NetBSD/sys/dev/pci/azalia_codec.c
2007-11-07 00:47:18 +00:00

3413 lines
116 KiB
C

/* $NetBSD: azalia_codec.c,v 1.48 2007/11/07 00:47:18 joerg 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the NetBSD
* Foundation, Inc. and its contributors.
* 4. Neither the name of The NetBSD Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* 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/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: azalia_codec.c,v 1.48 2007/11/07 00:47:18 joerg Exp $");
#include <sys/param.h>
#include <sys/device.h>
#include <sys/malloc.h>
#include <sys/null.h>
#include <sys/systm.h>
#include <dev/pci/azalia.h>
#define XNAME(co) (((device_t)co->az)->dv_xname)
#ifdef MAX_VOLUME_255
# define MIXER_DELTA(n) (AUDIO_MAX_GAIN / (n))
#else
# define MIXER_DELTA(n) (1)
#endif
#define AZ_CLASS_INPUT 0
#define AZ_CLASS_OUTPUT 1
#define AZ_CLASS_RECORD 2
#define AZ_CLASS_PLAYBACK 3
#define AzaliaCplayback "playback"
#define AzaliaNfront "front"
#define AzaliaNclfe "clfe"
#define AzaliaNside "side"
#define AzaliaNdigital "spdif"
#define ENUM_OFFON .un.e={2, {{{AudioNoff, 0}, 0}, {{AudioNon, 0}, 1}}}
#define ENUM_IO .un.e={2, {{{AudioNinput, 0}, 0}, {{AudioNoutput, 0}, 1}}}
#define ENUM_V .un.v={{ "", 0 }, 0, 0 }
#define AZ_MIXER_CLASSES \
{{AZ_CLASS_INPUT, {AudioCinputs, 0}, AUDIO_MIXER_CLASS, \
AZ_CLASS_INPUT, 0, 0, ENUM_V }, 0, 0, }, \
{{AZ_CLASS_OUTPUT, {AudioCoutputs, 0}, AUDIO_MIXER_CLASS, \
AZ_CLASS_OUTPUT, 0, 0, ENUM_V }, 0, 0, }, \
{{AZ_CLASS_RECORD, {AudioCrecord, 0}, AUDIO_MIXER_CLASS, \
AZ_CLASS_RECORD, 0, 0, ENUM_V }, 0, 0, }, \
{{AZ_CLASS_PLAYBACK, {AzaliaCplayback, 0}, AUDIO_MIXER_CLASS, \
AZ_CLASS_PLAYBACK, 0, 0, ENUM_V }, 0, 0, }
#define AZ_MIXER_SPDIF(cl, nid) \
{{0, {AzaliaNdigital, 0}, AUDIO_MIXER_SET, cl, 0, 0, \
.un.s={6, {{{"v", 0}, CORB_DCC_V}, {{"vcfg", 0}, CORB_DCC_VCFG}, \
{{"pre", 0}, CORB_DCC_PRE}, {{"copy", 0}, CORB_DCC_COPY}, \
{{"pro", 0}, CORB_DCC_PRO}, {{"l", 0}, CORB_DCC_L}}}}, \
nid, MI_TARGET_SPDIF}, \
{{0, {AzaliaNdigital".cc", 0}, AUDIO_MIXER_VALUE, cl, 0, 0, \
.un.v={{"", 0}, 1, 1}}, nid, MI_TARGET_SPDIF_CC}
static int generic_codec_init_dacgroup(codec_t *);
static int generic_codec_add_dacgroup(codec_t *, int, uint32_t);
static int generic_codec_find_pin(const codec_t *, int, int, uint32_t);
static int generic_codec_find_dac(const codec_t *, int, int);
static int generic_mixer_init(codec_t *);
static int generic_mixer_fix_indexes(codec_t *);
static int generic_mixer_default(codec_t *);
static int generic_mixer_delete(codec_t *);
static int generic_mixer_ensure_capacity(codec_t *, size_t);
static int generic_mixer_get(const codec_t *, nid_t, int, mixer_ctrl_t *);
static int generic_mixer_set(codec_t *, nid_t, int, const mixer_ctrl_t *);
static int generic_mixer_pinctrl(codec_t *, nid_t, uint32_t);
static u_char generic_mixer_from_device_value
(const codec_t *, nid_t, int, uint32_t );
static uint32_t generic_mixer_to_device_value
(const codec_t *, nid_t, int, u_char);
static uint32_t generic_mixer_max(const codec_t *, nid_t, int);
static bool generic_mixer_validate_value
(const codec_t *, nid_t, int, u_char);
static int generic_set_port(codec_t *, mixer_ctrl_t *);
static int generic_get_port(codec_t *, mixer_ctrl_t *);
static int alc260_init_dacgroup(codec_t *);
static int alc260_mixer_init(codec_t *);
static int alc260_set_port(codec_t *, mixer_ctrl_t *);
static int alc260_get_port(codec_t *, mixer_ctrl_t *);
static int alc260_unsol_event(codec_t *, int);
static int alc861_init_dacgroup(codec_t *);
static int alc861vdgr_init_dacgroup(codec_t *);
static int alc880_init_dacgroup(codec_t *);
static int alc880_mixer_init(codec_t *);
static int alc882_init_dacgroup(codec_t *);
static int alc882_mixer_init(codec_t *);
static int alc882_set_port(codec_t *, mixer_ctrl_t *);
static int alc882_get_port(codec_t *, mixer_ctrl_t *);
static int alc883_init_dacgroup(codec_t *);
static int alc883_mixer_init(codec_t *);
static int alc885_init_dacgroup(codec_t *);
static int alc888_init_dacgroup(codec_t *);
static int ad1981hd_init_widget(const codec_t *, widget_t *, nid_t);
static int ad1981hd_mixer_init(codec_t *);
static int ad1983_mixer_init(codec_t *);
static int ad1983_unsol_event(codec_t *, int);
static int ad1984_init_widget(const codec_t *, widget_t *, nid_t);
static int ad1984_mixer_init(codec_t *);
static int ad1988_init_dacgroup(codec_t *);
static int cmi9880_init_dacgroup(codec_t *);
static int cmi9880_mixer_init(codec_t *);
static int stac9221_init_dacgroup(codec_t *);
static int stac9221_mixer_init(codec_t *);
static int stac9221_gpio_unmute(codec_t *, int);
static int stac9200_mixer_init(codec_t *);
static int stac9200_unsol_event(codec_t *, int);
int
azalia_codec_init_vtbl(codec_t *this)
{
size_t extra_size;
/**
* We can refer this->vid and this->subid.
*/
DPRINTF(("%s: vid=%08x subid=%08x\n", __func__, this->vid, this->subid));
extra_size = 0;
this->name = NULL;
this->init_dacgroup = generic_codec_init_dacgroup;
this->mixer_init = generic_mixer_init;
this->mixer_delete = generic_mixer_delete;
this->set_port = generic_set_port;
this->get_port = generic_get_port;
this->unsol_event = NULL;
switch (this->vid) {
case 0x10ec0260:
this->name = "Realtek ALC260";
this->mixer_init = alc260_mixer_init;
this->init_dacgroup = alc260_init_dacgroup;
this->set_port = alc260_set_port;
this->unsol_event = alc260_unsol_event;
extra_size = 1;
break;
case 0x10ec0262:
this->name = "Realtek ALC262";
break;
case 0x10ec0268:
this->name = "Realtek ALC268";
break;
case 0x10ec0861:
this->name = "Realtek ALC861";
this->init_dacgroup = alc861_init_dacgroup;
break;
case 0x10ec0862:
this->name = "Realtek ALC861-VD-GR";
this->init_dacgroup = alc861vdgr_init_dacgroup;
break;
case 0x10ec0880:
this->name = "Realtek ALC880";
this->init_dacgroup = alc880_init_dacgroup;
this->mixer_init = alc880_mixer_init;
break;
case 0x10ec0882:
this->name = "Realtek ALC882";
this->init_dacgroup = alc882_init_dacgroup;
this->mixer_init = alc882_mixer_init;
this->get_port = alc882_get_port;
this->set_port = alc882_set_port;
break;
case 0x10ec0883:
/* ftp://209.216.61.149/pc/audio/ALC883_DataSheet_1.3.pdf */
this->name = "Realtek ALC883";
this->init_dacgroup = alc883_init_dacgroup;
this->mixer_init = alc883_mixer_init;
this->get_port = alc882_get_port;
this->set_port = alc882_set_port;
break;
case 0x10ec0885:
this->name = "Realtek ALC885";
this->init_dacgroup = alc885_init_dacgroup;
break;
case 0x10ec0888:
this->name = "Realtek ALC888";
this->init_dacgroup = alc888_init_dacgroup;
break;
case 0x11d41981:
/* http://www.analog.com/en/prod/0,2877,AD1981HD,00.html */
this->name = "Analog Devices AD1981HD";
this->init_widget = ad1981hd_init_widget;
this->mixer_init = ad1981hd_mixer_init;
break;
case 0x11d41983:
/* http://www.analog.com/en/prod/0,2877,AD1983,00.html */
this->name = "Analog Devices AD1983";
this->mixer_init = ad1983_mixer_init;
this->unsol_event = ad1983_unsol_event;
break;
case 0x11d41984:
/* http://www.analog.com/en/prod/0,2877,AD1984,00.html */
this->name = "Analog Devices AD1984";
this->init_widget = ad1984_init_widget;
this->mixer_init = ad1984_mixer_init;
break;
case 0x11d41988:
/* http://www.analog.com/en/prod/0,2877,AD1988A,00.html */
this->name = "Analog Devices AD1988A";
this->init_dacgroup = ad1988_init_dacgroup;
break;
case 0x11d4198b:
/* http://www.analog.com/en/prod/0,2877,AD1988B,00.html */
this->name = "Analog Devices AD1988B";
this->init_dacgroup = ad1988_init_dacgroup;
break;
case 0x434d4980:
this->name = "CMedia CMI9880";
this->init_dacgroup = cmi9880_init_dacgroup;
this->mixer_init = cmi9880_mixer_init;
break;
case 0x83847680:
this->name = "Sigmatel STAC9221";
this->init_dacgroup = stac9221_init_dacgroup;
this->mixer_init = stac9221_mixer_init;
break;
case 0x83847683:
this->name = "Sigmatel STAC9221D";
this->init_dacgroup = stac9221_init_dacgroup;
break;
case 0x83847690:
/* http://www.idt.com/products/getDoc.cfm?docID=17812077 */
this->name = "Sigmatel STAC9200";
this->mixer_init = stac9200_mixer_init;
this->unsol_event = stac9200_unsol_event;
break;
case 0x83847691:
/* http://www.idt.com/products/getDoc.cfm?docID=17812077 */
this->name = "Sigmatel STAC9200D";
this->mixer_init = stac9200_mixer_init;
this->unsol_event = stac9200_unsol_event;
break;
}
if (extra_size > 0) {
this->extra = malloc(sizeof(uint32_t) * extra_size,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->extra == NULL) {
aprint_error("%s: Not enough memory\n", XNAME(this));
return ENOMEM;
}
}
return 0;
}
/* ----------------------------------------------------------------
* functions for generic codecs
* ---------------------------------------------------------------- */
static int
generic_codec_init_dacgroup(codec_t *this)
{
int i, j, assoc, group;
/*
* grouping DACs
* [0] the lowest assoc DACs
* [1] the lowest assoc digital outputs
* [2] the 2nd assoc DACs
* :
*/
this->dacs.ngroups = 0;
for (assoc = 0; assoc < CORB_CD_ASSOCIATION_MAX; assoc++) {
generic_codec_add_dacgroup(this, assoc, 0);
generic_codec_add_dacgroup(this, assoc, COP_AWCAP_DIGITAL);
}
/* find DACs which do not connect with any pins by default */
DPRINTF(("%s: find non-connected DACs\n", __func__));
FOR_EACH_WIDGET(this, i) {
bool found;
if (this->w[i].type != COP_AWTYPE_AUDIO_OUTPUT)
continue;
found = FALSE;
for (group = 0; group < this->dacs.ngroups; group++) {
for (j = 0; j < this->dacs.groups[group].nconv; j++) {
if (i == this->dacs.groups[group].conv[j]) {
found = TRUE;
group = this->dacs.ngroups;
break;
}
}
}
if (found)
continue;
if (this->dacs.ngroups >= 32)
break;
this->dacs.groups[this->dacs.ngroups].nconv = 1;
this->dacs.groups[this->dacs.ngroups].conv[0] = i;
this->dacs.ngroups++;
}
this->dacs.cur = 0;
/* enumerate ADCs */
this->adcs.ngroups = 0;
FOR_EACH_WIDGET(this, i) {
if (this->w[i].type != COP_AWTYPE_AUDIO_INPUT)
continue;
this->adcs.groups[this->adcs.ngroups].nconv = 1;
this->adcs.groups[this->adcs.ngroups].conv[0] = i;
this->adcs.ngroups++;
if (this->adcs.ngroups >= 32)
break;
}
this->adcs.cur = 0;
return 0;
}
static int
generic_codec_add_dacgroup(codec_t *this, int assoc, uint32_t digital)
{
int i, j, n, dac, seq;
n = 0;
for (seq = 0 ; seq < CORB_CD_SEQUENCE_MAX; seq++) {
i = generic_codec_find_pin(this, assoc, seq, digital);
if (i < 0)
continue;
dac = generic_codec_find_dac(this, i, 0);
if (dac < 0)
continue;
/* duplication check */
for (j = 0; j < n; j++) {
if (this->dacs.groups[this->dacs.ngroups].conv[j] == dac)
break;
}
if (j < n) /* this group already has <dac> */
continue;
this->dacs.groups[this->dacs.ngroups].conv[n++] = dac;
DPRINTF(("%s: assoc=%d seq=%d ==> g=%d n=%d\n",
__func__, assoc, seq, this->dacs.ngroups, n-1));
}
if (n <= 0) /* no such DACs */
return 0;
this->dacs.groups[this->dacs.ngroups].nconv = n;
/* check if the same combination is already registered */
for (i = 0; i < this->dacs.ngroups; i++) {
if (n != this->dacs.groups[i].nconv)
continue;
for (j = 0; j < n; j++) {
if (this->dacs.groups[this->dacs.ngroups].conv[j] !=
this->dacs.groups[i].conv[j])
break;
}
if (j >= n) /* matched */
return 0;
}
/* found no equivalent group */
this->dacs.ngroups++;
return 0;
}
static int
generic_codec_find_pin(const codec_t *this, int assoc, int seq, uint32_t digital)
{
int i;
FOR_EACH_WIDGET(this, i) {
if (this->w[i].type != COP_AWTYPE_PIN_COMPLEX)
continue;
if ((this->w[i].d.pin.cap & COP_PINCAP_OUTPUT) == 0)
continue;
if ((this->w[i].widgetcap & COP_AWCAP_DIGITAL) != digital)
continue;
if (this->w[i].d.pin.association != assoc)
continue;
if (this->w[i].d.pin.sequence == seq) {
return i;
}
}
return -1;
}
static int
generic_codec_find_dac(const codec_t *this, int index, int depth)
{
const widget_t *w;
int i, j, ret;
w = &this->w[index];
if (w->type == COP_AWTYPE_AUDIO_OUTPUT) {
DPRINTF(("%s: DAC: nid=0x%x index=%d\n",
__func__, w->nid, index));
return index;
}
if (++depth > 50) {
return -1;
}
if (w->selected >= 0) {
j = w->connections[w->selected];
if (VALID_WIDGET_NID(j, this)) {
ret = generic_codec_find_dac(this, j, depth);
if (ret >= 0) {
DPRINTF(("%s: DAC path: nid=0x%x index=%d\n",
__func__, w->nid, index));
return ret;
}
}
}
for (i = 0; i < w->nconnections; i++) {
j = w->connections[i];
if (!VALID_WIDGET_NID(j, this))
continue;
ret = generic_codec_find_dac(this, j, depth);
if (ret >= 0) {
DPRINTF(("%s: DAC path: nid=0x%x index=%d\n",
__func__, w->nid, index));
return ret;
}
}
return -1;
}
/* ----------------------------------------------------------------
* Generic mixer functions
* ---------------------------------------------------------------- */
#define GMIDPRINTF(x) do {} while (0/*CONSTCOND*/)
static int
generic_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"
*/
mixer_item_t *m;
int err, i, j, k;
this->maxmixers = 10;
this->nmixers = 0;
this->mixers = malloc(sizeof(mixer_item_t) * this->maxmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
/* register classes */
DPRINTF(("%s: register classes\n", __func__));
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;
m = &this->mixers[AZ_CLASS_PLAYBACK];
m->devinfo.index = AZ_CLASS_PLAYBACK;
strlcpy(m->devinfo.label.name, AzaliaCplayback,
sizeof(m->devinfo.label.name));
m->devinfo.type = AUDIO_MIXER_CLASS;
m->devinfo.mixer_class = AZ_CLASS_PLAYBACK;
m->devinfo.next = AUDIO_MIXER_LAST;
m->devinfo.prev = AUDIO_MIXER_LAST;
m->nid = 0;
this->nmixers = AZ_CLASS_PLAYBACK + 1;
#define MIXER_REG_PROLOG \
mixer_devinfo_t *d; \
err = generic_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) {
const widget_t *w;
w = &this->w[i];
/* selector */
if (w->type != COP_AWTYPE_AUDIO_MIXER &&
w->type != COP_AWTYPE_POWER && w->nconnections >= 2) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: selector %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.source", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_AUDIO_MIXER)
d->mixer_class = AZ_CLASS_RECORD;
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 (!VALID_WIDGET_NID(w->connections[j], this))
continue;
GMIDPRINTF(("%s: selector %d=%s\n", __func__, j,
this->w[w->connections[j]].name));
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) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: output mute %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.mute", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_AUDIO_MIXER)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_SELECTOR)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (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.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);
this->nmixers++;
}
/* output gain */
if (w->widgetcap & COP_AWCAP_OUTAMP
&& COP_AMPCAP_NUMSTEPS(w->outamp_cap)) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: output gain %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s", w->name);
d->type = AUDIO_MIXER_VALUE;
if (w->type == COP_AWTYPE_AUDIO_MIXER)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_SELECTOR)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (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);
#ifdef MAX_VOLUME_255
d->un.v.units.name[0] = 0;
#else
snprintf(d->un.v.units.name, sizeof(d->un.v.units.name),
"0.25x%ddB", COP_AMPCAP_STEPSIZE(w->outamp_cap)+1);
#endif
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) {
GMIDPRINTF(("%s: input mute %s\n", __func__, w->name));
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.mute", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = 0;
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);
this->nmixers++;
} else {
for (j = 0; j < w->nconnections; j++) {
MIXER_REG_PROLOG;
if (!VALID_WIDGET_NID(w->connections[j], this))
continue;
GMIDPRINTF(("%s: input mute %s.%s\n", __func__,
w->name, this->w[w->connections[j]].name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.%s.mute", w->name,
this->w[w->connections[j]].name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = j;
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);
this->nmixers++;
}
}
}
/* input gain */
if (w->widgetcap & COP_AWCAP_INAMP
&& COP_AMPCAP_NUMSTEPS(w->inamp_cap)) {
GMIDPRINTF(("%s: input gain %s\n", __func__, w->name));
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->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = 0;
d->un.v.num_channels = WIDGET_CHANNELS(w);
#ifdef MAX_VOLUME_255
d->un.v.units.name[0] = 0;
#else
snprintf(d->un.v.units.name,
sizeof(d->un.v.units.name), "0.25x%ddB",
COP_AMPCAP_STEPSIZE(w->inamp_cap)+1);
#endif
d->un.v.delta =
MIXER_DELTA(COP_AMPCAP_NUMSTEPS(w->inamp_cap));
this->nmixers++;
} else {
for (j = 0; j < w->nconnections; j++) {
MIXER_REG_PROLOG;
if (!VALID_WIDGET_NID(w->connections[j], this))
continue;
GMIDPRINTF(("%s: input gain %s.%s\n", __func__,
w->name, this->w[w->connections[j]].name));
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->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = j;
d->un.v.num_channels = WIDGET_CHANNELS(w);
#ifdef MAX_VOLUME_255
d->un.v.units.name[0] = 0;
#else
snprintf(d->un.v.units.name,
sizeof(d->un.v.units.name), "0.25x%ddB",
COP_AMPCAP_STEPSIZE(w->inamp_cap)+1);
#endif
d->un.v.delta =
MIXER_DELTA(COP_AMPCAP_NUMSTEPS(w->inamp_cap));
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) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: pin dir %s\n", __func__, w->name));
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;
d->un.e.num_mem = 2;
d->un.e.member[0].ord = 0;
strlcpy(d->un.e.member[0].label.name, AudioNinput,
MAX_AUDIO_DEV_LEN);
d->un.e.member[1].ord = 1;
strlcpy(d->un.e.member[1].label.name, AudioNoutput,
MAX_AUDIO_DEV_LEN);
this->nmixers++;
}
/* pin headphone-boost */
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
w->d.pin.cap & COP_PINCAP_HEADPHONE) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: hpboost %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.boost", w->name);
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_PINBOOST;
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);
this->nmixers++;
}
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
w->d.pin.cap & COP_PINCAP_EAPD) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: eapd %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.eapd", w->name);
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_EAPD;
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);
this->nmixers++;
}
if (w->type == COP_AWTYPE_PIN_COMPLEX &&
w->d.pin.cap & COP_PINCAP_BALANCE) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: balance %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.balance", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = MI_TARGET_BALANCE;
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);
this->nmixers++;
}
if (w->widgetcap & COP_AWCAP_LRSWAP) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: lrswap %s\n", __func__, w->name));
snprintf(d->label.name, sizeof(d->label.name),
"%s.lrswap", w->name);
d->type = AUDIO_MIXER_ENUM;
if (w->type == COP_AWTYPE_PIN_COMPLEX)
d->mixer_class = AZ_CLASS_OUTPUT;
else if (w->type == COP_AWTYPE_AUDIO_INPUT)
d->mixer_class = AZ_CLASS_RECORD;
else
d->mixer_class = AZ_CLASS_INPUT;
m->target = MI_TARGET_LRSWAP;
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);
this->nmixers++;
}
/* volume knob */
if (w->type == COP_AWTYPE_VOLUME_KNOB &&
w->d.volume.cap & COP_VKCAP_DELTA) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: volume knob %s\n", __func__, w->name));
strlcpy(d->label.name, w->name, sizeof(d->label.name));
d->type = AUDIO_MIXER_VALUE;
d->mixer_class = AZ_CLASS_OUTPUT;
m->target = MI_TARGET_VOLUME;
d->un.v.num_channels = 1;
d->un.v.units.name[0] = 0;
d->un.v.delta =
MIXER_DELTA(COP_VKCAP_NUMSTEPS(w->d.volume.cap));
this->nmixers++;
}
}
/* if the codec has multiple DAC groups, create "playback.mode" */
if (this->dacs.ngroups > 1) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: create playback.mode\n", __func__));
strlcpy(d->label.name, AudioNmode, sizeof(d->label.name));
d->type = AUDIO_MIXER_ENUM;
d->mixer_class = AZ_CLASS_PLAYBACK;
m->target = MI_TARGET_DAC;
for (i = 0; i < this->dacs.ngroups && i < 32; i++) {
d->un.e.member[i].ord = i;
for (j = 0; j < this->dacs.groups[i].nconv; j++) {
if (j * 2 >= MAX_AUDIO_DEV_LEN)
break;
snprintf(d->un.e.member[i].label.name + j*2,
MAX_AUDIO_DEV_LEN - j*2, "%2.2x",
this->dacs.groups[i].conv[j]);
}
}
d->un.e.num_mem = i;
this->nmixers++;
}
/* if the codec has multiple ADC groups, create "record.mode" */
if (this->adcs.ngroups > 1) {
MIXER_REG_PROLOG;
GMIDPRINTF(("%s: create record.mode\n", __func__));
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;
for (i = 0; i < this->adcs.ngroups && i < 32; i++) {
d->un.e.member[i].ord = i;
for (j = 0; j < this->adcs.groups[i].nconv; j++) {
if (j * 2 >= MAX_AUDIO_DEV_LEN)
break;
snprintf(d->un.e.member[i].label.name + j*2,
MAX_AUDIO_DEV_LEN - j*2, "%2.2x",
this->adcs.groups[i].conv[j]);
}
}
d->un.e.num_mem = i;
this->nmixers++;
}
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
return 0;
}
static int
generic_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 = realloc(this->mixers, sizeof(mixer_item_t) * newmax, M_DEVBUF,
M_ZERO | M_NOWAIT);
if (newbuf == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
this->mixers = newbuf;
/* realloc(9) doesn't clear expanded area even if M_ZERO. */
memset(&this->mixers[this->maxmixers], 0,
sizeof(mixer_item_t) * (newmax - this->maxmixers));
this->maxmixers = newmax;
return 0;
}
static int
generic_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)
aprint_error("%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;
}
static int
generic_mixer_default(codec_t *this)
{
int i;
mixer_item_t *m;
/* unmute all */
DPRINTF(("%s: unmute\n", __func__));
for (i = 0; i < this->nmixers; i++) {
mixer_ctrl_t mc;
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;
mc.dev = i;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 0;
generic_mixer_set(this, m->nid, m->target, &mc);
}
/*
* For bidirectional pins, make the default `output'
*/
DPRINTF(("%s: process bidirectional pins\n", __func__));
for (i = 0; i < this->nmixers; i++) {
mixer_ctrl_t mc;
m = &this->mixers[i];
if (m->target != MI_TARGET_PINDIR)
continue;
mc.dev = i;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* output */
generic_mixer_set(this, m->nid, m->target, &mc);
}
/* set unextreme volume */
DPRINTF(("%s: set volume\n", __func__));
for (i = 0; i < this->nmixers; i++) {
mixer_ctrl_t mc;
m = &this->mixers[i];
if (!IS_MI_TARGET_INAMP(m->target) &&
m->target != MI_TARGET_OUTAMP &&
m->target != MI_TARGET_VOLUME)
continue;
if (m->devinfo.type != AUDIO_MIXER_VALUE)
continue;
mc.dev = i;
mc.type = AUDIO_MIXER_VALUE;
mc.un.value.num_channels = 1;
mc.un.value.level[0] = AUDIO_MAX_GAIN / 2;
if (m->target != MI_TARGET_VOLUME &&
WIDGET_CHANNELS(&this->w[m->nid]) == 2) {
mc.un.value.num_channels = 2;
mc.un.value.level[1] = AUDIO_MAX_GAIN / 2;
}
generic_mixer_set(this, m->nid, m->target, &mc);
}
return 0;
}
static int
generic_mixer_delete(codec_t *this)
{
if (this->mixers == NULL)
return 0;
free(this->mixers, M_DEVBUF);
this->mixers = NULL;
return 0;
}
/**
* @param mc mc->type must be set by the caller before the call
*/
static int
generic_mixer_get(const codec_t *this, nid_t nid, int target, mixer_ctrl_t *mc)
{
uint32_t result;
nid_t n;
int err;
/* inamp mute */
if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_ENUM) {
err = this->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 = this->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] = generic_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)];
#ifdef AZALIA_DEBUG
if (!VALID_WIDGET_NID(n, this)) {
DPRINTF(("%s: invalid target: nid=%d nconn=%d index=%d\n",
__func__, nid, this->w[nid].nconnections,
MI_TARGET_INAMP(target)));
return EINVAL;
}
#endif
} else {
n = nid;
}
mc->un.value.num_channels = WIDGET_CHANNELS(&this->w[n]);
if (mc->un.value.num_channels == 2) {
err = this->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] = generic_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 = this->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 = this->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] = generic_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 = this->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] = generic_mixer_from_device_value
(this, nid, target, CORB_GAGM_GAIN(result));
}
}
/* selection */
else if (target == MI_TARGET_CONNLIST) {
err = this->comresp(this, nid,
CORB_GET_CONNECTION_SELECT_CONTROL, 0, &result);
if (err)
return err;
result = CORB_CSC_INDEX(result);
if (!VALID_WIDGET_NID(this->w[nid].connections[result], this))
mc->un.ord = -1;
else
mc->un.ord = result;
}
/* pin I/O */
else if (target == MI_TARGET_PINDIR) {
err = this->comresp(this, nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_PWC_OUTPUT ? 1 : 0;
}
/* pin headphone-boost */
else if (target == MI_TARGET_PINBOOST) {
err = this->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;
}
/* Volume knob */
else if (target == MI_TARGET_VOLUME) {
err = this->comresp(this, nid, CORB_GET_VOLUME_KNOB,
0, &result);
if (err)
return err;
mc->un.value.level[0] = generic_mixer_from_device_value(this,
nid, target, CORB_VKNOB_VOLUME(result));
mc->un.value.num_channels = 1;
}
/* S/PDIF */
else if (target == MI_TARGET_SPDIF) {
err = this->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 = this->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 = this->comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_EAPD_EAPD ? 1 : 0;
}
/* Balanced I/O */
else if (target == MI_TARGET_BALANCE) {
err = this->comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_EAPD_BTL ? 1 : 0;
}
/* LR-Swap */
else if (target == MI_TARGET_LRSWAP) {
err = this->comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
mc->un.ord = result & CORB_EAPD_LRSWAP ? 1 : 0;
}
else {
aprint_error("%s: internal error in %s: target=%x\n",
XNAME(this), __func__, target);
return -1;
}
return 0;
}
static int
generic_mixer_set(codec_t *this, nid_t nid, int target, const mixer_ctrl_t *mc)
{
uint32_t result, value;
int err;
/* inamp mute */
if (IS_MI_TARGET_INAMP(target) && mc->type == AUDIO_MIXER_ENUM) {
/* We have to set stereo mute separately to keep each gain value. */
err = this->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 = this->comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = this->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 = this->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;
if (!generic_mixer_validate_value(this, nid, target,
mc->un.value.level[0]))
return EINVAL;
err = this->comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
MI_TARGET_INAMP(target), &result);
if (err)
return err;
value = generic_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 = this->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) {
if (!generic_mixer_validate_value(this, nid, target,
mc->un.value.level[1]))
return EINVAL;
err = this->comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_INPUT |
CORB_GAGM_RIGHT | MI_TARGET_INAMP(target),
&result);
if (err)
return err;
value = generic_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 = this->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 = this->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 = this->comresp(this, nid, CORB_SET_AMPLIFIER_GAIN_MUTE,
value, &result);
if (err)
return err;
if (WIDGET_CHANNELS(&this->w[nid]) == 2) {
err = this->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 = this->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;
if (!generic_mixer_validate_value(this, nid, target,
mc->un.value.level[0]))
return EINVAL;
err = this->comresp(this, nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_OUTPUT | CORB_GAGM_LEFT, &result);
if (err)
return err;
value = generic_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 = this->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) {
if (!generic_mixer_validate_value(this, nid, target,
mc->un.value.level[1]))
return EINVAL;
err = this->comresp(this, nid,
CORB_GET_AMPLIFIER_GAIN_MUTE, CORB_GAGM_OUTPUT |
CORB_GAGM_RIGHT, &result);
if (err)
return err;
value = generic_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 = this->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 ||
!VALID_WIDGET_NID(this->w[nid].connections[mc->un.ord], this))
return EINVAL;
err = this->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) {
if (mc->un.ord >= 2)
return EINVAL;
if (mc->un.ord == 0) {
return generic_mixer_pinctrl(this, nid, CORB_PWC_INPUT);
} else {
return generic_mixer_pinctrl(
this, nid, CORB_PWC_OUTPUT);
}
}
/* pin headphone-boost */
else if (target == MI_TARGET_PINBOOST) {
if (mc->un.ord >= 2)
return EINVAL;
err = this->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 = this->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;
return azalia_codec_construct_format(this,
mc->un.ord, this->adcs.cur);
}
/* ADC selection */
else if (target == MI_TARGET_ADC) {
if (this->running)
return EBUSY;
if (mc->un.ord >= this->adcs.ngroups)
return EINVAL;
return azalia_codec_construct_format(this,
this->dacs.cur, mc->un.ord);
}
/* Volume knob */
else if (target == MI_TARGET_VOLUME) {
if (mc->un.value.num_channels != 1)
return EINVAL;
if (!generic_mixer_validate_value(this, nid,
target, mc->un.value.level[0]))
return EINVAL;
value = generic_mixer_to_device_value(this, nid, target,
mc->un.value.level[0]) | CORB_VKNOB_DIRECT;
err = this->comresp(this, nid, CORB_SET_VOLUME_KNOB,
value, &result);
if (err)
return err;
}
/* S/PDIF */
else if (target == MI_TARGET_SPDIF) {
err = this->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 = this->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 = this->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 = this->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 = this->comresp(this, nid,
CORB_SET_EAPD_BTL_ENABLE, result, &result);
if (err)
return err;
}
/* Balanced I/O */
else if (target == MI_TARGET_BALANCE) {
if (mc->un.ord >= 2)
return EINVAL;
err = this->comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
result &= 0xff;
if (mc->un.ord == 0) {
result &= ~CORB_EAPD_BTL;
} else {
result |= CORB_EAPD_BTL;
}
err = this->comresp(this, nid,
CORB_SET_EAPD_BTL_ENABLE, result, &result);
if (err)
return err;
}
/* LR-Swap */
else if (target == MI_TARGET_LRSWAP) {
if (mc->un.ord >= 2)
return EINVAL;
err = this->comresp(this, nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
result &= 0xff;
if (mc->un.ord == 0) {
result &= ~CORB_EAPD_LRSWAP;
} else {
result |= CORB_EAPD_LRSWAP;
}
err = this->comresp(this, nid,
CORB_SET_EAPD_BTL_ENABLE, result, &result);
if (err)
return err;
}
else {
aprint_error("%s: internal error in %s: target=%x\n",
XNAME(this), __func__, target);
return -1;
}
return 0;
}
static int
generic_mixer_pinctrl(codec_t *this, nid_t nid, uint32_t value)
{
int err;
uint32_t result;
err = this->comresp(this, nid, CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (err)
return err;
result &= ~(CORB_PWC_OUTPUT | CORB_PWC_INPUT);
result |= value & (CORB_PWC_OUTPUT | CORB_PWC_INPUT);
return this->comresp(this, nid,
CORB_SET_PIN_WIDGET_CONTROL, result, NULL);
}
static u_char
generic_mixer_from_device_value(const codec_t *this, nid_t nid, int target,
uint32_t dv)
{
#ifdef MAX_VOLUME_255
uint32_t dmax;
if (IS_MI_TARGET_INAMP(target))
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].inamp_cap);
else if (target == MI_TARGET_OUTAMP)
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].outamp_cap);
else if (target == MI_TARGET_VOLUME)
dmax = COP_VKCAP_NUMSTEPS(this->w[nid].d.volume.cap);
else {
printf("unknown target: %d\n", target);
dmax = 255;
}
return dv * AUDIO_MAX_GAIN / dmax;
#else
return dv;
#endif
}
static uint32_t
generic_mixer_to_device_value(const codec_t *this, nid_t nid, int target,
u_char uv)
{
#ifdef MAX_VOLUME_255
uint32_t dmax;
if (IS_MI_TARGET_INAMP(target))
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].inamp_cap);
else if (target == MI_TARGET_OUTAMP)
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].outamp_cap);
else if (target == MI_TARGET_VOLUME)
dmax = COP_VKCAP_NUMSTEPS(this->w[nid].d.volume.cap);
else {
printf("unknown target: %d\n", target);
dmax = 255;
}
return (uv * dmax + AUDIO_MAX_GAIN - 1) / AUDIO_MAX_GAIN;
#else
return uv;
#endif
}
static uint32_t
generic_mixer_max(const codec_t *this, nid_t nid,
int target)
{
#ifdef MAX_VOLUME_255
return AUDIO_MAX_GAIN;
#else
uint32_t dmax;
if (IS_MI_TARGET_INAMP(target))
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].inamp_cap);
else if (target == MI_TARGET_OUTAMP)
dmax = COP_AMPCAP_NUMSTEPS(this->w[nid].outamp_cap);
else if (target == MI_TARGET_VOLUME)
dmax = COP_VKCAP_NUMSTEPS(this->w[nid].d.volume.cap);
return dmax;
#endif
}
static bool
generic_mixer_validate_value(const codec_t *this, nid_t nid,
int target, u_char uv)
{
#ifdef MAX_VOLUME_255
return TRUE;
#else
return uv <= generic_mixer_max(this, nid, target);
#endif
}
static int
generic_set_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
if (mc->type != m->devinfo.type)
return EINVAL;
if (mc->type == AUDIO_MIXER_CLASS)
return 0; /* nothing to do */
return generic_mixer_set(this, m->nid, m->target, mc);
}
static int
generic_get_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
mc->type = m->devinfo.type;
if (mc->type == AUDIO_MIXER_CLASS)
return 0; /* nothing to do */
return generic_mixer_get(this, m->nid, m->target, mc);
}
/* ----------------------------------------------------------------
* Realtek ALC260
*
* Fujitsu LOOX T70M/T
* Internal Speaker: 0x10
* Front Headphone: 0x14
* Front mic: 0x12
* ---------------------------------------------------------------- */
#define ALC260_FUJITSU_ID 0x132610cf
#define ALC260_EVENT_HP 0
#define ALC260_EXTRA_MASTER 0
static const mixer_item_t alc260_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, 3}}, 0x08, MI_TARGET_OUTAMP}, /* and 0x09, 0x0a(mono) */
{{0, {AudioNmaster".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x0f, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x10, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x10, MI_TARGET_PINBOOST},
{{0, {AudioNmono".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x11, MI_TARGET_OUTAMP},
{{0, {"mic1.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x12, MI_TARGET_OUTAMP},
{{0, {"mic1", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x12, MI_TARGET_PINDIR},
{{0, {"mic2.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x13, MI_TARGET_OUTAMP},
{{0, {"mic2", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x13, MI_TARGET_PINDIR},
{{0, {"line1.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {"line1", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x14, MI_TARGET_PINDIR},
{{0, {"line2.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_OUTAMP},
{{0, {"line2", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x15, MI_TARGET_PINDIR},
{{0, {AudioNdac".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)}, /* and 0x09, 0x0a(mono) */
{{0, {"mic1.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(0)},
{{0, {"mic1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(0)},
{{0, {"mic2.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(1)},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(1)},
{{0, {"line1.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(2)},
{{0, {"line1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(2)},
{{0, {"line2.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(3)},
{{0, {"line2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(3)},
{{0, {AudioNcd".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(4)},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(4)},
{{0, {AudioNspeaker".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(5)},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(5)},
{{0, {"adc04.source", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={5, {{{"mic1", 0}, 0}, {{"mic2", 0}, 1}, {{"line1", 0}, 2},
{{"line2", 0}, 3}, {{AudioNcd, 0}, 4}}}},
0x04, MI_TARGET_CONNLIST},
{{0, {"adc04.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
ENUM_OFFON}, 0x04, MI_TARGET_INAMP(0)},
{{0, {"adc04", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD, 0, 0,
.un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x04, MI_TARGET_INAMP(0)},
{{0, {"adc05.source", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={6, {{{"mic1", 0}, 0}, {{"mic2", 0}, 1}, {{"line1", 0}, 2},
{{"line2", 0}, 3}, {{AudioNcd, 0}, 4}, {{AudioNmixerout, 0}, 5}}}},
0x05, MI_TARGET_CONNLIST},
{{0, {"adc05.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
ENUM_OFFON}, 0x05, MI_TARGET_INAMP(0)},
{{0, {"adc05", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD, 0, 0,
.un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x05, MI_TARGET_INAMP(0)},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={3, {{{"adc04", 0}, 0}, {{"adc05", 0}, 1}, {{AzaliaNdigital, 0}, 2}}}},
0, MI_TARGET_ADC},
};
static const mixer_item_t alc260_loox_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, 3}}, 0x08, MI_TARGET_OUTAMP}, /* and 0x09, 0x0a(mono) */
{{0, {AudioNmaster".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x10, MI_TARGET_OUTAMP},
{{0, {AudioNmaster".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x10, MI_TARGET_PINBOOST},
{{0, {AudioNheadphone".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_PINBOOST},
{{0, {AudioNdac".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)}, /* and 0x09, 0x0a(mono) */
{{0, {AudioNmicrophone".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(0)},
{{0, {AudioNmicrophone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(0)},
{{0, {AudioNcd".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(4)},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(4)},
{{0, {AudioNspeaker".mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(5)},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x07, MI_TARGET_INAMP(5)},
{{0, {"adc04.source", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={2, {{{AudioNmicrophone, 0}, 0}, {{AudioNcd, 0}, 4}}}}, 0x04, MI_TARGET_CONNLIST},
{{0, {"adc04.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
ENUM_OFFON}, 0x04, MI_TARGET_INAMP(0)},
{{0, {"adc04", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD, 0, 0,
.un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x04, MI_TARGET_INAMP(0)},
{{0, {"adc05.source", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={3, {{{AudioNmicrophone, 0}, 0}, {{AudioNcd, 0}, 4}, {{AudioNmixerout, 0}, 5}}}},
0x05, MI_TARGET_CONNLIST},
{{0, {"adc05.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
ENUM_OFFON}, 0x05, MI_TARGET_INAMP(0)},
{{0, {"adc05", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD, 0, 0,
.un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x05, MI_TARGET_INAMP(0)},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={3, {{{"adc04", 0}, 0}, {{"adc05", 0}, 1}, {{AzaliaNdigital, 0}, 2}}}},
0, MI_TARGET_ADC},
};
static int
alc260_mixer_init(codec_t *this)
{
const mixer_item_t *mi;
mixer_ctrl_t mc;
uint32_t value;
switch (this->subid) {
case ALC260_FUJITSU_ID:
this->nmixers = sizeof(alc260_loox_mixer_items) / sizeof(mixer_item_t);
mi = alc260_loox_mixer_items;
break;
default:
this->nmixers = sizeof(alc260_mixer_items) / sizeof(mixer_item_t);
mi = alc260_mixer_items;
}
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, mi, sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1; /* no need for generic_mixer_set() */
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x0f, MI_TARGET_PINDIR, &mc); /* lineout */
generic_mixer_set(this, 0x10, MI_TARGET_PINDIR, &mc); /* headphones */
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x12, MI_TARGET_PINDIR, &mc); /* mic1 */
generic_mixer_set(this, 0x13, MI_TARGET_PINDIR, &mc); /* mic2 */
generic_mixer_set(this, 0x14, MI_TARGET_PINDIR, &mc); /* line1 */
generic_mixer_set(this, 0x15, MI_TARGET_PINDIR, &mc); /* line2 */
mc.un.ord = 0; /* mute: off */
generic_mixer_set(this, 0x08, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x08, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x09, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x09, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x0a, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x0a, MI_TARGET_INAMP(1), &mc);
if (this->subid == ALC260_FUJITSU_ID) {
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x14, MI_TARGET_PINDIR, &mc); /* line1 */
mc.un.ord = 4; /* connlist: cd */
generic_mixer_set(this, 0x05, MI_TARGET_CONNLIST, &mc);
/* setup a unsolicited event for the headphones */
this->comresp(this, 0x14, CORB_SET_UNSOLICITED_RESPONSE,
CORB_UNSOL_ENABLE | ALC260_EVENT_HP, NULL);
this->extra[ALC260_EXTRA_MASTER] = 0; /* unmute */
/* If the headphone presents, mute the internal speaker */
this->comresp(this, 0x14, CORB_GET_PIN_SENSE, 0, &value);
mc.un.ord = value & CORB_PS_PRESENCE ? 1 : 0;
generic_mixer_set(this, 0x10, MI_TARGET_OUTAMP, &mc);
this->get_port = alc260_get_port;
}
return 0;
}
static int
alc260_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{1, {0x02}}, /* analog 2ch */
{1, {0x03}}}}; /* digital */
static const convgroupset_t adcs = {
-1, 3,
{{1, {0x04}}, /* analog 2ch */
{1, {0x05}}, /* analog 2ch */
{1, {0x06}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
static int
alc260_set_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
mixer_ctrl_t mc2;
uint32_t value;
int err;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
if (mc->type != m->devinfo.type)
return EINVAL;
if (mc->type == AUDIO_MIXER_CLASS)
return 0;
if (m->nid == 0x08 && m->target == MI_TARGET_OUTAMP) {
DPRINTF(("%s: hook for outputs.master\n", __func__));
err = generic_mixer_set(this, m->nid, m->target, mc);
if (!err) {
generic_mixer_set(this, 0x09, m->target, mc);
mc2 = *mc;
mc2.un.value.num_channels = 1;
mc2.un.value.level[0] = (mc2.un.value.level[0]
+ mc2.un.value.level[1]) / 2;
generic_mixer_set(this, 0x0a, m->target, &mc2);
}
return err;
} else if (m->nid == 0x08 && m->target == MI_TARGET_INAMP(0)) {
DPRINTF(("%s: hook for inputs.dac.mute\n", __func__));
err = generic_mixer_set(this, m->nid, m->target, mc);
if (!err) {
generic_mixer_set(this, 0x09, m->target, mc);
generic_mixer_set(this, 0x0a, m->target, mc);
}
return err;
} else if (m->nid == 0x04 &&
m->target == MI_TARGET_CONNLIST &&
m->devinfo.un.e.num_mem == 2) {
if (1 <= mc->un.ord && mc->un.ord <= 3)
return EINVAL;
} else if (m->nid == 0x05 &&
m->target == MI_TARGET_CONNLIST &&
m->devinfo.un.e.num_mem == 3) {
if (1 <= mc->un.ord && mc->un.ord <= 3)
return EINVAL;
} else if (this->subid == ALC260_FUJITSU_ID && m->nid == 0x10 &&
m->target == MI_TARGET_OUTAMP) {
if (mc->un.ord != 0 && mc->un.ord != 1)
return EINVAL;
this->extra[ALC260_EXTRA_MASTER] = mc->un.ord;
err = this->comresp(this, 0x14, CORB_GET_PIN_SENSE, 0, &value);
if (err)
return err;
if (!(value & CORB_PS_PRESENCE)) {
return generic_mixer_set(this, m->nid, m->target, mc);
}
return 0;
}
return generic_mixer_set(this, m->nid, m->target, mc);
}
static int
alc260_get_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
mc->type = m->devinfo.type;
if (mc->type == AUDIO_MIXER_CLASS)
return 0;
if (this->subid == ALC260_FUJITSU_ID && m->nid == 0x10 &&
m->target == MI_TARGET_OUTAMP) {
mc->un.ord = this->extra[ALC260_EXTRA_MASTER];
return 0;
}
return generic_mixer_get(this, m->nid, m->target, mc);
}
static int
alc260_unsol_event(codec_t *this, int tag)
{
int err;
uint32_t value;
mixer_ctrl_t mc;
switch (tag) {
case ALC260_EVENT_HP:
err = this->comresp(this, 0x14, CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
if (value & CORB_PS_PRESENCE) {
DPRINTF(("%s: headphone has been inserted.\n", __func__));
mc.un.ord = 1; /* mute */
generic_mixer_set(this, 0x10, MI_TARGET_OUTAMP, &mc);
} else {
DPRINTF(("%s: headphone has been pulled out.\n", __func__));
mc.un.ord = this->extra[ALC260_EXTRA_MASTER];
generic_mixer_set(this, 0x10, MI_TARGET_OUTAMP, &mc);
}
break;
default:
printf("%s: unknown tag: %d\n", __func__, tag);
}
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC861
* ---------------------------------------------------------------- */
static int
alc861_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x03, 0x04, 0x05, 0x06}}, /* analog 8ch */
{1, {0x07}}}}; /* digital */
static const convgroupset_t adcs = {
-1, 1,
{{1, {0x08}}}}; /* analog 2ch */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC861-VD-GR
* ---------------------------------------------------------------- */
static int
alc861vdgr_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
static const convgroupset_t adcs = {
-1, 1,
{{1, {0x09}}}}; /* analog 2ch */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC880
* ---------------------------------------------------------------- */
static const mixer_item_t alc880_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AudioNsurround"."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={5, {{{"mic1", 0}, 0}, {{"mic2", 0}, 1}, {{"line1", 0}, 2},
{{"line2", 0}, 3}, {{AudioNcd, 0}, 4}}}}, 0x08, MI_TARGET_CONNLIST},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront"."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={5, {{{"mic1", 0}, 0}, {{"mic2", 0}, 1}, {{"line1", 0}, 2},
{{"line2", 0}, 3}, {{AudioNcd, 0}, 4},
{{AudioNmixerout, 0}, 5}}}}, 0x09, MI_TARGET_CONNLIST},
{{0, {AzaliaNfront"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(35)}}, 0x09, MI_TARGET_INAMP(0)},
{{0, {"mic1."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {"line1."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {"line1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {"line2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(3)},
{{0, {"line2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(3)},
{{0, {AudioNcd"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNspeaker"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(65)}}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x0c, MI_TARGET_OUTAMP},
{{0, {AzaliaNfront".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(1)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x0d, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x0e, MI_TARGET_OUTAMP},
{{0, {AzaliaNside, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x0f, MI_TARGET_OUTAMP},
#if 0 /* The followings are useless. */
{{0, {AudioNsurround".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_INAMP(1)},
{{0, {AzaliaNclfe".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0e, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0e, MI_TARGET_INAMP(1)},
{{0, {AzaliaNside".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0f, MI_TARGET_INAMP(0)},
{{0, {AzaliaNside".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0f, MI_TARGET_INAMP(1)},
#endif
{{0, {AudioNmaster"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNmaster".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_PINBOOST},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_OUTAMP},
{{0, {AudioNsurround".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_PINBOOST},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_PINBOOST},
{{0, {AzaliaNside"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_OUTAMP},
{{0, {AzaliaNside".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_PINBOOST},
{{0, {"mic2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x19, MI_TARGET_OUTAMP},
{{0, {"mic2.boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x19, MI_TARGET_PINBOOST},
{{0, {"mic2.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x19, MI_TARGET_PINDIR},
{{0, {"line1."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1a, MI_TARGET_OUTAMP},
{{0, {"line1.boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1a, MI_TARGET_PINBOOST},
{{0, {"line1.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x1a, MI_TARGET_PINDIR},
{{0, {"line2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_OUTAMP},
{{0, {"line2.boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_PINBOOST},
{{0, {"line2.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x1b, MI_TARGET_PINDIR},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_ADC},
};
static int
alc880_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(alc880_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, alc880_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 0; /* mute: off */
generic_mixer_set(this, 0x0c, MI_TARGET_INAMP(0), &mc); /* dac->front */
generic_mixer_set(this, 0x0c, MI_TARGET_INAMP(1), &mc); /* mixer->front */
generic_mixer_set(this, 0x0d, MI_TARGET_INAMP(0), &mc); /* dac->surround */
generic_mixer_set(this, 0x0e, MI_TARGET_INAMP(0), &mc); /* dac->clfe */
generic_mixer_set(this, 0x0f, MI_TARGET_INAMP(0), &mc); /* dac->side */
mc.un.ord = 1; /* mute: on */
generic_mixer_set(this, 0x0d, MI_TARGET_INAMP(1), &mc); /* mixer->surround */
generic_mixer_set(this, 0x0e, MI_TARGET_INAMP(1), &mc); /* mixer->clfe */
generic_mixer_set(this, 0x0f, MI_TARGET_INAMP(1), &mc); /* mixer->side */
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x14, MI_TARGET_PINDIR, &mc); /* front */
generic_mixer_set(this, 0x15, MI_TARGET_PINDIR, &mc); /* surround */
generic_mixer_set(this, 0x16, MI_TARGET_PINDIR, &mc); /* clfe */
generic_mixer_set(this, 0x17, MI_TARGET_PINDIR, &mc); /* side */
generic_mixer_set(this, 0x19, MI_TARGET_PINDIR, &mc); /* mic2 */
generic_mixer_set(this, 0x1b, MI_TARGET_PINDIR, &mc); /* line2 */
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x18, MI_TARGET_PINDIR, &mc); /* mic1 */
generic_mixer_set(this, 0x1a, MI_TARGET_PINDIR, &mc); /* line1 */
return 0;
}
static int
alc880_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x08, 0x09}}, /* analog 4ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC882
* ---------------------------------------------------------------- */
static const mixer_item_t alc882_mixer_items[] = {
AZ_MIXER_CLASSES,
/* 0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x14,0x15,0x16,0x17 */
{{0, {"mic1."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {AudioNline"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {AudioNline, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {AudioNcd"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNspeaker"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0c, MI_TARGET_OUTAMP},
{{0, {AudioNmaster"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNmaster".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_PINBOOST},
{{0, {AudioNheadphone"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_PINBOOST},
{{0, {AzaliaNfront".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(1)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0d, MI_TARGET_OUTAMP},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_OUTAMP},
{{0, {AudioNsurround".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_PINBOOST},
{{0, {AzaliaNclfe, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0e, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_PINBOOST},
{{0, {AzaliaNside, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0f, MI_TARGET_OUTAMP},
{{0, {AzaliaNside"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_OUTAMP},
{{0, {AzaliaNside".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_PINBOOST},
/* 0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x14,0x15,0x16,0x17,0xb */
#define ALC882_MIC1 0x001
#define ALC882_MIC2 0x002
#define ALC882_LINE 0x004
#define ALC882_CD 0x010
#define ALC882_BEEP 0x020
#define ALC882_MIX 0x400
#define ALC882_MASK 0x437
{{0, {AzaliaNfront"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x07, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront"."AudioNsource, 0}, AUDIO_MIXER_SET, AZ_CLASS_RECORD,
0, 0, .un.s={6, {{{"mic1", 0}, ALC882_MIC1}, {{"mic2", 0}, ALC882_MIC2},
{{AudioNline, 0}, ALC882_LINE}, {{AudioNcd, 0}, ALC882_CD},
{{AudioNspeaker, 0}, ALC882_BEEP},
{{AudioNmixerout, 0}, ALC882_MIX}}}}, 0x24, -1},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround"."AudioNsource, 0}, AUDIO_MIXER_SET, AZ_CLASS_RECORD,
0, 0, .un.s={6, {{{"mic1", 0}, ALC882_MIC1}, {{"mic2", 0}, ALC882_MIC2},
{{AudioNline, 0}, ALC882_LINE}, {{AudioNcd, 0}, ALC882_CD},
{{AudioNspeaker, 0}, ALC882_BEEP},
{{AudioNmixerout, 0}, ALC882_MIX}}}}, 0x23, -1},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe"."AudioNsource, 0}, AUDIO_MIXER_SET, AZ_CLASS_RECORD,
0, 0, .un.s={6, {{{"mic1", 0}, ALC882_MIC1}, {{"mic2", 0}, ALC882_MIC2},
{{AudioNline, 0}, ALC882_LINE}, {{AudioNcd, 0}, ALC882_CD},
{{AudioNspeaker, 0}, ALC882_BEEP},
{{AudioNmixerout, 0}, ALC882_MIX}}}}, 0x22, -1},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_ADC},
/* AZ_MIXER_SPDIF(AZ_CLASS_PLAYBACK, 0x06),*/
};
static int
alc882_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(alc882_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, alc882_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x14, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x1b, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x15, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x16, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x17, MI_TARGET_PINDIR, &mc);
mc.un.ord = 0; /* [0] 0x0c */
generic_mixer_set(this, 0x14, MI_TARGET_CONNLIST, &mc);
generic_mixer_set(this, 0x1b, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 1; /* [1] 0x0d */
generic_mixer_set(this, 0x15, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 2; /* [2] 0x0e */
generic_mixer_set(this, 0x16, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 2; /* [3] 0x0fb */
generic_mixer_set(this, 0x17, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x18, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x19, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x1a, MI_TARGET_PINDIR, &mc);
/* XXX: inamp for 18/19/1a */
mc.un.ord = 0; /* unmute */
generic_mixer_set(this, 0x24, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x23, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x22, MI_TARGET_INAMP(2), &mc);
generic_mixer_set(this, 0x0d, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x0e, MI_TARGET_INAMP(0), &mc);
generic_mixer_set(this, 0x0f, MI_TARGET_INAMP(0), &mc);
mc.un.ord = 1; /* mute */
generic_mixer_set(this, 0x0d, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x0e, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x0f, MI_TARGET_INAMP(1), &mc);
return 0;
}
static int
alc882_init_dacgroup(codec_t *this)
{
#if 0 /* makes no sense to support for 0x25 node */
static const convgroupset_t dacs = {
-1, 3,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}, /* digital */
{1, {0x25}}}}; /* another analog */
#else
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
#endif
static const convgroupset_t adcs = {
-1, 2,
{{3, {0x07, 0x08, 0x09}}, /* analog 6ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
static int
alc882_set_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
mixer_ctrl_t mc2;
uint32_t mask, bit;
int i, err;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
if (mc->type != m->devinfo.type)
return EINVAL;
if (mc->type == AUDIO_MIXER_CLASS)
return 0;
if ((m->nid == 0x22 || m->nid == 0x23 || m->nid == 0x24)
&& m->target == -1) {
DPRINTF(("%s: hook for record.*.source\n", __func__));
mc2.dev = -1;
mc2.type = AUDIO_MIXER_ENUM;
bit = 1;
mask = mc->un.mask & ALC882_MASK;
for (i = 0; i < this->w[m->nid].nconnections && i < 32; i++) {
mc2.un.ord = (mask & bit) ? 0 : 1;
err = generic_mixer_set(this, m->nid,
MI_TARGET_INAMP(i), &mc2);
if (err)
return err;
bit = bit << 1;
}
return 0;
}
return generic_mixer_set(this, m->nid, m->target, mc);
}
static int
alc882_get_port(codec_t *this, mixer_ctrl_t *mc)
{
const mixer_item_t *m;
uint32_t mask, bit, result;
int i, err;
if (mc->dev >= this->nmixers)
return ENXIO;
m = &this->mixers[mc->dev];
mc->type = m->devinfo.type;
if (mc->type == AUDIO_MIXER_CLASS)
return 0;
if ((m->nid == 0x22 || m->nid == 0x23 || m->nid == 0x24)
&& m->target == -1) {
DPRINTF(("%s: hook for record.*.source\n", __func__));
mask = 0;
bit = 1;
for (i = 0; i < this->w[m->nid].nconnections && i < 32; i++) {
err = this->comresp(this, m->nid, CORB_GET_AMPLIFIER_GAIN_MUTE,
CORB_GAGM_INPUT | CORB_GAGM_LEFT |
i, &result);
if (err)
return err;
if ((result & CORB_GAGM_MUTE) == 0)
mask |= bit;
bit = bit << 1;
}
mc->un.mask = mask & ALC882_MASK;
return 0;
}
return generic_mixer_get(this, m->nid, m->target, mc);
}
/* ----------------------------------------------------------------
* Realtek ALC883
* ALC882 without adc07 and mix24.
* ---------------------------------------------------------------- */
static int
alc883_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
/* don't support for 0x25 dac */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x08, 0x09}}, /* analog 4ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
static const mixer_item_t alc883_mixer_items[] = {
AZ_MIXER_CLASSES,
/* 0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x14,0x15,0x16,0x17 */
{{0, {"mic1."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic1", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(0)},
{{0, {"mic2."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(1)},
{{0, {AudioNline"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {AudioNline, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(2)},
{{0, {AudioNcd"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(4)},
{{0, {AudioNspeaker"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_INAMP(5)},
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0c, MI_TARGET_OUTAMP},
{{0, {AudioNmaster"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNmaster".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_PINBOOST},
{{0, {AudioNheadphone"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_PINBOOST},
{{0, {AzaliaNfront".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_INAMP(1)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0d, MI_TARGET_OUTAMP},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_OUTAMP},
{{0, {AudioNsurround".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_PINBOOST},
{{0, {AudioNsurround".dac.mut", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround".mixer.m", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_INAMP(1)},
{{0, {AzaliaNclfe, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0e, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x16, MI_TARGET_PINBOOST},
{{0, {AzaliaNclfe".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0e, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0e, MI_TARGET_INAMP(1)},
{{0, {AzaliaNside, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0f, MI_TARGET_OUTAMP},
{{0, {AzaliaNside"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_OUTAMP},
{{0, {AzaliaNside".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x17, MI_TARGET_PINBOOST},
{{0, {AzaliaNside".dac.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0f, MI_TARGET_INAMP(0)},
{{0, {AzaliaNside".mixer.mute", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0f, MI_TARGET_INAMP(1)},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround"."AudioNsource, 0}, AUDIO_MIXER_SET, AZ_CLASS_RECORD,
0, 0, .un.s={6, {{{"mic1", 0}, ALC882_MIC1}, {{"mic2", 0}, ALC882_MIC2},
{{AudioNline, 0}, ALC882_LINE}, {{AudioNcd, 0}, ALC882_CD},
{{AudioNspeaker, 0}, ALC882_BEEP},
{{AudioNmixerout, 0}, ALC882_MIX}}}}, 0x23, -1},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AzaliaNclfe"."AudioNsource, 0}, AUDIO_MIXER_SET, AZ_CLASS_RECORD,
0, 0, .un.s={6, {{{"mic1", 0}, ALC882_MIC1}, {{"mic2", 0}, ALC882_MIC2},
{{AudioNline, 0}, ALC882_LINE}, {{AudioNcd, 0}, ALC882_CD},
{{AudioNspeaker, 0}, ALC882_BEEP},
{{AudioNmixerout, 0}, ALC882_MIX}}}}, 0x22, -1},
{{0, {"usingdac", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{"digital", 0}, 1}}}}, 0, MI_TARGET_DAC},
{{0, {"usingadc", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{"digital", 0}, 1}}}}, 0, MI_TARGET_ADC},
};
int
alc883_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(alc883_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_NOWAIT | M_ZERO);
if (this->mixers == NULL) {
printf("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, alc883_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x14, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x1b, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x15, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x16, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x17, MI_TARGET_PINDIR, &mc);
mc.un.ord = 0; /* [0] 0x0c */
generic_mixer_set(this, 0x14, MI_TARGET_CONNLIST, &mc);
generic_mixer_set(this, 0x1b, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 1; /* [1] 0x0d */
generic_mixer_set(this, 0x15, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 2; /* [2] 0x0e */
generic_mixer_set(this, 0x16, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 2; /* [3] 0x0fb */
generic_mixer_set(this, 0x17, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x18, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x19, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x1a, MI_TARGET_PINDIR, &mc);
/* XXX: inamp for 18/19/1a */
mc.un.ord = 0; /* unmute */
generic_mixer_set(this, 0x23, MI_TARGET_INAMP(1), &mc);
generic_mixer_set(this, 0x22, MI_TARGET_INAMP(2), &mc);
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC885
* ---------------------------------------------------------------- */
static int
alc885_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
/* don't support for 0x25 dac */
static const convgroupset_t adcs = {
-1, 2,
{{3, {0x07, 0x08, 0x09}}, /* analog 6ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Realtek ALC888
* ---------------------------------------------------------------- */
static int
alc888_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x06}}}}; /* digital */
/* don't support for 0x25 dac */
/* ALC888S has another SPDIF-out 0x10 */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x08, 0x09}}, /* analog 4ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Analog Devices AD1981HD
* ---------------------------------------------------------------- */
#define AD1981HD_THINKPAD 0x201017aa
static const mixer_item_t ad1981hd_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AzaliaNdigital "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{"os", 0}, 0}, {{"adc", 0}, 1}}}}, 0x02, MI_TARGET_CONNLIST},
{{0, {"lineout." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x05, MI_TARGET_CONNLIST},
{{0, {"lineout." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x05, MI_TARGET_OUTAMP},
{{0, {"lineout", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(63)}}, 0x05, MI_TARGET_OUTAMP},
{{0, {"lineout", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(3)}}, 0x05, MI_TARGET_INAMP(0)},
{{0, {"lineout.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x05, MI_TARGET_PINDIR},
{{0, {"lineout.boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x05, MI_TARGET_PINBOOST},
{{0, {"lineout.eapd", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x05, MI_TARGET_EAPD},
{{0, {AudioNheadphone ".src", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x06, MI_TARGET_CONNLIST},
{{0, {AudioNheadphone "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x06, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(63)}}, 0x06, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone ".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x06, MI_TARGET_PINBOOST},
{{0, {AudioNmono "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_OUTAMP},
{{0, {AudioNmono, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(63)}}, 0x07, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(3)}}, 0x08, MI_TARGET_INAMP(0)},
{{0, {"linein." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x09, MI_TARGET_CONNLIST},
{{0, {"linein." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x09, MI_TARGET_OUTAMP},
{{0, {"linein", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(63)}}, 0x09, MI_TARGET_OUTAMP},
{{0, {"linein", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(3)}}, 0x09, MI_TARGET_INAMP(0)},
{{0, {"linein.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x09, MI_TARGET_PINDIR},
{{0, {AudioNmono "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={6, {{{AudioNdac, 0}, 0}, {{"mixedmic", 0}, 1},
{{"linein", 0}, 2}, {{AudioNmixerout, 0}, 3},
{{"lineout", 0}, 4}, {{"mic2", 0}, 5}}}},
0x0b, MI_TARGET_CONNLIST},
{{0, {"beep." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, .un.e={2, {{{"digitalbeep", 0}, 0}, {{"beep", 0}, 1}}}},
0x0d, MI_TARGET_CONNLIST},
{{0, {"beep." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_OUTAMP},
{{0, {"beep", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(15)}}, 0x0d, MI_TARGET_OUTAMP},
{{0, {AudioNdac "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x11, MI_TARGET_OUTAMP},
{{0, {AudioNdac, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x11, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x12, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x12, MI_TARGET_OUTAMP},
{{0, {"linein." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x13, MI_TARGET_OUTAMP},
{{0, {"linein", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x13, MI_TARGET_OUTAMP},
{{0, {AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={8, {{{"mixedmic", 0}, 0}, {{"linein", 0}, 1},
{{AudioNmixerout, 0}, 2}, {{AudioNmono, 0}, 3},
{{AudioNcd, 0}, 4}, {{"lineout", 0}, 5},
{{"mic2", 0}, 6}, {{AudioNaux, 0}, 7}}}},
0x15, MI_TARGET_CONNLIST},
{{0, {AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x15, MI_TARGET_OUTAMP},
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(15)}}, 0x15, MI_TARGET_OUTAMP},
{{0, {"mic2." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x18, MI_TARGET_CONNLIST},
{{0, {"mic2." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x18, MI_TARGET_OUTAMP},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(63)}}, 0x18, MI_TARGET_OUTAMP},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(3)}}, 0x18, MI_TARGET_INAMP(0)},
{{0, {"mic2.dir", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_IO}, 0x18, MI_TARGET_PINDIR},
{{0, {"lineout." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x1a, MI_TARGET_OUTAMP},
{{0, {"lineout", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x1a, MI_TARGET_OUTAMP},
{{0, {AudioNaux "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x1b, MI_TARGET_OUTAMP},
{{0, {AudioNaux, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x1b, MI_TARGET_OUTAMP},
{{0, {"mic2." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x1c, MI_TARGET_OUTAMP},
{{0, {"mic2", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x1c, MI_TARGET_OUTAMP},
{{0, {AudioNcd "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x1d, MI_TARGET_OUTAMP},
{{0, {AudioNcd, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x1d, MI_TARGET_OUTAMP},
{{0, {"mixedmic.mute1", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x1e, MI_TARGET_OUTAMP},
{{0, {"mixedmic.mute2", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x1f, MI_TARGET_OUTAMP},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
};
static int
ad1981hd_init_widget(const codec_t *this, widget_t *w, nid_t nid)
{
switch (nid) {
case 0x05:
strlcpy(w->name, AudioNline "out", sizeof(w->name));
break;
case 0x06:
strlcpy(w->name, "hp", sizeof(w->name));
break;
case 0x07:
strlcpy(w->name, AudioNmono, sizeof(w->name));
break;
case 0x08:
strlcpy(w->name, AudioNmicrophone, sizeof(w->name));
break;
case 0x09:
strlcpy(w->name, AudioNline "in", sizeof(w->name));
break;
case 0x0d:
strlcpy(w->name, "beep", sizeof(w->name));
break;
case 0x17:
strlcpy(w->name, AudioNaux, sizeof(w->name));
break;
case 0x18:
strlcpy(w->name, AudioNmicrophone "2", sizeof(w->name));
break;
case 0x19:
strlcpy(w->name, AudioNcd, sizeof(w->name));
break;
case 0x1d:
strlcpy(w->name, AudioNcd, sizeof(w->name));
break;
}
return 0;
}
static int
ad1981hd_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(ad1981hd_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, ad1981hd_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
if (this->subid == AD1981HD_THINKPAD) {
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1;
generic_mixer_set(this, 0x09, MI_TARGET_PINDIR, &mc);
}
return 0;
}
/* ----------------------------------------------------------------
* Analog Devices AD1983
* ---------------------------------------------------------------- */
static const mixer_item_t ad1983_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AzaliaNdigital "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{"os", 0}, 0}, {{"adc", 0}, 1}}}}, 0x02, MI_TARGET_CONNLIST},
{{0, {AudioNspeaker "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x05, MI_TARGET_CONNLIST},
{{0, {AudioNspeaker "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x05, MI_TARGET_OUTAMP},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x05, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone ".src", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{AudioNmixerout, 0}, 1}}}},
0x06, MI_TARGET_CONNLIST},
{{0, {AudioNheadphone "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x06, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(64)}}, 0x06, MI_TARGET_OUTAMP},
{{0, {AudioNheadphone ".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x06, MI_TARGET_PINBOOST},
{{0, {AudioNmono "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_OUTAMP},
{{0, {AudioNmono, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(64)}}, 0x07, MI_TARGET_OUTAMP},
{{0, {AudioNmono "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={4, {{{AudioNdac, 0}, 0}, {{AudioNmicrophone, 0}, 1},
{{AudioNline, 0}, 2}, {{AudioNmixerout, 0}, 3}}}},
0x0b, MI_TARGET_CONNLIST},
{{0, {AudioNmicrophone "." AudioNpreamp "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x0c, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone "." AudioNpreamp, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(4)}}, 0x0c, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, .un.e={2, {{{AudioNmicrophone, 0}, 0}, {{AudioNline, 0}, 1}}}},
0x0c, MI_TARGET_CONNLIST},
{{0, {AudioNline "." AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, .un.e={2, {{{AudioNline, 0}, 0}, {{AudioNmicrophone, 0}, 1}}}},
0x0d, MI_TARGET_CONNLIST},
{{0, {"beep." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x10, MI_TARGET_OUTAMP},
{{0, {"beep", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(16)}}, 0x10, MI_TARGET_OUTAMP},
{{0, {AudioNdac "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x11, MI_TARGET_OUTAMP},
{{0, {AudioNdac, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(32)}}, 0x11, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x12, MI_TARGET_OUTAMP},
{{0, {AudioNmicrophone, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(32)}}, 0x12, MI_TARGET_OUTAMP},
{{0, {AudioNline "." AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x13, MI_TARGET_OUTAMP},
{{0, {AudioNline, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(32)}}, 0x13, MI_TARGET_OUTAMP},
{{0, {AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={4, {{{AudioNmicrophone, 0}, 0}, {{AudioNline, 0}, 1},
{{AudioNmixerout, 0}, 2}, {{AudioNmono, 0}, 3}}}},
0x14, MI_TARGET_CONNLIST},
{{0, {AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNvolume, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(16)}}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK, 0, 0,
.un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}}, 0, MI_TARGET_DAC},
};
static int
ad1983_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(ad1983_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, ad1983_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
#define AD1983_EVENT_HP 1
#define AD1983_EVENT_SPEAKER 2
mc.dev = -1; /* no need for generic_mixer_set() */
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* connlist: mixerout */
generic_mixer_set(this, 0x05, MI_TARGET_CONNLIST, &mc);
generic_mixer_set(this, 0x06, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 3; /* connlist: mixerout */
generic_mixer_set(this, 0x0b, MI_TARGET_CONNLIST, &mc);
/* setup a unsolicited event for the headphones and speaker */
this->comresp(this, 0x05, CORB_SET_UNSOLICITED_RESPONSE,
CORB_UNSOL_ENABLE | AD1983_EVENT_SPEAKER, NULL);
this->comresp(this, 0x06, CORB_SET_UNSOLICITED_RESPONSE,
CORB_UNSOL_ENABLE | AD1983_EVENT_HP, NULL);
ad1983_unsol_event(this, AD1983_EVENT_SPEAKER);
ad1983_unsol_event(this, AD1983_EVENT_HP);
return 0;
}
static int
ad1983_unsol_event(codec_t *this, int tag)
{
int err;
uint32_t value;
mixer_ctrl_t mc;
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
switch (tag) {
case AD1983_EVENT_HP:
err = this->comresp(this, 0x06, CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
if (value & CORB_PS_PRESENCE) {
DPRINTF(("%s: headphone has been inserted.\n", __func__));
mc.un.ord = 1; /* mute */
generic_mixer_set(this, 0x05, MI_TARGET_OUTAMP, &mc);
generic_mixer_set(this, 0x07, MI_TARGET_OUTAMP, &mc);
} else {
DPRINTF(("%s: headphone has been pulled out.\n", __func__));
mc.un.ord = 0; /* unmute */
generic_mixer_set(this, 0x05, MI_TARGET_OUTAMP, &mc);
/* if no speaker unmute internal mono */
err = this->comresp(this, 0x05, CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
if (!(value & CORB_PS_PRESENCE))
generic_mixer_set(this, 0x07, MI_TARGET_OUTAMP, &mc);
}
break;
case AD1983_EVENT_SPEAKER:
err = this->comresp(this, 0x05, CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
if (value & CORB_PS_PRESENCE) {
DPRINTF(("%s: speaker has been inserted.\n", __func__));
mc.un.ord = 1; /* mute */
generic_mixer_set(this, 0x07, MI_TARGET_OUTAMP, &mc);
} else {
DPRINTF(("%s: speaker has been pulled out.\n", __func__));
/* if no headphones unmute internal mono */
err = this->comresp(this, 0x06, CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
if (!(value & CORB_PS_PRESENCE)) {
mc.un.ord = 0; /* unmute */
generic_mixer_set(this, 0x07, MI_TARGET_OUTAMP, &mc);
}
}
break;
default:
printf("%s: unknown tag: %d\n", __func__, tag);
}
return 0;
}
/* ----------------------------------------------------------------
* Analog Devices AD1984
* ---------------------------------------------------------------- */
#define AD1984_THINKPAD 0x20ac17aa
static int
ad1984_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
int err;
err = generic_mixer_init(this);
if (err)
return err;
if (this->subid == AD1984_THINKPAD) {
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1;
generic_mixer_set(this, 0x12, MI_TARGET_EAPD, &mc);
}
return 0;
}
static int
ad1984_init_widget(const codec_t *this, widget_t *w, nid_t nid)
{
if (this->subid == AD1984_THINKPAD) {
switch (nid) {
case 0x04:
strlcpy(w->name, AudioNdac, sizeof(w->name));
break;
}
}
return 0;
}
/* ----------------------------------------------------------------
* Analog Devices AD1988A/AD1988B
* ---------------------------------------------------------------- */
static int
ad1988_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 3,
{{4, {0x04, 0x05, 0x06, 0x0a}}, /* analog 8ch */
{1, {0x02}}, /* digital */
{1, {0x03}}}}; /* another analog */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x08, 0x09, 0x0f}}, /* analog 6ch */
{1, {0x07}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* CMedia CMI9880
* ---------------------------------------------------------------- */
static const mixer_item_t cmi9880_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AudioNmaster"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x03, MI_TARGET_OUTAMP},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x04, MI_TARGET_OUTAMP},
{{0, {AzaliaNclfe"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x05, MI_TARGET_OUTAMP},
{{0, {AzaliaNside"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x06, MI_TARGET_OUTAMP},
{{0, {AzaliaNdigital"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x07, MI_TARGET_OUTAMP},
{{0, {AzaliaNfront"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(30)}}, 0x08, MI_TARGET_INAMP(0)},
{{0, {AzaliaNfront"."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={4, {{{AudioNmicrophone, 0}, 5}, {{AudioNcd, 0}, 6},
{{"line1", 0}, 7}, {{"line2", 0}, 8}}}},
0x08, MI_TARGET_CONNLIST},
{{0, {AudioNsurround"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, ENUM_OFFON}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_RECORD,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(30)}}, 0x09, MI_TARGET_INAMP(0)},
{{0, {AudioNsurround"."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={4, {{{AudioNmicrophone, 0}, 5}, {{AudioNcd, 0}, 6},
{{"line1", 0}, 7}, {{"line2", 0}, 8}}}},
0x09, MI_TARGET_CONNLIST},
{{0, {AudioNspeaker"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, ENUM_OFFON}, 0x23, MI_TARGET_OUTAMP},
{{0, {AudioNspeaker, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_INPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(15)}}, 0x23, MI_TARGET_OUTAMP}
};
static int
cmi9880_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
this->nmixers = sizeof(cmi9880_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, cmi9880_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1;
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 5; /* record.front.source=mic */
generic_mixer_set(this, 0x08, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 7; /* record.surround.source=line1 */
generic_mixer_set(this, 0x09, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x0b, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x0c, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x0d, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x0e, MI_TARGET_PINDIR, &mc);
generic_mixer_set(this, 0x0f, MI_TARGET_PINDIR, &mc);
mc.un.ord = 0; /* front DAC -> headphones */
generic_mixer_set(this, 0x0f, MI_TARGET_CONNLIST, &mc);
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x10, MI_TARGET_PINDIR, &mc); /* mic */
generic_mixer_set(this, 0x13, MI_TARGET_PINDIR, &mc); /* SPDIF-in */
generic_mixer_set(this, 0x1f, MI_TARGET_PINDIR, &mc); /* line1 */
generic_mixer_set(this, 0x20, MI_TARGET_PINDIR, &mc); /* line2 */
return 0;
}
static int
cmi9880_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 2,
{{4, {0x03, 0x04, 0x05, 0x06}}, /* analog 8ch */
{1, {0x07}}}}; /* digital */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x08, 0x09}}, /* analog 4ch */
{1, {0x0a}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
/* ----------------------------------------------------------------
* Sigmatel STAC9221 and STAC9221D
* ---------------------------------------------------------------- */
#define STAC9221_MAC 0x76808384
static int
stac9221_init_dacgroup(codec_t *this)
{
static const convgroupset_t dacs = {
-1, 3,
{{4, {0x02, 0x03, 0x04, 0x05}}, /* analog 8ch */
{1, {0x08}}, /* digital */
{1, {0x1a}}}}; /* another digital? */
static const convgroupset_t adcs = {
-1, 2,
{{2, {0x06, 0x07}}, /* analog 4ch */
{1, {0x09}}}}; /* digital */
this->dacs = dacs;
this->adcs = adcs;
return 0;
}
static int
stac9221_mixer_init(codec_t *this)
{
int err;
err = generic_mixer_init(this);
if (err)
return err;
if (this->subid == STAC9221_MAC) {
stac9221_gpio_unmute(this, 0);
stac9221_gpio_unmute(this, 1);
}
return 0;
}
static int
stac9221_gpio_unmute(codec_t *this, int pin)
{
uint32_t data, mask, dir;
this->comresp(this, this->audiofunc, CORB_GET_GPIO_DATA, 0, &data);
this->comresp(this, this->audiofunc,
CORB_GET_GPIO_ENABLE_MASK, 0, &mask);
this->comresp(this, this->audiofunc, CORB_GET_GPIO_DIRECTION, 0, &dir);
data &= ~(1 << pin);
mask |= 1 << pin;
dir |= 1 << pin;
this->comresp(this, this->audiofunc, 0x7e7, 0, NULL);
this->comresp(this, this->audiofunc,
CORB_SET_GPIO_ENABLE_MASK, mask, NULL);
this->comresp(this, this->audiofunc,
CORB_SET_GPIO_DIRECTION, dir, NULL);
DELAY(1000);
this->comresp(this, this->audiofunc, CORB_SET_GPIO_DATA, data, NULL);
return 0;
}
/* ----------------------------------------------------------------
* Sigmatel STAC9200 and STAC9200D
* ---------------------------------------------------------------- */
static const mixer_item_t stac9200_mixer_items[] = {
AZ_MIXER_CLASSES,
{{0, {AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={3, {{{AudioNdac, 0}, 0}, {{AzaliaNdigital"-in", 0}, 1},
{{"selector", 0}, 2}}}}, 0x07, MI_TARGET_CONNLIST},
{{0, {AzaliaNdigital"."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, .un.e={2, {{{AudioNdac, 0}, 0}, {{"selector", 0}, 1}}}},
0x09, MI_TARGET_CONNLIST}, /* AudioNdac is not accurate name */
{{0, {"selector."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x0a, MI_TARGET_OUTAMP},
{{0, {"selector", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(15)}}, 0x0a, MI_TARGET_OUTAMP},
{{0, {AudioNmaster"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x0b, MI_TARGET_OUTAMP},
{{0, {AudioNmaster, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 2, MIXER_DELTA(31)}}, 0x0b, MI_TARGET_OUTAMP},
{{0, {"selector."AudioNsource, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_INPUT,
0, 0, .un.e={3, {{{"mic1", 0}, 0}, {{"mic2", 0}, 1}, {{AudioNcd, 0}, 4}}}},
0x0c, MI_TARGET_CONNLIST},
{{0, {AudioNheadphone".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x0d, MI_TARGET_PINBOOST},
{{0, {AudioNspeaker".boost", 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x0e, MI_TARGET_PINBOOST},
{{0, {AudioNmono"."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x11, MI_TARGET_OUTAMP},
{{0, {AudioNmono, 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(31)}}, 0x11, MI_TARGET_OUTAMP},
{{0, {"beep."AudioNmute, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_OUTPUT,
0, 0, ENUM_OFFON}, 0x14, MI_TARGET_OUTAMP},
{{0, {"beep", 0}, AUDIO_MIXER_VALUE, AZ_CLASS_OUTPUT,
0, 0, .un.v={{"", 0}, 1, MIXER_DELTA(3)}}, 0x14, MI_TARGET_OUTAMP},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_PLAYBACK,
0, 0, .un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}},
0, MI_TARGET_DAC},
{{0, {AudioNmode, 0}, AUDIO_MIXER_ENUM, AZ_CLASS_RECORD,
0, 0, .un.e={2, {{{"analog", 0}, 0}, {{AzaliaNdigital, 0}, 1}}}},
0, MI_TARGET_ADC},
};
static int
stac9200_mixer_init(codec_t *this)
{
mixer_ctrl_t mc;
uint32_t value;
this->nmixers = sizeof(stac9200_mixer_items) / sizeof(mixer_item_t);
this->mixers = malloc(sizeof(mixer_item_t) * this->nmixers,
M_DEVBUF, M_ZERO | M_NOWAIT);
if (this->mixers == NULL) {
aprint_error("%s: out of memory in %s\n", XNAME(this), __func__);
return ENOMEM;
}
memcpy(this->mixers, stac9200_mixer_items,
sizeof(mixer_item_t) * this->nmixers);
generic_mixer_fix_indexes(this);
generic_mixer_default(this);
mc.dev = -1; /* no need for generic_mixer_set() */
mc.type = AUDIO_MIXER_ENUM;
mc.un.ord = 1; /* pindir: output */
generic_mixer_set(this, 0x0d, MI_TARGET_PINDIR, &mc); /* headphones */
generic_mixer_set(this, 0x0e, MI_TARGET_PINDIR, &mc); /* speaker */
mc.un.ord = 0; /* pindir: input */
generic_mixer_set(this, 0x0f, MI_TARGET_PINDIR, &mc); /* mic2 */
generic_mixer_set(this, 0x10, MI_TARGET_PINDIR, &mc); /* mic1 */
mc.type = AUDIO_MIXER_VALUE;
mc.un.value.num_channels = 2;
mc.un.value.level[0] = generic_mixer_max(this, 0x0c, MI_TARGET_OUTAMP);
mc.un.value.level[1] = mc.un.value.level[0];
generic_mixer_set(this, 0x0c, MI_TARGET_OUTAMP, &mc);
#define STAC9200_DELL_INSPIRON6400_ID 0x01bd1028
#define STAC9200_DELL_INSPIRON9400_ID 0x01cd1028
#define STAC9200_DELL_640M_ID 0x01d81028
#define STAC9200_DELL_LATITUDE_D430_ID 0x02011028
#define STAC9200_EVENT_HP 0
#define STAC9200_NID_HP 0x0d
#define STAC9200_NID_SPEAKER 0x0e
if (this->subid == STAC9200_DELL_INSPIRON6400_ID ||
this->subid == STAC9200_DELL_INSPIRON9400_ID ||
this->subid == STAC9200_DELL_640M_ID ||
this->subid == STAC9200_DELL_LATITUDE_D430_ID) {
/* Does every DELL model have the same pin configuration?
* I'm not sure. */
/* setup a unsolicited event for the headphones */
this->comresp(this, STAC9200_NID_HP, CORB_SET_UNSOLICITED_RESPONSE,
CORB_UNSOL_ENABLE | STAC9200_EVENT_HP, NULL);
/* If the headphone presents, mute the internal speaker */
this->comresp(this, STAC9200_NID_HP, CORB_GET_PIN_SENSE, 0, &value);
if (value & CORB_PS_PRESENCE) {
generic_mixer_pinctrl(this, STAC9200_NID_SPEAKER, 0);
} else {
generic_mixer_pinctrl(this,
STAC9200_NID_SPEAKER, CORB_PWC_OUTPUT);
}
}
return 0;
}
static int
stac9200_unsol_event(codec_t *this, int tag)
{
int err;
uint32_t value;
switch (tag) {
case STAC9200_EVENT_HP:
err = this->comresp(this, STAC9200_NID_HP,
CORB_GET_PIN_SENSE, 0, &value);
if (err)
break;
if (value & CORB_PS_PRESENCE) {
DPRINTF(("%s: headphone has been inserted.\n", __func__));
generic_mixer_pinctrl(this, STAC9200_NID_SPEAKER, 0);
} else {
DPRINTF(("%s: headphone has been pulled out.\n", __func__));
generic_mixer_pinctrl(this, STAC9200_NID_SPEAKER, CORB_PWC_OUTPUT);
}
break;
default:
printf("%s: unknown tag: %d\n", __func__, tag);
}
return 0;
}