Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/ichwd/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/urtw/@/dev/sound/midi/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/ichwd/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/urtw/@/dev/sound/midi/sequencer.c |
/*- * Copyright (c) 2003 Mathew Kanner * Copyright (c) 1993 Hannu Savolainen * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * The sequencer personality manager. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/sound/midi/sequencer.c 194990 2009-06-25 18:46:30Z kib $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/ioccom.h> #include <sys/filio.h> #include <sys/lock.h> #include <sys/sockio.h> #include <sys/fcntl.h> #include <sys/proc.h> #include <sys/sysctl.h> #include <sys/kernel.h> /* for DATA_SET */ #include <sys/module.h> #include <sys/conf.h> #include <sys/file.h> #include <sys/uio.h> #include <sys/syslog.h> #include <sys/errno.h> #include <sys/malloc.h> #include <sys/bus.h> #include <machine/resource.h> #include <machine/bus.h> #include <machine/clock.h> /* for DELAY */ #include <sys/soundcard.h> #include <sys/rman.h> #include <sys/mman.h> #include <sys/poll.h> #include <sys/mutex.h> #include <sys/condvar.h> #include <sys/kthread.h> #include <sys/unistd.h> #include <sys/selinfo.h> #ifdef HAVE_KERNEL_OPTION_HEADERS #include "opt_snd.h" #endif #include <dev/sound/midi/midi.h> #include <dev/sound/midi/midiq.h> #include "synth_if.h" #include <dev/sound/midi/sequencer.h> #define TMR_TIMERBASE 13 #define SND_DEV_SEQ 1 /* Sequencer output /dev/sequencer (FM * synthesizer and MIDI output) */ #define SND_DEV_MUSIC 8 /* /dev/music, level 2 interface */ /* Length of a sequencer event. */ #define EV_SZ 8 #define IEV_SZ 8 /* Lookup modes */ #define LOOKUP_EXIST (0) #define LOOKUP_OPEN (1) #define LOOKUP_CLOSE (2) #define PCMMKMINOR(u, d, c) \ ((((c) & 0xff) << 16) | (((u) & 0x0f) << 4) | ((d) & 0x0f)) #define MIDIMKMINOR(u, d, c) PCMMKMINOR(u, d, c) #define MIDIUNIT(y) ((dev2unit(y) >> 4) & 0x0f) #define MIDIDEV(y) (dev2unit(y) & 0x0f) /* These are the entries to the sequencer driver. */ static d_open_t seq_open; static d_close_t seq_close; static d_ioctl_t seq_ioctl; static d_read_t seq_read; static d_write_t seq_write; static d_poll_t seq_poll; static struct cdevsw seq_cdevsw = { .d_version = D_VERSION, .d_open = seq_open, .d_close = seq_close, .d_read = seq_read, .d_write = seq_write, .d_ioctl = seq_ioctl, .d_poll = seq_poll, .d_name = "sequencer", }; struct seq_softc { KOBJ_FIELDS; struct mtx seq_lock, q_lock; struct cv empty_cv, reset_cv, in_cv, out_cv, state_cv, th_cv; MIDIQ_HEAD(, u_char) in_q, out_q; u_long flags; /* Flags (protected by flag_mtx of mididev_info) */ int fflags; /* Access mode */ int music; int out_water; /* Sequence output threshould */ snd_sync_parm sync_parm; /* AIOSYNC parameter set */ struct thread *sync_thread; /* AIOSYNCing thread */ struct selinfo in_sel, out_sel; int midi_number; struct cdev *seqdev, *musicdev; int unit; int maxunits; kobj_t *midis; int *midi_flags; kobj_t mapper; void *mapper_cookie; struct timeval timerstop, timersub; int timerbase, tempo; int timerrun; int done; int playing; int recording; int busy; int pre_event_timeout; int waiting; }; /* * Module specific stuff, including how many sequecers * we currently own. */ SYSCTL_NODE(_hw_midi, OID_AUTO, seq, CTLFLAG_RD, 0, "Midi sequencer"); int seq_debug; /* XXX: should this be moved into debug.midi? */ SYSCTL_INT(_hw_midi_seq, OID_AUTO, debug, CTLFLAG_RW, &seq_debug, 0, ""); midi_cmdtab cmdtab_seqevent[] = { {SEQ_NOTEOFF, "SEQ_NOTEOFF"}, {SEQ_NOTEON, "SEQ_NOTEON"}, {SEQ_WAIT, "SEQ_WAIT"}, {SEQ_PGMCHANGE, "SEQ_PGMCHANGE"}, {SEQ_SYNCTIMER, "SEQ_SYNCTIMER"}, {SEQ_MIDIPUTC, "SEQ_MIDIPUTC"}, {SEQ_DRUMON, "SEQ_DRUMON"}, {SEQ_DRUMOFF, "SEQ_DRUMOFF"}, {SEQ_ECHO, "SEQ_ECHO"}, {SEQ_AFTERTOUCH, "SEQ_AFTERTOUCH"}, {SEQ_CONTROLLER, "SEQ_CONTROLLER"}, {SEQ_BALANCE, "SEQ_BALANCE"}, {SEQ_VOLMODE, "SEQ_VOLMODE"}, {SEQ_FULLSIZE, "SEQ_FULLSIZE"}, {SEQ_PRIVATE, "SEQ_PRIVATE"}, {SEQ_EXTENDED, "SEQ_EXTENDED"}, {EV_SEQ_LOCAL, "EV_SEQ_LOCAL"}, {EV_TIMING, "EV_TIMING"}, {EV_CHN_COMMON, "EV_CHN_COMMON"}, {EV_CHN_VOICE, "EV_CHN_VOICE"}, {EV_SYSEX, "EV_SYSEX"}, {-1, NULL}, }; midi_cmdtab cmdtab_seqioctl[] = { {SNDCTL_SEQ_RESET, "SNDCTL_SEQ_RESET"}, {SNDCTL_SEQ_SYNC, "SNDCTL_SEQ_SYNC"}, {SNDCTL_SYNTH_INFO, "SNDCTL_SYNTH_INFO"}, {SNDCTL_SEQ_CTRLRATE, "SNDCTL_SEQ_CTRLRATE"}, {SNDCTL_SEQ_GETOUTCOUNT, "SNDCTL_SEQ_GETOUTCOUNT"}, {SNDCTL_SEQ_GETINCOUNT, "SNDCTL_SEQ_GETINCOUNT"}, {SNDCTL_SEQ_PERCMODE, "SNDCTL_SEQ_PERCMODE"}, {SNDCTL_FM_LOAD_INSTR, "SNDCTL_FM_LOAD_INSTR"}, {SNDCTL_SEQ_TESTMIDI, "SNDCTL_SEQ_TESTMIDI"}, {SNDCTL_SEQ_RESETSAMPLES, "SNDCTL_SEQ_RESETSAMPLES"}, {SNDCTL_SEQ_NRSYNTHS, "SNDCTL_SEQ_NRSYNTHS"}, {SNDCTL_SEQ_NRMIDIS, "SNDCTL_SEQ_NRMIDIS"}, {SNDCTL_SEQ_GETTIME, "SNDCTL_SEQ_GETTIME"}, {SNDCTL_MIDI_INFO, "SNDCTL_MIDI_INFO"}, {SNDCTL_SEQ_THRESHOLD, "SNDCTL_SEQ_THRESHOLD"}, {SNDCTL_SYNTH_MEMAVL, "SNDCTL_SYNTH_MEMAVL"}, {SNDCTL_FM_4OP_ENABLE, "SNDCTL_FM_4OP_ENABLE"}, {SNDCTL_PMGR_ACCESS, "SNDCTL_PMGR_ACCESS"}, {SNDCTL_SEQ_PANIC, "SNDCTL_SEQ_PANIC"}, {SNDCTL_SEQ_OUTOFBAND, "SNDCTL_SEQ_OUTOFBAND"}, {SNDCTL_TMR_TIMEBASE, "SNDCTL_TMR_TIMEBASE"}, {SNDCTL_TMR_START, "SNDCTL_TMR_START"}, {SNDCTL_TMR_STOP, "SNDCTL_TMR_STOP"}, {SNDCTL_TMR_CONTINUE, "SNDCTL_TMR_CONTINUE"}, {SNDCTL_TMR_TEMPO, "SNDCTL_TMR_TEMPO"}, {SNDCTL_TMR_SOURCE, "SNDCTL_TMR_SOURCE"}, {SNDCTL_TMR_METRONOME, "SNDCTL_TMR_METRONOME"}, {SNDCTL_TMR_SELECT, "SNDCTL_TMR_SELECT"}, {SNDCTL_MIDI_PRETIME, "SNDCTL_MIDI_PRETIME"}, {AIONWRITE, "AIONWRITE"}, {AIOGSIZE, "AIOGSIZE"}, {AIOSSIZE, "AIOSSIZE"}, {AIOGFMT, "AIOGFMT"}, {AIOSFMT, "AIOSFMT"}, {AIOGMIX, "AIOGMIX"}, {AIOSMIX, "AIOSMIX"}, {AIOSTOP, "AIOSTOP"}, {AIOSYNC, "AIOSYNC"}, {AIOGCAP, "AIOGCAP"}, {-1, NULL}, }; midi_cmdtab cmdtab_timer[] = { {TMR_WAIT_REL, "TMR_WAIT_REL"}, {TMR_WAIT_ABS, "TMR_WAIT_ABS"}, {TMR_STOP, "TMR_STOP"}, {TMR_START, "TMR_START"}, {TMR_CONTINUE, "TMR_CONTINUE"}, {TMR_TEMPO, "TMR_TEMPO"}, {TMR_ECHO, "TMR_ECHO"}, {TMR_CLOCK, "TMR_CLOCK"}, {TMR_SPP, "TMR_SPP"}, {TMR_TIMESIG, "TMR_TIMESIG"}, {-1, NULL}, }; midi_cmdtab cmdtab_seqcv[] = { {MIDI_NOTEOFF, "MIDI_NOTEOFF"}, {MIDI_NOTEON, "MIDI_NOTEON"}, {MIDI_KEY_PRESSURE, "MIDI_KEY_PRESSURE"}, {-1, NULL}, }; midi_cmdtab cmdtab_seqccmn[] = { {MIDI_CTL_CHANGE, "MIDI_CTL_CHANGE"}, {MIDI_PGM_CHANGE, "MIDI_PGM_CHANGE"}, {MIDI_CHN_PRESSURE, "MIDI_CHN_PRESSURE"}, {MIDI_PITCH_BEND, "MIDI_PITCH_BEND"}, {MIDI_SYSTEM_PREFIX, "MIDI_SYSTEM_PREFIX"}, {-1, NULL}, }; #ifndef KOBJMETHOD_END #define KOBJMETHOD_END { NULL, NULL } #endif /* * static const char *mpu401_mprovider(kobj_t obj, struct mpu401 *m); */ static kobj_method_t seq_methods[] = { /* KOBJMETHOD(mpu_provider,mpu401_mprovider), */ KOBJMETHOD_END }; DEFINE_CLASS(sequencer, seq_methods, 0); /* The followings are the local function. */ static int seq_convertold(u_char *event, u_char *out); /* * static void seq_midiinput(struct seq_softc * scp, void *md); */ static void seq_reset(struct seq_softc *scp); static int seq_sync(struct seq_softc *scp); static int seq_processevent(struct seq_softc *scp, u_char *event); static int seq_timing(struct seq_softc *scp, u_char *event); static int seq_local(struct seq_softc *scp, u_char *event); static int seq_chnvoice(struct seq_softc *scp, kobj_t md, u_char *event); static int seq_chncommon(struct seq_softc *scp, kobj_t md, u_char *event); static int seq_sysex(struct seq_softc *scp, kobj_t md, u_char *event); static int seq_fetch_mid(struct seq_softc *scp, int unit, kobj_t *md); void seq_copytoinput(struct seq_softc *scp, u_char *event, int len); int seq_modevent(module_t mod, int type, void *data); struct seq_softc *seqs[10]; static struct mtx seqinfo_mtx; static u_long nseq = 0; static void timer_start(struct seq_softc *t); static void timer_stop(struct seq_softc *t); static void timer_setvals(struct seq_softc *t, int tempo, int timerbase); static void timer_wait(struct seq_softc *t, int ticks, int wait_abs); static int timer_now(struct seq_softc *t); static void timer_start(struct seq_softc *t) { t->timerrun = 1; getmicrotime(&t->timersub); } static void timer_continue(struct seq_softc *t) { struct timeval now; if (t->timerrun == 1) return; t->timerrun = 1; getmicrotime(&now); timevalsub(&now, &t->timerstop); timevaladd(&t->timersub, &now); } static void timer_stop(struct seq_softc *t) { t->timerrun = 0; getmicrotime(&t->timerstop); } static void timer_setvals(struct seq_softc *t, int tempo, int timerbase) { t->tempo = tempo; t->timerbase = timerbase; } static void timer_wait(struct seq_softc *t, int ticks, int wait_abs) { struct timeval now, when; int ret; unsigned long long i; while (t->timerrun == 0) { SEQ_DEBUG(2, printf("Timer wait when timer isn't running\n")); /* * The old sequencer used timeouts that only increased * the timer when the timer was running. * Hence the sequencer would stick (?) if the * timer was disabled. */ cv_wait(&t->reset_cv, &t->seq_lock); if (t->playing == 0) return; } i = ticks * 60ull * 1000000ull / (t->tempo * t->timerbase); when.tv_sec = i / 1000000; when.tv_usec = i % 1000000; #if 0 printf("timer_wait tempo %d timerbase %d ticks %d abs %d u_sec %llu\n", t->tempo, t->timerbase, ticks, wait_abs, i); #endif if (wait_abs != 0) { getmicrotime(&now); timevalsub(&now, &t->timersub); timevalsub(&when, &now); } if (when.tv_sec < 0 || when.tv_usec < 0) { SEQ_DEBUG(3, printf("seq_timer error negative time %lds.%06lds\n", (long)when.tv_sec, (long)when.tv_usec)); return; } i = when.tv_sec * 1000000ull; i += when.tv_usec; i *= hz; i /= 1000000ull; #if 0 printf("seq_timer usec %llu ticks %llu\n", when.tv_sec * 1000000ull + when.tv_usec, i); #endif t->waiting = 1; ret = cv_timedwait(&t->reset_cv, &t->seq_lock, i + 1); t->waiting = 0; if (ret != EWOULDBLOCK) SEQ_DEBUG(3, printf("seq_timer didn't timeout\n")); } static int timer_now(struct seq_softc *t) { struct timeval now; unsigned long long i; int ret; if (t->timerrun == 0) now = t->timerstop; else getmicrotime(&now); timevalsub(&now, &t->timersub); i = now.tv_sec * 1000000ull; i += now.tv_usec; i *= t->timerbase; /* i /= t->tempo; */ i /= 1000000ull; ret = i; /* * printf("timer_now: %llu %d\n", i, ret); */ return ret; } static void seq_eventthread(void *arg) { struct seq_softc *scp = arg; char event[EV_SZ]; mtx_lock(&scp->seq_lock); SEQ_DEBUG(2, printf("seq_eventthread started\n")); while (scp->done == 0) { restart: while (scp->playing == 0) { cv_wait(&scp->state_cv, &scp->seq_lock); if (scp->done) goto done; } while (MIDIQ_EMPTY(scp->out_q)) { cv_broadcast(&scp->empty_cv); cv_wait(&scp->out_cv, &scp->seq_lock); if (scp->playing == 0) goto restart; if (scp->done) goto done; } MIDIQ_DEQ(scp->out_q, event, EV_SZ); if (MIDIQ_AVAIL(scp->out_q) < scp->out_water) { cv_broadcast(&scp->out_cv); selwakeup(&scp->out_sel); } seq_processevent(scp, event); } done: cv_broadcast(&scp->th_cv); mtx_unlock(&scp->seq_lock); SEQ_DEBUG(2, printf("seq_eventthread finished\n")); #if __FreeBSD_version >= 800002 kproc_exit(0); #else mtx_lock(&Giant); kthread_exit(0); #endif } /* * seq_processevent: This maybe called by the event thread or the IOCTL * handler for queued and out of band events respectively. */ static int seq_processevent(struct seq_softc *scp, u_char *event) { int ret; kobj_t m; ret = 0; if (event[0] == EV_SEQ_LOCAL) ret = seq_local(scp, event); else if (event[0] == EV_TIMING) ret = seq_timing(scp, event); else if (event[0] != EV_CHN_VOICE && event[0] != EV_CHN_COMMON && event[0] != EV_SYSEX && event[0] != SEQ_MIDIPUTC) { ret = 1; SEQ_DEBUG(2, printf("seq_processevent not known %d\n", event[0])); } else if (seq_fetch_mid(scp, event[1], &m) != 0) { ret = 1; SEQ_DEBUG(2, printf("seq_processevent midi unit not found %d\n", event[1])); } else switch (event[0]) { case EV_CHN_VOICE: ret = seq_chnvoice(scp, m, event); break; case EV_CHN_COMMON: ret = seq_chncommon(scp, m, event); break; case EV_SYSEX: ret = seq_sysex(scp, m, event); break; case SEQ_MIDIPUTC: mtx_unlock(&scp->seq_lock); ret = SYNTH_WRITERAW(m, &event[2], 1); mtx_lock(&scp->seq_lock); break; } return ret; } static int seq_addunit(void) { struct seq_softc *scp; int ret; u_char *buf; /* Allocate the softc. */ ret = ENOMEM; scp = malloc(sizeof(*scp), M_DEVBUF, M_NOWAIT | M_ZERO); if (scp == NULL) { SEQ_DEBUG(1, printf("seq_addunit: softc allocation failed.\n")); goto err; } kobj_init((kobj_t)scp, &sequencer_class); buf = malloc(sizeof(*buf) * EV_SZ * 1024, M_TEMP, M_NOWAIT | M_ZERO); if (buf == NULL) goto err; MIDIQ_INIT(scp->in_q, buf, EV_SZ * 1024); buf = malloc(sizeof(*buf) * EV_SZ * 1024, M_TEMP, M_NOWAIT | M_ZERO); if (buf == NULL) goto err; MIDIQ_INIT(scp->out_q, buf, EV_SZ * 1024); ret = EINVAL; scp->midis = malloc(sizeof(kobj_t) * 32, M_TEMP, M_NOWAIT | M_ZERO); scp->midi_flags = malloc(sizeof(*scp->midi_flags) * 32, M_TEMP, M_NOWAIT | M_ZERO); if (scp->midis == NULL || scp->midi_flags == NULL) goto err; scp->flags = 0; mtx_init(&scp->seq_lock, "seqflq", NULL, 0); cv_init(&scp->state_cv, "seqstate"); cv_init(&scp->empty_cv, "seqempty"); cv_init(&scp->reset_cv, "seqtimer"); cv_init(&scp->out_cv, "seqqout"); cv_init(&scp->in_cv, "seqqin"); cv_init(&scp->th_cv, "seqstart"); /* * Init the damn timer */ scp->mapper = midimapper_addseq(scp, &scp->unit, &scp->mapper_cookie); if (scp->mapper == NULL) goto err; scp->seqdev = make_dev(&seq_cdevsw, MIDIMKMINOR(scp->unit, SND_DEV_SEQ, 0), UID_ROOT, GID_WHEEL, 0666, "sequencer%d", scp->unit); scp->musicdev = make_dev(&seq_cdevsw, MIDIMKMINOR(scp->unit, SND_DEV_MUSIC, 0), UID_ROOT, GID_WHEEL, 0666, "music%d", scp->unit); if (scp->seqdev == NULL || scp->musicdev == NULL) goto err; /* * TODO: Add to list of sequencers this module provides */ ret = #if __FreeBSD_version >= 800002 kproc_create #else kthread_create #endif (seq_eventthread, scp, NULL, RFHIGHPID, 0, "sequencer %02d", scp->unit); if (ret) goto err; scp->seqdev->si_drv1 = scp->musicdev->si_drv1 = scp; SEQ_DEBUG(2, printf("sequencer %d created scp %p\n", scp->unit, scp)); ret = 0; mtx_lock(&seqinfo_mtx); seqs[nseq++] = scp; mtx_unlock(&seqinfo_mtx); goto ok; err: if (scp != NULL) { if (scp->seqdev != NULL) destroy_dev(scp->seqdev); if (scp->musicdev != NULL) destroy_dev(scp->musicdev); /* * TODO: Destroy mutex and cv */ if (scp->midis != NULL) free(scp->midis, M_TEMP); if (scp->midi_flags != NULL) free(scp->midi_flags, M_TEMP); if (scp->out_q.b) free(scp->out_q.b, M_TEMP); if (scp->in_q.b) free(scp->in_q.b, M_TEMP); free(scp, M_DEVBUF); } ok: return ret; } static int seq_delunit(int unit) { struct seq_softc *scp = seqs[unit]; int i; //SEQ_DEBUG(4, printf("seq_delunit: %d\n", unit)); SEQ_DEBUG(1, printf("seq_delunit: 1 \n")); mtx_lock(&scp->seq_lock); scp->playing = 0; scp->done = 1; cv_broadcast(&scp->out_cv); cv_broadcast(&scp->state_cv); cv_broadcast(&scp->reset_cv); SEQ_DEBUG(1, printf("seq_delunit: 2 \n")); cv_wait(&scp->th_cv, &scp->seq_lock); SEQ_DEBUG(1, printf("seq_delunit: 3.0 \n")); mtx_unlock(&scp->seq_lock); SEQ_DEBUG(1, printf("seq_delunit: 3.1 \n")); cv_destroy(&scp->state_cv); SEQ_DEBUG(1, printf("seq_delunit: 4 \n")); cv_destroy(&scp->empty_cv); SEQ_DEBUG(1, printf("seq_delunit: 5 \n")); cv_destroy(&scp->reset_cv); SEQ_DEBUG(1, printf("seq_delunit: 6 \n")); cv_destroy(&scp->out_cv); SEQ_DEBUG(1, printf("seq_delunit: 7 \n")); cv_destroy(&scp->in_cv); SEQ_DEBUG(1, printf("seq_delunit: 8 \n")); cv_destroy(&scp->th_cv); SEQ_DEBUG(1, printf("seq_delunit: 10 \n")); if (scp->seqdev) destroy_dev(scp->seqdev); SEQ_DEBUG(1, printf("seq_delunit: 11 \n")); if (scp->musicdev) destroy_dev(scp->musicdev); SEQ_DEBUG(1, printf("seq_delunit: 12 \n")); scp->seqdev = scp->musicdev = NULL; if (scp->midis != NULL) free(scp->midis, M_TEMP); SEQ_DEBUG(1, printf("seq_delunit: 13 \n")); if (scp->midi_flags != NULL) free(scp->midi_flags, M_TEMP); SEQ_DEBUG(1, printf("seq_delunit: 14 \n")); free(scp->out_q.b, M_TEMP); SEQ_DEBUG(1, printf("seq_delunit: 15 \n")); free(scp->in_q.b, M_TEMP); SEQ_DEBUG(1, printf("seq_delunit: 16 \n")); mtx_destroy(&scp->seq_lock); SEQ_DEBUG(1, printf("seq_delunit: 17 \n")); free(scp, M_DEVBUF); mtx_lock(&seqinfo_mtx); for (i = unit; i < (nseq - 1); i++) seqs[i] = seqs[i + 1]; nseq--; mtx_unlock(&seqinfo_mtx); return 0; } int seq_modevent(module_t mod, int type, void *data) { int retval, r; retval = 0; switch (type) { case MOD_LOAD: mtx_init(&seqinfo_mtx, "seqmod", NULL, 0); retval = seq_addunit(); break; case MOD_UNLOAD: while (nseq) { r = seq_delunit(nseq - 1); if (r) { retval = r; break; } } if (nseq == 0) { retval = 0; mtx_destroy(&seqinfo_mtx); } break; default: break; } return retval; } static int seq_fetch_mid(struct seq_softc *scp, int unit, kobj_t *md) { if (unit > scp->midi_number || unit < 0) return EINVAL; *md = scp->midis[unit]; return 0; } int seq_open(struct cdev *i_dev, int flags, int mode, struct thread *td) { struct seq_softc *scp = i_dev->si_drv1; int i; if (scp == NULL) return ENXIO; SEQ_DEBUG(3, printf("seq_open: scp %p unit %d, flags 0x%x.\n", scp, scp->unit, flags)); /* * Mark this device busy. */ mtx_lock(&scp->seq_lock); if (scp->busy) { mtx_unlock(&scp->seq_lock); SEQ_DEBUG(2, printf("seq_open: unit %d is busy.\n", scp->unit)); return EBUSY; } scp->fflags = flags; /* if ((scp->fflags & O_NONBLOCK) != 0) scp->flags |= SEQ_F_NBIO; */ scp->music = MIDIDEV(i_dev) == SND_DEV_MUSIC; /* * Enumerate the available midi devices */ scp->midi_number = 0; scp->maxunits = midimapper_open(scp->mapper, &scp->mapper_cookie); if (scp->maxunits == 0) SEQ_DEBUG(2, printf("seq_open: no midi devices\n")); for (i = 0; i < scp->maxunits; i++) { scp->midis[scp->midi_number] = midimapper_fetch_synth(scp->mapper, scp->mapper_cookie, i); if (scp->midis[scp->midi_number]) { if (SYNTH_OPEN(scp->midis[scp->midi_number], scp, scp->fflags) != 0) scp->midis[scp->midi_number] = NULL; else { scp->midi_flags[scp->midi_number] = SYNTH_QUERY(scp->midis[scp->midi_number]); scp->midi_number++; } } } timer_setvals(scp, 60, 100); timer_start(scp); timer_stop(scp); /* * actually, if we're in rdonly mode, we should start the timer */ /* * TODO: Handle recording now */ scp->out_water = MIDIQ_SIZE(scp->out_q) / 2; scp->busy = 1; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(2, printf("seq_open: opened, mode %s.\n", scp->music ? "music" : "sequencer")); SEQ_DEBUG(2, printf("Sequencer %d %p opened maxunits %d midi_number %d:\n", scp->unit, scp, scp->maxunits, scp->midi_number)); for (i = 0; i < scp->midi_number; i++) SEQ_DEBUG(3, printf(" midi %d %p\n", i, scp->midis[i])); return 0; } /* * seq_close */ int seq_close(struct cdev *i_dev, int flags, int mode, struct thread *td) { int i; struct seq_softc *scp = i_dev->si_drv1; int ret; if (scp == NULL) return ENXIO; SEQ_DEBUG(2, printf("seq_close: unit %d.\n", scp->unit)); mtx_lock(&scp->seq_lock); ret = ENXIO; if (scp->busy == 0) goto err; seq_reset(scp); seq_sync(scp); for (i = 0; i < scp->midi_number; i++) if (scp->midis[i]) SYNTH_CLOSE(scp->midis[i]); midimapper_close(scp->mapper, scp->mapper_cookie); timer_stop(scp); scp->busy = 0; ret = 0; err: SEQ_DEBUG(3, printf("seq_close: closed ret = %d.\n", ret)); mtx_unlock(&scp->seq_lock); return ret; } int seq_read(struct cdev *i_dev, struct uio *uio, int ioflag) { int retval, used; struct seq_softc *scp = i_dev->si_drv1; #define SEQ_RSIZE 32 u_char buf[SEQ_RSIZE]; if (scp == NULL) return ENXIO; SEQ_DEBUG(7, printf("seq_read: unit %d, resid %zd.\n", scp->unit, uio->uio_resid)); mtx_lock(&scp->seq_lock); if ((scp->fflags & FREAD) == 0) { SEQ_DEBUG(2, printf("seq_read: unit %d is not for reading.\n", scp->unit)); retval = EIO; goto err1; } /* * Begin recording. */ /* * if ((scp->flags & SEQ_F_READING) == 0) */ /* * TODO, start recording if not alread */ /* * I think the semantics are to return as soon * as possible. * Second thought, it doens't seem like midimoutain * expects that at all. * TODO: Look up in some sort of spec */ while (uio->uio_resid > 0) { while (MIDIQ_EMPTY(scp->in_q)) { retval = EWOULDBLOCK; /* * I wish I knew which one to care about */ if (scp->fflags & O_NONBLOCK) goto err1; if (ioflag & O_NONBLOCK) goto err1; retval = cv_wait_sig(&scp->in_cv, &scp->seq_lock); if (retval == EINTR) goto err1; } used = MIN(MIDIQ_LEN(scp->in_q), uio->uio_resid); used = MIN(used, SEQ_RSIZE); SEQ_DEBUG(8, printf("midiread: uiomove cc=%d\n", used)); MIDIQ_DEQ(scp->in_q, buf, used); retval = uiomove(buf, used, uio); if (retval) goto err1; } retval = 0; err1: mtx_unlock(&scp->seq_lock); SEQ_DEBUG(6, printf("seq_read: ret %d, resid %zd.\n", retval, uio->uio_resid)); return retval; } int seq_write(struct cdev *i_dev, struct uio *uio, int ioflag) { u_char event[EV_SZ], newevent[EV_SZ], ev_code; struct seq_softc *scp = i_dev->si_drv1; int retval; int used; SEQ_DEBUG(7, printf("seq_write: unit %d, resid %zd.\n", scp->unit, uio->uio_resid)); if (scp == NULL) return ENXIO; mtx_lock(&scp->seq_lock); if ((scp->fflags & FWRITE) == 0) { SEQ_DEBUG(2, printf("seq_write: unit %d is not for writing.\n", scp->unit)); retval = EIO; goto err0; } while (uio->uio_resid > 0) { while (MIDIQ_AVAIL(scp->out_q) == 0) { retval = EWOULDBLOCK; if (scp->fflags & O_NONBLOCK) goto err0; if (ioflag & O_NONBLOCK) goto err0; SEQ_DEBUG(8, printf("seq_write cvwait\n")); scp->playing = 1; cv_broadcast(&scp->out_cv); cv_broadcast(&scp->state_cv); retval = cv_wait_sig(&scp->out_cv, &scp->seq_lock); /* * We slept, maybe things have changed since last * dying check */ if (retval == EINTR) goto err0; #if 0 /* * Useless test */ if (scp != i_dev->si_drv1) retval = ENXIO; #endif } used = MIN(uio->uio_resid, 4); SEQ_DEBUG(8, printf("seqout: resid %zd len %jd avail %jd\n", uio->uio_resid, (intmax_t)MIDIQ_LEN(scp->out_q), (intmax_t)MIDIQ_AVAIL(scp->out_q))); if (used != 4) { retval = ENXIO; goto err0; } retval = uiomove(event, used, uio); if (retval) goto err0; ev_code = event[0]; SEQ_DEBUG(8, printf("seq_write: unit %d, event %s.\n", scp->unit, midi_cmdname(ev_code, cmdtab_seqevent))); /* Have a look at the event code. */ if (ev_code == SEQ_FULLSIZE) { /* * TODO: restore code for SEQ_FULLSIZE */ #if 0 /* * A long event, these are the patches/samples for a * synthesizer. */ midiunit = *(u_short *)&event[2]; mtx_lock(&sd->seq_lock); ret = lookup_mididev(scp, midiunit, LOOKUP_OPEN, &md); mtx_unlock(&sd->seq_lock); if (ret != 0) return (ret); SEQ_DEBUG(printf("seq_write: loading a patch to the unit %d.\n", midiunit)); ret = md->synth.loadpatch(md, *(short *)&event[0], buf, p + 4, count, 0); return (ret); #else /* * For now, just flush the darn buffer */ SEQ_DEBUG(2, printf("seq_write: SEQ_FULLSIZE flusing buffer.\n")); while (uio->uio_resid > 0) { retval = uiomove(event, EV_SZ, uio); if (retval) goto err0; } retval = 0; goto err0; #endif } retval = EINVAL; if (ev_code >= 128) { /* * Some sort of an extended event. The size is eight * bytes. scoop extra info. */ if (scp->music && ev_code == SEQ_EXTENDED) { SEQ_DEBUG(2, printf("seq_write: invalid level two event %x.\n", ev_code)); goto err0; } if (uiomove((caddr_t)&event[4], 4, uio)) { SEQ_DEBUG(2, printf("seq_write: user memory mangled?\n")); goto err0; } } else { /* * Size four event. */ if (scp->music) { SEQ_DEBUG(2, printf("seq_write: four byte event in music mode.\n")); goto err0; } } if (ev_code == SEQ_MIDIPUTC) { /* * TODO: event[2] is unit number to receive char. * Range check it. */ } if (scp->music) { #ifdef not_ever_ever if (event[0] == EV_TIMING && (event[1] == TMR_START || event[1] == TMR_STOP)) { /* * For now, try to make midimoutain work by * forcing these events to be processed * immediatly. */ seq_processevent(scp, event); } else MIDIQ_ENQ(scp->out_q, event, EV_SZ); #else MIDIQ_ENQ(scp->out_q, event, EV_SZ); #endif } else { if (seq_convertold(event, newevent) > 0) MIDIQ_ENQ(scp->out_q, newevent, EV_SZ); #if 0 else goto err0; #endif } } scp->playing = 1; cv_broadcast(&scp->state_cv); cv_broadcast(&scp->out_cv); retval = 0; err0: SEQ_DEBUG(6, printf("seq_write done: leftover buffer length %zd retval %d\n", uio->uio_resid, retval)); mtx_unlock(&scp->seq_lock); return retval; } int seq_ioctl(struct cdev *i_dev, u_long cmd, caddr_t arg, int mode, struct thread *td) { int midiunit, ret, tmp; struct seq_softc *scp = i_dev->si_drv1; struct synth_info *synthinfo; struct midi_info *midiinfo; u_char event[EV_SZ]; u_char newevent[EV_SZ]; kobj_t md; /* * struct snd_size *sndsize; */ if (scp == NULL) return ENXIO; SEQ_DEBUG(6, printf("seq_ioctl: unit %d, cmd %s.\n", scp->unit, midi_cmdname(cmd, cmdtab_seqioctl))); ret = 0; switch (cmd) { case SNDCTL_SEQ_GETTIME: /* * ioctl needed by libtse */ mtx_lock(&scp->seq_lock); *(int *)arg = timer_now(scp); mtx_unlock(&scp->seq_lock); SEQ_DEBUG(6, printf("seq_ioctl: gettime %d.\n", *(int *)arg)); ret = 0; break; case SNDCTL_TMR_METRONOME: /* fallthrough */ case SNDCTL_TMR_SOURCE: /* * Not implemented */ ret = 0; break; case SNDCTL_TMR_TEMPO: event[1] = TMR_TEMPO; event[4] = *(int *)arg & 0xFF; event[5] = (*(int *)arg >> 8) & 0xFF; event[6] = (*(int *)arg >> 16) & 0xFF; event[7] = (*(int *)arg >> 24) & 0xFF; goto timerevent; case SNDCTL_TMR_TIMEBASE: event[1] = TMR_TIMERBASE; event[4] = *(int *)arg & 0xFF; event[5] = (*(int *)arg >> 8) & 0xFF; event[6] = (*(int *)arg >> 16) & 0xFF; event[7] = (*(int *)arg >> 24) & 0xFF; goto timerevent; case SNDCTL_TMR_START: event[1] = TMR_START; goto timerevent; case SNDCTL_TMR_STOP: event[1] = TMR_STOP; goto timerevent; case SNDCTL_TMR_CONTINUE: event[1] = TMR_CONTINUE; timerevent: event[0] = EV_TIMING; mtx_lock(&scp->seq_lock); if (!scp->music) { ret = EINVAL; mtx_unlock(&scp->seq_lock); break; } seq_processevent(scp, event); mtx_unlock(&scp->seq_lock); break; case SNDCTL_TMR_SELECT: SEQ_DEBUG(2, printf("seq_ioctl: SNDCTL_TMR_SELECT not supported\n")); ret = EINVAL; break; case SNDCTL_SEQ_SYNC: if (mode == O_RDONLY) { ret = 0; break; } mtx_lock(&scp->seq_lock); ret = seq_sync(scp); mtx_unlock(&scp->seq_lock); break; case SNDCTL_SEQ_PANIC: /* fallthrough */ case SNDCTL_SEQ_RESET: /* * SNDCTL_SEQ_PANIC == SNDCTL_SEQ_RESET */ mtx_lock(&scp->seq_lock); seq_reset(scp); mtx_unlock(&scp->seq_lock); ret = 0; break; case SNDCTL_SEQ_TESTMIDI: mtx_lock(&scp->seq_lock); /* * TODO: SNDCTL_SEQ_TESTMIDI now means "can I write to the * device?". */ mtx_unlock(&scp->seq_lock); break; #if 0 case SNDCTL_SEQ_GETINCOUNT: if (mode == O_WRONLY) *(int *)arg = 0; else { mtx_lock(&scp->seq_lock); *(int *)arg = scp->in_q.rl; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(printf("seq_ioctl: incount %d.\n", *(int *)arg)); } ret = 0; break; case SNDCTL_SEQ_GETOUTCOUNT: if (mode == O_RDONLY) *(int *)arg = 0; else { mtx_lock(&scp->seq_lock); *(int *)arg = scp->out_q.fl; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(printf("seq_ioctl: outcount %d.\n", *(int *)arg)); } ret = 0; break; #endif case SNDCTL_SEQ_CTRLRATE: if (*(int *)arg != 0) { ret = EINVAL; break; } mtx_lock(&scp->seq_lock); *(int *)arg = scp->timerbase; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(3, printf("seq_ioctl: ctrlrate %d.\n", *(int *)arg)); ret = 0; break; /* * TODO: ioctl SNDCTL_SEQ_RESETSAMPLES */ #if 0 case SNDCTL_SEQ_RESETSAMPLES: mtx_lock(&scp->seq_lock); ret = lookup_mididev(scp, *(int *)arg, LOOKUP_OPEN, &md); mtx_unlock(&scp->seq_lock); if (ret != 0) break; ret = midi_ioctl(MIDIMKDEV(major(i_dev), *(int *)arg, SND_DEV_MIDIN), cmd, arg, mode, td); break; #endif case SNDCTL_SEQ_NRSYNTHS: mtx_lock(&scp->seq_lock); *(int *)arg = scp->midi_number; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(3, printf("seq_ioctl: synths %d.\n", *(int *)arg)); ret = 0; break; case SNDCTL_SEQ_NRMIDIS: mtx_lock(&scp->seq_lock); if (scp->music) *(int *)arg = 0; else { /* * TODO: count the numbder of devices that can WRITERAW */ *(int *)arg = scp->midi_number; } mtx_unlock(&scp->seq_lock); SEQ_DEBUG(3, printf("seq_ioctl: midis %d.\n", *(int *)arg)); ret = 0; break; /* * TODO: ioctl SNDCTL_SYNTH_MEMAVL */ #if 0 case SNDCTL_SYNTH_MEMAVL: mtx_lock(&scp->seq_lock); ret = lookup_mididev(scp, *(int *)arg, LOOKUP_OPEN, &md); mtx_unlock(&scp->seq_lock); if (ret != 0) break; ret = midi_ioctl(MIDIMKDEV(major(i_dev), *(int *)arg, SND_DEV_MIDIN), cmd, arg, mode, td); break; #endif case SNDCTL_SEQ_OUTOFBAND: for (ret = 0; ret < EV_SZ; ret++) event[ret] = (u_char)arg[0]; mtx_lock(&scp->seq_lock); if (scp->music) ret = seq_processevent(scp, event); else { if (seq_convertold(event, newevent) > 0) ret = seq_processevent(scp, newevent); else ret = EINVAL; } mtx_unlock(&scp->seq_lock); break; case SNDCTL_SYNTH_INFO: synthinfo = (struct synth_info *)arg; midiunit = synthinfo->device; mtx_lock(&scp->seq_lock); if (seq_fetch_mid(scp, midiunit, &md) == 0) { bzero(synthinfo, sizeof(*synthinfo)); synthinfo->name[0] = 'f'; synthinfo->name[1] = 'a'; synthinfo->name[2] = 'k'; synthinfo->name[3] = 'e'; synthinfo->name[4] = 's'; synthinfo->name[5] = 'y'; synthinfo->name[6] = 'n'; synthinfo->name[7] = 't'; synthinfo->name[8] = 'h'; synthinfo->device = midiunit; synthinfo->synth_type = SYNTH_TYPE_MIDI; synthinfo->capabilities = scp->midi_flags[midiunit]; ret = 0; } else ret = EINVAL; mtx_unlock(&scp->seq_lock); break; case SNDCTL_MIDI_INFO: midiinfo = (struct midi_info *)arg; midiunit = midiinfo->device; mtx_lock(&scp->seq_lock); if (seq_fetch_mid(scp, midiunit, &md) == 0) { bzero(midiinfo, sizeof(*midiinfo)); midiinfo->name[0] = 'f'; midiinfo->name[1] = 'a'; midiinfo->name[2] = 'k'; midiinfo->name[3] = 'e'; midiinfo->name[4] = 'm'; midiinfo->name[5] = 'i'; midiinfo->name[6] = 'd'; midiinfo->name[7] = 'i'; midiinfo->device = midiunit; midiinfo->capabilities = scp->midi_flags[midiunit]; /* * TODO: What devtype? */ midiinfo->dev_type = 0x01; ret = 0; } else ret = EINVAL; mtx_unlock(&scp->seq_lock); break; case SNDCTL_SEQ_THRESHOLD: mtx_lock(&scp->seq_lock); RANGE(*(int *)arg, 1, MIDIQ_SIZE(scp->out_q) - 1); scp->out_water = *(int *)arg; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(3, printf("seq_ioctl: water %d.\n", *(int *)arg)); ret = 0; break; case SNDCTL_MIDI_PRETIME: tmp = *(int *)arg; if (tmp < 0) tmp = 0; mtx_lock(&scp->seq_lock); scp->pre_event_timeout = (hz * tmp) / 10; *(int *)arg = scp->pre_event_timeout; mtx_unlock(&scp->seq_lock); SEQ_DEBUG(3, printf("seq_ioctl: pretime %d.\n", *(int *)arg)); ret = 0; break; case SNDCTL_FM_4OP_ENABLE: case SNDCTL_PMGR_IFACE: case SNDCTL_PMGR_ACCESS: /* * Patch manager and fm are ded, ded, ded. */ /* fallthrough */ default: /* * TODO: Consider ioctl default case. * Old code used to * if ((scp->fflags & O_ACCMODE) == FREAD) { * ret = EIO; * break; * } * Then pass on the ioctl to device 0 */ SEQ_DEBUG(2, printf("seq_ioctl: unsupported IOCTL %ld.\n", cmd)); ret = EINVAL; break; } return ret; } int seq_poll(struct cdev *i_dev, int events, struct thread *td) { int ret, lim; struct seq_softc *scp = i_dev->si_drv1; SEQ_DEBUG(3, printf("seq_poll: unit %d.\n", scp->unit)); SEQ_DEBUG(1, printf("seq_poll: unit %d.\n", scp->unit)); mtx_lock(&scp->seq_lock); ret = 0; /* Look up the apropriate queue and select it. */ if ((events & (POLLOUT | POLLWRNORM)) != 0) { /* Start playing. */ scp->playing = 1; cv_broadcast(&scp->state_cv); cv_broadcast(&scp->out_cv); lim = scp->out_water; if (MIDIQ_AVAIL(scp->out_q) < lim) /* No enough space, record select. */ selrecord(td, &scp->out_sel); else /* We can write now. */ ret |= events & (POLLOUT | POLLWRNORM); } if ((events & (POLLIN | POLLRDNORM)) != 0) { /* TODO: Start recording. */ /* Find out the boundary. */ lim = 1; if (MIDIQ_LEN(scp->in_q) < lim) /* No data ready, record select. */ selrecord(td, &scp->in_sel); else /* We can read now. */ ret |= events & (POLLIN | POLLRDNORM); } mtx_unlock(&scp->seq_lock); return (ret); } #if 0 static void sein_qtr(void *p, void /* mididev_info */ *md) { struct seq_softc *scp; scp = (struct seq_softc *)p; mtx_lock(&scp->seq_lock); /* Restart playing if we have the data to output. */ if (scp->queueout_pending) seq_callback(scp, SEQ_CB_START | SEQ_CB_WR); /* Check the midi device if we are reading. */ if ((scp->flags & SEQ_F_READING) != 0) seq_midiinput(scp, md); mtx_unlock(&scp->seq_lock); } #endif /* * seq_convertold * Was the old playevent. Use this to convert and old * style /dev/sequencer event to a /dev/music event */ static int seq_convertold(u_char *event, u_char *out) { int used; u_char dev, chn, note, vel; out[0] = out[1] = out[2] = out[3] = out[4] = out[5] = out[6] = out[7] = 0; dev = 0; chn = event[1]; note = event[2]; vel = event[3]; used = 0; restart: /* * TODO: Debug statement */ switch (event[0]) { case EV_TIMING: case EV_CHN_VOICE: case EV_CHN_COMMON: case EV_SYSEX: case EV_SEQ_LOCAL: out[0] = event[0]; out[1] = event[1]; out[2] = event[2]; out[3] = event[3]; out[4] = event[4]; out[5] = event[5]; out[6] = event[6]; out[7] = event[7]; used += 8; break; case SEQ_NOTEOFF: out[0] = EV_CHN_VOICE; out[1] = dev; out[2] = MIDI_NOTEOFF; out[3] = chn; out[4] = note; out[5] = 255; used += 4; break; case SEQ_NOTEON: out[0] = EV_CHN_VOICE; out[1] = dev; out[2] = MIDI_NOTEON; out[3] = chn; out[4] = note; out[5] = vel; used += 4; break; /* * wait delay = (event[2] << 16) + (event[3] << 8) + event[4] */ case SEQ_PGMCHANGE: out[0] = EV_CHN_COMMON; out[1] = dev; out[2] = MIDI_PGM_CHANGE; out[3] = chn; out[4] = note; out[5] = vel; used += 4; break; /* out[0] = EV_TIMING; out[1] = dev; out[2] = MIDI_PGM_CHANGE; out[3] = chn; out[4] = note; out[5] = vel; SEQ_DEBUG(4,printf("seq_playevent: synctimer\n")); break; */ case SEQ_MIDIPUTC: SEQ_DEBUG(4, printf("seq_playevent: put data 0x%02x, unit %d.\n", event[1], event[2])); /* * Pass through to the midi device. * device = event[2] * data = event[1] */ out[0] = SEQ_MIDIPUTC; out[1] = dev; out[2] = chn; used += 4; break; #ifdef notyet case SEQ_ECHO: /* * This isn't handled here yet because I don't know if I can * just use four bytes events. There might be consequences * in the _read routing */ if (seq_copytoinput(scp, event, 4) == EAGAIN) { ret = QUEUEFULL; break; } ret = MORE; break; #endif case SEQ_EXTENDED: switch (event[1]) { case SEQ_NOTEOFF: case SEQ_NOTEON: case SEQ_PGMCHANGE: event++; used = 4; goto restart; break; case SEQ_AFTERTOUCH: /* * SYNTH_AFTERTOUCH(md, event[3], event[4]) */ case SEQ_BALANCE: /* * SYNTH_PANNING(md, event[3], (char)event[4]) */ case SEQ_CONTROLLER: /* * SYNTH_CONTROLLER(md, event[3], event[4], *(short *)&event[5]) */ case SEQ_VOLMODE: /* * SYNTH_VOLUMEMETHOD(md, event[3]) */ default: SEQ_DEBUG(2, printf("seq_convertold: SEQ_EXTENDED type %d" "not handled\n", event[1])); break; } break; case SEQ_WAIT: out[0] = EV_TIMING; out[1] = TMR_WAIT_REL; out[4] = event[2]; out[5] = event[3]; out[6] = event[4]; SEQ_DEBUG(5, printf("SEQ_WAIT %d", event[2] + (event[3] << 8) + (event[4] << 24))); used += 4; break; case SEQ_ECHO: case SEQ_SYNCTIMER: case SEQ_PRIVATE: default: SEQ_DEBUG(2, printf("seq_convertold: event type %d not handled %d %d %d\n", event[0], event[1], event[2], event[3])); break; } return used; } /* * Writting to the sequencer buffer never blocks and drops * input which cannot be queued */ void seq_copytoinput(struct seq_softc *scp, u_char *event, int len) { mtx_assert(&scp->seq_lock, MA_OWNED); if (MIDIQ_AVAIL(scp->in_q) < len) { /* * ENOROOM? EINPUTDROPPED? ETOUGHLUCK? */ SEQ_DEBUG(2, printf("seq_copytoinput: queue full\n")); } else { MIDIQ_ENQ(scp->in_q, event, len); selwakeup(&scp->in_sel); cv_broadcast(&scp->in_cv); } } static int seq_chnvoice(struct seq_softc *scp, kobj_t md, u_char *event) { int ret, voice; u_char cmd, chn, note, parm; ret = 0; cmd = event[2]; chn = event[3]; note = event[4]; parm = event[5]; mtx_assert(&scp->seq_lock, MA_OWNED); SEQ_DEBUG(5, printf("seq_chnvoice: unit %d, dev %d, cmd %s," " chn %d, note %d, parm %d.\n", scp->unit, event[1], midi_cmdname(cmd, cmdtab_seqcv), chn, note, parm)); voice = SYNTH_ALLOC(md, chn, note); mtx_unlock(&scp->seq_lock); switch (cmd) { case MIDI_NOTEON: if (note < 128 || note == 255) { #if 0 if (scp->music && chn == 9) { /* * This channel is a percussion. The note * number is the patch number. */ /* mtx_unlock(&scp->seq_lock); if (SYNTH_SETINSTR(md, voice, 128 + note) == EAGAIN) { mtx_lock(&scp->seq_lock); return (QUEUEFULL); } mtx_lock(&scp->seq_lock); */ note = 60; /* Middle C. */ } #endif if (scp->music) { /* mtx_unlock(&scp->seq_lock); if (SYNTH_SETUPVOICE(md, voice, chn) == EAGAIN) { mtx_lock(&scp->seq_lock); return (QUEUEFULL); } mtx_lock(&scp->seq_lock); */ } SYNTH_STARTNOTE(md, voice, note, parm); } break; case MIDI_NOTEOFF: SYNTH_KILLNOTE(md, voice, note, parm); break; case MIDI_KEY_PRESSURE: SYNTH_AFTERTOUCH(md, voice, parm); break; default: ret = 1; SEQ_DEBUG(2, printf("seq_chnvoice event type %d not handled\n", event[1])); break; } mtx_lock(&scp->seq_lock); return ret; } static int seq_chncommon(struct seq_softc *scp, kobj_t md, u_char *event) { int ret; u_short w14; u_char cmd, chn, p1; ret = 0; cmd = event[2]; chn = event[3]; p1 = event[4]; w14 = *(u_short *)&event[6]; SEQ_DEBUG(5, printf("seq_chncommon: unit %d, dev %d, cmd %s, chn %d," " p1 %d, w14 %d.\n", scp->unit, event[1], midi_cmdname(cmd, cmdtab_seqccmn), chn, p1, w14)); mtx_unlock(&scp->seq_lock); switch (cmd) { case MIDI_PGM_CHANGE: SEQ_DEBUG(4, printf("seq_chncommon pgmchn chn %d pg %d\n", chn, p1)); SYNTH_SETINSTR(md, chn, p1); break; case MIDI_CTL_CHANGE: SEQ_DEBUG(4, printf("seq_chncommon ctlch chn %d pg %d %d\n", chn, p1, w14)); SYNTH_CONTROLLER(md, chn, p1, w14); break; case MIDI_PITCH_BEND: if (scp->music) { /* * TODO: MIDI_PITCH_BEND */ #if 0 mtx_lock(&md->synth.vc_mtx); md->synth.chn_info[chn].bender_value = w14; if (md->midiunit >= 0) { /* * Handle all of the notes playing on this * channel. */ key = ((int)chn << 8); for (i = 0; i < md->synth.alloc.max_voice; i++) if ((md->synth.alloc.map[i] & 0xff00) == key) { mtx_unlock(&md->synth.vc_mtx); mtx_unlock(&scp->seq_lock); if (md->synth.bender(md, i, w14) == EAGAIN) { mtx_lock(&scp->seq_lock); return (QUEUEFULL); } mtx_lock(&scp->seq_lock); } } else { mtx_unlock(&md->synth.vc_mtx); mtx_unlock(&scp->seq_lock); if (md->synth.bender(md, chn, w14) == EAGAIN) { mtx_lock(&scp->seq_lock); return (QUEUEFULL); } mtx_lock(&scp->seq_lock); } #endif } else SYNTH_BENDER(md, chn, w14); break; default: ret = 1; SEQ_DEBUG(2, printf("seq_chncommon event type %d not handled.\n", event[1])); break; } mtx_lock(&scp->seq_lock); return ret; } static int seq_timing(struct seq_softc *scp, u_char *event) { int param; int ret; ret = 0; param = event[4] + (event[5] << 8) + (event[6] << 16) + (event[7] << 24); SEQ_DEBUG(5, printf("seq_timing: unit %d, cmd %d, param %d.\n", scp->unit, event[1], param)); switch (event[1]) { case TMR_WAIT_REL: timer_wait(scp, param, 0); break; case TMR_WAIT_ABS: timer_wait(scp, param, 1); break; case TMR_START: timer_start(scp); cv_broadcast(&scp->reset_cv); break; case TMR_STOP: timer_stop(scp); /* * The following cv_broadcast isn't needed since we only * wait for 0->1 transitions. It probably won't hurt */ cv_broadcast(&scp->reset_cv); break; case TMR_CONTINUE: timer_continue(scp); cv_broadcast(&scp->reset_cv); break; case TMR_TEMPO: if (param < 8) param = 8; if (param > 360) param = 360; SEQ_DEBUG(4, printf("Timer set tempo %d\n", param)); timer_setvals(scp, param, scp->timerbase); break; case TMR_TIMERBASE: if (param < 1) param = 1; if (param > 1000) param = 1000; SEQ_DEBUG(4, printf("Timer set timerbase %d\n", param)); timer_setvals(scp, scp->tempo, param); break; case TMR_ECHO: /* * TODO: Consider making 4-byte events for /dev/sequencer * PRO: Maybe needed by legacy apps * CON: soundcard.h has been warning for a while many years * to expect 8 byte events. */ #if 0 if (scp->music) seq_copytoinput(scp, event, 8); else { param = (param << 8 | SEQ_ECHO); seq_copytoinput(scp, (u_char *)¶m, 4); } #else seq_copytoinput(scp, event, 8); #endif break; default: SEQ_DEBUG(2, printf("seq_timing event type %d not handled.\n", event[1])); ret = 1; break; } return ret; } static int seq_local(struct seq_softc *scp, u_char *event) { int ret; ret = 0; mtx_assert(&scp->seq_lock, MA_OWNED); SEQ_DEBUG(5, printf("seq_local: unit %d, cmd %d\n", scp->unit, event[1])); switch (event[1]) { default: SEQ_DEBUG(1, printf("seq_local event type %d not handled\n", event[1])); ret = 1; break; } return ret; } static int seq_sysex(struct seq_softc *scp, kobj_t md, u_char *event) { int i, l; mtx_assert(&scp->seq_lock, MA_OWNED); SEQ_DEBUG(5, printf("seq_sysex: unit %d device %d\n", scp->unit, event[1])); l = 0; for (i = 0; i < 6 && event[i + 2] != 0xff; i++) l = i + 1; if (l > 0) { mtx_unlock(&scp->seq_lock); if (SYNTH_SENDSYSEX(md, &event[2], l) == EAGAIN) { mtx_lock(&scp->seq_lock); return 1; } mtx_lock(&scp->seq_lock); } return 0; } /* * Reset no longer closes the raw devices nor seq_sync's * Callers are IOCTL and seq_close */ static void seq_reset(struct seq_softc *scp) { int chn, i; kobj_t m; mtx_assert(&scp->seq_lock, MA_OWNED); SEQ_DEBUG(5, printf("seq_reset: unit %d.\n", scp->unit)); /* * Stop reading and writing. */ /* scp->recording = 0; */ scp->playing = 0; cv_broadcast(&scp->state_cv); cv_broadcast(&scp->out_cv); cv_broadcast(&scp->reset_cv); /* * For now, don't reset the timers. */ MIDIQ_CLEAR(scp->in_q); MIDIQ_CLEAR(scp->out_q); for (i = 0; i < scp->midi_number; i++) { m = scp->midis[i]; mtx_unlock(&scp->seq_lock); SYNTH_RESET(m); for (chn = 0; chn < 16; chn++) { SYNTH_CONTROLLER(m, chn, 123, 0); SYNTH_CONTROLLER(m, chn, 121, 0); SYNTH_BENDER(m, chn, 1 << 13); } mtx_lock(&scp->seq_lock); } } /* * seq_sync * *really* flush the output queue * flush the event queue, then flush the synthsisers. * Callers are IOCTL and close */ #define SEQ_SYNC_TIMEOUT 8 static int seq_sync(struct seq_softc *scp) { int i, rl, sync[16], done; mtx_assert(&scp->seq_lock, MA_OWNED); SEQ_DEBUG(4, printf("seq_sync: unit %d.\n", scp->unit)); /* * Wait until output queue is empty. Check every so often to see if * the queue is moving along. If it isn't just abort. */ while (!MIDIQ_EMPTY(scp->out_q)) { if (!scp->playing) { scp->playing = 1; cv_broadcast(&scp->state_cv); cv_broadcast(&scp->out_cv); } rl = MIDIQ_LEN(scp->out_q); i = cv_timedwait_sig(&scp->out_cv, &scp->seq_lock, SEQ_SYNC_TIMEOUT * hz); if (i == EINTR || i == ERESTART) { if (i == EINTR) { /* * XXX: I don't know why we stop playing */ scp->playing = 0; cv_broadcast(&scp->out_cv); } return i; } if (i == EWOULDBLOCK && rl == MIDIQ_LEN(scp->out_q) && scp->waiting == 0) { /* * A queue seems to be stuck up. Give up and clear * queues. */ MIDIQ_CLEAR(scp->out_q); scp->playing = 0; cv_broadcast(&scp->state_cv); cv_broadcast(&scp->out_cv); cv_broadcast(&scp->reset_cv); /* * TODO: Consider if the raw devices need to be flushed */ SEQ_DEBUG(1, printf("seq_sync queue stuck, aborting\n")); return i; } } scp->playing = 0; /* * Since syncing a midi device might block, unlock scp->seq_lock. */ mtx_unlock(&scp->seq_lock); for (i = 0; i < scp->midi_number; i++) sync[i] = 1; do { done = 1; for (i = 0; i < scp->midi_number; i++) if (sync[i]) { if (SYNTH_INSYNC(scp->midis[i]) == 0) sync[i] = 0; else done = 0; } if (!done) DELAY(5000); } while (!done); mtx_lock(&scp->seq_lock); return 0; } char * midi_cmdname(int cmd, midi_cmdtab *tab) { while (tab->name != NULL) { if (cmd == tab->cmd) return (tab->name); tab++; } return ("unknown"); }