getenv("DSP_DEVICE");

  215.     if(device == NULL)

  216.         device = linux_oss_wave_out_dev;

  217. 

  218.     /* NOTE: PIPEs and FIFOs can block when opening them */

  219.     audio.handle = open(device, O_WRONLY, O_NONBLOCK);

  220.     if(audio.handle == -1) {

  221.         cerr << "ERROR - I can't open the "

  222.              << device << '.' << endl;

  223.         return false;

  224.     }

  225.     ioctl(audio.handle, SNDCTL_DSP_RESET, NULL);

  226. 

  227.     /* Figure out the correct format first */

  228. 

  229.     int snd_format16 = AFMT_S16_NE;

  230. 

  231. #ifdef AFMT_S32_NE

  232.     int snd_format32 = AFMT_S32_NE;

  233.     if (ioctl(audio.handle, SNDCTL_DSP_SETFMT, &snd_format32) == 0) {

  234.         audio.is32bit = true;

  235.     } else

  236. #endif

  237.     if (ioctl(audio.handle, SNDCTL_DSP_SETFMT, &snd_format16) == 0) {

  238.         audio.is32bit = false;

  239.     } else {

  240.         cerr << "ERROR - I cannot set DSP format for "

  241.             << device << '.' << endl;

  242.         goto error;

  243.     }

  244.     ioctl(audio.handle, SNDCTL_DSP_STEREO, &snd_stereo);

  245.     ioctl(audio.handle, SNDCTL_DSP_SPEED, &snd_samplerate);

  246. 

  247.     if (snd_samplerate != (int)synth.samplerate) {

  248.         cerr << "ERROR - Cannot set samplerate for "

  249.              << device << ". " << snd_samplerate

  250.              << " != " << synth.samplerate << endl;

  251.         goto error;

  252.     }

  253. 

  254.     /* compute buffer size for 16-bit stereo samples */

  255.     audio.buffersize = 4 * synth.buffersize;

  256.     if (audio.is32bit)

  257.         audio.buffersize *= 2;

  258. 

  259.     for (x = 4; x < 20; x++) {

  260.         if ((1 << x) >= audio.buffersize)

  261.                 break;

  262.     }

  263. 

  264.     snd_fragment = 0x20000 | x;         /* 2x buffer */

  265. 

  266.     ioctl(audio.handle, SNDCTL_DSP_SETFRAGMENT, &snd_fragment);

  267. 

  268.     pthread_attr_t attr;

  269.     pthread_attr_init(&attr);

  270.     pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);

  271.     audioThread = new pthread_t;

  272.     pthread_create(audioThread, &attr, _audioThreadCb, this);

  273. 

  274.     return true;

  275. 

  276. error:

  277.     close(audio.handle);

  278.     audio.handle = -1;

  279.     return false;

  280. }

  281. 

  282. void OssEngine::stopAudio()

  283. {

  284.     int handle = audio.handle;

  285.     if(handle == -1) //already closed

  286.         return;

  287.     audio.handle = -1;

  288. 

  289.     /* close handle first, so that write() exits */

  290.     close(handle);

  291. 

  292.     pthread_join(*audioThread, NULL);

  293.     delete audioThread;

  294.     audioThread = NULL;

  295. }

  296. 

  297. bool OssEngine::Start()

  298. {

  299.     bool good = true;

  300. 

  301.     if(!openAudio()) {

  302.         cerr << "Failed to open OSS audio" << endl;

  303.         good = false;

  304.     }

  305. 

  306.     if(!openMidi()) {

  307.         cerr << "Failed to open OSS midi" << endl;

  308.         good = false;

  309.     }

  310. 

  311.     return good;

  312. }

  313. 

  314. void OssEngine::Stop()

  315. {

  316.     stopAudio();

  317.     stopMidi();

  318. }

  319. 

  320. void OssEngine::setMidiEn(bool nval)

  321. {

  322.     if(nval)

  323.         openMidi();

  324.     else

  325.         stopMidi();

  326. }

  327. 

  328. bool OssEngine::getMidiEn() const

  329. {

  330.     return midi.handle != -1;

  331. }

  332. 

  333. void OssEngine::setAudioEn(bool nval)

  334. {

  335.     if(nval)

  336.         openAudio();

  337.     else

  338.         stopAudio();

  339. }

  340. 

  341. bool OssEngine::getAudioEn() const

  342. {

  343.     return audio.handle != -1;

  344. }

  345. 

  346. bool OssEngine::openMidi()

  347. {

  348.     int handle = midi.handle;

  349.     if(handle != -1)

  350.         return true;  //already open

  351. 

  352.     const char *device = getenv("MIDI_DEVICE");

  353.     if(device == NULL)

  354.         device = linux_oss_seq_in_dev;

  355. 

  356.     /* NOTE: PIPEs and FIFOs can block when opening them */

  357.     handle = open(device, O_RDONLY, O_NONBLOCK);

  358. 

  359.     if(-1 == handle)

  360.         return false;

  361.     midi.handle = handle;

  362. 

  363.     pthread_attr_t attr;

  364.     pthread_attr_init(&attr);

  365.     pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);

  366.     midiThread = new pthread_t;

  367.     pthread_create(midiThread, &attr, _midiThreadCb, this);

  368. 

  369.     return true;

  370. }

  371. 

  372. void OssEngine::stopMidi()

  373. {

  374.     int handle = midi.handle;

  375.     if(handle == -1) //already closed

  376.         return;

  377. 

  378.     midi.handle = -1;

  379. 

  380.     /* close handle first, so that read() exits */

  381.     close(handle);

  382. 

  383.     pthread_join(*midiThread, NULL);

  384.     delete midiThread;

  385.     midiThread = NULL;

  386. }

  387. 

  388. void *OssEngine::_audioThreadCb(void *arg)

  389. {

  390.     return (static_cast<OssEngine *>(arg))->audioThreadCb();

  391. }

  392. 

  393. void *OssEngine::_midiThreadCb(void *arg)

  394. {

  395.     return (static_cast<OssEngine *>(arg))->midiThreadCb();

  396. }

  397. 

  398. void *OssEngine::audioThreadCb()

  399. {

  400.     /*

  401.      * In case the audio device is a PIPE/FIFO,

  402.      * we need to ignore any PIPE signals:

  403.      */

  404.     signal(SIGPIPE, SIG_IGN);

  405. 

  406.     set_realtime();

  407.     while(getAudioEn()) {

  408.         const Stereo<float *> smps = getNext();

  409. 

  410.         for(int i = 0; i < synth.buffersize; ++i) {

  411.             float l = smps.l[i];

  412.             float r = smps.r[i];

  413.             stereoCompressor(synth.samplerate, audio.peaks[0], l, r);

  414. 

  415.             if (audio.is32bit) {

  416.                 audio.smps.ps32[i * 2]     = (int) (l * 2147483647.0f);

  417.                 audio.smps.ps32[i * 2 + 1] = (int) (r * 2147483647.0f);

  418.             } else {/* 16bit */

  419.                 audio.smps.ps16[i * 2]     = (short int) (l * 32767.0f);

  420.                 audio.smps.ps16[i * 2 + 1] = (short int) (r * 32767.0f);

  421.             }

  422.         }

  423. 

  424.         int error;

  425.         do {

  426.             /* make a copy of handle, in case of OSS audio disable */

  427.             int handle = audio.handle;

  428.             if(handle == -1)

  429.                 goto done;

  430.             error = write(handle, audio.smps.ps32, audio.buffersize);

  431.         } while (error == -1 && errno == EINTR);

  432. 

  433.         if(error == -1)

  434.             goto done;

  435.     }

  436. done:

  437.     pthread_exit(NULL);

  438.     return NULL;

  439. }

  440. 

  441. void *OssEngine::midiThreadCb()

  442. {

  443.     /*

  444.      * In case the MIDI device is a PIPE/FIFO,

  445.      * we need to ignore any PIPE signals:

  446.      */

  447.     signal(SIGPIPE, SIG_IGN);

  448.     set_realtime();

  449.     while(getMidiEn()) {

  450.         unsigned char tmp;

  451.         int error;

  452.         do {

  453.             /* make a copy of handle, in case of OSS MIDI disable */

  454.             int handle = midi.handle;

  455.             if(handle == -1)

  456.                 goto done;

  457.             error = read(handle, &tmp, 1);

  458.         } while (error == -1 && errno == EINTR);

  459. 

  460.         /* check that we got one byte */

  461.         if(error != 1)

  462.                 goto done;

  463. 

  464.         /* feed MIDI byte into statemachine */

  465.         if(OssMidiParse(midi.state, 0, tmp)) {

  466.             /* we got a complete MIDI command */

  467.             midiProcess(midi.state.temp_cmd[1],

  468.                 midi.state.temp_cmd[2],

  469.                 midi.state.temp_cmd[3]);

  470.         }

  471.     }

  472. done:

  473.     pthread_exit(NULL);

  474.     return NULL;

  475. }

  476. 

  477. }