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|
/* $OpenBSD: azalia.c,v 1.249 2019/05/09 14:50:46 bcook Exp $ */
/* $NetBSD: azalia.c,v 1.20 2006/05/07 08:31:44 kent Exp $ */
/*-
* Copyright (c) 2005 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by TAMURA Kent
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* High Definition Audio Specification
*
* http://www.intel.com/content/dam/www/public/us/en/documents/product-specifications/high-definition-audio-specification.pdf
*
*
* TO DO:
* - multiple codecs (needed?)
* - multiple streams (needed?)
*/
#include <sys/param.h>
#include <sys/fcntl.h>
#include <sys/device.h>
#include <sys/malloc.h>
#include <sys/systm.h>
#include <sys/timeout.h>
#include <dev/audio_if.h>
#include <dev/pci/pcidevs.h>
#include <dev/pci/pcivar.h>
#include <dev/pci/azalia.h>
typedef struct audio_params audio_params_t;
struct audio_format {
void *driver_data;
int32_t mode;
u_int encoding;
u_int precision;
u_int channels;
/**
* 0: frequency[0] is lower limit, and frequency[1] is higher limit.
* 1-16: frequency[0] to frequency[frequency_type-1] are valid.
*/
u_int frequency_type;
#define AUFMT_MAX_FREQUENCIES 16
/**
* sampling rates
*/
u_int frequency[AUFMT_MAX_FREQUENCIES];
};
#ifdef AZALIA_DEBUG
# define DPRINTFN(n,x) do { if (az_debug > (n)) printf x; } while (0/*CONSTCOND*/)
int az_debug = 0;
#else
# define DPRINTFN(n,x) do {} while (0/*CONSTCOND*/)
#endif
/* ----------------------------------------------------------------
* ICH6/ICH7 constant values
* ---------------------------------------------------------------- */
/* PCI registers */
#define ICH_PCI_HDBARL 0x10
#define ICH_PCI_HDBARU 0x14
#define ICH_PCI_HDCTL 0x40
#define ICH_PCI_HDCTL_CLKDETCLR 0x08
#define ICH_PCI_HDCTL_CLKDETEN 0x04
#define ICH_PCI_HDCTL_CLKDETINV 0x02
#define ICH_PCI_HDCTL_SIGNALMODE 0x01
#define ICH_PCI_HDTCSEL 0x44
#define ICH_PCI_HDTCSEL_MASK 0x7
#define ICH_PCI_MMC 0x62
#define ICH_PCI_MMC_ME 0x1
/* internal types */
typedef struct {
bus_dmamap_t map;
caddr_t addr; /* kernel virtual address */
bus_dma_segment_t segments[1];
size_t size;
} azalia_dma_t;
#define AZALIA_DMA_DMAADDR(p) ((p)->map->dm_segs[0].ds_addr)
typedef struct {
struct azalia_t *az;
int regbase;
int number;
int dir; /* AUMODE_PLAY or AUMODE_RECORD */
uint32_t intr_bit;
azalia_dma_t bdlist;
azalia_dma_t buffer;
void (*intr)(void*);
void *intr_arg;
int bufsize;
uint16_t fmt;
int blk;
unsigned int swpos; /* position in the audio(4) layer */
} stream_t;
#define STR_READ_1(s, r) \
bus_space_read_1((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r)
#define STR_READ_2(s, r) \
bus_space_read_2((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r)
#define STR_READ_4(s, r) \
bus_space_read_4((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r)
#define STR_WRITE_1(s, r, v) \
bus_space_write_1((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r, v)
#define STR_WRITE_2(s, r, v) \
bus_space_write_2((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r, v)
#define STR_WRITE_4(s, r, v) \
bus_space_write_4((s)->az->iot, (s)->az->ioh, (s)->regbase + HDA_SD_##r, v)
typedef struct azalia_t {
struct device dev;
pci_chipset_tag_t pc;
pcitag_t tag;
void *ih;
bus_space_tag_t iot;
bus_space_handle_t ioh;
bus_size_t map_size;
bus_dma_tag_t dmat;
pcireg_t pciid;
uint32_t subid;
codec_t *codecs;
int ncodecs; /* number of codecs */
int codecno; /* index of the using codec */
int detached; /* 1 if failed to initialize, 2 if
* azalia_pci_detach has run
*/
azalia_dma_t corb_dma;
int corb_entries;
uint8_t corbsize;
azalia_dma_t rirb_dma;
int rirb_entries;
uint8_t rirbsize;
int rirb_rp;
#define UNSOLQ_SIZE 256
rirb_entry_t *unsolq;
int unsolq_wp;
int unsolq_rp;
int unsolq_kick;
struct timeout unsol_to;
int ok64;
int nistreams, nostreams, nbstreams;
stream_t pstream;
stream_t rstream;
} azalia_t;
#define XNAME(sc) ((sc)->dev.dv_xname)
#define AZ_READ_1(z, r) bus_space_read_1((z)->iot, (z)->ioh, HDA_##r)
#define AZ_READ_2(z, r) bus_space_read_2((z)->iot, (z)->ioh, HDA_##r)
#define AZ_READ_4(z, r) bus_space_read_4((z)->iot, (z)->ioh, HDA_##r)
#define AZ_WRITE_1(z, r, v) bus_space_write_1((z)->iot, (z)->ioh, HDA_##r, v)
#define AZ_WRITE_2(z, r, v) bus_space_write_2((z)->iot, (z)->ioh, HDA_##r, v)
#define AZ_WRITE_4(z, r, v) bus_space_write_4((z)->iot, (z)->ioh, HDA_##r, v)
/* prototypes */
uint8_t azalia_pci_read(pci_chipset_tag_t, pcitag_t, int);
void azalia_pci_write(pci_chipset_tag_t, pcitag_t, int, uint8_t);
int azalia_pci_match(struct device *, void *, void *);
void azalia_pci_attach(struct device *, struct device *, void *);
int azalia_pci_activate(struct device *, int);
int azalia_pci_detach(struct device *, int);
void azalia_configure_pci(azalia_t *);
int azalia_intr(void *);
void azalia_print_codec(codec_t *);
int azalia_reset(azalia_t *);
int azalia_get_ctrlr_caps(azalia_t *);
int azalia_init(azalia_t *, int);
int azalia_init_codecs(azalia_t *);
int azalia_init_streams(azalia_t *);
void azalia_shutdown(void *);
int azalia_halt_corb(azalia_t *);
int azalia_init_corb(azalia_t *, int);
int azalia_halt_rirb(azalia_t *);
int azalia_init_rirb(azalia_t *, int);
int azalia_set_command(azalia_t *, nid_t, int, uint32_t, uint32_t);
int azalia_get_response(azalia_t *, uint32_t *);
void azalia_rirb_kick_unsol_events(void *);
void azalia_rirb_intr(azalia_t *);
int azalia_alloc_dmamem(azalia_t *, size_t, size_t, azalia_dma_t *);
void azalia_free_dmamem(const azalia_t *, azalia_dma_t*);
int azalia_codec_init(codec_t *);
int azalia_codec_delete(codec_t *);
void azalia_codec_add_bits(codec_t *, int, uint32_t, int);
void azalia_codec_add_format(codec_t *, int, int, uint32_t, int32_t);
int azalia_codec_connect_stream(stream_t *);
int azalia_codec_disconnect_stream(stream_t *);
void azalia_codec_print_audiofunc(const codec_t *);
void azalia_codec_print_groups(const codec_t *);
int azalia_codec_find_defdac(codec_t *, int, int);
int azalia_codec_find_defadc(codec_t *, int, int);
int azalia_codec_find_defadc_sub(codec_t *, nid_t, int, int);
int azalia_codec_init_volgroups(codec_t *);
int azalia_codec_sort_pins(codec_t *);
int azalia_codec_select_micadc(codec_t *);
int azalia_codec_select_dacs(codec_t *);
int azalia_codec_select_spkrdac(codec_t *);
int azalia_codec_find_inputmixer(codec_t *);
int azalia_widget_init(widget_t *, const codec_t *, int);
int azalia_widget_label_widgets(codec_t *);
int azalia_widget_init_audio(widget_t *, const codec_t *);
int azalia_widget_init_pin(widget_t *, const codec_t *);
int azalia_widget_init_connection(widget_t *, const codec_t *);
int azalia_widget_check_conn(codec_t *, int, int);
int azalia_widget_sole_conn(codec_t *, nid_t);
void azalia_widget_print_widget(const widget_t *, const codec_t *);
void azalia_widget_print_audio(const widget_t *, const char *);
void azalia_widget_print_pin(const widget_t *);
int azalia_stream_init(stream_t *, azalia_t *, int, int, int);
int azalia_stream_reset(stream_t *);
int azalia_stream_start(stream_t *);
int azalia_stream_halt(stream_t *);
int azalia_stream_intr(stream_t *);
int azalia_open(void *, int);
void azalia_close(void *);
int azalia_set_params(void *, int, int, audio_params_t *,
audio_params_t *);
int azalia_round_blocksize(void *, int);
int azalia_halt_output(void *);
int azalia_halt_input(void *);
int azalia_set_port(void *, mixer_ctrl_t *);
int azalia_get_port(void *, mixer_ctrl_t *);
int azalia_query_devinfo(void *, mixer_devinfo_t *);
void *azalia_allocm(void *, int, size_t, int, int);
void azalia_freem(void *, void *, int);
size_t azalia_round_buffersize(void *, int, size_t);
int azalia_get_props(void *);
int azalia_trigger_output(void *, void *, void *, int,
void (*)(void *), void *, audio_params_t *);
int azalia_trigger_input(void *, void *, void *, int,
void (*)(void *), void *, audio_params_t *);
int azalia_params2fmt(const audio_params_t *, uint16_t *);
int azalia_match_format(codec_t *, int, audio_params_t *);
int azalia_set_params_sub(codec_t *, int, audio_params_t *);
int azalia_suspend(azalia_t *);
int azalia_resume(azalia_t *);
int azalia_resume_codec(codec_t *);
/* variables */
struct cfattach azalia_ca = {
sizeof(azalia_t), azalia_pci_match, azalia_pci_attach,
azalia_pci_detach, azalia_pci_activate
};
struct cfdriver azalia_cd = {
NULL, "azalia", DV_DULL
};
struct audio_hw_if azalia_hw_if = {
azalia_open,
azalia_close,
azalia_set_params,
azalia_round_blocksize,
NULL, /* commit_settings */
NULL, /* init_output */
NULL, /* init_input */
NULL, /* start_output */
NULL, /* start_input */
azalia_halt_output,
azalia_halt_input,
NULL, /* speaker_ctl */
NULL, /* setfd */
azalia_set_port,
azalia_get_port,
azalia_query_devinfo,
azalia_allocm,
azalia_freem,
azalia_round_buffersize,
azalia_get_props,
azalia_trigger_output,
azalia_trigger_input
};
static const char *pin_devices[16] = {
AudioNline, AudioNspeaker, AudioNheadphone, AudioNcd,
"SPDIF", "digital-out", "modem-line", "modem-handset",
"line-in", AudioNaux, AudioNmicrophone, "telephony",
"SPDIF-in", "digital-in", "beep", "other"};
static const char *wtypes[16] = {
"dac", "adc", "mix", "sel", "pin", "pow", "volume",
"beep", "wid08", "wid09", "wid0a", "wid0b", "wid0c",
"wid0d", "wid0e", "vendor"};
static const char *line_colors[16] = {
"unk", "blk", "gry", "blu", "grn", "red", "org", "yel",
"pur", "pnk", "0xa", "0xb", "0xc", "0xd", "wht", "oth"};
/* ================================================================
* PCI functions
* ================================================================ */
#define ATI_PCIE_SNOOP_REG 0x42
#define ATI_PCIE_SNOOP_MASK 0xf8
#define ATI_PCIE_SNOOP_ENABLE 0x02
#define NVIDIA_PCIE_SNOOP_REG 0x4e
#define NVIDIA_PCIE_SNOOP_MASK 0xf0
#define NVIDIA_PCIE_SNOOP_ENABLE 0x0f
#define NVIDIA_HDA_ISTR_COH_REG 0x4d
#define NVIDIA_HDA_OSTR_COH_REG 0x4c
#define NVIDIA_HDA_STR_COH_ENABLE 0x01
#define INTEL_PCIE_NOSNOOP_REG 0x79
#define INTEL_PCIE_NOSNOOP_MASK 0xf7
#define INTEL_PCIE_NOSNOOP_ENABLE 0x08
uint8_t
azalia_pci_read(pci_chipset_tag_t pc, pcitag_t pa, int reg)
{
return (pci_conf_read(pc, pa, (reg & ~0x03)) >>
((reg & 0x03) * 8) & 0xff);
}
void
azalia_pci_write(pci_chipset_tag_t pc, pcitag_t pa, int reg, uint8_t val)
{
pcireg_t pcival;
pcival = pci_conf_read(pc, pa, (reg & ~0x03));
pcival &= ~(0xff << ((reg & 0x03) * 8));
pcival |= (val << ((reg & 0x03) * 8));
pci_conf_write(pc, pa, (reg & ~0x03), pcival);
}
void
azalia_configure_pci(azalia_t *az)
{
pcireg_t v;
uint8_t reg;
/* enable back-to-back */
v = pci_conf_read(az->pc, az->tag, PCI_COMMAND_STATUS_REG);
pci_conf_write(az->pc, az->tag, PCI_COMMAND_STATUS_REG,
v | PCI_COMMAND_BACKTOBACK_ENABLE);
/* traffic class select */
v = pci_conf_read(az->pc, az->tag, ICH_PCI_HDTCSEL);
pci_conf_write(az->pc, az->tag, ICH_PCI_HDTCSEL,
v & ~(ICH_PCI_HDTCSEL_MASK));
/* enable PCIe snoop */
switch (PCI_PRODUCT(az->pciid)) {
case PCI_PRODUCT_ATI_SB450_HDA:
case PCI_PRODUCT_ATI_SBX00_HDA:
case PCI_PRODUCT_AMD_HUDSON2_HDA:
reg = azalia_pci_read(az->pc, az->tag, ATI_PCIE_SNOOP_REG);
reg &= ATI_PCIE_SNOOP_MASK;
reg |= ATI_PCIE_SNOOP_ENABLE;
azalia_pci_write(az->pc, az->tag, ATI_PCIE_SNOOP_REG, reg);
break;
case PCI_PRODUCT_NVIDIA_MCP51_HDA:
case PCI_PRODUCT_NVIDIA_MCP55_HDA:
case PCI_PRODUCT_NVIDIA_MCP61_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP61_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP65_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP65_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP67_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP67_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP73_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP73_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP77_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP77_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP77_HDA_3:
case PCI_PRODUCT_NVIDIA_MCP77_HDA_4:
case PCI_PRODUCT_NVIDIA_MCP79_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP79_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP79_HDA_3:
case PCI_PRODUCT_NVIDIA_MCP79_HDA_4:
case PCI_PRODUCT_NVIDIA_MCP89_HDA_1:
case PCI_PRODUCT_NVIDIA_MCP89_HDA_2:
case PCI_PRODUCT_NVIDIA_MCP89_HDA_3:
case PCI_PRODUCT_NVIDIA_MCP89_HDA_4:
reg = azalia_pci_read(az->pc, az->tag,
NVIDIA_HDA_OSTR_COH_REG);
reg |= NVIDIA_HDA_STR_COH_ENABLE;
azalia_pci_write(az->pc, az->tag,
NVIDIA_HDA_OSTR_COH_REG, reg);
reg = azalia_pci_read(az->pc, az->tag,
NVIDIA_HDA_ISTR_COH_REG);
reg |= NVIDIA_HDA_STR_COH_ENABLE;
azalia_pci_write(az->pc, az->tag,
NVIDIA_HDA_ISTR_COH_REG, reg);
reg = azalia_pci_read(az->pc, az->tag,
NVIDIA_PCIE_SNOOP_REG);
reg &= NVIDIA_PCIE_SNOOP_MASK;
reg |= NVIDIA_PCIE_SNOOP_ENABLE;
azalia_pci_write(az->pc, az->tag,
NVIDIA_PCIE_SNOOP_REG, reg);
reg = azalia_pci_read(az->pc, az->tag,
NVIDIA_PCIE_SNOOP_REG);
if ((reg & NVIDIA_PCIE_SNOOP_ENABLE) !=
NVIDIA_PCIE_SNOOP_ENABLE) {
printf(": could not enable PCIe cache snooping!\n");
}
break;
case PCI_PRODUCT_INTEL_82801FB_HDA:
case PCI_PRODUCT_INTEL_82801GB_HDA:
case PCI_PRODUCT_INTEL_82801H_HDA:
case PCI_PRODUCT_INTEL_82801I_HDA:
case PCI_PRODUCT_INTEL_82801JI_HDA:
case PCI_PRODUCT_INTEL_82801JD_HDA:
case PCI_PRODUCT_INTEL_6321ESB_HDA:
case PCI_PRODUCT_INTEL_3400_HDA:
case PCI_PRODUCT_INTEL_QS57_HDA:
case PCI_PRODUCT_INTEL_6SERIES_HDA:
case PCI_PRODUCT_INTEL_7SERIES_HDA:
case PCI_PRODUCT_INTEL_8SERIES_HDA:
case PCI_PRODUCT_INTEL_8SERIES_LP_HDA:
case PCI_PRODUCT_INTEL_9SERIES_HDA:
case PCI_PRODUCT_INTEL_9SERIES_LP_HDA:
case PCI_PRODUCT_INTEL_BAYTRAIL_HDA:
case PCI_PRODUCT_INTEL_100SERIES_HDA:
case PCI_PRODUCT_INTEL_100SERIES_LP_HDA:
case PCI_PRODUCT_INTEL_200SERIES_HDA:
case PCI_PRODUCT_INTEL_200SERIES_U_HDA:
case PCI_PRODUCT_INTEL_C600_HDA:
case PCI_PRODUCT_INTEL_C610_HDA:
case PCI_PRODUCT_INTEL_BSW_HDA:
case PCI_PRODUCT_INTEL_APOLLOLAKE_HDA:
reg = azalia_pci_read(az->pc, az->tag,
INTEL_PCIE_NOSNOOP_REG);
reg &= INTEL_PCIE_NOSNOOP_MASK;
azalia_pci_write(az->pc, az->tag,
INTEL_PCIE_NOSNOOP_REG, reg);
break;
}
}
int
azalia_pci_match(struct device *parent, void *match, void *aux)
{
struct pci_attach_args *pa;
pa = aux;
if (PCI_CLASS(pa->pa_class) == PCI_CLASS_MULTIMEDIA
&& PCI_SUBCLASS(pa->pa_class) == PCI_SUBCLASS_MULTIMEDIA_HDAUDIO)
return 1;
return 0;
}
void
azalia_pci_attach(struct device *parent, struct device *self, void *aux)
{
azalia_t *sc;
struct pci_attach_args *pa;
pcireg_t v;
uint8_t reg;
pci_intr_handle_t ih;
const char *interrupt_str;
sc = (azalia_t*)self;
pa = aux;
sc->dmat = pa->pa_dmat;
pci_set_powerstate(pa->pa_pc, pa->pa_tag, PCI_PMCSR_STATE_D0);
v = pci_conf_read(pa->pa_pc, pa->pa_tag, ICH_PCI_HDBARL);
v &= PCI_MAPREG_TYPE_MASK | PCI_MAPREG_MEM_TYPE_MASK;
if (pci_mapreg_map(pa, ICH_PCI_HDBARL, v, 0,
&sc->iot, &sc->ioh, NULL, &sc->map_size, 0)) {
printf(": can't map device i/o space\n");
return;
}
sc->pc = pa->pa_pc;
sc->tag = pa->pa_tag;
sc->pciid = pa->pa_id;
sc->subid = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_SUBSYS_ID_REG);
azalia_configure_pci(sc);
/* disable MSI, use INTx instead */
if (PCI_VENDOR(sc->pciid) == PCI_VENDOR_INTEL) {
reg = azalia_pci_read(sc->pc, sc->tag, ICH_PCI_MMC);
reg &= ~(ICH_PCI_MMC_ME);
azalia_pci_write(sc->pc, sc->tag, ICH_PCI_MMC, reg);
}
/* disable MSI for AMD Summit Ridge/Raven Ridge HD Audio */
if (PCI_VENDOR(sc->pciid) == PCI_VENDOR_AMD) {
switch (PCI_PRODUCT(sc->pciid)) {
case PCI_PRODUCT_AMD_AMD64_17_HDA:
case PCI_PRODUCT_AMD_AMD64_17_1X_HDA:
pa->pa_flags &= ~PCI_FLAGS_MSI_ENABLED;
}
}
/* interrupt */
if (pci_intr_map_msi(pa, &ih) && pci_intr_map(pa, &ih)) {
printf(": can't map interrupt\n");
return;
}
interrupt_str = pci_intr_string(pa->pa_pc, ih);
sc->ih = pci_intr_establish(pa->pa_pc, ih, IPL_AUDIO | IPL_MPSAFE,
azalia_intr, sc, sc->dev.dv_xname);
if (sc->ih == NULL) {
printf(": can't establish interrupt");
if (interrupt_str != NULL)
printf(" at %s", interrupt_str);
printf("\n");
return;
}
printf(": %s\n", interrupt_str);
if (azalia_init(sc, 0))
goto err_exit;
if (azalia_init_codecs(sc))
goto err_exit;
if (azalia_init_streams(sc))
goto err_exit;
audio_attach_mi(&azalia_hw_if, sc, &sc->dev);
return;
err_exit:
sc->detached = 1;
azalia_pci_detach(self, 0);
}
int
azalia_pci_activate(struct device *self, int act)
{
azalia_t *sc = (azalia_t*)self;
int rv = 0;
switch (act) {
case DVACT_SUSPEND:
azalia_suspend(sc);
break;
case DVACT_POWERDOWN:
azalia_shutdown(sc);
break;
case DVACT_RESUME:
azalia_resume(sc);
rv = config_activate_children(self, act);
break;
default:
rv = config_activate_children(self, act);
break;
}
return (rv);
}
int
azalia_pci_detach(struct device *self, int flags)
{
azalia_t *az = (azalia_t*)self;
uint32_t gctl;
int i;
DPRINTF(("%s\n", __func__));
/*
* this function is called if the device could not be supported,
* in which case az->detached == 1. check if this function has
* already cleaned up.
*/
if (az->detached > 1)
return 0;
config_detach_children(self, flags);
/* disable unsolicited responses if soft detaching */
if (az->detached == 1) {
gctl = AZ_READ_4(az, GCTL);
AZ_WRITE_4(az, GCTL, gctl &~(HDA_GCTL_UNSOL));
}
timeout_del(&az->unsol_to);
DPRINTF(("%s: delete streams\n", __func__));
if (az->rstream.bdlist.addr != NULL)
azalia_free_dmamem(az, &az->rstream.bdlist);
if (az->pstream.bdlist.addr != NULL)
azalia_free_dmamem(az, &az->pstream.bdlist);
DPRINTF(("%s: delete codecs\n", __func__));
for (i = 0; i < az->ncodecs; i++) {
azalia_codec_delete(&az->codecs[i]);
}
az->ncodecs = 0;
if (az->codecs != NULL) {
free(az->codecs, M_DEVBUF, 0);
az->codecs = NULL;
}
DPRINTF(("%s: delete CORB and RIRB\n", __func__));
if (az->corb_dma.addr != NULL)
azalia_free_dmamem(az, &az->corb_dma);
if (az->rirb_dma.addr != NULL)
azalia_free_dmamem(az, &az->rirb_dma);
if (az->unsolq != NULL) {
free(az->unsolq, M_DEVBUF, 0);
az->unsolq = NULL;
}
/* disable interrupts if soft detaching */
if (az->detached == 1) {
DPRINTF(("%s: disable interrupts\n", __func__));
AZ_WRITE_4(az, INTCTL, 0);
DPRINTF(("%s: clear interrupts\n", __func__));
AZ_WRITE_4(az, INTSTS, HDA_INTSTS_CIS | HDA_INTSTS_GIS);
AZ_WRITE_2(az, STATESTS, HDA_STATESTS_SDIWAKE);
AZ_WRITE_1(az, RIRBSTS, HDA_RIRBSTS_RINTFL | HDA_RIRBSTS_RIRBOIS);
}
DPRINTF(("%s: delete PCI resources\n", __func__));
if (az->ih != NULL) {
pci_intr_disestablish(az->pc, az->ih);
az->ih = NULL;
}
if (az->map_size != 0) {
bus_space_unmap(az->iot, az->ioh, az->map_size);
az->map_size = 0;
}
az->detached = 2;
return 0;
}
int
azalia_intr(void *v)
{
azalia_t *az = v;
uint32_t intsts;
int ret = 0;
mtx_enter(&audio_lock);
intsts = AZ_READ_4(az, INTSTS);
if (intsts == 0 || intsts == 0xffffffff) {
mtx_leave(&audio_lock);
return (ret);
}
AZ_WRITE_4(az, INTSTS, intsts);
if (intsts & az->pstream.intr_bit) {
azalia_stream_intr(&az->pstream);
ret = 1;
}
if (intsts & az->rstream.intr_bit) {
azalia_stream_intr(&az->rstream);
ret = 1;
}
if ((intsts & HDA_INTSTS_CIS) &&
(AZ_READ_1(az, RIRBCTL) & HDA_RIRBCTL_RINTCTL) &&
(AZ_READ_1(az, RIRBSTS) & HDA_RIRBSTS_RINTFL)) {
azalia_rirb_intr(az);
ret = 1;
}
mtx_leave(&audio_lock);
return (ret);
}
void
azalia_shutdown(void *v)
{
azalia_t *az = (azalia_t *)v;
uint32_t gctl;
/* disable unsolicited response */
gctl = AZ_READ_4(az, GCTL);
AZ_WRITE_4(az, GCTL, gctl & ~(HDA_GCTL_UNSOL));
timeout_del(&az->unsol_to);
/* halt CORB/RIRB */
azalia_halt_corb(az);
azalia_halt_rirb(az);
}
/* ================================================================
* HDA controller functions
* ================================================================ */
void
azalia_print_codec(codec_t *codec)
{
const char *vendor;
if (codec->name == NULL) {
vendor = pci_findvendor(codec->vid >> 16);
if (vendor == NULL)
printf("0x%04x/0x%04x",
codec->vid >> 16, codec->vid & 0xffff);
else
printf("%s/0x%04x", vendor, codec->vid & 0xffff);
} else
printf("%s", codec->name);
}
int
azalia_reset(azalia_t *az)
{
uint32_t gctl;
int i;
/* 4.2.2 Starting the High Definition Audio Controller */
DPRINTF(("%s: resetting\n", __func__));
gctl = AZ_READ_4(az, GCTL);
AZ_WRITE_4(az, GCTL, gctl & ~HDA_GCTL_CRST);
for (i = 5000; i > 0; i--) {
DELAY(10);
if ((AZ_READ_4(az, GCTL) & HDA_GCTL_CRST) == 0)
break;
}
DPRINTF(("%s: reset counter = %d\n", __func__, i));
if (i == 0) {
DPRINTF(("%s: reset failure\n", XNAME(az)));
return(ETIMEDOUT);
}
DELAY(1000);
gctl = AZ_READ_4(az, GCTL);
AZ_WRITE_4(az, GCTL, gctl | HDA_GCTL_CRST);
for (i = 5000; i > 0; i--) {
DELAY(10);
if (AZ_READ_4(az, GCTL) & HDA_GCTL_CRST)
break;
}
DPRINTF(("%s: reset counter = %d\n", __func__, i));
if (i == 0) {
DPRINTF(("%s: reset-exit failure\n", XNAME(az)));
return(ETIMEDOUT);
}
DELAY(1000);
return(0);
}
int
azalia_get_ctrlr_caps(azalia_t *az)
{
int i, n;
uint16_t gcap;
uint16_t statests;
uint8_t cap;
DPRINTF(("%s: host: High Definition Audio rev. %d.%d\n",
XNAME(az), AZ_READ_1(az, VMAJ), AZ_READ_1(az, VMIN)));
gcap = AZ_READ_2(az, GCAP);
az->nistreams = HDA_GCAP_ISS(gcap);
az->nostreams = HDA_GCAP_OSS(gcap);
az->nbstreams = HDA_GCAP_BSS(gcap);
az->ok64 = (gcap & HDA_GCAP_64OK) != 0;
DPRINTF(("%s: host: %d output, %d input, and %d bidi streams\n",
XNAME(az), az->nostreams, az->nistreams, az->nbstreams));
/* 4.3 Codec discovery */
statests = AZ_READ_2(az, STATESTS);
for (i = 0, n = 0; i < HDA_MAX_CODECS; i++) {
if ((statests >> i) & 1) {
DPRINTF(("%s: found a codec at #%d\n", XNAME(az), i));
n++;
}
}
az->ncodecs = n;
if (az->ncodecs < 1) {
printf("%s: no HD-Audio codecs\n", XNAME(az));
return -1;
}
az->codecs = mallocarray(az->ncodecs, sizeof(codec_t), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (az->codecs == NULL) {
printf("%s: can't allocate memory for codecs\n", XNAME(az));
return ENOMEM;
}
for (i = 0, n = 0; n < az->ncodecs; i++) {
if ((statests >> i) & 1) {
az->codecs[n].address = i;
az->codecs[n++].az = az;
}
}
/* determine CORB size */
az->corbsize = AZ_READ_1(az, CORBSIZE);
cap = az->corbsize & HDA_CORBSIZE_CORBSZCAP_MASK;
az->corbsize &= ~HDA_CORBSIZE_CORBSIZE_MASK;
if (cap & HDA_CORBSIZE_CORBSZCAP_256) {
az->corb_entries = 256;
az->corbsize |= HDA_CORBSIZE_CORBSIZE_256;
} else if (cap & HDA_CORBSIZE_CORBSZCAP_16) {
az->corb_entries = 16;
az->corbsize |= HDA_CORBSIZE_CORBSIZE_16;
} else if (cap & HDA_CORBSIZE_CORBSZCAP_2) {
az->corb_entries = 2;
az->corbsize |= HDA_CORBSIZE_CORBSIZE_2;
} else {
printf("%s: invalid CORBSZCAP: 0x%2x\n", XNAME(az), cap);
return(-1);
}
/* determine RIRB size */
az->rirbsize = AZ_READ_1(az, RIRBSIZE);
cap = az->rirbsize & HDA_RIRBSIZE_RIRBSZCAP_MASK;
az->rirbsize &= ~HDA_RIRBSIZE_RIRBSIZE_MASK;
if (cap & HDA_RIRBSIZE_RIRBSZCAP_256) {
az->rirb_entries = 256;
az->rirbsize |= HDA_RIRBSIZE_RIRBSIZE_256;
} else if (cap & HDA_RIRBSIZE_RIRBSZCAP_16) {
az->rirb_entries = 16;
az->rirbsize |= HDA_RIRBSIZE_RIRBSIZE_16;
} else if (cap & HDA_RIRBSIZE_RIRBSZCAP_2) {
az->rirb_entries = 2;
az->rirbsize |= HDA_RIRBSIZE_RIRBSIZE_2;
} else {
printf("%s: invalid RIRBSZCAP: 0x%2x\n", XNAME(az), cap);
return(-1);
}
return(0);
}
int
azalia_init(azalia_t *az, int resuming)
{
int err;
err = azalia_reset(az);
if (err)
return(err);
if (!resuming) {
err = azalia_get_ctrlr_caps(az);
if (err)
return(err);
}
/* clear interrupt status */
AZ_WRITE_2(az, STATESTS, HDA_STATESTS_SDIWAKE);
AZ_WRITE_1(az, RIRBSTS, HDA_RIRBSTS_RINTFL | HDA_RIRBSTS_RIRBOIS);
AZ_WRITE_4(az, INTSTS, HDA_INTSTS_CIS | HDA_INTSTS_GIS);
AZ_WRITE_4(az, DPLBASE, 0);
AZ_WRITE_4(az, DPUBASE, 0);
/* 4.4.1 Command Outbound Ring Buffer */
err = azalia_init_corb(az, resuming);
if (err)
return(err);
/* 4.4.2 Response Inbound Ring Buffer */
err = azalia_init_rirb(az, resuming);
if (err)
return(err);
AZ_WRITE_4(az, INTCTL,
AZ_READ_4(az, INTCTL) | HDA_INTCTL_CIE | HDA_INTCTL_GIE);
return(0);
}
int
azalia_init_codecs(azalia_t *az)
{
codec_t *codec;
int c, i;
c = 0;
for (i = 0; i < az->ncodecs; i++) {
if (!azalia_codec_init(&az->codecs[i]))
c++;
}
if (c == 0) {
printf("%s: No codecs found\n", XNAME(az));
return(1);
}
/* Use the first codec capable of analog I/O. If there are none,
* use the first codec capable of digital I/O. Skip HDMI codecs.
*/
c = -1;
for (i = 0; i < az->ncodecs; i++) {
codec = &az->codecs[i];
if ((codec->audiofunc < 0) ||
(codec->codec_type == AZ_CODEC_TYPE_HDMI))
continue;
if (codec->codec_type == AZ_CODEC_TYPE_DIGITAL) {
if (c < 0)
c = i;
} else {
c = i;
break;
}
}
az->codecno = c;
if (az->codecno < 0) {
printf("%s: no supported codecs\n", XNAME(az));
return(1);
}
printf("%s: codecs: ", XNAME(az));
for (i = 0; i < az->ncodecs; i++) {
azalia_print_codec(&az->codecs[i]);
if (i < az->ncodecs - 1)
printf(", ");
}
if (az->ncodecs > 1) {
printf(", using ");
azalia_print_codec(&az->codecs[az->codecno]);
}
printf("\n");
/* All codecs with audio are enabled, but only one will be used. */
for (i = 0; i < az->ncodecs; i++) {
codec = &az->codecs[i];
if (i != az->codecno) {
if (codec->audiofunc < 0)
continue;
azalia_comresp(codec, codec->audiofunc,
CORB_SET_POWER_STATE, CORB_PS_D3, NULL);
DELAY(100);
azalia_codec_delete(codec);
}
}
/* Enable unsolicited responses now that az->codecno is set. */
AZ_WRITE_4(az, GCTL, AZ_READ_4(az, GCTL) | HDA_GCTL_UNSOL);
return(0);
}
int
azalia_init_streams(azalia_t *az)
{
int err;
/* Use stream#1 and #2. Don't use stream#0. */
err = azalia_stream_init(&az->pstream, az, az->nistreams + 0,
1, AUMODE_PLAY);
if (err)
return(err);
err = azalia_stream_init(&az->rstream, az, 0, 2, AUMODE_RECORD);
if (err)
return(err);
return(0);
}
int
azalia_halt_corb(azalia_t *az)
{
uint8_t corbctl;
codec_t *codec;
int i;
corbctl = AZ_READ_1(az, CORBCTL);
if (corbctl & HDA_CORBCTL_CORBRUN) { /* running? */
/* power off all codecs */
for (i = 0; i < az->ncodecs; i++) {
codec = &az->codecs[i];
if (codec->audiofunc < 0)
continue;
azalia_comresp(codec, codec->audiofunc,
CORB_SET_POWER_STATE, CORB_PS_D3, NULL);
}
AZ_WRITE_1(az, CORBCTL, corbctl & ~HDA_CORBCTL_CORBRUN);
for (i = 5000; i > 0; i--) {
DELAY(10);
corbctl = AZ_READ_1(az, CORBCTL);
if ((corbctl & HDA_CORBCTL_CORBRUN) == 0)
break;
}
if (i == 0) {
DPRINTF(("%s: CORB is running\n", XNAME(az)));
return EBUSY;
}
}
return(0);
}
int
azalia_init_corb(azalia_t *az, int resuming)
{
int err, i;
uint16_t corbrp, corbwp;
uint8_t corbctl;
err = azalia_halt_corb(az);
if (err)
return(err);
if (!resuming) {
err = azalia_alloc_dmamem(az,
az->corb_entries * sizeof(corb_entry_t), 128,
&az->corb_dma);
if (err) {
printf("%s: can't allocate CORB buffer\n", XNAME(az));
return(err);
}
DPRINTF(("%s: CORB allocation succeeded.\n", __func__));
}
timeout_set(&az->unsol_to, azalia_rirb_kick_unsol_events, az);
AZ_WRITE_4(az, CORBLBASE, (uint32_t)AZALIA_DMA_DMAADDR(&az->corb_dma));
AZ_WRITE_4(az, CORBUBASE, PTR_UPPER32(AZALIA_DMA_DMAADDR(&az->corb_dma)));
AZ_WRITE_1(az, CORBSIZE, az->corbsize);
/* reset CORBRP */
corbrp = AZ_READ_2(az, CORBRP);
AZ_WRITE_2(az, CORBRP, corbrp | HDA_CORBRP_CORBRPRST);
AZ_WRITE_2(az, CORBRP, corbrp & ~HDA_CORBRP_CORBRPRST);
for (i = 5000; i > 0; i--) {
DELAY(10);
corbrp = AZ_READ_2(az, CORBRP);
if ((corbrp & HDA_CORBRP_CORBRPRST) == 0)
break;
}
if (i == 0) {
DPRINTF(("%s: CORBRP reset failure\n", XNAME(az)));
return -1;
}
DPRINTF(("%s: CORBWP=%d; size=%d\n", __func__,
AZ_READ_2(az, CORBRP) & HDA_CORBRP_CORBRP, az->corb_entries));
/* clear CORBWP */
corbwp = AZ_READ_2(az, CORBWP);
AZ_WRITE_2(az, CORBWP, corbwp & ~HDA_CORBWP_CORBWP);
/* Run! */
corbctl = AZ_READ_1(az, CORBCTL);
AZ_WRITE_1(az, CORBCTL, corbctl | HDA_CORBCTL_CORBRUN);
return 0;
}
int
azalia_halt_rirb(azalia_t *az)
{
int i;
uint8_t rirbctl;
rirbctl = AZ_READ_1(az, RIRBCTL);
if (rirbctl & HDA_RIRBCTL_RIRBDMAEN) { /* running? */
AZ_WRITE_1(az, RIRBCTL, rirbctl & ~HDA_RIRBCTL_RIRBDMAEN);
for (i = 5000; i > 0; i--) {
DELAY(10);
rirbctl = AZ_READ_1(az, RIRBCTL);
if ((rirbctl & HDA_RIRBCTL_RIRBDMAEN) == 0)
break;
}
if (i == 0) {
DPRINTF(("%s: RIRB is running\n", XNAME(az)));
return(EBUSY);
}
}
return(0);
}
int
azalia_init_rirb(azalia_t *az, int resuming)
{
int err, i;
uint16_t rirbwp;
uint8_t rirbctl;
err = azalia_halt_rirb(az);
if (err)
return(err);
if (!resuming) {
err = azalia_alloc_dmamem(az,
az->rirb_entries * sizeof(rirb_entry_t), 128,
&az->rirb_dma);
if (err) {
printf("%s: can't allocate RIRB buffer\n", XNAME(az));
return err;
}
DPRINTF(("%s: RIRB allocation succeeded.\n", __func__));
/* setup the unsolicited response queue */
az->unsolq = malloc(sizeof(rirb_entry_t) * UNSOLQ_SIZE,
M_DEVBUF, M_NOWAIT | M_ZERO);
if (az->unsolq == NULL) {
DPRINTF(("%s: can't allocate unsolicited response queue.\n",
XNAME(az)));
azalia_free_dmamem(az, &az->rirb_dma);
return ENOMEM;
}
}
AZ_WRITE_4(az, RIRBLBASE, (uint32_t)AZALIA_DMA_DMAADDR(&az->rirb_dma));
AZ_WRITE_4(az, RIRBUBASE, PTR_UPPER32(AZALIA_DMA_DMAADDR(&az->rirb_dma)));
AZ_WRITE_1(az, RIRBSIZE, az->rirbsize);
/* reset the write pointer */
rirbwp = AZ_READ_2(az, RIRBWP);
AZ_WRITE_2(az, RIRBWP, rirbwp | HDA_RIRBWP_RIRBWPRST);
/* clear the read pointer */
az->rirb_rp = AZ_READ_2(az, RIRBWP) & HDA_RIRBWP_RIRBWP;
DPRINTF(("%s: RIRBRP=%d, size=%d\n", __func__, az->rirb_rp,
az->rirb_entries));
az->unsolq_rp = 0;
az->unsolq_wp = 0;
az->unsolq_kick = 0;
AZ_WRITE_2(az, RINTCNT, 1);
/* Run! */
rirbctl = AZ_READ_1(az, RIRBCTL);
AZ_WRITE_1(az, RIRBCTL, rirbctl |
HDA_RIRBCTL_RIRBDMAEN | HDA_RIRBCTL_RINTCTL);
for (i = 5000; i > 0; i--) {
DELAY(10);
rirbctl = AZ_READ_1(az, RIRBCTL);
if (rirbctl & HDA_RIRBCTL_RIRBDMAEN)
break;
}
if (i == 0) {
DPRINTF(("%s: RIRB is not running\n", XNAME(az)));
return(EBUSY);
}
return (0);
}
int
azalia_comresp(const codec_t *codec, nid_t nid, uint32_t control,
uint32_t param, uint32_t* result)
{
int err;
mtx_enter(&audio_lock);
err = azalia_set_command(codec->az, codec->address, nid, control,
param);
if (err)
goto exit;
err = azalia_get_response(codec->az, result);
exit:
mtx_leave(&audio_lock);
return(err);
}
int
azalia_set_command(azalia_t *az, int caddr, nid_t nid, uint32_t control,
uint32_t param)
{
corb_entry_t *corb;
int wp;
uint32_t verb;
uint16_t corbwp;
if ((AZ_READ_1(az, CORBCTL) & HDA_CORBCTL_CORBRUN) == 0) {
printf("%s: CORB is not running.\n", XNAME(az));
return(-1);
}
verb = (caddr << 28) | (nid << 20) | (control << 8) | param;
corbwp = AZ_READ_2(az, CORBWP);
wp = corbwp & HDA_CORBWP_CORBWP;
corb = (corb_entry_t*)az->corb_dma.addr;
if (++wp >= az->corb_entries)
wp = 0;
corb[wp] = verb;
AZ_WRITE_2(az, CORBWP, (corbwp & ~HDA_CORBWP_CORBWP) | wp);
return(0);
}
int
azalia_get_response(azalia_t *az, uint32_t *result)
{
const rirb_entry_t *rirb;
int i;
uint16_t wp;
if ((AZ_READ_1(az, RIRBCTL) & HDA_RIRBCTL_RIRBDMAEN) == 0) {
printf("%s: RIRB is not running.\n", XNAME(az));
return(-1);
}
rirb = (rirb_entry_t*)az->rirb_dma.addr;
i = 5000;
for (;;) {
while (i > 0) {
wp = AZ_READ_2(az, RIRBWP) & HDA_RIRBWP_RIRBWP;
if (az->rirb_rp != wp)
break;
DELAY(10);
i--;
}
if (i == 0) {
DPRINTF(("%s: RIRB time out\n", XNAME(az)));
return(ETIMEDOUT);
}
if (++az->rirb_rp >= az->rirb_entries)
az->rirb_rp = 0;
if (rirb[az->rirb_rp].resp_ex & RIRB_RESP_UNSOL) {
az->unsolq[az->unsolq_wp].resp = rirb[az->rirb_rp].resp;
az->unsolq[az->unsolq_wp++].resp_ex = rirb[az->rirb_rp].resp_ex;
az->unsolq_wp %= UNSOLQ_SIZE;
} else
break;
}
if (result != NULL)
*result = rirb[az->rirb_rp].resp;
return(0);
}
void
azalia_rirb_kick_unsol_events(void *v)
{
azalia_t *az = v;
int addr, tag;
if (az->unsolq_kick)
return;
az->unsolq_kick = 1;
while (az->unsolq_rp != az->unsolq_wp) {
addr = RIRB_RESP_CODEC(az->unsolq[az->unsolq_rp].resp_ex);
tag = RIRB_UNSOL_TAG(az->unsolq[az->unsolq_rp].resp);
DPRINTF(("%s: codec address=%d tag=%d\n", __func__, addr, tag));
az->unsolq_rp++;
az->unsolq_rp %= UNSOLQ_SIZE;
/* We only care about events on the using codec. */
if (az->codecs[az->codecno].address == addr)
azalia_unsol_event(&az->codecs[az->codecno], tag);
}
az->unsolq_kick = 0;
}
void
azalia_rirb_intr(azalia_t *az)
{
const rirb_entry_t *rirb;
uint16_t wp;
uint8_t rirbsts;
rirbsts = AZ_READ_1(az, RIRBSTS);
wp = AZ_READ_2(az, RIRBWP) & HDA_RIRBWP_RIRBWP;
rirb = (rirb_entry_t*)az->rirb_dma.addr;
while (az->rirb_rp != wp) {
if (++az->rirb_rp >= az->rirb_entries)
az->rirb_rp = 0;
if (rirb[az->rirb_rp].resp_ex & RIRB_RESP_UNSOL) {
az->unsolq[az->unsolq_wp].resp = rirb[az->rirb_rp].resp;
az->unsolq[az->unsolq_wp++].resp_ex = rirb[az->rirb_rp].resp_ex;
az->unsolq_wp %= UNSOLQ_SIZE;
} else {
DPRINTF(("%s: dropped solicited response\n", __func__));
}
}
timeout_add_msec(&az->unsol_to, 1);
AZ_WRITE_1(az, RIRBSTS,
rirbsts | HDA_RIRBSTS_RIRBOIS | HDA_RIRBSTS_RINTFL);
}
int
azalia_alloc_dmamem(azalia_t *az, size_t size, size_t align, azalia_dma_t *d)
{
int err;
int nsegs;
d->size = size;
err = bus_dmamem_alloc(az->dmat, size, align, 0, d->segments, 1,
&nsegs, BUS_DMA_NOWAIT);
if (err)
return err;
if (nsegs != 1)
goto free;
err = bus_dmamem_map(az->dmat, d->segments, 1, size,
&d->addr, BUS_DMA_NOWAIT | BUS_DMA_COHERENT);
if (err)
goto free;
err = bus_dmamap_create(az->dmat, size, 1, size, 0,
BUS_DMA_NOWAIT, &d->map);
if (err)
goto unmap;
err = bus_dmamap_load(az->dmat, d->map, d->addr, size,
NULL, BUS_DMA_NOWAIT);
if (err)
goto destroy;
if (!az->ok64 && PTR_UPPER32(AZALIA_DMA_DMAADDR(d)) != 0) {
azalia_free_dmamem(az, d);
return -1;
}
return 0;
destroy:
bus_dmamap_destroy(az->dmat, d->map);
unmap:
bus_dmamem_unmap(az->dmat, d->addr, size);
free:
bus_dmamem_free(az->dmat, d->segments, 1);
d->addr = NULL;
return err;
}
void
azalia_free_dmamem(const azalia_t *az, azalia_dma_t* d)
{
if (d->addr == NULL)
return;
bus_dmamap_unload(az->dmat, d->map);
bus_dmamap_destroy(az->dmat, d->map);
bus_dmamem_unmap(az->dmat, d->addr, d->size);
bus_dmamem_free(az->dmat, d->segments, 1);
d->addr = NULL;
}
int
azalia_suspend(azalia_t *az)
{
int err;
if (az->detached)
return 0;
/* disable unsolicited responses */
AZ_WRITE_4(az, GCTL, AZ_READ_4(az, GCTL) & ~HDA_GCTL_UNSOL);
timeout_del(&az->unsol_to);
/* azalia_halt_{corb,rirb}() only fail if the {CORB,RIRB} can't
* be stopped and azalia_init_{corb,rirb}(), which starts the
* {CORB,RIRB}, first calls azalia_halt_{corb,rirb}(). If halt
* fails, don't try to restart.
*/
err = azalia_halt_corb(az);
if (err)
goto corb_fail;
err = azalia_halt_rirb(az);
if (err)
goto rirb_fail;
/* stop interrupts and clear status registers */
AZ_WRITE_4(az, INTCTL, 0);
AZ_WRITE_4(az, INTSTS, HDA_INTSTS_CIS | HDA_INTSTS_GIS);
AZ_WRITE_2(az, STATESTS, HDA_STATESTS_SDIWAKE);
AZ_WRITE_1(az, RIRBSTS, HDA_RIRBSTS_RINTFL | HDA_RIRBSTS_RIRBOIS);
return 0;
rirb_fail:
azalia_init_corb(az, 1);
corb_fail:
AZ_WRITE_4(az, GCTL, AZ_READ_4(az, GCTL) | HDA_GCTL_UNSOL);
return err;
}
int
azalia_resume_codec(codec_t *this)
{
widget_t *w;
uint32_t result;
int i, err;
err = azalia_comresp(this, this->audiofunc, CORB_SET_POWER_STATE,
CORB_PS_D0, &result);
if (err) {
DPRINTF(("%s: power audio func error: result=0x%8.8x\n",
__func__, result));
}
DELAY(100);
if (this->qrks & AZ_QRK_WID_DOLBY_ATMOS)
azalia_codec_init_dolby_atmos(this);
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (w->widgetcap & COP_AWCAP_POWER) {
azalia_comresp(this, w->nid, CORB_SET_POWER_STATE,
CORB_PS_D0, &result);
DELAY(100);
}
if (w->type == COP_AWTYPE_PIN_COMPLEX)
azalia_widget_init_pin(w, this);
if (this->qrks & AZ_QRK_WID_MASK)
azalia_codec_widget_quirks(this, w->nid);
}
if (this->qrks & AZ_QRK_GPIO_MASK) {
err = azalia_codec_gpio_quirks(this);
if (err)
return err;
}
return(0);
}
int
azalia_resume(azalia_t *az)
{
int err;
if (az->detached)
return 0;
azalia_configure_pci(az);
/* is this necessary? */
pci_conf_write(az->pc, az->tag, PCI_SUBSYS_ID_REG, az->subid);
err = azalia_init(az, 1);
if (err)
return err;
/* enable unsolicited responses on the controller */
AZ_WRITE_4(az, GCTL, AZ_READ_4(az, GCTL) | HDA_GCTL_UNSOL);
err = azalia_resume_codec(&az->codecs[az->codecno]);
if (err)
return err;
err = azalia_codec_enable_unsol(&az->codecs[az->codecno]);
if (err)
return err;
return 0;
}
/* ================================================================
* HDA codec functions
* ================================================================ */
int
azalia_codec_init(codec_t *this)
{
widget_t *w;
uint32_t rev, id, result;
int err, addr, n, i, nspdif, nhdmi;
addr = this->address;
/* codec vendor/device/revision */
err = azalia_comresp(this, CORB_NID_ROOT, CORB_GET_PARAMETER,
COP_REVISION_ID, &rev);
if (err)
return err;
err = azalia_comresp(this, CORB_NID_ROOT, CORB_GET_PARAMETER,
COP_VENDOR_ID, &id);
if (err)
return err;
this->vid = id;
this->subid = this->az->subid;
azalia_codec_init_vtbl(this);
DPRINTF(("%s: codec[%d] vid 0x%8.8x, subid 0x%8.8x, rev. %u.%u,",
XNAME(this->az), addr, this->vid, this->subid,
COP_RID_REVISION(rev), COP_RID_STEPPING(rev)));
DPRINTF((" HDA version %u.%u\n",
COP_RID_MAJ(rev), COP_RID_MIN(rev)));
/* identify function nodes */
err = azalia_comresp(this, CORB_NID_ROOT, CORB_GET_PARAMETER,
COP_SUBORDINATE_NODE_COUNT, &result);
if (err)
return err;
this->nfunctions = COP_NSUBNODES(result);
if (COP_NSUBNODES(result) <= 0) {
DPRINTF(("%s: codec[%d]: No function groups\n",
XNAME(this->az), addr));
return -1;
}
/* iterate function nodes and find an audio function */
n = COP_START_NID(result);
DPRINTF(("%s: nidstart=%d #functions=%d\n",
XNAME(this->az), n, this->nfunctions));
this->audiofunc = -1;
for (i = 0; i < this->nfunctions; i++) {
err = azalia_comresp(this, n + i, CORB_GET_PARAMETER,
COP_FUNCTION_GROUP_TYPE, &result);
if (err)
continue;
DPRINTF(("%s: FTYPE result = 0x%8.8x\n", __func__, result));
if (COP_FTYPE(result) == COP_FTYPE_AUDIO) {
this->audiofunc = n + i;
break; /* XXX multiple audio functions? */
}
}
if (this->audiofunc < 0) {
DPRINTF(("%s: codec[%d]: No audio function groups\n",
XNAME(this->az), addr));
return -1;
}
/* power the audio function */
azalia_comresp(this, this->audiofunc, CORB_SET_POWER_STATE,
CORB_PS_D0, &result);
DELAY(100);
/* check widgets in the audio function */
err = azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_SUBORDINATE_NODE_COUNT, &result);
if (err)
return err;
DPRINTF(("%s: There are %d widgets in the audio function.\n",
__func__, COP_NSUBNODES(result)));
this->wstart = COP_START_NID(result);
if (this->wstart < 2) {
printf("%s: invalid node structure\n", XNAME(this->az));
return -1;
}
this->wend = this->wstart + COP_NSUBNODES(result);
this->w = mallocarray(this->wend, sizeof(widget_t), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (this->w == NULL) {
printf("%s: out of memory\n", XNAME(this->az));
return ENOMEM;
}
if (this->qrks & AZ_QRK_WID_DOLBY_ATMOS)
azalia_codec_init_dolby_atmos(this);
/* query the base parameters */
azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_STREAM_FORMATS, &result);
this->w[this->audiofunc].d.audio.encodings = result;
azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_PCM, &result);
this->w[this->audiofunc].d.audio.bits_rates = result;
azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_INPUT_AMPCAP, &result);
this->w[this->audiofunc].inamp_cap = result;
azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_OUTPUT_AMPCAP, &result);
this->w[this->audiofunc].outamp_cap = result;
azalia_codec_print_audiofunc(this);
strlcpy(this->w[CORB_NID_ROOT].name, "root",
sizeof(this->w[CORB_NID_ROOT].name));
strlcpy(this->w[this->audiofunc].name, "hdaudio",
sizeof(this->w[this->audiofunc].name));
this->w[this->audiofunc].enable = 1;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
err = azalia_widget_init(w, this, i);
if (err)
return err;
err = azalia_widget_init_connection(w, this);
if (err)
return err;
azalia_widget_print_widget(w, this);
if (this->qrks & AZ_QRK_WID_MASK) {
azalia_codec_widget_quirks(this, i);
}
}
this->na_dacs = this->na_dacs_d = 0;
this->na_adcs = this->na_adcs_d = 0;
this->speaker = this->speaker2 = this->spkr_dac =
this->fhp = this->fhp_dac =
this->mic = this->mic_adc = -1;
this->nsense_pins = 0;
this->nout_jacks = 0;
nspdif = nhdmi = 0;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (!w->enable)
continue;
switch (w->type) {
case COP_AWTYPE_AUDIO_MIXER:
case COP_AWTYPE_AUDIO_SELECTOR:
if (!azalia_widget_check_conn(this, i, 0))
w->enable = 0;
break;
case COP_AWTYPE_AUDIO_OUTPUT:
if ((w->widgetcap & COP_AWCAP_DIGITAL) == 0) {
if (this->na_dacs < HDA_MAX_CHANNELS)
this->a_dacs[this->na_dacs++] = i;
} else {
if (this->na_dacs_d < HDA_MAX_CHANNELS)
this->a_dacs_d[this->na_dacs_d++] = i;
}
break;
case COP_AWTYPE_AUDIO_INPUT:
if ((w->widgetcap & COP_AWCAP_DIGITAL) == 0) {
if (this->na_adcs < HDA_MAX_CHANNELS)
this->a_adcs[this->na_adcs++] = i;
} else {
if (this->na_adcs_d < HDA_MAX_CHANNELS)
this->a_adcs_d[this->na_adcs_d++] = i;
}
break;
case COP_AWTYPE_PIN_COMPLEX:
switch (CORB_CD_PORT(w->d.pin.config)) {
case CORB_CD_FIXED:
switch (w->d.pin.device) {
case CORB_CD_SPEAKER:
if (this->speaker == -1) {
this->speaker = i;
} else if (w->d.pin.association <
this->w[this->speaker].d.pin.association ||
(w->d.pin.association ==
this->w[this->speaker].d.pin.association &&
w->d.pin.sequence <
this->w[this->speaker].d.pin.sequence)) {
this->speaker2 = this->speaker;
this->speaker = i;
} else {
this->speaker2 = i;
}
if (this->speaker == i)
this->spkr_dac =
azalia_codec_find_defdac(this, i, 0);
break;
case CORB_CD_MICIN:
this->mic = i;
this->mic_adc =
azalia_codec_find_defadc(this, i, 0);
break;
}
break;
case CORB_CD_JACK:
if (w->d.pin.device == CORB_CD_LINEOUT)
this->nout_jacks++;
else if (w->d.pin.device == CORB_CD_HEADPHONE &&
CORB_CD_LOC_GEO(w->d.pin.config) ==
CORB_CD_FRONT) {
this->fhp = i;
this->fhp_dac =
azalia_codec_find_defdac(this, i, 0);
}
if (this->nsense_pins >= HDA_MAX_SENSE_PINS ||
!(w->d.pin.cap & COP_PINCAP_PRESENCE))
break;
/* check override bit */
err = azalia_comresp(this, i,
CORB_GET_CONFIGURATION_DEFAULT, 0, &result);
if (err)
break;
if (!(CORB_CD_MISC(result) & CORB_CD_PRESENCEOV)) {
this->sense_pins[this->nsense_pins++] = i;
}
break;
}
if ((w->d.pin.device == CORB_CD_DIGITALOUT) &&
(w->d.pin.cap & COP_PINCAP_HDMI))
nhdmi++;
else if (w->d.pin.device == CORB_CD_SPDIFOUT ||
w->d.pin.device == CORB_CD_SPDIFIN)
nspdif++;
break;
}
}
this->codec_type = AZ_CODEC_TYPE_ANALOG;
if ((this->na_dacs == 0) && (this->na_adcs == 0)) {
this->codec_type = AZ_CODEC_TYPE_DIGITAL;
if (nspdif == 0 && nhdmi > 0)
this->codec_type = AZ_CODEC_TYPE_HDMI;
}
/* make sure built-in mic is connected to an adc */
if (this->mic != -1 && this->mic_adc == -1) {
if (azalia_codec_select_micadc(this)) {
DPRINTF(("%s: cound not select mic adc\n", __func__));
}
}
err = azalia_codec_sort_pins(this);
if (err)
return err;
err = azalia_codec_find_inputmixer(this);
if (err)
return err;
/* If the codec can do multichannel, select different DACs for
* the multichannel jack group. Also be sure to keep track of
* which DAC the front headphone is connected to.
*/
if (this->na_dacs >= 3 && this->nopins >= 3) {
err = azalia_codec_select_dacs(this);
if (err)
return err;
}
err = azalia_codec_select_spkrdac(this);
if (err)
return err;
err = azalia_init_dacgroup(this);
if (err)
return err;
azalia_codec_print_groups(this);
err = azalia_widget_label_widgets(this);
if (err)
return err;
err = azalia_codec_construct_format(this, 0, 0);
if (err)
return err;
err = azalia_codec_init_volgroups(this);
if (err)
return err;
if (this->qrks & AZ_QRK_GPIO_MASK) {
err = azalia_codec_gpio_quirks(this);
if (err)
return err;
}
err = azalia_mixer_init(this);
if (err)
return err;
return 0;
}
int
azalia_codec_find_inputmixer(codec_t *this)
{
widget_t *w;
int i, j;
this->input_mixer = -1;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (w->type != COP_AWTYPE_AUDIO_MIXER)
continue;
/* can input from a pin */
for (j = 0; j < this->nipins; j++) {
if (azalia_codec_fnode(this, this->ipins[j].nid,
w->nid, 0) != -1)
break;
}
if (j == this->nipins)
continue;
/* can output to a pin */
for (j = 0; j < this->nopins; j++) {
if (azalia_codec_fnode(this, w->nid,
this->opins[j].nid, 0) != -1)
break;
}
if (j == this->nopins)
continue;
/* can output to an ADC */
for (j = 0; j < this->na_adcs; j++) {
if (azalia_codec_fnode(this, w->nid,
this->a_adcs[j], 0) != -1)
break;
}
if (j == this->na_adcs)
continue;
this->input_mixer = i;
break;
}
return(0);
}
int
azalia_codec_select_micadc(codec_t *this)
{
widget_t *w;
int i, j, conv, err;
for (i = 0; i < this->na_adcs; i++) {
if (azalia_codec_fnode(this, this->mic,
this->a_adcs[i], 0) >= 0)
break;
}
if (i >= this->na_adcs)
return(-1);
conv = this->a_adcs[i];
w = &this->w[conv];
for (j = 0; j < 10; j++) {
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
if (azalia_codec_fnode(this, this->mic,
w->connections[i], j + 1) >= 0) {
break;
}
}
if (i >= w->nconnections)
return(-1);
err = azalia_comresp(this, w->nid,
CORB_SET_CONNECTION_SELECT_CONTROL, i, 0);
if (err)
return(err);
w->selected = i;
if (w->connections[i] == this->mic) {
this->mic_adc = conv;
return(0);
}
w = &this->w[w->connections[i]];
}
return(-1);
}
int
azalia_codec_sort_pins(codec_t *this)
{
#define MAX_PINS 16
const widget_t *w;
struct io_pin opins[MAX_PINS], opins_d[MAX_PINS];
struct io_pin ipins[MAX_PINS], ipins_d[MAX_PINS];
int nopins, nopins_d, nipins, nipins_d;
int prio, loc, add, nd, conv;
int i, j, k;
nopins = nopins_d = nipins = nipins_d = 0;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (!w->enable || w->type != COP_AWTYPE_PIN_COMPLEX)
continue;
loc = 0;
if (this->na_dacs >= 3 && this->nout_jacks < 3)
loc = CORB_CD_LOC_GEO(w->d.pin.config);
prio = w->d.pin.association << 4 | w->d.pin.sequence;
conv = -1;
/* analog out */
if ((w->d.pin.cap & COP_PINCAP_OUTPUT) &&
!(w->widgetcap & COP_AWCAP_DIGITAL)) {
add = nd = 0;
conv = azalia_codec_find_defdac(this, w->nid, 0);
switch(w->d.pin.device) {
/* primary - output by default */
case CORB_CD_SPEAKER:
if (w->nid == this->speaker ||
w->nid == this->speaker2)
break;
/* FALLTHROUGH */
case CORB_CD_HEADPHONE:
case CORB_CD_LINEOUT:
add = 1;
break;
/* secondary - input by default */
case CORB_CD_MICIN:
if (w->nid == this->mic)
break;
/* FALLTHROUGH */
case CORB_CD_LINEIN:
add = nd = 1;
break;
}
if (add && nopins < MAX_PINS) {
opins[nopins].nid = w->nid;
opins[nopins].conv = conv;
prio |= (nd << 8) | (loc << 9);
opins[nopins].prio = prio;
nopins++;
}
}
/* digital out */
if ((w->d.pin.cap & COP_PINCAP_OUTPUT) &&
(w->widgetcap & COP_AWCAP_DIGITAL)) {
conv = azalia_codec_find_defdac(this, w->nid, 0);
switch(w->d.pin.device) {
case CORB_CD_SPDIFOUT:
case CORB_CD_DIGITALOUT:
if (nopins_d < MAX_PINS) {
opins_d[nopins_d].nid = w->nid;
opins_d[nopins_d].conv = conv;
opins_d[nopins_d].prio = prio;
nopins_d++;
}
break;
}
}
/* analog in */
if ((w->d.pin.cap & COP_PINCAP_INPUT) &&
!(w->widgetcap & COP_AWCAP_DIGITAL)) {
add = nd = 0;
conv = azalia_codec_find_defadc(this, w->nid, 0);
switch(w->d.pin.device) {
/* primary - input by default */
case CORB_CD_MICIN:
case CORB_CD_LINEIN:
add = 1;
break;
/* secondary - output by default */
case CORB_CD_SPEAKER:
if (w->nid == this->speaker ||
w->nid == this->speaker2)
break;
/* FALLTHROUGH */
case CORB_CD_HEADPHONE:
case CORB_CD_LINEOUT:
add = nd = 1;
break;
}
if (add && nipins < MAX_PINS) {
ipins[nipins].nid = w->nid;
ipins[nipins].prio = prio | (nd << 8);
ipins[nipins].conv = conv;
nipins++;
}
}
/* digital in */
if ((w->d.pin.cap & COP_PINCAP_INPUT) &&
(w->widgetcap & COP_AWCAP_DIGITAL)) {
conv = azalia_codec_find_defadc(this, w->nid, 0);
switch(w->d.pin.device) {
case CORB_CD_SPDIFIN:
case CORB_CD_DIGITALIN:
case CORB_CD_MICIN:
if (nipins_d < MAX_PINS) {
ipins_d[nipins_d].nid = w->nid;
ipins_d[nipins_d].prio = prio;
ipins_d[nipins_d].conv = conv;
nipins_d++;
}
break;
}
}
}
this->opins = mallocarray(nopins, sizeof(struct io_pin), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (this->opins == NULL)
return(ENOMEM);
this->nopins = 0;
for (i = 0; i < nopins; i++) {
for (j = 0; j < this->nopins; j++)
if (this->opins[j].prio > opins[i].prio)
break;
for (k = this->nopins; k > j; k--)
this->opins[k] = this->opins[k - 1];
if (j < nopins)
this->opins[j] = opins[i];
this->nopins++;
if (this->nopins == nopins)
break;
}
this->opins_d = mallocarray(nopins_d, sizeof(struct io_pin), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (this->opins_d == NULL)
return(ENOMEM);
this->nopins_d = 0;
for (i = 0; i < nopins_d; i++) {
for (j = 0; j < this->nopins_d; j++)
if (this->opins_d[j].prio > opins_d[i].prio)
break;
for (k = this->nopins_d; k > j; k--)
this->opins_d[k] = this->opins_d[k - 1];
if (j < nopins_d)
this->opins_d[j] = opins_d[i];
this->nopins_d++;
if (this->nopins_d == nopins_d)
break;
}
this->ipins = mallocarray(nipins, sizeof(struct io_pin), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (this->ipins == NULL)
return(ENOMEM);
this->nipins = 0;
for (i = 0; i < nipins; i++) {
for (j = 0; j < this->nipins; j++)
if (this->ipins[j].prio > ipins[i].prio)
break;
for (k = this->nipins; k > j; k--)
this->ipins[k] = this->ipins[k - 1];
if (j < nipins)
this->ipins[j] = ipins[i];
this->nipins++;
if (this->nipins == nipins)
break;
}
this->ipins_d = mallocarray(nipins_d, sizeof(struct io_pin), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (this->ipins_d == NULL)
return(ENOMEM);
this->nipins_d = 0;
for (i = 0; i < nipins_d; i++) {
for (j = 0; j < this->nipins_d; j++)
if (this->ipins_d[j].prio > ipins_d[i].prio)
break;
for (k = this->nipins_d; k > j; k--)
this->ipins_d[k] = this->ipins_d[k - 1];
if (j < nipins_d)
this->ipins_d[j] = ipins_d[i];
this->nipins_d++;
if (this->nipins_d == nipins_d)
break;
}
#ifdef AZALIA_DEBUG
printf("%s: analog out pins:", __func__);
for (i = 0; i < this->nopins; i++)
printf(" 0x%2.2x->0x%2.2x", this->opins[i].nid,
this->opins[i].conv);
printf("\n");
printf("%s: digital out pins:", __func__);
for (i = 0; i < this->nopins_d; i++)
printf(" 0x%2.2x->0x%2.2x", this->opins_d[i].nid,
this->opins_d[i].conv);
printf("\n");
printf("%s: analog in pins:", __func__);
for (i = 0; i < this->nipins; i++)
printf(" 0x%2.2x->0x%2.2x", this->ipins[i].nid,
this->ipins[i].conv);
printf("\n");
printf("%s: digital in pins:", __func__);
for (i = 0; i < this->nipins_d; i++)
printf(" 0x%2.2x->0x%2.2x", this->ipins_d[i].nid,
this->ipins_d[i].conv);
printf("\n");
#endif
return 0;
#undef MAX_PINS
}
int
azalia_codec_select_dacs(codec_t *this)
{
widget_t *w;
nid_t *convs;
int nconv, conv;
int i, j, k, err;
convs = mallocarray(this->na_dacs, sizeof(nid_t), M_DEVBUF,
M_NOWAIT | M_ZERO);
if (convs == NULL)
return(ENOMEM);
err = 0;
nconv = 0;
for (i = 0; i < this->nopins; i++) {
w = &this->w[this->opins[i].nid];
conv = this->opins[i].conv;
for (j = 0; j < nconv; j++) {
if (conv == convs[j])
break;
}
if (j == nconv) {
convs[nconv++] = conv;
if (w->nid == this->fhp)
this->fhp_dac = conv;
if (nconv >= this->na_dacs) {
break;
}
} else {
/* find a different dac */
conv = -1;
for (j = 0; j < w->nconnections; j++) {
if (!azalia_widget_enabled(this,
w->connections[j]))
continue;
conv = azalia_codec_find_defdac(this,
w->connections[j], 1);
if (conv == -1)
continue;
for (k = 0; k < nconv; k++) {
if (conv == convs[k])
break;
}
if (k == nconv)
break;
}
if (j < w->nconnections && conv != -1) {
err = azalia_comresp(this, w->nid,
CORB_SET_CONNECTION_SELECT_CONTROL, j, 0);
if (err)
break;
w->selected = j;
this->opins[i].conv = conv;
if (w->nid == this->fhp)
this->fhp_dac = conv;
convs[nconv++] = conv;
if (nconv >= this->na_dacs)
break;
}
}
}
free(convs, M_DEVBUF, this->na_dacs * sizeof(nid_t));
return(err);
}
/* Connect the speaker to a DAC that no other output pin is connected
* to by default. If that is not possible, connect to a DAC other
* than the one the first output pin is connected to.
*/
int
azalia_codec_select_spkrdac(codec_t *this)
{
widget_t *w;
nid_t convs[HDA_MAX_CHANNELS];
int nconv, conv;
int i, j, err, fspkr, conn;
nconv = fspkr = 0;
for (i = 0; i < this->nopins; i++) {
conv = this->opins[i].conv;
for (j = 0; j < nconv; j++) {
if (conv == convs[j])
break;
}
if (j == nconv) {
if (conv == this->spkr_dac)
fspkr = 1;
convs[nconv++] = conv;
if (nconv == this->na_dacs)
break;
}
}
if (fspkr) {
conn = conv = -1;
w = &this->w[this->speaker];
for (i = 0; i < w->nconnections; i++) {
conv = azalia_codec_find_defdac(this,
w->connections[i], 1);
for (j = 0; j < nconv; j++)
if (conv == convs[j])
break;
if (j == nconv)
break;
}
if (i < w->nconnections) {
conn = i;
} else {
/* Couldn't get a unique DAC. Try to get a diferent
* DAC than the first pin's DAC.
*/
if (this->spkr_dac == this->opins[0].conv) {
/* If the speaker connection can't be changed,
* change the first pin's connection.
*/
if (w->nconnections == 1)
w = &this->w[this->opins[0].nid];
for (j = 0; j < w->nconnections; j++) {
conv = azalia_codec_find_defdac(this,
w->connections[j], 1);
if (conv != this->opins[0].conv) {
conn = j;
break;
}
}
}
}
if (conn != -1 && conv != -1) {
err = azalia_comresp(this, w->nid,
CORB_SET_CONNECTION_SELECT_CONTROL, conn, 0);
if (err)
return(err);
w->selected = conn;
if (w->nid == this->speaker)
this->spkr_dac = conv;
else
this->opins[0].conv = conv;
}
}
/* If there is a speaker2, try to connect it to spkr_dac. */
if (this->speaker2 != -1) {
conn = conv = -1;
w = &this->w[this->speaker2];
for (i = 0; i < w->nconnections; i++) {
conv = azalia_codec_find_defdac(this,
w->connections[i], 1);
if (conv == this->spkr_dac) {
conn = i;
break;
}
}
if (conn != -1) {
err = azalia_comresp(this, w->nid,
CORB_SET_CONNECTION_SELECT_CONTROL, conn, 0);
if (err)
return(err);
w->selected = conn;
}
}
return(0);
}
int
azalia_codec_find_defdac(codec_t *this, int index, int depth)
{
const widget_t *w;
int i, ret;
w = &this->w[index];
if (w->enable == 0)
return -1;
if (w->type == COP_AWTYPE_AUDIO_OUTPUT)
return index;
if (depth > 0 &&
(w->type == COP_AWTYPE_PIN_COMPLEX ||
w->type == COP_AWTYPE_BEEP_GENERATOR ||
w->type == COP_AWTYPE_AUDIO_INPUT))
return -1;
if (++depth >= 10)
return -1;
if (w->nconnections > 0) {
/* by default, all mixer connections are active */
if (w->type == COP_AWTYPE_AUDIO_MIXER) {
for (i = 0; i < w->nconnections; i++) {
index = w->connections[i];
if (!azalia_widget_enabled(this, index))
continue;
ret = azalia_codec_find_defdac(this, index,
depth);
if (ret >= 0)
return ret;
}
/* 7.3.3.2 Connection Select Control
* If an attempt is made to Set an index value greater than
* the number of list entries (index is equal to or greater
* than the Connection List Length property for the widget)
* the behavior is not predictable.
*/
/* negative index values are wrong too */
} else if (w->selected >= 0 &&
w->selected < sizeof(w->connections)) {
index = w->connections[w->selected];
if (VALID_WIDGET_NID(index, this)) {
ret = azalia_codec_find_defdac(this,
index, depth);
if (ret >= 0)
return ret;
}
}
}
return -1;
}
int
azalia_codec_find_defadc_sub(codec_t *this, nid_t node, int index, int depth)
{
const widget_t *w;
int i, ret;
w = &this->w[index];
if (w->nid == node) {
return index;
}
/* back at the beginning or a bad end */
if (depth > 0 &&
(w->type == COP_AWTYPE_PIN_COMPLEX ||
w->type == COP_AWTYPE_BEEP_GENERATOR ||
w->type == COP_AWTYPE_AUDIO_OUTPUT ||
w->type == COP_AWTYPE_AUDIO_INPUT))
return -1;
if (++depth >= 10)
return -1;
if (w->nconnections > 0) {
/* by default, all mixer connections are active */
if (w->type == COP_AWTYPE_AUDIO_MIXER) {
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(this, w->connections[i]))
continue;
ret = azalia_codec_find_defadc_sub(this, node,
w->connections[i], depth);
if (ret >= 0)
return ret;
}
/* 7.3.3.2 Connection Select Control
* If an attempt is made to Set an index value greater than
* the number of list entries (index is equal to or greater
* than the Connection List Length property for the widget)
* the behavior is not predictable.
*/
/* negative index values are wrong too */
} else if (w->selected >= 0 &&
w->selected < sizeof(w->connections)) {
index = w->connections[w->selected];
if (VALID_WIDGET_NID(index, this)) {
ret = azalia_codec_find_defadc_sub(this,
node, index, depth);
if (ret >= 0)
return ret;
}
}
}
return -1;
}
int
azalia_codec_find_defadc(codec_t *this, int index, int depth)
{
int i, j, conv;
conv = -1;
for (i = 0; i < this->na_adcs; i++) {
j = azalia_codec_find_defadc_sub(this, index,
this->a_adcs[i], 0);
if (j >= 0) {
conv = this->a_adcs[i];
break;
}
}
return(conv);
}
int
azalia_codec_init_volgroups(codec_t *this)
{
const widget_t *w;
uint32_t cap, result;
int i, j, dac, err;
j = 0;
this->playvols.mask = 0;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (w->enable == 0)
continue;
if (w->mixer_class == AZ_CLASS_RECORD)
continue;
if (!(w->widgetcap & COP_AWCAP_OUTAMP))
continue;
if ((COP_AMPCAP_NUMSTEPS(w->outamp_cap) == 0) &&
!(w->outamp_cap & COP_AMPCAP_MUTE))
continue;
this->playvols.mask |= (1 << j);
this->playvols.slaves[j++] = w->nid;
if (j >= AZ_MAX_VOL_SLAVES)
break;
}
this->playvols.nslaves = j;
this->playvols.cur = 0;
for (i = 0; i < this->playvols.nslaves; i++) {
w = &this->w[this->playvols.slaves[i]];
if (w->nid == this->input_mixer ||
w->parent == this->input_mixer ||
WIDGET_CHANNELS(w) < 2)
continue;
j = 0;
/* azalia_codec_find_defdac only goes 10 connections deep.
* Start the connection depth at 7 so it doesn't go more
* than 3 connections deep.
*/
if (w->type == COP_AWTYPE_AUDIO_MIXER ||
w->type == COP_AWTYPE_AUDIO_SELECTOR)
j = 7;
dac = azalia_codec_find_defdac(this, w->nid, j);
if (dac == -1)
continue;
if (dac != this->dacs.groups[this->dacs.cur].conv[0] &&
dac != this->spkr_dac && dac != this->fhp_dac)
continue;
cap = w->outamp_cap;
if ((cap & COP_AMPCAP_MUTE) && COP_AMPCAP_NUMSTEPS(cap)) {
if (w->type == COP_AWTYPE_BEEP_GENERATOR) {
continue;
} else if (w->type == COP_AWTYPE_PIN_COMPLEX) {
err = azalia_comresp(this, w->nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (!err && (result & CORB_PWC_OUTPUT))
this->playvols.cur |= (1 << i);
} else
this->playvols.cur |= (1 << i);
}
}
if (this->playvols.cur == 0) {
for (i = 0; i < this->playvols.nslaves; i++) {
w = &this->w[this->playvols.slaves[i]];
j = 0;
if (w->type == COP_AWTYPE_AUDIO_MIXER ||
w->type == COP_AWTYPE_AUDIO_SELECTOR)
j = 7;
dac = azalia_codec_find_defdac(this, w->nid, j);
if (dac == -1)
continue;
if (dac != this->dacs.groups[this->dacs.cur].conv[0] &&
dac != this->spkr_dac && dac != this->fhp_dac)
continue;
if (w->type == COP_AWTYPE_BEEP_GENERATOR)
continue;
if (w->type == COP_AWTYPE_PIN_COMPLEX) {
err = azalia_comresp(this, w->nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (!err && (result & CORB_PWC_OUTPUT))
this->playvols.cur |= (1 << i);
} else {
this->playvols.cur |= (1 << i);
}
}
}
this->playvols.master = this->audiofunc;
if (this->playvols.nslaves > 0) {
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (w->type != COP_AWTYPE_VOLUME_KNOB)
continue;
if (!COP_VKCAP_NUMSTEPS(w->d.volume.cap))
continue;
this->playvols.master = w->nid;
break;
}
}
j = 0;
this->recvols.mask = 0;
FOR_EACH_WIDGET(this, i) {
w = &this->w[i];
if (w->enable == 0)
continue;
if (w->type == COP_AWTYPE_AUDIO_INPUT ||
w->type == COP_AWTYPE_PIN_COMPLEX) {
if (!(w->widgetcap & COP_AWCAP_INAMP))
continue;
if ((COP_AMPCAP_NUMSTEPS(w->inamp_cap) == 0) &&
!(w->inamp_cap & COP_AMPCAP_MUTE))
continue;
} else if (w->type == COP_AWTYPE_AUDIO_MIXER ||
w->type == COP_AWTYPE_AUDIO_SELECTOR) {
if (w->mixer_class != AZ_CLASS_RECORD)
continue;
if (!(w->widgetcap & COP_AWCAP_OUTAMP))
continue;
if ((COP_AMPCAP_NUMSTEPS(w->outamp_cap) == 0) &&
!(w->outamp_cap & COP_AMPCAP_MUTE))
continue;
} else {
continue;
}
this->recvols.mask |= (1 << j);
this->recvols.slaves[j++] = w->nid;
if (j >= AZ_MAX_VOL_SLAVES)
break;
}
this->recvols.nslaves = j;
this->recvols.cur = 0;
for (i = 0; i < this->recvols.nslaves; i++) {
w = &this->w[this->recvols.slaves[i]];
cap = w->outamp_cap;
if (w->type == COP_AWTYPE_AUDIO_INPUT ||
w->type != COP_AWTYPE_PIN_COMPLEX)
cap = w->inamp_cap;
else
if (w->mixer_class != AZ_CLASS_RECORD)
continue;
if ((cap & COP_AMPCAP_MUTE) && COP_AMPCAP_NUMSTEPS(cap)) {
if (w->type == COP_AWTYPE_PIN_COMPLEX) {
err = azalia_comresp(this, w->nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (!err && !(result & CORB_PWC_OUTPUT))
this->recvols.cur |= (1 << i);
} else
this->recvols.cur |= (1 << i);
}
}
if (this->recvols.cur == 0) {
for (i = 0; i < this->recvols.nslaves; i++) {
w = &this->w[this->recvols.slaves[i]];
cap = w->outamp_cap;
if (w->type == COP_AWTYPE_AUDIO_INPUT ||
w->type != COP_AWTYPE_PIN_COMPLEX)
cap = w->inamp_cap;
else
if (w->mixer_class != AZ_CLASS_RECORD)
continue;
if (w->type == COP_AWTYPE_PIN_COMPLEX) {
err = azalia_comresp(this, w->nid,
CORB_GET_PIN_WIDGET_CONTROL, 0, &result);
if (!err && !(result & CORB_PWC_OUTPUT))
this->recvols.cur |= (1 << i);
} else {
this->recvols.cur |= (1 << i);
}
}
}
this->recvols.master = this->audiofunc;
return 0;
}
int
azalia_codec_delete(codec_t *this)
{
azalia_mixer_delete(this);
if (this->formats != NULL) {
free(this->formats, M_DEVBUF,
this->nformats * sizeof(struct audio_format));
this->formats = NULL;
}
this->nformats = 0;
if (this->opins != NULL) {
free(this->opins, M_DEVBUF,
this->nopins * sizeof(struct io_pin));
this->opins = NULL;
}
this->nopins = 0;
if (this->opins_d != NULL) {
free(this->opins_d, M_DEVBUF,
this->nopins_d * sizeof(struct io_pin));
this->opins_d = NULL;
}
this->nopins_d = 0;
if (this->ipins != NULL) {
free(this->ipins, M_DEVBUF,
this->nipins * sizeof(struct io_pin));
this->ipins = NULL;
}
this->nipins = 0;
if (this->ipins_d != NULL) {
free(this->ipins_d, M_DEVBUF,
this->nipins_d * sizeof(struct io_pin));
this->ipins_d = NULL;
}
this->nipins_d = 0;
if (this->w != NULL) {
free(this->w, M_DEVBUF,
this->wend * sizeof(widget_t));
this->w = NULL;
}
return 0;
}
int
azalia_codec_construct_format(codec_t *this, int newdac, int newadc)
{
const convgroup_t *group;
uint32_t bits_rates;
int variation;
int nbits, c, chan, i;
nid_t nid;
variation = 0;
if (this->dacs.ngroups > 0 && newdac < this->dacs.ngroups &&
newdac >= 0) {
this->dacs.cur = newdac;
group = &this->dacs.groups[this->dacs.cur];
bits_rates = this->w[group->conv[0]].d.audio.bits_rates;
nbits = 0;
if (bits_rates & COP_PCM_B8)
nbits++;
if (bits_rates & COP_PCM_B16)
nbits++;
if (bits_rates & COP_PCM_B20)
nbits++;
if (bits_rates & COP_PCM_B24)
nbits++;
if ((bits_rates & COP_PCM_B32) &&
!(this->w[group->conv[0]].widgetcap & COP_AWCAP_DIGITAL))
nbits++;
if (nbits == 0) {
printf("%s: invalid DAC PCM format: 0x%8.8x\n",
XNAME(this->az), bits_rates);
return -1;
}
variation += group->nconv * nbits;
}
if (this->adcs.ngroups > 0 && newadc < this->adcs.ngroups &&
newadc >= 0) {
this->adcs.cur = newadc;
group = &this->adcs.groups[this->adcs.cur];
bits_rates = this->w[group->conv[0]].d.audio.bits_rates;
nbits = 0;
if (bits_rates & COP_PCM_B8)
nbits++;
if (bits_rates & COP_PCM_B16)
nbits++;
if (bits_rates & COP_PCM_B20)
nbits++;
if (bits_rates & COP_PCM_B24)
nbits++;
if ((bits_rates & COP_PCM_B32) &&
!(this->w[group->conv[0]].widgetcap & COP_AWCAP_DIGITAL))
nbits++;
if (nbits == 0) {
printf("%s: invalid ADC PCM format: 0x%8.8x\n",
XNAME(this->az), bits_rates);
return -1;
}
variation += group->nconv * nbits;
}
if (variation == 0) {
DPRINTF(("%s: no converter groups\n", XNAME(this->az)));
return -1;
}
if (this->formats != NULL)
free(this->formats, M_DEVBUF, 0);
this->nformats = 0;
this->formats = mallocarray(variation, sizeof(struct audio_format),
M_DEVBUF, M_NOWAIT | M_ZERO);
if (this->formats == NULL) {
printf("%s: out of memory in %s\n",
XNAME(this->az), __func__);
return ENOMEM;
}
/* register formats for playback */
if (this->dacs.ngroups > 0) {
group = &this->dacs.groups[this->dacs.cur];
for (c = 0; c < group->nconv; c++) {
chan = 0;
bits_rates = ~0;
if (this->w[group->conv[0]].widgetcap &
COP_AWCAP_DIGITAL)
bits_rates &= ~(COP_PCM_B32);
for (i = 0; i <= c; i++) {
nid = group->conv[i];
chan += WIDGET_CHANNELS(&this->w[nid]);
bits_rates &= this->w[nid].d.audio.bits_rates;
}
azalia_codec_add_bits(this, chan, bits_rates,
AUMODE_PLAY);
}
}
/* register formats for recording */
if (this->adcs.ngroups > 0) {
group = &this->adcs.groups[this->adcs.cur];
for (c = 0; c < group->nconv; c++) {
chan = 0;
bits_rates = ~0;
if (this->w[group->conv[0]].widgetcap &
COP_AWCAP_DIGITAL)
bits_rates &= ~(COP_PCM_B32);
for (i = 0; i <= c; i++) {
nid = group->conv[i];
chan += WIDGET_CHANNELS(&this->w[nid]);
bits_rates &= this->w[nid].d.audio.bits_rates;
}
azalia_codec_add_bits(this, chan, bits_rates,
AUMODE_RECORD);
}
}
return 0;
}
void
azalia_codec_add_bits(codec_t *this, int chan, uint32_t bits_rates, int mode)
{
if (bits_rates & COP_PCM_B8)
azalia_codec_add_format(this, chan, 8, bits_rates, mode);
if (bits_rates & COP_PCM_B16)
azalia_codec_add_format(this, chan, 16, bits_rates, mode);
if (bits_rates & COP_PCM_B20)
azalia_codec_add_format(this, chan, 20, bits_rates, mode);
if (bits_rates & COP_PCM_B24)
azalia_codec_add_format(this, chan, 24, bits_rates, mode);
if (bits_rates & COP_PCM_B32)
azalia_codec_add_format(this, chan, 32, bits_rates, mode);
}
void
azalia_codec_add_format(codec_t *this, int chan, int prec, uint32_t rates,
int32_t mode)
{
struct audio_format *f;
f = &this->formats[this->nformats++];
f->mode = mode;
f->encoding = AUDIO_ENCODING_SLINEAR_LE;
if (prec == 8)
f->encoding = AUDIO_ENCODING_ULINEAR_LE;
f->precision = prec;
f->channels = chan;
f->frequency_type = 0;
if (rates & COP_PCM_R80)
f->frequency[f->frequency_type++] = 8000;
if (rates & COP_PCM_R110)
f->frequency[f->frequency_type++] = 11025;
if (rates & COP_PCM_R160)
f->frequency[f->frequency_type++] = 16000;
if (rates & COP_PCM_R220)
f->frequency[f->frequency_type++] = 22050;
if (rates & COP_PCM_R320)
f->frequency[f->frequency_type++] = 32000;
if (rates & COP_PCM_R441)
f->frequency[f->frequency_type++] = 44100;
if (rates & COP_PCM_R480)
f->frequency[f->frequency_type++] = 48000;
if (rates & COP_PCM_R882)
f->frequency[f->frequency_type++] = 88200;
if (rates & COP_PCM_R960)
f->frequency[f->frequency_type++] = 96000;
if (rates & COP_PCM_R1764)
f->frequency[f->frequency_type++] = 176400;
if (rates & COP_PCM_R1920)
f->frequency[f->frequency_type++] = 192000;
if (rates & COP_PCM_R3840)
f->frequency[f->frequency_type++] = 384000;
}
int
azalia_codec_connect_stream(stream_t *this)
{
const codec_t *codec = &this->az->codecs[this->az->codecno];
const convgroup_t *group;
widget_t *w;
uint32_t digital, stream_chan;
int i, err, curchan, nchan, widchan;
err = 0;
nchan = (this->fmt & HDA_SD_FMT_CHAN) + 1;
if (this->dir == AUMODE_RECORD)
group = &codec->adcs.groups[codec->adcs.cur];
else
group = &codec->dacs.groups[codec->dacs.cur];
curchan = 0;
for (i = 0; i < group->nconv; i++) {
w = &codec->w[group->conv[i]];
widchan = WIDGET_CHANNELS(w);
stream_chan = (this->number << 4);
if (curchan < nchan) {
stream_chan |= curchan;
} else if (w->nid == codec->spkr_dac ||
w->nid == codec->fhp_dac) {
stream_chan |= 0; /* first channel(s) */
} else
stream_chan = 0; /* idle stream */
if (stream_chan == 0) {
DPRINTFN(0, ("%s: %2.2x is idle\n", __func__, w->nid));
} else {
DPRINTFN(0, ("%s: %2.2x on stream chan %d\n", __func__,
w->nid, stream_chan & ~(this->number << 4)));
}
err = azalia_comresp(codec, w->nid, CORB_SET_CONVERTER_FORMAT,
this->fmt, NULL);
if (err) {
DPRINTF(("%s: nid %2.2x fmt %2.2x: %d\n",
__func__, w->nid, this->fmt, err));
break;
}
err = azalia_comresp(codec, w->nid,
CORB_SET_CONVERTER_STREAM_CHANNEL, stream_chan, NULL);
if (err) {
DPRINTF(("%s: nid %2.2x chan %d: %d\n",
__func__, w->nid, stream_chan, err));
break;
}
if (w->widgetcap & COP_AWCAP_DIGITAL) {
err = azalia_comresp(codec, w->nid,
CORB_GET_DIGITAL_CONTROL, 0, &digital);
if (err) {
DPRINTF(("%s: nid %2.2x get digital: %d\n",
__func__, w->nid, err));
break;
}
digital = (digital & 0xff) | CORB_DCC_DIGEN;
err = azalia_comresp(codec, w->nid,
CORB_SET_DIGITAL_CONTROL_L, digital, NULL);
if (err) {
DPRINTF(("%s: nid %2.2x set digital: %d\n",
__func__, w->nid, err));
break;
}
}
curchan += widchan;
}
return err;
}
int
azalia_codec_disconnect_stream(stream_t *this)
{
const codec_t *codec = &this->az->codecs[this->az->codecno];
const convgroup_t *group;
uint32_t v;
int i;
nid_t nid;
if (this->dir == AUMODE_RECORD)
group = &codec->adcs.groups[codec->adcs.cur];
else
group = &codec->dacs.groups[codec->dacs.cur];
for (i = 0; i < group->nconv; i++) {
nid = group->conv[i];
azalia_comresp(codec, nid, CORB_SET_CONVERTER_STREAM_CHANNEL,
0, NULL); /* stream#0 */
if (codec->w[nid].widgetcap & COP_AWCAP_DIGITAL) {
/* disable S/PDIF */
azalia_comresp(codec, nid, CORB_GET_DIGITAL_CONTROL,
0, &v);
v = (v & ~CORB_DCC_DIGEN) & 0xff;
azalia_comresp(codec, nid, CORB_SET_DIGITAL_CONTROL_L,
v, NULL);
}
}
return 0;
}
/* ================================================================
* HDA widget functions
* ================================================================ */
int
azalia_widget_init(widget_t *this, const codec_t *codec, nid_t nid)
{
uint32_t result;
int err;
err = azalia_comresp(codec, nid, CORB_GET_PARAMETER,
COP_AUDIO_WIDGET_CAP, &result);
if (err)
return err;
this->nid = nid;
this->widgetcap = result;
this->type = COP_AWCAP_TYPE(result);
if (this->widgetcap & COP_AWCAP_POWER) {
azalia_comresp(codec, nid, CORB_SET_POWER_STATE, CORB_PS_D0,
&result);
DELAY(100);
}
this->enable = 1;
this->mixer_class = -1;
this->parent = codec->audiofunc;
switch (this->type) {
case COP_AWTYPE_AUDIO_OUTPUT:
/* FALLTHROUGH */
case COP_AWTYPE_AUDIO_INPUT:
azalia_widget_init_audio(this, codec);
break;
case COP_AWTYPE_PIN_COMPLEX:
azalia_widget_init_pin(this, codec);
break;
case COP_AWTYPE_VOLUME_KNOB:
err = azalia_comresp(codec, this->nid, CORB_GET_PARAMETER,
COP_VOLUME_KNOB_CAPABILITIES, &result);
if (err)
return err;
this->d.volume.cap = result;
break;
case COP_AWTYPE_POWER:
/* FALLTHROUGH */
case COP_AWTYPE_VENDOR_DEFINED:
this->enable = 0;
break;
}
/* amplifier information */
/* XXX (ab)use bits 24-30 to store the "control offset", which is
* the number of steps, starting at 0, that have no effect. these
* bits are reserved in HDA 1.0.
*/
if (this->widgetcap & COP_AWCAP_INAMP) {
if (this->widgetcap & COP_AWCAP_AMPOV)
azalia_comresp(codec, nid, CORB_GET_PARAMETER,
COP_INPUT_AMPCAP, &this->inamp_cap);
else
this->inamp_cap = codec->w[codec->audiofunc].inamp_cap;
this->inamp_cap &= ~(0x7f << 24);
}
if (this->widgetcap & COP_AWCAP_OUTAMP) {
if (this->widgetcap & COP_AWCAP_AMPOV)
azalia_comresp(codec, nid, CORB_GET_PARAMETER,
COP_OUTPUT_AMPCAP, &this->outamp_cap);
else
this->outamp_cap = codec->w[codec->audiofunc].outamp_cap;
this->outamp_cap &= ~(0x7f << 24);
}
return 0;
}
int
azalia_widget_sole_conn(codec_t *this, nid_t nid)
{
int i, j, target, nconn, has_target;
/* connected to ADC */
for (i = 0; i < this->adcs.ngroups; i++) {
for (j = 0; j < this->adcs.groups[i].nconv; j++) {
target = this->adcs.groups[i].conv[j];
if (this->w[target].nconnections == 1 &&
this->w[target].connections[0] == nid) {
return target;
}
}
}
/* connected to DAC */
for (i = 0; i < this->dacs.ngroups; i++) {
for (j = 0; j < this->dacs.groups[i].nconv; j++) {
target = this->dacs.groups[i].conv[j];
if (this->w[target].nconnections == 1 &&
this->w[target].connections[0] == nid) {
return target;
}
}
}
/* connected to pin complex */
target = -1;
FOR_EACH_WIDGET(this, i) {
if (this->w[i].type != COP_AWTYPE_PIN_COMPLEX)
continue;
if (this->w[i].nconnections == 1 &&
this->w[i].connections[0] == nid) {
if (target != -1)
return -1;
target = i;
} else {
nconn = 0;
has_target = 0;
for (j = 0; j < this->w[i].nconnections; j++) {
if (!this->w[this->w[i].connections[j]].enable)
continue;
nconn++;
if (this->w[i].connections[j] == nid)
has_target = 1;
}
if (has_target == 1) {
if (nconn == 1) {
if (target != -1)
return -1;
target = i;
} else {
/* not sole connection at least once */
return -1;
}
}
}
}
if (target != -1)
return target;
return -1;
}
int
azalia_widget_label_widgets(codec_t *codec)
{
widget_t *w;
convgroup_t *group;
int types[16];
int pins[16];
int colors_used, use_colors, schan;
int i, j;
bzero(&pins, sizeof(pins));
bzero(&types, sizeof(types));
/* If codec has more than one line-out jack, check if the jacks
* have unique colors. If so, use the colors in the mixer names.
*/
use_colors = 1;
colors_used = 0;
if (codec->nout_jacks < 2)
use_colors = 0;
for (i = 0; use_colors && i < codec->nopins; i++) {
w = &codec->w[codec->opins[i].nid];
if (w->d.pin.device != CORB_CD_LINEOUT)
continue;
if (colors_used & (1 << w->d.pin.color))
use_colors = 0;
else
colors_used |= (1 << w->d.pin.color);
}
FOR_EACH_WIDGET(codec, i) {
w = &codec->w[i];
/* default for disabled/unused widgets */
snprintf(w->name, sizeof(w->name), "u-wid%2.2x", w->nid);
if (w->enable == 0)
continue;
switch (w->type) {
case COP_AWTYPE_PIN_COMPLEX:
pins[w->d.pin.device]++;
if (use_colors && w->d.pin.device == CORB_CD_LINEOUT) {
snprintf(w->name, sizeof(w->name), "%s-%s",
pin_devices[w->d.pin.device],
line_colors[w->d.pin.color]);
} else if (pins[w->d.pin.device] > 1) {
snprintf(w->name, sizeof(w->name), "%s%d",
pin_devices[w->d.pin.device],
pins[w->d.pin.device]);
} else {
snprintf(w->name, sizeof(w->name), "%s",
pin_devices[w->d.pin.device]);
}
break;
case COP_AWTYPE_AUDIO_OUTPUT:
if (codec->dacs.ngroups < 1)
break;
group = &codec->dacs.groups[0];
schan = 0;
for (j = 0; j < group->nconv; j++) {
if (w->nid == group->conv[j]) {
snprintf(w->name, sizeof(w->name),
"%s-%d:%d", wtypes[w->type], schan,
schan + WIDGET_CHANNELS(w) - 1);
}
schan += WIDGET_CHANNELS(w);
}
if (codec->dacs.ngroups < 2)
break;
group = &codec->dacs.groups[1];
schan = 0;
for (j = 0; j < group->nconv; j++) {
if (w->nid == group->conv[j]) {
snprintf(w->name, sizeof(w->name),
"dig-%s-%d:%d", wtypes[w->type],
schan,
schan + WIDGET_CHANNELS(w) - 1);
}
schan += WIDGET_CHANNELS(w);
}
break;
case COP_AWTYPE_AUDIO_INPUT:
w->mixer_class = AZ_CLASS_RECORD;
if (codec->adcs.ngroups < 1)
break;
group = &codec->adcs.groups[0];
schan = 0;
for (j = 0; j < group->nconv; j++) {
if (w->nid == group->conv[j]) {
snprintf(w->name, sizeof(w->name),
"%s-%d:%d", wtypes[w->type], schan,
schan + WIDGET_CHANNELS(w) - 1);
}
schan += WIDGET_CHANNELS(w);
}
if (codec->adcs.ngroups < 2)
break;
group = &codec->adcs.groups[1];
schan = 0;
for (j = 0; j < group->nconv; j++) {
if (w->nid == group->conv[j]) {
snprintf(w->name, sizeof(w->name),
"dig-%s-%d:%d", wtypes[w->type],
schan,
schan + WIDGET_CHANNELS(w) - 1);
}
schan += WIDGET_CHANNELS(w);
}
break;
default:
types[w->type]++;
if (types[w->type] > 1)
snprintf(w->name, sizeof(w->name), "%s%d",
wtypes[w->type], types[w->type]);
else
snprintf(w->name, sizeof(w->name), "%s",
wtypes[w->type]);
break;
}
}
/* Mixers and selectors that connect to only one other widget are
* functionally part of the widget they are connected to. Show that
* relationship in the name.
*/
FOR_EACH_WIDGET(codec, i) {
if (codec->w[i].type != COP_AWTYPE_AUDIO_MIXER &&
codec->w[i].type != COP_AWTYPE_AUDIO_SELECTOR)
continue;
if (codec->w[i].enable == 0)
continue;
j = azalia_widget_sole_conn(codec, i);
if (j == -1) {
/* Special case. A selector with outamp capabilities
* and is connected to a single widget that has either
* no input or no output capabilities. This widget
* serves as the input or output amp for the widget
* it is connected to.
*/
if (codec->w[i].type == COP_AWTYPE_AUDIO_SELECTOR &&
(codec->w[i].widgetcap & COP_AWCAP_OUTAMP) &&
codec->w[i].nconnections == 1) {
j = codec->w[i].connections[0];
if (!azalia_widget_enabled(codec, j))
continue;
if (!(codec->w[j].widgetcap & COP_AWCAP_INAMP))
codec->w[i].mixer_class =
AZ_CLASS_INPUT;
else if (!(codec->w[j].widgetcap & COP_AWCAP_OUTAMP))
codec->w[i].mixer_class =
AZ_CLASS_OUTPUT;
else
continue;
}
}
if (j >= 0) {
/* As part of a disabled widget, this widget
* should be disabled as well.
*/
if (codec->w[j].enable == 0) {
codec->w[i].enable = 0;
snprintf(codec->w[i].name,
sizeof(codec->w[i].name),
"u-wid%2.2x", i);
continue;
}
snprintf(codec->w[i].name, sizeof(codec->w[i].name),
"%s", codec->w[j].name);
if (codec->w[j].mixer_class == AZ_CLASS_RECORD)
codec->w[i].mixer_class = AZ_CLASS_RECORD;
codec->w[i].parent = j;
}
}
return 0;
}
int
azalia_widget_init_audio(widget_t *this, const codec_t *codec)
{
uint32_t result;
int err;
/* check audio format */
if (this->widgetcap & COP_AWCAP_FORMATOV) {
err = azalia_comresp(codec, this->nid, CORB_GET_PARAMETER,
COP_STREAM_FORMATS, &result);
if (err)
return err;
this->d.audio.encodings = result;
if (result == 0) { /* quirk for CMI9880.
* This must not occur usually... */
this->d.audio.encodings =
codec->w[codec->audiofunc].d.audio.encodings;
this->d.audio.bits_rates =
codec->w[codec->audiofunc].d.audio.bits_rates;
} else {
if ((result & COP_STREAM_FORMAT_PCM) == 0) {
printf("%s: %s: No PCM support: %x\n",
XNAME(codec->az), this->name, result);
return -1;
}
err = azalia_comresp(codec, this->nid,
CORB_GET_PARAMETER, COP_PCM, &result);
if (err)
return err;
this->d.audio.bits_rates = result;
}
} else {
this->d.audio.encodings =
codec->w[codec->audiofunc].d.audio.encodings;
this->d.audio.bits_rates =
codec->w[codec->audiofunc].d.audio.bits_rates;
}
return 0;
}
int
azalia_widget_init_pin(widget_t *this, const codec_t *codec)
{
uint32_t result, dir;
int err;
err = azalia_comresp(codec, this->nid, CORB_GET_CONFIGURATION_DEFAULT,
0, &result);
if (err)
return err;
this->d.pin.config = result;
this->d.pin.sequence = CORB_CD_SEQUENCE(result);
this->d.pin.association = CORB_CD_ASSOCIATION(result);
this->d.pin.color = CORB_CD_COLOR(result);
this->d.pin.device = CORB_CD_DEVICE(result);
err = azalia_comresp(codec, this->nid, CORB_GET_PARAMETER,
COP_PINCAP, &result);
if (err)
return err;
this->d.pin.cap = result;
dir = CORB_PWC_INPUT;
switch (this->d.pin.device) {
case CORB_CD_LINEOUT:
case CORB_CD_SPEAKER:
case CORB_CD_HEADPHONE:
case CORB_CD_SPDIFOUT:
case CORB_CD_DIGITALOUT:
dir = CORB_PWC_OUTPUT;
break;
}
if (dir == CORB_PWC_INPUT && !(this->d.pin.cap & COP_PINCAP_INPUT))
dir = CORB_PWC_OUTPUT;
if (dir == CORB_PWC_OUTPUT && !(this->d.pin.cap & COP_PINCAP_OUTPUT))
dir = CORB_PWC_INPUT;
if (dir == CORB_PWC_INPUT && this->d.pin.device == CORB_CD_MICIN) {
if (COP_PINCAP_VREF(this->d.pin.cap) & (1 << CORB_PWC_VREF_80))
dir |= CORB_PWC_VREF_80;
else if (COP_PINCAP_VREF(this->d.pin.cap) &
(1 << CORB_PWC_VREF_50))
dir |= CORB_PWC_VREF_50;
}
if ((codec->qrks & AZ_QRK_WID_OVREF50) && (dir == CORB_PWC_OUTPUT))
dir |= CORB_PWC_VREF_50;
azalia_comresp(codec, this->nid, CORB_SET_PIN_WIDGET_CONTROL,
dir, NULL);
if (this->d.pin.cap & COP_PINCAP_EAPD) {
err = azalia_comresp(codec, this->nid,
CORB_GET_EAPD_BTL_ENABLE, 0, &result);
if (err)
return err;
result &= 0xff;
result |= CORB_EAPD_EAPD;
err = azalia_comresp(codec, this->nid,
CORB_SET_EAPD_BTL_ENABLE, result, &result);
if (err)
return err;
}
/* Disable unconnected pins */
if (CORB_CD_PORT(this->d.pin.config) == CORB_CD_NONE)
this->enable = 0;
return 0;
}
int
azalia_widget_init_connection(widget_t *this, const codec_t *codec)
{
uint32_t result;
int err;
int i, j, k;
int length, nconn, bits, conn, last;
this->selected = -1;
if ((this->widgetcap & COP_AWCAP_CONNLIST) == 0)
return 0;
err = azalia_comresp(codec, this->nid, CORB_GET_PARAMETER,
COP_CONNECTION_LIST_LENGTH, &result);
if (err)
return err;
bits = 8;
if (result & COP_CLL_LONG)
bits = 16;
length = COP_CLL_LENGTH(result);
if (length == 0)
return 0;
/*
* 'length' is the number of entries, not the number of
* connections. Find the number of connections, 'nconn', so
* enough space can be allocated for the list of connected
* nids.
*/
nconn = last = 0;
for (i = 0; i < length;) {
err = azalia_comresp(codec, this->nid,
CORB_GET_CONNECTION_LIST_ENTRY, i, &result);
if (err)
return err;
for (k = 0; i < length && (k < 32 / bits); k++) {
conn = (result >> (k * bits)) & ((1 << bits) - 1);
/* If high bit is set, this is the end of a continuous
* list that started with the last connection.
*/
if ((nconn > 0) && (conn & (1 << (bits - 1))))
nconn += (conn & ~(1 << (bits - 1))) - last;
else
nconn++;
last = conn;
i++;
}
}
this->connections = mallocarray(nconn, sizeof(nid_t), M_DEVBUF, M_NOWAIT);
if (this->connections == NULL) {
printf("%s: out of memory\n", XNAME(codec->az));
return ENOMEM;
}
for (i = 0; i < nconn;) {
err = azalia_comresp(codec, this->nid,
CORB_GET_CONNECTION_LIST_ENTRY, i, &result);
if (err)
return err;
for (k = 0; i < nconn && (k < 32 / bits); k++) {
conn = (result >> (k * bits)) & ((1 << bits) - 1);
/* If high bit is set, this is the end of a continuous
* list that started with the last connection.
*/
if ((i > 0) && (conn & (1 << (bits - 1)))) {
for (j = 1; i < nconn && j <= conn - last; j++)
this->connections[i++] = last + j;
} else {
this->connections[i++] = conn;
}
last = conn;
}
}
this->nconnections = nconn;
if (nconn > 0) {
err = azalia_comresp(codec, this->nid,
CORB_GET_CONNECTION_SELECT_CONTROL, 0, &result);
if (err)
return err;
this->selected = CORB_CSC_INDEX(result);
}
return 0;
}
int
azalia_widget_check_conn(codec_t *codec, int index, int depth)
{
const widget_t *w;
int i;
w = &codec->w[index];
if (w->type == COP_AWTYPE_BEEP_GENERATOR)
return 0;
if (depth > 0 &&
(w->type == COP_AWTYPE_PIN_COMPLEX ||
w->type == COP_AWTYPE_AUDIO_OUTPUT ||
w->type == COP_AWTYPE_AUDIO_INPUT)) {
if (w->enable)
return 1;
else
return 0;
}
if (++depth >= 10)
return 0;
for (i = 0; i < w->nconnections; i++) {
if (!azalia_widget_enabled(codec, w->connections[i]))
continue;
if (azalia_widget_check_conn(codec, w->connections[i], depth))
return 1;
}
return 0;
}
#ifdef AZALIA_DEBUG
#define WIDGETCAP_BITS \
"\20\014LRSWAP\013POWER\012DIGITAL" \
"\011CONNLIST\010UNSOL\07PROC\06STRIPE\05FORMATOV\04AMPOV\03OUTAMP" \
"\02INAMP\01STEREO"
#define PINCAP_BITS "\20\021EAPD\16VREF100\15VREF80" \
"\13VREFGND\12VREF50\11VREFHIZ\07BALANCE\06INPUT" \
"\05OUTPUT\04HEADPHONE\03PRESENCE\02TRIGGER\01IMPEDANCE"
#define ENCODING_BITS "\20\3AC3\2FLOAT32\1PCM"
#define BITSRATES_BITS "\20\x15""32bit\x14""24bit\x13""20bit" \
"\x12""16bit\x11""8bit""\x0c""384kHz\x0b""192kHz\x0a""176.4kHz" \
"\x09""96kHz\x08""88.2kHz\x07""48kHz\x06""44.1kHz\x05""32kHz\x04" \
"22.05kHz\x03""16kHz\x02""11.025kHz\x01""8kHz"
static const char *pin_colors[16] = {
"unknown", "black", "gray", "blue",
"green", "red", "orange", "yellow",
"purple", "pink", "col0a", "col0b",
"col0c", "col0d", "white", "other"};
static const char *pin_conn[4] = {
"jack", "none", "fixed", "combined"};
static const char *pin_conntype[16] = {
"unknown", "1/8", "1/4", "atapi", "rca", "optical",
"digital", "analog", "din", "xlr", "rj-11", "combination",
"con0c", "con0d", "con0e", "other"};
static const char *pin_geo[15] = {
"n/a", "rear", "front", "left",
"right", "top", "bottom", "spec0", "spec1", "spec2",
"loc0a", "loc0b", "loc0c", "loc0d", "loc0f"};
static const char *pin_chass[4] = {
"external", "internal", "separate", "other"};
void
azalia_codec_print_audiofunc(const codec_t *this)
{
uint32_t result;
azalia_widget_print_audio(&this->w[this->audiofunc], "\t");
result = this->w[this->audiofunc].inamp_cap;
DPRINTF(("\tinamp: mute=%u size=%u steps=%u offset=%u\n",
(result & COP_AMPCAP_MUTE) != 0, COP_AMPCAP_STEPSIZE(result),
COP_AMPCAP_NUMSTEPS(result), COP_AMPCAP_OFFSET(result)));
result = this->w[this->audiofunc].outamp_cap;
DPRINTF(("\toutamp: mute=%u size=%u steps=%u offset=%u\n",
(result & COP_AMPCAP_MUTE) != 0, COP_AMPCAP_STEPSIZE(result),
COP_AMPCAP_NUMSTEPS(result), COP_AMPCAP_OFFSET(result)));
azalia_comresp(this, this->audiofunc, CORB_GET_PARAMETER,
COP_GPIO_COUNT, &result);
DPRINTF(("\tgpio: wake=%u unsol=%u gpis=%u gpos=%u gpios=%u\n",
(result & COP_GPIO_WAKE) != 0, (result & COP_GPIO_UNSOL) != 0,
COP_GPIO_GPIS(result), COP_GPIO_GPOS(result),
COP_GPIO_GPIOS(result)));
}
void
azalia_codec_print_groups(const codec_t *this)
{
int i, n;
for (i = 0; i < this->dacs.ngroups; i++) {
printf("%s: dacgroup[%d]:", XNAME(this->az), i);
for (n = 0; n < this->dacs.groups[i].nconv; n++) {
printf(" %2.2x", this->dacs.groups[i].conv[n]);
}
printf("\n");
}
for (i = 0; i < this->adcs.ngroups; i++) {
printf("%s: adcgroup[%d]:", XNAME(this->az), i);
for (n = 0; n < this->adcs.groups[i].nconv; n++) {
printf(" %2.2x", this->adcs.groups[i].conv[n]);
}
printf("\n");
}
}
void
azalia_widget_print_audio(const widget_t *this, const char *lead)
{
printf("%sencodings=%b\n", lead, this->d.audio.encodings,
ENCODING_BITS);
printf("%sPCM formats=%b\n", lead, this->d.audio.bits_rates,
BITSRATES_BITS);
}
void
azalia_widget_print_widget(const widget_t *w, const codec_t *codec)
{
int i;
printf("%s: ", XNAME(codec->az));
printf("%s%2.2x wcap=%b\n", w->type == COP_AWTYPE_PIN_COMPLEX ?
pin_colors[w->d.pin.color] : wtypes[w->type],
w->nid, w->widgetcap, WIDGETCAP_BITS);
if (w->widgetcap & COP_AWCAP_FORMATOV)
azalia_widget_print_audio(w, "\t");
if (w->type == COP_AWTYPE_PIN_COMPLEX)
azalia_widget_print_pin(w);
if (w->type == COP_AWTYPE_VOLUME_KNOB)
printf("\tdelta=%d steps=%d\n",
!!(w->d.volume.cap & COP_VKCAP_DELTA),
COP_VKCAP_NUMSTEPS(w->d.volume.cap));
if ((w->widgetcap & COP_AWCAP_INAMP) &&
(w->widgetcap & COP_AWCAP_AMPOV))
printf("\tinamp: mute=%u size=%u steps=%u offset=%u\n",
(w->inamp_cap & COP_AMPCAP_MUTE) != 0,
COP_AMPCAP_STEPSIZE(w->inamp_cap),
COP_AMPCAP_NUMSTEPS(w->inamp_cap),
COP_AMPCAP_OFFSET(w->inamp_cap));
if ((w->widgetcap & COP_AWCAP_OUTAMP) &&
(w->widgetcap & COP_AWCAP_AMPOV))
printf("\toutamp: mute=%u size=%u steps=%u offset=%u\n",
(w->outamp_cap & COP_AMPCAP_MUTE) != 0,
COP_AMPCAP_STEPSIZE(w->outamp_cap),
COP_AMPCAP_NUMSTEPS(w->outamp_cap),
COP_AMPCAP_OFFSET(w->outamp_cap));
if (w->nconnections > 0) {
printf("\tconnections=0x%x", w->connections[0]);
for (i = 1; i < w->nconnections; i++)
printf(",0x%x", w->connections[i]);
printf("; selected=0x%x\n", w->connections[w->selected]);
}
}
void
azalia_widget_print_pin(const widget_t *this)
{
printf("\tcap=%b\n", this->d.pin.cap, PINCAP_BITS);
printf("\t[%2.2d/%2.2d] ", CORB_CD_ASSOCIATION(this->d.pin.config),
CORB_CD_SEQUENCE(this->d.pin.config));
printf("color=%s ", pin_colors[CORB_CD_COLOR(this->d.pin.config)]);
printf("device=%s ", pin_devices[CORB_CD_DEVICE(this->d.pin.config)]);
printf("conn=%s ", pin_conn[CORB_CD_PORT(this->d.pin.config)]);
printf("conntype=%s\n", pin_conntype[CORB_CD_CONNECTION(this->d.pin.config)]);
printf("\tlocation=%s ", pin_geo[CORB_CD_LOC_GEO(this->d.pin.config)]);
printf("chassis=%s ", pin_chass[CORB_CD_LOC_CHASS(this->d.pin.config)]);
printf("special=");
if (CORB_CD_LOC_GEO(this->d.pin.config) == CORB_CD_LOC_SPEC0) {
if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_EXTERNAL)
printf("rear-panel");
else if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_INTERNAL)
printf("riser");
else if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_LOC_OTHER)
printf("mobile-lid-internal");
} else if (CORB_CD_LOC_GEO(this->d.pin.config) == CORB_CD_LOC_SPEC1) {
if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_EXTERNAL)
printf("drive-bay");
else if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_INTERNAL)
printf("hdmi");
else if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_LOC_OTHER)
printf("mobile-lid-external");
} else if (CORB_CD_LOC_GEO(this->d.pin.config) == CORB_CD_LOC_SPEC2) {
if (CORB_CD_LOC_CHASS(this->d.pin.config) == CORB_CD_INTERNAL)
printf("atapi");
} else
printf("none");
printf("\n");
}
#else /* AZALIA_DEBUG */
void
azalia_codec_print_audiofunc(const codec_t *this) {}
void
azalia_codec_print_groups(const codec_t *this) {}
void
azalia_widget_print_audio(const widget_t *this, const char *lead) {}
void
azalia_widget_print_widget(const widget_t *w, const codec_t *codec) {}
void
azalia_widget_print_pin(const widget_t *this) {}
#endif /* AZALIA_DEBUG */
/* ================================================================
* Stream functions
* ================================================================ */
int
azalia_stream_init(stream_t *this, azalia_t *az, int regindex, int strnum,
int dir)
{
int err;
this->az = az;
this->regbase = HDA_SD_BASE + regindex * HDA_SD_SIZE;
this->intr_bit = 1 << regindex;
this->number = strnum;
this->dir = dir;
/* setup BDL buffers */
err = azalia_alloc_dmamem(az, sizeof(bdlist_entry_t) * HDA_BDL_MAX,
128, &this->bdlist);
if (err) {
printf("%s: can't allocate a BDL buffer\n", XNAME(az));
return err;
}
return 0;
}
int
azalia_stream_reset(stream_t *this)
{
int i;
uint16_t ctl;
uint8_t sts;
/* Make sure RUN bit is zero before resetting */
ctl = STR_READ_2(this, CTL);
ctl &= ~HDA_SD_CTL_RUN;
STR_WRITE_2(this, CTL, ctl);
DELAY(40);
/* Start reset and wait for chip to enter. */
ctl = STR_READ_2(this, CTL);
STR_WRITE_2(this, CTL, ctl | HDA_SD_CTL_SRST);
for (i = 5000; i > 0; i--) {
DELAY(10);
ctl = STR_READ_2(this, CTL);
if (ctl & HDA_SD_CTL_SRST)
break;
}
if (i == 0) {
DPRINTF(("%s: stream reset failure 1\n", XNAME(this->az)));
return -1;
}
/* Clear reset and wait for chip to finish */
STR_WRITE_2(this, CTL, ctl & ~HDA_SD_CTL_SRST);
for (i = 5000; i > 0; i--) {
DELAY(10);
ctl = STR_READ_2(this, CTL);
if ((ctl & HDA_SD_CTL_SRST) == 0)
break;
}
if (i == 0) {
DPRINTF(("%s: stream reset failure 2\n", XNAME(this->az)));
return -1;
}
sts = STR_READ_1(this, STS);
sts |= HDA_SD_STS_DESE | HDA_SD_STS_FIFOE | HDA_SD_STS_BCIS;
STR_WRITE_1(this, STS, sts);
return (0);
}
int
azalia_stream_start(stream_t *this)
{
bdlist_entry_t *bdlist;
bus_addr_t dmaaddr, dmaend;
int err, index;
uint32_t intctl;
uint8_t ctl2;
err = azalia_stream_reset(this);
if (err) {
DPRINTF(("%s: stream reset failed\n", "azalia"));
return err;
}
STR_WRITE_4(this, BDPL, 0);
STR_WRITE_4(this, BDPU, 0);
/* setup BDL */
dmaaddr = AZALIA_DMA_DMAADDR(&this->buffer);
dmaend = dmaaddr + this->bufsize;
bdlist = (bdlist_entry_t*)this->bdlist.addr;
for (index = 0; index < HDA_BDL_MAX; index++) {
bdlist[index].low = htole32(dmaaddr);
bdlist[index].high = htole32(PTR_UPPER32(dmaaddr));
bdlist[index].length = htole32(this->blk);
bdlist[index].flags = htole32(BDLIST_ENTRY_IOC);
dmaaddr += this->blk;
if (dmaaddr >= dmaend) {
index++;
break;
}
}
DPRINTFN(1, ("%s: size=%d fmt=0x%4.4x index=%d\n",
__func__, this->bufsize, this->fmt, index));
dmaaddr = AZALIA_DMA_DMAADDR(&this->bdlist);
STR_WRITE_4(this, BDPL, dmaaddr);
STR_WRITE_4(this, BDPU, PTR_UPPER32(dmaaddr));
STR_WRITE_2(this, LVI, (index - 1) & HDA_SD_LVI_LVI);
ctl2 = STR_READ_1(this, CTL2);
STR_WRITE_1(this, CTL2,
(ctl2 & ~HDA_SD_CTL2_STRM) | (this->number << HDA_SD_CTL2_STRM_SHIFT));
STR_WRITE_4(this, CBL, this->bufsize);
STR_WRITE_2(this, FMT, this->fmt);
err = azalia_codec_connect_stream(this);
if (err)
return EINVAL;
intctl = AZ_READ_4(this->az, INTCTL);
intctl |= this->intr_bit;
AZ_WRITE_4(this->az, INTCTL, intctl);
STR_WRITE_1(this, CTL, STR_READ_1(this, CTL) |
HDA_SD_CTL_DEIE | HDA_SD_CTL_FEIE | HDA_SD_CTL_IOCE |
HDA_SD_CTL_RUN);
return (0);
}
int
azalia_stream_halt(stream_t *this)
{
uint16_t ctl;
ctl = STR_READ_2(this, CTL);
ctl &= ~(HDA_SD_CTL_DEIE | HDA_SD_CTL_FEIE | HDA_SD_CTL_IOCE | HDA_SD_CTL_RUN);
STR_WRITE_2(this, CTL, ctl);
AZ_WRITE_4(this->az, INTCTL,
AZ_READ_4(this->az, INTCTL) & ~this->intr_bit);
azalia_codec_disconnect_stream(this);
return (0);
}
#define HDA_SD_STS_BITS "\20\3BCIS\4FIFOE\5DESE\6FIFORDY"
int
azalia_stream_intr(stream_t *this)
{
unsigned int lpib, fifos, hwpos, cnt;
u_int8_t sts;
sts = STR_READ_1(this, STS);
STR_WRITE_1(this, STS, sts |
HDA_SD_STS_DESE | HDA_SD_STS_FIFOE | HDA_SD_STS_BCIS);
if (sts & (HDA_SD_STS_DESE | HDA_SD_STS_FIFOE))
DPRINTF(("%s: stream %d: sts=%b\n", XNAME(this->az),
this->number, sts, HDA_SD_STS_BITS));
if (sts & HDA_SD_STS_BCIS) {
lpib = STR_READ_4(this, LPIB);
fifos = STR_READ_2(this, FIFOS);
if (fifos & 1)
fifos++;
hwpos = lpib;
if (this->dir == AUMODE_PLAY)
hwpos += fifos + 1;
if (hwpos >= this->bufsize)
hwpos -= this->bufsize;
DPRINTFN(2, ("%s: stream %d, pos = %d -> %d, "
"lpib = %u, fifos = %u\n", __func__,
this->number, this->swpos, hwpos, lpib, fifos));
cnt = 0;
while (hwpos - this->swpos >= this->blk) {
this->intr(this->intr_arg);
this->swpos += this->blk;
if (this->swpos == this->bufsize)
this->swpos = 0;
cnt++;
}
if (cnt != 1) {
DPRINTF(("%s: stream %d: hwpos %u, %u intrs\n",
__func__, this->number, this->swpos, cnt));
}
}
return (1);
}
/* ================================================================
* MI audio entries
* ================================================================ */
int
azalia_open(void *v, int flags)
{
azalia_t *az;
codec_t *codec;
DPRINTFN(1, ("%s: flags=0x%x\n", __func__, flags));
az = v;
codec = &az->codecs[az->codecno];
if ((flags & FWRITE) && codec->dacs.ngroups == 0)
return ENODEV;
if ((flags & FREAD) && codec->adcs.ngroups == 0)
return ENODEV;
codec->running++;
return 0;
}
void
azalia_close(void *v)
{
azalia_t *az;
codec_t *codec;
DPRINTFN(1, ("%s\n", __func__));
az = v;
codec = &az->codecs[az->codecno];
codec->running--;
}
int
azalia_match_format(codec_t *codec, int mode, audio_params_t *par)
{
int i;
DPRINTFN(1, ("%s: mode=%d, want: enc=%d, prec=%d, chans=%d\n", __func__,
mode, par->encoding, par->precision, par->channels));
for (i = 0; i < codec->nformats; i++) {
if (mode != codec->formats[i].mode)
continue;
if (par->encoding != codec->formats[i].encoding)
continue;
if (par->precision != codec->formats[i].precision)
continue;
if (par->channels != codec->formats[i].channels)
continue;
break;
}
DPRINTFN(1, ("%s: return: enc=%d, prec=%d, chans=%d\n", __func__,
codec->formats[i].encoding, codec->formats[i].precision,
codec->formats[i].channels));
return (i);
}
int
azalia_set_params_sub(codec_t *codec, int mode, audio_params_t *par)
{
int i, j;
uint ochan, oenc, opre;
#ifdef AZALIA_DEBUG
char *cmode = (mode == AUMODE_PLAY) ? "play" : "record";
#endif
ochan = par->channels;
oenc = par->encoding;
opre = par->precision;
if ((mode == AUMODE_PLAY && codec->dacs.ngroups == 0) ||
(mode == AUMODE_RECORD && codec->adcs.ngroups == 0))
return 0;
i = azalia_match_format(codec, mode, par);
if (i == codec->nformats && (par->precision != 16 || par->encoding !=
AUDIO_ENCODING_SLINEAR_LE)) {
/* try with default encoding/precision */
par->encoding = AUDIO_ENCODING_SLINEAR_LE;
par->precision = 16;
i = azalia_match_format(codec, mode, par);
}
if (i == codec->nformats && par->channels != 2) {
/* try with default channels */
par->encoding = oenc;
par->precision = opre;
par->channels = 2;
i = azalia_match_format(codec, mode, par);
}
/* try with default everything */
if (i == codec->nformats) {
par->encoding = AUDIO_ENCODING_SLINEAR_LE;
par->precision = 16;
par->channels = 2;
i = azalia_match_format(codec, mode, par);
if (i == codec->nformats) {
DPRINTF(("%s: can't find %s format %u/%u/%u\n",
__func__, cmode, par->encoding,
par->precision, par->channels));
return EINVAL;
}
}
if (codec->formats[i].frequency_type == 0) {
DPRINTF(("%s: matched %s format %d has 0 frequencies\n",
__func__, cmode, i));
return EINVAL;
}
for (j = 0; j < codec->formats[i].frequency_type; j++) {
if (par->sample_rate != codec->formats[i].frequency[j])
continue;
break;
}
if (j == codec->formats[i].frequency_type) {
/* try again with default */
par->sample_rate = 48000;
for (j = 0; j < codec->formats[i].frequency_type; j++) {
if (par->sample_rate != codec->formats[i].frequency[j])
continue;
break;
}
if (j == codec->formats[i].frequency_type) {
DPRINTF(("%s: can't find %s rate %lu\n",
__func__, cmode, par->sample_rate));
return EINVAL;
}
}
par->bps = AUDIO_BPS(par->precision);
par->msb = 1;
return (0);
}
int
azalia_set_params(void *v, int smode, int umode, audio_params_t *p,
audio_params_t *r)
{
azalia_t *az;
codec_t *codec;
int ret;
az = v;
codec = &az->codecs[az->codecno];
if (codec->nformats == 0) {
DPRINTF(("%s: codec has no formats\n", __func__));
return EINVAL;
}
if (smode & AUMODE_RECORD && r != NULL) {
ret = azalia_set_params_sub(codec, AUMODE_RECORD, r);
if (ret)
return (ret);
}
if (smode & AUMODE_PLAY && p != NULL) {
ret = azalia_set_params_sub(codec, AUMODE_PLAY, p);
if (ret)
return (ret);
}
return (0);
}
int
azalia_round_blocksize(void *v, int blk)
{
azalia_t *az;
size_t size;
blk &= ~0x7f; /* must be multiple of 128 */
if (blk <= 0)
blk = 128;
/* number of blocks must be <= HDA_BDL_MAX */
az = v;
size = az->pstream.buffer.size;
if (size > HDA_BDL_MAX * blk) {
blk = size / HDA_BDL_MAX;
if (blk & 0x7f)
blk = (blk + 0x7f) & ~0x7f;
}
DPRINTFN(1,("%s: resultant block size = %d\n", __func__, blk));
return blk;
}
int
azalia_halt_output(void *v)
{
azalia_t *az;
DPRINTFN(1, ("%s\n", __func__));
az = v;
return azalia_stream_halt(&az->pstream);
}
int
azalia_halt_input(void *v)
{
azalia_t *az;
DPRINTFN(1, ("%s\n", __func__));
az = v;
return azalia_stream_halt(&az->rstream);
}
int
azalia_set_port(void *v, mixer_ctrl_t *mc)
{
azalia_t *az;
codec_t *co;
const mixer_item_t *m;
az = v;
co = &az->codecs[az->codecno];
if (mc->dev < 0 || mc->dev >= co->nmixers)
return EINVAL;
m = &co->mixers[mc->dev];
if (mc->type != m->devinfo.type)
return EINVAL;
return azalia_mixer_set(co, m->nid, m->target, mc);
}
int
azalia_get_port(void *v, mixer_ctrl_t *mc)
{
azalia_t *az;
codec_t *co;
const mixer_item_t *m;
az = v;
co = &az->codecs[az->codecno];
if (mc->dev < 0 || mc->dev >= co->nmixers)
return EINVAL;
m = &co->mixers[mc->dev];
mc->type = m->devinfo.type;
return azalia_mixer_get(co, m->nid, m->target, mc);
}
int
azalia_query_devinfo(void *v, mixer_devinfo_t *mdev)
{
azalia_t *az;
const codec_t *co;
az = v;
co = &az->codecs[az->codecno];
if (mdev->index < 0 || mdev->index >= co->nmixers)
return ENXIO;
*mdev = co->mixers[mdev->index].devinfo;
return 0;
}
void *
azalia_allocm(void *v, int dir, size_t size, int pool, int flags)
{
azalia_t *az;
stream_t *stream;
int err;
az = v;
stream = dir == AUMODE_PLAY ? &az->pstream : &az->rstream;
err = azalia_alloc_dmamem(az, size, 128, &stream->buffer);
if (err) {
printf("%s: allocm failed\n", az->dev.dv_xname);
return NULL;
}
return stream->buffer.addr;
}
void
azalia_freem(void *v, void *addr, int pool)
{
azalia_t *az;
stream_t *stream;
az = v;
if (addr == az->pstream.buffer.addr) {
stream = &az->pstream;
} else if (addr == az->rstream.buffer.addr) {
stream = &az->rstream;
} else {
return;
}
azalia_free_dmamem(az, &stream->buffer);
}
size_t
azalia_round_buffersize(void *v, int dir, size_t size)
{
size &= ~0x7f; /* must be multiple of 128 */
if (size <= 0)
size = 128;
return size;
}
int
azalia_get_props(void *v)
{
return AUDIO_PROP_INDEPENDENT | AUDIO_PROP_FULLDUPLEX;
}
int
azalia_trigger_output(void *v, void *start, void *end, int blk,
void (*intr)(void *), void *arg, audio_params_t *param)
{
azalia_t *az;
int err;
uint16_t fmt;
az = v;
if (az->codecs[az->codecno].dacs.ngroups == 0) {
DPRINTF(("%s: can't play without a DAC\n", __func__));
return ENXIO;
}
err = azalia_params2fmt(param, &fmt);
if (err)
return(EINVAL);
az->pstream.bufsize = (caddr_t)end - (caddr_t)start;
az->pstream.blk = blk;
az->pstream.fmt = fmt;
az->pstream.intr = intr;
az->pstream.intr_arg = arg;
az->pstream.swpos = 0;
return azalia_stream_start(&az->pstream);
}
int
azalia_trigger_input(void *v, void *start, void *end, int blk,
void (*intr)(void *), void *arg, audio_params_t *param)
{
azalia_t *az;
int err;
uint16_t fmt;
DPRINTFN(1, ("%s: this=%p start=%p end=%p blk=%d {enc=%u %uch %ubit %luHz}\n",
__func__, v, start, end, blk, param->encoding, param->channels,
param->precision, param->sample_rate));
az = v;
if (az->codecs[az->codecno].adcs.ngroups == 0) {
DPRINTF(("%s: can't record without an ADC\n", __func__));
return ENXIO;
}
err = azalia_params2fmt(param, &fmt);
if (err)
return(EINVAL);
az->rstream.bufsize = (caddr_t)end - (caddr_t)start;
az->rstream.blk = blk;
az->rstream.fmt = fmt;
az->rstream.intr = intr;
az->rstream.intr_arg = arg;
az->rstream.swpos = 0;
return azalia_stream_start(&az->rstream);
}
/* --------------------------------
* helpers for MI audio functions
* -------------------------------- */
int
azalia_params2fmt(const audio_params_t *param, uint16_t *fmt)
{
uint16_t ret;
ret = 0;
if (param->channels > HDA_MAX_CHANNELS) {
printf("%s: too many channels: %u\n", __func__,
param->channels);
return EINVAL;
}
DPRINTFN(1, ("%s: prec=%d, chan=%d, rate=%ld\n", __func__,
param->precision, param->channels, param->sample_rate));
/* XXX: can channels be >2 ? */
ret |= param->channels - 1;
switch (param->precision) {
case 8:
ret |= HDA_SD_FMT_BITS_8_16;
break;
case 16:
ret |= HDA_SD_FMT_BITS_16_16;
break;
case 20:
ret |= HDA_SD_FMT_BITS_20_32;
break;
case 24:
ret |= HDA_SD_FMT_BITS_24_32;
break;
case 32:
ret |= HDA_SD_FMT_BITS_32_32;
break;
}
switch (param->sample_rate) {
default:
case 384000:
printf("%s: invalid sample_rate: %lu\n", __func__,
param->sample_rate);
return EINVAL;
case 192000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X4 | HDA_SD_FMT_DIV_BY1;
break;
case 176400:
ret |= HDA_SD_FMT_BASE_44 | HDA_SD_FMT_MULT_X4 | HDA_SD_FMT_DIV_BY1;
break;
case 96000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X2 | HDA_SD_FMT_DIV_BY1;
break;
case 88200:
ret |= HDA_SD_FMT_BASE_44 | HDA_SD_FMT_MULT_X2 | HDA_SD_FMT_DIV_BY1;
break;
case 48000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY1;
break;
case 44100:
ret |= HDA_SD_FMT_BASE_44 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY1;
break;
case 32000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X2 | HDA_SD_FMT_DIV_BY3;
break;
case 22050:
ret |= HDA_SD_FMT_BASE_44 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY2;
break;
case 16000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY3;
break;
case 11025:
ret |= HDA_SD_FMT_BASE_44 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY4;
break;
case 8000:
ret |= HDA_SD_FMT_BASE_48 | HDA_SD_FMT_MULT_X1 | HDA_SD_FMT_DIV_BY6;
break;
}
*fmt = ret;
return 0;
}
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