sys/dev/midi.c

 1.43.2.2      chap /*	$NetBSD: midi.c,v 1.43.2.10 2006/05/20 03:24:33 chap Exp $	*/
      1.1  augustss
      1.1  augustss /*
      1.1  augustss  * Copyright (c) 1998 The NetBSD Foundation, Inc.
      1.1  augustss  * All rights reserved.
      1.1  augustss  *
      1.8  augustss  * This code is derived from software contributed to The NetBSD Foundation
 1.43.2.7      chap  * by Lennart Augustsson (augustss (at) NetBSD.org) and (MIDI FST and Active
 1.43.2.6      chap  * Sense handling) Chapman Flack (nblists (at) anastigmatix.net).
      1.1  augustss  *
      1.1  augustss  * Redistribution and use in source and binary forms, with or without
      1.1  augustss  * modification, are permitted provided that the following conditions
      1.1  augustss  * are met:
      1.1  augustss  * 1. Redistributions of source code must retain the above copyright
      1.1  augustss  *    notice, this list of conditions and the following disclaimer.
      1.1  augustss  * 2. Redistributions in binary form must reproduce the above copyright
      1.1  augustss  *    notice, this list of conditions and the following disclaimer in the
      1.1  augustss  *    documentation and/or other materials provided with the distribution.
      1.1  augustss  * 3. All advertising materials mentioning features or use of this software
      1.1  augustss  *    must display the following acknowledgement:
      1.1  augustss  *        This product includes software developed by the NetBSD
      1.1  augustss  *        Foundation, Inc. and its contributors.
      1.1  augustss  * 4. Neither the name of The NetBSD Foundation nor the names of its
      1.1  augustss  *    contributors may be used to endorse or promote products derived
      1.1  augustss  *    from this software without specific prior written permission.
      1.1  augustss  *
      1.1  augustss  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
      1.1  augustss  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
      1.1  augustss  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
      1.1  augustss  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
      1.1  augustss  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
      1.1  augustss  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
      1.1  augustss  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
      1.1  augustss  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
      1.1  augustss  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
      1.1  augustss  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
      1.1  augustss  * POSSIBILITY OF SUCH DAMAGE.
      1.1  augustss  */
     1.23     lukem
     1.23     lukem #include <sys/cdefs.h>
 1.43.2.2      chap __KERNEL_RCSID(0, "$NetBSD: midi.c,v 1.43.2.10 2006/05/20 03:24:33 chap Exp $");
      1.1  augustss
      1.1  augustss #include "midi.h"
      1.1  augustss #include "sequencer.h"
      1.1  augustss
      1.1  augustss #include <sys/param.h>
      1.1  augustss #include <sys/ioctl.h>
      1.1  augustss #include <sys/fcntl.h>
      1.1  augustss #include <sys/vnode.h>
      1.1  augustss #include <sys/select.h>
      1.1  augustss #include <sys/poll.h>
      1.1  augustss #include <sys/malloc.h>
      1.1  augustss #include <sys/proc.h>
      1.1  augustss #include <sys/systm.h>
     1.15   thorpej #include <sys/callout.h>
      1.1  augustss #include <sys/syslog.h>
      1.1  augustss #include <sys/kernel.h>
      1.1  augustss #include <sys/signalvar.h>
      1.1  augustss #include <sys/conf.h>
      1.1  augustss #include <sys/audioio.h>
      1.1  augustss #include <sys/midiio.h>
      1.1  augustss
      1.1  augustss #include <dev/audio_if.h>
      1.4  augustss #include <dev/midi_if.h>
      1.1  augustss #include <dev/midivar.h>
      1.1  augustss
     1.10  drochner #if NMIDI > 0
     1.10  drochner
      1.1  augustss #ifdef AUDIO_DEBUG
      1.1  augustss #define DPRINTF(x)	if (mididebug) printf x
      1.1  augustss #define DPRINTFN(n,x)	if (mididebug >= (n)) printf x
      1.1  augustss int	mididebug = 0;
 1.43.2.2      chap /*
 1.43.2.2      chap  *      1: detected protocol errors and buffer overflows
 1.43.2.2      chap  *      2: probe, attach, detach
 1.43.2.2      chap  *      3: open, close
 1.43.2.2      chap  *      4: data received except realtime
 1.43.2.2      chap  *      5: ioctl
 1.43.2.2      chap  *      6: read, write, poll
 1.43.2.2      chap  *      7: data transmitted
 1.43.2.2      chap  *      8: uiomoves, synchronization
 1.43.2.2      chap  *      9: realtime data received
 1.43.2.2      chap  */
      1.1  augustss #else
      1.1  augustss #define DPRINTF(x)
      1.1  augustss #define DPRINTFN(n,x)
      1.1  augustss #endif
      1.1  augustss
 1.43.2.8      chap static	struct simplelock hwif_register_lock = SIMPLELOCK_INITIALIZER;
 1.43.2.8      chap static	struct midi_softc *hwif_softc = NULL;
      1.1  augustss
     1.22  augustss void	midi_in(void *, int);
     1.22  augustss void	midi_out(void *);
 1.43.2.7      chap int     midi_poll_out(struct midi_softc *);
 1.43.2.7      chap int     midi_intr_out(struct midi_softc *);
 1.43.2.8      chap int 	midi_msg_out(struct midi_softc *,
 1.43.2.8      chap                  u_char **, u_char **, u_char **, u_char **);
 1.43.2.7      chap int	midi_start_output(struct midi_softc *);
 1.43.2.7      chap int	midi_sleep_timo(int *, char *, int, struct simplelock *);
 1.43.2.7      chap int	midi_sleep(int *, char *, struct simplelock *);
     1.22  augustss void	midi_wakeup(int *);
     1.22  augustss void	midi_initbuf(struct midi_buffer *);
     1.22  augustss void	midi_timeout(void *);
     1.22  augustss
     1.22  augustss int	midiprobe(struct device *, struct cfdata *, void *);
     1.22  augustss void	midiattach(struct device *, struct device *, void *);
     1.22  augustss int	mididetach(struct device *, int);
     1.22  augustss int	midiactivate(struct device *, enum devact);
      1.1  augustss
     1.25   gehenna dev_type_open(midiopen);
     1.25   gehenna dev_type_close(midiclose);
     1.25   gehenna dev_type_read(midiread);
     1.25   gehenna dev_type_write(midiwrite);
     1.25   gehenna dev_type_ioctl(midiioctl);
     1.25   gehenna dev_type_poll(midipoll);
     1.30  jdolecek dev_type_kqfilter(midikqfilter);
     1.25   gehenna
     1.25   gehenna const struct cdevsw midi_cdevsw = {
     1.25   gehenna 	midiopen, midiclose, midiread, midiwrite, midiioctl,
     1.30  jdolecek 	nostop, notty, midipoll, nommap, midikqfilter,
     1.25   gehenna };
     1.25   gehenna
     1.28   thorpej CFATTACH_DECL(midi, sizeof(struct midi_softc),
     1.29   thorpej     midiprobe, midiattach, mididetach, midiactivate);
      1.1  augustss
      1.4  augustss #ifdef MIDI_SAVE
      1.4  augustss #define MIDI_SAVE_SIZE 100000
      1.4  augustss int midicnt;
      1.4  augustss struct {
      1.4  augustss 	int cnt;
      1.4  augustss 	u_char buf[MIDI_SAVE_SIZE];
      1.4  augustss } midisave;
      1.4  augustss #define MIDI_GETSAVE		_IOWR('m', 100, int)
      1.4  augustss
      1.4  augustss #endif
      1.4  augustss
      1.1  augustss extern struct cfdriver midi_cd;
      1.1  augustss
      1.1  augustss int
     1.22  augustss midiprobe(struct device *parent, struct cfdata *match, void *aux)
      1.1  augustss {
      1.1  augustss 	struct audio_attach_args *sa = aux;
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(2,("midiprobe: type=%d sa=%p hw=%p\n",
      1.1  augustss 		 sa->type, sa, sa->hwif));
     1.16  augustss 	return (sa->type == AUDIODEV_TYPE_MIDI);
      1.1  augustss }
      1.1  augustss
      1.1  augustss void
     1.22  augustss midiattach(struct device *parent, struct device *self, void *aux)
      1.1  augustss {
      1.1  augustss 	struct midi_softc *sc = (void *)self;
      1.1  augustss 	struct audio_attach_args *sa = aux;
 1.43.2.1      chap 	struct midi_hw_if *hwp = sa->hwif;
      1.1  augustss 	void *hdlp = sa->hdl;
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(2, ("MIDI attach\n"));
      1.1  augustss
      1.1  augustss #ifdef DIAGNOSTIC
      1.1  augustss 	if (hwp == 0 ||
      1.1  augustss 	    hwp->open == 0 ||
      1.1  augustss 	    hwp->close == 0 ||
      1.1  augustss 	    hwp->output == 0 ||
      1.1  augustss 	    hwp->getinfo == 0) {
      1.1  augustss 		printf("midi: missing method\n");
      1.1  augustss 		return;
      1.1  augustss 	}
      1.1  augustss #endif
     1.15   thorpej
      1.1  augustss 	sc->hw_if = hwp;
      1.1  augustss 	sc->hw_hdl = hdlp;
      1.2  augustss 	midi_attach(sc, parent);
      1.2  augustss }
      1.2  augustss
     1.18  tshiozak int
     1.22  augustss midiactivate(struct device *self, enum devact act)
     1.18  tshiozak {
     1.18  tshiozak 	struct midi_softc *sc = (struct midi_softc *)self;
     1.18  tshiozak
     1.18  tshiozak 	switch (act) {
     1.18  tshiozak 	case DVACT_ACTIVATE:
     1.18  tshiozak 		return (EOPNOTSUPP);
     1.18  tshiozak
     1.18  tshiozak 	case DVACT_DEACTIVATE:
     1.18  tshiozak 		sc->dying = 1;
     1.18  tshiozak 		break;
     1.18  tshiozak 	}
     1.18  tshiozak 	return (0);
     1.18  tshiozak }
     1.18  tshiozak
     1.18  tshiozak int
     1.22  augustss mididetach(struct device *self, int flags)
     1.18  tshiozak {
     1.18  tshiozak 	struct midi_softc *sc = (struct midi_softc *)self;
     1.18  tshiozak 	int maj, mn;
     1.18  tshiozak
 1.43.2.2      chap 	DPRINTFN(2,("midi_detach: sc=%p flags=%d\n", sc, flags));
     1.18  tshiozak
     1.18  tshiozak 	sc->dying = 1;
     1.18  tshiozak
     1.18  tshiozak 	wakeup(&sc->wchan);
     1.18  tshiozak 	wakeup(&sc->rchan);
     1.18  tshiozak
     1.18  tshiozak 	/* locate the major number */
     1.25   gehenna 	maj = cdevsw_lookup_major(&midi_cdevsw);
     1.18  tshiozak
     1.18  tshiozak 	/* Nuke the vnodes for any open instances (calls close). */
 1.43.2.1      chap 	mn = self->dv_unit;
     1.18  tshiozak 	vdevgone(maj, mn, mn, VCHR);
 1.43.2.3      chap
 1.43.2.6      chap 	evcnt_detach(&sc->xmt.bytesDiscarded);
 1.43.2.6      chap 	evcnt_detach(&sc->xmt.incompleteMessages);
 1.43.2.3      chap 	if ( sc->props & MIDI_PROP_CAN_INPUT ) {
 1.43.2.6      chap 		evcnt_detach(&sc->rcv.bytesDiscarded);
 1.43.2.6      chap 		evcnt_detach(&sc->rcv.incompleteMessages);
 1.43.2.3      chap 	}
     1.18  tshiozak
     1.18  tshiozak 	return (0);
     1.18  tshiozak }
     1.18  tshiozak
      1.2  augustss void
     1.22  augustss midi_attach(struct midi_softc *sc, struct device *parent)
      1.2  augustss {
      1.2  augustss 	struct midi_info mi;
 1.43.2.8      chap 	int s;
 1.43.2.5      chap
 1.43.2.5      chap 	callout_init(&sc->sc_callout);
 1.43.2.5      chap 	callout_setfunc(&sc->sc_callout, midi_timeout, sc);
 1.43.2.5      chap 	simple_lock_init(&sc->out_lock);
 1.43.2.7      chap 	simple_lock_init(&sc->in_lock);
 1.43.2.5      chap 	sc->dying = 0;
      1.1  augustss 	sc->isopen = 0;
      1.1  augustss
      1.2  augustss 	sc->sc_dev = parent;
 1.43.2.8      chap
 1.43.2.8      chap 	s = splaudio();
 1.43.2.8      chap 	simple_lock(&hwif_register_lock);
 1.43.2.8      chap 	hwif_softc = sc;
      1.2  augustss 	sc->hw_if->getinfo(sc->hw_hdl, &mi);
 1.43.2.8      chap 	hwif_softc = NULL;
 1.43.2.8      chap 	simple_unlock(&hwif_register_lock);
 1.43.2.8      chap 	splx(s);
 1.43.2.8      chap
      1.1  augustss 	sc->props = mi.props;
 1.43.2.3      chap
 1.43.2.6      chap 	evcnt_attach_dynamic(&sc->xmt.bytesDiscarded,
 1.43.2.6      chap 		EVCNT_TYPE_MISC, NULL,
 1.43.2.6      chap 		sc->dev.dv_xname, "xmt bytes discarded");
 1.43.2.6      chap 	evcnt_attach_dynamic(&sc->xmt.incompleteMessages,
 1.43.2.6      chap 		EVCNT_TYPE_MISC, NULL,
 1.43.2.6      chap 		sc->dev.dv_xname, "xmt incomplete msgs");
 1.43.2.3      chap 	if ( sc->props & MIDI_PROP_CAN_INPUT ) {
 1.43.2.6      chap 		evcnt_attach_dynamic(&sc->rcv.bytesDiscarded,
 1.43.2.3      chap 			EVCNT_TYPE_MISC, NULL,
 1.43.2.3      chap 			sc->dev.dv_xname, "rcv bytes discarded");
 1.43.2.6      chap 		evcnt_attach_dynamic(&sc->rcv.incompleteMessages,
 1.43.2.3      chap 			EVCNT_TYPE_MISC, NULL,
 1.43.2.3      chap 			sc->dev.dv_xname, "rcv incomplete msgs");
 1.43.2.3      chap 	}
 1.43.2.3      chap
     1.13     soren 	printf(": %s\n", mi.name);
      1.1  augustss }
      1.1  augustss
 1.43.2.8      chap void midi_register_hw_if_ext(struct midi_hw_if_ext *exthw) {
 1.43.2.8      chap 	if ( hwif_softc != NULL )
 1.43.2.8      chap 		hwif_softc->hw_if_ext = exthw;
 1.43.2.8      chap }
 1.43.2.8      chap
      1.1  augustss int
     1.22  augustss midi_unit_count(void)
      1.1  augustss {
 1.43.2.3      chap 	int i;
 1.43.2.3      chap 	for ( i = 0; i < midi_cd.cd_ndevs; ++i )
 1.43.2.3      chap 	        if ( NULL == midi_cd.cd_devs[i] )
 1.43.2.3      chap 		        break;
 1.43.2.3      chap         return i;
      1.1  augustss }
      1.1  augustss
      1.1  augustss void
     1.22  augustss midi_initbuf(struct midi_buffer *mb)
      1.1  augustss {
 1.43.2.7      chap 	mb->idx_producerp = mb->idx_consumerp = mb->idx;
 1.43.2.7      chap 	mb->buf_producerp = mb->buf_consumerp = mb->buf;
      1.1  augustss }
 1.43.2.7      chap #define PACK_MB_IDX(cat,len) (((cat)<<4)|(len))
 1.43.2.7      chap #define MB_IDX_CAT(idx) ((idx)>>4)
 1.43.2.7      chap #define MB_IDX_LEN(idx) ((idx)&0xf)
      1.1  augustss
      1.2  augustss int
 1.43.2.7      chap midi_sleep_timo(int *chan, char *label, int timo, struct simplelock *lk)
      1.1  augustss {
      1.1  augustss 	int st;
      1.1  augustss
      1.1  augustss 	if (!label)
      1.1  augustss 		label = "midi";
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(8, ("midi_sleep_timo: %p %s %d\n", chan, label, timo));
      1.1  augustss 	*chan = 1;
 1.43.2.7      chap 	st = ltsleep(chan, PWAIT | PCATCH, label, timo, lk);
      1.1  augustss 	*chan = 0;
      1.1  augustss #ifdef MIDI_DEBUG
      1.1  augustss 	if (st != 0)
      1.1  augustss 		printf("midi_sleep: %d\n", st);
      1.1  augustss #endif
      1.1  augustss 	return st;
      1.1  augustss }
      1.1  augustss
      1.2  augustss int
 1.43.2.7      chap midi_sleep(int *chan, char *label, struct simplelock *lk)
      1.1  augustss {
 1.43.2.7      chap 	return midi_sleep_timo(chan, label, 0, lk);
      1.1  augustss }
      1.1  augustss
      1.2  augustss void
     1.22  augustss midi_wakeup(int *chan)
      1.1  augustss {
      1.1  augustss 	if (*chan) {
 1.43.2.2      chap 		DPRINTFN(8, ("midi_wakeup: %p\n", chan));
      1.1  augustss 		wakeup(chan);
      1.1  augustss 		*chan = 0;
      1.1  augustss 	}
      1.1  augustss }
      1.1  augustss
 1.43.2.2      chap /* in midivar.h:
 1.43.2.2      chap #define MIDI_CAT_DATA 0
 1.43.2.2      chap #define MIDI_CAT_STATUS1 1
 1.43.2.2      chap #define MIDI_CAT_STATUS2 2
 1.43.2.2      chap #define MIDI_CAT_COMMON 3
 1.43.2.2      chap */
 1.43.2.2      chap static char const midi_cats[] = "\0\0\0\0\0\0\0\0\2\2\2\2\1\1\2\3";
 1.43.2.2      chap #define MIDI_CAT(d) (midi_cats[((d)>>4)&15])
 1.43.2.7      chap #define FST_RETURN(offp,endp,ret) \
 1.43.2.6      chap 	return (s->pos=s->msg+(offp)), (s->end=s->msg+(endp)), (ret)
      1.1  augustss
 1.43.2.7      chap enum fst_ret { FST_CHN, FST_COM, FST_SYX, FST_RT, FST_MORE, FST_ERR, FST_HUH };
      1.1  augustss
 1.43.2.6      chap /*
 1.43.2.7      chap  * A MIDI finite state transducer suitable for receiving or transmitting. It
 1.43.2.7      chap  * will accept correct MIDI input that uses, doesn't use, or sometimes uses the
 1.43.2.6      chap  * 'running status' compression technique, and transduce it to fully expanded
 1.43.2.6      chap  * (compress==0) or fully compressed (compress==1) form.
 1.43.2.6      chap  *
 1.43.2.7      chap  * Returns FST_MORE if a complete message has not been parsed yet (SysEx
 1.43.2.7      chap  * messages are the exception), FST_ERR or FST_HUH if the input does not
 1.43.2.7      chap  * conform to the protocol, or FST_CHN (channel messages), FST_COM (System
 1.43.2.7      chap  * Common messages), FST_RT (System Real-Time messages), or FST_SYX (System
 1.43.2.6      chap  * Exclusive) to broadly categorize the message parsed. s->pos and s->end
 1.43.2.6      chap  * locate the parsed message; while (s->pos<s->end) putchar(*(s->pos++));
 1.43.2.6      chap  * would output it.
 1.43.2.6      chap  *
 1.43.2.7      chap  * FST_HUH means the character c wasn't valid in the original state, but the
 1.43.2.6      chap  * state has now been reset to START and the caller should try again passing
 1.43.2.7      chap  * the same c. FST_ERR means c isn't valid in the start state; the caller
 1.43.2.6      chap  * should kiss it goodbye and continue to try successive characters from the
 1.43.2.7      chap  * input until something other than FST_ERR or FST_HUH is returned, at which
 1.43.2.6      chap  * point things are resynchronized.
 1.43.2.6      chap  *
 1.43.2.7      chap  * A FST_SYX return means that between pos and end are from 1 to 3
 1.43.2.6      chap  * bytes of a system exclusive message. A SysEx message will be delivered in
 1.43.2.6      chap  * one or more chunks of that form, where the first begins with 0xf0 and the
 1.43.2.6      chap  * last (which is the only one that might have length < 3) ends with 0xf7.
 1.43.2.6      chap  *
 1.43.2.6      chap  * Messages corrupted by a protocol error are discarded and won't be seen at
 1.43.2.6      chap  * all; again SysEx is the exception, as one or more chunks of it may already
 1.43.2.6      chap  * have been parsed.
 1.43.2.6      chap  *
 1.43.2.7      chap  * For FST_CHN messages, s->msg[0] always contains the status byte even if
 1.43.2.6      chap  * compression was requested (pos then points to msg[1]). That way, the
 1.43.2.6      chap  * caller can always identify the exact message if there is a need to do so.
 1.43.2.7      chap  * For all other message types except FST_SYX, the status byte is at *pos
 1.43.2.6      chap  * (which may not necessarily be msg[0]!). There is only one SysEx status
 1.43.2.7      chap  * byte, so the return value FST_SYX is sufficient to identify it.
 1.43.2.6      chap  */
 1.43.2.7      chap static enum fst_ret
 1.43.2.7      chap midi_fst(struct midi_state *s, u_char c, int compress)
 1.43.2.6      chap {
 1.43.2.6      chap 	int syxpos = 0;
 1.43.2.6      chap 	compress = compress ? 1 : 0;
     1.14  augustss
 1.43.2.6      chap 	if ( c >= 0xf8 ) { /* All realtime messages bypass state machine */
 1.43.2.6      chap 	        if ( c == 0xf9  ||  c == 0xfd ) {
 1.43.2.7      chap 			DPRINTF( ("midi_fst: s=%p c=0x%02x undefined\n",
 1.43.2.6      chap 				  s, c));
 1.43.2.6      chap 			s->bytesDiscarded.ev_count++;
 1.43.2.7      chap 			return FST_ERR;
 1.43.2.2      chap 		}
 1.43.2.7      chap 		DPRINTFN(9, ("midi_fst: s=%p System Real-Time data=0x%02x\n",
 1.43.2.6      chap 			     s, c));
 1.43.2.6      chap 		s->msg[2] = c;
 1.43.2.7      chap 		FST_RETURN(2,3,FST_RT);
 1.43.2.2      chap 	}
 1.43.2.2      chap
 1.43.2.7      chap 	DPRINTFN(4, ("midi_fst: s=%p data=0x%02x state=%d\n",
 1.43.2.6      chap 		     s, c, s->state));
 1.43.2.2      chap
 1.43.2.7      chap         switch ( s->state   | MIDI_CAT(c) ) { /* break ==> return FST_MORE */
 1.43.2.2      chap
 1.43.2.2      chap 	case MIDI_IN_START  | MIDI_CAT_COMMON:
 1.43.2.2      chap 	case MIDI_IN_RUN1_1 | MIDI_CAT_COMMON:
 1.43.2.2      chap 	case MIDI_IN_RUN2_2 | MIDI_CAT_COMMON:
1.43.2.10      chap 	case MIDI_IN_RXX2_2 | MIDI_CAT_COMMON:
 1.43.2.6      chap 	        s->msg[0] = c;
 1.43.2.6      chap 	        switch ( c ) {
 1.43.2.6      chap 		case 0xf0: s->state = MIDI_IN_SYX1_3; break;
 1.43.2.6      chap 		case 0xf1: s->state = MIDI_IN_COM0_1; break;
 1.43.2.6      chap 		case 0xf2: s->state = MIDI_IN_COM0_2; break;
 1.43.2.6      chap 		case 0xf3: s->state = MIDI_IN_COM0_1; break;
 1.43.2.7      chap 		case 0xf6: s->state = MIDI_IN_START;  FST_RETURN(0,1,FST_COM);
 1.43.2.2      chap 		default: goto protocol_violation;
      1.1  augustss 		}
 1.43.2.2      chap 		break;
 1.43.2.2      chap
 1.43.2.2      chap 	case MIDI_IN_RUN1_1 | MIDI_CAT_STATUS1:
 1.43.2.6      chap 		if ( c == s->msg[0] ) {
 1.43.2.6      chap 			s->state = MIDI_IN_RNX0_1;
 1.43.2.6      chap 			break;
 1.43.2.6      chap 		}
 1.43.2.6      chap 		/* FALLTHROUGH */
 1.43.2.2      chap 	case MIDI_IN_RUN2_2 | MIDI_CAT_STATUS1:
1.43.2.10      chap 	case MIDI_IN_RXX2_2 | MIDI_CAT_STATUS1:
 1.43.2.6      chap 	case MIDI_IN_START  | MIDI_CAT_STATUS1:
 1.43.2.6      chap 	        s->state = MIDI_IN_RUN0_1;
 1.43.2.6      chap 	        s->msg[0] = c;
 1.43.2.6      chap 		break;
 1.43.2.2      chap
 1.43.2.2      chap 	case MIDI_IN_RUN2_2 | MIDI_CAT_STATUS2:
1.43.2.10      chap 	case MIDI_IN_RXX2_2 | MIDI_CAT_STATUS2:
 1.43.2.6      chap 		if ( c == s->msg[0] ) {
 1.43.2.6      chap 			s->state = MIDI_IN_RNX0_2;
 1.43.2.6      chap 			break;
 1.43.2.6      chap 		}
1.43.2.10      chap 		if ( (c ^ s->msg[0]) == 0x10 && (c & 0xe0) == 0x80 ) {
1.43.2.10      chap 			s->state = MIDI_IN_RXX0_2;
1.43.2.10      chap 			s->msg[0] = c;
1.43.2.10      chap 			break;
1.43.2.10      chap 		}
 1.43.2.6      chap 		/* FALLTHROUGH */
 1.43.2.6      chap 	case MIDI_IN_RUN1_1 | MIDI_CAT_STATUS2:
 1.43.2.6      chap 	case MIDI_IN_START  | MIDI_CAT_STATUS2:
 1.43.2.6      chap 	        s->state = MIDI_IN_RUN0_2;
 1.43.2.6      chap 	        s->msg[0] = c;
 1.43.2.6      chap 		break;
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_COM0_1 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_START;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.7      chap 		FST_RETURN(0,2,FST_COM);
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_COM0_2 | MIDI_CAT_DATA:
 1.43.2.6      chap 	        s->state = MIDI_IN_COM1_2;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.6      chap 		break;
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_COM1_2 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_START;
 1.43.2.6      chap 	        s->msg[2] = c;
 1.43.2.7      chap 		FST_RETURN(0,3,FST_COM);
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_RUN0_1 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_RUN1_1;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.7      chap 		FST_RETURN(0,2,FST_CHN);
 1.43.2.6      chap
 1.43.2.2      chap         case MIDI_IN_RUN1_1 | MIDI_CAT_DATA:
 1.43.2.6      chap         case MIDI_IN_RNX0_1 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_RUN1_1;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.7      chap 		FST_RETURN(compress,2,FST_CHN);
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_RUN0_2 | MIDI_CAT_DATA:
 1.43.2.6      chap 	        s->state = MIDI_IN_RUN1_2;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.6      chap 		break;
 1.43.2.2      chap
 1.43.2.2      chap         case MIDI_IN_RUN1_2 | MIDI_CAT_DATA:
1.43.2.10      chap 		if ( !compress && c == 0 && (s->msg[0] & 0xf0) == 0x90 ) {
1.43.2.10      chap 			s->state = MIDI_IN_RXX2_2;
1.43.2.10      chap 			s->msg[0] ^= 0x10;
1.43.2.10      chap 			s->msg[2] = 64;
1.43.2.10      chap 		} else {
1.43.2.10      chap 			s->state = MIDI_IN_RUN2_2;
1.43.2.10      chap 	        	s->msg[2] = c;
1.43.2.10      chap 		}
 1.43.2.7      chap 		FST_RETURN(0,3,FST_CHN);
 1.43.2.6      chap
 1.43.2.6      chap         case MIDI_IN_RUN2_2 | MIDI_CAT_DATA:
 1.43.2.6      chap 	        s->state = MIDI_IN_RNX1_2;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.6      chap 		break;
 1.43.2.6      chap
1.43.2.10      chap         case MIDI_IN_RXX2_2 | MIDI_CAT_DATA:
1.43.2.10      chap 	        s->state = MIDI_IN_RXX1_2;
1.43.2.10      chap 		s->msg[0] ^= 0x10;
1.43.2.10      chap 	        s->msg[1] = c;
1.43.2.10      chap 		break;
1.43.2.10      chap
 1.43.2.6      chap         case MIDI_IN_RNX0_2 | MIDI_CAT_DATA:
 1.43.2.6      chap 	        s->state = MIDI_IN_RNY1_2;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.6      chap 		break;
 1.43.2.6      chap
1.43.2.10      chap         case MIDI_IN_RXX0_2 | MIDI_CAT_DATA:
1.43.2.10      chap 	        s->state = MIDI_IN_RXY1_2;
1.43.2.10      chap 	        s->msg[1] = c;
1.43.2.10      chap 		break;
1.43.2.10      chap
 1.43.2.6      chap         case MIDI_IN_RNX1_2 | MIDI_CAT_DATA:
 1.43.2.6      chap         case MIDI_IN_RNY1_2 | MIDI_CAT_DATA:
1.43.2.10      chap 		if ( !compress && c == 0 && (s->msg[0]&0xf0) == 0x90 ) {
1.43.2.10      chap 			s->state = MIDI_IN_RXX2_2;
1.43.2.10      chap 			s->msg[0] ^= 0x10;
1.43.2.10      chap 			s->msg[2] = 64;
1.43.2.10      chap 			FST_RETURN(0,3,FST_CHN);
1.43.2.10      chap 		}
 1.43.2.6      chap 		s->state = MIDI_IN_RUN2_2;
 1.43.2.6      chap 	        s->msg[2] = c;
 1.43.2.7      chap 		FST_RETURN(compress,3,FST_CHN);
 1.43.2.6      chap
1.43.2.10      chap         case MIDI_IN_RXX1_2 | MIDI_CAT_DATA:
1.43.2.10      chap         case MIDI_IN_RXY1_2 | MIDI_CAT_DATA:
1.43.2.10      chap 		if ( (c ==  0 && (s->msg[0]&0xf0) == 0x90)
1.43.2.10      chap 		  || (c == 64 && (s->msg[0]&0xf0) == 0x80 && compress) ) {
1.43.2.10      chap 			s->state = MIDI_IN_RXX2_2;
1.43.2.10      chap 			s->msg[0] ^= 0x10;
1.43.2.10      chap 			s->msg[2] = 64 - c;
1.43.2.10      chap 			FST_RETURN(compress,3,FST_CHN);
1.43.2.10      chap 		}
1.43.2.10      chap 		s->state = MIDI_IN_RUN2_2;
1.43.2.10      chap 	        s->msg[2] = c;
1.43.2.10      chap 		FST_RETURN(0,3,FST_CHN);
1.43.2.10      chap
 1.43.2.6      chap         case MIDI_IN_SYX1_3 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_SYX2_3;
 1.43.2.6      chap 	        s->msg[1] = c;
 1.43.2.2      chap 		break;
 1.43.2.2      chap
 1.43.2.6      chap         case MIDI_IN_SYX2_3 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_SYX0_3;
 1.43.2.6      chap 	        s->msg[2] = c;
 1.43.2.7      chap 		FST_RETURN(0,3,FST_SYX);
 1.43.2.6      chap
 1.43.2.6      chap         case MIDI_IN_SYX0_3 | MIDI_CAT_DATA:
 1.43.2.6      chap 		s->state = MIDI_IN_SYX1_3;
 1.43.2.6      chap 	        s->msg[0] = c;
 1.43.2.6      chap 		break;
 1.43.2.6      chap
 1.43.2.6      chap         case MIDI_IN_SYX2_3 | MIDI_CAT_COMMON:
 1.43.2.6      chap 		++ syxpos;
 1.43.2.6      chap 		/* FALLTHROUGH */
 1.43.2.6      chap         case MIDI_IN_SYX1_3 | MIDI_CAT_COMMON:
 1.43.2.6      chap 		++ syxpos;
 1.43.2.6      chap 		/* FALLTHROUGH */
 1.43.2.6      chap         case MIDI_IN_SYX0_3 | MIDI_CAT_COMMON:
 1.43.2.6      chap 	        if ( c == 0xf7 ) {
 1.43.2.6      chap 		        s->state = MIDI_IN_START;
 1.43.2.6      chap 			s->msg[syxpos] = c;
 1.43.2.7      chap 		        FST_RETURN(0,1+syxpos,FST_SYX);
 1.43.2.2      chap 		}
 1.43.2.2      chap 		/* FALLTHROUGH */
 1.43.2.2      chap
 1.43.2.2      chap         default:
 1.43.2.2      chap protocol_violation:
 1.43.2.7      chap                 DPRINTF(("midi_fst: unexpected %#02x in state %u\n",
 1.43.2.6      chap 		        c, s->state));
 1.43.2.6      chap 		switch ( s->state ) {
 1.43.2.3      chap 		case MIDI_IN_RUN1_1: /* can only get here by seeing an */
 1.43.2.3      chap 		case MIDI_IN_RUN2_2: /* INVALID System Common message */
1.43.2.10      chap 		case MIDI_IN_RXX2_2:
 1.43.2.6      chap 		        s->state = MIDI_IN_START;
 1.43.2.3      chap 			/* FALLTHROUGH */
 1.43.2.2      chap 		case MIDI_IN_START:
 1.43.2.6      chap 			s->bytesDiscarded.ev_count++;
 1.43.2.7      chap 			return FST_ERR;
 1.43.2.2      chap 		case MIDI_IN_COM1_2:
 1.43.2.2      chap 		case MIDI_IN_RUN1_2:
 1.43.2.6      chap 		case MIDI_IN_SYX2_3:
 1.43.2.6      chap 		case MIDI_IN_RNY1_2:
1.43.2.10      chap 		case MIDI_IN_RXY1_2:
 1.43.2.6      chap 			s->bytesDiscarded.ev_count++;
 1.43.2.2      chap 			/* FALLTHROUGH */
 1.43.2.2      chap 		case MIDI_IN_COM0_1:
 1.43.2.2      chap 		case MIDI_IN_RUN0_1:
 1.43.2.6      chap 		case MIDI_IN_RNX0_1:
 1.43.2.2      chap 		case MIDI_IN_COM0_2:
 1.43.2.2      chap 		case MIDI_IN_RUN0_2:
 1.43.2.6      chap 		case MIDI_IN_RNX0_2:
1.43.2.10      chap 		case MIDI_IN_RXX0_2:
 1.43.2.6      chap 		case MIDI_IN_RNX1_2:
1.43.2.10      chap 		case MIDI_IN_RXX1_2:
 1.43.2.6      chap 		case MIDI_IN_SYX1_3:
 1.43.2.6      chap 			s->bytesDiscarded.ev_count++;
 1.43.2.2      chap 			/* FALLTHROUGH */
 1.43.2.6      chap 		case MIDI_IN_SYX0_3:
 1.43.2.6      chap 		        s->incompleteMessages.ev_count++;
 1.43.2.2      chap 			break;
 1.43.2.2      chap #if defined(AUDIO_DEBUG) || defined(DIAGNOSTIC)
 1.43.2.2      chap 		default:
 1.43.2.7      chap 		        printf("midi_fst: mishandled %#02x(%u) in state %u?!\n",
 1.43.2.6      chap 			      c, MIDI_CAT(c), s->state);
 1.43.2.2      chap #endif
 1.43.2.2      chap 		}
 1.43.2.6      chap 		s->state = MIDI_IN_START;
 1.43.2.7      chap 		return FST_HUH;
      1.1  augustss 	}
 1.43.2.7      chap 	return FST_MORE;
 1.43.2.6      chap }
 1.43.2.2      chap
 1.43.2.6      chap void
 1.43.2.6      chap midi_in(void *addr, int data)
 1.43.2.6      chap {
 1.43.2.6      chap 	struct midi_softc *sc = addr;
 1.43.2.6      chap 	struct midi_buffer *mb = &sc->inbuf;
 1.43.2.6      chap 	int i;
 1.43.2.6      chap 	int count;
 1.43.2.7      chap 	enum fst_ret got;
 1.43.2.7      chap 	int s; /* hw may have various spls so impose our own */
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.6      chap
 1.43.2.6      chap 	if (!sc->isopen)
      1.1  augustss 		return;
 1.43.2.6      chap
 1.43.2.6      chap 	if (!(sc->flags & FREAD))
 1.43.2.6      chap 		return;		/* discard data if not reading */
 1.43.2.6      chap
 1.43.2.6      chap 	do
 1.43.2.7      chap 		got = midi_fst(&sc->rcv, data, 0);
 1.43.2.7      chap 	while ( got == FST_HUH );
 1.43.2.6      chap
 1.43.2.6      chap 	switch ( got ) {
 1.43.2.7      chap 	case FST_MORE:
 1.43.2.7      chap 	case FST_ERR:
      1.1  augustss 		return;
 1.43.2.7      chap 	case FST_CHN:
 1.43.2.7      chap 	case FST_COM:
 1.43.2.7      chap 	case FST_RT:
 1.43.2.6      chap #if NSEQUENCER > 0
 1.43.2.6      chap 		if (sc->seqopen) {
 1.43.2.6      chap 			extern void midiseq_in(struct midi_dev *,u_char *,int);
 1.43.2.6      chap 			count = sc->rcv.end - sc->rcv.pos;
 1.43.2.6      chap 			midiseq_in(sc->seq_md, sc->rcv.pos, count);
 1.43.2.6      chap 			return;
 1.43.2.6      chap 		}
 1.43.2.6      chap #endif
 1.43.2.6      chap         	/*
 1.43.2.6      chap 		 * Pass Active Sense to the sequencer if it's open, but not to
 1.43.2.6      chap 		 * a raw reader. (Really should do something intelligent with
 1.43.2.6      chap 		 * it then, though....)
 1.43.2.6      chap 		 */
 1.43.2.7      chap 		if ( got == FST_RT && MIDI_ACK == sc->rcv.pos[0] )
 1.43.2.6      chap 			return;
 1.43.2.6      chap 		/* FALLTHROUGH */
 1.43.2.6      chap 	/*
 1.43.2.6      chap 	 * Ultimately SysEx msgs should be offered to the sequencer also; the
 1.43.2.6      chap 	 * sequencer API addresses them - but maybe our sequencer can't handle
 1.43.2.6      chap 	 * them yet, so offer only to raw reader. (Which means, ultimately,
 1.43.2.6      chap 	 * discard them if the sequencer's open, as it's not doing reads!)
 1.43.2.6      chap 	 */
 1.43.2.7      chap 	case FST_SYX:
 1.43.2.6      chap 		count = sc->rcv.end - sc->rcv.pos;
 1.43.2.7      chap 		MIDI_IN_LOCK(sc,s);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(mb,idx);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(mb,buf);
 1.43.2.7      chap 		if (count > buf_lim - buf_cur
 1.43.2.7      chap 		     || 1 > idx_lim - idx_cur) {
 1.43.2.7      chap 			sc->rcv.bytesDiscarded.ev_count += count;
 1.43.2.7      chap 			MIDI_IN_UNLOCK(sc,s);
 1.43.2.6      chap 			DPRINTF(("midi_in: buffer full, discard data=0x%02x\n",
 1.43.2.6      chap 				 sc->rcv.pos[0]));
 1.43.2.6      chap 			return;
 1.43.2.6      chap 		}
 1.43.2.6      chap 		for (i = 0; i < count; i++) {
 1.43.2.7      chap 			*buf_cur++ = sc->rcv.pos[i];
 1.43.2.7      chap 			MIDI_BUF_WRAP(buf);
 1.43.2.6      chap 		}
 1.43.2.7      chap 		*idx_cur++ = PACK_MB_IDX(got,count);
 1.43.2.7      chap 		MIDI_BUF_WRAP(idx);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_WBACK(mb,buf);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_WBACK(mb,idx);
 1.43.2.6      chap 		midi_wakeup(&sc->rchan);
 1.43.2.6      chap 		selnotify(&sc->rsel, 0);
 1.43.2.6      chap 		if (sc->async)
 1.43.2.6      chap 			psignal(sc->async, SIGIO);
 1.43.2.7      chap 		MIDI_IN_UNLOCK(sc,s);
 1.43.2.6      chap 		break;
 1.43.2.9      chap 	default: /* don't #ifdef this away, gcc will say FST_HUH not handled */
 1.43.2.7      chap 		printf("midi_in: midi_fst returned %d?!\n", got);
      1.1  augustss 	}
      1.1  augustss }
      1.1  augustss
      1.1  augustss void
     1.22  augustss midi_out(void *addr)
      1.1  augustss {
      1.1  augustss 	struct midi_softc *sc = addr;
      1.3  augustss
      1.3  augustss 	if (!sc->isopen)
      1.3  augustss 		return;
 1.43.2.2      chap 	DPRINTFN(8, ("midi_out: %p\n", sc));
 1.43.2.7      chap 	midi_intr_out(sc);
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
 1.43.2.1      chap midiopen(dev_t dev, int flags, int ifmt, struct proc *p)
      1.1  augustss {
      1.1  augustss 	struct midi_softc *sc;
 1.43.2.1      chap 	struct midi_hw_if *hw;
      1.1  augustss 	int error;
      1.1  augustss
     1.17   thorpej 	sc = device_lookup(&midi_cd, MIDIUNIT(dev));
     1.17   thorpej 	if (sc == NULL)
     1.17   thorpej 		return (ENXIO);
     1.18  tshiozak 	if (sc->dying)
     1.18  tshiozak 		return (EIO);
     1.17   thorpej
 1.43.2.2      chap 	DPRINTFN(3,("midiopen %p\n", sc));
      1.1  augustss
      1.1  augustss 	hw = sc->hw_if;
      1.1  augustss 	if (!hw)
      1.1  augustss 		return ENXIO;
      1.1  augustss 	if (sc->isopen)
      1.1  augustss 		return EBUSY;
 1.43.2.7      chap
 1.43.2.7      chap 	/* put both state machines into known states */
 1.43.2.6      chap 	sc->rcv.state = MIDI_IN_START;
 1.43.2.7      chap 	sc->rcv.pos = sc->rcv.msg;
 1.43.2.7      chap 	sc->rcv.end = sc->rcv.msg;
 1.43.2.6      chap 	sc->xmt.state = MIDI_IN_START;
 1.43.2.6      chap 	sc->xmt.pos = sc->xmt.msg;
 1.43.2.6      chap 	sc->xmt.end = sc->xmt.msg;
 1.43.2.7      chap
 1.43.2.7      chap 	/* and the buffers */
 1.43.2.7      chap 	midi_initbuf(&sc->outbuf);
 1.43.2.7      chap 	midi_initbuf(&sc->inbuf);
 1.43.2.7      chap
      1.1  augustss 	error = hw->open(sc->hw_hdl, flags, midi_in, midi_out, sc);
      1.1  augustss 	if (error)
      1.1  augustss 		return error;
      1.1  augustss 	sc->isopen++;
      1.1  augustss 	sc->flags = flags;
      1.1  augustss 	sc->rchan = 0;
      1.1  augustss 	sc->wchan = 0;
      1.1  augustss 	sc->pbus = 0;
      1.1  augustss 	sc->async = 0;
      1.1  augustss
      1.4  augustss #ifdef MIDI_SAVE
      1.4  augustss 	if (midicnt != 0) {
      1.4  augustss 		midisave.cnt = midicnt;
      1.4  augustss 		midicnt = 0;
      1.4  augustss 	}
      1.4  augustss #endif
      1.4  augustss
      1.1  augustss 	return 0;
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
 1.43.2.1      chap midiclose(dev_t dev, int flags, int ifmt, struct proc *p)
      1.1  augustss {
      1.1  augustss 	int unit = MIDIUNIT(dev);
      1.1  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
 1.43.2.1      chap 	struct midi_hw_if *hw = sc->hw_if;
      1.1  augustss 	int s, error;
      1.1  augustss
 1.43.2.3      chap 	DPRINTFN(3,("midiclose %p\n", sc));
      1.1  augustss
 1.43.2.7      chap 	/* midi_start_output(sc); anything buffered => pbus already set! */
      1.1  augustss 	error = 0;
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	while (sc->pbus) {
 1.43.2.7      chap 		DPRINTFN(8,("midiclose sleep ...\n"));
 1.43.2.7      chap 		error =
 1.43.2.7      chap 		midi_sleep_timo(&sc->wchan, "mid_dr", 30*hz, &sc->out_lock);
      1.1  augustss 	}
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 	callout_stop(&sc->sc_callout); /* xxx fix this - sleep? */
      1.3  augustss 	sc->isopen = 0;
      1.1  augustss 	hw->close(sc->hw_hdl);
      1.1  augustss #if NSEQUENCER > 0
      1.1  augustss 	sc->seqopen = 0;
      1.7  augustss 	sc->seq_md = 0;
      1.1  augustss #endif
      1.1  augustss 	return 0;
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
     1.22  augustss midiread(dev_t dev, struct uio *uio, int ioflag)
      1.1  augustss {
      1.1  augustss 	int unit = MIDIUNIT(dev);
      1.1  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
      1.1  augustss 	struct midi_buffer *mb = &sc->inbuf;
      1.1  augustss 	int error;
      1.1  augustss 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.7      chap 	int appetite;
 1.43.2.7      chap 	int first = 1;
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(6,("midiread: %p, count=%lu\n", sc,
     1.11   nathanw 		 (unsigned long)uio->uio_resid));
      1.1  augustss
     1.18  tshiozak 	if (sc->dying)
     1.18  tshiozak 		return EIO;
 1.43.2.4      chap         if ( !(sc->props & MIDI_PROP_CAN_INPUT) )
 1.43.2.4      chap 	        return ENXIO;
     1.18  tshiozak
 1.43.2.7      chap 	MIDI_IN_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,buf);
 1.43.2.7      chap 	MIDI_IN_UNLOCK(sc,s);
 1.43.2.7      chap
      1.1  augustss 	error = 0;
 1.43.2.7      chap 	for ( ;; ) {
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * If the used portion of idx wraps around the end, just take
 1.43.2.7      chap 		 * the first part on this iteration, and we'll get the rest on
 1.43.2.7      chap 		 * the next.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		if ( idx_lim > idx_end )
 1.43.2.7      chap 			idx_lim = idx_end;
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * Count bytes through the last complete message that will
 1.43.2.7      chap 		 * fit in the requested read.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		for (appetite = uio->uio_resid; idx_cur < idx_lim; ++idx_cur) {
 1.43.2.7      chap 			if ( appetite < MB_IDX_LEN(*idx_cur) )
 1.43.2.7      chap 				break;
 1.43.2.7      chap 			appetite -= MB_IDX_LEN(*idx_cur);
 1.43.2.7      chap 		}
 1.43.2.7      chap 		appetite = uio->uio_resid - appetite;
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * Only if the read is too small to hold even the first
 1.43.2.7      chap 		 * complete message will we return a partial one (updating idx
 1.43.2.7      chap 		 * to reflect the remaining length of the message).
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		if ( appetite == 0 && idx_cur < idx_lim ) {
 1.43.2.7      chap 			if ( !first )
 1.43.2.7      chap 				goto unlocked_exit; /* idx_cur not advanced */
 1.43.2.7      chap 			appetite = uio->uio_resid;
 1.43.2.7      chap 			*idx_cur = PACK_MB_IDX(MB_IDX_CAT(*idx_cur),
 1.43.2.7      chap 					       MB_IDX_LEN(*idx_cur) - appetite);
 1.43.2.7      chap 		}
 1.43.2.7      chap 		KASSERT(buf_cur + appetite <= buf_lim);
 1.43.2.7      chap
 1.43.2.7      chap 		/* move the bytes */
 1.43.2.7      chap 		if ( appetite > 0 ) {
 1.43.2.7      chap 			first = 0;  /* we know we won't return empty-handed */
 1.43.2.7      chap 			/* do two uiomoves if data wrap around end of buf */
 1.43.2.7      chap 			if ( buf_cur + appetite > buf_end ) {
 1.43.2.7      chap 				DPRINTFN(8,
 1.43.2.7      chap 					("midiread: uiomove cc=%d (prewrap)\n",
 1.43.2.7      chap 					buf_end - buf_cur));
 1.43.2.7      chap 				error = uiomove(buf_cur, buf_end-buf_cur, uio);
 1.43.2.7      chap 				if ( error )
 1.43.2.7      chap 					goto unlocked_exit;
 1.43.2.7      chap 				appetite -= buf_end - buf_cur;
 1.43.2.7      chap 				buf_cur = mb->buf;
      1.1  augustss 			}
 1.43.2.7      chap 			DPRINTFN(8, ("midiread: uiomove cc=%d\n", appetite));
 1.43.2.7      chap 			error = uiomove(buf_cur, appetite, uio);
 1.43.2.7      chap 			if ( error )
 1.43.2.7      chap 				goto unlocked_exit;
 1.43.2.7      chap 			buf_cur += appetite;
 1.43.2.7      chap 		}
 1.43.2.7      chap
 1.43.2.7      chap 		MIDI_BUF_WRAP(idx);
 1.43.2.7      chap 		MIDI_BUF_WRAP(buf);
 1.43.2.7      chap
 1.43.2.7      chap 		MIDI_IN_LOCK(sc,s);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_WBACK(mb,idx);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_WBACK(mb,buf);
 1.43.2.7      chap 		if ( 0 == uio->uio_resid ) /* if read satisfied, we're done */
 1.43.2.7      chap 			break;
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_REFRESH(mb,idx);
 1.43.2.7      chap 		if ( idx_cur == idx_lim ) { /* need to wait for data? */
 1.43.2.7      chap 			if ( !first ) /* never block reader if */
 1.43.2.7      chap 				break; /* any data already in hand */
 1.43.2.7      chap 			if (ioflag & IO_NDELAY) {
 1.43.2.7      chap 				error = EWOULDBLOCK;
 1.43.2.7      chap 				break;
      1.1  augustss 			}
 1.43.2.7      chap 			error = midi_sleep(&sc->rchan, "mid rd", &sc->in_lock);
 1.43.2.7      chap 			if ( error )
 1.43.2.7      chap 				break;
 1.43.2.7      chap 			MIDI_BUF_CONSUMER_REFRESH(mb,idx); /* what'd we get? */
      1.1  augustss 		}
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_REFRESH(mb,buf);
 1.43.2.7      chap 		MIDI_IN_UNLOCK(sc,s);
 1.43.2.7      chap 		if ( sc->dying )
     1.18  tshiozak 			return EIO;
      1.1  augustss 	}
 1.43.2.7      chap 	MIDI_IN_UNLOCK(sc,s);
 1.43.2.7      chap
 1.43.2.7      chap unlocked_exit:
      1.1  augustss 	return error;
      1.1  augustss }
      1.1  augustss
      1.1  augustss void
     1.22  augustss midi_timeout(void *arg)
      1.1  augustss {
      1.1  augustss 	struct midi_softc *sc = arg;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	int error;
 1.43.2.7      chap 	int armed;
      1.1  augustss
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	if ( sc->pbus ) {
 1.43.2.7      chap 		MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 		return;
 1.43.2.7      chap 	}
 1.43.2.7      chap 	sc->pbus = 1;
 1.43.2.2      chap 	DPRINTFN(8,("midi_timeout: %p\n", sc));
 1.43.2.7      chap
 1.43.2.7      chap 	if ( sc->props & MIDI_PROP_OUT_INTR ) {
 1.43.2.7      chap 		error = sc->hw_if->output(sc->hw_hdl, MIDI_ACK);
 1.43.2.7      chap 		armed = (error == 0);
 1.43.2.7      chap 	} else { /* polled output, do with interrupts unmasked */
 1.43.2.7      chap 		MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 		error = sc->hw_if->output(sc->hw_hdl, MIDI_ACK);
 1.43.2.7      chap 		MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 		armed = 0;
 1.43.2.7      chap 	}
 1.43.2.7      chap
 1.43.2.7      chap 	if ( !armed ) {
 1.43.2.7      chap 		sc->pbus = 0;
 1.43.2.7      chap 		callout_schedule(&sc->sc_callout, mstohz(275));
 1.43.2.7      chap 	}
 1.43.2.7      chap
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
      1.1  augustss }
      1.1  augustss
 1.43.2.5      chap /*
 1.43.2.8      chap  * The way this function was hacked up to plug into poll_out and intr_out
 1.43.2.8      chap  * after they were written won't win it any beauty contests, but it'll work
 1.43.2.8      chap  * (code in haste, refactor at leisure). This may be called with the lock
 1.43.2.8      chap  * (by intr_out) or without the lock (by poll_out) so it only does what could
 1.43.2.8      chap  * be safe either way.
 1.43.2.8      chap  */
 1.43.2.8      chap int midi_msg_out(struct midi_softc *sc,
 1.43.2.8      chap                  u_char **idx, u_char **idxl, u_char **buf, u_char **bufl) {
 1.43.2.8      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.8      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.8      chap 	MIDI_BUF_EXTENT_INIT(&sc->outbuf,idx);
 1.43.2.8      chap 	MIDI_BUF_EXTENT_INIT(&sc->outbuf,buf);
 1.43.2.8      chap 	int length;
 1.43.2.8      chap 	int error;
 1.43.2.8      chap 	u_char contig[3];
 1.43.2.8      chap 	u_char *cp = contig;
 1.43.2.8      chap
 1.43.2.8      chap 	idx_cur = *idx;
 1.43.2.8      chap 	idx_lim = *idxl;
 1.43.2.8      chap 	buf_cur = *buf;
 1.43.2.8      chap 	buf_lim = *bufl;
 1.43.2.8      chap
 1.43.2.8      chap 	length = MB_IDX_LEN(*idx_cur);
 1.43.2.8      chap
 1.43.2.8      chap 	while ( length --> 0 ) {
 1.43.2.8      chap 		*cp++ = *buf_cur++;
 1.43.2.8      chap 		MIDI_BUF_WRAP(buf);
 1.43.2.8      chap 	}
 1.43.2.8      chap
 1.43.2.8      chap 	switch ( MB_IDX_CAT(*idx_cur) ) {
 1.43.2.8      chap 	case FST_CHN:
 1.43.2.8      chap 		error = sc->hw_if_ext->channel(sc->hw_hdl,
 1.43.2.8      chap 		                               MIDI_GET_STATUS(contig[0]),
 1.43.2.8      chap 					       MIDI_GET_CHAN(contig[0]),
 1.43.2.8      chap 					       contig, cp - contig);
 1.43.2.8      chap 		break;
 1.43.2.8      chap 	case FST_COM:
 1.43.2.8      chap 		error = sc->hw_if_ext->common(sc->hw_hdl,
 1.43.2.8      chap 		                              MIDI_GET_STATUS(contig[0]),
 1.43.2.8      chap 					      contig, cp - contig);
 1.43.2.8      chap 		break;
 1.43.2.8      chap 	case FST_SYX:
 1.43.2.8      chap 		error = sc->hw_if_ext->sysex(sc->hw_hdl,
 1.43.2.8      chap 					     contig, cp - contig);
 1.43.2.8      chap 		break;
 1.43.2.8      chap 	case FST_RT:
 1.43.2.8      chap 		error = sc->hw_if->output(sc->hw_hdl, **buf);
 1.43.2.8      chap 		break;
 1.43.2.8      chap 	default:
 1.43.2.8      chap 		error = EIO;
 1.43.2.8      chap 	}
 1.43.2.8      chap
 1.43.2.8      chap 	if ( !error ) {
 1.43.2.8      chap 		++ idx_cur;
 1.43.2.8      chap 		MIDI_BUF_WRAP(idx);
 1.43.2.8      chap 		*idx  = idx_cur;
 1.43.2.8      chap 		*idxl = idx_lim;
 1.43.2.8      chap 		*buf  = buf_cur;
 1.43.2.8      chap 		*bufl = buf_lim;
 1.43.2.8      chap 	}
 1.43.2.8      chap
 1.43.2.8      chap 	return error;
 1.43.2.8      chap }
 1.43.2.8      chap
 1.43.2.8      chap /*
 1.43.2.7      chap  * midi_poll_out is intended for the midi hw (the vast majority of MIDI UARTs
 1.43.2.7      chap  * on sound cards, apparently) that _do not have transmit-ready interrupts_.
 1.43.2.7      chap  * Every call to hw_if->output for one of these may busy-wait to output the
 1.43.2.7      chap  * byte; at the standard midi data rate that'll be 320us per byte. The
 1.43.2.7      chap  * technique of writing only MIDI_MAX_WRITE bytes in a row and then waiting
 1.43.2.7      chap  * for MIDI_WAIT does not reduce the total time spent busy-waiting, and it
 1.43.2.7      chap  * adds arbitrary delays in transmission (and, since MIDI_WAIT is roughly the
 1.43.2.7      chap  * same as the time to send MIDI_MAX_WRITE bytes, it effectively halves the
 1.43.2.7      chap  * data rate). Here, a somewhat bolder approach is taken. Since midi traffic
 1.43.2.7      chap  * is bursty but time-sensitive--most of the time there will be none at all,
 1.43.2.7      chap  * but when there is it should go out ASAP--the strategy is to just get it
 1.43.2.7      chap  * over with, and empty the buffer in one go. The effect this can have on
 1.43.2.7      chap  * the rest of the system will be limited by the size of the buffer and the
 1.43.2.7      chap  * sparseness of the traffic. But some precautions are in order. Interrupts
 1.43.2.7      chap  * should all be unmasked when this is called, and midiwrite should not fill
 1.43.2.7      chap  * the buffer more than once (when MIDI_PROP_CAN_INTR is false) without a
 1.43.2.7      chap  * yield() so some other process can get scheduled. If the write is nonblocking,
 1.43.2.7      chap  * midiwrite should return a short count rather than yield.
 1.43.2.5      chap  *
 1.43.2.7      chap  * Someday when there is fine-grained MP support, this should be reworked to
 1.43.2.7      chap  * run in a callout so the writing process really could proceed concurrently.
 1.43.2.7      chap  * But obviously where performance is a concern, interrupt-driven hardware
 1.43.2.7      chap  * such as USB midi or (apparently) clcs will always be preferable.
 1.43.2.5      chap  */
      1.1  augustss int
 1.43.2.7      chap midi_poll_out(struct midi_softc *sc)
      1.1  augustss {
      1.1  augustss 	struct midi_buffer *mb = &sc->outbuf;
      1.1  augustss 	int error;
 1.43.2.7      chap 	int msglen;
      1.1  augustss 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
      1.1  augustss
      1.1  augustss 	error = 0;
     1.18  tshiozak
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,buf);
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap
 1.43.2.7      chap 	for ( ;; ) {
 1.43.2.7      chap 		while ( idx_cur != idx_lim ) {
 1.43.2.8      chap 			if ( sc->hw_if_ext ) {
 1.43.2.8      chap 				error = midi_msg_out(sc, &idx_cur, &idx_lim,
 1.43.2.8      chap 				                         &buf_cur, &buf_lim);
 1.43.2.8      chap 				if ( error )
 1.43.2.8      chap 					goto ioerror;
 1.43.2.8      chap 				continue;
 1.43.2.8      chap 			}
 1.43.2.8      chap 			/* or, lacking hw_if_ext ... */
 1.43.2.7      chap 			msglen = MB_IDX_LEN(*idx_cur);
1.43.2.10      chap 			DPRINTFN(7,("midi_poll_out: %p <- %#02x\n",
1.43.2.10      chap 				   sc->hw_hdl, *buf_cur));
 1.43.2.7      chap 			error = sc->hw_if->output(sc->hw_hdl, *buf_cur);
 1.43.2.7      chap 			if ( error )
 1.43.2.7      chap 				goto ioerror;
 1.43.2.7      chap 			++ buf_cur;
 1.43.2.7      chap 			MIDI_BUF_WRAP(buf);
 1.43.2.7      chap 			-- msglen;
 1.43.2.7      chap 			if ( msglen )
 1.43.2.7      chap 				*idx_cur = PACK_MB_IDX(MB_IDX_CAT(*idx_cur),
 1.43.2.7      chap 				                       msglen);
 1.43.2.7      chap 			else {
 1.43.2.7      chap 				++ idx_cur;
 1.43.2.7      chap 				MIDI_BUF_WRAP(idx);
 1.43.2.5      chap 			}
 1.43.2.5      chap 		}
 1.43.2.7      chap 		KASSERT(buf_cur == buf_lim);
 1.43.2.7      chap 		MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_WBACK(mb,idx);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_WBACK(mb,buf);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_REFRESH(mb,idx); /* any more to transmit? */
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_REFRESH(mb,buf);
 1.43.2.7      chap 		if ( idx_lim == idx_cur )
 1.43.2.7      chap 			break; /* still holding lock */
 1.43.2.7      chap 		MIDI_OUT_UNLOCK(sc,s);
 1.43.2.5      chap 	}
 1.43.2.7      chap 	goto disarm; /* lock held */
 1.43.2.7      chap
 1.43.2.7      chap ioerror:
 1.43.2.7      chap #if defined(AUDIO_DEBUG) || defined(DIAGNOSTIC)
 1.43.2.7      chap 	printf("%s: midi_poll_output error %d\n",
 1.43.2.7      chap 	      sc->dev.dv_xname, error);
 1.43.2.7      chap #endif
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_WBACK(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_WBACK(mb,buf);
 1.43.2.7      chap
 1.43.2.7      chap disarm:
 1.43.2.7      chap 	sc->pbus = 0;
 1.43.2.7      chap 	callout_schedule(&sc->sc_callout, mstohz(275));
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 	return error;
 1.43.2.7      chap }
 1.43.2.7      chap
 1.43.2.7      chap /*
 1.43.2.7      chap  * The interrupt flavor acquires spl and lock once and releases at the end,
 1.43.2.7      chap  * as it expects to write only one byte or message. The interface convention
 1.43.2.7      chap  * is that if hw_if->output returns 0, it has initiated transmission and the
 1.43.2.7      chap  * completion interrupt WILL be forthcoming; if it has not returned 0, NO
 1.43.2.7      chap  * interrupt will be forthcoming, and if it returns EINPROGRESS it wants
 1.43.2.7      chap  * another byte right away.
 1.43.2.7      chap  */
 1.43.2.7      chap int
 1.43.2.7      chap midi_intr_out(struct midi_softc *sc)
 1.43.2.7      chap {
 1.43.2.7      chap 	struct midi_buffer *mb = &sc->outbuf;
 1.43.2.7      chap 	int error;
 1.43.2.7      chap 	int msglen;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.7      chap 	int armed = 0;
 1.43.2.7      chap
 1.43.2.7      chap 	error = 0;
 1.43.2.7      chap
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(mb,buf);
 1.43.2.5      chap
 1.43.2.7      chap 	while ( idx_cur != idx_lim ) {
 1.43.2.8      chap 		if ( sc->hw_if_ext ) {
 1.43.2.8      chap 			error = midi_msg_out(sc, &idx_cur, &idx_lim,
 1.43.2.8      chap 				                 &buf_cur, &buf_lim);
 1.43.2.8      chap 			if ( !error ) /* no EINPROGRESS from extended hw_if */
 1.43.2.8      chap 				armed = 1;
 1.43.2.8      chap 			break;
 1.43.2.8      chap 		}
 1.43.2.8      chap 		/* or, lacking hw_if_ext ... */
 1.43.2.7      chap 		msglen = MB_IDX_LEN(*idx_cur);
 1.43.2.7      chap 		error = sc->hw_if->output(sc->hw_hdl, *buf_cur);
 1.43.2.7      chap 		if ( error  &&  error != EINPROGRESS )
 1.43.2.5      chap 			break;
 1.43.2.7      chap 		++ buf_cur;
 1.43.2.7      chap 		MIDI_BUF_WRAP(buf);
 1.43.2.7      chap 		-- msglen;
 1.43.2.7      chap 		if ( msglen )
 1.43.2.7      chap 			*idx_cur = PACK_MB_IDX(MB_IDX_CAT(*idx_cur),msglen);
 1.43.2.7      chap 		else {
 1.43.2.7      chap 			++ idx_cur;
 1.43.2.7      chap 			MIDI_BUF_WRAP(idx);
 1.43.2.5      chap 		}
 1.43.2.7      chap 		if ( !error ) {
 1.43.2.7      chap 			armed = 1;
 1.43.2.7      chap 			break;
 1.43.2.5      chap 		}
      1.1  augustss 	}
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_WBACK(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_WBACK(mb,buf);
 1.43.2.7      chap 	if ( !armed ) {
 1.43.2.7      chap 		sc->pbus = 0;
 1.43.2.7      chap 		callout_schedule(&sc->sc_callout, mstohz(275));
 1.43.2.7      chap 	}
 1.43.2.7      chap 	midi_wakeup(&sc->wchan);
 1.43.2.7      chap 	selnotify(&sc->wsel, 0);
 1.43.2.7      chap 	if ( sc->async )
 1.43.2.7      chap 		psignal(sc->async, SIGIO);
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.5      chap
 1.43.2.5      chap #if defined(AUDIO_DEBUG) || defined(DIAGNOSTIC)
 1.43.2.7      chap 	if ( error )
 1.43.2.7      chap 		printf("%s: midi_intr_output error %d\n",
 1.43.2.7      chap 	               sc->dev.dv_xname, error);
 1.43.2.5      chap #endif
 1.43.2.7      chap 	return error;
 1.43.2.7      chap }
 1.43.2.5      chap
 1.43.2.7      chap int
 1.43.2.7      chap midi_start_output(struct midi_softc *sc)
 1.43.2.7      chap {
 1.43.2.7      chap 	if (sc->dying)
 1.43.2.7      chap 		return EIO;
     1.20  tshiozak
 1.43.2.7      chap 	if ( sc->props & MIDI_PROP_OUT_INTR )
 1.43.2.7      chap 		return midi_intr_out(sc);
 1.43.2.7      chap 	return midi_poll_out(sc);
 1.43.2.7      chap }
 1.43.2.7      chap
 1.43.2.7      chap static int
 1.43.2.7      chap real_writebytes(struct midi_softc *sc, u_char *buf, int cc)
 1.43.2.7      chap {
 1.43.2.7      chap 	u_char *bufe = buf + cc;
 1.43.2.7      chap 	struct midi_buffer *mb = &sc->outbuf;
 1.43.2.7      chap 	int arming = 0;
 1.43.2.7      chap 	int count;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	int got;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.7      chap
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_INIT(mb,idx);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_INIT(mb,buf);
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap
 1.43.2.7      chap 	if (sc->dying)
 1.43.2.7      chap 		return EIO;
 1.43.2.7      chap
 1.43.2.7      chap 	while ( buf < bufe ) {
1.43.2.10      chap 		do {
1.43.2.10      chap 			/*
1.43.2.10      chap 			 * If the hardware uses the extended hw_if, pass it
1.43.2.10      chap 			 * canonicalized messages, else pass it compressed ones.
1.43.2.10      chap 			 */
1.43.2.10      chap 			got = midi_fst(&sc->xmt, *buf, !sc->hw_if_ext);
1.43.2.10      chap 		} while ( got == FST_HUH );
 1.43.2.7      chap 		++ buf;
 1.43.2.7      chap 		switch ( got ) {
 1.43.2.7      chap 		case FST_MORE:
 1.43.2.7      chap 			continue;
 1.43.2.7      chap 		case FST_ERR:
 1.43.2.7      chap #if defined(EPROTO) /* most appropriate SUSv3 errno, but not in errno.h yet */
 1.43.2.7      chap 			return EPROTO;
 1.43.2.7      chap #else
 1.43.2.7      chap 			return EIO;
 1.43.2.7      chap #endif
 1.43.2.7      chap 		case FST_CHN:
 1.43.2.7      chap 		case FST_COM:
 1.43.2.7      chap 		case FST_RT:
 1.43.2.7      chap 		case FST_SYX:
 1.43.2.7      chap 			break; /* go add to buffer */
 1.43.2.7      chap #if defined(AUDIO_DEBUG) || defined(DIAGNOSTIC)
 1.43.2.7      chap 		default:
 1.43.2.7      chap 			printf("midi_wr: midi_fst returned %d?!\n", got);
 1.43.2.7      chap #endif
 1.43.2.7      chap 		}
 1.43.2.7      chap 		count = sc->xmt.end - sc->xmt.pos;
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * return EWOULDBLOCK if the data passed will not fit in
 1.43.2.7      chap 		 * the buffer; the caller should have taken steps to avoid that.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		if ( idx_cur == idx_lim || count > buf_lim - buf_cur ) {
 1.43.2.7      chap 			MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 			MIDI_BUF_PRODUCER_REFRESH(mb,idx); /* get the most */
 1.43.2.7      chap 			MIDI_BUF_PRODUCER_REFRESH(mb,buf); /*  current facts */
 1.43.2.7      chap 			MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 			if ( idx_cur == idx_lim || count > buf_lim - buf_cur )
 1.43.2.7      chap 				return EWOULDBLOCK; /* caller's problem */
 1.43.2.7      chap 		}
 1.43.2.7      chap 		*idx_cur++ = PACK_MB_IDX(got,count);
 1.43.2.7      chap 		MIDI_BUF_WRAP(idx);
 1.43.2.7      chap 		while ( count ) {
 1.43.2.7      chap 			*buf_cur++ = *(sc->xmt.pos)++;
 1.43.2.7      chap 			MIDI_BUF_WRAP(buf);
 1.43.2.7      chap 			-- count;
 1.43.2.7      chap 		}
 1.43.2.7      chap 	}
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_WBACK(mb,buf);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_WBACK(mb,idx);
 1.43.2.7      chap 	/*
 1.43.2.7      chap 	 * If the output transfer is not already busy, and there is a message
 1.43.2.7      chap 	 * buffered, mark it busy, stop the Active Sense callout (what if we're
 1.43.2.7      chap 	 * too late and it's expired already? No big deal, an extra Active Sense
 1.43.2.7      chap 	 * never hurt anybody) and start the output transfer once we're out of
 1.43.2.7      chap 	 * the critical section (pbus==1 will stop anyone else doing the same).
 1.43.2.7      chap 	 */
 1.43.2.7      chap 	if ( !sc->pbus && idx_cur < MIDI_BUF_PRODUCER_REFRESH(mb,idx) ) {
 1.43.2.7      chap 		sc->pbus = 1;
 1.43.2.7      chap 		callout_stop(&sc->sc_callout);
 1.43.2.7      chap 		arming = 1;
 1.43.2.7      chap 	}
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 	return arming ? midi_start_output(sc) : 0;
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
     1.22  augustss midiwrite(dev_t dev, struct uio *uio, int ioflag)
      1.1  augustss {
      1.1  augustss 	int unit = MIDIUNIT(dev);
      1.1  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
      1.1  augustss 	struct midi_buffer *mb = &sc->outbuf;
      1.1  augustss 	int error;
 1.43.2.7      chap 	u_char inp[256];
      1.1  augustss 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
 1.43.2.7      chap 	size_t idxspace;
 1.43.2.7      chap 	size_t bufspace;
 1.43.2.7      chap 	size_t xfrcount;
 1.43.2.7      chap 	int pollout = 0;
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(6, ("midiwrite: %p, unit=%d, count=%lu\n", sc, unit,
     1.11   nathanw 		     (unsigned long)uio->uio_resid));
      1.1  augustss
     1.18  tshiozak 	if (sc->dying)
     1.18  tshiozak 		return EIO;
     1.18  tshiozak
      1.1  augustss 	error = 0;
      1.1  augustss 	while (uio->uio_resid > 0 && !error) {
 1.43.2.7      chap
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * block if necessary for the minimum buffer space to guarantee
 1.43.2.7      chap 		 * we can write something.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(mb,idx); /* init can't go above loop; */
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(mb,buf); /* real_writebytes moves cur */
 1.43.2.7      chap 		for ( ;; ) {
 1.43.2.7      chap 			idxspace = MIDI_BUF_PRODUCER_REFRESH(mb,idx) - idx_cur;
 1.43.2.7      chap 			bufspace = MIDI_BUF_PRODUCER_REFRESH(mb,buf) - buf_cur;
 1.43.2.7      chap 			if ( idxspace >= 1  &&  bufspace >= 3  && !pollout )
 1.43.2.7      chap 				break;
 1.43.2.7      chap 			DPRINTFN(8,("midi_write: sleep idx=%d buf=%d\n",
 1.43.2.7      chap 				 idxspace, bufspace));
      1.1  augustss 			if (ioflag & IO_NDELAY) {
 1.43.2.7      chap 				error = EWOULDBLOCK;
 1.43.2.7      chap 				/*
 1.43.2.7      chap 				 * If some amount has already been transferred,
 1.43.2.7      chap 				 * the common syscall code will automagically
 1.43.2.7      chap 				 * convert this to success with a short count.
 1.43.2.7      chap 				 */
 1.43.2.7      chap 				goto locked_exit;
      1.1  augustss 			}
 1.43.2.7      chap 			if ( pollout ) {
 1.43.2.7      chap 				preempt(0); /* see midi_poll_output */
 1.43.2.7      chap 				pollout = 0;
 1.43.2.7      chap 			} else
 1.43.2.7      chap 				error = midi_sleep(&sc->wchan, "mid wr",
 1.43.2.7      chap 				                   &sc->out_lock);
 1.43.2.7      chap 			if (error)
 1.43.2.7      chap 				/*
 1.43.2.7      chap 				 * Similarly, the common code will handle
 1.43.2.7      chap 				 * EINTR and ERESTART properly here, changing to
 1.43.2.7      chap 				 * a short count if something transferred.
 1.43.2.7      chap 				 */
 1.43.2.7      chap 				goto locked_exit;
 1.43.2.7      chap 		}
 1.43.2.7      chap 		MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * The number of bytes we can safely extract from the uio
 1.43.2.7      chap 		 * depends on the available idx and buf space. Worst case,
 1.43.2.7      chap 		 * every byte is a message so 1 idx is required per byte.
 1.43.2.7      chap 		 * Worst case, the first byte completes a 3-byte msg in prior
 1.43.2.7      chap 		 * state, and every subsequent byte is a Program Change or
 1.43.2.7      chap 		 * Channel Pressure msg with running status and expands to 2
 1.43.2.7      chap 		 * bytes, so the buf space reqd is 3+2(n-1) or 2n+1. So limit
 1.43.2.7      chap 		 * the transfer to the min of idxspace and (bufspace-1)>>1.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		xfrcount = (bufspace - 1) >> 1;
 1.43.2.7      chap 		if ( xfrcount > idxspace )
 1.43.2.7      chap 			xfrcount = idxspace;
 1.43.2.7      chap 		if ( xfrcount > sizeof inp )
 1.43.2.7      chap 			xfrcount = sizeof inp;
 1.43.2.7      chap 		if ( xfrcount > uio->uio_resid )
 1.43.2.7      chap 			xfrcount = uio->uio_resid;
 1.43.2.7      chap
 1.43.2.7      chap 		error = uiomove(inp, xfrcount, uio);
      1.1  augustss #ifdef MIDI_DEBUG
      1.1  augustss 		if (error)
      1.9  augustss 		        printf("midi_write:(1) uiomove failed %d; "
 1.43.2.7      chap 			       "xfrcount=%d inp=%p\n",
 1.43.2.7      chap 			       error, xfrcount, inp);
      1.1  augustss #endif
 1.43.2.7      chap 		if ( error )
 1.43.2.7      chap 			break;
 1.43.2.7      chap
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * The number of bytes we extracted being calculated to
 1.43.2.7      chap 		 * definitely fit in the buffer even with canonicalization,
 1.43.2.7      chap 		 * there is no excuse for real_writebytes to return EWOULDBLOCK.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		error = real_writebytes(sc, inp, xfrcount);
 1.43.2.7      chap 		KASSERT(error != EWOULDBLOCK);
 1.43.2.7      chap
 1.43.2.7      chap 		if ( error )
      1.1  augustss 			break;
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * If this is a polling device and we just sent a buffer, let's
 1.43.2.7      chap 		 * not send another without giving some other process a chance.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		if ( ! (sc->props & MIDI_PROP_OUT_INTR) )
 1.43.2.7      chap 			pollout = 1;
 1.43.2.7      chap 		DPRINTFN(8,("midiwrite: uio_resid now %u, props=%d\n",
 1.43.2.7      chap                         uio->uio_resid, sc->props));
      1.1  augustss 	}
      1.1  augustss 	return error;
 1.43.2.7      chap
 1.43.2.7      chap locked_exit:
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
 1.43.2.7      chap 	return error;
      1.5  augustss }
      1.5  augustss
      1.5  augustss /*
      1.9  augustss  * This write routine is only called from sequencer code and expects
      1.5  augustss  * a write that is smaller than the MIDI buffer.
      1.5  augustss  */
      1.5  augustss int
 1.43.2.1      chap midi_writebytes(int unit, u_char *buf, int cc)
      1.5  augustss {
      1.5  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
      1.5  augustss
 1.43.2.2      chap 	DPRINTFN(7, ("midi_writebytes: %p, unit=%d, cc=%d %#02x %#02x %#02x\n",
 1.43.2.2      chap                     sc, unit, cc, buf[0], buf[1], buf[2]));
 1.43.2.7      chap 	return real_writebytes(sc, buf, cc);
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
 1.43.2.1      chap midiioctl(dev_t dev, u_long cmd, caddr_t addr, int flag, struct proc *p)
      1.1  augustss {
      1.1  augustss 	int unit = MIDIUNIT(dev);
      1.1  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
 1.43.2.1      chap 	struct midi_hw_if *hw = sc->hw_if;
      1.1  augustss 	int error;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(5,("midiioctl: %p cmd=0x%08lx\n", sc, cmd));
     1.18  tshiozak
     1.18  tshiozak 	if (sc->dying)
     1.18  tshiozak 		return EIO;
     1.18  tshiozak
      1.1  augustss 	error = 0;
      1.1  augustss 	switch (cmd) {
      1.1  augustss 	case FIONBIO:
      1.1  augustss 		/* All handled in the upper FS layer. */
      1.1  augustss 		break;
 1.43.2.7      chap
 1.43.2.7      chap 	case FIONREAD:
 1.43.2.7      chap 		/*
 1.43.2.7      chap 		 * This code relies on the current implementation of midi_in
 1.43.2.7      chap 		 * always updating buf and idx together in a critical section,
 1.43.2.7      chap 		 * so buf always ends at a message boundary. Document this
 1.43.2.7      chap 		 * ioctl as always returning a value such that the last message
 1.43.2.7      chap 		 * included is complete (SysEx the only exception), and then
 1.43.2.7      chap 		 * make sure the implementation doesn't regress.  NB that
 1.43.2.7      chap 		 * means if this ioctl returns n and the proc then issues a
 1.43.2.7      chap 		 * read of n, n bytes will be read, but if the proc issues a
 1.43.2.7      chap 		 * read of m < n, fewer than m bytes may be read to ensure the
 1.43.2.7      chap 		 * read ends at a message boundary.
 1.43.2.7      chap 		 */
 1.43.2.7      chap 		MIDI_IN_LOCK(sc,s);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_INIT(&sc->inbuf,buf);
 1.43.2.7      chap 		MIDI_IN_UNLOCK(sc,s);
 1.43.2.7      chap 		*(int *)addr = buf_lim - buf_cur;
 1.43.2.7      chap 		break;
      1.1  augustss
      1.1  augustss 	case FIOASYNC:
      1.1  augustss 		if (*(int *)addr) {
      1.1  augustss 			if (sc->async)
      1.1  augustss 				return EBUSY;
 1.43.2.1      chap 			sc->async = p;
 1.43.2.2      chap 			DPRINTFN(5,("midi_ioctl: FIOASYNC %p\n", p));
      1.1  augustss 		} else
      1.1  augustss 			sc->async = 0;
      1.1  augustss 		break;
      1.1  augustss
      1.1  augustss #if 0
      1.1  augustss 	case MIDI_PRETIME:
      1.1  augustss 		/* XXX OSS
      1.1  augustss 		 * This should set up a read timeout, but that's
      1.1  augustss 		 * why we have poll(), so there's nothing yet. */
      1.1  augustss 		error = EINVAL;
      1.1  augustss 		break;
      1.1  augustss #endif
      1.1  augustss
      1.4  augustss #ifdef MIDI_SAVE
      1.4  augustss 	case MIDI_GETSAVE:
      1.4  augustss 		error = copyout(&midisave, *(void **)addr, sizeof midisave);
      1.4  augustss   		break;
      1.4  augustss #endif
      1.4  augustss
      1.1  augustss 	default:
      1.1  augustss 		if (hw->ioctl)
 1.43.2.1      chap 			error = hw->ioctl(sc->hw_hdl, cmd, addr, flag, p);
      1.1  augustss 		else
      1.1  augustss 			error = EINVAL;
      1.1  augustss 		break;
      1.1  augustss 	}
      1.1  augustss 	return error;
      1.1  augustss }
      1.1  augustss
      1.1  augustss int
 1.43.2.1      chap midipoll(dev_t dev, int events, struct proc *p)
      1.1  augustss {
      1.1  augustss 	int unit = MIDIUNIT(dev);
      1.1  augustss 	struct midi_softc *sc = midi_cd.cd_devs[unit];
      1.1  augustss 	int revents = 0;
     1.24      gson 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
      1.1  augustss
 1.43.2.2      chap 	DPRINTFN(6,("midipoll: %p events=0x%x\n", sc, events));
      1.1  augustss
     1.18  tshiozak 	if (sc->dying)
 1.43.2.1      chap 		return EIO;
     1.24      gson
     1.24      gson 	s = splaudio();
     1.18  tshiozak
 1.43.2.7      chap 	if ((sc->flags&FREAD) && (events & (POLLIN | POLLRDNORM))) {
 1.43.2.7      chap 		simple_lock(&sc->in_lock);
 1.43.2.7      chap 		MIDI_BUF_CONSUMER_INIT(&sc->inbuf,idx);
 1.43.2.7      chap 		if (idx_cur < idx_lim)
      1.1  augustss 			revents |= events & (POLLIN | POLLRDNORM);
 1.43.2.7      chap 		else
 1.43.2.1      chap 			selrecord(p, &sc->rsel);
 1.43.2.7      chap 		simple_unlock(&sc->in_lock);
 1.43.2.7      chap 	}
      1.1  augustss
 1.43.2.7      chap 	if ((sc->flags&FWRITE) && (events & (POLLOUT | POLLWRNORM))) {
 1.43.2.7      chap 		simple_lock(&sc->out_lock);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(&sc->outbuf,idx);
 1.43.2.7      chap 		MIDI_BUF_PRODUCER_INIT(&sc->outbuf,buf);
 1.43.2.7      chap 		if ( idx_lim - idx_cur >= 1  &&  buf_lim - buf_cur >= 3 )
 1.43.2.7      chap 			revents |= events & (POLLOUT | POLLWRNORM);
 1.43.2.7      chap 		else
 1.43.2.1      chap 			selrecord(p, &sc->wsel);
 1.43.2.7      chap 		simple_unlock(&sc->out_lock);
      1.1  augustss 	}
      1.1  augustss
      1.1  augustss 	splx(s);
      1.1  augustss 	return revents;
     1.30  jdolecek }
     1.30  jdolecek
     1.30  jdolecek static void
     1.30  jdolecek filt_midirdetach(struct knote *kn)
     1.30  jdolecek {
     1.30  jdolecek 	struct midi_softc *sc = kn->kn_hook;
     1.30  jdolecek 	int s;
     1.30  jdolecek
     1.30  jdolecek 	s = splaudio();
     1.31  christos 	SLIST_REMOVE(&sc->rsel.sel_klist, kn, knote, kn_selnext);
     1.30  jdolecek 	splx(s);
     1.30  jdolecek }
     1.30  jdolecek
     1.30  jdolecek static int
     1.30  jdolecek filt_midiread(struct knote *kn, long hint)
     1.30  jdolecek {
     1.30  jdolecek 	struct midi_softc *sc = kn->kn_hook;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
     1.30  jdolecek
     1.30  jdolecek 	/* XXXLUKEM (thorpej): please make sure this is correct. */
     1.30  jdolecek
 1.43.2.7      chap 	MIDI_IN_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_CONSUMER_INIT(&sc->inbuf,buf);
 1.43.2.7      chap 	kn->kn_data = buf_lim - buf_cur;
 1.43.2.7      chap 	MIDI_IN_UNLOCK(sc,s);
     1.30  jdolecek 	return (kn->kn_data > 0);
     1.30  jdolecek }
     1.30  jdolecek
     1.30  jdolecek static const struct filterops midiread_filtops =
     1.30  jdolecek 	{ 1, NULL, filt_midirdetach, filt_midiread };
     1.30  jdolecek
     1.30  jdolecek static void
     1.30  jdolecek filt_midiwdetach(struct knote *kn)
     1.30  jdolecek {
     1.30  jdolecek 	struct midi_softc *sc = kn->kn_hook;
     1.30  jdolecek 	int s;
     1.30  jdolecek
     1.30  jdolecek 	s = splaudio();
     1.31  christos 	SLIST_REMOVE(&sc->wsel.sel_klist, kn, knote, kn_selnext);
     1.30  jdolecek 	splx(s);
     1.30  jdolecek }
     1.30  jdolecek
     1.30  jdolecek static int
     1.30  jdolecek filt_midiwrite(struct knote *kn, long hint)
     1.30  jdolecek {
     1.30  jdolecek 	struct midi_softc *sc = kn->kn_hook;
 1.43.2.7      chap 	int s;
 1.43.2.7      chap 	MIDI_BUF_DECLARE(idx);
 1.43.2.7      chap 	MIDI_BUF_DECLARE(buf);
     1.30  jdolecek
     1.30  jdolecek 	/* XXXLUKEM (thorpej): please make sure this is correct. */
     1.30  jdolecek
 1.43.2.7      chap 	MIDI_OUT_LOCK(sc,s);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_INIT(&sc->outbuf,idx);
 1.43.2.7      chap 	MIDI_BUF_PRODUCER_INIT(&sc->outbuf,buf);
 1.43.2.7      chap 	kn->kn_data = ((buf_lim - buf_cur)-1)>>1;
 1.43.2.7      chap 	if ( kn->kn_data > idx_lim - idx_cur )
 1.43.2.7      chap 		kn->kn_data = idx_lim - idx_cur;
 1.43.2.7      chap 	MIDI_OUT_UNLOCK(sc,s);
     1.30  jdolecek 	return (kn->kn_data > 0);
     1.30  jdolecek }
     1.30  jdolecek
     1.30  jdolecek static const struct filterops midiwrite_filtops =
     1.30  jdolecek 	{ 1, NULL, filt_midiwdetach, filt_midiwrite };
     1.30  jdolecek
     1.30  jdolecek int
     1.30  jdolecek midikqfilter(dev_t dev, struct knote *kn)
     1.30  jdolecek {
     1.30  jdolecek 	int unit = MIDIUNIT(dev);
     1.30  jdolecek 	struct midi_softc *sc = midi_cd.cd_devs[unit];
     1.30  jdolecek 	struct klist *klist;
     1.30  jdolecek 	int s;
     1.30  jdolecek
     1.30  jdolecek 	switch (kn->kn_filter) {
     1.30  jdolecek 	case EVFILT_READ:
     1.31  christos 		klist = &sc->rsel.sel_klist;
     1.30  jdolecek 		kn->kn_fop = &midiread_filtops;
     1.30  jdolecek 		break;
     1.30  jdolecek
     1.30  jdolecek 	case EVFILT_WRITE:
     1.31  christos 		klist = &sc->wsel.sel_klist;
     1.30  jdolecek 		kn->kn_fop = &midiwrite_filtops;
     1.30  jdolecek 		break;
     1.30  jdolecek
     1.30  jdolecek 	default:
     1.30  jdolecek 		return (1);
     1.30  jdolecek 	}
     1.30  jdolecek
     1.30  jdolecek 	kn->kn_hook = sc;
     1.30  jdolecek
     1.30  jdolecek 	s = splaudio();
     1.30  jdolecek 	SLIST_INSERT_HEAD(klist, kn, kn_selnext);
     1.30  jdolecek 	splx(s);
     1.30  jdolecek
     1.30  jdolecek 	return (0);
      1.1  augustss }
      1.1  augustss
      1.1  augustss void
     1.22  augustss midi_getinfo(dev_t dev, struct midi_info *mi)
      1.1  augustss {
      1.1  augustss 	struct midi_softc *sc;
      1.1  augustss
     1.17   thorpej 	sc = device_lookup(&midi_cd, MIDIUNIT(dev));
     1.17   thorpej 	if (sc == NULL)
     1.18  tshiozak 		return;
     1.18  tshiozak 	if (sc->dying)
      1.1  augustss 		return;
     1.17   thorpej
      1.1  augustss 	sc->hw_if->getinfo(sc->hw_hdl, mi);
      1.4  augustss }
      1.4  augustss
     1.10  drochner #endif /* NMIDI > 0 */
     1.10  drochner
     1.10  drochner #if NMIDI > 0 || NMIDIBUS > 0
     1.10  drochner
     1.22  augustss int	audioprint(void *, const char *);
      1.4  augustss
     1.12  augustss struct device *
 1.43.2.1      chap midi_attach_mi(struct midi_hw_if *mhwp, void *hdlp, struct device *dev)
      1.4  augustss {
      1.4  augustss 	struct audio_attach_args arg;
      1.4  augustss
      1.4  augustss #ifdef DIAGNOSTIC
      1.4  augustss 	if (mhwp == NULL) {
     1.32   thorpej 		aprint_error("midi_attach_mi: NULL\n");
     1.12  augustss 		return (0);
      1.4  augustss 	}
      1.4  augustss #endif
      1.4  augustss 	arg.type = AUDIODEV_TYPE_MIDI;
      1.4  augustss 	arg.hwif = mhwp;
      1.4  augustss 	arg.hdl = hdlp;
     1.12  augustss 	return (config_found(dev, &arg, audioprint));
      1.1  augustss }
      1.1  augustss
     1.10  drochner #endif /* NMIDI > 0 || NMIDIBUS > 0 */