/* $OpenBSD: sequencer.c,v 1.20 2010/11/18 21:15:14 miod Exp $ */ /* $NetBSD: sequencer.c,v 1.13 1998/11/25 22:17:07 augustss Exp $ */ /* * Copyright (c) 1998 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Lennart Augustsson (augustss@netbsd.org). * * 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef splaudio #define splaudio() splbio() /* XXX found in audio_if.h normally */ #endif #define ADDTIMEVAL(a, b) ( \ (a)->tv_sec += (b)->tv_sec, \ (a)->tv_usec += (b)->tv_usec, \ (a)->tv_usec >= 1000000 ? ((a)->tv_sec++, (a)->tv_usec -= 1000000) : 0\ ) #define SUBTIMEVAL(a, b) ( \ (a)->tv_sec -= (b)->tv_sec, \ (a)->tv_usec -= (b)->tv_usec, \ (a)->tv_usec < 0 ? ((a)->tv_sec--, (a)->tv_usec += 1000000) : 0\ ) #ifdef AUDIO_DEBUG #define DPRINTF(x) if (sequencerdebug) printf x #define DPRINTFN(n,x) if (sequencerdebug >= (n)) printf x int sequencerdebug = 0; #else #define DPRINTF(x) #define DPRINTFN(n,x) #endif #define SEQ_CMD(b) ((b)->arr[0]) #define SEQ_EDEV(b) ((b)->arr[1]) #define SEQ_ECMD(b) ((b)->arr[2]) #define SEQ_ECHAN(b) ((b)->arr[3]) #define SEQ_ENOTE(b) ((b)->arr[4]) #define SEQ_EPARM(b) ((b)->arr[5]) #define SEQ_EP1(b) ((b)->arr[4]) #define SEQ_EP2(b) ((b)->arr[5]) #define SEQ_XCMD(b) ((b)->arr[1]) #define SEQ_XDEV(b) ((b)->arr[2]) #define SEQ_XCHAN(b) ((b)->arr[3]) #define SEQ_XNOTE(b) ((b)->arr[4]) #define SEQ_XVEL(b) ((b)->arr[5]) #define SEQ_TCMD(b) ((b)->arr[1]) #define SEQ_TPARM(b) ((b)->arr[4]) #define SEQ_NOTE_MAX 128 #define SEQ_NOTE_XXX 255 #define SEQ_VEL_OFF 0 #define RECALC_TICK(t) ((t)->tick = 60 * 1000000L / ((t)->tempo * (t)->timebase)) struct sequencer_softc seqdevs[NSEQUENCER]; void sequencerattach(int); void seq_reset(struct sequencer_softc *); int seq_do_command(struct sequencer_softc *, seq_event_rec *); int seq_do_extcommand(struct sequencer_softc *, seq_event_rec *); int seq_do_chnvoice(struct sequencer_softc *, seq_event_rec *); int seq_do_chncommon(struct sequencer_softc *, seq_event_rec *); int seq_do_timing(struct sequencer_softc *, seq_event_rec *); int seq_do_local(struct sequencer_softc *, seq_event_rec *); int seq_do_sysex(struct sequencer_softc *, seq_event_rec *); int seq_do_fullsize(struct sequencer_softc *, seq_event_rec *, struct uio *); int seq_timer(struct sequencer_softc *, int, int, seq_event_rec *); static int seq_input_event(struct sequencer_softc *, seq_event_rec *); int seq_drain(struct sequencer_softc *); void seq_startoutput(struct sequencer_softc *); void seq_timeout(void *); int seq_to_new(seq_event_rec *, struct uio *); static int seq_sleep_timo(int *, char *, int); static int seq_sleep(int *, char *); static void seq_wakeup(int *); struct midi_softc; int midiseq_out(struct midi_dev *, u_char *, u_int, int); struct midi_dev *midiseq_open(int, int); void midiseq_close(struct midi_dev *); void midiseq_reset(struct midi_dev *); int midiseq_noteon(struct midi_dev *, int, int, int); int midiseq_noteoff(struct midi_dev *, int, int, int); int midiseq_keypressure(struct midi_dev *, int, int, int); int midiseq_pgmchange(struct midi_dev *, int, int); int midiseq_chnpressure(struct midi_dev *, int, int); int midiseq_ctlchange(struct midi_dev *, int, int, int); int midiseq_pitchbend(struct midi_dev *, int, int); int midiseq_loadpatch(struct midi_dev *, struct sysex_info *, struct uio *); int midiseq_putc(struct midi_dev *, int); void midiseq_in(struct midi_dev *, u_char *, int); void sequencerattach(int n) { } int sequenceropen(dev_t dev, int flags, int ifmt, struct proc *p) { int unit = SEQUENCERUNIT(dev); struct sequencer_softc *sc; struct midi_dev *md; int nmidi; DPRINTF(("sequenceropen\n")); if (unit >= NSEQUENCER) return (ENXIO); sc = &seqdevs[unit]; if (sc->isopen) return (EBUSY); if (SEQ_IS_OLD(dev)) sc->mode = SEQ_OLD; else sc->mode = SEQ_NEW; sc->isopen++; sc->flags = flags & (FREAD|FWRITE); sc->rchan = 0; sc->wchan = 0; sc->pbus = 0; sc->async = 0; sc->input_stamp = ~0; sc->nmidi = 0; nmidi = midi_unit_count(); sc->devs = malloc(nmidi * sizeof(struct midi_dev *), M_DEVBUF, M_WAITOK); for (unit = 0; unit < nmidi; unit++) { md = midiseq_open(unit, flags); if (md) { sc->devs[sc->nmidi++] = md; md->seq = sc; } } sc->timer.timebase = 100; sc->timer.tempo = 60; sc->doingsysex = 0; RECALC_TICK(&sc->timer); sc->timer.last = 0; microtime(&sc->timer.start); SEQ_QINIT(&sc->inq); SEQ_QINIT(&sc->outq); sc->lowat = SEQ_MAXQ / 2; timeout_set(&sc->timo, seq_timeout, sc); seq_reset(sc); DPRINTF(("sequenceropen: mode=%d, nmidi=%d\n", sc->mode, sc->nmidi)); return (0); } static int seq_sleep_timo(int *chan, char *label, int timo) { int st; if (!label) label = "seq"; DPRINTFN(5, ("seq_sleep_timo: %p %s %d\n", chan, label, timo)); *chan = 1; st = tsleep(chan, PWAIT | PCATCH, label, timo); *chan = 0; #ifdef MIDI_DEBUG if (st != 0) printf("seq_sleep: %d\n", st); #endif return (st); } static int seq_sleep(int *chan, char *label) { return (seq_sleep_timo(chan, label, 0)); } static void seq_wakeup(int *chan) { if (*chan) { DPRINTFN(5, ("seq_wakeup: %p\n", chan)); wakeup(chan); *chan = 0; } } int seq_drain(struct sequencer_softc *sc) { int error; DPRINTFN(3, ("seq_drain: %p, len=%d\n", sc, SEQ_QLEN(&sc->outq))); seq_startoutput(sc); error = 0; while(!SEQ_QEMPTY(&sc->outq) && !error) error = seq_sleep_timo(&sc->wchan, "seq_dr", 60*hz); return (error); } void seq_timeout(void *addr) { struct sequencer_softc *sc = addr; DPRINTFN(4, ("seq_timeout: %p\n", sc)); sc->timeout = 0; seq_startoutput(sc); if (SEQ_QLEN(&sc->outq) < sc->lowat) { seq_wakeup(&sc->wchan); selwakeup(&sc->wsel); if (sc->async) psignal(sc->async, SIGIO); } } void seq_startoutput(struct sequencer_softc *sc) { struct sequencer_queue *q = &sc->outq; seq_event_rec cmd; if (sc->timeout) return; DPRINTFN(4, ("seq_startoutput: %p, len=%d\n", sc, SEQ_QLEN(q))); while(!SEQ_QEMPTY(q) && !sc->timeout) { SEQ_QGET(q, cmd); seq_do_command(sc, &cmd); } } int sequencerclose(dev_t dev, int flags, int ifmt, struct proc *p) { struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)]; int n, s; DPRINTF(("sequencerclose: %p\n", sc)); seq_drain(sc); s = splaudio(); if (sc->timeout) { timeout_del(&sc->timo); sc->timeout = 0; } splx(s); for (n = 0; n < sc->nmidi; n++) midiseq_close(sc->devs[n]); free(sc->devs, M_DEVBUF); sc->isopen = 0; return (0); } static int seq_input_event(struct sequencer_softc *sc, seq_event_rec *cmd) { struct sequencer_queue *q = &sc->inq; DPRINTFN(2, ("seq_input_event: %02x %02x %02x %02x %02x %02x %02x %02x\n", cmd->arr[0], cmd->arr[1], cmd->arr[2], cmd->arr[3], cmd->arr[4], cmd->arr[5], cmd->arr[6], cmd->arr[7])); if (SEQ_QFULL(q)) return (ENOMEM); SEQ_QPUT(q, *cmd); seq_wakeup(&sc->rchan); selwakeup(&sc->rsel); if (sc->async) psignal(sc->async, SIGIO); return (0); } void seq_event_intr(void *addr, seq_event_rec *iev) { struct sequencer_softc *sc = addr; union { u_int32_t l; u_int8_t b[4]; } u; u_long t; struct timeval now; seq_event_rec ev; microtime(&now); SUBTIMEVAL(&now, &sc->timer.start); t = now.tv_sec * 1000000 + now.tv_usec; t /= sc->timer.tick; if (t != sc->input_stamp) { ev.arr[0] = SEQ_TIMING; ev.arr[1] = TMR_WAIT_ABS; ev.arr[2] = 0; ev.arr[3] = 0; u.l = t; ev.arr[4] = u.b[0]; ev.arr[5] = u.b[1]; ev.arr[6] = u.b[2]; ev.arr[7] = u.b[3]; seq_input_event(sc, &ev); sc->input_stamp = t; } seq_input_event(sc, iev); } int sequencerread(dev_t dev, struct uio *uio, int ioflag) { struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)]; struct sequencer_queue *q = &sc->inq; seq_event_rec ev; int error, s; DPRINTFN(20, ("sequencerread: %p, count=%d, ioflag=%x\n", sc, uio->uio_resid, ioflag)); if (sc->mode == SEQ_OLD) { DPRINTF(("sequencerread: old read\n")); return (EINVAL); /* XXX unimplemented */ } error = 0; while (SEQ_QEMPTY(q)) { if (ioflag & IO_NDELAY) return (EWOULDBLOCK); else { error = seq_sleep(&sc->rchan, "seq rd"); if (error) return (error); } } s = splaudio(); while (uio->uio_resid >= sizeof ev && !error && !SEQ_QEMPTY(q)) { SEQ_QGET(q, ev); error = uiomove((caddr_t)&ev, sizeof ev, uio); } splx(s); return (error); } int sequencerwrite(dev_t dev, struct uio *uio, int ioflag) { struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)]; struct sequencer_queue *q = &sc->outq; int error; seq_event_rec cmdbuf; int size; DPRINTFN(2, ("sequencerwrite: %p, count=%d\n", sc, uio->uio_resid)); error = 0; size = sc->mode == SEQ_NEW ? sizeof cmdbuf : SEQOLD_CMDSIZE; while (uio->uio_resid >= size) { error = uiomove((caddr_t)&cmdbuf, size, uio); if (error) break; if (sc->mode == SEQ_OLD) if (seq_to_new(&cmdbuf, uio)) continue; if (SEQ_CMD(&cmdbuf) == SEQ_FULLSIZE) { /* We do it like OSS does, asynchronously */ error = seq_do_fullsize(sc, &cmdbuf, uio); if (error) break; continue; } while (SEQ_QFULL(q)) { seq_startoutput(sc); if (SEQ_QFULL(q)) { if (ioflag & IO_NDELAY) return (EWOULDBLOCK); error = seq_sleep(&sc->wchan, "seq_wr"); if (error) return (error); } } SEQ_QPUT(q, cmdbuf); } seq_startoutput(sc); #ifdef SEQUENCER_DEBUG if (error) DPRINTFN(2, ("sequencerwrite: error=%d\n", error)); #endif return (error); } int sequencerioctl(dev_t dev, u_long cmd, caddr_t addr, int flag, struct proc *p) { struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)]; struct synth_info *si; struct midi_dev *md; int devno; int error; int t; DPRINTFN(2, ("sequencerioctl: %p cmd=0x%08lx\n", sc, cmd)); error = 0; switch (cmd) { case FIONBIO: /* All handled in the upper FS layer. */ break; case FIOASYNC: if (*(int *)addr) { if (sc->async) return (EBUSY); sc->async = p; DPRINTF(("sequencer_ioctl: FIOASYNC %p\n", p)); } else sc->async = 0; break; case SEQUENCER_RESET: seq_reset(sc); break; case SEQUENCER_PANIC: seq_reset(sc); /* Do more? OSS doesn't */ break; case SEQUENCER_SYNC: if (sc->flags == FREAD) return (0); seq_drain(sc); error = 0; break; case SEQUENCER_INFO: si = (struct synth_info*)addr; devno = si->device; if (devno < 0 || devno >= sc->nmidi) return (EINVAL); md = sc->devs[devno]; strncpy(si->name, md->name, sizeof si->name); si->synth_type = SYNTH_TYPE_MIDI; si->synth_subtype = md->subtype; si->nr_voices = md->nr_voices; si->instr_bank_size = md->instr_bank_size; si->capabilities = md->capabilities; break; case SEQUENCER_NRSYNTHS: *(int *)addr = sc->nmidi; break; case SEQUENCER_NRMIDIS: *(int *)addr = sc->nmidi; break; case SEQUENCER_OUTOFBAND: DPRINTFN(3, ("sequencer_ioctl: OOB=%02x %02x %02x %02x %02x %02x %02x %02x\n", *(u_char *)addr, *(u_char *)(addr+1), *(u_char *)(addr+2), *(u_char *)(addr+3), *(u_char *)(addr+4), *(u_char *)(addr+5), *(u_char *)(addr+6), *(u_char *)(addr+7))); error = seq_do_command(sc, (seq_event_rec *)addr); break; case SEQUENCER_TMR_TIMEBASE: t = *(int *)addr; if (t < 1) t = 1; if (t > 1000) t = 1000; sc->timer.timebase = t; *(int *)addr = t; RECALC_TICK(&sc->timer); break; case SEQUENCER_TMR_START: error = seq_timer(sc, TMR_START, 0, 0); break; case SEQUENCER_TMR_STOP: error = seq_timer(sc, TMR_STOP, 0, 0); break; case SEQUENCER_TMR_CONTINUE: error = seq_timer(sc, TMR_CONTINUE, 0, 0); break; case SEQUENCER_TMR_TEMPO: t = *(int *)addr; if (t < 8) t = 8; if (t > 250) t = 250; sc->timer.tempo = t; *(int *)addr = t; RECALC_TICK(&sc->timer); break; case SEQUENCER_TMR_SOURCE: *(int *)addr = SEQUENCER_TMR_INTERNAL; break; case SEQUENCER_TMR_METRONOME: /* noop */ break; case SEQUENCER_THRESHOLD: t = SEQ_MAXQ - *(int *)addr / sizeof (seq_event_rec); if (t < 1) t = 1; if (t > SEQ_MAXQ) t = SEQ_MAXQ; sc->lowat = t; break; case SEQUENCER_CTRLRATE: *(int *)addr = (sc->timer.tempo*sc->timer.timebase + 30) / 60; break; case SEQUENCER_GETTIME: { struct timeval now; u_long t; microtime(&now); SUBTIMEVAL(&now, &sc->timer.start); t = now.tv_sec * 1000000 + now.tv_usec; t /= sc->timer.tick; *(int *)addr = t; break; } default: DPRINTF(("sequencer_ioctl: unimpl %08lx\n", cmd)); error = ENOTTY; break; } return (error); } int sequencerpoll(dev_t dev, int events, struct proc *p) { struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)]; int revents = 0; DPRINTF(("sequencerpoll: %p rw=0x%x\n", sc, events)); if (events & (POLLIN | POLLRDNORM)) { if (!SEQ_QEMPTY(&sc->inq)) revents |= events & (POLLIN | POLLRDNORM); } if (events & (POLLOUT | POLLWRNORM)) { if (SEQ_QLEN(&sc->outq) < sc->lowat) revents |= events & (POLLOUT | POLLWRNORM); } if (revents == 0) { if (events & (POLLIN | POLLRDNORM)) selrecord(p, &sc->rsel); if (events & (POLLOUT | POLLWRNORM)) selrecord(p, &sc->wsel); } return (revents); } int sequencerkqfilter(dev_t dev, struct knote *kn) { return (EPERM); } void seq_reset(struct sequencer_softc *sc) { int i, chn; struct midi_dev *md; for (i = 0; i < sc->nmidi; i++) { md = sc->devs[i]; midiseq_reset(md); for (chn = 0; chn < MAXCHAN; chn++) { midiseq_ctlchange(md, chn, MIDI_CTRL_ALLOFF, 0); midiseq_ctlchange(md, chn, MIDI_CTRL_RESET, 0); midiseq_pitchbend(md, chn, MIDI_BEND_NEUTRAL); } } } int seq_do_command(struct sequencer_softc *sc, seq_event_rec *b) { int dev; DPRINTFN(4, ("seq_do_command: %p cmd=0x%02x\n", sc, SEQ_CMD(b))); switch(SEQ_CMD(b)) { case SEQ_LOCAL: return (seq_do_local(sc, b)); case SEQ_TIMING: return (seq_do_timing(sc, b)); case SEQ_CHN_VOICE: return (seq_do_chnvoice(sc, b)); case SEQ_CHN_COMMON: return (seq_do_chncommon(sc, b)); case SEQ_SYSEX: return (seq_do_sysex(sc, b)); /* COMPAT */ case SEQOLD_MIDIPUTC: dev = b->arr[2]; if (dev < 0 || dev >= sc->nmidi) return (ENXIO); return (midiseq_putc(sc->devs[dev], b->arr[1])); default: DPRINTF(("seq_do_command: unimpl command %02x\n", SEQ_CMD(b))); return (EINVAL); } } int seq_do_chnvoice(struct sequencer_softc *sc, seq_event_rec *b) { int cmd, dev, chan, note, parm, voice; int error; struct midi_dev *md; dev = SEQ_EDEV(b); if (dev < 0 || dev >= sc->nmidi) return (ENXIO); md = sc->devs[dev]; cmd = SEQ_ECMD(b); chan = SEQ_ECHAN(b); note = SEQ_ENOTE(b); parm = SEQ_EPARM(b); DPRINTFN(2,("seq_do_chnvoice: cmd=%02x dev=%d chan=%d note=%d parm=%d\n", cmd, dev, chan, note, parm)); voice = chan; if (cmd == MIDI_NOTEON && parm == 0) { cmd = MIDI_NOTEOFF; parm = MIDI_HALF_VEL; } switch(cmd) { case MIDI_NOTEON: DPRINTFN(5, ("seq_do_chnvoice: noteon %p %d %d %d\n", md, voice, note, parm)); error = midiseq_noteon(md, voice, note, parm); break; case MIDI_NOTEOFF: error = midiseq_noteoff(md, voice, note, parm); break; case MIDI_KEY_PRESSURE: error = midiseq_keypressure(md, voice, note, parm); break; default: DPRINTF(("seq_do_chnvoice: unimpl command %02x\n", cmd)); error = EINVAL; break; } return (error); } int seq_do_chncommon(struct sequencer_softc *sc, seq_event_rec *b) { int cmd, dev, chan, p1, w14; int error; struct midi_dev *md; union { int16_t s; u_int8_t b[2]; } u; dev = SEQ_EDEV(b); if (dev < 0 || dev >= sc->nmidi) return (ENXIO); md = sc->devs[dev]; cmd = SEQ_ECMD(b); chan = SEQ_ECHAN(b); p1 = SEQ_EP1(b); u.b[0] = b->arr[6]; u.b[1] = b->arr[7]; w14 = u.s; DPRINTFN(2,("seq_do_chncommon: %02x\n", cmd)); error = 0; switch(cmd) { case MIDI_PGM_CHANGE: error = midiseq_pgmchange(md, chan, p1); break; case MIDI_CTL_CHANGE: if (chan > 15 || p1 > 127) return (0); /* EINVAL */ error = midiseq_ctlchange(md, chan, p1, w14); break; case MIDI_PITCH_BEND: error = midiseq_pitchbend(md, chan, w14); break; case MIDI_CHN_PRESSURE: error = midiseq_chnpressure(md, chan, p1); break; default: DPRINTF(("seq_do_chncommon: unimpl command %02x\n", cmd)); error = EINVAL; break; } return (error); } int seq_do_timing(struct sequencer_softc *sc, seq_event_rec *b) { union { int32_t i; u_int8_t b[4]; } u; u.b[0] = b->arr[4]; u.b[1] = b->arr[5]; u.b[2] = b->arr[6]; u.b[3] = b->arr[7]; return (seq_timer(sc, SEQ_TCMD(b), u.i, b)); } int seq_do_local(struct sequencer_softc *sc, seq_event_rec *b) { return (EINVAL); } int seq_do_sysex(struct sequencer_softc *sc, seq_event_rec *b) { int dev, i; struct midi_dev *md; u_int8_t c, *buf = &b->arr[2]; dev = SEQ_EDEV(b); if (dev < 0 || dev >= sc->nmidi) return (ENXIO); DPRINTF(("seq_do_sysex: dev=%d\n", dev)); md = sc->devs[dev]; if (!sc->doingsysex) { c = MIDI_SYSEX_START; midiseq_out(md, &c, 1, 0); sc->doingsysex = 1; } for (i = 0; i < 6 && buf[i] != 0xff; i++) ; midiseq_out(md, buf, i, 0); if (i < 6 || (i > 0 && buf[i-1] == MIDI_SYSEX_END)) sc->doingsysex = 0; return (0); } int seq_timer(struct sequencer_softc *sc, int cmd, int parm, seq_event_rec *b) { struct syn_timer *t = &sc->timer; struct timeval when; int ticks; int error; long long usec; DPRINTFN(2,("seq_timer: %02x %d\n", cmd, parm)); error = 0; switch(cmd) { case TMR_WAIT_REL: parm += t->last; /* FALLTHROUGH */ case TMR_WAIT_ABS: t->last = parm; usec = (long long)parm * (long long)t->tick; /* convert to usec */ when.tv_sec = usec / 1000000; when.tv_usec = usec % 1000000; DPRINTFN(4, ("seq_timer: parm=%d, sleep when=%ld.%06ld", parm, when.tv_sec, when.tv_usec)); ADDTIMEVAL(&when, &t->start); /* abstime for end */ ticks = hzto(&when); DPRINTFN(4, (" when+start=%ld.%06ld, ticks=%d\n", when.tv_sec, when.tv_usec, ticks)); if (ticks > 0) { #ifdef DIAGNOSTIC if (ticks > 20 * hz) { /* Waiting more than 20s */ printf("seq_timer: funny ticks=%d, usec=%lld, parm=%d, tick=%ld\n", ticks, usec, parm, t->tick); } #endif sc->timeout = 1; timeout_add(&sc->timo, ticks); } #ifdef SEQUENCER_DEBUG else if (ticks < 0) DPRINTF(("seq_timer: ticks = %d\n", ticks)); #endif break; case TMR_START: microtime(&t->start); t->running = 1; break; case TMR_STOP: microtime(&t->stop); t->running = 0; break; case TMR_CONTINUE: microtime(&when); SUBTIMEVAL(&when, &t->stop); ADDTIMEVAL(&t->start, &when); t->running = 1; break; case TMR_TEMPO: /* parm is ticks per minute / timebase */ if (parm < 8) parm = 8; if (parm > 360) parm = 360; t->tempo = parm; RECALC_TICK(t); break; case TMR_ECHO: error = seq_input_event(sc, b); break; case TMR_RESET: t->last = 0; microtime(&t->start); break; default: DPRINTF(("seq_timer: unknown %02x\n", cmd)); error = EINVAL; break; } return (error); } int seq_do_fullsize(struct sequencer_softc *sc, seq_event_rec *b, struct uio *uio) { struct sysex_info sysex; u_int dev; #ifdef DIAGNOSTIC if (sizeof(seq_event_rec) != SEQ_SYSEX_HDRSIZE) { printf("seq_do_fullsize: sysex size ??\n"); return (EINVAL); } #endif memcpy(&sysex, b, sizeof sysex); dev = sysex.device_no; DPRINTFN(2, ("seq_do_fullsize: fmt=%04x, dev=%d, len=%d\n", sysex.key, dev, sysex.len)); return (midiseq_loadpatch(sc->devs[dev], &sysex, uio)); } /* Convert an old sequencer event to a new one. */ int seq_to_new(seq_event_rec *ev, struct uio *uio) { int cmd, chan, note, parm; u_int32_t delay; int error; cmd = SEQ_CMD(ev); chan = ev->arr[1]; note = ev->arr[2]; parm = ev->arr[3]; DPRINTFN(3, ("seq_to_new: 0x%02x %d %d %d\n", cmd, chan, note, parm)); if (cmd >= 0x80) { /* Fill the event record */ if (uio->uio_resid >= sizeof *ev - SEQOLD_CMDSIZE) { error = uiomove(&ev->arr[SEQOLD_CMDSIZE], sizeof *ev - SEQOLD_CMDSIZE, uio); if (error) return (error); } else return (EINVAL); } switch(cmd) { case SEQOLD_NOTEOFF: note = 255; SEQ_ECMD(ev) = MIDI_NOTEOFF; goto onoff; case SEQOLD_NOTEON: SEQ_ECMD(ev) = MIDI_NOTEON; onoff: SEQ_CMD(ev) = SEQ_CHN_VOICE; SEQ_EDEV(ev) = 0; SEQ_ECHAN(ev) = chan; SEQ_ENOTE(ev) = note; SEQ_EPARM(ev) = parm; break; case SEQOLD_WAIT: delay = *(u_int32_t *)ev->arr >> 8; SEQ_CMD(ev) = SEQ_TIMING; SEQ_TCMD(ev) = TMR_WAIT_REL; *(u_int32_t *)&ev->arr[4] = delay; break; case SEQOLD_SYNCTIMER: SEQ_CMD(ev) = SEQ_TIMING; SEQ_TCMD(ev) = TMR_RESET; break; case SEQOLD_PGMCHANGE: SEQ_ECMD(ev) = MIDI_PGM_CHANGE; SEQ_CMD(ev) = SEQ_CHN_COMMON; SEQ_EDEV(ev) = 0; SEQ_ECHAN(ev) = chan; SEQ_EP1(ev) = note; break; case SEQOLD_MIDIPUTC: break; /* interpret in normal mode */ case SEQOLD_ECHO: case SEQOLD_PRIVATE: case SEQOLD_EXTENDED: default: DPRINTF(("seq_to_new: not impl 0x%02x\n", cmd)); return (EINVAL); /* In case new events show up */ case SEQ_TIMING: case SEQ_CHN_VOICE: case SEQ_CHN_COMMON: case SEQ_FULLSIZE: break; } return (0); } /**********************************************/ void midiseq_in(struct midi_dev *md, u_char *msg, int len) { int unit = md->unit; seq_event_rec ev; int status, chan; DPRINTFN(2, ("midiseq_in: %p %02x %02x %02x\n", md, msg[0], msg[1], msg[2])); status = MIDI_GET_STATUS(msg[0]); chan = MIDI_GET_CHAN(msg[0]); switch (status) { case MIDI_NOTEON: if (msg[2] == 0) { status = MIDI_NOTEOFF; msg[2] = MIDI_HALF_VEL; } /* FALLTHROUGH */ case MIDI_NOTEOFF: case MIDI_KEY_PRESSURE: SEQ_MK_CHN_VOICE(&ev, unit, status, chan, msg[1], msg[2]); break; case MIDI_CTL_CHANGE: SEQ_MK_CHN_COMMON(&ev, unit, status, chan, msg[1], 0, msg[2]); break; case MIDI_PGM_CHANGE: case MIDI_CHN_PRESSURE: SEQ_MK_CHN_COMMON(&ev, unit, status, chan, msg[1], 0, 0); break; case MIDI_PITCH_BEND: SEQ_MK_CHN_COMMON(&ev, unit, status, chan, 0, 0, (msg[1] & 0x7f) | ((msg[2] & 0x7f) << 7)); break; default: return; } seq_event_intr(md->seq, &ev); } struct midi_dev * midiseq_open(int unit, int flags) { extern struct cfdriver midi_cd; int error; struct midi_dev *md; struct midi_softc *sc; struct midi_info mi; DPRINTFN(2, ("midiseq_open: %d %d\n", unit, flags)); error = midiopen(makedev(0, unit), flags, 0, 0); if (error) return (0); sc = midi_cd.cd_devs[unit]; sc->seqopen = 1; md = malloc(sizeof *md, M_DEVBUF, M_WAITOK | M_ZERO); sc->seq_md = md; md->msc = sc; midi_getinfo(makedev(0, unit), &mi); md->unit = unit; md->name = mi.name; md->subtype = 0; md->nr_voices = 128; /* XXX */ md->instr_bank_size = 128; /* XXX */ if (mi.props & MIDI_PROP_CAN_INPUT) md->capabilities |= SYNTH_CAP_INPUT; return (md); } void midiseq_close(struct midi_dev *md) { DPRINTFN(2, ("midiseq_close: %d\n", md->unit)); midiclose(makedev(0, md->unit), 0, 0, 0); free(md, M_DEVBUF); } void midiseq_reset(struct midi_dev *md) { /* XXX send GM reset? */ DPRINTFN(3, ("midiseq_reset: %d\n", md->unit)); } int midiseq_out(struct midi_dev *md, u_char *buf, u_int cc, int chk) { DPRINTFN(5, ("midiseq_out: m=%p, unit=%d, buf[0]=0x%02x, cc=%d\n", md->msc, md->unit, buf[0], cc)); /* The MIDI "status" byte does not have to be repeated. */ if (chk && md->last_cmd == buf[0]) buf++, cc--; else md->last_cmd = buf[0]; return (midi_writebytes(md->unit, buf, cc)); } int midiseq_noteon(struct midi_dev *md, int chan, int note, int vel) { u_char buf[3]; DPRINTFN(6, ("midiseq_noteon 0x%02x %d %d\n", MIDI_NOTEON | chan, note, vel)); if (chan < 0 || chan > 15 || note < 0 || note > 127) return (EINVAL); if (vel < 0) vel = 0; if (vel > 127) vel = 127; buf[0] = MIDI_NOTEON | chan; buf[1] = note; buf[2] = vel; return (midiseq_out(md, buf, 3, 1)); } int midiseq_noteoff(struct midi_dev *md, int chan, int note, int vel) { u_char buf[3]; if (chan < 0 || chan > 15 || note < 0 || note > 127) return (EINVAL); if (vel < 0) vel = 0; if (vel > 127) vel = 127; buf[0] = MIDI_NOTEOFF | chan; buf[1] = note; buf[2] = vel; return (midiseq_out(md, buf, 3, 1)); } int midiseq_keypressure(struct midi_dev *md, int chan, int note, int vel) { u_char buf[3]; if (chan < 0 || chan > 15 || note < 0 || note > 127) return (EINVAL); if (vel < 0) vel = 0; if (vel > 127) vel = 127; buf[0] = MIDI_KEY_PRESSURE | chan; buf[1] = note; buf[2] = vel; return (midiseq_out(md, buf, 3, 1)); } int midiseq_pgmchange(struct midi_dev *md, int chan, int parm) { u_char buf[2]; if (chan < 0 || chan > 15 || parm < 0 || parm > 127) return (EINVAL); buf[0] = MIDI_PGM_CHANGE | chan; buf[1] = parm; return (midiseq_out(md, buf, 2, 1)); } int midiseq_chnpressure(struct midi_dev *md, int chan, int parm) { u_char buf[2]; if (chan < 0 || chan > 15 || parm < 0 || parm > 127) return (EINVAL); buf[0] = MIDI_CHN_PRESSURE | chan; buf[1] = parm; return (midiseq_out(md, buf, 2, 1)); } int midiseq_ctlchange(struct midi_dev *md, int chan, int parm, int w14) { u_char buf[3]; if (chan < 0 || chan > 15 || parm < 0 || parm > 127) return (EINVAL); buf[0] = MIDI_CTL_CHANGE | chan; buf[1] = parm; buf[2] = w14 & 0x7f; return (midiseq_out(md, buf, 3, 1)); } int midiseq_pitchbend(struct midi_dev *md, int chan, int parm) { u_char buf[3]; if (chan < 0 || chan > 15) return (EINVAL); buf[0] = MIDI_PITCH_BEND | chan; buf[1] = parm & 0x7f; buf[2] = (parm >> 7) & 0x7f; return (midiseq_out(md, buf, 3, 1)); } int midiseq_loadpatch(struct midi_dev *md, struct sysex_info *sysex, struct uio *uio) { u_char c, buf[128]; int i, cc, error; if (sysex->key != SEQ_SYSEX_PATCH) { DPRINTF(("midiseq_loadpatch: bad patch key 0x%04x\n", sysex->key)); return (EINVAL); } if (uio->uio_resid < sysex->len) /* adjust length, should be an error */ sysex->len = uio->uio_resid; DPRINTFN(2, ("midiseq_loadpatch: len=%d\n", sysex->len)); if (sysex->len == 0) return (EINVAL); error = uiomove(&c, 1, uio); if (error) return error; if (c != MIDI_SYSEX_START) /* must start like this */ return (EINVAL); error = midiseq_out(md, &c, 1, 0); if (error) return (error); --sysex->len; while (sysex->len > 0) { cc = sysex->len; if (cc > sizeof buf) cc = sizeof buf; error = uiomove(buf, cc, uio); if (error) break; for(i = 0; i < cc && !MIDI_IS_STATUS(buf[i]); i++) ; error = midiseq_out(md, buf, i, 0); if (error) break; sysex->len -= i; if (i != cc) break; } /* Any leftover data in uio is rubbish; * the SYSEX should be one write ending in SYSEX_END. */ uio->uio_resid = 0; c = MIDI_SYSEX_END; return (midiseq_out(md, &c, 1, 0)); } int midiseq_putc(struct midi_dev *md, int data) { u_char c = data; DPRINTFN(4,("midiseq_putc: 0x%02x\n", data)); return (midiseq_out(md, &c, 1, 0)); } #include "midi.h" #if NMIDI == 0 /* * If someone has a sequencer, but no midi devices there will * be unresolved references, so we provide little stubs. */ int midi_unit_count() { return (0); } int midiopen(dev_t dev, int flags, int ifmt, struct proc *p) { return (ENXIO); } struct cfdriver midi_cd; void midi_getinfo(dev_t dev, struct midi_info *mi) { } int midiclose(dev_t dev, int flags, int ifmt, struct proc *p) { return (ENXIO); } int midi_writebytes(int unit, u_char *buf, int cc) { return (ENXIO); } #endif /* NMIDI == 0 */