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/* $NetBSD: opl.c,v 1.42 2016/07/14 10:19:06 msaitoh Exp $ */
/*
* Copyright (c) 1998, 2008 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Lennart Augustsson (augustss@NetBSD.org), and by Andrew Doran.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* The OPL3 (YMF262) manual can be found at
* ftp://ftp.yamahayst.com/Fax_Back_Doc/sound/YMF262.PDF
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: opl.c,v 1.42 2016/07/14 10:19:06 msaitoh Exp $");
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/errno.h>
#include <sys/ioctl.h>
#include <sys/syslog.h>
#include <sys/device.h>
#include <sys/select.h>
#include <sys/kmem.h>
#include <sys/cpu.h>
#include <sys/bus.h>
#include <sys/audioio.h>
#include <sys/midiio.h>
#include <dev/audio_if.h>
#include <dev/midi_if.h>
#include <dev/midivar.h>
#include <dev/midisynvar.h>
#include <dev/ic/oplreg.h>
#include <dev/ic/oplvar.h>
#ifdef AUDIO_DEBUG
#define DPRINTF(x) if (opldebug) printf x
#define DPRINTFN(n,x) if (opldebug >= (n)) printf x
int opldebug = 0;
#else
#define DPRINTF(x)
#define DPRINTFN(n,x)
#endif
struct real_voice {
u_int8_t voice_num;
u_int8_t voice_mode; /* 0=unavailable, 2=2 OP, 4=4 OP */
u_int8_t iooffs; /* I/O port (left or right side) */
u_int8_t op[4]; /* Operator offsets */
};
const struct opl_voice voicetab[] = {
/* No I/O offs OP1 OP2 OP3 OP4 */
/* --------------------------------------------- */
{ 0, OPL_L, {0x00, 0x03, 0x08, 0x0b}, NULL, 0, },
{ 1, OPL_L, {0x01, 0x04, 0x09, 0x0c}, NULL, 0, },
{ 2, OPL_L, {0x02, 0x05, 0x0a, 0x0d}, NULL, 0, },
{ 3, OPL_L, {0x08, 0x0b, 0x00, 0x00}, NULL, 0, },
{ 4, OPL_L, {0x09, 0x0c, 0x00, 0x00}, NULL, 0, },
{ 5, OPL_L, {0x0a, 0x0d, 0x00, 0x00}, NULL, 0, },
{ 6, OPL_L, {0x10, 0x13, 0x00, 0x00}, NULL, 0, },
{ 7, OPL_L, {0x11, 0x14, 0x00, 0x00}, NULL, 0, },
{ 8, OPL_L, {0x12, 0x15, 0x00, 0x00}, NULL, 0, },
{ 0, OPL_R, {0x00, 0x03, 0x08, 0x0b}, NULL, 0, },
{ 1, OPL_R, {0x01, 0x04, 0x09, 0x0c}, NULL, 0, },
{ 2, OPL_R, {0x02, 0x05, 0x0a, 0x0d}, NULL, 0, },
{ 3, OPL_R, {0x08, 0x0b, 0x00, 0x00}, NULL, 0, },
{ 4, OPL_R, {0x09, 0x0c, 0x00, 0x00}, NULL, 0, },
{ 5, OPL_R, {0x0a, 0x0d, 0x00, 0x00}, NULL, 0, },
{ 6, OPL_R, {0x10, 0x13, 0x00, 0x00}, NULL, 0, },
{ 7, OPL_R, {0x11, 0x14, 0x00, 0x00}, NULL, 0, },
{ 8, OPL_R, {0x12, 0x15, 0x00, 0x00}, NULL, 0, }
};
static void opl_command(struct opl_softc *, int, int, int);
void opl_reset(struct opl_softc *);
void opl_freq_to_fnum (int freq, int *block, int *fnum);
int oplsyn_open(midisyn *ms, int);
void oplsyn_close(midisyn *);
void oplsyn_reset(void *);
void oplsyn_attackv(midisyn *, uint_fast16_t, midipitch_t, int16_t);
static void oplsyn_repitchv(midisyn *, uint_fast16_t, midipitch_t);
static void oplsyn_relevelv(midisyn *, uint_fast16_t, int16_t);
static void oplsyn_setv(midisyn *, uint_fast16_t, midipitch_t, int16_t, int);
void oplsyn_releasev(midisyn *, uint_fast16_t, uint_fast8_t);
int oplsyn_ctlnotice(midisyn *, midictl_evt, uint_fast8_t, uint_fast16_t);
void oplsyn_programchange(midisyn *, uint_fast8_t, uint_fast8_t);
void oplsyn_loadpatch(midisyn *, struct sysex_info *, struct uio *);
static void oplsyn_panhandler(midisyn *, uint_fast8_t);
void opl_set_op_reg(struct opl_softc *, int, int, int, u_char);
void opl_set_ch_reg(struct opl_softc *, int, int, u_char);
void opl_load_patch(struct opl_softc *, int);
u_int32_t opl_get_block_fnum(midipitch_t mp);
int opl_calc_vol(int regbyte, int16_t level_cB);
struct midisyn_methods opl3_midi = {
.open = oplsyn_open,
.close = oplsyn_close,
.attackv = oplsyn_attackv,
.repitchv = oplsyn_repitchv,
.relevelv = oplsyn_relevelv,
.releasev = oplsyn_releasev,
.pgmchg = oplsyn_programchange,
.ctlnotice = oplsyn_ctlnotice,
};
void
opl_attach(struct opl_softc *sc)
{
int i;
KASSERT(sc->dev != NULL);
KASSERT(sc->lock != NULL);
mutex_enter(sc->lock);
i = opl_find(sc);
mutex_exit(sc->lock);
if (i == 0) {
aprint_error("\nopl: find failed\n");
return;
}
mutex_enter(sc->lock);
opl_reset(sc);
mutex_exit(sc->lock);
sc->syn.mets = &opl3_midi;
size_t len = strlen(sc->syn.name);
snprintf(sc->syn.name + len, sizeof(sc->syn.name) - len,
"Yamaha OPL%d", sc->model);
sc->syn.data = sc;
sc->syn.nvoice = sc->model == OPL_2 ? OPL2_NVOICE : OPL3_NVOICE;
sc->syn.lock = sc->lock;
midisyn_init(&sc->syn);
/* Set up voice table */
for (i = 0; i < OPL3_NVOICE; i++)
sc->voices[i] = voicetab[i];
aprint_normal(": model OPL%d", sc->model);
/* Set up panpot */
sc->panl = OPL_VOICE_TO_LEFT;
sc->panr = OPL_VOICE_TO_RIGHT;
if (sc->model == OPL_3 &&
device_cfdata(sc->dev)->cf_flags & OPL_FLAGS_SWAP_LR) {
sc->panl = OPL_VOICE_TO_RIGHT;
sc->panr = OPL_VOICE_TO_LEFT;
aprint_normal(": LR swapped");
}
aprint_normal("\n");
aprint_naive("\n");
sc->sc_mididev =
midi_attach_mi(&midisyn_hw_if, &sc->syn, sc->dev);
}
int
opl_detach(struct opl_softc *sc, int flags)
{
int rv = 0;
if (sc->sc_mididev != NULL)
rv = config_detach(sc->sc_mididev, flags);
return(rv);
}
static void
opl_command(struct opl_softc *sc, int offs, int addr, int data)
{
DPRINTFN(4, ("opl_command: sc=%p, offs=%d addr=0x%02x data=0x%02x\n",
sc, offs, addr, data));
KASSERT(!sc->lock || mutex_owned(sc->lock));
offs += sc->offs;
bus_space_write_1(sc->iot, sc->ioh, OPL_ADDR+offs, addr);
if (sc->model == OPL_2)
delay(10);
else
delay(6);
bus_space_write_1(sc->iot, sc->ioh, OPL_DATA+offs, data);
if (sc->model == OPL_2)
delay(30);
else
delay(6);
}
int
opl_match(bus_space_tag_t iot, bus_space_handle_t ioh, int offs)
{
struct opl_softc *sc;
int rv;
sc = kmem_zalloc(sizeof(*sc), KM_SLEEP);
sc->iot = iot;
sc->ioh = ioh;
sc->offs = offs;
rv = opl_find(sc);
kmem_free(sc, sizeof(*sc));
return rv;
}
int
opl_find(struct opl_softc *sc)
{
u_int8_t status1, status2;
DPRINTFN(2,("opl_find: ioh=0x%x\n", (int)sc->ioh));
sc->model = OPL_2; /* worst case assumption */
/* Reset timers 1 and 2 */
opl_command(sc, OPL_L, OPL_TIMER_CONTROL,
OPL_TIMER1_MASK | OPL_TIMER2_MASK);
/* Reset the IRQ of the FM chip */
opl_command(sc, OPL_L, OPL_TIMER_CONTROL, OPL_IRQ_RESET);
/* get status bits */
status1 = bus_space_read_1(sc->iot,sc->ioh,OPL_STATUS+OPL_L+sc->offs);
opl_command(sc, OPL_L, OPL_TIMER1, -2); /* wait 2 ticks */
opl_command(sc, OPL_L, OPL_TIMER_CONTROL, /* start timer1 */
OPL_TIMER1_START | OPL_TIMER2_MASK);
delay(1000); /* wait for timer to expire */
/* get status bits again */
status2 = bus_space_read_1(sc->iot,sc->ioh,OPL_STATUS+OPL_L+sc->offs);
opl_command(sc, OPL_L, OPL_TIMER_CONTROL,
OPL_TIMER1_MASK | OPL_TIMER2_MASK);
opl_command(sc, OPL_L, OPL_TIMER_CONTROL, OPL_IRQ_RESET);
DPRINTFN(2,("opl_find: %02x %02x\n", status1, status2));
if ((status1 & OPL_STATUS_MASK) != 0 ||
(status2 & OPL_STATUS_MASK) != (OPL_STATUS_IRQ | OPL_STATUS_FT1))
return (0);
switch(status1) {
case 0x00:
case 0x0f:
sc->model = OPL_3;
break;
case 0x06:
sc->model = OPL_2;
break;
default:
return (0);
}
DPRINTFN(2,("opl_find: OPL%d at 0x%x detected\n",
sc->model, (int)sc->ioh));
return (1);
}
/*
* idea: opl_command does a lot of busywaiting, and the driver typically sets
* a lot of registers each time a voice-attack happens. some kind of
* caching to remember what was last written to each register could save
* a lot of cpu. It would have to be smart enough not to interfere with
* any necessary sequences of register access expected by the hardware...
*/
void
opl_set_op_reg(struct opl_softc *sc, int base, int voice, int op, u_char value)
{
struct opl_voice *v = &sc->voices[voice];
KASSERT(mutex_owned(sc->lock));
opl_command(sc, v->iooffs, base + v->op[op], value);
}
void
opl_set_ch_reg(struct opl_softc *sc, int base, int voice, u_char value)
{
struct opl_voice *v = &sc->voices[voice];
KASSERT(mutex_owned(sc->lock));
opl_command(sc, v->iooffs, base + v->voiceno, value);
}
void
opl_load_patch(struct opl_softc *sc, int v)
{
const struct opl_operators *p = sc->voices[v].patch;
KASSERT(mutex_owned(sc->lock));
opl_set_op_reg(sc, OPL_AM_VIB, v, 0, p->ops[OO_CHARS+0]);
opl_set_op_reg(sc, OPL_AM_VIB, v, 1, p->ops[OO_CHARS+1]);
opl_set_op_reg(sc, OPL_KSL_LEVEL, v, 0, p->ops[OO_KSL_LEV+0]);
opl_set_op_reg(sc, OPL_KSL_LEVEL, v, 1, p->ops[OO_KSL_LEV+1]);
opl_set_op_reg(sc, OPL_ATTACK_DECAY, v, 0, p->ops[OO_ATT_DEC+0]);
opl_set_op_reg(sc, OPL_ATTACK_DECAY, v, 1, p->ops[OO_ATT_DEC+1]);
opl_set_op_reg(sc, OPL_SUSTAIN_RELEASE, v, 0, p->ops[OO_SUS_REL+0]);
opl_set_op_reg(sc, OPL_SUSTAIN_RELEASE, v, 1, p->ops[OO_SUS_REL+1]);
opl_set_op_reg(sc, OPL_WAVE_SELECT, v, 0, p->ops[OO_WAV_SEL+0]);
opl_set_op_reg(sc, OPL_WAVE_SELECT, v, 1, p->ops[OO_WAV_SEL+1]);
opl_set_ch_reg(sc, OPL_FEEDBACK_CONNECTION, v, p->ops[OO_FB_CONN]);
}
uint32_t
opl_get_block_fnum(midipitch_t mp)
{
midihz18_t hz18;
uint32_t block;
uint32_t f_num;
/*
* We can get to about note 30 before needing to switch from block 0.
* Thereafter, switch block every octave; that will keep f_num in the
* upper end of its range, making the most bits available for
* resolution.
*/
block = ( mp - MIDIPITCH_FROM_KEY(19) ) / MIDIPITCH_OCTAVE;
if ( block > 7 ) /* subtract wrapped */
block = 0;
/*
* Could subtract block*MIDIPITCH_OCTAVE here, or >>block later. Later.
*/
hz18 = MIDIPITCH_TO_HZ18(mp);
hz18 >>= block;
/*
* The formula in the manual is f_num = ((hz<<19)/fs)>>(block-1) (though
* block==0 implies >>-1 which is a C unspecified result). As we already
* have hz<<18 and I omitted the -1 when shifting above, what's left to
* do now is multiply by 4 and divide by fs, the sampling frequency of
* the chip. fs is the master clock frequency fM / 288, fM is 14.32 MHz
* so fs is a goofy number around 49.7kHz. The 5th convergent of the
* continued fraction matches 4/fs to 9+ significant figures. Doing the
* shift first (above) ensures there's room in hz18 to multiply by 9.
*/
f_num = (9 * hz18) / 111875;
return ((block << 10) | f_num);
}
void
opl_reset(struct opl_softc *sc)
{
int i;
KASSERT(mutex_owned(sc->lock));
for (i = 1; i <= OPL_MAXREG; i++)
opl_command(sc, OPL_L, OPL_KEYON_BLOCK + i, 0);
opl_command(sc, OPL_L, OPL_TEST, OPL_ENABLE_WAVE_SELECT);
opl_command(sc, OPL_L, OPL_PERCUSSION, 0);
if (sc->model == OPL_3) {
opl_command(sc, OPL_R, OPL_MODE, OPL3_ENABLE);
opl_command(sc, OPL_R,OPL_CONNECTION_SELECT,OPL_NOCONNECTION);
}
for (i = 0; i < MIDI_MAX_CHANS; i++)
sc->pan[i] = OPL_VOICE_TO_LEFT | OPL_VOICE_TO_RIGHT;
}
int
oplsyn_open(midisyn *ms, int flags)
{
struct opl_softc *sc = ms->data;
KASSERT(mutex_owned(sc->lock));
DPRINTFN(2, ("oplsyn_open: %d\n", flags));
#ifndef AUDIO_NO_POWER_CTL
if (sc->powerctl)
sc->powerctl(sc->powerarg, 1);
#endif
opl_reset(ms->data);
if (sc->spkrctl)
sc->spkrctl(sc->spkrarg, 1);
return (0);
}
void
oplsyn_close(midisyn *ms)
{
struct opl_softc *sc = ms->data;
DPRINTFN(2, ("oplsyn_close:\n"));
KASSERT(mutex_owned(sc->lock));
/*opl_reset(ms->data);*/
if (sc->spkrctl)
sc->spkrctl(sc->spkrarg, 0);
#ifndef AUDIO_NO_POWER_CTL
if (sc->powerctl)
sc->powerctl(sc->powerarg, 0);
#endif
}
#if 0
void
oplsyn_getinfo(void *addr, struct synth_dev *sd)
{
struct opl_softc *sc = addr;
sd->name = sc->model == OPL_2 ? "Yamaha OPL2" : "Yamaha OPL3";
sd->type = SYNTH_TYPE_FM;
sd->subtype = sc->model == OPL_2 ? SYNTH_SUB_FM_TYPE_ADLIB
: SYNTH_SUB_FM_TYPE_OPL3;
sd->capabilities = 0;
}
#endif
void
oplsyn_reset(void *addr)
{
struct opl_softc *sc = addr;
KASSERT(mutex_owned(sc->lock));
DPRINTFN(3, ("oplsyn_reset:\n"));
opl_reset(sc);
}
int
opl_calc_vol(int regbyte, int16_t level_cB)
{
int level = regbyte & OPL_TOTAL_LEVEL_MASK;
/*
* level is a six-bit attenuation, from 0 (full output)
* to -48dB (but without the minus sign) in steps of .75 dB.
* We'll just add level_cB, after scaling it because it's
* in centibels instead and has the customary minus sign.
*/
level += ( -4 * level_cB ) / 30;
if (level > OPL_TOTAL_LEVEL_MASK)
level = OPL_TOTAL_LEVEL_MASK;
if (level < 0)
level = 0;
return level & OPL_TOTAL_LEVEL_MASK;
}
#define OPLACT_ARTICULATE 1
#define OPLACT_PITCH 2
#define OPLACT_LEVEL 4
void
oplsyn_attackv(midisyn *ms,
uint_fast16_t voice, midipitch_t mp, int16_t level_cB)
{
oplsyn_setv(ms, voice, mp, level_cB,
OPLACT_ARTICULATE | OPLACT_PITCH | OPLACT_LEVEL);
}
static void
oplsyn_repitchv(midisyn *ms, uint_fast16_t voice, midipitch_t mp)
{
oplsyn_setv(ms, voice, mp, 0, OPLACT_PITCH);
}
static void
oplsyn_relevelv(midisyn *ms, uint_fast16_t voice, int16_t level_cB)
{
oplsyn_setv(ms, voice, 0, level_cB, OPLACT_LEVEL);
}
static void
oplsyn_setv(midisyn *ms,
uint_fast16_t voice, midipitch_t mp, int16_t level_cB, int act)
{
struct opl_softc *sc = ms->data;
struct opl_voice *v;
const struct opl_operators *p;
u_int32_t block_fnum;
int mult;
int c_mult, m_mult;
u_int32_t chan;
u_int8_t chars0, chars1, ksl0, ksl1, fbc;
u_int8_t r20m, r20c, r40m, r40c, rA0, rB0;
u_int8_t vol0, vol1;
KASSERT(mutex_owned(sc->lock));
DPRINTFN(3, ("%s: %p %d %u %d\n", __func__, sc, voice,
mp, level_cB));
#ifdef DIAGNOSTIC
if (voice >= sc->syn.nvoice) {
printf("%s: bad voice %d\n", __func__, voice);
return;
}
#endif
v = &sc->voices[voice];
if ( act & OPLACT_ARTICULATE ) {
/* Turn off old note */
opl_set_op_reg(sc, OPL_KSL_LEVEL, voice, 0, 0xff);
opl_set_op_reg(sc, OPL_KSL_LEVEL, voice, 1, 0xff);
opl_set_ch_reg(sc, OPL_KEYON_BLOCK, voice, 0);
chan = MS_GETCHAN(&ms->voices[voice]);
p = &opl2_instrs[ms->pgms[chan]];
v->patch = p;
opl_load_patch(sc, voice);
fbc = p->ops[OO_FB_CONN];
if (sc->model == OPL_3) {
fbc &= ~OPL_STEREO_BITS;
fbc |= sc->pan[chan];
}
opl_set_ch_reg(sc, OPL_FEEDBACK_CONNECTION, voice, fbc);
} else
p = v->patch;
if ( act & OPLACT_LEVEL ) {
/* 2 voice */
ksl0 = p->ops[OO_KSL_LEV+0];
ksl1 = p->ops[OO_KSL_LEV+1];
if (p->ops[OO_FB_CONN] & 0x01) {
vol0 = opl_calc_vol(ksl0, level_cB);
vol1 = opl_calc_vol(ksl1, level_cB);
} else {
vol0 = ksl0;
vol1 = opl_calc_vol(ksl1, level_cB);
}
r40m = (ksl0 & OPL_KSL_MASK) | vol0;
r40c = (ksl1 & OPL_KSL_MASK) | vol1;
opl_set_op_reg(sc, OPL_KSL_LEVEL, voice, 0, r40m);
opl_set_op_reg(sc, OPL_KSL_LEVEL, voice, 1, r40c);
}
if ( act & OPLACT_PITCH ) {
mult = 1;
if ( mp > MIDIPITCH_FROM_KEY(114) ) { /* out of mult 1 range */
mult = 4; /* will cover remaining MIDI range */
mp -= 2*MIDIPITCH_OCTAVE;
}
block_fnum = opl_get_block_fnum(mp);
chars0 = p->ops[OO_CHARS+0];
chars1 = p->ops[OO_CHARS+1];
m_mult = (chars0 & OPL_MULTIPLE_MASK) * mult;
c_mult = (chars1 & OPL_MULTIPLE_MASK) * mult;
if ( 4 == mult ) {
if ( 0 == m_mult ) /* The OPL uses 0 to represent .5 */
m_mult = 2; /* but of course 0*mult above did */
if ( 0 == c_mult ) /* not DTRT */
c_mult = 2;
}
if ((m_mult > 15) || (c_mult > 15)) {
printf("%s: frequency out of range %u (mult %d)\n",
__func__, mp, mult);
return;
}
r20m = (chars0 &~ OPL_MULTIPLE_MASK) | m_mult;
r20c = (chars1 &~ OPL_MULTIPLE_MASK) | c_mult;
rA0 = block_fnum & 0xFF;
rB0 = (block_fnum >> 8) | OPL_KEYON_BIT;
v->rB0 = rB0;
opl_set_op_reg(sc, OPL_AM_VIB, voice, 0, r20m);
opl_set_op_reg(sc, OPL_AM_VIB, voice, 1, r20c);
opl_set_ch_reg(sc, OPL_FNUM_LOW, voice, rA0);
opl_set_ch_reg(sc, OPL_KEYON_BLOCK, voice, rB0);
}
}
void
oplsyn_releasev(midisyn *ms, uint_fast16_t voice, uint_fast8_t vel)
{
struct opl_softc *sc = ms->data;
struct opl_voice *v;
KASSERT(mutex_owned(sc->lock));
DPRINTFN(1, ("%s: %p %d\n", __func__, sc, voice));
#ifdef DIAGNOSTIC
if (voice >= sc->syn.nvoice) {
printf("oplsyn_noteoff: bad voice %d\n", voice);
return;
}
#endif
v = &sc->voices[voice];
opl_set_ch_reg(sc, 0xB0, voice, v->rB0 & ~OPL_KEYON_BIT);
}
int
oplsyn_ctlnotice(midisyn *ms,
midictl_evt evt, uint_fast8_t chan, uint_fast16_t key)
{
DPRINTFN(1, ("%s: %p %d\n", __func__, ms->data, chan));
switch (evt) {
case MIDICTL_RESET:
oplsyn_panhandler(ms, chan);
return 1;
case MIDICTL_CTLR:
switch (key) {
case MIDI_CTRL_PAN_MSB:
oplsyn_panhandler(ms, chan);
return 1;
}
return 0;
default:
return 0;
}
}
/* PROGRAM CHANGE midi event: */
void
oplsyn_programchange(midisyn *ms, uint_fast8_t chan, uint_fast8_t prog)
{
/* sanity checks */
if (chan >= MIDI_MAX_CHANS)
return;
ms->pgms[chan] = prog;
}
void
oplsyn_loadpatch(midisyn *ms, struct sysex_info *sysex, struct uio *uio)
{
#if 0
struct opl_softc *sc = ms->data;
struct sbi_instrument ins;
DPRINTFN(1, ("oplsyn_loadpatch: %p\n", sc));
memcpy(&ins, sysex, sizeof *sysex);
if (uio->uio_resid >= sizeof ins - sizeof *sysex)
return EINVAL;
uiomove((char *)&ins + sizeof *sysex, sizeof ins - sizeof *sysex, uio);
/* XXX */
#endif
}
static void
oplsyn_panhandler(midisyn *ms, uint_fast8_t chan)
{
struct opl_softc *sc = ms->data;
uint_fast16_t setting;
setting = midictl_read(&ms->ctl, chan, MIDI_CTRL_PAN_MSB, 8192);
setting >>= 7; /* we used to treat it as MSB only */
sc->pan[chan] =
(setting <= OPL_MIDI_CENTER_MAX ? sc->panl : 0) |
(setting >= OPL_MIDI_CENTER_MIN ? sc->panr : 0);
}
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