dev/isa/sbdsp.c

1.15  mycroft /*	$NetBSD: sbdsp.c,v 1.15 1996/02/16 08:07:40 mycroft Exp $	*/
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Copyright (c) 1991-1993 Regents of the University of California.
 1.1   brezak  * All rights reserved.
 1.1   brezak  *
 1.1   brezak  * Redistribution and use in source and binary forms, with or without
 1.1   brezak  * modification, are permitted provided that the following conditions
 1.1   brezak  * are met:
 1.1   brezak  * 1. Redistributions of source code must retain the above copyright
 1.1   brezak  *    notice, this list of conditions and the following disclaimer.
 1.1   brezak  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   brezak  *    notice, this list of conditions and the following disclaimer in the
 1.1   brezak  *    documentation and/or other materials provided with the distribution.
 1.1   brezak  * 3. All advertising materials mentioning features or use of this software
 1.1   brezak  *    must display the following acknowledgement:
 1.1   brezak  *	This product includes software developed by the Computer Systems
 1.1   brezak  *	Engineering Group at Lawrence Berkeley Laboratory.
 1.1   brezak  * 4. Neither the name of the University nor of the Laboratory may be used
 1.1   brezak  *    to endorse or promote products derived from this software without
 1.1   brezak  *    specific prior written permission.
 1.1   brezak  *
 1.1   brezak  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 1.1   brezak  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 1.1   brezak  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1   brezak  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 1.1   brezak  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1   brezak  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1   brezak  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1   brezak  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1   brezak  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1   brezak  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1   brezak  * SUCH DAMAGE.
 1.1   brezak  *
 1.1   brezak  */
 1.1   brezak /*
 1.1   brezak  * SoundBlaster Pro code provided by John Kohl, based on lots of
 1.1   brezak  * information he gleaned from Steve Haehnichen <steve (at) vigra.com>'s
 1.1   brezak  * SBlast driver for 386BSD and DOS driver code from Daniel Sachs
 1.1   brezak  * <sachs (at) meibm15.cen.uiuc.edu>.
 1.1   brezak  */
 1.1   brezak
 1.1   brezak #include <sys/param.h>
 1.1   brezak #include <sys/systm.h>
 1.1   brezak #include <sys/errno.h>
 1.1   brezak #include <sys/ioctl.h>
 1.1   brezak #include <sys/syslog.h>
 1.1   brezak #include <sys/device.h>
 1.1   brezak #include <sys/proc.h>
 1.1   brezak #include <sys/buf.h>
 1.1   brezak #include <vm/vm.h>
 1.1   brezak
 1.1   brezak #include <machine/cpu.h>
 1.1   brezak #include <machine/pio.h>
 1.1   brezak
 1.1   brezak #include <sys/audioio.h>
 1.1   brezak #include <dev/audio_if.h>
 1.1   brezak
 1.6      cgd #include <dev/isa/isavar.h>
 1.6      cgd #include <dev/isa/isadmavar.h>
 1.7      cgd #include <i386/isa/icu.h>			/* XXX BROKEN; WHY? */
 1.1   brezak
 1.7      cgd #include <dev/isa/sbreg.h>
 1.7      cgd #include <dev/isa/sbdspvar.h>
 1.1   brezak
1.12   brezak #ifdef AUDIO_DEBUG
 1.1   brezak extern void Dprintf __P((const char *, ...));
1.12   brezak #define DPRINTF(x)	if (sbdspdebug) Dprintf x
 1.1   brezak int	sbdspdebug = 0;
 1.1   brezak #else
 1.1   brezak #define DPRINTF(x)
 1.1   brezak #endif
 1.1   brezak
 1.1   brezak #ifndef SBDSP_NPOLL
 1.1   brezak #define SBDSP_NPOLL 3000
 1.1   brezak #endif
 1.1   brezak
 1.1   brezak struct {
 1.1   brezak 	int wdsp;
 1.1   brezak 	int rdsp;
 1.1   brezak 	int wmidi;
 1.1   brezak } sberr;
 1.1   brezak
1.12   brezak #ifdef AUDIO_DEBUG
 1.1   brezak void
 1.1   brezak sb_printsc(struct sbdsp_softc *sc)
 1.1   brezak {
 1.1   brezak 	int i;
 1.1   brezak
1.15  mycroft 	printf("open %d dmachan %d iobase %x\n", sc->sc_open, sc->sc_drq,
1.15  mycroft 		sc->sc_iobase);
 1.1   brezak 	printf("hispeed %d irate %d orate %d encoding %x\n",
 1.1   brezak 		sc->sc_adacmode, sc->sc_irate, sc->sc_orate, sc->encoding);
 1.1   brezak 	printf("outport %d inport %d spkron %d nintr %d\n",
 1.1   brezak 		sc->out_port, sc->in_port, sc->spkr_state, sc->sc_interrupts);
 1.1   brezak 	printf("tc %x chans %x scintr %x arg %x\n", sc->sc_adactc, sc->sc_chans,
 1.1   brezak 		sc->sc_intr, sc->sc_arg);
 1.1   brezak 	printf("gain: ");
 1.1   brezak 	for (i = 0; i < SB_NDEVS; i++)
 1.1   brezak 	    printf("%d ", sc->gain[i]);
 1.1   brezak 	printf("\n");
 1.1   brezak }
 1.1   brezak #endif
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Probe / attach routines.
 1.1   brezak  */
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Probe for the soundblaster hardware.
 1.1   brezak  */
 1.1   brezak int
 1.1   brezak sbdsp_probe(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
1.14  mycroft 	register int iobase = sc->sc_iobase;
 1.1   brezak
 1.1   brezak 	if (sbdsp_reset(sc) < 0) {
 1.1   brezak 		DPRINTF(("sbdsp: couldn't reset card\n"));
 1.1   brezak 		return 0;
 1.1   brezak 	}
 1.1   brezak 	sc->sc_model = sbversion(sc);
 1.1   brezak
 1.1   brezak 	return 1;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Attach hardware to driver, attach hardware driver to audio
 1.1   brezak  * pseudo-device driver .
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_attach(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
1.14  mycroft 	register int iobase = sc->sc_iobase;
 1.1   brezak
 1.1   brezak 	/* Set defaults */
 1.1   brezak 	if (ISSBPROCLASS(sc))
 1.1   brezak 	    sc->sc_irate = sc->sc_orate = 45454;
 1.1   brezak   	else
 1.1   brezak 	    sc->sc_irate = sc->sc_orate = 14925;
 1.1   brezak 	sc->sc_chans = 1;
 1.1   brezak 	sc->encoding = AUDIO_ENCODING_LINEAR;
 1.1   brezak
 1.5  mycroft 	(void) sbdsp_set_in_sr_real(sc, sc->sc_irate);
 1.5  mycroft 	(void) sbdsp_set_out_sr_real(sc, sc->sc_orate);
 1.1   brezak
 1.5  mycroft 	(void) sbdsp_set_in_port(sc, SB_MIC_PORT);
 1.5  mycroft 	(void) sbdsp_set_out_port(sc, SB_SPEAKER);
 1.1   brezak
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 		int i;
 1.1   brezak
 1.1   brezak 		/* set mixer to default levels, by sending a mixer
 1.1   brezak                    reset command. */
 1.1   brezak 		sbdsp_mix_write(sc, SBP_MIX_RESET, SBP_MIX_RESET);
 1.1   brezak 		/* then some adjustments :) */
 1.1   brezak 		sbdsp_mix_write(sc, SBP_CD_VOL,
 1.1   brezak 				sbdsp_stereo_vol(SBP_MAXVOL, SBP_MAXVOL));
 1.1   brezak 		sbdsp_mix_write(sc, SBP_DAC_VOL,
 1.1   brezak 				sbdsp_stereo_vol(SBP_MAXVOL, SBP_MAXVOL));
 1.1   brezak 		sbdsp_mix_write(sc, SBP_MASTER_VOL,
 1.1   brezak 				sbdsp_stereo_vol(SBP_MAXVOL, SBP_MAXVOL));
 1.1   brezak 		sbdsp_mix_write(sc, SBP_LINE_VOL,
 1.1   brezak 				sbdsp_stereo_vol(SBP_MAXVOL, SBP_MAXVOL));
 1.1   brezak 		for (i = 0; i < SB_NDEVS; i++)
 1.1   brezak 		    sc->gain[i] = sbdsp_stereo_vol(SBP_MAXVOL, SBP_MAXVOL);
 1.1   brezak 	}
 1.9   brezak 	printf(": dsp v%d.%02d\n",
 1.1   brezak 	       SBVER_MAJOR(sc->sc_model), SBVER_MINOR(sc->sc_model));
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Various routines to interface to higher level audio driver
 1.1   brezak  */
 1.1   brezak
 1.1   brezak void
 1.1   brezak sbdsp_mix_write(sc, mixerport, val)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak 	int mixerport;
 1.1   brezak 	int val;
 1.1   brezak {
 1.1   brezak 	int iobase = sc->sc_iobase;
 1.1   brezak 	outb(iobase + SBP_MIXER_ADDR, mixerport);
 1.1   brezak 	delay(10);
 1.1   brezak 	outb(iobase + SBP_MIXER_DATA, val);
 1.1   brezak 	delay(30);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_mix_read(sc, mixerport)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak 	int mixerport;
 1.1   brezak {
 1.1   brezak 	int iobase = sc->sc_iobase;
 1.1   brezak 	outb(iobase + SBP_MIXER_ADDR, mixerport);
 1.1   brezak 	delay(10);
 1.1   brezak 	return inb(iobase + SBP_MIXER_DATA);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_in_sr(addr, sr)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_long sr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	sc->sc_irate = sr;
 1.1   brezak
 1.1   brezak 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_in_sr_real(addr, sr)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_long sr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak 	int rval;
 1.1   brezak
 1.1   brezak 	if (rval = sbdsp_set_sr(sc, &sr, SB_INPUT_RATE))
 1.1   brezak 		return rval;
 1.1   brezak 	sc->sc_irate = sr;
1.15  mycroft 	if (sc->sc_dmadir == SBP_DMA_IN)
1.15  mycroft 		sc->sc_dmadir = SBP_DMA_NONE;	/* do it again on next DMA in */
1.15  mycroft 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak u_long
 1.1   brezak sbdsp_get_in_sr(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	return(sc->sc_irate);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_out_sr(addr, sr)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_long sr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	sc->sc_orate = sr;
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_out_sr_real(addr, sr)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_long sr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak 	int rval;
 1.1   brezak
 1.1   brezak 	if (rval = sbdsp_set_sr(sc, &sr, SB_OUTPUT_RATE))
 1.1   brezak 		return rval;
 1.1   brezak 	sc->sc_orate = sr;
1.15  mycroft 	if (sc->sc_dmadir == SBP_DMA_OUT)
1.15  mycroft 		sc->sc_dmadir = SBP_DMA_NONE;	/* do it again on next DMA out */
1.15  mycroft 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak u_long
 1.1   brezak sbdsp_get_out_sr(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	return(sc->sc_orate);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_query_encoding(addr, fp)
 1.5  mycroft     void *addr;
 1.1   brezak     struct audio_encoding *fp;
 1.1   brezak {
 1.5  mycroft     register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak     switch (fp->index) {
 1.1   brezak     case 0:
1.13   brezak 	strcpy(fp->name, AudioEmulaw);
 1.1   brezak 	fp->format_id = AUDIO_ENCODING_ULAW;
 1.1   brezak 	break;
1.13   brezak     case 1:
1.13   brezak 	strcpy(fp->name, AudioEpcm16);
 1.1   brezak 	fp->format_id = AUDIO_ENCODING_PCM16;
 1.1   brezak 	break;
 1.1   brezak     default:
 1.1   brezak 	return(EINVAL);
 1.1   brezak 	/*NOTREACHED*/
 1.1   brezak     }
 1.1   brezak     return (0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_encoding(addr, enc)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_int enc;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	switch(enc){
 1.1   brezak 	case AUDIO_ENCODING_ULAW:
 1.1   brezak 		sc->encoding = AUDIO_ENCODING_ULAW;
 1.1   brezak 		break;
 1.1   brezak 	case AUDIO_ENCODING_LINEAR:
 1.1   brezak 		sc->encoding = AUDIO_ENCODING_LINEAR;
 1.1   brezak 		break;
 1.1   brezak 	default:
 1.1   brezak 		return (EINVAL);
 1.1   brezak 	}
 1.1   brezak 	return (0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_get_encoding(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	return(sc->encoding);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_precision(addr, prec)
 1.5  mycroft 	void *addr;
 1.1   brezak 	u_int prec;
 1.1   brezak {
 1.1   brezak
 1.1   brezak 	if (prec != 8)
 1.1   brezak 		return(EINVAL);
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_get_precision(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.1   brezak 	return(8);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_channels(addr, chans)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int chans;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak 	int rval;
 1.1   brezak
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 		if (chans != 1 && chans != 2)
 1.1   brezak 			return(EINVAL);
 1.1   brezak
 1.1   brezak 		sc->sc_chans = chans;
 1.1   brezak 		if (rval = sbdsp_set_in_sr_real(addr, sc->sc_irate))
 1.1   brezak 		    return rval;
 1.1   brezak 		sbdsp_mix_write(sc, SBP_STEREO,
 1.1   brezak 				(sbdsp_mix_read(sc, SBP_STEREO) & ~SBP_PLAYMODE_MASK) |
 1.1   brezak 				(chans == 2 ? SBP_PLAYMODE_STEREO : SBP_PLAYMODE_MONO));
 1.1   brezak 		/* recording channels needs to be done right when we start
 1.1   brezak 		   DMA recording.  Just record number of channels for now
 1.1   brezak 		   and set stereo when ready. */
 1.1   brezak 	}
 1.1   brezak 	else {
 1.1   brezak 		if (chans != 1)
 1.1   brezak 			return(EINVAL);
 1.1   brezak 		sc->sc_chans = 1;
 1.1   brezak 	}
 1.1   brezak
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_get_channels(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak #if 0
 1.1   brezak 	/* recording stereo may frob the mixer output */
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 		if ((sbdsp_mix_read(sc, SBP_STEREO) & SBP_PLAYMODE_MASK) == SBP_PLAYMODE_STEREO) {
 1.1   brezak 			sc->sc_chans = 2;
 1.1   brezak 		}
 1.1   brezak 		else {
 1.1   brezak 			sc->sc_chans = 1;
 1.1   brezak 		}
 1.1   brezak 	}
 1.1   brezak 	else {
 1.1   brezak 		sc->sc_chans = 1;
 1.1   brezak 	}
 1.1   brezak #endif
 1.1   brezak
 1.1   brezak 	return(sc->sc_chans);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_out_port(addr, port)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int port;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	sc->out_port = port; /* Just record it */
 1.1   brezak
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_get_out_port(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	return(sc->out_port);
 1.1   brezak }
 1.1   brezak
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_in_port(addr, port)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int port;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak 	int mixport, sbport;
 1.1   brezak
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 	    switch (port) {
 1.8  mycroft 	    case SB_MIC_PORT:
 1.8  mycroft 		sbport = SBP_FROM_MIC;
 1.8  mycroft 		mixport = SBP_MIC_VOL;
 1.8  mycroft 		break;
 1.1   brezak 	    case SB_LINE_IN_PORT:
 1.1   brezak 		sbport = SBP_FROM_LINE;
 1.1   brezak 		mixport = SBP_LINE_VOL;
 1.1   brezak 		break;
 1.1   brezak 	    case SB_CD_PORT:
 1.1   brezak 		sbport = SBP_FROM_CD;
 1.1   brezak 		mixport = SBP_CD_VOL;
 1.1   brezak 		break;
 1.1   brezak 	    case SB_DAC_PORT:
 1.1   brezak 	    case SB_FM_PORT:
 1.1   brezak 	    default:
 1.1   brezak 		return(EINVAL);
 1.1   brezak 		/*NOTREACHED*/
 1.1   brezak 	    }
 1.1   brezak 	}
 1.1   brezak 	else {
 1.8  mycroft 	    switch (port) {
 1.8  mycroft 	    case SB_MIC_PORT:
 1.8  mycroft 		sbport = SBP_FROM_MIC;
 1.8  mycroft 		mixport = SBP_MIC_VOL;
 1.8  mycroft 		break;
 1.8  mycroft 	    default:
 1.8  mycroft 		return(EINVAL);
 1.8  mycroft 		/*NOTREACHED*/
 1.8  mycroft 	    }
 1.1   brezak 	}
 1.1   brezak
 1.1   brezak 	sc->in_port = port;	/* Just record it */
 1.1   brezak
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 		/* record from that port */
 1.1   brezak 		sbdsp_mix_write(sc, SBP_RECORD_SOURCE,
 1.1   brezak 				SBP_RECORD_FROM(sbport, SBP_FILTER_OFF,
 1.1   brezak 						SBP_FILTER_HIGH));
 1.1   brezak 		/* fetch gain from that port */
 1.1   brezak 		sc->gain[port] = sbdsp_mix_read(sc, mixport);
 1.1   brezak 	}
 1.1   brezak
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_get_in_port(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	return(sc->in_port);
 1.1   brezak }
 1.1   brezak
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_speaker_ctl(addr, newstate)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int newstate;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	if ((newstate == SPKR_ON) &&
 1.1   brezak 	    (sc->spkr_state == SPKR_OFF)) {
 1.1   brezak 		sbdsp_spkron(sc);
 1.1   brezak 		sc->spkr_state = SPKR_ON;
 1.1   brezak 	}
 1.1   brezak 	if ((newstate == SPKR_OFF) &&
 1.1   brezak 	    (sc->spkr_state == SPKR_ON)) {
 1.1   brezak 		sbdsp_spkroff(sc);
 1.1   brezak 		sc->spkr_state = SPKR_OFF;
 1.1   brezak 	}
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_round_blocksize(addr, blk)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int blk;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
1.15  mycroft 	sc->sc_last_hs_size = 0;
 1.1   brezak
 1.1   brezak 	/* Higher speeds need bigger blocks to avoid popping and silence gaps. */
 1.1   brezak 	if ((sc->sc_orate > 8000 || sc->sc_irate > 8000) &&
 1.1   brezak 	    (blk > NBPG/2 || blk < NBPG/4))
 1.1   brezak 		blk = NBPG/2;
 1.1   brezak 	/* don't try to DMA too much at once, though. */
 1.1   brezak 	if (blk > NBPG) blk = NBPG;
 1.1   brezak 	if (sc->sc_chans == 2)
 1.1   brezak 		return (blk & ~1); /* must be even to preserve stereo separation */
 1.1   brezak 	else
 1.1   brezak 		return(blk);	/* Anything goes :-) */
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_commit_settings(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.1   brezak 	/* due to potentially unfortunate ordering in the above layers,
 1.1   brezak 	   re-do a few sets which may be important--input gains
 1.1   brezak 	   (adjust the proper channels), number of input channels (hit the
 1.1   brezak 	   record rate and set mode) */
 1.1   brezak
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.3   brezak 	sbdsp_set_out_sr_real(addr, sc->sc_orate);
 1.3   brezak 	sbdsp_set_in_sr_real(addr, sc->sc_irate);
 1.3   brezak
1.15  mycroft 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_open(sc, dev, flags)
 1.1   brezak 	register struct sbdsp_softc *sc;
 1.1   brezak 	dev_t dev;
 1.1   brezak 	int flags;
 1.1   brezak {
 1.1   brezak         DPRINTF(("sbdsp_open: sc=0x%x\n", sc));
 1.1   brezak
 1.1   brezak 	if (sc->sc_open != 0 || sbdsp_reset(sc) != 0)
 1.1   brezak 		return ENXIO;
 1.1   brezak
 1.1   brezak 	sc->sc_open = 1;
 1.1   brezak 	sc->sc_mintr = 0;
 1.1   brezak 	if (ISSBPROCLASS(sc) &&
 1.1   brezak 	    sbdsp_wdsp(sc->sc_iobase, SB_DSP_RECORD_MONO) < 0) {
 1.1   brezak 		DPRINTF(("sbdsp_open: can't set mono mode\n"));
 1.1   brezak 		/* we'll readjust when it's time for DMA. */
 1.1   brezak 	}
 1.1   brezak
 1.1   brezak 	/*
 1.1   brezak 	 * Leave most things as they were; users must change things if
 1.1   brezak 	 * the previous process didn't leave it they way they wanted.
 1.1   brezak 	 * Looked at another way, it's easy to set up a configuration
 1.1   brezak 	 * in one program and leave it for another to inherit.
 1.1   brezak 	 */
 1.1   brezak 	DPRINTF(("sbdsp_open: opened\n"));
 1.1   brezak
 1.1   brezak 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak void
 1.1   brezak sbdsp_close(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak         DPRINTF(("sbdsp_close: sc=0x%x\n", sc));
 1.1   brezak
 1.1   brezak 	sc->sc_open = 0;
 1.1   brezak 	sbdsp_spkroff(sc);
 1.1   brezak 	sc->spkr_state = SPKR_OFF;
 1.1   brezak 	sc->sc_mintr = 0;
1.15  mycroft 	sbdsp_haltdma(sc);
 1.1   brezak
 1.1   brezak 	DPRINTF(("sbdsp_close: closed\n"));
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Lower-level routines
 1.1   brezak  */
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Reset the card.
 1.1   brezak  * Return non-zero if the card isn't detected.
 1.1   brezak  */
 1.1   brezak int
 1.1   brezak sbdsp_reset(sc)
 1.1   brezak 	register struct sbdsp_softc *sc;
 1.1   brezak {
1.14  mycroft 	register int iobase = sc->sc_iobase;
 1.1   brezak
1.15  mycroft 	sc->sc_intr = 0;
1.15  mycroft 	if (sc->sc_dmadir != SBP_DMA_NONE) {
1.15  mycroft 		isa_dmaabort(sc->sc_drq);
1.15  mycroft 		sc->sc_dmadir = SBP_DMA_NONE;
1.15  mycroft 	}
1.15  mycroft 	sc->sc_last_hs_size = 0;
1.15  mycroft
 1.1   brezak 	/*
 1.1   brezak 	 * See SBK, section 11.3.
 1.1   brezak 	 * We pulse a reset signal into the card.
 1.1   brezak 	 * Gee, what a brilliant hardware design.
 1.1   brezak 	 */
 1.1   brezak 	outb(iobase + SBP_DSP_RESET, 1);
1.15  mycroft 	delay(10);
 1.1   brezak 	outb(iobase + SBP_DSP_RESET, 0);
1.15  mycroft 	delay(30);
 1.1   brezak 	if (sbdsp_rdsp(iobase) != SB_MAGIC)
 1.1   brezak 		return -1;
1.15  mycroft
 1.1   brezak 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Write a byte to the dsp.
 1.1   brezak  * XXX We are at the mercy of the card as we use a
 1.1   brezak  * polling loop and wait until it can take the byte.
 1.1   brezak  */
 1.1   brezak int
1.14  mycroft sbdsp_wdsp(int iobase, int v)
 1.1   brezak {
 1.1   brezak 	register int i;
 1.1   brezak
 1.1   brezak 	for (i = SBDSP_NPOLL; --i >= 0; ) {
1.15  mycroft 		register u_char x;
1.15  mycroft 		x = inb(iobase + SBP_DSP_WSTAT);
1.15  mycroft 		delay(10);
1.15  mycroft 		if ((x & SB_DSP_BUSY) != 0)
1.15  mycroft 			continue;
 1.1   brezak 		outb(iobase + SBP_DSP_WRITE, v);
1.15  mycroft 		delay(10);
 1.1   brezak 		return 0;
 1.1   brezak 	}
 1.1   brezak 	++sberr.wdsp;
 1.1   brezak 	return -1;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Read a byte from the DSP, using polling.
 1.1   brezak  */
 1.1   brezak int
1.14  mycroft sbdsp_rdsp(int iobase)
 1.1   brezak {
 1.1   brezak 	register int i;
 1.1   brezak
 1.1   brezak 	for (i = SBDSP_NPOLL; --i >= 0; ) {
1.15  mycroft 		register u_char x;
1.15  mycroft 		x = inb(iobase + SBP_DSP_RSTAT);
1.15  mycroft 		delay(10);
1.15  mycroft 		if ((x & SB_DSP_READY) == 0)
 1.1   brezak 			continue;
1.15  mycroft 		x = inb(iobase + SBP_DSP_READ);
1.15  mycroft 		delay(10);
1.15  mycroft 		return x;
 1.1   brezak 	}
 1.1   brezak 	++sberr.rdsp;
 1.1   brezak 	return -1;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Doing certain things (like toggling the speaker) make
 1.1   brezak  * the SB hardware go away for a while, so pause a little.
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_to(arg)
 1.1   brezak 	void *arg;
 1.1   brezak {
 1.1   brezak 	wakeup(arg);
 1.1   brezak }
 1.1   brezak
 1.1   brezak void
 1.1   brezak sbdsp_pause(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
 1.1   brezak 	extern int hz;
 1.1   brezak
 1.1   brezak 	timeout(sbdsp_to, sbdsp_to, hz/8);
 1.5  mycroft 	(void)tsleep(sbdsp_to, PWAIT, "sbpause", 0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Turn on the speaker.  The SBK documention says this operation
 1.1   brezak  * can take up to 1/10 of a second.  Higher level layers should
 1.1   brezak  * probably let the task sleep for this amount of time after
 1.1   brezak  * calling here.  Otherwise, things might not work (because
 1.1   brezak  * sbdsp_wdsp() and sbdsp_rdsp() will probably timeout.)
 1.1   brezak  *
 1.1   brezak  * These engineers had their heads up their ass when
 1.1   brezak  * they designed this card.
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_spkron(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
 1.1   brezak 	(void)sbdsp_wdsp(sc->sc_iobase, SB_DSP_SPKR_ON);
 1.1   brezak 	sbdsp_pause(sc);
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Turn off the speaker; see comment above.
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_spkroff(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
 1.1   brezak 	(void)sbdsp_wdsp(sc->sc_iobase, SB_DSP_SPKR_OFF);
 1.1   brezak 	sbdsp_pause(sc);
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Read the version number out of the card.  Return major code
 1.1   brezak  * in high byte, and minor code in low byte.
 1.1   brezak  */
 1.1   brezak short
 1.1   brezak sbversion(sc)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak {
1.14  mycroft 	register int iobase = sc->sc_iobase;
 1.1   brezak 	short v;
 1.1   brezak
 1.1   brezak 	if (sbdsp_wdsp(iobase, SB_DSP_VERSION) < 0)
 1.1   brezak 		return 0;
 1.1   brezak 	v = sbdsp_rdsp(iobase) << 8;
 1.1   brezak 	v |= sbdsp_rdsp(iobase);
 1.1   brezak 	return ((v >= 0) ? v : 0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Halt a DMA in progress.  A low-speed transfer can be
 1.1   brezak  * resumed with sbdsp_contdma().
 1.1   brezak  */
 1.1   brezak int
 1.1   brezak sbdsp_haltdma(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	DPRINTF(("sbdsp_haltdma: sc=0x%x\n", sc));
 1.1   brezak
1.15  mycroft 	sbdsp_reset(sc);
1.15  mycroft 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_contdma(addr)
 1.5  mycroft 	void *addr;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
 1.1   brezak
 1.1   brezak 	DPRINTF(("sbdsp_contdma: sc=0x%x\n", sc));
 1.1   brezak
 1.1   brezak 	/* XXX how do we reinitialize the DMA controller state?  do we care? */
 1.1   brezak 	(void)sbdsp_wdsp(sc->sc_iobase, SB_DSP_CONT);
 1.1   brezak 	return(0);
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Time constant routines follow.  See SBK, section 12.
 1.1   brezak  * Although they don't come out and say it (in the docs),
 1.1   brezak  * the card clearly uses a 1MHz countdown timer, as the
 1.1   brezak  * low-speed formula (p. 12-4) is:
 1.1   brezak  *	tc = 256 - 10^6 / sr
 1.1   brezak  * In high-speed mode, the constant is the upper byte of a 16-bit counter,
 1.1   brezak  * and a 256MHz clock is used:
 1.1   brezak  *	tc = 65536 - 256 * 10^ 6 / sr
 1.1   brezak  * Since we can only use the upper byte of the HS TC, the two formulae
 1.1   brezak  * are equivalent.  (Why didn't they say so?)  E.g.,
 1.1   brezak  * 	(65536 - 256 * 10 ^ 6 / x) >> 8 = 256 - 10^6 / x
 1.1   brezak  *
 1.1   brezak  * The crossover point (from low- to high-speed modes) is different
 1.1   brezak  * for the SBPRO and SB20.  The table on p. 12-5 gives the following data:
 1.1   brezak  *
 1.1   brezak  *				SBPRO			SB20
 1.1   brezak  *				-----			--------
 1.1   brezak  * input ls min			4	KHz		4	KHz
 1.1   brezak  * input ls max			23	KHz		13	KHz
 1.1   brezak  * input hs max			44.1	KHz		15	KHz
 1.1   brezak  * output ls min		4	KHz		4	KHz
 1.1   brezak  * output ls max		23	KHz		23	KHz
 1.1   brezak  * output hs max		44.1	KHz		44.1	KHz
 1.1   brezak  */
 1.1   brezak #define SB_LS_MIN	0x06	/* 4000 Hz */
 1.1   brezak #define SBPRO_ADC_LS_MAX	0xd4	/* 22727 Hz */
 1.1   brezak #define SBPRO_ADC_HS_MAX	0xea	/* 45454 Hz */
 1.1   brezak #define SBCLA_ADC_LS_MAX	0xb3	/* 12987 Hz */
 1.1   brezak #define SBCLA_ADC_HS_MAX	0xbd	/* 14925 Hz */
 1.1   brezak #define SB_DAC_LS_MAX	0xd4	/* 22727 Hz */
 1.1   brezak #define SB_DAC_HS_MAX	0xea	/* 45454 Hz */
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Convert a linear sampling rate into the DAC time constant.
 1.1   brezak  * Set *mode to indicate the high/low-speed DMA operation.
 1.1   brezak  * Because of limitations of the card, not all rates are possible.
 1.1   brezak  * We return the time constant of the closest possible rate.
 1.1   brezak  * The sampling rate limits are different for the DAC and ADC,
 1.1   brezak  * so isdac indicates output, and !isdac indicates input.
 1.1   brezak  */
 1.1   brezak int
 1.1   brezak sbdsp_srtotc(sc, sr, mode, isdac)
 1.1   brezak 	register struct sbdsp_softc *sc;
 1.1   brezak 	int sr;
 1.1   brezak 	int *mode;
 1.1   brezak 	int isdac;
 1.1   brezak {
 1.1   brezak 	int adc_ls_max, adc_hs_max;
 1.1   brezak 	register int tc;
 1.1   brezak
 1.1   brezak 	if (sr == 0) {
 1.1   brezak 		*mode = SB_ADAC_LS;
 1.1   brezak 		return SB_LS_MIN;
 1.1   brezak 	}
 1.1   brezak 	tc = 256 - 1000000 / sr;
 1.1   brezak
 1.1   brezak 	/* XXX use better rounding--compare distance to nearest tc on both
 1.1   brezak 	   sides of requested speed */
 1.1   brezak 	if (ISSBPROCLASS(sc)) {
 1.1   brezak 		adc_ls_max = SBPRO_ADC_LS_MAX;
 1.1   brezak 		adc_hs_max = SBPRO_ADC_HS_MAX;
 1.1   brezak 	}
 1.1   brezak 	else {
 1.1   brezak 		adc_ls_max = SBCLA_ADC_LS_MAX;
 1.1   brezak 		adc_hs_max = SBCLA_ADC_HS_MAX;
 1.1   brezak 	}
 1.1   brezak
 1.1   brezak 	if (tc < SB_LS_MIN) {
 1.1   brezak 		tc = SB_LS_MIN;
 1.1   brezak 		*mode = SB_ADAC_LS;
 1.1   brezak 	} else if (isdac) {
 1.1   brezak 		if (tc <= SB_DAC_LS_MAX)
 1.1   brezak 			*mode = SB_ADAC_LS;
 1.1   brezak 		else {
 1.1   brezak 			*mode = SB_ADAC_HS;
 1.1   brezak 			if (tc > SB_DAC_HS_MAX)
 1.1   brezak 				tc = SB_DAC_HS_MAX;
 1.1   brezak 		}
 1.1   brezak 	} else {
 1.1   brezak 		if (tc <= adc_ls_max)
 1.1   brezak 			*mode = SB_ADAC_LS;
 1.1   brezak 		else {
 1.1   brezak 			*mode = SB_ADAC_HS;
 1.1   brezak 			if (tc > adc_hs_max)
 1.1   brezak 				tc = adc_hs_max;
 1.1   brezak 		}
 1.1   brezak 	}
 1.1   brezak 	return tc;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Convert a DAC time constant to a sampling rate.
 1.1   brezak  * See SBK, section 12.
 1.1   brezak  */
 1.1   brezak int
 1.1   brezak sbdsp_tctosr(sc, tc)
 1.1   brezak 	register struct sbdsp_softc *sc;
 1.1   brezak 	int tc;
 1.1   brezak {
 1.1   brezak 	int adc;
 1.1   brezak
 1.1   brezak 	if (ISSBPROCLASS(sc))
 1.1   brezak 		adc = SBPRO_ADC_HS_MAX;
 1.1   brezak 	else
 1.1   brezak 		adc = SBCLA_ADC_HS_MAX;
 1.1   brezak
 1.1   brezak 	if (tc > adc)
 1.1   brezak 		tc = adc;
 1.1   brezak
 1.1   brezak 	return (1000000 / (256 - tc));
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_set_sr(sc, srp, isdac)
 1.1   brezak 	register struct sbdsp_softc *sc;
 1.1   brezak 	u_long *srp;
 1.1   brezak 	int isdac;
 1.1   brezak {
 1.1   brezak 	register int tc;
 1.1   brezak 	int mode;
 1.1   brezak 	int sr = *srp;
1.14  mycroft 	register int iobase;
 1.1   brezak
 1.1   brezak 	/*
 1.1   brezak 	 * A SBPro in stereo mode uses time constants at double the
 1.1   brezak 	 * actual rate.
 1.1   brezak 	 */
 1.1   brezak 	if (ISSBPRO(sc) && sc->sc_chans == 2) {
 1.1   brezak 		if (sr > 22727)
 1.1   brezak 			sr = 22727;	/* Can't bounce it...order of
 1.1   brezak 					   operations may yield bogus
 1.1   brezak 					   sr here. */
 1.1   brezak 		sr *= 2;
 1.1   brezak 	}
 1.1   brezak 	else if (!ISSBPROCLASS(sc) && sc->sc_chans != 1)
 1.1   brezak 		return EINVAL;
 1.1   brezak
 1.1   brezak 	tc = sbdsp_srtotc(sc, sr, &mode, isdac);
 1.1   brezak 	DPRINTF(("sbdsp_set_sr: sc=0x%x sr=%d mode=0x%x\n", sc, sr, mode));
 1.1   brezak
 1.1   brezak 	iobase = sc->sc_iobase;
 1.1   brezak 	if (sbdsp_wdsp(iobase, SB_DSP_TIMECONST) < 0 ||
 1.1   brezak 	    sbdsp_wdsp(iobase, tc) < 0)
 1.1   brezak 		return EIO;
 1.1   brezak
 1.1   brezak 	sr = sbdsp_tctosr(sc, tc);
 1.1   brezak 	if (ISSBPRO(sc) && sc->sc_chans == 2)
 1.1   brezak 		*srp = sr / 2;
 1.1   brezak 	else
 1.1   brezak 		*srp = sr;
 1.1   brezak
 1.1   brezak 	sc->sc_adacmode = mode;
 1.1   brezak 	sc->sc_adactc = tc;
 1.1   brezak 	return 0;
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_dma_input(addr, p, cc, intr, arg)
 1.5  mycroft 	void *addr;
 1.1   brezak 	void *p;
 1.1   brezak 	int cc;
 1.1   brezak 	void (*intr)();
 1.1   brezak 	void *arg;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
1.14  mycroft 	register int iobase;
 1.1   brezak
1.12   brezak #ifdef AUDIO_DEBUG
 1.1   brezak 	if (sbdspdebug > 1)
 1.1   brezak 		Dprintf("sbdsp_dma_input: cc=%d 0x%x (0x%x)\n", cc, intr, arg);
 1.1   brezak #endif
 1.1   brezak 	if (sc->sc_chans == 2 && (cc & 1)) {
 1.1   brezak 		DPRINTF(("sbdsp_dma_input: stereo input, odd bytecnt\n"));
 1.1   brezak 		return EIO;
 1.1   brezak 	}
1.15  mycroft
 1.1   brezak 	iobase = sc->sc_iobase;
1.15  mycroft 	if (ISSBPROCLASS(sc) && sc->sc_dmadir != SBP_DMA_IN) {
 1.1   brezak 		if (sc->sc_chans == 2) {
 1.1   brezak 			if (sbdsp_wdsp(iobase, SB_DSP_RECORD_STEREO) < 0)
 1.1   brezak 				goto badmode;
 1.1   brezak 			sbdsp_mix_write(sc, SBP_INFILTER,
 1.1   brezak 					sbdsp_mix_read(sc, SBP_INFILTER) | SBP_FILTER_OFF);
 1.1   brezak 		}
 1.1   brezak 		else {
 1.1   brezak 			if (sbdsp_wdsp(iobase, SB_DSP_RECORD_MONO) < 0)
 1.1   brezak 				goto badmode;
 1.1   brezak 			sbdsp_mix_write(sc, SBP_INFILTER,
 1.1   brezak 					sc->sc_irate <= 8000 ?
 1.1   brezak 					sbdsp_mix_read(sc, SBP_INFILTER) & ~SBP_FILTER_MASK :
 1.1   brezak 					sbdsp_mix_read(sc, SBP_INFILTER) | SBP_FILTER_OFF);
 1.1   brezak 		}
1.15  mycroft 		sc->sc_dmadir = SBP_DMA_IN;
 1.1   brezak 	}
 1.1   brezak
1.12   brezak 	isa_dmastart(B_READ, p, cc, sc->sc_drq);
 1.1   brezak 	sc->sc_intr = intr;
 1.1   brezak 	sc->sc_arg = arg;
 1.1   brezak 	sc->dmaflags = B_READ;
 1.1   brezak 	sc->dmaaddr = p;
 1.1   brezak 	sc->dmacnt = --cc;		/* DMA controller is strange...? */
1.15  mycroft
 1.1   brezak 	if (sc->sc_adacmode == SB_ADAC_LS) {
 1.1   brezak 		if (sbdsp_wdsp(iobase, SB_DSP_RDMA) < 0 ||
 1.1   brezak 		    sbdsp_wdsp(iobase, cc) < 0 ||
 1.1   brezak 		    sbdsp_wdsp(iobase, cc >> 8) < 0) {
1.15  mycroft 		        DPRINTF(("sbdsp_dma_input: LS DMA start failed\n"));
 1.1   brezak 			goto giveup;
 1.1   brezak 		}
 1.1   brezak 	}
 1.1   brezak 	else {
1.15  mycroft 		if (cc != sc->sc_last_hs_size) {
 1.1   brezak 			if (sbdsp_wdsp(iobase, SB_DSP_BLOCKSIZE) < 0 ||
 1.1   brezak 			    sbdsp_wdsp(iobase, cc) < 0 ||
1.15  mycroft 			    sbdsp_wdsp(iobase, cc >> 8) < 0) {
1.15  mycroft 				DPRINTF(("sbdsp_dma_input: HS DMA start failed\n"));
 1.1   brezak 				goto giveup;
1.15  mycroft 			}
1.15  mycroft 			sc->sc_last_hs_size = cc;
 1.1   brezak 		}
1.15  mycroft 		if (sbdsp_wdsp(iobase, SB_DSP_HS_INPUT) < 0) {
1.15  mycroft 			DPRINTF(("sbdsp_dma_input: HS DMA restart failed\n"));
 1.1   brezak 			goto giveup;
1.15  mycroft 		}
 1.1   brezak 	}
 1.1   brezak 	return 0;
 1.1   brezak
 1.1   brezak giveup:
 1.1   brezak 	sbdsp_reset(sc);
 1.1   brezak 	return EIO;
1.15  mycroft
 1.1   brezak badmode:
 1.1   brezak 	DPRINTF(("sbdsp_dma_input: can't set %s mode\n",
 1.1   brezak 		 sc->sc_chans == 2 ? "stereo" : "mono"));
 1.1   brezak 	return EIO;
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_dma_output(addr, p, cc, intr, arg)
 1.5  mycroft 	void *addr;
 1.1   brezak 	void *p;
 1.1   brezak 	int cc;
 1.1   brezak 	void (*intr)();
 1.1   brezak 	void *arg;
 1.1   brezak {
 1.5  mycroft 	register struct sbdsp_softc *sc = addr;
1.14  mycroft 	register int iobase;
 1.1   brezak
1.12   brezak #ifdef AUDIO_DEBUG
 1.1   brezak 	if (sbdspdebug > 1)
 1.1   brezak 		Dprintf("sbdsp_dma_output: cc=%d 0x%x (0x%x)\n", cc, intr, arg);
 1.1   brezak #endif
1.15  mycroft 	if (sc->sc_chans == 2 && (cc & 1)) {
 1.1   brezak 		DPRINTF(("stereo playback odd bytes (%d)\n", cc));
 1.1   brezak 		return EIO;
 1.1   brezak 	}
 1.1   brezak
1.15  mycroft 	iobase = sc->sc_iobase;
1.15  mycroft 	if (ISSBPROCLASS(sc) && sc->sc_dmadir != SBP_DMA_OUT) {
 1.1   brezak 		/* make sure we re-set stereo mixer bit when we start
 1.1   brezak 		   output. */
 1.1   brezak 		sbdsp_mix_write(sc, SBP_STEREO,
 1.1   brezak 				(sbdsp_mix_read(sc, SBP_STEREO) & ~SBP_PLAYMODE_MASK) |
 1.1   brezak 				(sc->sc_chans == 2 ?
 1.1   brezak 				 SBP_PLAYMODE_STEREO : SBP_PLAYMODE_MONO));
1.15  mycroft 		sc->sc_dmadir = SBP_DMA_OUT;
 1.1   brezak 	}
1.15  mycroft
1.12   brezak 	isa_dmastart(B_WRITE, p, cc, sc->sc_drq);
 1.1   brezak 	sc->sc_intr = intr;
 1.1   brezak 	sc->sc_arg = arg;
 1.1   brezak 	sc->dmaflags = B_WRITE;
 1.1   brezak 	sc->dmaaddr = p;
 1.1   brezak 	sc->dmacnt = --cc;	/* a vagary of how DMA works, apparently. */
 1.1   brezak
 1.1   brezak 	if (sc->sc_adacmode == SB_ADAC_LS) {
 1.1   brezak 		if (sbdsp_wdsp(iobase, SB_DSP_WDMA) < 0 ||
 1.1   brezak 		    sbdsp_wdsp(iobase, cc) < 0 ||
 1.1   brezak 		    sbdsp_wdsp(iobase, cc >> 8) < 0) {
 1.1   brezak 		        DPRINTF(("sbdsp_dma_output: LS DMA start failed\n"));
 1.1   brezak 			goto giveup;
 1.1   brezak 		}
 1.1   brezak 	}
 1.1   brezak 	else {
1.15  mycroft 		if (cc != sc->sc_last_hs_size) {
1.15  mycroft 			if (sbdsp_wdsp(iobase, SB_DSP_BLOCKSIZE) < 0 ||
1.15  mycroft 			    sbdsp_wdsp(iobase, cc) < 0 ||
 1.1   brezak 			    sbdsp_wdsp(iobase, cc >> 8) < 0) {
 1.1   brezak 				DPRINTF(("sbdsp_dma_output: HS DMA start failed\n"));
 1.1   brezak 				goto giveup;
 1.1   brezak 			}
1.15  mycroft 			sc->sc_last_hs_size = cc;
 1.1   brezak 		}
 1.1   brezak 		if (sbdsp_wdsp(iobase, SB_DSP_HS_OUTPUT) < 0) {
1.15  mycroft 			DPRINTF(("sbdsp_dma_output: HS DMA restart failed\n"));
1.15  mycroft 			goto giveup;
 1.1   brezak 		}
 1.1   brezak 	}
 1.1   brezak 	return 0;
 1.1   brezak
1.15  mycroft giveup:
 1.1   brezak 	sbdsp_reset(sc);
 1.1   brezak 	return EIO;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Only the DSP unit on the sound blaster generates interrupts.
 1.1   brezak  * There are three cases of interrupt: reception of a midi byte
 1.1   brezak  * (when mode is enabled), completion of dma transmission, or
 1.1   brezak  * completion of a dma reception.  The three modes are mutually
 1.1   brezak  * exclusive so we know a priori which event has occurred.
 1.1   brezak  */
 1.1   brezak int
 1.6      cgd sbdsp_intr(arg)
 1.6      cgd 	void *arg;
 1.1   brezak {
 1.6      cgd 	register struct sbdsp_softc *sc = arg;
1.15  mycroft 	u_char x;
 1.1   brezak
1.12   brezak #ifdef AUDIO_DEBUG
 1.1   brezak 	if (sbdspdebug > 1)
 1.1   brezak 		Dprintf("sbdsp_intr: intr=0x%x\n", sc->sc_intr);
 1.1   brezak #endif
 1.1   brezak 	sc->sc_interrupts++;
 1.1   brezak 	/* clear interrupt */
1.15  mycroft 	x = inb(sc->sc_iobase + SBP_DSP_RSTAT);
1.15  mycroft 	delay(10);
1.15  mycroft #if 0
1.15  mycroft 	if ((x & SB_DSP_READY) == 0) {
1.15  mycroft 		printf("sbdsp_intr: still busy\n");
1.15  mycroft 		return 0;
1.15  mycroft 	}
1.15  mycroft #endif
 1.1   brezak #if 0
 1.1   brezak 	if (sc->sc_mintr != 0) {
1.15  mycroft 		x = sbdsp_rdsp(sc->sc_iobase);
1.15  mycroft 		(*sc->sc_mintr)(sc->sc_arg, x);
 1.1   brezak 	} else
 1.1   brezak #endif
 1.1   brezak 	if (sc->sc_intr != 0) {
1.15  mycroft 		/*
1.15  mycroft 		 * The SBPro used to develop and test this driver often
1.15  mycroft 		 * generated dma underruns--it interrupted to signal
1.15  mycroft 		 * completion of the DMA input recording block, but the
1.15  mycroft 		 * ISA DMA controller didn't think the channel was
1.15  mycroft 		 * finished.  Maybe this is just a bus speed issue, I dunno,
1.15  mycroft 		 * but it seems strange and leads to channel-flipping with
1.15  mycroft 		 * stereo recording.  Sigh.
1.15  mycroft 		 */
 1.1   brezak 		isa_dmadone(sc->dmaflags, sc->dmaaddr, sc->dmacnt,
 1.1   brezak 			    sc->sc_drq);
 1.1   brezak 		(*sc->sc_intr)(sc->sc_arg);
 1.1   brezak 	}
 1.1   brezak 	else
 1.1   brezak 		return 0;
 1.1   brezak 	return 1;
 1.1   brezak }
 1.1   brezak
 1.1   brezak #if 0
 1.1   brezak /*
 1.1   brezak  * Enter midi uart mode and arrange for read interrupts
 1.1   brezak  * to vector to `intr'.  This puts the card in a mode
 1.1   brezak  * which allows only midi I/O; the card must be reset
 1.1   brezak  * to leave this mode.  Unfortunately, the card does not
 1.1   brezak  * use transmit interrupts, so bytes must be output
 1.1   brezak  * using polling.  To keep the polling overhead to a
 1.1   brezak  * minimum, output should be driven off a timer.
 1.1   brezak  * This is a little tricky since only 320us separate
 1.1   brezak  * consecutive midi bytes.
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_set_midi_mode(sc, intr, arg)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak 	void (*intr)();
 1.1   brezak 	void *arg;
 1.1   brezak {
 1.1   brezak
 1.1   brezak 	sbdsp_wdsp(sc->sc_iobase, SB_MIDI_UART_INTR);
 1.1   brezak 	sc->sc_mintr = intr;
 1.1   brezak 	sc->sc_intr = 0;
 1.1   brezak 	sc->sc_arg = arg;
 1.1   brezak }
 1.1   brezak
 1.1   brezak /*
 1.1   brezak  * Write a byte to the midi port, when in midi uart mode.
 1.1   brezak  */
 1.1   brezak void
 1.1   brezak sbdsp_midi_output(sc, v)
 1.1   brezak 	struct sbdsp_softc *sc;
 1.1   brezak 	int v;
 1.1   brezak {
 1.1   brezak
 1.1   brezak 	if (sbdsp_wdsp(sc->sc_iobase, v) < 0)
 1.1   brezak 		++sberr.wmidi;
 1.1   brezak }
 1.1   brezak #endif
 1.1   brezak
 1.1   brezak u_int
 1.1   brezak sbdsp_get_silence(enc)
 1.1   brezak     int enc;
 1.1   brezak {
 1.1   brezak #define ULAW_SILENCE	0x7f
 1.1   brezak #define LINEAR_SILENCE	0
 1.1   brezak     u_int auzero;
 1.1   brezak
 1.1   brezak     switch (enc) {
 1.1   brezak     case AUDIO_ENCODING_ULAW:
 1.1   brezak 	auzero = ULAW_SILENCE;
 1.1   brezak 	break;
 1.1   brezak     case AUDIO_ENCODING_PCM16:
 1.1   brezak     default:
 1.1   brezak 	auzero = LINEAR_SILENCE;
 1.1   brezak 	break;
 1.1   brezak     }
 1.1   brezak
 1.1   brezak     return(auzero);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_setfd(addr, flag)
 1.5  mycroft 	void *addr;
 1.1   brezak 	int flag;
 1.1   brezak {
 1.1   brezak 	/* Can't do full-duplex */
 1.1   brezak 	return(ENOTTY);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_mixer_set_port(addr, cp)
 1.5  mycroft     void *addr;
 1.1   brezak     mixer_ctrl_t *cp;
 1.1   brezak {
 1.5  mycroft     register struct sbdsp_softc *sc = addr;
 1.1   brezak     int error = 0;
 1.1   brezak     int src, gain;
 1.1   brezak     int left, right;
 1.1   brezak
 1.1   brezak     DPRINTF(("sbdsp_mixer_set_port: port=%d num_channels=%d\n", cp->dev, cp->un.value.num_channels));
 1.1   brezak
 1.1   brezak     /*
 1.1   brezak      * Everything is a value except for SBPro special OUTPUT_MODE and
 1.1   brezak      * RECORD_SOURCE
 1.1   brezak      */
 1.1   brezak     if (cp->type != AUDIO_MIXER_VALUE) {
 1.1   brezak 	if (!ISSBPROCLASS(sc) || (cp->dev != SB_OUTPUT_MODE &&
 1.1   brezak 				  cp->dev != SB_RECORD_SOURCE))
 1.1   brezak 	    return EINVAL;
 1.1   brezak     }
 1.1   brezak     else {
 1.1   brezak 	/*
 1.1   brezak 	 * All the mixer ports are stereo except for the microphone.
 1.1   brezak 	 * If we get a single-channel gain value passed in, then we
 1.1   brezak 	 * duplicate it to both left and right channels.
 1.1   brezak 	 */
 1.1   brezak     if (cp->un.value.num_channels == 2) {
 1.1   brezak 	left  = cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT];
 1.1   brezak 	right = cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT];
 1.1   brezak     }
 1.1   brezak     else
 1.1   brezak 	    left = right = cp->un.value.level[AUDIO_MIXER_LEVEL_MONO];
 1.1   brezak     }
 1.1   brezak
 1.1   brezak     if (ISSBPROCLASS(sc)) {
 1.1   brezak 	/* The _PORT things are all signal inputs to the mixer.
 1.1   brezak 	 * Here we are tweaking their mixing level.
 1.1   brezak 	 *
 1.1   brezak 	 * We can also tweak the output stage volume (MASTER_VOL)
 1.1   brezak 	 */
 1.1   brezak 	gain = sbdsp_stereo_vol(SBP_AGAIN_TO_SBGAIN(left),
 1.1   brezak 				SBP_AGAIN_TO_SBGAIN(right));
 1.1   brezak 	switch(cp->dev) {
 1.1   brezak         case SB_MIC_PORT:
 1.1   brezak 	    src = SBP_MIC_VOL;
 1.1   brezak 	    if (cp->un.value.num_channels != 1)
 1.1   brezak 		error = EINVAL;
 1.1   brezak 	    else
 1.1   brezak 		/* handle funny microphone gain */
 1.1   brezak 		gain = SBP_AGAIN_TO_MICGAIN(left);
 1.1   brezak 	    break;
 1.1   brezak         case SB_LINE_IN_PORT:
 1.1   brezak 	    src = SBP_LINE_VOL;
 1.1   brezak 	    break;
 1.1   brezak         case SB_DAC_PORT:
 1.1   brezak 	    src = SBP_DAC_VOL;
 1.1   brezak 	    break;
 1.1   brezak         case SB_FM_PORT:
 1.1   brezak 	    src = SBP_FM_VOL;
 1.1   brezak 	    break;
 1.1   brezak         case SB_CD_PORT:
 1.1   brezak 	    src = SBP_CD_VOL;
 1.1   brezak 	    break;
 1.1   brezak 	case SB_SPEAKER:
 1.1   brezak 	    cp->dev = SB_MASTER_VOL;
 1.1   brezak         case SB_MASTER_VOL:
 1.1   brezak 	    src = SBP_MASTER_VOL;
 1.1   brezak 	    break;
 1.1   brezak #if 0
 1.1   brezak 	case SB_OUTPUT_MODE:
 1.1   brezak 	    if (cp->type == AUDIO_MIXER_ENUM)
 1.1   brezak 		return sbdsp_set_channels(addr, cp->un.ord);
 1.1   brezak 	    /* fall through...carefully! */
 1.1   brezak #endif
 1.1   brezak 	case SB_RECORD_SOURCE:
 1.1   brezak 	    if (cp->type == AUDIO_MIXER_ENUM)
 1.1   brezak 		return sbdsp_set_in_port(addr, cp->un.ord);
 1.1   brezak 	    /* else fall through: bad input */
 1.1   brezak         case SB_TREBLE:
 1.1   brezak         case SB_BASS:
 1.1   brezak         default:
 1.1   brezak 	    error =  EINVAL;
 1.1   brezak 	    break;
 1.1   brezak 	}
 1.1   brezak 	if (!error)
 1.1   brezak 	sbdsp_mix_write(sc, src, gain);
 1.1   brezak     }
 1.1   brezak     else if (cp->dev != SB_MIC_PORT &&
 1.1   brezak 	     cp->dev != SB_SPEAKER)
 1.1   brezak 	error = EINVAL;
 1.1   brezak
 1.1   brezak     if (!error)
 1.1   brezak 	sc->gain[cp->dev] = gain;
 1.1   brezak
 1.1   brezak     return(error);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_mixer_get_port(addr, cp)
 1.5  mycroft     void *addr;
 1.1   brezak     mixer_ctrl_t *cp;
 1.1   brezak {
 1.5  mycroft     register struct sbdsp_softc *sc = addr;
 1.1   brezak     int error = 0;
 1.1   brezak     int done = 0;
 1.1   brezak
 1.1   brezak     DPRINTF(("sbdsp_mixer_get_port: port=%d", cp->dev));
 1.1   brezak
 1.1   brezak     if (ISSBPROCLASS(sc))
 1.1   brezak     switch(cp->dev) {
 1.1   brezak     case SB_MIC_PORT:
 1.1   brezak 	    if (cp->un.value.num_channels == 1) {
 1.1   brezak 		cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] =
 1.1   brezak 		    SBP_MICGAIN_TO_AGAIN(sc->gain[cp->dev]);
 1.1   brezak 		return 0;
 1.1   brezak     }
 1.1   brezak 	    else
 1.1   brezak 		return EINVAL;
 1.1   brezak 	    break;
 1.1   brezak 	case SB_LINE_IN_PORT:
 1.1   brezak         case SB_DAC_PORT:
 1.1   brezak         case SB_FM_PORT:
 1.1   brezak         case SB_CD_PORT:
 1.1   brezak         case SB_MASTER_VOL:
 1.1   brezak 	    break;
 1.1   brezak 	case SB_SPEAKER:
 1.1   brezak 	    cp->dev = SB_MASTER_VOL;
 1.1   brezak 	    break;
 1.1   brezak         default:
 1.1   brezak 	    error =  EINVAL;
 1.1   brezak 	    break;
 1.1   brezak 	}
 1.1   brezak     else {
 1.1   brezak 	if (cp->un.value.num_channels != 1) /* no stereo on SB classic */
 1.1   brezak 	    error = EINVAL;
 1.1   brezak     else
 1.1   brezak 	    switch(cp->dev) {
 1.1   brezak 	    case SB_MIC_PORT:
 1.1   brezak 		break;
 1.1   brezak 	    case SB_SPEAKER:
 1.1   brezak 		break;
 1.1   brezak 	    default:
 1.1   brezak 	error = EINVAL;
 1.1   brezak 		break;
 1.1   brezak 	    }
 1.1   brezak     }
 1.1   brezak     if (error == 0) {
 1.1   brezak 	if (cp->un.value.num_channels == 1) {
 1.1   brezak 	    cp->un.value.level[AUDIO_MIXER_LEVEL_MONO] =
 1.1   brezak 		SBP_SBGAIN_TO_AGAIN(sc->gain[cp->dev]);
 1.1   brezak 	}
 1.1   brezak 	else if (cp->un.value.num_channels == 2) {
 1.1   brezak 	    cp->un.value.level[AUDIO_MIXER_LEVEL_LEFT] =
 1.1   brezak 		SBP_LEFTGAIN(sc->gain[cp->dev]);
 1.1   brezak 	    cp->un.value.level[AUDIO_MIXER_LEVEL_RIGHT] =
 1.1   brezak 		SBP_RIGHTGAIN(sc->gain[cp->dev]);
 1.1   brezak 	} else
 1.1   brezak 	    return EINVAL;
 1.1   brezak     }
 1.1   brezak     return(error);
 1.1   brezak }
 1.1   brezak
 1.1   brezak int
 1.1   brezak sbdsp_mixer_query_devinfo(addr, dip)
 1.5  mycroft     void *addr;
 1.1   brezak     register mixer_devinfo_t *dip;
 1.1   brezak {
 1.5  mycroft     register struct sbdsp_softc *sc = addr;
 1.1   brezak     int done = 0;
 1.1   brezak
 1.1   brezak     DPRINTF(("sbdsp_mixer_query_devinfo: index=%d\n", dip->index));
 1.1   brezak
 1.1   brezak     switch (dip->index) {
 1.1   brezak     case SB_MIC_PORT:
 1.1   brezak 	dip->type = AUDIO_MIXER_VALUE;
 1.1   brezak 	dip->mixer_class = SB_INPUT_CLASS;
 1.1   brezak 	dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	strcpy(dip->label.name, AudioNmicrophone);
 1.1   brezak 	dip->un.v.num_channels = 1;
 1.1   brezak 	strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	done = 1;
 1.1   brezak 	break;
 1.1   brezak     case SB_SPEAKER:
 1.1   brezak 	dip->type = AUDIO_MIXER_VALUE;
 1.1   brezak 	dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	strcpy(dip->label.name, AudioNspeaker);
 1.1   brezak 	dip->un.v.num_channels = 1;
 1.1   brezak 	strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	done = 1;
 1.1   brezak 	break;
 1.1   brezak     case SB_INPUT_CLASS:
 1.1   brezak 	dip->type = AUDIO_MIXER_CLASS;
 1.1   brezak 	dip->mixer_class = SB_INPUT_CLASS;
 1.1   brezak 	dip->next = dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	strcpy(dip->label.name, AudioCInputs);
 1.1   brezak 	done = 1;
 1.1   brezak 	break;
 1.1   brezak     case SB_OUTPUT_CLASS:
 1.1   brezak 	dip->type = AUDIO_MIXER_CLASS;
 1.1   brezak 	dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	dip->next = dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	strcpy(dip->label.name, AudioCOutputs);
 1.1   brezak 	done = 1;
 1.1   brezak 	break;
 1.1   brezak     }
 1.1   brezak
 1.1   brezak     if (!done) {
 1.1   brezak     if (ISSBPROCLASS(sc))
 1.1   brezak 	switch(dip->index) {
 1.1   brezak 	case SB_LINE_IN_PORT:
 1.1   brezak 	    dip->type = AUDIO_MIXER_VALUE;
 1.1   brezak 	    dip->mixer_class = SB_INPUT_CLASS;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	    strcpy(dip->label.name, AudioNline);
 1.1   brezak 	    dip->un.v.num_channels = 2;
 1.1   brezak 	    strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	    break;
 1.1   brezak 	case SB_DAC_PORT:
 1.1   brezak 	    dip->type = AUDIO_MIXER_VALUE;
1.10   brezak 	    dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	    strcpy(dip->label.name, AudioNdac);
 1.1   brezak 	    dip->un.v.num_channels = 2;
 1.1   brezak 	    strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	    break;
 1.1   brezak 	case SB_CD_PORT:
 1.1   brezak 	    dip->type = AUDIO_MIXER_VALUE;
 1.1   brezak 	    dip->mixer_class = SB_INPUT_CLASS;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	    strcpy(dip->label.name, AudioNcd);
 1.1   brezak 	    dip->un.v.num_channels = 2;
 1.1   brezak 	    strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	    break;
 1.1   brezak 	case SB_FM_PORT:
 1.1   brezak 	    dip->type = AUDIO_MIXER_VALUE;
1.10   brezak 	    dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
1.13   brezak 	    strcpy(dip->label.name, AudioNfmsynth);
 1.1   brezak 	    dip->un.v.num_channels = 2;
 1.1   brezak 	    strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	    break;
 1.1   brezak 	case SB_MASTER_VOL:
 1.1   brezak 	    dip->type = AUDIO_MIXER_VALUE;
 1.1   brezak 	    dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
1.10   brezak 	    dip->next = /*TREBLE, BASS not handled, nor is SB_OUTPUT_MODE*/SB_RECORD_SOURCE;
 1.1   brezak 	    strcpy(dip->label.name, AudioNvolume);
 1.1   brezak 	    dip->un.v.num_channels = 2;
 1.1   brezak 	    strcpy(dip->un.v.units.name, AudioNvolume);
 1.1   brezak 	    break;
 1.1   brezak #if 0
 1.1   brezak 	case SB_OUTPUT_MODE:
 1.1   brezak 	    dip->mixer_class = SB_OUTPUT_CLASS;
 1.1   brezak 	    dip->type = AUDIO_MIXER_ENUM;
 1.1   brezak 	    dip->prev = SB_MASTER_VOL;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	    strcpy(dip->label.name, AudioNmode);
 1.1   brezak 	    dip->un.e.num_mem = 2;
 1.1   brezak 	    strcpy(dip->un.e.member[0].label.name, AudioNmono);
 1.1   brezak 	    dip->un.e.member[0].ord = 1; /* nchans */
 1.1   brezak 	    strcpy(dip->un.e.member[1].label.name, AudioNstereo);
 1.1   brezak 	    dip->un.e.member[1].ord = 2; /* nchans */
 1.1   brezak 	    break;
 1.1   brezak #endif
 1.1   brezak 	case SB_RECORD_SOURCE:
 1.1   brezak 	    dip->mixer_class = SB_RECORD_CLASS;
 1.1   brezak 	    dip->type = AUDIO_MIXER_ENUM;
 1.1   brezak 	    dip->prev = AUDIO_MIXER_LAST;
 1.1   brezak 	    dip->next = AUDIO_MIXER_LAST;
 1.1   brezak 	    strcpy(dip->label.name, AudioNsource);
 1.1   brezak 	    dip->un.e.num_mem = 3;
 1.1   brezak 	    strcpy(dip->un.e.member[0].label.name, AudioNmicrophone);
 1.1   brezak 	    dip->un.e.member[0].ord = SB_MIC_PORT;
 1.1   brezak 	    strcpy(dip->un.e.member[1].label.name, AudioNcd);
 1.1   brezak 	    dip->un.e.member[1].ord = SB_CD_PORT;
 1.1   brezak 	    strcpy(dip->un.e.member[2].label.name, AudioNline);
 1.1   brezak 	    dip->un.e.member[2].ord = SB_LINE_IN_PORT;
 1.1   brezak 	    break;
 1.1   brezak 	case SB_BASS:
 1.1   brezak 	case SB_TREBLE:
 1.1   brezak 	default:
 1.1   brezak 	    return ENXIO;
 1.1   brezak 	    /*NOTREACHED*/
 1.1   brezak 	}
 1.1   brezak     else
 1.1   brezak 	return ENXIO;
 1.1   brezak     }
 1.1   brezak
 1.1   brezak     DPRINTF(("AUDIO_MIXER_DEVINFO: name=%s\n", dip->label.name));
 1.1   brezak
 1.1   brezak     return 0;
 1.1   brezak }