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FreeBSD/Linux Kernel Cross Reference
sys/dev/sequencer.c

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    1 /*      $NetBSD: sequencer.c,v 1.50 2008/07/15 16:18:08 christos Exp $  */
    2 
    3 /*
    4  * Copyright (c) 1998 The NetBSD Foundation, Inc.
    5  * All rights reserved.
    6  *
    7  * This code is derived from software contributed to The NetBSD Foundation
    8  * by Lennart Augustsson (augustss@NetBSD.org).
    9  *
   10  * Redistribution and use in source and binary forms, with or without
   11  * modification, are permitted provided that the following conditions
   12  * are met:
   13  * 1. Redistributions of source code must retain the above copyright
   14  *    notice, this list of conditions and the following disclaimer.
   15  * 2. Redistributions in binary form must reproduce the above copyright
   16  *    notice, this list of conditions and the following disclaimer in the
   17  *    documentation and/or other materials provided with the distribution.
   18  *
   19  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
   20  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
   21  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
   22  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
   23  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
   24  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
   25  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
   26  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
   27  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
   28  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
   29  * POSSIBILITY OF SUCH DAMAGE.
   30  */
   31 
   32 #include <sys/cdefs.h>
   33 __KERNEL_RCSID(0, "$NetBSD: sequencer.c,v 1.50 2008/07/15 16:18:08 christos Exp $");
   34 
   35 #include "sequencer.h"
   36 
   37 #include <sys/param.h>
   38 #include <sys/ioctl.h>
   39 #include <sys/fcntl.h>
   40 #include <sys/vnode.h>
   41 #include <sys/select.h>
   42 #include <sys/poll.h>
   43 #include <sys/malloc.h>
   44 #include <sys/proc.h>
   45 #include <sys/systm.h>
   46 #include <sys/syslog.h>
   47 #include <sys/kernel.h>
   48 #include <sys/signalvar.h>
   49 #include <sys/conf.h>
   50 #include <sys/audioio.h>
   51 #include <sys/midiio.h>
   52 #include <sys/device.h>
   53 #include <sys/intr.h>
   54 
   55 #include <dev/midi_if.h>
   56 #include <dev/midivar.h>
   57 #include <dev/sequencervar.h>
   58 
   59 #define ADDTIMEVAL(a, b) ( \
   60         (a)->tv_sec += (b)->tv_sec, \
   61         (a)->tv_usec += (b)->tv_usec, \
   62         (a)->tv_usec > 1000000 ? ((a)->tv_sec++, (a)->tv_usec -= 1000000) : 0\
   63         )
   64 
   65 #define SUBTIMEVAL(a, b) ( \
   66         (a)->tv_sec -= (b)->tv_sec, \
   67         (a)->tv_usec -= (b)->tv_usec, \
   68         (a)->tv_usec < 0 ? ((a)->tv_sec--, (a)->tv_usec += 1000000) : 0\
   69         )
   70 
   71 #ifdef AUDIO_DEBUG
   72 #define DPRINTF(x)      if (sequencerdebug) printf x
   73 #define DPRINTFN(n,x)   if (sequencerdebug >= (n)) printf x
   74 int     sequencerdebug = 0;
   75 #else
   76 #define DPRINTF(x)
   77 #define DPRINTFN(n,x)
   78 #endif
   79 
   80 #define SEQ_NOTE_MAX 128
   81 #define SEQ_NOTE_XXX 255
   82 
   83 #define RECALC_USPERDIV(t) \
   84 ((t)->usperdiv = 60*1000000L/((t)->tempo_beatpermin*(t)->timebase_divperbeat))
   85 
   86 struct sequencer_softc seqdevs[NSEQUENCER];
   87 
   88 void sequencerattach(int);
   89 static void seq_reset(struct sequencer_softc *);
   90 static int seq_do_command(struct sequencer_softc *, seq_event_t *);
   91 static int seq_do_chnvoice(struct sequencer_softc *, seq_event_t *);
   92 static int seq_do_chncommon(struct sequencer_softc *, seq_event_t *);
   93 static void seq_timer_waitabs(struct sequencer_softc *, uint32_t);
   94 static int seq_do_timing(struct sequencer_softc *, seq_event_t *);
   95 static int seq_do_local(struct sequencer_softc *, seq_event_t *);
   96 static int seq_do_sysex(struct sequencer_softc *, seq_event_t *);
   97 static int seq_do_fullsize(struct sequencer_softc *, seq_event_t *, struct uio *);
   98 static int seq_input_event(struct sequencer_softc *, seq_event_t *);
   99 static int seq_drain(struct sequencer_softc *);
  100 static void seq_startoutput(struct sequencer_softc *);
  101 static void seq_timeout(void *);
  102 static int seq_to_new(seq_event_t *, struct uio *);
  103 static int seq_sleep_timo(int *, const char *, int);
  104 static int seq_sleep(int *, const char *);
  105 static void seq_wakeup(int *);
  106 static void seq_softintr(void *);
  107 
  108 struct midi_softc;
  109 static int midiseq_out(struct midi_dev *, u_char *, u_int, int);
  110 static struct midi_dev *midiseq_open(int, int);
  111 static void midiseq_close(struct midi_dev *);
  112 static void midiseq_reset(struct midi_dev *);
  113 static int midiseq_noteon(struct midi_dev *, int, int, seq_event_t *);
  114 static int midiseq_noteoff(struct midi_dev *, int, int, seq_event_t *);
  115 static int midiseq_keypressure(struct midi_dev *, int, int, seq_event_t *);
  116 static int midiseq_pgmchange(struct midi_dev *, int, seq_event_t *);
  117 static int midiseq_chnpressure(struct midi_dev *, int, seq_event_t *);
  118 static int midiseq_ctlchange(struct midi_dev *, int, seq_event_t *);
  119 static int midiseq_pitchbend(struct midi_dev *, int, seq_event_t *);
  120 static int midiseq_loadpatch(struct midi_dev *, struct sysex_info *, struct uio *);
  121 void midiseq_in(struct midi_dev *, u_char *, int);
  122 
  123 static dev_type_open(sequenceropen);
  124 static dev_type_close(sequencerclose);
  125 static dev_type_read(sequencerread);
  126 static dev_type_write(sequencerwrite);
  127 static dev_type_ioctl(sequencerioctl);
  128 static dev_type_poll(sequencerpoll);
  129 static dev_type_kqfilter(sequencerkqfilter);
  130 
  131 const struct cdevsw sequencer_cdevsw = {
  132         sequenceropen, sequencerclose, sequencerread, sequencerwrite,
  133         sequencerioctl, nostop, notty, sequencerpoll, nommap,
  134         sequencerkqfilter, D_OTHER,
  135 };
  136 
  137 void
  138 sequencerattach(int n)
  139 {
  140         struct sequencer_softc *sc;
  141 
  142         for (n = 0; n < NSEQUENCER; n++) {
  143                 sc = &seqdevs[n];
  144                 callout_init(&sc->sc_callout, 0);
  145                 sc->sih = softint_establish(SOFTINT_SERIAL, seq_softintr, sc);
  146         }
  147 }
  148 
  149 static int
  150 sequenceropen(dev_t dev, int flags, int ifmt, struct lwp *l)
  151 {
  152         int unit = SEQUENCERUNIT(dev);
  153         struct sequencer_softc *sc;
  154         struct midi_dev *md;
  155         int nmidi;
  156 
  157         DPRINTF(("sequenceropen\n"));
  158 
  159         if (unit >= NSEQUENCER)
  160                 return (ENXIO);
  161         sc = &seqdevs[unit];
  162         if (sc->isopen)
  163                 return EBUSY;
  164         if (SEQ_IS_OLD(unit))
  165                 sc->mode = SEQ_OLD;
  166         else
  167                 sc->mode = SEQ_NEW;
  168         sc->isopen++;
  169         sc->flags = flags & (FREAD|FWRITE);
  170         sc->rchan = 0;
  171         sc->wchan = 0;
  172         sc->pbus = 0;
  173         sc->async = 0;
  174         sc->input_stamp = ~0;
  175 
  176         sc->nmidi = 0;
  177         nmidi = midi_unit_count();
  178 
  179         sc->devs = malloc(nmidi * sizeof(struct midi_dev *),
  180                           M_DEVBUF, M_WAITOK);
  181         for (unit = 0; unit < nmidi; unit++) {
  182                 md = midiseq_open(unit, flags);
  183                 if (md) {
  184                         sc->devs[sc->nmidi++] = md;
  185                         md->seq = sc;
  186                         md->doingsysex = 0;
  187                 }
  188         }
  189 
  190         sc->timer.timebase_divperbeat = 100;
  191         sc->timer.tempo_beatpermin = 60;
  192         RECALC_USPERDIV(&sc->timer);
  193         sc->timer.divs_lastevent = sc->timer.divs_lastchange = 0;
  194         microtime(&sc->timer.reftime);
  195 
  196         SEQ_QINIT(&sc->inq);
  197         SEQ_QINIT(&sc->outq);
  198         sc->lowat = SEQ_MAXQ / 2;
  199 
  200         seq_reset(sc);
  201 
  202         DPRINTF(("sequenceropen: mode=%d, nmidi=%d\n", sc->mode, sc->nmidi));
  203         return 0;
  204 }
  205 
  206 static int
  207 seq_sleep_timo(int *chan, const char *label, int timo)
  208 {
  209         int st;
  210 
  211         if (!label)
  212                 label = "seq";
  213 
  214         DPRINTFN(5, ("seq_sleep_timo: %p %s %d\n", chan, label, timo));
  215         *chan = 1;
  216         st = tsleep(chan, PWAIT | PCATCH, label, timo);
  217         *chan = 0;
  218 #ifdef MIDI_DEBUG
  219         if (st != 0)
  220             printf("seq_sleep: %d\n", st);
  221 #endif
  222         return st;
  223 }
  224 
  225 static int
  226 seq_sleep(int *chan, const char *label)
  227 {
  228         return seq_sleep_timo(chan, label, 0);
  229 }
  230 
  231 static void
  232 seq_wakeup(int *chan)
  233 {
  234         if (*chan) {
  235                 DPRINTFN(5, ("seq_wakeup: %p\n", chan));
  236                 wakeup(chan);
  237                 *chan = 0;
  238         }
  239 }
  240 
  241 static int
  242 seq_drain(struct sequencer_softc *sc)
  243 {
  244         int error;
  245 
  246         DPRINTFN(3, ("seq_drain: %p, len=%d\n", sc, SEQ_QLEN(&sc->outq)));
  247         seq_startoutput(sc);
  248         error = 0;
  249         while(!SEQ_QEMPTY(&sc->outq) && !error)
  250                 error = seq_sleep_timo(&sc->wchan, "seq_dr", 60*hz);
  251         return (error);
  252 }
  253 
  254 static void
  255 seq_timeout(void *addr)
  256 {
  257         struct sequencer_softc *sc = addr;
  258         struct proc *p;
  259 
  260         DPRINTFN(4, ("seq_timeout: %p\n", sc));
  261         sc->timeout = 0;
  262         seq_startoutput(sc);
  263         if (SEQ_QLEN(&sc->outq) < sc->lowat) {
  264                 seq_wakeup(&sc->wchan);
  265                 selnotify(&sc->wsel, 0, 0);
  266                 if (sc->async != NULL) {
  267                         mutex_enter(proc_lock);
  268                         if ((p = sc->async) != NULL)
  269                                 psignal(p, SIGIO);
  270                         mutex_exit(proc_lock);
  271                 }
  272         }
  273 
  274 }
  275 
  276 static void
  277 seq_startoutput(struct sequencer_softc *sc)
  278 {
  279         struct sequencer_queue *q = &sc->outq;
  280         seq_event_t cmd;
  281 
  282         if (sc->timeout)
  283                 return;
  284         DPRINTFN(4, ("seq_startoutput: %p, len=%d\n", sc, SEQ_QLEN(q)));
  285         while(!SEQ_QEMPTY(q) && !sc->timeout) {
  286                 SEQ_QGET(q, cmd);
  287                 seq_do_command(sc, &cmd);
  288         }
  289 }
  290 
  291 static int
  292 sequencerclose(dev_t dev, int flags, int ifmt,
  293     struct lwp *l)
  294 {
  295         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  296         int n, s;
  297 
  298         DPRINTF(("sequencerclose: %p\n", sc));
  299 
  300         seq_drain(sc);
  301         s = splaudio();
  302         if (sc->timeout) {
  303                 callout_stop(&sc->sc_callout);
  304                 sc->timeout = 0;
  305         }
  306         splx(s);
  307 
  308         for (n = 0; n < sc->nmidi; n++)
  309                 midiseq_close(sc->devs[n]);
  310         free(sc->devs, M_DEVBUF);
  311         sc->isopen = 0;
  312         return (0);
  313 }
  314 
  315 static void
  316 seq_softintr(void *cookie)
  317 {
  318         struct sequencer_softc *sc = cookie;
  319         struct proc *p;
  320 
  321         seq_wakeup(&sc->rchan);
  322         selnotify(&sc->rsel, 0, 0);
  323         if (sc->async != NULL) {
  324                 mutex_enter(proc_lock);
  325                 if ((p = sc->async) != NULL)
  326                         psignal(p, SIGIO);
  327                 mutex_exit(proc_lock);
  328         }
  329 }
  330 
  331 static int
  332 seq_input_event(struct sequencer_softc *sc, seq_event_t *cmd)
  333 {
  334         struct sequencer_queue *q = &sc->inq;
  335 
  336         DPRINTFN(2, ("seq_input_event: %02x %02x %02x %02x %02x %02x %02x %02x\n",
  337                      cmd->tag,
  338                      cmd->unknown.byte[0], cmd->unknown.byte[1],
  339                      cmd->unknown.byte[2], cmd->unknown.byte[3],
  340                      cmd->unknown.byte[4], cmd->unknown.byte[5],
  341                      cmd->unknown.byte[6]));
  342         if (SEQ_QFULL(q))
  343                 return (ENOMEM);
  344         SEQ_QPUT(q, *cmd);
  345         softint_schedule(sc->sih);
  346         return 0;
  347 }
  348 
  349 void
  350 seq_event_intr(void *addr, seq_event_t *iev)
  351 {
  352         struct sequencer_softc *sc = addr;
  353         u_long t;
  354         struct timeval now;
  355         int s;
  356 
  357         microtime(&now);
  358         s = splsoftclock();
  359         if (!sc->timer.running)
  360                 now = sc->timer.stoptime;
  361         SUBTIMEVAL(&now, &sc->timer.reftime);
  362         t = now.tv_sec * 1000000 + now.tv_usec;
  363         t /= sc->timer.usperdiv;
  364         t += sc->timer.divs_lastchange;
  365         splx(s);
  366         if (t != sc->input_stamp) {
  367                 seq_input_event(sc, &SEQ_MK_TIMING(WAIT_ABS, .divisions=t));
  368                 sc->input_stamp = t; /* XXX wha hoppen if timer is reset? */
  369         }
  370         seq_input_event(sc, iev);
  371 }
  372 
  373 static int
  374 sequencerread(dev_t dev, struct uio *uio, int ioflag)
  375 {
  376         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  377         struct sequencer_queue *q = &sc->inq;
  378         seq_event_t ev;
  379         int error, s;
  380 
  381         DPRINTFN(20, ("sequencerread: %p, count=%d, ioflag=%x\n",
  382                      sc, (int) uio->uio_resid, ioflag));
  383 
  384         if (sc->mode == SEQ_OLD) {
  385                 DPRINTFN(-1,("sequencerread: old read\n"));
  386                 return (EINVAL); /* XXX unimplemented */
  387         }
  388 
  389         error = 0;
  390         while (SEQ_QEMPTY(q)) {
  391                 if (ioflag & IO_NDELAY)
  392                         return EWOULDBLOCK;
  393                 else {
  394                         error = seq_sleep(&sc->rchan, "seq rd");
  395                         if (error)
  396                                 return error;
  397                 }
  398         }
  399         s = splaudio();
  400         while (uio->uio_resid >= sizeof ev && !error && !SEQ_QEMPTY(q)) {
  401                 SEQ_QGET(q, ev);
  402                 error = uiomove(&ev, sizeof ev, uio);
  403         }
  404         splx(s);
  405         return error;
  406 }
  407 
  408 static int
  409 sequencerwrite(dev_t dev, struct uio *uio, int ioflag)
  410 {
  411         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  412         struct sequencer_queue *q = &sc->outq;
  413         int error;
  414         seq_event_t cmdbuf;
  415         int size;
  416         
  417         DPRINTFN(2, ("sequencerwrite: %p, count=%d\n", sc, (int) uio->uio_resid));
  418 
  419         error = 0;
  420         size = sc->mode == SEQ_NEW ? sizeof cmdbuf : SEQOLD_CMDSIZE;
  421         while (uio->uio_resid >= size) {
  422                 error = uiomove(&cmdbuf, size, uio);
  423                 if (error)
  424                         break;
  425                 if (sc->mode == SEQ_OLD)
  426                         if (seq_to_new(&cmdbuf, uio))
  427                                 continue;
  428                 if (cmdbuf.tag == SEQ_FULLSIZE) {
  429                         /* We do it like OSS does, asynchronously */
  430                         error = seq_do_fullsize(sc, &cmdbuf, uio);
  431                         if (error)
  432                                 break;
  433                         continue;
  434                 }
  435                 while (SEQ_QFULL(q)) {
  436                         seq_startoutput(sc);
  437                         if (SEQ_QFULL(q)) {
  438                                 if (ioflag & IO_NDELAY)
  439                                         return EWOULDBLOCK;
  440                                 error = seq_sleep(&sc->wchan, "seq_wr");
  441                                 if (error)
  442                                         return error;
  443                         }
  444                 }
  445                 SEQ_QPUT(q, cmdbuf);
  446         }
  447         seq_startoutput(sc);
  448 
  449 #ifdef SEQUENCER_DEBUG
  450         if (error)
  451                 DPRINTFN(2, ("sequencerwrite: error=%d\n", error));
  452 #endif
  453         return error;
  454 }
  455 
  456 static int
  457 sequencerioctl(dev_t dev, u_long cmd, void *addr, int flag,
  458     struct lwp *l)
  459 {
  460         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  461         struct synth_info *si;
  462         struct midi_dev *md;
  463         int devno;
  464         int error;
  465         int s;
  466         int t;
  467 
  468         DPRINTFN(2, ("sequencerioctl: %p cmd=0x%08lx\n", sc, cmd));
  469 
  470         error = 0;
  471         switch (cmd) {
  472         case FIONBIO:
  473                 /* All handled in the upper FS layer. */
  474                 break;
  475 
  476         case FIOASYNC:
  477                 if (*(int *)addr) {
  478                         if (sc->async)
  479                                 return EBUSY;
  480                         sc->async = l->l_proc;
  481                         DPRINTF(("sequencer_ioctl: FIOASYNC %p\n", l));
  482                 } else
  483                         sc->async = 0;
  484                 break;
  485 
  486         case SEQUENCER_RESET:
  487                 seq_reset(sc);
  488                 break;
  489 
  490         case SEQUENCER_PANIC:
  491                 seq_reset(sc);
  492                 /* Do more?  OSS doesn't */
  493                 break;
  494 
  495         case SEQUENCER_SYNC:
  496                 if (sc->flags == FREAD)
  497                         return 0;
  498                 seq_drain(sc);
  499                 error = 0;
  500                 break;
  501 
  502         case SEQUENCER_INFO:
  503                 si = (struct synth_info*)addr;
  504                 devno = si->device;
  505                 if (devno < 0 || devno >= sc->nmidi)
  506                         return EINVAL;
  507                 md = sc->devs[devno];
  508                 strncpy(si->name, md->name, sizeof si->name);
  509                 si->synth_type = SYNTH_TYPE_MIDI;
  510                 si->synth_subtype = md->subtype;
  511                 si->nr_voices = md->nr_voices;
  512                 si->instr_bank_size = md->instr_bank_size;
  513                 si->capabilities = md->capabilities;
  514                 break;
  515 
  516         case SEQUENCER_NRSYNTHS:
  517                 *(int *)addr = sc->nmidi;
  518                 break;
  519 
  520         case SEQUENCER_NRMIDIS:
  521                 *(int *)addr = sc->nmidi;
  522                 break;
  523 
  524         case SEQUENCER_OUTOFBAND:
  525                 DPRINTFN(3, ("sequencer_ioctl: OOB=%02x %02x %02x %02x %02x %02x %02x %02x\n",
  526                              *(u_char *)addr, *((u_char *)addr+1),
  527                              *((u_char *)addr+2), *((u_char *)addr+3),
  528                              *((u_char *)addr+4), *((u_char *)addr+5),
  529                              *((u_char *)addr+6), *((u_char *)addr+7)));
  530                 if ( !(sc->flags & FWRITE ) )
  531                         return EBADF;
  532                 error = seq_do_command(sc, (seq_event_t *)addr);
  533                 break;
  534 
  535         case SEQUENCER_TMR_TIMEBASE:
  536                 t = *(int *)addr;
  537                 if (t < 1)
  538                         t = 1;
  539                 if (t > 10000)
  540                         t = 10000;
  541                 *(int *)addr = t;
  542                 s = splsoftclock();
  543                 sc->timer.timebase_divperbeat = t;
  544                 sc->timer.divs_lastchange = sc->timer.divs_lastevent;
  545                 microtime(&sc->timer.reftime);
  546                 RECALC_USPERDIV(&sc->timer);
  547                 splx(s);
  548                 break;
  549 
  550         case SEQUENCER_TMR_START:
  551                 s = splsoftclock();
  552                 error = seq_do_timing(sc, &SEQ_MK_TIMING(START));
  553                 splx(s);
  554                 break;
  555 
  556         case SEQUENCER_TMR_STOP:
  557                 s = splsoftclock();
  558                 error = seq_do_timing(sc, &SEQ_MK_TIMING(STOP));
  559                 splx(s);
  560                 break;
  561 
  562         case SEQUENCER_TMR_CONTINUE:
  563                 s = splsoftclock();
  564                 error = seq_do_timing(sc, &SEQ_MK_TIMING(CONTINUE));
  565                 splx(s);
  566                 break;
  567 
  568         case SEQUENCER_TMR_TEMPO:
  569                 s = splsoftclock();
  570                 error = seq_do_timing(sc,
  571                     &SEQ_MK_TIMING(TEMPO, .bpm=*(int *)addr));
  572                 splx(s);
  573                 if (!error)
  574                     *(int *)addr = sc->timer.tempo_beatpermin;
  575                 break;
  576 
  577         case SEQUENCER_TMR_SOURCE:
  578                 *(int *)addr = SEQUENCER_TMR_INTERNAL;
  579                 break;
  580 
  581         case SEQUENCER_TMR_METRONOME:
  582                 /* noop */
  583                 break;
  584 
  585         case SEQUENCER_THRESHOLD:
  586                 t = SEQ_MAXQ - *(int *)addr / sizeof (seq_event_rec);
  587                 if (t < 1)
  588                         t = 1;
  589                 if (t > SEQ_MAXQ)
  590                         t = SEQ_MAXQ;
  591                 sc->lowat = t;
  592                 break;
  593 
  594         case SEQUENCER_CTRLRATE:
  595                 s = splsoftclock();
  596                 *(int *)addr = (sc->timer.tempo_beatpermin
  597                                *sc->timer.timebase_divperbeat + 30) / 60;
  598                 splx(s);
  599                 break;
  600 
  601         case SEQUENCER_GETTIME:
  602         {
  603                 struct timeval now;
  604                 u_long tx;
  605                 microtime(&now);
  606                 s = splsoftclock();
  607                 SUBTIMEVAL(&now, &sc->timer.reftime);
  608                 tx = now.tv_sec * 1000000 + now.tv_usec;
  609                 tx /= sc->timer.usperdiv;
  610                 tx += sc->timer.divs_lastchange;
  611                 splx(s);
  612                 *(int *)addr = tx;
  613                 break;
  614         }
  615 
  616         default:
  617                 DPRINTFN(-1,("sequencer_ioctl: unimpl %08lx\n", cmd));
  618                 error = EINVAL;
  619                 break;
  620         }
  621         return error;
  622 }
  623 
  624 static int
  625 sequencerpoll(dev_t dev, int events, struct lwp *l)
  626 {
  627         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  628         int revents = 0;
  629 
  630         DPRINTF(("sequencerpoll: %p events=0x%x\n", sc, events));
  631 
  632         if (events & (POLLIN | POLLRDNORM))
  633                 if ((sc->flags&FREAD) && !SEQ_QEMPTY(&sc->inq))
  634                         revents |= events & (POLLIN | POLLRDNORM);
  635 
  636         if (events & (POLLOUT | POLLWRNORM))
  637                 if ((sc->flags&FWRITE) && SEQ_QLEN(&sc->outq) < sc->lowat)
  638                         revents |= events & (POLLOUT | POLLWRNORM);
  639 
  640         if (revents == 0) {
  641                 if ((sc->flags&FREAD) && (events & (POLLIN | POLLRDNORM)))
  642                         selrecord(l, &sc->rsel);
  643 
  644                 if ((sc->flags&FWRITE) && (events & (POLLOUT | POLLWRNORM)))
  645                         selrecord(l, &sc->wsel);
  646         }
  647 
  648         return revents;
  649 }
  650 
  651 static void
  652 filt_sequencerrdetach(struct knote *kn)
  653 {
  654         struct sequencer_softc *sc = kn->kn_hook;
  655         int s;
  656 
  657         s = splaudio();
  658         SLIST_REMOVE(&sc->rsel.sel_klist, kn, knote, kn_selnext);
  659         splx(s);
  660 }
  661 
  662 static int
  663 filt_sequencerread(struct knote *kn, long hint)
  664 {
  665         struct sequencer_softc *sc = kn->kn_hook;
  666 
  667         /* XXXLUKEM (thorpej): make sure this is correct */
  668 
  669         if (SEQ_QEMPTY(&sc->inq))
  670                 return (0);
  671         kn->kn_data = sizeof(seq_event_rec);
  672         return (1);
  673 }
  674 
  675 static const struct filterops sequencerread_filtops =
  676         { 1, NULL, filt_sequencerrdetach, filt_sequencerread };
  677 
  678 static void
  679 filt_sequencerwdetach(struct knote *kn)
  680 {
  681         struct sequencer_softc *sc = kn->kn_hook;
  682         int s;
  683 
  684         s = splaudio();
  685         SLIST_REMOVE(&sc->wsel.sel_klist, kn, knote, kn_selnext);
  686         splx(s);
  687 }
  688 
  689 static int
  690 filt_sequencerwrite(struct knote *kn, long hint)
  691 {
  692         struct sequencer_softc *sc = kn->kn_hook;
  693 
  694         /* XXXLUKEM (thorpej): make sure this is correct */
  695 
  696         if (SEQ_QLEN(&sc->outq) >= sc->lowat)
  697                 return (0);
  698         kn->kn_data = sizeof(seq_event_rec);
  699         return (1);
  700 }
  701 
  702 static const struct filterops sequencerwrite_filtops =
  703         { 1, NULL, filt_sequencerwdetach, filt_sequencerwrite };
  704 
  705 static int
  706 sequencerkqfilter(dev_t dev, struct knote *kn)
  707 {
  708         struct sequencer_softc *sc = &seqdevs[SEQUENCERUNIT(dev)];
  709         struct klist *klist;
  710         int s;
  711 
  712         switch (kn->kn_filter) {
  713         case EVFILT_READ:
  714                 klist = &sc->rsel.sel_klist;
  715                 kn->kn_fop = &sequencerread_filtops;
  716                 break;
  717 
  718         case EVFILT_WRITE:
  719                 klist = &sc->wsel.sel_klist;
  720                 kn->kn_fop = &sequencerwrite_filtops;
  721                 break;
  722 
  723         default:
  724                 return (EINVAL);
  725         }
  726 
  727         kn->kn_hook = sc;
  728 
  729         s = splaudio();
  730         SLIST_INSERT_HEAD(klist, kn, kn_selnext);
  731         splx(s);
  732 
  733         return (0);
  734 }
  735 
  736 static void
  737 seq_reset(struct sequencer_softc *sc)
  738 {
  739         int i, chn;
  740         struct midi_dev *md;
  741 
  742         if ( !(sc->flags & FWRITE) )
  743                 return;
  744         for (i = 0; i < sc->nmidi; i++) {
  745                 md = sc->devs[i];
  746                 midiseq_reset(md);
  747                 for (chn = 0; chn < MAXCHAN; chn++) {
  748                         midiseq_ctlchange(md, chn, &SEQ_MK_CHN(CTL_CHANGE,
  749                             .controller=MIDI_CTRL_NOTES_OFF));
  750                         midiseq_ctlchange(md, chn, &SEQ_MK_CHN(CTL_CHANGE,
  751                             .controller=MIDI_CTRL_RESET));
  752                         midiseq_pitchbend(md, chn, &SEQ_MK_CHN(PITCH_BEND,
  753                             .value=MIDI_BEND_NEUTRAL));
  754                 }
  755         }
  756 }
  757 
  758 static int
  759 seq_do_command(struct sequencer_softc *sc, seq_event_t *b)
  760 {
  761         int dev;
  762 
  763         DPRINTFN(4, ("seq_do_command: %p cmd=0x%02x\n", sc, b->timing.op));
  764 
  765         switch(b->tag) {
  766         case SEQ_LOCAL:
  767                 return seq_do_local(sc, b);
  768         case SEQ_TIMING:
  769                 return seq_do_timing(sc, b);
  770         case SEQ_CHN_VOICE:
  771                 return seq_do_chnvoice(sc, b);
  772         case SEQ_CHN_COMMON:
  773                 return seq_do_chncommon(sc, b);
  774         case SEQ_SYSEX:
  775                 return seq_do_sysex(sc, b);
  776         /* COMPAT */
  777         case SEQOLD_MIDIPUTC:
  778                 dev = b->putc.device;
  779                 if (dev < 0 || dev >= sc->nmidi)
  780                         return (ENXIO);
  781                 return midiseq_out(sc->devs[dev], &b->putc.byte, 1, 0);
  782         default:
  783                 DPRINTFN(-1,("seq_do_command: unimpl command %02x\n", b->tag));
  784                 return (EINVAL);
  785         }
  786 }
  787 
  788 static int
  789 seq_do_chnvoice(struct sequencer_softc *sc, seq_event_t *b)
  790 {
  791         int dev;
  792         int error;
  793         struct midi_dev *md;
  794 
  795         dev = b->voice.device;
  796         if (dev < 0 || dev >= sc->nmidi ||
  797             b->voice.channel > 15 ||
  798             b->voice.key >= SEQ_NOTE_MAX)
  799                 return ENXIO;
  800         md = sc->devs[dev];
  801         switch(b->voice.op) {
  802         case MIDI_NOTEON: /* no need to special-case hidden noteoff here */
  803                 error = midiseq_noteon(md, b->voice.channel, b->voice.key, b);
  804                 break;
  805         case MIDI_NOTEOFF:
  806                 error = midiseq_noteoff(md, b->voice.channel, b->voice.key, b);
  807                 break;
  808         case MIDI_KEY_PRESSURE:
  809                 error = midiseq_keypressure(md,
  810                     b->voice.channel, b->voice.key, b);
  811                 break;
  812         default:
  813                 DPRINTFN(-1,("seq_do_chnvoice: unimpl command %02x\n",
  814                         b->voice.op));
  815                 error = EINVAL;
  816                 break;
  817         }
  818         return error;
  819 }
  820 
  821 static int
  822 seq_do_chncommon(struct sequencer_softc *sc, seq_event_t *b)
  823 {
  824         int dev;
  825         int error;
  826         struct midi_dev *md;
  827 
  828         dev = b->common.device;
  829         if (dev < 0 || dev >= sc->nmidi ||
  830             b->common.channel > 15)
  831                 return ENXIO;
  832         md = sc->devs[dev];
  833         DPRINTFN(2,("seq_do_chncommon: %02x\n", b->common.op));
  834 
  835         error = 0;
  836         switch(b->common.op) {
  837         case MIDI_PGM_CHANGE:
  838                 error = midiseq_pgmchange(md, b->common.channel, b);
  839                 break;
  840         case MIDI_CTL_CHANGE:
  841                 error = midiseq_ctlchange(md, b->common.channel, b);
  842                 break;
  843         case MIDI_PITCH_BEND:
  844                 error = midiseq_pitchbend(md, b->common.channel, b);
  845                 break;
  846         case MIDI_CHN_PRESSURE:
  847                 error = midiseq_chnpressure(md, b->common.channel, b);
  848                 break;
  849         default:
  850                 DPRINTFN(-1,("seq_do_chncommon: unimpl command %02x\n",
  851                         b->common.op));
  852                 error = EINVAL;
  853                 break;
  854         }
  855         return error;
  856 }
  857 
  858 static int
  859 seq_do_local(struct sequencer_softc *sc, seq_event_t *b)
  860 {
  861         return (EINVAL);
  862 }
  863 
  864 static int
  865 seq_do_sysex(struct sequencer_softc *sc, seq_event_t *b)
  866 {
  867         int dev, i;
  868         struct midi_dev *md;
  869         uint8_t *bf = b->sysex.buffer;
  870 
  871         dev = b->sysex.device;
  872         if (dev < 0 || dev >= sc->nmidi)
  873                 return (ENXIO);
  874         DPRINTF(("seq_do_sysex: dev=%d\n", dev));
  875         md = sc->devs[dev];
  876 
  877         if (!md->doingsysex) {
  878                 midiseq_out(md, (uint8_t[]){MIDI_SYSEX_START}, 1, 0);
  879                 md->doingsysex = 1;
  880         }
  881 
  882         for (i = 0; i < 6 && bf[i] != 0xff; i++)
  883                 ;
  884         midiseq_out(md, bf, i, 0);
  885         if (i < 6 || (i > 0 && bf[i-1] == MIDI_SYSEX_END))
  886                 md->doingsysex = 0;
  887         return 0;
  888 }
  889 
  890 static void
  891 seq_timer_waitabs(struct sequencer_softc *sc, uint32_t divs)
  892 {
  893         struct timeval when;
  894         long long usec;
  895         struct syn_timer *t;
  896         int ticks;
  897 
  898         t = &sc->timer;
  899         t->divs_lastevent = divs;
  900         divs -= t->divs_lastchange;
  901         usec = (long long)divs * (long long)t->usperdiv; /* convert to usec */
  902         when.tv_sec = usec / 1000000;
  903         when.tv_usec = usec % 1000000;
  904         DPRINTFN(4, ("seq_timer_waitabs: adjdivs=%d, sleep when=%ld.%06ld",
  905                      divs, when.tv_sec, when.tv_usec));
  906         ADDTIMEVAL(&when, &t->reftime); /* abstime for end */
  907         ticks = tvhzto(&when);
  908         DPRINTFN(4, (" when+start=%ld.%06ld, tick=%d\n",
  909                      when.tv_sec, when.tv_usec, ticks));
  910         if (ticks > 0) {
  911 #ifdef DIAGNOSTIC
  912                 if (ticks > 20 * hz) {
  913                         /* Waiting more than 20s */
  914                         printf("seq_timer_waitabs: funny ticks=%d, "
  915                                "usec=%lld\n", ticks, usec);
  916                 }
  917 #endif
  918                 sc->timeout = 1;
  919                 callout_reset(&sc->sc_callout, ticks,
  920                     seq_timeout, sc);
  921         }
  922 #ifdef SEQUENCER_DEBUG
  923         else if (tick < 0)
  924                 DPRINTF(("seq_timer_waitabs: ticks = %d\n", ticks));
  925 #endif
  926 }
  927 
  928 static int
  929 seq_do_timing(struct sequencer_softc *sc, seq_event_t *b)
  930 {
  931         struct syn_timer *t = &sc->timer;
  932         struct timeval when;
  933         int error;
  934 
  935         error = 0;
  936         switch(b->timing.op) {
  937         case TMR_WAIT_REL:
  938                 seq_timer_waitabs(sc,
  939                                   b->t_WAIT_REL.divisions + t->divs_lastevent);
  940                 break;
  941         case TMR_WAIT_ABS:
  942                 seq_timer_waitabs(sc, b->t_WAIT_ABS.divisions);
  943                 break;
  944         case TMR_START:
  945                 microtime(&t->reftime);
  946                 t->divs_lastevent = t->divs_lastchange = 0;
  947                 t->running = 1;
  948                 break;
  949         case TMR_STOP:
  950                 microtime(&t->stoptime);
  951                 t->running = 0;
  952                 break;
  953         case TMR_CONTINUE:
  954                 if (t->running)
  955                         break;
  956                 microtime(&when);
  957                 SUBTIMEVAL(&when, &t->stoptime);
  958                 ADDTIMEVAL(&t->reftime, &when);
  959                 t->running = 1;
  960                 break;
  961         case TMR_TEMPO:
  962                 /* bpm is unambiguously MIDI clocks per minute / 24 */
  963                 /* (24 MIDI clocks are usually but not always a quarter note) */
  964                 if (b->t_TEMPO.bpm < 8) /* where are these limits specified? */
  965                         t->tempo_beatpermin = 8;
  966                 else if (b->t_TEMPO.bpm > 360) /* ? */
  967                         t->tempo_beatpermin = 360;
  968                 else
  969                         t->tempo_beatpermin = b->t_TEMPO.bpm;
  970                 t->divs_lastchange = t->divs_lastevent;
  971                 microtime(&t->reftime);
  972                 RECALC_USPERDIV(t);
  973                 break;
  974         case TMR_ECHO:
  975                 error = seq_input_event(sc, b);
  976                 break;
  977         case TMR_RESET:
  978                 t->divs_lastevent = t->divs_lastchange = 0;
  979                 microtime(&t->reftime);
  980                 break;
  981         case TMR_SPP:
  982         case TMR_TIMESIG:
  983                 DPRINTF(("seq_do_timing: unimplemented %02x\n", b->timing.op));
  984                 error = EINVAL; /* not quite accurate... */
  985                 break;
  986         default:
  987                 DPRINTF(("seq_timer: unknown %02x\n", b->timing.op));
  988                 error = EINVAL;
  989                 break;
  990         }
  991         return (error);
  992 }
  993 
  994 static int
  995 seq_do_fullsize(struct sequencer_softc *sc, seq_event_t *b, struct uio *uio)
  996 {
  997         struct sysex_info sysex;
  998         u_int dev;
  999 
 1000 #ifdef DIAGNOSTIC
 1001         if (sizeof(seq_event_rec) != SEQ_SYSEX_HDRSIZE) {
 1002                 printf("seq_do_fullsize: sysex size ??\n");
 1003                 return EINVAL;
 1004         }
 1005 #endif
 1006         memcpy(&sysex, b, sizeof sysex);
 1007         dev = sysex.device_no;
 1008         if (/* dev < 0 || */ dev >= sc->nmidi)
 1009                 return (ENXIO);
 1010         DPRINTFN(2, ("seq_do_fullsize: fmt=%04x, dev=%d, len=%d\n",
 1011                      sysex.key, dev, sysex.len));
 1012         return (midiseq_loadpatch(sc->devs[dev], &sysex, uio));
 1013 }
 1014 
 1015 /*
 1016  * Convert an old sequencer event to a new one.
 1017  * NOTE: on entry, *ev may contain valid data only in the first 4 bytes.
 1018  * That may be true even on exit (!) in the case of SEQOLD_MIDIPUTC; the
 1019  * caller will only look at the first bytes in that case anyway. Ugly? Sure.
 1020  */
 1021 static int
 1022 seq_to_new(seq_event_t *ev, struct uio *uio)
 1023 {
 1024         int cmd, chan, note, parm;
 1025         uint32_t tmp_delay;
 1026         int error;
 1027         uint8_t *bfp;
 1028 
 1029         cmd = ev->tag;
 1030         bfp = ev->unknown.byte;
 1031         chan = *bfp++;
 1032         note = *bfp++;
 1033         parm = *bfp++;
 1034         DPRINTFN(3, ("seq_to_new: 0x%02x %d %d %d\n", cmd, chan, note, parm));
 1035 
 1036         if (cmd >= 0x80) {
 1037                 /* Fill the event record */
 1038                 if (uio->uio_resid >= sizeof *ev - SEQOLD_CMDSIZE) {
 1039                         error = uiomove(bfp, sizeof *ev - SEQOLD_CMDSIZE, uio);
 1040                         if (error)
 1041                                 return error;
 1042                 } else
 1043                         return EINVAL;
 1044         }
 1045 
 1046         switch(cmd) {
 1047         case SEQOLD_NOTEOFF:
 1048                 /*
 1049                  * What's with the SEQ_NOTE_XXX?  In OSS this seems to have
 1050                  * been undocumented magic for messing with the overall volume
 1051                  * of a 'voice', equated precariously with 'channel' and
 1052                  * pretty much unimplementable except by directly frobbing a
 1053                  * synth chip. For us, who treat everything as interfaced over
 1054                  * MIDI, this will just be unceremoniously discarded as
 1055                  * invalid in midiseq_noteoff, making the whole event an
 1056                  * elaborate no-op, and that doesn't seem to be any different
 1057                  * from what happens on linux with a MIDI-interfaced device,
 1058                  * by the way. The moral is ... use the new /dev/music API, ok?
 1059                  */
 1060                 *ev = SEQ_MK_CHN(NOTEOFF, .device=0, .channel=chan,
 1061                     .key=SEQ_NOTE_XXX, .velocity=parm);
 1062                 break;
 1063         case SEQOLD_NOTEON:
 1064                 *ev = SEQ_MK_CHN(NOTEON,
 1065                     .device=0, .channel=chan, .key=note, .velocity=parm);
 1066                 break;
 1067         case SEQOLD_WAIT:
 1068                 /*
 1069                  * This event cannot even /exist/ on non-littleendian machines,
 1070                  * and so help me, that's exactly the way OSS defined it.
 1071                  * Also, the OSS programmer's guide states (p. 74, v1.11)
 1072                  * that seqold time units are system clock ticks, unlike
 1073                  * the new 'divisions' which are determined by timebase. In
 1074                  * that case we would need to do scaling here - but no such
 1075                  * behavior is visible in linux either--which also treats this
 1076                  * value, surprisingly, as an absolute, not relative, time.
 1077                  * My guess is that this event has gone unused so long that
 1078                  * nobody could agree we got it wrong no matter what we do.
 1079                  */
 1080                 tmp_delay = *(uint32_t *)ev >> 8;
 1081                 *ev = SEQ_MK_TIMING(WAIT_ABS, .divisions=tmp_delay);
 1082                 break;
 1083         case SEQOLD_SYNCTIMER:
 1084                 /*
 1085                  * The TMR_RESET event is not defined in any OSS materials
 1086                  * I can find; it may have been invented here just to provide
 1087                  * an accurate _to_new translation of this event.
 1088                  */
 1089                 *ev = SEQ_MK_TIMING(RESET);
 1090                 break;
 1091         case SEQOLD_PGMCHANGE:
 1092                 *ev = SEQ_MK_CHN(PGM_CHANGE,
 1093                     .device=0, .channel=chan, .program=note);
 1094                 break;
 1095         case SEQOLD_MIDIPUTC:
 1096                 break;          /* interpret in normal mode */
 1097         case SEQOLD_ECHO:
 1098         case SEQOLD_PRIVATE:
 1099         case SEQOLD_EXTENDED:
 1100         default:
 1101                 DPRINTF(("seq_to_new: not impl 0x%02x\n", cmd));
 1102                 return EINVAL;
 1103         /* In case new-style events show up */
 1104         case SEQ_TIMING:
 1105         case SEQ_CHN_VOICE:
 1106         case SEQ_CHN_COMMON:
 1107         case SEQ_FULLSIZE:
 1108                 break;
 1109         }
 1110         return 0;
 1111 }
 1112 
 1113 /**********************************************/
 1114 
 1115 void
 1116 midiseq_in(struct midi_dev *md, u_char *msg, int len)
 1117 {
 1118         int unit = md->unit;
 1119         seq_event_t ev;
 1120         int status, chan;
 1121 
 1122         DPRINTFN(2, ("midiseq_in: %p %02x %02x %02x\n",
 1123                      md, msg[0], msg[1], msg[2]));
 1124 
 1125         status = MIDI_GET_STATUS(msg[0]);
 1126         chan = MIDI_GET_CHAN(msg[0]);
 1127         switch (status) {
 1128         case MIDI_NOTEON: /* midi(4) always canonicalizes hidden note-off */
 1129                 ev = SEQ_MK_CHN(NOTEON, .device=unit, .channel=chan,
 1130                     .key=msg[1], .velocity=msg[2]);
 1131                 break;
 1132         case MIDI_NOTEOFF:
 1133                 ev = SEQ_MK_CHN(NOTEOFF, .device=unit, .channel=chan,
 1134                     .key=msg[1], .velocity=msg[2]);
 1135                 break;
 1136         case MIDI_KEY_PRESSURE:
 1137                 ev = SEQ_MK_CHN(KEY_PRESSURE, .device=unit, .channel=chan,
 1138                     .key=msg[1], .pressure=msg[2]);
 1139                 break;
 1140         case MIDI_CTL_CHANGE: /* XXX not correct for MSB */
 1141                 ev = SEQ_MK_CHN(CTL_CHANGE, .device=unit, .channel=chan,
 1142                     .controller=msg[1], .value=msg[2]);
 1143                 break;
 1144         case MIDI_PGM_CHANGE:
 1145                 ev = SEQ_MK_CHN(PGM_CHANGE, .device=unit, .channel=chan,
 1146                     .program=msg[1]);
 1147                 break;
 1148         case MIDI_CHN_PRESSURE:
 1149                 ev = SEQ_MK_CHN(CHN_PRESSURE, .device=unit, .channel=chan,
 1150                     .pressure=msg[1]);
 1151                 break;
 1152         case MIDI_PITCH_BEND:
 1153                 ev = SEQ_MK_CHN(PITCH_BEND, .device=unit, .channel=chan,
 1154                     .value=(msg[1] & 0x7f) | ((msg[2] & 0x7f) << 7));
 1155                 break;
 1156         default: /* this is now the point where MIDI_ACKs disappear */
 1157                 return;
 1158         }
 1159         seq_event_intr(md->seq, &ev);
 1160 }
 1161 
 1162 static struct midi_dev *
 1163 midiseq_open(int unit, int flags)
 1164 {
 1165         extern struct cfdriver midi_cd;
 1166         int error;
 1167         struct midi_dev *md;
 1168         struct midi_softc *sc;
 1169         struct midi_info mi;
 1170         int major;
 1171         dev_t dev;
 1172         
 1173         major = devsw_name2chr("midi", NULL, 0);
 1174         dev = makedev(major, unit);
 1175 
 1176         midi_getinfo(dev, &mi);
 1177         if ( !(mi.props & MIDI_PROP_CAN_INPUT) )
 1178                 flags &= ~FREAD;
 1179         if ( 0 == ( flags & ( FREAD | FWRITE ) ) )
 1180                 return 0;
 1181         DPRINTFN(2, ("midiseq_open: %d %d\n", unit, flags));
 1182         error = cdev_open(dev, flags, 0, 0);
 1183         if (error)
 1184                 return (0);
 1185         sc = device_lookup_private(&midi_cd, unit);
 1186         sc->seqopen = 1;
 1187         md = malloc(sizeof *md, M_DEVBUF, M_WAITOK|M_ZERO);
 1188         sc->seq_md = md;
 1189         md->msc = sc;
 1190         md->unit = unit;
 1191         md->name = mi.name;
 1192         md->subtype = 0;
 1193         md->nr_voices = 128;    /* XXX */
 1194         md->instr_bank_size = 128; /* XXX */
 1195         if (mi.props & MIDI_PROP_CAN_INPUT)
 1196                 md->capabilities |= SYNTH_CAP_INPUT;
 1197         return (md);
 1198 }
 1199 
 1200 static void
 1201 midiseq_close(struct midi_dev *md)
 1202 {
 1203         int major;
 1204         dev_t dev;
 1205         
 1206         major = devsw_name2chr("midi", NULL, 0);
 1207         dev = makedev(major, md->unit);
 1208 
 1209         DPRINTFN(2, ("midiseq_close: %d\n", md->unit));
 1210         cdev_close(dev, 0, 0, 0);
 1211         free(md, M_DEVBUF);
 1212 }
 1213 
 1214 static void
 1215 midiseq_reset(struct midi_dev *md)
 1216 {
 1217         /* XXX send GM reset? */
 1218         DPRINTFN(3, ("midiseq_reset: %d\n", md->unit));
 1219 }
 1220 
 1221 static int
 1222 midiseq_out(struct midi_dev *md, u_char *bf, u_int cc, int chk)
 1223 {
 1224         DPRINTFN(5, ("midiseq_out: m=%p, unit=%d, bf[0]=0x%02x, cc=%d\n",
 1225                      md->msc, md->unit, bf[0], cc));
 1226 
 1227         /* midi(4) does running status compression where appropriate. */
 1228         return midi_writebytes(md->unit, bf, cc);
 1229 }
 1230 
 1231 /*
 1232  * If the writing process hands us a hidden note-off in a note-on event,
 1233  * we will simply write it that way; no need to special case it here,
 1234  * as midi(4) will always canonicalize or compress as appropriate anyway.
 1235  */
 1236 static int
 1237 midiseq_noteon(struct midi_dev *md, int chan, int key, seq_event_t *ev)
 1238 {
 1239         return midiseq_out(md, (uint8_t[]){
 1240             MIDI_NOTEON | chan, key, ev->c_NOTEON.velocity & 0x7f}, 3, 1);
 1241 }
 1242 
 1243 static int
 1244 midiseq_noteoff(struct midi_dev *md, int chan, int key, seq_event_t *ev)
 1245 {
 1246         return midiseq_out(md, (uint8_t[]){
 1247             MIDI_NOTEOFF | chan, key, ev->c_NOTEOFF.velocity & 0x7f}, 3, 1);
 1248 }
 1249 
 1250 static int
 1251 midiseq_keypressure(struct midi_dev *md, int chan, int key, seq_event_t *ev)
 1252 {
 1253         return midiseq_out(md, (uint8_t[]){
 1254             MIDI_KEY_PRESSURE | chan, key,
 1255             ev->c_KEY_PRESSURE.pressure & 0x7f}, 3, 1);
 1256 }
 1257 
 1258 static int
 1259 midiseq_pgmchange(struct midi_dev *md, int chan, seq_event_t *ev)
 1260 {
 1261         if (ev->c_PGM_CHANGE.program > 127)
 1262                 return EINVAL;
 1263         return midiseq_out(md, (uint8_t[]){
 1264             MIDI_PGM_CHANGE | chan, ev->c_PGM_CHANGE.program}, 2, 1);
 1265 }
 1266 
 1267 static int
 1268 midiseq_chnpressure(struct midi_dev *md, int chan, seq_event_t *ev)
 1269 {
 1270         if (ev->c_CHN_PRESSURE.pressure > 127)
 1271                 return EINVAL;
 1272         return midiseq_out(md, (uint8_t[]){
 1273             MIDI_CHN_PRESSURE | chan, ev->c_CHN_PRESSURE.pressure}, 2, 1);
 1274 }
 1275 
 1276 static int
 1277 midiseq_ctlchange(struct midi_dev *md, int chan, seq_event_t *ev)
 1278 {
 1279         if (ev->c_CTL_CHANGE.controller > 127)
 1280                 return EINVAL;
 1281         return midiseq_out( md, (uint8_t[]){
 1282             MIDI_CTL_CHANGE | chan, ev->c_CTL_CHANGE.controller,
 1283             ev->c_CTL_CHANGE.value & 0x7f /* XXX this is SO wrong */
 1284             }, 3, 1);
 1285 }
 1286 
 1287 static int
 1288 midiseq_pitchbend(struct midi_dev *md, int chan, seq_event_t *ev)
 1289 {
 1290         return midiseq_out(md, (uint8_t[]){
 1291             MIDI_PITCH_BEND | chan,
 1292             ev->c_PITCH_BEND.value & 0x7f,
 1293             (ev->c_PITCH_BEND.value >> 7) & 0x7f}, 3, 1);
 1294 }
 1295 
 1296 static int
 1297 midiseq_loadpatch(struct midi_dev *md,
 1298                   struct sysex_info *sysex, struct uio *uio)
 1299 {
 1300         u_char c, bf[128];
 1301         int i, cc, error;
 1302 
 1303         if (sysex->key != SEQ_SYSEX_PATCH) {
 1304                 DPRINTFN(-1,("midiseq_loadpatch: bad patch key 0x%04x\n",
 1305                              sysex->key));
 1306                 return (EINVAL);
 1307         }
 1308         if (uio->uio_resid < sysex->len)
 1309                 /* adjust length, should be an error */
 1310                 sysex->len = uio->uio_resid;
 1311 
 1312         DPRINTFN(2, ("midiseq_loadpatch: len=%d\n", sysex->len));
 1313         if (sysex->len == 0)
 1314                 return EINVAL;
 1315         error = uiomove(&c, 1, uio);
 1316         if (error)
 1317                 return error;
 1318         if (c != MIDI_SYSEX_START)              /* must start like this */
 1319                 return EINVAL;
 1320         error = midiseq_out(md, &c, 1, 0);
 1321         if (error)
 1322                 return error;
 1323         --sysex->len;
 1324         while (sysex->len > 0) {
 1325                 cc = sysex->len;
 1326                 if (cc > sizeof bf)
 1327                         cc = sizeof bf;
 1328                 error = uiomove(bf, cc, uio);
 1329                 if (error)
 1330                         break;
 1331                 for(i = 0; i < cc && !MIDI_IS_STATUS(bf[i]); i++)
 1332                         ;
 1333                 /*
 1334                  * XXX midi(4)'s buffer might not accommodate this, and the
 1335                  * function will not block us (though in this case we have
 1336                  * a process and could in principle block).
 1337                  */
 1338                 error = midiseq_out(md, bf, i, 0);
 1339                 if (error)
 1340                         break;
 1341                 sysex->len -= i;
 1342                 if (i != cc)
 1343                         break;
 1344         }
 1345         /*
 1346          * Any leftover data in uio is rubbish;
 1347          * the SYSEX should be one write ending in SYSEX_END.
 1348          */
 1349         uio->uio_resid = 0;
 1350         c = MIDI_SYSEX_END;
 1351         return midiseq_out(md, &c, 1, 0);
 1352 }
 1353 
 1354 #include "midi.h"
 1355 #if NMIDI == 0
 1356 static dev_type_open(midiopen);
 1357 static dev_type_close(midiclose);
 1358 
 1359 const struct cdevsw midi_cdevsw = {
 1360         midiopen, midiclose, noread, nowrite, noioctl,
 1361         nostop, notty, nopoll, nommap, nokqfilter, D_OTHER
 1362 };
 1363 
 1364 /*
 1365  * If someone has a sequencer, but no midi devices there will
 1366  * be unresolved references, so we provide little stubs.
 1367  */
 1368 
 1369 int
 1370 midi_unit_count()
 1371 {
 1372         return (0);
 1373 }
 1374 
 1375 static int
 1376 midiopen(dev_t dev, int flags, int ifmt, struct lwp *l)
 1377 {
 1378         return (ENXIO);
 1379 }
 1380 
 1381 struct cfdriver midi_cd;
 1382 
 1383 void
 1384 midi_getinfo(dev_t dev, struct midi_info *mi)
 1385 {
 1386         mi->name = "Dummy MIDI device";
 1387         mi->props = 0;
 1388 }
 1389 
 1390 static int
 1391 midiclose(dev_t dev, int flags, int ifmt, struct lwp *l)
 1392 {
 1393         return (ENXIO);
 1394 }
 1395 
 1396 int
 1397 midi_writebytes(int unit, u_char *bf, int cc)
 1398 {
 1399         return (ENXIO);
 1400 }
 1401 #endif /* NMIDI == 0 */

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