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|
/* $OpenBSD: azalia_codec.c,v 1.165 2014/12/10 14:18:11 jsg Exp $ */
/* $NetBSD: azalia_codec.c,v 1.8 2006/05/10 11:17:27 kent Exp $ */
/*-
* Copyright (c) 2005 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by TAMURA Kent
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/param.h>
#include <sys/device.h>
#include <sys/malloc.h>
#include <sys/systm.h>
#include <dev/pci/azalia.h>
#define XNAME(co) (((struct device *)co->az)->dv_xname)
#define MIXER_DELTA(n) (AUDIO_MAX_GAIN / (n))
int azalia_add_convgroup(codec_t *, convgroupset_t *,
struct io_pin *, int, nid_t *, int, uint32_t, uint32_t);
int azalia_mixer_fix_indexes(codec_t *);
int azalia_mixer_default(codec_t *);
int azalia_mixer_ensure_capacity(codec_t *, size_t);
u_char azalia_mixer_from_device_value(const codec_t *, nid_t, int, uint32_t );
uint32_t azalia_mixer_to_device_value(const codec_t *, nid_t, int, u_char);
void azalia_devinfo_offon(mixer_devinfo_t *);
void azalia_pin_config_ov(widget_t *, int, int);
void azalia_ampcap_ov(widget_t *, int, int, int, int, int, int);
int azalia_gpio_unmute(codec_t *, int);
int
azalia_codec_init_vtbl(codec_t *this)
{
/**
* We can refer this->vid and this->subid.
*/
this->name = NULL;
this->qrks = AZ_QRK_NONE;
switch (this->vid) {
case 0x10134206:
this->name = "Cirrus Logic CS4206";
if (this->subid == 0xcb8910de || /* APPLE_MBA3_1 */
this->subid == 0x72708086) { /* APPLE_MBA4_1 */
this->qrks |= AZ_QRK_GPIO_UNMUTE_1 |
AZ_QRK_GPIO_UNMUTE_3;
}
break;
case 0x10ec0221:
this->name = "Realtek ALC221";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0260:
this->name = "Realtek ALC260";
if (this->subid == 0x008f1025)
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
break;
case 0x10ec0262:
this->name = "Realtek ALC262";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0268:
this->name = "Realtek ALC268";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0269:
this->name = "Realtek ALC269";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0272:
this->name = "Realtek ALC272";
break;
case 0x10ec0282:
this->name = "Realtek ALC282";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0292:
this->name = "Realtek ALC292";
break;
case 0x10ec0660:
this->name = "Realtek ALC660";
if (this->subid == 0x13391043) { /* ASUS_G2K */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x10ec0662:
this->name = "Realtek ALC662";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x10ec0663:
this->name = "Realtek ALC663";
break;
case 0x10ec0861:
this->name = "Realtek ALC861";
break;
case 0x10ec0880:
this->name = "Realtek ALC880";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
if (this->subid == 0x19931043 || /* ASUS_M5200 */
this->subid == 0x13231043) { /* ASUS_A7M */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
if (this->subid == 0x203d161f) { /* MEDION_MD95257 */
this->qrks |= AZ_QRK_GPIO_UNMUTE_1;
}
break;
case 0x10ec0882:
this->name = "Realtek ALC882";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
if (this->subid == 0x13c21043 || /* ASUS_A7T */
this->subid == 0x19711043) { /* ASUS_W2J */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x10ec0883:
this->name = "Realtek ALC883";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
if (this->subid == 0x00981025) { /* ACER_ID */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0 |
AZ_QRK_GPIO_UNMUTE_1;
}
break;
case 0x10ec0885:
this->name = "Realtek ALC885";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
if (this->subid == 0x00a1106b || /* APPLE_MB3 */
this->subid == 0xcb7910de || /* APPLE_MACMINI3_1 (line-in + hp) */
this->subid == 0x00a0106b || /* APPLE_MB3_1 */
this->subid == 0x00a3106b) { /* APPLE_MB4 */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
if (this->subid == 0x00a1106b ||
this->subid == 0xcb7910de || /* APPLE_MACMINI3_1 (internal spkr) */
this->subid == 0x00a0106b)
this->qrks |= AZ_QRK_WID_OVREF50;
break;
case 0x10ec0888:
this->name = "Realtek ALC888";
this->qrks |= AZ_QRK_WID_CDIN_1C | AZ_QRK_WID_BEEP_1D;
break;
case 0x11060398:
case 0x11061398:
case 0x11062398:
case 0x11063398:
case 0x11064398:
case 0x11065398:
case 0x11066398:
case 0x11067398:
this->name = "VIA VT1702";
break;
case 0x111d7603:
this->name = "IDT 92HD75B3/4";
break;
case 0x111d7604:
this->name = "IDT 92HD83C1X";
break;
case 0x111d7605:
this->name = "IDT 92HD81B1X";
break;
case 0x111d7608:
this->name = "IDT 92HD75B1/2";
if ((this->subid & 0x0000ffff) == 0x0000103c) { /* HP */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x111d7674:
this->name = "IDT 92HD73D1";
break;
case 0x111d7675:
this->name = "IDT 92HD73C1"; /* aka 92HDW74C1 */
if ((this->subid & 0x0000ffff) == 0x00001028) { /* DELL */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x111d7676:
this->name = "IDT 92HD73E1"; /* aka 92HDW74E1 */
break;
case 0x111d76b0:
this->name = "IDT 92HD71B8";
break;
case 0x111d76b2:
this->name = "IDT 92HD71B7";
if ((this->subid & 0x0000ffff) == 0x00001028 || /* DELL */
(this->subid & 0x0000ffff) == 0x0000103c) { /* HP */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x111d76b6:
this->name = "IDT 92HD71B5";
break;
case 0x111d76d4:
this->name = "IDT 92HD83C1C";
break;
case 0x111d76d5:
this->name = "IDT 92HD81B1C";
break;
case 0x11d4184a:
this->name = "Analog Devices AD1884A";
break;
case 0x11d41882:
this->name = "Analog Devices AD1882";
break;
case 0x11d41883:
this->name = "Analog Devices AD1883";
break;
case 0x11d41884:
this->name = "Analog Devices AD1884";
break;
case 0x11d4194a:
this->name = "Analog Devices AD1984A";
break;
case 0x11d41981:
this->name = "Analog Devices AD1981HD";
this->qrks |= AZ_QRK_WID_AD1981_OAMP;
break;
case 0x11d41983:
this->name = "Analog Devices AD1983";
break;
case 0x11d41984:
this->name = "Analog Devices AD1984";
break;
case 0x11d41988:
this->name = "Analog Devices AD1988A";
break;
case 0x11d4198b:
this->name = "Analog Devices AD1988B";
break;
case 0x11d4882a:
this->name = "Analog Devices AD1882A";
break;
case 0x11d4989a:
this->name = "Analog Devices AD1989A";
break;
case 0x11d4989b:
this->name = "Analog Devices AD1989B";
break;
case 0x14f15045:
this->name = "Conexant CX20549"; /* Venice */
break;
case 0x14f15047:
this->name = "Conexant CX20551"; /* Waikiki */
break;
case 0x14f15051:
this->name = "Conexant CX20561"; /* Hermosa */
break;
case 0x434d4980:
this->name = "CMedia CMI9880";
break;
case 0x83847612:
this->name = "Sigmatel STAC9230X";
break;
case 0x83847613:
this->name = "Sigmatel STAC9230D";
break;
case 0x83847614:
this->name = "Sigmatel STAC9229X";
break;
case 0x83847615:
this->name = "Sigmatel STAC9229D";
break;
case 0x83847616:
this->name = "Sigmatel STAC9228X";
if (this->subid == 0x02271028 || /* DELL_V1400 */
this->subid == 0x01f31028) { /* DELL_I1400 */
this->qrks |= AZ_QRK_GPIO_UNMUTE_2;
}
break;
case 0x83847617:
this->name = "Sigmatel STAC9228D";
break;
case 0x83847618:
this->name = "Sigmatel STAC9227X";
break;
case 0x83847619:
this->name = "Sigmatel STAC9227D";
break;
case 0x83847620:
this->name = "Sigmatel STAC9274";
break;
case 0x83847621:
this->name = "Sigmatel STAC9274D";
break;
case 0x83847626:
this->name = "Sigmatel STAC9271X";
break;
case 0x83847627:
this->name = "Sigmatel STAC9271D";
break;
case 0x83847632:
this->name = "Sigmatel STAC9202";
break;
case 0x83847634:
this->name = "Sigmatel STAC9250";
break;
case 0x83847636:
this->name = "Sigmatel STAC9251";
break;
case 0x83847638:
this->name = "IDT 92HD700X";
break;
case 0x83847639:
this->name = "IDT 92HD700D";
break;
case 0x83847645:
this->name = "IDT 92HD206X";
break;
case 0x83847646:
this->name = "IDT 92HD206D";
break;
case 0x83847661:
/* FALLTHROUGH */
case 0x83847662:
this->name = "Sigmatel STAC9225";
break;
case 0x83847680:
this->name = "Sigmatel STAC9220/1";
if (this->subid == 0x76808384) { /* APPLE_ID */
this->qrks |= AZ_QRK_GPIO_POL_0 | AZ_QRK_GPIO_UNMUTE_0 |
AZ_QRK_GPIO_UNMUTE_1;
}
break;
case 0x83847682:
/* FALLTHROUGH */
case 0x83847683:
this->name = "Sigmatel STAC9221D"; /* aka IDT 92HD202 */
break;
case 0x83847690:
this->name = "Sigmatel STAC9200"; /* aka IDT 92HD001 */
break;
case 0x83847691:
this->name = "Sigmatel STAC9200D";
break;
case 0x83847698:
this->name = "IDT 92HD005";
break;
case 0x83847699:
this->name = "IDT 92HD005D";
break;
case 0x838476a0:
this->name = "Sigmatel STAC9205X";
if (this->subid == 0x01f91028 || /* DELL_D630 */
this->subid == 0x02281028) { /* DELL_V1500 */
this->qrks |= AZ_QRK_GPIO_UNMUTE_0;
}
break;
case 0x838476a1:
this->name = "Sigmatel STAC9205D";
break;
case 0x838476a2:
this->name = "Sigmatel STAC9204X";
break;
case 0x838476a3:
this->name = "Sigmatel STAC9204D";
break;
}
return 0;
}
/* ----------------------------------------------------------------
* functions for generic codecs
* ---------------------------------------------------------------- */
int
azalia_widget_enabled(const codec_t *this, nid_t nid)
{
if (!VALID_WIDGET_NID(nid, this) || !this->w[nid].enable)
return 0;
return 1;
}
int
azalia_init_dacgroup(codec_t *this)
{
this->dacs.ngroups = 0;
if (this->na_dacs > 0)
azalia_add_convgroup(this, &this->dacs,
this->opins, this->nopins,
this->a_dacs, this->na_dacs,
COP_AWTYPE_AUDIO_OUTPUT, 0);
if (this->na_dacs_d > 0)
azalia_add_convgroup(this, &this->dacs,
this->opins_d, this->nopins_d,
this->a_dacs_d, this->na_dacs_d,
COP_AWTYPE_AUDIO_OUTPUT, COP_AWCAP_DIGITAL);
this->dacs.cur = 0;
this->adcs.ngroups = 0;
if (this->na_adcs > 0)
azalia_add_convgroup(this, &this->adcs,
this->ipins, this->nipins,
this->a_adcs, this->na_adcs,
COP_AWTYPE_AUDIO_INPUT, 0);
if (this->na_adcs_d > 0)
azalia_add_convgroup(this, &this->adcs,
this->ipins_d, this->nipins_d,
this->a_adcs_d, this->na_adcs_d,
COP_AWTYPE_AUDIO_INPUT, COP_AWCAP_DIGITAL);
this->adcs.cur = 0;
return 0;
}
int
azalia_add_convgroup(codec_t *this, convgroupset_t *group,
struct io_pin *pins, int npins, nid_t *all_convs, int nall_convs,
uint32_t type, uint32_t digital)
{
nid_t convs[HDA_MAX_CHANNELS];
int nconvs;
nid_t conv;
int i, j, k;
nconvs = 0;
/* default pin connections */
for (i = 0; i < npins; i++) {
conv = pins[i].conv;
if (conv < 0)
continue;
for (j = 0; j < nconvs; j++) {
if (convs[j] == conv)
break;
}
if (j < nconvs)
continue;
convs[nconvs++] = conv;
if (nconvs >= nall_convs) {
goto done;
}
}
/* non-default connections */
for (i = 0; i < npins; i++) {
for (j = 0; j < nall_convs; j++) {
conv = all_convs[j];
for (k = 0; k < nconvs; k++) {
if (convs[k] == conv)
break;
}
if (k < nconvs)
continue;
if (type == COP_AWTYPE_AUDIO_OUTPUT) {
k = azalia_codec_fnode(this, conv,
pins[i].nid, 0);
if (k < 0)
continue;
} else {
if (!azalia_widget_enabled(this, conv))
continue;
k = azalia_codec_fnode(this, pins[i].nid,
conv, 0);
if (k < 0)
continue;
}
convs[nconvs++] = conv;
if (nconvs >= nall_convs) {
goto done;
}
}
}
/* Make sure the speaker dac is part of the analog output convgroup
* or it won't get connected by azalia_codec_connect_stream().
*/
if (type == COP_AWTYPE_AUDIO_OUTPUT && !digital &&
nconvs < nall_convs && this->spkr_dac != -1) {
for (i = 0; i < nconvs; i++)
if (convs[i] == this->spkr_dac)
break;
if (i == nconvs)
convs[nconvs++] = this->spkr_dac;
}
done:
for (i = 0; i < nconvs; i++)
group->groups[group->ngroups].conv[i] = convs[i];
if (nconvs > 0) {
group->groups[group->ngroups].nconv = i;
group->ngroups++;
}
/* Disable converters that aren't in a convgroup. */
for (i = 0; i < nall_convs; i++) {
conv = all_convs[i];
for (j = 0; j < nconvs; j++)
if (convs[j] == conv)
break;
if (j == nconvs)
this->w[conv].enable = 0;
}
return 0;
}
int
azalia_codec_fnode(codec_t *this, nid_t node, int index, int depth)
{
const widget_t *w;
int i, ret;
w = &this->w[index];
if (w->nid == node) {
return index;
}
/* back at the beginning or a bad end */
if (depth > 0 &&
(w->type == COP_AWTYPE_PIN_COMPLEX ||
w->type == COP_AWTYPE_BEEP_GENERATOR ||
w->type == COP_AWTYPE_AUDIO_OUTPUT ||
w->type == COP_AWTYPE_AUDIO_INPUT))
return -1;
if (++depth >= 10)
return -1;
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
ret = azalia_codec_fnode(this, node, w->connections[i], depth);
if (ret >= 0)
return ret;
}
return -1;
}
int
azalia_unsol_event(codec_t *this, int tag)
{
mixer_ctrl_t mc;
uint32_t result;
int i, err, vol, vol2;
err = 0;
tag = CORB_UNSOL_TAG(tag);
switch (tag) {
case AZ_TAG_SPKR:
mc.type = AUDIO_MIXER_ENUM;
vol = 0;
for (i = 0; !vol && !err && i < this->nsense_pins; i++) {
if (!(this->spkr_muters & (1 << i)))
continue;
err = azalia_comresp(this, this->sense_pins[i],
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err || !(result & CORB_PWC_OUTPUT))
continue;
err = azalia_comresp(this, this->sense_pins[i],
CORB_GET_PIN_SENSE, 0, &result);
if (!err && (result & CORB_PS_PRESENCE))
vol = 1;
}
if (err)
break;
this->spkr_muted = vol;
switch(this->spkr_mute_method) {
case AZ_SPKR_MUTE_SPKR_MUTE:
mc.un.ord = vol;
err = azalia_mixer_set(this, this->speaker,
MI_TARGET_OUTAMP, &mc);
if (!err && this->speaker2 != -1 &&
(this->w[this->speaker2].widgetcap & COP_AWCAP_OUTAMP) &&
(this->w[this->speaker2].outamp_cap & COP_AMPCAP_MUTE))
err = azalia_mixer_set(this, this->speaker2,
MI_TARGET_OUTAMP, &mc);
break;
case AZ_SPKR_MUTE_SPKR_DIR:
mc.un.ord = vol ? 0 : 1;
err = azalia_mixer_set(this, this->speaker,
MI_TARGET_PINDIR, &mc);
if (!err && this->speaker2 != -1 &&
(this->w[this->speaker2].d.pin.cap & COP_PINCAP_OUTPUT) &&
(this->w[this->speaker2].d.pin.cap & COP_PINCAP_INPUT))
err = azalia_mixer_set(this, this->speaker2,
MI_TARGET_PINDIR, &mc);
break;
case AZ_SPKR_MUTE_DAC_MUTE:
mc.un.ord = vol;
err = azalia_mixer_set(this, this->spkr_dac,
MI_TARGET_OUTAMP, &mc);
break;
}
break;
case AZ_TAG_PLAYVOL:
if (this->playvols.master == this->audiofunc)
return EINVAL;
err = azalia_comresp(this, this->playvols.master,
CORB_GET_VOLUME_KNOB, 0, &result);
if (err)
return err;
vol = CORB_VKNOB_VOLUME(result) - this->playvols.hw_step;
vol2 = vol * (AUDIO_MAX_GAIN / this->playvols.hw_nsteps);
this->playvols.hw_step = CORB_VKNOB_VOLUME(result);
vol = vol2 + this->playvols.vol_l;
if (vol < 0)
vol = 0;
else if (vol > AUDIO_MAX_GAIN)
vol = AUDIO_MAX_GAIN;
this->playvols.vol_l = vol;
vol = vol2 + this->playvols.vol_r;
if (vol < 0)
vol = 0;
else if (vol > AUDIO_MAX_GAIN)
vol = AUDIO_MAX_GAIN;
this->playvols.vol_r = vol;
mc.type = AUDIO_MIXER_VALUE;
mc.un.value.num_channels = 2;
mc.un.value.level[0] = this->playvols.vol_l;
mc.un.value.level[1] = this->playvols.vol_r;
err = azalia_mixer_set(this, this->playvols.master,
MI_TARGET_PLAYVOL, &mc);
break;
default:
DPRINTF(("%s: unknown tag %d\n", __func__, tag));
break;
}
return err;
}
/* ----------------------------------------------------------------
* Generic mixer functions
* ---------------------------------------------------------------- */
int
azalia_mixer_init(codec_t *this)
{
/*
* pin "<color>%2.2x"
* audio output "dac%2.2x"
* audio input "adc%2.2x"
* mixer "mixer%2.2x"
* selector "sel%2.2x"
*/
const widget_t *w, *ww;
mixer_item_t *m;
int err, i, j, k, bits;
this->maxmixers = 10;
this->nmixers = 0;
this->mixers = mallocarray(this->maxmixers, sizeof(mixer_item_t),
M_DEVBUF, M_NOWAIT | M_ZERO);
if (this->mixers == NULL) {
printf("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
/* register classes */
m = &this->mixers[AZ_CLASS_INPUT];
m->devinfo.index = AZ_CLASS_INPUT;
strlcpy(m->devinfo.label.name, AudioCinputs,
sizeof(m->devinfo.label.name));
m->devinfo.type = AUDIO_MIXER_CLASS;
m->devinfo.mixer_class = AZ_CLASS_INPUT;
m->devinfo.next = AUDIO_MIXER_LAST;
m->devinfo.prev = AUDIO_MIXER_LAST;
m->nid = 0;
m = &this->mixers[AZ_CLASS_OUTPUT];
m->devinfo.index = AZ_CLASS_OUTPUT;
strlcpy(m->devinfo.label.name, AudioCoutputs,
sizeof(m->devinfo.label.name));
m->devinfo.type = AUDIO_MIXER_CLASS;
m->devinfo.mixer_class = AZ_CLASS_OUTPUT;
m->devinfo.next = AUDIO_MIXER_LAST;
m->devinfo.prev = AUDIO_MIXER_LAST;
m->nid = 0;
m = &this->mixers[AZ_CLASS_RECORD];
m->devinfo.index = AZ_CLASS_RECORD;
strlcpy(m->devinfo.label.name, AudioCrecord,
sizeof(m->devinfo.label.name));
m->devinfo.type = AUDIO_MIXER_CLASS;
m->devinfo.mixer_class = AZ_CLASS_RECORD;
m->devinfo.next = AUDIO_MIXER_LAST;
m->devinfo.prev = AUDIO_MIXER_LAST;
m->nid = 0;
this->nmixers = AZ_CLASS_RECORD + 1;
#define MIXER_REG_PROLOG \
mixer_devinfo_t *d; \
err = azalia_mixer_ensure_capacity(this, this->nmixers + 1); \
if (err) \
return err; \
m = &this->mixers[this->nmixers]; \
d = &m->devinfo; \
m->nid = i
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (!w->enable)
continue;
/* selector */
if (w->nconnections > 0 && w->type != COP_AWTYPE_AUDIO_MIXER &&
!(w->nconnections == 1 &&
azalia_widget_enabled(this, w->connections[0]) &&
strcmp(w->name, this->w[w->connections[0]].name) == 0) &&
w->nid != this->mic) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_source", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else {
if (w->type == COP_AWTYPE_AUDIO_SELECTOR)
d->mixer_class = AZ_CLASS_INPUT;
else
d->mixer_class = AZ_CLASS_OUTPUT;
}
m->target = MI_TARGET_CONNLIST;
for (j = 0, k = 0; j < w->nconnections && k < 32; j++) {
if (!azalia_widget_enabled(this,
w->connections[j]))
continue;
d->un.e.member[k].ord = j;
strlcpy(d->un.e.member[k].label.name,
this->w[w->connections[j]].name,
MAX_AUDIO_DEV_LEN);
k++;
}
d->un.e.num_mem = k;
this->nmixers++;
}
/* output mute */
if (w->widgetcap & COP_AWCAP_OUTAMP &&
w->outamp_cap & COP_AMPCAP_MUTE &&
w->nid != this->mic) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_mute", w->name);
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else {
if (w->type == COP_AWTYPE_AUDIO_MIXER ||
w->type == COP_AWTYPE_AUDIO_SELECTOR ||
w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else
d->mixer_class = AZ_CLASS_INPUT;
}
m->target = MI_TARGET_OUTAMP;
azalia_devinfo_offon(d);
this->nmixers++;
}
/* output gain */
if (w->widgetcap & COP_AWCAP_OUTAMP &&
COP_AMPCAP_NUMSTEPS(w->outamp_cap) &&
w->nid != this->mic) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s", w->name);
d->type = AUDIO_MIXER_VALUE;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else {
if (w->type == COP_AWTYPE_AUDIO_MIXER ||
w->type == COP_AWTYPE_AUDIO_SELECTOR ||
w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else
d->mixer_class = AZ_CLASS_INPUT;
}
m->target = MI_TARGET_OUTAMP;
d->un.v.num_channels = WIDGET_CHANNELS(w);
d->un.v.units.name[0] = 0;
d->un.v.delta =
MIXER_DELTA(COP_AMPCAP_NUMSTEPS(w->outamp_cap));
this->nmixers++;
}
/* input mute */
if (w->widgetcap & COP_AWCAP_INAMP &&
w->inamp_cap & COP_AMPCAP_MUTE &&
w->nid != this->speaker &&
w->nid != this->speaker2) {
if (w->type != COP_AWTYPE_AUDIO_MIXER) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_mute", w->name);
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = 0;
azalia_devinfo_offon(d);
this->nmixers++;
} else {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_source", w->name);
m->target = MI_TARGET_MUTESET;
d->type = AUDIO_MIXER_SET;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else
d->mixer_class = AZ_CLASS_INPUT;
for (j = 0, k = 0;
j < w->nconnections && k < 32; j++) {
if (!azalia_widget_enabled(this,
w->connections[j]))
continue;
if (w->connections[j] == this->speaker ||
w->connections[j] == this->speaker2)
continue;
d->un.s.member[k].mask = 1 << j;
strlcpy(d->un.s.member[k].label.name,
this->w[w->connections[j]].name,
MAX_AUDIO_DEV_LEN);
k++;
}
d->un.s.num_mem = k;
if (k != 0)
this->nmixers++;
}
}
/* input gain */
if (w->widgetcap & COP_AWCAP_INAMP &&
COP_AMPCAP_NUMSTEPS(w->inamp_cap) &&
w->nid != this->speaker &&
w->nid != this->speaker2) {
if (w->type != COP_AWTYPE_AUDIO_SELECTOR &&
w->type != COP_AWTYPE_AUDIO_MIXER) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s", w->name);
d->type = AUDIO_MIXER_VALUE;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = 0;
d->un.v.num_channels = WIDGET_CHANNELS(w);
d->un.v.units.name[0] = 0;
d->un.v.delta =
MIXER_DELTA(COP_AMPCAP_NUMSTEPS(w->inamp_cap));
this->nmixers++;
} else {
for (j = 0; j < w->nconnections; j++) {
if (!azalia_widget_enabled(this,
w->connections[j]))
continue;
if (w->connections[j] == this->speaker ||
w->connections[j] == this->speaker2)
continue;
MIXER_REG_PROLOG;
snprintf(d->label.name,
sizeof(d->label.name), "%s_%s",
w->name,
this->w[w->connections[j]].name);
d->type = AUDIO_MIXER_VALUE;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = j;
d->un.v.num_channels = WIDGET_CHANNELS(w);
d->un.v.units.name[0] = 0;
d->un.v.delta =
MIXER_DELTA(COP_AMPCAP_NUMSTEPS(w->inamp_cap));
this->nmixers++;
}
}
}
/* hardcoded mixer inputs */
if (w->type == COP_AWTYPE_AUDIO_MIXER &&
!(w->widgetcap & COP_AWCAP_INAMP)) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_source", w->name);
m->target = MI_TARGET_MIXERSET;
d->type = AUDIO_MIXER_SET;
if (w->mixer_class >= 0)
d->mixer_class = w->mixer_class;
else
d->mixer_class = AZ_CLASS_INPUT;
for (j = 0, k = 0;
j < w->nconnections && k < 32; j++) {
if (!azalia_widget_enabled(this,
w->connections[j]))
continue;
if (w->connections[j] == this->speaker ||
w->connections[j] == this->speaker2)
continue;
d->un.s.member[k].mask = 1 << j;
strlcpy(d->un.s.member[k].label.name,
this->w[w->connections[j]].name,
MAX_AUDIO_DEV_LEN);
k++;
}
d->un.s.num_mem = k;
if (k != 0)
this->nmixers++;
}
/* pin direction */
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
((w->d.pin.cap & COP_PINCAP_OUTPUT &&
w->d.pin.cap & COP_PINCAP_INPUT) ||
COP_PINCAP_VREF(w->d.pin.cap) > 1)) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_dir", w->name);
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_PINDIR;
k = 0;
d->un.e.member[k].ord = 0;
strlcpy(d->un.e.member[k].label.name, "none",
MAX_AUDIO_DEV_LEN);
k++;
if (w->d.pin.cap & COP_PINCAP_OUTPUT) {
d->un.e.member[k].ord = 1;
strlcpy(d->un.e.member[k].label.name,
AudioNoutput, MAX_AUDIO_DEV_LEN);
k++;
}
if (w->d.pin.cap & COP_PINCAP_INPUT) {
d->un.e.member[k].ord = 2;
strlcpy(d->un.e.member[k].label.name,
AudioNinput, MAX_AUDIO_DEV_LEN);
k++;
for (j = 0; j < 4; j++) {
if (j == 0) {
bits = (1 << CORB_PWC_VREF_GND);
strlcpy(d->un.e.member[k].label.name,
AudioNinput "-vr0",
MAX_AUDIO_DEV_LEN);
} else if (j == 1) {
bits = (1 << CORB_PWC_VREF_50);
strlcpy(d->un.e.member[k].label.name,
AudioNinput "-vr50",
MAX_AUDIO_DEV_LEN);
} else if (j == 2) {
bits = (1 << CORB_PWC_VREF_80);
strlcpy(d->un.e.member[k].label.name,
AudioNinput "-vr80",
MAX_AUDIO_DEV_LEN);
} else if (j == 3) {
bits = (1 << CORB_PWC_VREF_100);
strlcpy(d->un.e.member[k].label.name,
AudioNinput "-vr100",
MAX_AUDIO_DEV_LEN);
}
if ((COP_PINCAP_VREF(w->d.pin.cap) &
bits) == bits) {
d->un.e.member[k].ord = j + 3;
k++;
}
}
}
d->un.e.num_mem = k;
this->nmixers++;
}
/* pin headphone-boost */
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
w->d.pin.cap & COP_PINCAP_HEADPHONE &&
w->nid != this->mic) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_boost", w->name);
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_PINBOOST;
azalia_devinfo_offon(d);
this->nmixers++;
}
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
w->d.pin.cap & COP_PINCAP_EAPD) {
MIXER_REG_PROLOG;
snprintf(d->label.name, sizeof(d->label.name),
"%s_eapd", w->name);
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_EAPD;
azalia_devinfo_offon(d);
this->nmixers++;
}
}
/* sense pins */
for (i = 0; i < this->nsense_pins; i++) {
if (!azalia_widget_enabled(this, this->sense_pins[i])) {
DPRINTF(("%s: sense pin %2.2x not found\n",
__func__, this->sense_pins[i]));
continue;
}
MIXER_REG_PROLOG;
m->nid = this->w[this->sense_pins[i]].nid;
snprintf(d->label.name, sizeof(d->label.name), "%s_sense",
this->w[this->sense_pins[i]].name);
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_PINSENSE;
d->un.e.num_mem = 2;
d->un.e.member[0].ord = 0;
strlcpy(d->un.e.member[0].label.name, "unplugged",
MAX_AUDIO_DEV_LEN);
d->un.e.member[1].ord = 1;
strlcpy(d->un.e.member[1].label.name, "plugged",
MAX_AUDIO_DEV_LEN);
this->nmixers++;
}
/* spkr mute by jack sense */
this->spkr_mute_method = AZ_SPKR_MUTE_NONE;
if (this->speaker != -1 && this->spkr_dac != -1 && this->nsense_pins > 0) {
w = &this->w[this->speaker];
if ((w->widgetcap & COP_AWCAP_OUTAMP) &&
(w->outamp_cap & COP_AMPCAP_MUTE))
this->spkr_mute_method = AZ_SPKR_MUTE_SPKR_MUTE;
else if ((w->d.pin.cap & COP_PINCAP_OUTPUT) &&
(w->d.pin.cap & COP_PINCAP_INPUT))
this->spkr_mute_method = AZ_SPKR_MUTE_SPKR_DIR;
else {
w = &this->w[this->spkr_dac];
if (w->nid != this->dacs.groups[0].conv[0] &&
(w->widgetcap & COP_AWCAP_OUTAMP) &&
(w->outamp_cap & COP_AMPCAP_MUTE))
this->spkr_mute_method = AZ_SPKR_MUTE_DAC_MUTE;
}
}
if (this->spkr_mute_method != AZ_SPKR_MUTE_NONE) {
w = &this->w[this->speaker];
MIXER_REG_PROLOG;
m->nid = w->nid;
snprintf(d->label.name, sizeof(d->label.name),
"%s_muters", w->name);
m->target = MI_TARGET_SENSESET;
d->type = AUDIO_MIXER_SET;
d->mixer_class = AZ_CLASS_OUTPUT;
this->spkr_muters = 0;
for (i = 0, j = 0; i < this->nsense_pins; i++) {
ww = &this->w[this->sense_pins[i]];
if (!(ww->d.pin.cap & COP_PINCAP_OUTPUT))
continue;
if (!(ww->widgetcap & COP_AWCAP_UNSOL))
continue;
d->un.s.member[j].mask = 1 << i;
this->spkr_muters |= (1 << i);
strlcpy(d->un.s.member[j++].label.name, ww->name,
MAX_AUDIO_DEV_LEN);
}
d->un.s.num_mem = j;
if (j != 0)
this->nmixers++;
}
/* playback volume group */
if (this->playvols.nslaves > 0) {
mixer_devinfo_t *d;
err = azalia_mixer_ensure_capacity(this,
this->nmixers + 3);
/* volume */
m = &this->mixers[this->nmixers];
m->nid = this->playvols.master;
m->target = MI_TARGET_PLAYVOL;
d = &m->devinfo;
d->mixer_class = AZ_CLASS_OUTPUT;
snprintf(d->label.name, sizeof(d->label.name),
"%s", AudioNmaster);
d->type = AUDIO_MIXER_VALUE;
d->un.v.num_channels = 2;
d->un.v.delta = 8;
this->nmixers++;
d->next = this->nmixers;
/* mute */
m = &this->mixers[this->nmixers];
m->nid = this->playvols.master;
m->target = MI_TARGET_PLAYVOL;
d = &m->devinfo;
d->prev = this->nmixers - 1;
d->mixer_class = AZ_CLASS_OUTPUT;
snprintf(d->label.name, sizeof(d->label.name),
"%s", AudioNmute);
azalia_devinfo_offon(d);
this->nmixers++;
d->next = this->nmixers;
/* slaves */
m = &this->mixers[this->nmixers];
m->nid = this->playvols.master;
m->target = MI_TARGET_PLAYVOL;
d = &m->devinfo;
d->prev = this->nmixers - 1;
d->mixer_class = AZ_CLASS_OUTPUT;
snprintf(d->label.name, sizeof(d->label.name),
"%s", "slaves");
d->type = AUDIO_MIXER_SET;
for (i = 0, j = 0; i < this->playvols.nslaves; i++) {
ww = &this->w[this->playvols.slaves[i]];
d->un.s.member[j].mask = (1 << i);
strlcpy(d->un.s.member[j++].label.name, ww->name,
MAX_AUDIO_DEV_LEN);
}
d->un.s.num_mem = j;
this->nmixers++;
}
/* recording volume group */
if (this->recvols.nslaves > 0) {
mixer_devinfo_t *d;
err = azalia_mixer_ensure_capacity(this,
this->nmixers + 3);
/* volume */
m = &this->mixers[this->nmixers];
m->nid = this->recvols.master;
m->target = MI_TARGET_RECVOL;
d = &m->devinfo;
d->mixer_class = AZ_CLASS_RECORD;
snprintf(d->label.name, sizeof(d->label.name),
"%s", AudioNvolume);
d->type = AUDIO_MIXER_VALUE;
d->un.v.num_channels = 2;
d->un.v.delta = 8;
this->nmixers++;
d->next = this->nmixers;
/* mute */
m = &this->mixers[this->nmixers];
m->nid = this->recvols.master;
m->target = MI_TARGET_RECVOL;
d = &m->devinfo;
d->prev = this->nmixers - 1;
d->mixer_class = AZ_CLASS_RECORD;
snprintf(d->label.name, sizeof(d->label.name),
"%s", AudioNmute);
azalia_devinfo_offon(d);
this->nmixers++;
d->next = this->nmixers;
/* slaves */
m = &this->mixers[this->nmixers];
m->nid = this->recvols.master;
m->target = MI_TARGET_RECVOL;
d = &m->devinfo;
d->prev = this->nmixers - 1;
d->mixer_class = AZ_CLASS_RECORD;
snprintf(d->label.name, sizeof(d->label.name),
"%s", "slaves");
d->type = AUDIO_MIXER_SET;
for (i = 0, j = 0; i < this->recvols.nslaves; i++) {
ww = &this->w[this->recvols.slaves[i]];
d->un.s.member[j].mask = (1 << i);
strlcpy(d->un.s.member[j++].label.name, ww->name,
MAX_AUDIO_DEV_LEN);
}
d->un.s.num_mem = j;
this->nmixers++;
}
/* if the codec has more than one DAC group, the first is analog
* and the second is digital.
*/
if (this->dacs.ngroups > 1) {
MIXER_REG_PROLOG;
strlcpy(d->label.name, AudioNmode, sizeof(d->label.name));
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_DAC;
m->nid = this->audiofunc;
d->un.e.member[0].ord = 0;
strlcpy(d->un.e.member[0].label.name, "analog",
MAX_AUDIO_DEV_LEN);
d->un.e.member[1].ord = 1;
strlcpy(d->un.e.member[1].label.name, "digital",
MAX_AUDIO_DEV_LEN);
d->un.e.num_mem = 2;
this->nmixers++;
}
/* if the codec has more than one ADC group, the first is analog
* and the second is digital.
*/
if (this->adcs.ngroups > 1) {
MIXER_REG_PROLOG;
strlcpy(d->label.name, AudioNmode, sizeof(d->label.name));
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_RECORD;
m->target = MI_TARGET_ADC;
m->nid = this->audiofunc;
d->un.e.member[0].ord = 0;
strlcpy(d->un.e.member[0].label.name, "analog",
MAX_AUDIO_DEV_LEN);
d->un.e.member[1].ord = 1;
strlcpy(d->un.e.member[1].label.name, "digital",
MAX_AUDIO_DEV_LEN);
d->un.e.num_mem = 2;
this->nmixers++;
}
azalia_mixer_fix_indexes(this);
azalia_mixer_default(this);
return 0;
}
void
azalia_devinfo_offon(mixer_devinfo_t *d)
{
d->type = AUDIO_MIXER_ENUM;
d->un.e.num_mem = 2;
d->un.e.member[0].ord = 0;
strlcpy(d->un.e.member[0].label.name, AudioNoff, MAX_AUDIO_DEV_LEN);
d->un.e.member[1].ord = 1;
strlcpy(d->un.e.member[1].label.name, AudioNon, MAX_AUDIO_DEV_LEN);
}
int
azalia_mixer_ensure_capacity(codec_t *this, size_t newsize)
{
size_t newmax;
void *newbuf;
if (this->maxmixers >= newsize)
return 0;
newmax = this->maxmixers + 10;
if (newmax < newsize)
newmax = newsize;
newbuf = mallocarray(newmax, sizeof(mixer_item_t), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (newbuf == NULL) {
printf("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
bcopy(this->mixers, newbuf, this->maxmixers * sizeof(mixer_item_t));
free(this->mixers, M_DEVBUF, 0);
this->mixers = newbuf;
this->maxmixers = newmax;
return 0;
}
int
azalia_mixer_fix_indexes(codec_t *this)
{
int i;
mixer_devinfo_t *d;
for (i = 0; i < this->nmixers; i++) {
d = &this->mixers[i].devinfo;
#ifdef DIAGNOSTIC
if (d->index != 0 && d->index != i)
printf("%s: index mismatch %d %d\n", __func__,
d->index, i);
#endif
d->index = i;
if (d->prev == 0)
d->prev = AUDIO_MIXER_LAST;
if (d->next == 0)
d->next = AUDIO_MIXER_LAST;
}
return 0;
}
int
azalia_mixer_default(codec_t *this)
{
widget_t *w;
mixer_item_t *m;
mixer_ctrl_t mc;
int i, j, tgt, cap, err;
/* unmute all */
for (i = 0; i < this->nmixers; i++) {
m = &this->mixers[i];
if (!IS_MI_TARGET_INAMP(m->target) &&
m->target != MI_TARGET_OUTAMP)
continue;
if (m->devinfo.type != AUDIO_MIXER_ENUM)
continue;
bzero(&mc, sizeof(mc));
mc.dev = i;
mc.type = AUDIO_MIXER_ENUM;
azalia_mixer_set(this, m->nid, m->target, &mc);
}
/* set unextreme volume */
for (i = 0; i < this->nmixers; i++) {
m = &this->mixers[i];
if (!IS_MI_TARGET_INAMP(m->target) &&
m->target != MI_TARGET_OUTAMP)
continue;
if (m->devinfo.type != AUDIO_MIXER_VALUE)
continue;
bzero(&mc, sizeof(mc));
mc.dev = i;
mc.type = AUDIO_MIXER_VALUE;
mc.un.value.num_channels = 1;
mc.un.value.level[0] = AUDIO_MAX_GAIN / 2;
if (WIDGET_CHANNELS(&this->w[m->nid]) == 2) {
mc.un.value.num_channels = 2;
mc.un.value.level[1] = mc.un.value.level[0];
}
azalia_mixer_set(this, m->nid, m->target, &mc);
}
/* unmute all */
for (i = 0; i < this->nmixers; i++) {
m = &this->mixers[i];
if (m->target != MI_TARGET_MUTESET)
continue;
if (m->devinfo.type != AUDIO_MIXER_SET)
continue;
bzero(&mc, sizeof(mc));
mc.dev = i;
mc.type = AUDIO_MIXER_SET;
if (!azalia_widget_enabled(this, m->nid)) {
DPRINTF(("%s: invalid set nid\n", __func__));
return EINVAL;
}
w = &this->w[m->nid];
for (j = 0; j < w->nconnections; j++) {
if (!azalia_widget_enabled(this, w->connections[j]))
continue;
if (w->nid == this->input_mixer &&
w->connections[j] == this->mic)
continue;
mc.un.mask |= 1 << j;
}
azalia_mixer_set(this, m->nid, m->target, &mc);
}
/* make sure default connection is valid */
for (i = 0; i < this->nmixers; i++) {
m = &this->mixers[i];
if (m->target != MI_TARGET_CONNLIST)
continue;
azalia_mixer_get(this, m->nid, m->target, &mc);
for (j = 0; j < m->devinfo.un.e.num_mem; j++) {
if (mc.un.ord == m->devinfo.un.e.member[j].ord)
break;
}
if (j >= m->devinfo.un.e.num_mem) {
bzero(&mc, sizeof(mc));
mc.dev = i;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = m->devinfo.un.e.member[0].ord;
}
azalia_mixer_set(this, m->nid, m->target, &mc);
}
/* get default value for play group master */
for (i = 0; i < this->playvols.nslaves; i++) {
if (!(this->playvols.cur & (1 << i)))
continue;
w = &this->w[this->playvols.slaves[i]];
if (!(COP_AMPCAP_NUMSTEPS(w->outamp_cap)))
continue;
mc.type = AUDIO_MIXER_VALUE;
tgt = MI_TARGET_OUTAMP;
azalia_mixer_get(this, w->nid, tgt, &mc);
this->playvols.vol_l = mc.un.value.level[0];
this->playvols.vol_r = mc.un.value.level[0];
break;
}
this->playvols.mute = 0;
/* get default value for record group master */
for (i = 0; i < this->recvols.nslaves; i++) {
if (!(this->recvols.cur & (1 << i)))
continue;
w = &this->w[this->recvols.slaves[i]];
mc.type = AUDIO_MIXER_VALUE;
tgt = MI_TARGET_OUTAMP;
cap = w->outamp_cap;
if (w->type == COP_AWTYPE_PIN_COMPLEX ||
w->type == COP_AWTYPE_AUDIO_INPUT) {
tgt = 0;
cap = w->inamp_cap;
}
if (!(COP_AMPCAP_NUMSTEPS(cap)))
continue;
azalia_mixer_get(this, w->nid, tgt, &mc);
this->recvols.vol_l = mc.un.value.level[0];
this->recvols.vol_r = mc.un.value.level[0];
break;
}
this->recvols.mute = 0;
err = azalia_codec_enable_unsol(this);
if (err)
return(err);
return 0;
}
int
azalia_codec_enable_unsol(codec_t *this)
{
widget_t *w;
uint32_t result;
int i, err;
/* jack sense */
for (i = 0; i < this->nsense_pins; i++) {
if (this->spkr_muters & (1 << i)) {
azalia_comresp(this, this->sense_pins[i],
CORB_SET_UNSOLICITED_RESPONSE,
CORB_UNSOL_ENABLE | AZ_TAG_SPKR, NULL);
}
}
if (this->spkr_muters != 0)
azalia_unsol_event(this, AZ_TAG_SPKR);
/* volume knob */
if (this->playvols.master != this->audiofunc) {
w = &this->w[this->playvols.master];
err = azalia_comresp(this, w->nid, CORB_GET_VOLUME_KNOB,
0, &result);
if (err) {
DPRINTF(("%s: get volume knob error\n", __func__));
return err;
}
/* current level */
this->playvols.hw_step = CORB_VKNOB_VOLUME(result);
this->playvols.hw_nsteps = COP_VKCAP_NUMSTEPS(w->d.volume.cap);
/* indirect mode */
result &= ~(CORB_VKNOB_DIRECT);
err = azalia_comresp(this, w->nid, CORB_SET_VOLUME_KNOB,
result, NULL);
if (err) {
DPRINTF(("%s: set volume knob error\n", __func__));
/* XXX If there was an error setting indirect
* mode, do not return an error. However, do not
* enable unsolicited responses either. Most
* likely the volume knob doesn't work right.
* Perhaps it's simply not wired/enabled.
*/
return 0;
}
/* enable unsolicited responses */
result = CORB_UNSOL_ENABLE | AZ_TAG_PLAYVOL;
err = azalia_comresp(this, w->nid,
CORB_SET_UNSOLICITED_RESPONSE, result, NULL);
if (err) {
DPRINTF(("%s: set vknob unsol resp error\n", __func__));
return err;
}
}
return 0;
}
int
azalia_mixer_delete(codec_t *this)
{
if (this->mixers != NULL) {
free(this->mixers, M_DEVBUF, 0);
this->mixers = NULL;
}
return 0;
}
/**
* @param mc mc->type must be set by the caller before the call
*/
int
azalia_mixer_get(const codec_t *this, nid_t nid, int target,
mixer_ctrl_t *mc)
{
uint32_t result, cap, value;
nid_t n;
int i, err;
if (mc->type == AUDIO_MIXER_CLASS) {
return(0);
}
/* inamp mute */
else if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_ENUM) {
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(target), &result);
if (err)
return err;
mc->un.ord = result & CORB_GAGM_MUTE ? 1 : 0;
}
/* inamp gain */
else if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_VALUE) {
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(target), &result);
if (err)
return err;
mc->un.value.level[0] = azalia_mixer_from_device_value(this,
nid, target, CORB_GAGM_GAIN(result));
if (this->w[nid].type == COP_AWTYPE_AUDIO_SELECTOR ||
this->w[nid].type == COP_AWTYPE_AUDIO_MIXER) {
n = this->w[nid].connections[MI_TARGET_INAMP(target)];
if (!azalia_widget_enabled(this, n)) {
DPRINTF(("%s: nid %2.2x invalid index %d\n",
__func__, nid, MI_TARGET_INAMP(target)));
n = nid;
}
} else
n = nid;
mc->un.value.num_channels = WIDGET_CHANNELS(&this->w[n]);
if (mc->un.value.num_channels == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_INPUT |
CORB_GAGM_RIGHT | MI_TARGET_INAMP(target),
&result);
if (err)
return err;
mc->un.value.level[1] = azalia_mixer_from_device_value
(this, nid, target, CORB_GAGM_GAIN(result));
}
}
/* outamp mute */
else if (target == MI_TARGET_OUTAMP && mc->type == AUDIO_MIXER_ENUM) {
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_LEFT | 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_GAGM_MUTE ? 1 : 0;
}
/* outamp gain */
else if (target == MI_TARGET_OUTAMP && mc->type == AUDIO_MIXER_VALUE) {
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_LEFT | 0, &result);
if (err)
return err;
mc->un.value.level[0] = azalia_mixer_from_device_value(this,
nid, target, CORB_GAGM_GAIN(result));
mc->un.value.num_channels = WIDGET_CHANNELS(&this->w[nid]);
if (mc->un.value.num_channels == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_RIGHT | 0, &result);
if (err)
return err;
mc->un.value.level[1] = azalia_mixer_from_device_value
(this, nid, target, CORB_GAGM_GAIN(result));
}
}
/* selection */
else if (target == MI_TARGET_CONNLIST) {
err = azalia_comresp(this, nid,
CORB_GET_CONNECTION_SELECT_CONTROL, 0, &result);
if (err)
return err;
result = CORB_CSC_INDEX(result);
if (!azalia_widget_enabled(this,
this->w[nid].connections[result]))
mc->un.ord = -1;
else
mc->un.ord = result;
}
/* pin I/O */
else if (target == MI_TARGET_PINDIR) {
err = azalia_comresp(this, nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
value = result;
if (!(result & (CORB_PWC_INPUT | CORB_PWC_OUTPUT)))
mc->un.ord = 0;
else if (result & CORB_PWC_OUTPUT)
mc->un.ord = 1;
else {
cap = COP_PINCAP_VREF(this->w[nid].d.pin.cap);
result &= CORB_PWC_VREF_MASK;
if (result == CORB_PWC_VREF_GND)
mc->un.ord = 3;
else if (result == CORB_PWC_VREF_50)
mc->un.ord = 4;
else if (result == CORB_PWC_VREF_80)
mc->un.ord = 5;
else if (result == CORB_PWC_VREF_100)
mc->un.ord = 6;
else
mc->un.ord = 2;
}
}
/* pin headphone-boost */
else if (target == MI_TARGET_PINBOOST) {
err = azalia_comresp(this, nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_PWC_HEADPHONE ? 1 : 0;
}
/* DAC group selection */
else if (target == MI_TARGET_DAC) {
mc->un.ord = this->dacs.cur;
}
/* ADC selection */
else if (target == MI_TARGET_ADC) {
mc->un.ord = this->adcs.cur;
}
/* S/PDIF */
else if (target == MI_TARGET_SPDIF) {
err = azalia_comresp(this, nid, CORB_GET_DIGITAL_CONTROL,
0, &result);
if (err)
return err;
mc->un.mask = result & 0xff & ~(CORB_DCC_DIGEN | CORB_DCC_NAUDIO);
} else if (target == MI_TARGET_SPDIF_CC) {
err = azalia_comresp(this, nid, CORB_GET_DIGITAL_CONTROL,
0, &result);
if (err)
return err;
mc->un.value.num_channels = 1;
mc->un.value.level[0] = CORB_DCC_CC(result);
}
/* EAPD */
else if (target == MI_TARGET_EAPD) {
err = azalia_comresp(this, nid, CORB_GET_EAPD_BTL_ENABLE,
0, &result);
if (err)
return err;
mc->un.ord = result & CORB_EAPD_EAPD ? 1 : 0;
}
/* sense pin */
else if (target == MI_TARGET_PINSENSE) {
err = azalia_comresp(this, nid, CORB_GET_PIN_SENSE,
0, &result);
if (err)
return err;
mc->un.ord = result & CORB_PS_PRESENCE ? 1 : 0;
}
/* mute set */
else if (target == MI_TARGET_MUTESET && mc->type == AUDIO_MIXER_SET) {
const widget_t *w;
if (!azalia_widget_enabled(this, nid)) {
DPRINTF(("%s: invalid muteset nid\n", XNAME(this)));
return EINVAL;
}
w = &this->w[nid];
mc->un.mask = 0;
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(i), &result);
if (err)
return err;
mc->un.mask |= (result & CORB_GAGM_MUTE) ? 0 : (1 << i);
}
}
/* mixer set - show all connections */
else if (target == MI_TARGET_MIXERSET && mc->type == AUDIO_MIXER_SET) {
const widget_t *w;
if (!azalia_widget_enabled(this, nid)) {
DPRINTF(("%s: invalid mixerset nid\n", XNAME(this)));
return EINVAL;
}
w = &this->w[nid];
mc->un.mask = 0;
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
mc->un.mask |= (1 << i);
}
}
else if (target == MI_TARGET_SENSESET && mc->type == AUDIO_MIXER_SET) {
if (nid == this->speaker) {
mc->un.mask = this->spkr_muters;
} else {
DPRINTF(("%s: invalid senseset nid\n", XNAME(this)));
return EINVAL;
}
}
else if (target == MI_TARGET_PLAYVOL) {
if (mc->type == AUDIO_MIXER_VALUE) {
mc->un.value.num_channels = 2;
mc->un.value.level[0] = this->playvols.vol_l;
mc->un.value.level[1] = this->playvols.vol_r;
} else if (mc->type == AUDIO_MIXER_ENUM) {
mc->un.ord = this->playvols.mute;
} else if (mc->type == AUDIO_MIXER_SET) {
mc->un.mask = this->playvols.cur;
} else {
DPRINTF(("%s: invalid outmaster mixer type\n",
XNAME(this)));
return EINVAL;
}
}
else if (target == MI_TARGET_RECVOL) {
if (mc->type == AUDIO_MIXER_VALUE) {
mc->un.value.num_channels = 2;
mc->un.value.level[0] = this->recvols.vol_l;
mc->un.value.level[1] = this->recvols.vol_r;
} else if (mc->type == AUDIO_MIXER_ENUM) {
mc->un.ord = this->recvols.mute;
} else if (mc->type == AUDIO_MIXER_SET) {
mc->un.mask = this->recvols.cur;
} else {
DPRINTF(("%s: invalid inmaster mixer type\n",
XNAME(this)));
return EINVAL;
}
}
else {
DPRINTF(("%s: internal error in %s: target=%x\n",
XNAME(this), __func__, target));
return -1;
}
return 0;
}
int
azalia_mixer_set(codec_t *this, nid_t nid, int target, const mixer_ctrl_t *mc)
{
uint32_t result, value;
int i, err;
if (mc->type == AUDIO_MIXER_CLASS) {
return(0);
}
/* inamp mute */
else if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_ENUM) {
/* set stereo mute separately to keep each gain value */
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(target), &result);
if (err)
return err;
value = CORB_AGM_INPUT | CORB_AGM_LEFT |
(target << CORB_AGM_INDEX_SHIFT) |
CORB_GAGM_GAIN(result);
if (mc->un.ord)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_INPUT |
CORB_GAGM_RIGHT | MI_TARGET_INAMP(target),
&result);
if (err)
return err;
value = CORB_AGM_INPUT | CORB_AGM_RIGHT |
(target << CORB_AGM_INDEX_SHIFT) |
CORB_GAGM_GAIN(result);
if (mc->un.ord)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE, value, &result);
if (err)
return err;
}
}
/* inamp gain */
else if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_VALUE) {
if (mc->un.value.num_channels < 1)
return EINVAL;
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(target), &result);
if (err)
return err;
value = azalia_mixer_to_device_value(this, nid, target,
mc->un.value.level[0]);
value = CORB_AGM_INPUT | CORB_AGM_LEFT |
(target << CORB_AGM_INDEX_SHIFT) |
(result & CORB_GAGM_MUTE ? CORB_AGM_MUTE : 0) |
(value & CORB_AGM_GAIN_MASK);
err = azalia_comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (mc->un.value.num_channels >= 2 &&
WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_INPUT |
CORB_GAGM_RIGHT | MI_TARGET_INAMP(target),
&result);
if (err)
return err;
value = azalia_mixer_to_device_value(this, nid, target,
mc->un.value.level[1]);
value = CORB_AGM_INPUT | CORB_AGM_RIGHT |
(target << CORB_AGM_INDEX_SHIFT) |
(result & CORB_GAGM_MUTE ? CORB_AGM_MUTE : 0) |
(value & CORB_AGM_GAIN_MASK);
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE, value, &result);
if (err)
return err;
}
}
/* outamp mute */
else if (target == MI_TARGET_OUTAMP && mc->type == AUDIO_MIXER_ENUM) {
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_LEFT, &result);
if (err)
return err;
value = CORB_AGM_OUTPUT | CORB_AGM_LEFT | CORB_GAGM_GAIN(result);
if (mc->un.ord)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_RIGHT, &result);
if (err)
return err;
value = CORB_AGM_OUTPUT | CORB_AGM_RIGHT |
CORB_GAGM_GAIN(result);
if (mc->un.ord)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE, value, &result);
if (err)
return err;
}
}
/* outamp gain */
else if (target == MI_TARGET_OUTAMP && mc->type == AUDIO_MIXER_VALUE) {
if (mc->un.value.num_channels < 1)
return EINVAL;
err = azalia_comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_LEFT, &result);
if (err)
return err;
value = azalia_mixer_to_device_value(this, nid, target,
mc->un.value.level[0]);
value = CORB_AGM_OUTPUT | CORB_AGM_LEFT |
(result & CORB_GAGM_MUTE ? CORB_AGM_MUTE : 0) |
(value & CORB_AGM_GAIN_MASK);
err = azalia_comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (mc->un.value.num_channels >= 2 &&
WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_OUTPUT |
CORB_GAGM_RIGHT, &result);
if (err)
return err;
value = azalia_mixer_to_device_value(this, nid, target,
mc->un.value.level[1]);
value = CORB_AGM_OUTPUT | CORB_AGM_RIGHT |
(result & CORB_GAGM_MUTE ? CORB_AGM_MUTE : 0) |
(value & CORB_AGM_GAIN_MASK);
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE, value, &result);
if (err)
return err;
}
}
/* selection */
else if (target == MI_TARGET_CONNLIST) {
if (mc->un.ord < 0 ||
mc->un.ord >= this->w[nid].nconnections ||
!azalia_widget_enabled(this,
this->w[nid].connections[mc->un.ord]))
return EINVAL;
err = azalia_comresp(this, nid,
CORB_SET_CONNECTION_SELECT_CONTROL, mc->un.ord, &result);
if (err)
return err;
}
/* pin I/O */
else if (target == MI_TARGET_PINDIR) {
err = azalia_comresp(this, nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
value = result;
value &= ~(CORB_PWC_VREF_MASK);
if (mc->un.ord == 0) {
value &= ~(CORB_PWC_OUTPUT | CORB_PWC_INPUT);
} else if (mc->un.ord == 1) {
value &= ~CORB_PWC_INPUT;
value |= CORB_PWC_OUTPUT;
if (this->qrks & AZ_QRK_WID_OVREF50)
value |= CORB_PWC_VREF_50;
} else {
value &= ~CORB_PWC_OUTPUT;
value |= CORB_PWC_INPUT;
if (mc->un.ord == 3)
value |= CORB_PWC_VREF_GND;
if (mc->un.ord == 4)
value |= CORB_PWC_VREF_50;
if (mc->un.ord == 5)
value |= CORB_PWC_VREF_80;
if (mc->un.ord == 6)
value |= CORB_PWC_VREF_100;
}
err = azalia_comresp(this, nid,
CORB_SET_PIN_WIDGET_CONTROL, value, &result);
if (err)
return err;
/* Run the unsolicited response handler for speaker mute
* since it depends on pin direction.
*/
for (i = 0; i < this->nsense_pins; i++) {
if (this->sense_pins[i] == nid)
break;
}
if (i < this->nsense_pins) {
azalia_unsol_event(this, AZ_TAG_SPKR);
}
}
/* pin headphone-boost */
else if (target == MI_TARGET_PINBOOST) {
if (mc->un.ord >= 2)
return EINVAL;
err = azalia_comresp(this, nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
if (mc->un.ord == 0) {
result &= ~CORB_PWC_HEADPHONE;
} else {
result |= CORB_PWC_HEADPHONE;
}
err = azalia_comresp(this, nid,
CORB_SET_PIN_WIDGET_CONTROL, result, &result);
if (err)
return err;
}
/* DAC group selection */
else if (target == MI_TARGET_DAC) {
if (this->running)
return EBUSY;
if (mc->un.ord >= this->dacs.ngroups)
return EINVAL;
if (mc->un.ord != this->dacs.cur)
return azalia_codec_construct_format(this,
mc->un.ord, this->adcs.cur);
else
return 0;
}
/* ADC selection */
else if (target == MI_TARGET_ADC) {
if (this->running)
return EBUSY;
if (mc->un.ord >= this->adcs.ngroups)
return EINVAL;
if (mc->un.ord != this->adcs.cur)
return azalia_codec_construct_format(this,
this->dacs.cur, mc->un.ord);
else
return 0;
}
/* S/PDIF */
else if (target == MI_TARGET_SPDIF) {
err = azalia_comresp(this, nid, CORB_GET_DIGITAL_CONTROL,
0, &result);
result &= CORB_DCC_DIGEN | CORB_DCC_NAUDIO;
result |= mc->un.mask & 0xff & ~CORB_DCC_DIGEN;
err = azalia_comresp(this, nid, CORB_SET_DIGITAL_CONTROL_L,
result, NULL);
if (err)
return err;
} else if (target == MI_TARGET_SPDIF_CC) {
if (mc->un.value.num_channels != 1)
return EINVAL;
if (mc->un.value.level[0] > 127)
return EINVAL;
err = azalia_comresp(this, nid, CORB_SET_DIGITAL_CONTROL_H,
mc->un.value.level[0], NULL);
if (err)
return err;
}
/* EAPD */
else if (target == MI_TARGET_EAPD) {
if (mc->un.ord >= 2)
return EINVAL;
err = azalia_comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
result &= 0xff;
if (mc->un.ord == 0) {
result &= ~CORB_EAPD_EAPD;
} else {
result |= CORB_EAPD_EAPD;
}
err = azalia_comresp(this, nid,
CORB_SET_EAPD_BTL_ENABLE, result, &result);
if (err)
return err;
}
else if (target == MI_TARGET_PINSENSE) {
/* do nothing, control is read only */
}
else if (target == MI_TARGET_MUTESET && mc->type == AUDIO_MIXER_SET) {
const widget_t *w;
if (!azalia_widget_enabled(this, nid)) {
DPRINTF(("%s: invalid muteset nid\n", XNAME(this)));
return EINVAL;
}
w = &this->w[nid];
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
/* We have to set stereo mute separately
* to keep each gain value.
*/
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(i), &result);
if (err)
return err;
value = CORB_AGM_INPUT | CORB_AGM_LEFT |
(i << CORB_AGM_INDEX_SHIFT) |
CORB_GAGM_GAIN(result);
if ((mc->un.mask & (1 << i)) == 0)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE, value, &result);
if (err)
return err;
if (WIDGET_CHANNELS(w) == 2) {
err = azalia_comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_RIGHT |
MI_TARGET_INAMP(i), &result);
if (err)
return err;
value = CORB_AGM_INPUT | CORB_AGM_RIGHT |
(i << CORB_AGM_INDEX_SHIFT) |
CORB_GAGM_GAIN(result);
if ((mc->un.mask & (1 << i)) == 0)
value |= CORB_AGM_MUTE;
err = azalia_comresp(this, nid,
CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
}
}
}
else if (target == MI_TARGET_MIXERSET && mc->type == AUDIO_MIXER_SET) {
/* do nothing, control is read only */
}
else if (target == MI_TARGET_SENSESET && mc->type == AUDIO_MIXER_SET) {
if (nid == this->speaker) {
this->spkr_muters = mc->un.mask;
azalia_unsol_event(this, AZ_TAG_SPKR);
} else {
DPRINTF(("%s: invalid senseset nid\n", XNAME(this)));
return EINVAL;
}
}
else if (target == MI_TARGET_PLAYVOL) {
const widget_t *w;
mixer_ctrl_t mc2;
if (mc->type == AUDIO_MIXER_VALUE) {
if (mc->un.value.num_channels != 2)
return EINVAL;
this->playvols.vol_l = mc->un.value.level[0];
this->playvols.vol_r = mc->un.value.level[1];
for (i = 0; i < this->playvols.nslaves; i++) {
if (!(this->playvols.cur & (1 << i)))
continue;
w = &this->w[this->playvols.slaves[i]];
if (!(COP_AMPCAP_NUMSTEPS(w->outamp_cap)))
continue;
/* don't change volume if muted */
if (w->outamp_cap & COP_AMPCAP_MUTE) {
mc2.type = AUDIO_MIXER_ENUM;
azalia_mixer_get(this, w->nid,
MI_TARGET_OUTAMP, &mc2);
if (mc2.un.ord)
continue;
}
mc2.type = AUDIO_MIXER_VALUE;
mc2.un.value.num_channels = WIDGET_CHANNELS(w);
mc2.un.value.level[0] = this->playvols.vol_l;
mc2.un.value.level[1] = this->playvols.vol_r;
err = azalia_mixer_set(this, w->nid,
MI_TARGET_OUTAMP, &mc2);
if (err) {
DPRINTF(("%s: out slave %2.2x vol\n",
__func__, w->nid));
return err;
}
}
} else if (mc->type == AUDIO_MIXER_ENUM) {
if (mc->un.ord != 0 && mc->un.ord != 1)
return EINVAL;
this->playvols.mute = mc->un.ord;
for (i = 0; i < this->playvols.nslaves; i++) {
if (!(this->playvols.cur & (1 << i)))
continue;
w = &this->w[this->playvols.slaves[i]];
if (!(w->outamp_cap & COP_AMPCAP_MUTE))
continue;
if (this->spkr_muted == 1 &&
((this->spkr_mute_method ==
AZ_SPKR_MUTE_SPKR_MUTE &&
(w->nid == this->speaker ||
w->nid == this->speaker2)) ||
(this->spkr_mute_method ==
AZ_SPKR_MUTE_DAC_MUTE &&
w->nid == this->spkr_dac))) {
continue;
}
mc2.type = AUDIO_MIXER_ENUM;
mc2.un.ord = this->playvols.mute;
err = azalia_mixer_set(this, w->nid,
MI_TARGET_OUTAMP, &mc2);
if (err) {
DPRINTF(("%s: out slave %2.2x mute\n",
__func__, w->nid));
return err;
}
}
} else if (mc->type == AUDIO_MIXER_SET) {
this->playvols.cur =
(mc->un.mask & this->playvols.mask);
} else {
DPRINTF(("%s: invalid output master mixer type\n",
XNAME(this)));
return EINVAL;
}
}
else if (target == MI_TARGET_RECVOL) {
const widget_t *w;
mixer_ctrl_t mc2;
uint32_t cap;
int tgt;
if (mc->type == AUDIO_MIXER_VALUE) {
if (mc->un.value.num_channels != 2)
return EINVAL;
this->recvols.vol_l = mc->un.value.level[0];
this->recvols.vol_r = mc->un.value.level[1];
for (i = 0; i < this->recvols.nslaves; i++) {
if (!(this->recvols.cur & (1 << i)))
continue;
w = &this->w[this->recvols.slaves[i]];
tgt = MI_TARGET_OUTAMP;
cap = w->outamp_cap;
if (w->type == COP_AWTYPE_AUDIO_INPUT ||
w->type == COP_AWTYPE_PIN_COMPLEX) {
tgt = 0;
cap = w->inamp_cap;
}
if (!(COP_AMPCAP_NUMSTEPS(cap)))
continue;
mc2.type = AUDIO_MIXER_VALUE;
mc2.un.value.num_channels = WIDGET_CHANNELS(w);
mc2.un.value.level[0] = this->recvols.vol_l;
mc2.un.value.level[1] = this->recvols.vol_r;
err = azalia_mixer_set(this, w->nid,
tgt, &mc2);
if (err) {
DPRINTF(("%s: in slave %2.2x vol\n",
__func__, w->nid));
return err;
}
}
} else if (mc->type == AUDIO_MIXER_ENUM) {
if (mc->un.ord != 0 && mc->un.ord != 1)
return EINVAL;
this->recvols.mute = mc->un.ord;
for (i = 0; i < this->recvols.nslaves; i++) {
if (!(this->recvols.cur & (1 << i)))
continue;
w = &this->w[this->recvols.slaves[i]];
tgt = MI_TARGET_OUTAMP;
cap = w->outamp_cap;
if (w->type == COP_AWTYPE_AUDIO_INPUT ||
w->type == COP_AWTYPE_PIN_COMPLEX) {
tgt = 0;
cap = w->inamp_cap;
}
if (!(cap & COP_AMPCAP_MUTE))
continue;
mc2.type = AUDIO_MIXER_ENUM;
mc2.un.ord = this->recvols.mute;
err = azalia_mixer_set(this, w->nid,
tgt, &mc2);
if (err) {
DPRINTF(("%s: out slave %2.2x mute\n",
__func__, w->nid));
return err;
}
}
} else if (mc->type == AUDIO_MIXER_SET) {
this->recvols.cur = (mc->un.mask & this->recvols.mask);
} else {
DPRINTF(("%s: invalid input master mixer type\n",
XNAME(this)));
return EINVAL;
}
}
else {
DPRINTF(("%s: internal error in %s: target=%x\n",
XNAME(this), __func__, target));
return -1;
}
return 0;
}
u_char
azalia_mixer_from_device_value(const codec_t *this, nid_t nid, int target,
uint32_t dv)
{
uint32_t steps;
int max_gain, ctloff;
if (IS_MI_TARGET_INAMP(target)) {
steps = COP_AMPCAP_NUMSTEPS(this->w[nid].inamp_cap);
ctloff = COP_AMPCAP_CTLOFF(this->w[nid].inamp_cap);
} else if (target == MI_TARGET_OUTAMP) {
steps = COP_AMPCAP_NUMSTEPS(this->w[nid].outamp_cap);
ctloff = COP_AMPCAP_CTLOFF(this->w[nid].outamp_cap);
} else {
DPRINTF(("%s: unknown target: %d\n", __func__, target));
steps = 255;
ctloff = 0;
}
dv -= ctloff;
if (dv <= 0 || steps == 0)
return(AUDIO_MIN_GAIN);
max_gain = AUDIO_MAX_GAIN - AUDIO_MAX_GAIN % steps;
if (dv >= steps)
return(max_gain);
return(dv * max_gain / steps);
}
uint32_t
azalia_mixer_to_device_value(const codec_t *this, nid_t nid, int target,
u_char uv)
{
uint32_t steps;
int max_gain, ctloff;
if (IS_MI_TARGET_INAMP(target)) {
steps = COP_AMPCAP_NUMSTEPS(this->w[nid].inamp_cap);
ctloff = COP_AMPCAP_CTLOFF(this->w[nid].inamp_cap);
} else if (target == MI_TARGET_OUTAMP) {
steps = COP_AMPCAP_NUMSTEPS(this->w[nid].outamp_cap);
ctloff = COP_AMPCAP_CTLOFF(this->w[nid].outamp_cap);
} else {
DPRINTF(("%s: unknown target: %d\n", __func__, target));
steps = 255;
ctloff = 0;
}
if (uv <= AUDIO_MIN_GAIN || steps == 0)
return(ctloff);
max_gain = AUDIO_MAX_GAIN - AUDIO_MAX_GAIN % steps;
if (uv >= max_gain)
return(steps + ctloff);
return(uv * steps / max_gain + ctloff);
}
int
azalia_gpio_unmute(codec_t *this, int pin)
{
uint32_t data, mask, dir;
azalia_comresp(this, this->audiofunc, CORB_GET_GPIO_DATA, 0, &data);
azalia_comresp(this, this->audiofunc, CORB_GET_GPIO_ENABLE_MASK, 0, &mask);
azalia_comresp(this, this->audiofunc, CORB_GET_GPIO_DIRECTION, 0, &dir);
data |= 1 << pin;
mask |= 1 << pin;
dir |= 1 << pin;
azalia_comresp(this, this->audiofunc, CORB_SET_GPIO_ENABLE_MASK, mask, NULL);
azalia_comresp(this, this->audiofunc, CORB_SET_GPIO_DIRECTION, dir, NULL);
DELAY(1000);
azalia_comresp(this, this->audiofunc, CORB_SET_GPIO_DATA, data, NULL);
return 0;
}
void
azalia_ampcap_ov(widget_t *w, int type, int offset, int steps, int size,
int ctloff, int mute)
{
uint32_t cap;
cap = (offset & 0x7f) | ((steps & 0x7f) << 8) |
((size & 0x7f) << 16) | ((ctloff & 0x7f) << 24) |
(mute ? COP_AMPCAP_MUTE : 0);
if (type == COP_OUTPUT_AMPCAP) {
w->outamp_cap = cap;
} else if (type == COP_INPUT_AMPCAP) {
w->inamp_cap = cap;
}
}
void
azalia_pin_config_ov(widget_t *w, int mask, int val)
{
int bits, offset;
switch (mask) {
case CORB_CD_DEVICE_MASK:
bits = CORB_CD_DEVICE_BITS;
offset = CORB_CD_DEVICE_OFFSET;
break;
case CORB_CD_PORT_MASK:
bits = CORB_CD_PORT_BITS;
offset = CORB_CD_PORT_OFFSET;
break;
default:
return;
}
val &= bits;
w->d.pin.config &= ~(mask);
w->d.pin.config |= val << offset;
if (mask == CORB_CD_DEVICE_MASK)
w->d.pin.device = val;
}
int
azalia_codec_gpio_quirks(codec_t *this)
{
if (this->qrks & AZ_QRK_GPIO_POL_0) {
azalia_comresp(this, this->audiofunc,
CORB_SET_GPIO_POLARITY, 0, NULL);
}
if (this->qrks & AZ_QRK_GPIO_UNMUTE_0) {
azalia_gpio_unmute(this, 0);
}
if (this->qrks & AZ_QRK_GPIO_UNMUTE_1) {
azalia_gpio_unmute(this, 1);
}
if (this->qrks & AZ_QRK_GPIO_UNMUTE_2) {
azalia_gpio_unmute(this, 2);
}
if (this->qrks & AZ_QRK_GPIO_UNMUTE_3) {
azalia_gpio_unmute(this, 3);
}
return(0);
}
int
azalia_codec_widget_quirks(codec_t *this, nid_t nid)
{
widget_t *w;
w = &this->w[nid];
if (this->qrks & AZ_QRK_WID_BEEP_1D &&
nid == 0x1d && w->enable == 0) {
azalia_pin_config_ov(w, CORB_CD_DEVICE_MASK, CORB_CD_BEEP);
azalia_pin_config_ov(w, CORB_CD_PORT_MASK, CORB_CD_FIXED);
w->widgetcap |= COP_AWCAP_STEREO;
w->enable = 1;
}
if (this->qrks & AZ_QRK_WID_CDIN_1C &&
nid == 0x1c && w->enable == 0 && w->d.pin.device == CORB_CD_CD) {
azalia_pin_config_ov(w, CORB_CD_PORT_MASK, CORB_CD_FIXED);
w->widgetcap |= COP_AWCAP_STEREO;
w->enable = 1;
}
if ((this->qrks & AZ_QRK_WID_AD1981_OAMP) &&
((nid == 0x05) || (nid == 0x06) || (nid == 0x07) ||
(nid == 0x09) || (nid == 0x18))) {
azalia_ampcap_ov(w, COP_OUTPUT_AMPCAP, 31, 33, 6, 30, 1);
}
return(0);
}
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