qemu/hw/ac97.c
Jan Kiszka 8217606e6e Introduce reset notifier order
Add the parameter 'order' to qemu_register_reset and sort callbacks on
registration. On system reset, callbacks with lower order will be
invoked before those with higher order. Update all existing users to the
standard order 0.

Note: At least for x86, the existing users seem to assume that handlers
are called in their registration order. Therefore, the patch preserves
this property. If someone feels bored, (s)he could try to identify this
dependency and express it properly on callback registration.

Signed-off-by: Jan Kiszka <jan.kiszka@siemens.com>
Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
2009-05-22 10:50:34 -05:00

1377 lines
37 KiB
C

/*
* Copyright (C) 2006 InnoTek Systemberatung GmbH
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License as published by the Free Software Foundation,
* in version 2 as it comes in the "COPYING" file of the VirtualBox OSE
* distribution. VirtualBox OSE is distributed in the hope that it will
* be useful, but WITHOUT ANY WARRANTY of any kind.
*
* If you received this file as part of a commercial VirtualBox
* distribution, then only the terms of your commercial VirtualBox
* license agreement apply instead of the previous paragraph.
*/
#include "hw.h"
#include "audiodev.h"
#include "audio/audio.h"
#include "pci.h"
enum {
AC97_Reset = 0x00,
AC97_Master_Volume_Mute = 0x02,
AC97_Headphone_Volume_Mute = 0x04,
AC97_Master_Volume_Mono_Mute = 0x06,
AC97_Master_Tone_RL = 0x08,
AC97_PC_BEEP_Volume_Mute = 0x0A,
AC97_Phone_Volume_Mute = 0x0C,
AC97_Mic_Volume_Mute = 0x0E,
AC97_Line_In_Volume_Mute = 0x10,
AC97_CD_Volume_Mute = 0x12,
AC97_Video_Volume_Mute = 0x14,
AC97_Aux_Volume_Mute = 0x16,
AC97_PCM_Out_Volume_Mute = 0x18,
AC97_Record_Select = 0x1A,
AC97_Record_Gain_Mute = 0x1C,
AC97_Record_Gain_Mic_Mute = 0x1E,
AC97_General_Purpose = 0x20,
AC97_3D_Control = 0x22,
AC97_AC_97_RESERVED = 0x24,
AC97_Powerdown_Ctrl_Stat = 0x26,
AC97_Extended_Audio_ID = 0x28,
AC97_Extended_Audio_Ctrl_Stat = 0x2A,
AC97_PCM_Front_DAC_Rate = 0x2C,
AC97_PCM_Surround_DAC_Rate = 0x2E,
AC97_PCM_LFE_DAC_Rate = 0x30,
AC97_PCM_LR_ADC_Rate = 0x32,
AC97_MIC_ADC_Rate = 0x34,
AC97_6Ch_Vol_C_LFE_Mute = 0x36,
AC97_6Ch_Vol_L_R_Surround_Mute = 0x38,
AC97_Vendor_Reserved = 0x58,
AC97_Vendor_ID1 = 0x7c,
AC97_Vendor_ID2 = 0x7e
};
#define SOFT_VOLUME
#define SR_FIFOE 16 /* rwc */
#define SR_BCIS 8 /* rwc */
#define SR_LVBCI 4 /* rwc */
#define SR_CELV 2 /* ro */
#define SR_DCH 1 /* ro */
#define SR_VALID_MASK ((1 << 5) - 1)
#define SR_WCLEAR_MASK (SR_FIFOE | SR_BCIS | SR_LVBCI)
#define SR_RO_MASK (SR_DCH | SR_CELV)
#define SR_INT_MASK (SR_FIFOE | SR_BCIS | SR_LVBCI)
#define CR_IOCE 16 /* rw */
#define CR_FEIE 8 /* rw */
#define CR_LVBIE 4 /* rw */
#define CR_RR 2 /* rw */
#define CR_RPBM 1 /* rw */
#define CR_VALID_MASK ((1 << 5) - 1)
#define CR_DONT_CLEAR_MASK (CR_IOCE | CR_FEIE | CR_LVBIE)
#define GC_WR 4 /* rw */
#define GC_CR 2 /* rw */
#define GC_VALID_MASK ((1 << 6) - 1)
#define GS_MD3 (1<<17) /* rw */
#define GS_AD3 (1<<16) /* rw */
#define GS_RCS (1<<15) /* rwc */
#define GS_B3S12 (1<<14) /* ro */
#define GS_B2S12 (1<<13) /* ro */
#define GS_B1S12 (1<<12) /* ro */
#define GS_S1R1 (1<<11) /* rwc */
#define GS_S0R1 (1<<10) /* rwc */
#define GS_S1CR (1<<9) /* ro */
#define GS_S0CR (1<<8) /* ro */
#define GS_MINT (1<<7) /* ro */
#define GS_POINT (1<<6) /* ro */
#define GS_PIINT (1<<5) /* ro */
#define GS_RSRVD ((1<<4)|(1<<3))
#define GS_MOINT (1<<2) /* ro */
#define GS_MIINT (1<<1) /* ro */
#define GS_GSCI 1 /* rwc */
#define GS_RO_MASK (GS_B3S12| \
GS_B2S12| \
GS_B1S12| \
GS_S1CR| \
GS_S0CR| \
GS_MINT| \
GS_POINT| \
GS_PIINT| \
GS_RSRVD| \
GS_MOINT| \
GS_MIINT)
#define GS_VALID_MASK ((1 << 18) - 1)
#define GS_WCLEAR_MASK (GS_RCS|GS_S1R1|GS_S0R1|GS_GSCI)
#define BD_IOC (1<<31)
#define BD_BUP (1<<30)
#define EACS_VRA 1
#define EACS_VRM 8
#define VOL_MASK 0x1f
#define MUTE_SHIFT 15
#define REC_MASK 7
enum {
REC_MIC = 0,
REC_CD,
REC_VIDEO,
REC_AUX,
REC_LINE_IN,
REC_STEREO_MIX,
REC_MONO_MIX,
REC_PHONE
};
typedef struct BD {
uint32_t addr;
uint32_t ctl_len;
} BD;
typedef struct AC97BusMasterRegs {
uint32_t bdbar; /* rw 0 */
uint8_t civ; /* ro 0 */
uint8_t lvi; /* rw 0 */
uint16_t sr; /* rw 1 */
uint16_t picb; /* ro 0 */
uint8_t piv; /* ro 0 */
uint8_t cr; /* rw 0 */
unsigned int bd_valid;
BD bd;
} AC97BusMasterRegs;
typedef struct AC97LinkState {
PCIDevice *pci_dev;
QEMUSoundCard card;
uint32_t glob_cnt;
uint32_t glob_sta;
uint32_t cas;
uint32_t last_samp;
AC97BusMasterRegs bm_regs[3];
uint8_t mixer_data[256];
SWVoiceIn *voice_pi;
SWVoiceOut *voice_po;
SWVoiceIn *voice_mc;
int invalid_freq[3];
uint8_t silence[128];
uint32_t base[2];
int bup_flag;
} AC97LinkState;
enum {
BUP_SET = 1,
BUP_LAST = 2
};
#ifdef DEBUG_AC97
#define dolog(...) AUD_log ("ac97", __VA_ARGS__)
#else
#define dolog(...)
#endif
typedef struct PCIAC97LinkState {
PCIDevice dev;
AC97LinkState ac97;
} PCIAC97LinkState;
#define MKREGS(prefix, start) \
enum { \
prefix ## _BDBAR = start, \
prefix ## _CIV = start + 4, \
prefix ## _LVI = start + 5, \
prefix ## _SR = start + 6, \
prefix ## _PICB = start + 8, \
prefix ## _PIV = start + 10, \
prefix ## _CR = start + 11 \
}
enum {
PI_INDEX = 0,
PO_INDEX,
MC_INDEX,
LAST_INDEX
};
MKREGS (PI, PI_INDEX * 16);
MKREGS (PO, PO_INDEX * 16);
MKREGS (MC, MC_INDEX * 16);
enum {
GLOB_CNT = 0x2c,
GLOB_STA = 0x30,
CAS = 0x34
};
#define GET_BM(index) (((index) >> 4) & 3)
static void po_callback (void *opaque, int free);
static void pi_callback (void *opaque, int avail);
static void mc_callback (void *opaque, int avail);
static void warm_reset (AC97LinkState *s)
{
(void) s;
}
static void cold_reset (AC97LinkState * s)
{
(void) s;
}
static void fetch_bd (AC97LinkState *s, AC97BusMasterRegs *r)
{
uint8_t b[8];
cpu_physical_memory_read (r->bdbar + r->civ * 8, b, 8);
r->bd_valid = 1;
r->bd.addr = le32_to_cpu (*(uint32_t *) &b[0]) & ~3;
r->bd.ctl_len = le32_to_cpu (*(uint32_t *) &b[4]);
r->picb = r->bd.ctl_len & 0xffff;
dolog ("bd %2d addr=%#x ctl=%#06x len=%#x(%d bytes)\n",
r->civ, r->bd.addr, r->bd.ctl_len >> 16,
r->bd.ctl_len & 0xffff,
(r->bd.ctl_len & 0xffff) << 1);
}
static void update_sr (AC97LinkState *s, AC97BusMasterRegs *r, uint32_t new_sr)
{
int event = 0;
int level = 0;
uint32_t new_mask = new_sr & SR_INT_MASK;
uint32_t old_mask = r->sr & SR_INT_MASK;
uint32_t masks[] = {GS_PIINT, GS_POINT, GS_MINT};
if (new_mask ^ old_mask) {
/** @todo is IRQ deasserted when only one of status bits is cleared? */
if (!new_mask) {
event = 1;
level = 0;
}
else {
if ((new_mask & SR_LVBCI) && (r->cr & CR_LVBIE)) {
event = 1;
level = 1;
}
if ((new_mask & SR_BCIS) && (r->cr & CR_IOCE)) {
event = 1;
level = 1;
}
}
}
r->sr = new_sr;
dolog ("IOC%d LVB%d sr=%#x event=%d level=%d\n",
r->sr & SR_BCIS, r->sr & SR_LVBCI,
r->sr,
event, level);
if (!event)
return;
if (level) {
s->glob_sta |= masks[r - s->bm_regs];
dolog ("set irq level=1\n");
qemu_set_irq(s->pci_dev->irq[0], 1);
}
else {
s->glob_sta &= ~masks[r - s->bm_regs];
dolog ("set irq level=0\n");
qemu_set_irq(s->pci_dev->irq[0], 0);
}
}
static void voice_set_active (AC97LinkState *s, int bm_index, int on)
{
switch (bm_index) {
case PI_INDEX:
AUD_set_active_in (s->voice_pi, on);
break;
case PO_INDEX:
AUD_set_active_out (s->voice_po, on);
break;
case MC_INDEX:
AUD_set_active_in (s->voice_mc, on);
break;
default:
AUD_log ("ac97", "invalid bm_index(%d) in voice_set_active", bm_index);
break;
}
}
static void reset_bm_regs (AC97LinkState *s, AC97BusMasterRegs *r)
{
dolog ("reset_bm_regs\n");
r->bdbar = 0;
r->civ = 0;
r->lvi = 0;
/** todo do we need to do that? */
update_sr (s, r, SR_DCH);
r->picb = 0;
r->piv = 0;
r->cr = r->cr & CR_DONT_CLEAR_MASK;
r->bd_valid = 0;
voice_set_active (s, r - s->bm_regs, 0);
memset (s->silence, 0, sizeof (s->silence));
}
static void mixer_store (AC97LinkState *s, uint32_t i, uint16_t v)
{
if (i + 2 > sizeof (s->mixer_data)) {
dolog ("mixer_store: index %d out of bounds %d\n",
i, sizeof (s->mixer_data));
return;
}
s->mixer_data[i + 0] = v & 0xff;
s->mixer_data[i + 1] = v >> 8;
}
static uint16_t mixer_load (AC97LinkState *s, uint32_t i)
{
uint16_t val = 0xffff;
if (i + 2 > sizeof (s->mixer_data)) {
dolog ("mixer_store: index %d out of bounds %d\n",
i, sizeof (s->mixer_data));
}
else {
val = s->mixer_data[i + 0] | (s->mixer_data[i + 1] << 8);
}
return val;
}
static void open_voice (AC97LinkState *s, int index, int freq)
{
struct audsettings as;
as.freq = freq;
as.nchannels = 2;
as.fmt = AUD_FMT_S16;
as.endianness = 0;
if (freq > 0) {
s->invalid_freq[index] = 0;
switch (index) {
case PI_INDEX:
s->voice_pi = AUD_open_in (
&s->card,
s->voice_pi,
"ac97.pi",
s,
pi_callback,
&as
);
break;
case PO_INDEX:
s->voice_po = AUD_open_out (
&s->card,
s->voice_po,
"ac97.po",
s,
po_callback,
&as
);
break;
case MC_INDEX:
s->voice_mc = AUD_open_in (
&s->card,
s->voice_mc,
"ac97.mc",
s,
mc_callback,
&as
);
break;
}
}
else {
s->invalid_freq[index] = freq;
switch (index) {
case PI_INDEX:
AUD_close_in (&s->card, s->voice_pi);
s->voice_pi = NULL;
break;
case PO_INDEX:
AUD_close_out (&s->card, s->voice_po);
s->voice_po = NULL;
break;
case MC_INDEX:
AUD_close_in (&s->card, s->voice_mc);
s->voice_mc = NULL;
break;
}
}
}
static void reset_voices (AC97LinkState *s, uint8_t active[LAST_INDEX])
{
uint16_t freq;
freq = mixer_load (s, AC97_PCM_LR_ADC_Rate);
open_voice (s, PI_INDEX, freq);
AUD_set_active_in (s->voice_pi, active[PI_INDEX]);
freq = mixer_load (s, AC97_PCM_Front_DAC_Rate);
open_voice (s, PO_INDEX, freq);
AUD_set_active_out (s->voice_po, active[PO_INDEX]);
freq = mixer_load (s, AC97_MIC_ADC_Rate);
open_voice (s, MC_INDEX, freq);
AUD_set_active_in (s->voice_mc, active[MC_INDEX]);
}
#ifdef USE_MIXER
static void set_volume (AC97LinkState *s, int index,
audmixerctl_t mt, uint32_t val)
{
int mute = (val >> MUTE_SHIFT) & 1;
uint8_t rvol = VOL_MASK - (val & VOL_MASK);
uint8_t lvol = VOL_MASK - ((val >> 8) & VOL_MASK);
rvol = 255 * rvol / VOL_MASK;
lvol = 255 * lvol / VOL_MASK;
#ifdef SOFT_VOLUME
if (index == AC97_Master_Volume_Mute) {
AUD_set_volume_out (s->voice_po, mute, lvol, rvol);
}
else {
AUD_set_volume (mt, &mute, &lvol, &rvol);
}
#else
AUD_set_volume (mt, &mute, &lvol, &rvol);
#endif
rvol = VOL_MASK - ((VOL_MASK * rvol) / 255);
lvol = VOL_MASK - ((VOL_MASK * lvol) / 255);
mixer_store (s, index, val);
}
static audrecsource_t ac97_to_aud_record_source (uint8_t i)
{
switch (i) {
case REC_MIC:
return AUD_REC_MIC;
case REC_CD:
return AUD_REC_CD;
case REC_VIDEO:
return AUD_REC_VIDEO;
case REC_AUX:
return AUD_REC_AUX;
case REC_LINE_IN:
return AUD_REC_LINE_IN;
case REC_PHONE:
return AUD_REC_PHONE;
default:
dolog ("Unknown record source %d, using MIC\n", i);
return AUD_REC_MIC;
}
}
static uint8_t aud_to_ac97_record_source (audrecsource_t rs)
{
switch (rs) {
case AUD_REC_MIC:
return REC_MIC;
case AUD_REC_CD:
return REC_CD;
case AUD_REC_VIDEO:
return REC_VIDEO;
case AUD_REC_AUX:
return REC_AUX;
case AUD_REC_LINE_IN:
return REC_LINE_IN;
case AUD_REC_PHONE:
return REC_PHONE;
default:
dolog ("Unknown audio recording source %d using MIC\n", rs);
return REC_MIC;
}
}
static void record_select (AC97LinkState *s, uint32_t val)
{
uint8_t rs = val & REC_MASK;
uint8_t ls = (val >> 8) & REC_MASK;
audrecsource_t ars = ac97_to_aud_record_source (rs);
audrecsource_t als = ac97_to_aud_record_source (ls);
AUD_set_record_source (&als, &ars);
rs = aud_to_ac97_record_source (ars);
ls = aud_to_ac97_record_source (als);
mixer_store (s, AC97_Record_Select, rs | (ls << 8));
}
#endif
static void mixer_reset (AC97LinkState *s)
{
uint8_t active[LAST_INDEX];
dolog ("mixer_reset\n");
memset (s->mixer_data, 0, sizeof (s->mixer_data));
memset (active, 0, sizeof (active));
mixer_store (s, AC97_Reset , 0x0000); /* 6940 */
mixer_store (s, AC97_Master_Volume_Mono_Mute , 0x8000);
mixer_store (s, AC97_PC_BEEP_Volume_Mute , 0x0000);
mixer_store (s, AC97_Phone_Volume_Mute , 0x8008);
mixer_store (s, AC97_Mic_Volume_Mute , 0x8008);
mixer_store (s, AC97_CD_Volume_Mute , 0x8808);
mixer_store (s, AC97_Aux_Volume_Mute , 0x8808);
mixer_store (s, AC97_Record_Gain_Mic_Mute , 0x8000);
mixer_store (s, AC97_General_Purpose , 0x0000);
mixer_store (s, AC97_3D_Control , 0x0000);
mixer_store (s, AC97_Powerdown_Ctrl_Stat , 0x000f);
/*
* Sigmatel 9700 (STAC9700)
*/
mixer_store (s, AC97_Vendor_ID1 , 0x8384);
mixer_store (s, AC97_Vendor_ID2 , 0x7600); /* 7608 */
mixer_store (s, AC97_Extended_Audio_ID , 0x0809);
mixer_store (s, AC97_Extended_Audio_Ctrl_Stat, 0x0009);
mixer_store (s, AC97_PCM_Front_DAC_Rate , 0xbb80);
mixer_store (s, AC97_PCM_Surround_DAC_Rate , 0xbb80);
mixer_store (s, AC97_PCM_LFE_DAC_Rate , 0xbb80);
mixer_store (s, AC97_PCM_LR_ADC_Rate , 0xbb80);
mixer_store (s, AC97_MIC_ADC_Rate , 0xbb80);
#ifdef USE_MIXER
record_select (s, 0);
set_volume (s, AC97_Master_Volume_Mute, AUD_MIXER_VOLUME , 0x8000);
set_volume (s, AC97_PCM_Out_Volume_Mute, AUD_MIXER_PCM , 0x8808);
set_volume (s, AC97_Line_In_Volume_Mute, AUD_MIXER_LINE_IN, 0x8808);
#endif
reset_voices (s, active);
}
/**
* Native audio mixer
* I/O Reads
*/
static uint32_t nam_readb (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
dolog ("U nam readb %#x\n", addr);
s->cas = 0;
return ~0U;
}
static uint32_t nam_readw (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
uint32_t val = ~0U;
uint32_t index = addr - s->base[0];
s->cas = 0;
val = mixer_load (s, index);
return val;
}
static uint32_t nam_readl (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
dolog ("U nam readl %#x\n", addr);
s->cas = 0;
return ~0U;
}
/**
* Native audio mixer
* I/O Writes
*/
static void nam_writeb (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
dolog ("U nam writeb %#x <- %#x\n", addr, val);
s->cas = 0;
}
static void nam_writew (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
uint32_t index = addr - s->base[0];
s->cas = 0;
switch (index) {
case AC97_Reset:
mixer_reset (s);
break;
case AC97_Powerdown_Ctrl_Stat:
val &= ~0xf;
val |= mixer_load (s, index) & 0xf;
mixer_store (s, index, val);
break;
#ifdef USE_MIXER
case AC97_Master_Volume_Mute:
set_volume (s, index, AUD_MIXER_VOLUME, val);
break;
case AC97_PCM_Out_Volume_Mute:
set_volume (s, index, AUD_MIXER_PCM, val);
break;
case AC97_Line_In_Volume_Mute:
set_volume (s, index, AUD_MIXER_LINE_IN, val);
break;
case AC97_Record_Select:
record_select (s, val);
break;
#endif
case AC97_Vendor_ID1:
case AC97_Vendor_ID2:
dolog ("Attempt to write vendor ID to %#x\n", val);
break;
case AC97_Extended_Audio_ID:
dolog ("Attempt to write extended audio ID to %#x\n", val);
break;
case AC97_Extended_Audio_Ctrl_Stat:
if (!(val & EACS_VRA)) {
mixer_store (s, AC97_PCM_Front_DAC_Rate, 0xbb80);
mixer_store (s, AC97_PCM_LR_ADC_Rate, 0xbb80);
open_voice (s, PI_INDEX, 48000);
open_voice (s, PO_INDEX, 48000);
}
if (!(val & EACS_VRM)) {
mixer_store (s, AC97_MIC_ADC_Rate, 0xbb80);
open_voice (s, MC_INDEX, 48000);
}
dolog ("Setting extended audio control to %#x\n", val);
mixer_store (s, AC97_Extended_Audio_Ctrl_Stat, val);
break;
case AC97_PCM_Front_DAC_Rate:
if (mixer_load (s, AC97_Extended_Audio_Ctrl_Stat) & EACS_VRA) {
mixer_store (s, index, val);
dolog ("Set front DAC rate to %d\n", val);
open_voice (s, PO_INDEX, val);
}
else {
dolog ("Attempt to set front DAC rate to %d, "
"but VRA is not set\n",
val);
}
break;
case AC97_MIC_ADC_Rate:
if (mixer_load (s, AC97_Extended_Audio_Ctrl_Stat) & EACS_VRM) {
mixer_store (s, index, val);
dolog ("Set MIC ADC rate to %d\n", val);
open_voice (s, MC_INDEX, val);
}
else {
dolog ("Attempt to set MIC ADC rate to %d, "
"but VRM is not set\n",
val);
}
break;
case AC97_PCM_LR_ADC_Rate:
if (mixer_load (s, AC97_Extended_Audio_Ctrl_Stat) & EACS_VRA) {
mixer_store (s, index, val);
dolog ("Set front LR ADC rate to %d\n", val);
open_voice (s, PI_INDEX, val);
}
else {
dolog ("Attempt to set LR ADC rate to %d, but VRA is not set\n",
val);
}
break;
default:
dolog ("U nam writew %#x <- %#x\n", addr, val);
mixer_store (s, index, val);
break;
}
}
static void nam_writel (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
dolog ("U nam writel %#x <- %#x\n", addr, val);
s->cas = 0;
}
/**
* Native audio bus master
* I/O Reads
*/
static uint32_t nabm_readb (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
uint32_t val = ~0U;
switch (index) {
case CAS:
dolog ("CAS %d\n", s->cas);
val = s->cas;
s->cas = 1;
break;
case PI_CIV:
case PO_CIV:
case MC_CIV:
r = &s->bm_regs[GET_BM (index)];
val = r->civ;
dolog ("CIV[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_LVI:
case PO_LVI:
case MC_LVI:
r = &s->bm_regs[GET_BM (index)];
val = r->lvi;
dolog ("LVI[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_PIV:
case PO_PIV:
case MC_PIV:
r = &s->bm_regs[GET_BM (index)];
val = r->piv;
dolog ("PIV[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_CR:
case PO_CR:
case MC_CR:
r = &s->bm_regs[GET_BM (index)];
val = r->cr;
dolog ("CR[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_SR:
case PO_SR:
case MC_SR:
r = &s->bm_regs[GET_BM (index)];
val = r->sr & 0xff;
dolog ("SRb[%d] -> %#x\n", GET_BM (index), val);
break;
default:
dolog ("U nabm readb %#x -> %#x\n", addr, val);
break;
}
return val;
}
static uint32_t nabm_readw (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
uint32_t val = ~0U;
switch (index) {
case PI_SR:
case PO_SR:
case MC_SR:
r = &s->bm_regs[GET_BM (index)];
val = r->sr;
dolog ("SR[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_PICB:
case PO_PICB:
case MC_PICB:
r = &s->bm_regs[GET_BM (index)];
val = r->picb;
dolog ("PICB[%d] -> %#x\n", GET_BM (index), val);
break;
default:
dolog ("U nabm readw %#x -> %#x\n", addr, val);
break;
}
return val;
}
static uint32_t nabm_readl (void *opaque, uint32_t addr)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
uint32_t val = ~0U;
switch (index) {
case PI_BDBAR:
case PO_BDBAR:
case MC_BDBAR:
r = &s->bm_regs[GET_BM (index)];
val = r->bdbar;
dolog ("BMADDR[%d] -> %#x\n", GET_BM (index), val);
break;
case PI_CIV:
case PO_CIV:
case MC_CIV:
r = &s->bm_regs[GET_BM (index)];
val = r->civ | (r->lvi << 8) | (r->sr << 16);
dolog ("CIV LVI SR[%d] -> %#x, %#x, %#x\n", GET_BM (index),
r->civ, r->lvi, r->sr);
break;
case PI_PICB:
case PO_PICB:
case MC_PICB:
r = &s->bm_regs[GET_BM (index)];
val = r->picb | (r->piv << 16) | (r->cr << 24);
dolog ("PICB PIV CR[%d] -> %#x %#x %#x %#x\n", GET_BM (index),
val, r->picb, r->piv, r->cr);
break;
case GLOB_CNT:
val = s->glob_cnt;
dolog ("glob_cnt -> %#x\n", val);
break;
case GLOB_STA:
val = s->glob_sta | GS_S0CR;
dolog ("glob_sta -> %#x\n", val);
break;
default:
dolog ("U nabm readl %#x -> %#x\n", addr, val);
break;
}
return val;
}
/**
* Native audio bus master
* I/O Writes
*/
static void nabm_writeb (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
switch (index) {
case PI_LVI:
case PO_LVI:
case MC_LVI:
r = &s->bm_regs[GET_BM (index)];
if ((r->cr & CR_RPBM) && (r->sr & SR_DCH)) {
r->sr &= ~(SR_DCH | SR_CELV);
r->civ = r->piv;
r->piv = (r->piv + 1) % 32;
fetch_bd (s, r);
}
r->lvi = val % 32;
dolog ("LVI[%d] <- %#x\n", GET_BM (index), val);
break;
case PI_CR:
case PO_CR:
case MC_CR:
r = &s->bm_regs[GET_BM (index)];
if (val & CR_RR) {
reset_bm_regs (s, r);
}
else {
r->cr = val & CR_VALID_MASK;
if (!(r->cr & CR_RPBM)) {
voice_set_active (s, r - s->bm_regs, 0);
r->sr |= SR_DCH;
}
else {
r->civ = r->piv;
r->piv = (r->piv + 1) % 32;
fetch_bd (s, r);
r->sr &= ~SR_DCH;
voice_set_active (s, r - s->bm_regs, 1);
}
}
dolog ("CR[%d] <- %#x (cr %#x)\n", GET_BM (index), val, r->cr);
break;
case PI_SR:
case PO_SR:
case MC_SR:
r = &s->bm_regs[GET_BM (index)];
r->sr |= val & ~(SR_RO_MASK | SR_WCLEAR_MASK);
update_sr (s, r, r->sr & ~(val & SR_WCLEAR_MASK));
dolog ("SR[%d] <- %#x (sr %#x)\n", GET_BM (index), val, r->sr);
break;
default:
dolog ("U nabm writeb %#x <- %#x\n", addr, val);
break;
}
}
static void nabm_writew (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
switch (index) {
case PI_SR:
case PO_SR:
case MC_SR:
r = &s->bm_regs[GET_BM (index)];
r->sr |= val & ~(SR_RO_MASK | SR_WCLEAR_MASK);
update_sr (s, r, r->sr & ~(val & SR_WCLEAR_MASK));
dolog ("SR[%d] <- %#x (sr %#x)\n", GET_BM (index), val, r->sr);
break;
default:
dolog ("U nabm writew %#x <- %#x\n", addr, val);
break;
}
}
static void nabm_writel (void *opaque, uint32_t addr, uint32_t val)
{
PCIAC97LinkState *d = opaque;
AC97LinkState *s = &d->ac97;
AC97BusMasterRegs *r = NULL;
uint32_t index = addr - s->base[1];
switch (index) {
case PI_BDBAR:
case PO_BDBAR:
case MC_BDBAR:
r = &s->bm_regs[GET_BM (index)];
r->bdbar = val & ~3;
dolog ("BDBAR[%d] <- %#x (bdbar %#x)\n",
GET_BM (index), val, r->bdbar);
break;
case GLOB_CNT:
if (val & GC_WR)
warm_reset (s);
if (val & GC_CR)
cold_reset (s);
if (!(val & (GC_WR | GC_CR)))
s->glob_cnt = val & GC_VALID_MASK;
dolog ("glob_cnt <- %#x (glob_cnt %#x)\n", val, s->glob_cnt);
break;
case GLOB_STA:
s->glob_sta &= ~(val & GS_WCLEAR_MASK);
s->glob_sta |= (val & ~(GS_WCLEAR_MASK | GS_RO_MASK)) & GS_VALID_MASK;
dolog ("glob_sta <- %#x (glob_sta %#x)\n", val, s->glob_sta);
break;
default:
dolog ("U nabm writel %#x <- %#x\n", addr, val);
break;
}
}
static int write_audio (AC97LinkState *s, AC97BusMasterRegs *r,
int max, int *stop)
{
uint8_t tmpbuf[4096];
uint32_t addr = r->bd.addr;
uint32_t temp = r->picb << 1;
uint32_t written = 0;
int to_copy = 0;
temp = audio_MIN (temp, max);
if (!temp) {
*stop = 1;
return 0;
}
while (temp) {
int copied;
to_copy = audio_MIN (temp, sizeof (tmpbuf));
cpu_physical_memory_read (addr, tmpbuf, to_copy);
copied = AUD_write (s->voice_po, tmpbuf, to_copy);
dolog ("write_audio max=%x to_copy=%x copied=%x\n",
max, to_copy, copied);
if (!copied) {
*stop = 1;
break;
}
temp -= copied;
addr += copied;
written += copied;
}
if (!temp) {
if (to_copy < 4) {
dolog ("whoops\n");
s->last_samp = 0;
}
else {
s->last_samp = *(uint32_t *) &tmpbuf[to_copy - 4];
}
}
r->bd.addr = addr;
return written;
}
static void write_bup (AC97LinkState *s, int elapsed)
{
int written = 0;
dolog ("write_bup\n");
if (!(s->bup_flag & BUP_SET)) {
if (s->bup_flag & BUP_LAST) {
int i;
uint8_t *p = s->silence;
for (i = 0; i < sizeof (s->silence) / 4; i++, p += 4) {
*(uint32_t *) p = s->last_samp;
}
}
else {
memset (s->silence, 0, sizeof (s->silence));
}
s->bup_flag |= BUP_SET;
}
while (elapsed) {
int temp = audio_MIN (elapsed, sizeof (s->silence));
while (temp) {
int copied = AUD_write (s->voice_po, s->silence, temp);
if (!copied)
return;
temp -= copied;
elapsed -= copied;
written += copied;
}
}
}
static int read_audio (AC97LinkState *s, AC97BusMasterRegs *r,
int max, int *stop)
{
uint8_t tmpbuf[4096];
uint32_t addr = r->bd.addr;
uint32_t temp = r->picb << 1;
uint32_t nread = 0;
int to_copy = 0;
SWVoiceIn *voice = (r - s->bm_regs) == MC_INDEX ? s->voice_mc : s->voice_pi;
temp = audio_MIN (temp, max);
if (!temp) {
*stop = 1;
return 0;
}
while (temp) {
int acquired;
to_copy = audio_MIN (temp, sizeof (tmpbuf));
acquired = AUD_read (voice, tmpbuf, to_copy);
if (!acquired) {
*stop = 1;
break;
}
cpu_physical_memory_write (addr, tmpbuf, acquired);
temp -= acquired;
addr += acquired;
nread += acquired;
}
r->bd.addr = addr;
return nread;
}
static void transfer_audio (AC97LinkState *s, int index, int elapsed)
{
AC97BusMasterRegs *r = &s->bm_regs[index];
int written = 0, stop = 0;
if (s->invalid_freq[index]) {
AUD_log ("ac97", "attempt to use voice %d with invalid frequency %d\n",
index, s->invalid_freq[index]);
return;
}
if (r->sr & SR_DCH) {
if (r->cr & CR_RPBM) {
switch (index) {
case PO_INDEX:
write_bup (s, elapsed);
break;
}
}
return;
}
while ((elapsed >> 1) && !stop) {
int temp;
if (!r->bd_valid) {
dolog ("invalid bd\n");
fetch_bd (s, r);
}
if (!r->picb) {
dolog ("fresh bd %d is empty %#x %#x\n",
r->civ, r->bd.addr, r->bd.ctl_len);
if (r->civ == r->lvi) {
r->sr |= SR_DCH; /* CELV? */
s->bup_flag = 0;
break;
}
r->sr &= ~SR_CELV;
r->civ = r->piv;
r->piv = (r->piv + 1) % 32;
fetch_bd (s, r);
return;
}
switch (index) {
case PO_INDEX:
temp = write_audio (s, r, elapsed, &stop);
written += temp;
elapsed -= temp;
r->picb -= (temp >> 1);
break;
case PI_INDEX:
case MC_INDEX:
temp = read_audio (s, r, elapsed, &stop);
elapsed -= temp;
r->picb -= (temp >> 1);
break;
}
if (!r->picb) {
uint32_t new_sr = r->sr & ~SR_CELV;
if (r->bd.ctl_len & BD_IOC) {
new_sr |= SR_BCIS;
}
if (r->civ == r->lvi) {
dolog ("Underrun civ (%d) == lvi (%d)\n", r->civ, r->lvi);
new_sr |= SR_LVBCI | SR_DCH | SR_CELV;
stop = 1;
s->bup_flag = (r->bd.ctl_len & BD_BUP) ? BUP_LAST : 0;
}
else {
r->civ = r->piv;
r->piv = (r->piv + 1) % 32;
fetch_bd (s, r);
}
update_sr (s, r, new_sr);
}
}
}
static void pi_callback (void *opaque, int avail)
{
transfer_audio (opaque, PI_INDEX, avail);
}
static void mc_callback (void *opaque, int avail)
{
transfer_audio (opaque, MC_INDEX, avail);
}
static void po_callback (void *opaque, int free)
{
transfer_audio (opaque, PO_INDEX, free);
}
static void ac97_save (QEMUFile *f, void *opaque)
{
size_t i;
uint8_t active[LAST_INDEX];
AC97LinkState *s = opaque;
pci_device_save (s->pci_dev, f);
qemu_put_be32s (f, &s->glob_cnt);
qemu_put_be32s (f, &s->glob_sta);
qemu_put_be32s (f, &s->cas);
for (i = 0; i < ARRAY_SIZE (s->bm_regs); ++i) {
AC97BusMasterRegs *r = &s->bm_regs[i];
qemu_put_be32s (f, &r->bdbar);
qemu_put_8s (f, &r->civ);
qemu_put_8s (f, &r->lvi);
qemu_put_be16s (f, &r->sr);
qemu_put_be16s (f, &r->picb);
qemu_put_8s (f, &r->piv);
qemu_put_8s (f, &r->cr);
qemu_put_be32s (f, &r->bd_valid);
qemu_put_be32s (f, &r->bd.addr);
qemu_put_be32s (f, &r->bd.ctl_len);
}
qemu_put_buffer (f, s->mixer_data, sizeof (s->mixer_data));
active[PI_INDEX] = AUD_is_active_in (s->voice_pi) ? 1 : 0;
active[PO_INDEX] = AUD_is_active_out (s->voice_po) ? 1 : 0;
active[MC_INDEX] = AUD_is_active_in (s->voice_mc) ? 1 : 0;
qemu_put_buffer (f, active, sizeof (active));
}
static int ac97_load (QEMUFile *f, void *opaque, int version_id)
{
int ret;
size_t i;
uint8_t active[LAST_INDEX];
AC97LinkState *s = opaque;
if (version_id != 2)
return -EINVAL;
ret = pci_device_load (s->pci_dev, f);
if (ret)
return ret;
qemu_get_be32s (f, &s->glob_cnt);
qemu_get_be32s (f, &s->glob_sta);
qemu_get_be32s (f, &s->cas);
for (i = 0; i < ARRAY_SIZE (s->bm_regs); ++i) {
AC97BusMasterRegs *r = &s->bm_regs[i];
qemu_get_be32s (f, &r->bdbar);
qemu_get_8s (f, &r->civ);
qemu_get_8s (f, &r->lvi);
qemu_get_be16s (f, &r->sr);
qemu_get_be16s (f, &r->picb);
qemu_get_8s (f, &r->piv);
qemu_get_8s (f, &r->cr);
qemu_get_be32s (f, &r->bd_valid);
qemu_get_be32s (f, &r->bd.addr);
qemu_get_be32s (f, &r->bd.ctl_len);
}
qemu_get_buffer (f, s->mixer_data, sizeof (s->mixer_data));
qemu_get_buffer (f, active, sizeof (active));
#ifdef USE_MIXER
record_select (s, mixer_load (s, AC97_Record_Select));
#define V_(a, b) set_volume (s, a, b, mixer_load (s, a))
V_ (AC97_Master_Volume_Mute, AUD_MIXER_VOLUME);
V_ (AC97_PCM_Out_Volume_Mute, AUD_MIXER_PCM);
V_ (AC97_Line_In_Volume_Mute, AUD_MIXER_LINE_IN);
#undef V_
#endif
reset_voices (s, active);
s->bup_flag = 0;
s->last_samp = 0;
return 0;
}
static void ac97_map (PCIDevice *pci_dev, int region_num,
uint32_t addr, uint32_t size, int type)
{
PCIAC97LinkState *d = (PCIAC97LinkState *) pci_dev;
AC97LinkState *s = &d->ac97;
if (!region_num) {
s->base[0] = addr;
register_ioport_read (addr, 256 * 1, 1, nam_readb, d);
register_ioport_read (addr, 256 * 2, 2, nam_readw, d);
register_ioport_read (addr, 256 * 4, 4, nam_readl, d);
register_ioport_write (addr, 256 * 1, 1, nam_writeb, d);
register_ioport_write (addr, 256 * 2, 2, nam_writew, d);
register_ioport_write (addr, 256 * 4, 4, nam_writel, d);
}
else {
s->base[1] = addr;
register_ioport_read (addr, 64 * 1, 1, nabm_readb, d);
register_ioport_read (addr, 64 * 2, 2, nabm_readw, d);
register_ioport_read (addr, 64 * 4, 4, nabm_readl, d);
register_ioport_write (addr, 64 * 1, 1, nabm_writeb, d);
register_ioport_write (addr, 64 * 2, 2, nabm_writew, d);
register_ioport_write (addr, 64 * 4, 4, nabm_writel, d);
}
}
static void ac97_on_reset (void *opaque)
{
AC97LinkState *s = opaque;
reset_bm_regs (s, &s->bm_regs[0]);
reset_bm_regs (s, &s->bm_regs[1]);
reset_bm_regs (s, &s->bm_regs[2]);
/*
* Reset the mixer too. The Windows XP driver seems to rely on
* this. At least it wants to read the vendor id before it resets
* the codec manually.
*/
mixer_reset (s);
}
int ac97_init (PCIBus *bus)
{
PCIAC97LinkState *d;
AC97LinkState *s;
uint8_t *c;
if (!bus) {
AUD_log ("ac97", "No PCI bus\n");
return -1;
}
d = (PCIAC97LinkState *) pci_register_device (bus, "AC97",
sizeof (PCIAC97LinkState),
-1, NULL, NULL);
if (!d) {
AUD_log ("ac97", "Failed to register PCI device\n");
return -1;
}
s = &d->ac97;
s->pci_dev = &d->dev;
c = d->dev.config;
pci_config_set_vendor_id(c, PCI_VENDOR_ID_INTEL); /* ro */
pci_config_set_device_id(c, PCI_DEVICE_ID_INTEL_82801AA_5); /* ro */
c[0x04] = 0x00; /* pcicmd pci command rw, ro */
c[0x05] = 0x00;
c[0x06] = 0x80; /* pcists pci status rwc, ro */
c[0x07] = 0x02;
c[0x08] = 0x01; /* rid revision ro */
c[0x09] = 0x00; /* pi programming interface ro */
pci_config_set_class(c, PCI_CLASS_MULTIMEDIA_AUDIO); /* ro */
c[PCI_HEADER_TYPE] = PCI_HEADER_TYPE_NORMAL; /* headtyp header type ro */
c[0x10] = 0x01; /* nabmar native audio mixer base
address rw */
c[0x11] = 0x00;
c[0x12] = 0x00;
c[0x13] = 0x00;
c[0x14] = 0x01; /* nabmbar native audio bus mastering
base address rw */
c[0x15] = 0x00;
c[0x16] = 0x00;
c[0x17] = 0x00;
c[0x2c] = 0x86; /* svid subsystem vendor id rwo */
c[0x2d] = 0x80;
c[0x2e] = 0x00; /* sid subsystem id rwo */
c[0x2f] = 0x00;
c[0x3c] = 0x00; /* intr_ln interrupt line rw */
c[0x3d] = 0x01; /* intr_pn interrupt pin ro */
pci_register_io_region (&d->dev, 0, 256 * 4, PCI_ADDRESS_SPACE_IO, ac97_map);
pci_register_io_region (&d->dev, 1, 64 * 4, PCI_ADDRESS_SPACE_IO, ac97_map);
register_savevm ("ac97", 0, 2, ac97_save, ac97_load, s);
qemu_register_reset (ac97_on_reset, 0, s);
AUD_register_card ("ac97", &s->card);
ac97_on_reset (s);
return 0;
}