86Box/src/sound/snd_ac97_via.c

/*
 * 86Box     A hypervisor and IBM PC system emulator that specializes in
 *           running old operating systems and software designed for IBM
 *           PC systems and compatibles from 1981 through fairly recent
 *           system designs based on the PCI bus.
 *
 *           This file is part of the 86Box distribution.
 *
 *           VIA AC'97 audio controller emulation.
 *
 *
 *
 * Authors:  RichardG, <richardg867@gmail.com>
 *
 *           Copyright 2021 RichardG.
 */
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define HAVE_STDARG_H

#include <86box/86box.h>
#include <86box/device.h>
#include <86box/io.h>
#include <86box/mem.h>
#include <86box/pci.h>
#include <86box/pic.h>
#include <86box/snd_ac97.h>
#include <86box/sound.h>
#include <86box/timer.h>

typedef struct {
    uint8_t            id, always_run;
    struct _ac97_via_ *dev;

    uint32_t entry_ptr, sample_ptr, fifo_pos, fifo_end;
    int32_t  sample_count;
    uint8_t  entry_flags, fifo[32], restart;

    int16_t  out_l, out_r;
    int      vol_l, vol_r, pos;
    int32_t  buffer[SOUNDBUFLEN * 2];
    uint64_t timer_latch;

    pc_timer_t dma_timer, poll_timer;
} ac97_via_sgd_t;

typedef struct _ac97_via_ {
    uint16_t audio_sgd_base, audio_codec_base, modem_sgd_base, modem_codec_base;
    uint8_t  sgd_regs[256], pcm_enabled : 1, fm_enabled : 1, vsr_enabled : 1;
    struct {
        union {
            uint8_t regs_codec[2][128];
            uint8_t regs_linear[256];
        };
    } codec_shadow[2];
    int slot, irq_pin;

    ac97_codec_t  *codec[2][2];
    ac97_via_sgd_t sgd[6];

    int master_vol_l, master_vol_r, cd_vol_l, cd_vol_r;
} ac97_via_t;

#ifdef ENABLE_AC97_VIA_LOG
int ac97_via_do_log = ENABLE_AC97_VIA_LOG;

static void
ac97_via_log(const char *fmt, ...)
{
    va_list ap;

    if (ac97_via_do_log) {
        va_start(ap, fmt);
        pclog_ex(fmt, ap);
        va_end(ap);
    }
}
#else
#    define ac97_via_log(fmt, ...)
#endif

static void ac97_via_sgd_process(void *priv);
static void ac97_via_update_codec(ac97_via_t *dev);
static void ac97_via_speed_changed(void *priv);
static void ac97_via_filter_cd_audio(int channel, double *buffer, void *priv);

void
ac97_via_set_slot(void *priv, int slot, int irq_pin)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    ac97_via_log("AC97 VIA: set_slot(%d, %d)\n", slot, irq_pin);

    dev->slot    = slot;
    dev->irq_pin = irq_pin;
}

uint8_t
ac97_via_read_status(void *priv, uint8_t modem)
{
    ac97_via_t *dev = (ac97_via_t *) priv;
    uint8_t     ret = 0x00;

    /* Flag each codec as ready if present. */
    for (uint8_t i = 0; i <= 1; i++) {
        if (dev->codec[modem][i])
            ret |= 0x01 << (i << 1);
    }

    ac97_via_log("AC97 VIA %d: read_status() = %02X\n", modem, ret);

    return ret;
}

void
ac97_via_write_control(void *priv, uint8_t modem, uint8_t val)
{
    ac97_via_t *dev = (ac97_via_t *) priv;
    uint8_t     i;

    ac97_via_log("AC97 VIA %d: write_control(%02X)\n", modem, val);

    /* Reset codecs if requested. */
    if (!(val & 0x40)) {
        for (i = 0; i <= 1; i++) {
            if (dev->codec[modem][i])
                ac97_codec_reset(dev->codec[modem][i]);
        }
    }

    if (!modem) {
        /* Set the variable sample rate flag. */
        dev->vsr_enabled = (val & 0xf8) == 0xc8;

        /* Start or stop PCM playback. */
        i = (val & 0xf4) == 0xc4;
        if (i && !dev->pcm_enabled)
            timer_advance_u64(&dev->sgd[0].poll_timer, dev->sgd[0].timer_latch);
        dev->pcm_enabled = i;

        /* Start or stop FM playback. */
        i = (val & 0xf2) == 0xc2;
        if (i && !dev->fm_enabled)
            timer_advance_u64(&dev->sgd[2].poll_timer, dev->sgd[2].timer_latch);
        dev->fm_enabled = i;

        /* Update primary audio codec state. */
        if (dev->codec[0][0])
            ac97_via_update_codec(dev);
    }
}

static void
ac97_via_update_irqs(ac97_via_t *dev)
{
    /* Check interrupt flags in all SGDs. */
    for (uint8_t i = 0x00; i < ((sizeof(dev->sgd) / sizeof(dev->sgd[0])) << 4); i += 0x10) {
        /* Stop immediately if any flag is set. Doing it this way optimizes
           rising edges for the playback SGD (0 - first to be checked). */
        if (dev->sgd_regs[i] & (dev->sgd_regs[i | 0x2] & 0x03)) {
            pci_set_irq(dev->slot, dev->irq_pin);
            return;
        }
    }

    pci_clear_irq(dev->slot, dev->irq_pin);
}

static void
ac97_via_update_codec(ac97_via_t *dev)
{
    /* Get primary audio codec. */
    ac97_codec_t *codec = dev->codec[0][0];

    /* Update volumes according to codec registers. */
    ac97_codec_getattn(codec, 0x02, &dev->master_vol_l, &dev->master_vol_r);
    ac97_codec_getattn(codec, 0x18, &dev->sgd[0].vol_l, &dev->sgd[0].vol_r);
    ac97_codec_getattn(codec, 0x12, &dev->cd_vol_l, &dev->cd_vol_r);

    /* Update sample rate according to codec registers and the variable sample rate flag. */
    ac97_via_speed_changed(dev);
}

uint8_t
ac97_via_sgd_read(uint16_t addr, void *priv)
{
    ac97_via_t *dev = (ac97_via_t *) priv;
#ifdef ENABLE_AC97_VIA_LOG
    uint8_t modem = (addr & 0xff00) == dev->modem_sgd_base;
#endif
    addr &= 0xff;
    uint8_t ret;

    if (!(addr & 0x80)) {
        /* Process SGD channel registers. */
        switch (addr & 0xf) {
            case 0x4:
                ret = dev->sgd[addr >> 4].entry_ptr;
                break;

            case 0x5:
                ret = dev->sgd[addr >> 4].entry_ptr >> 8;
                break;

            case 0x6:
                ret = dev->sgd[addr >> 4].entry_ptr >> 16;
                break;

            case 0x7:
                ret = dev->sgd[addr >> 4].entry_ptr >> 24;
                break;

            case 0xc:
                ret = dev->sgd[addr >> 4].sample_count;
                break;

            case 0xd:
                ret = dev->sgd[addr >> 4].sample_count >> 8;
                break;

            case 0xe:
                ret = dev->sgd[addr >> 4].sample_count >> 16;
                break;

            default:
                ret = dev->sgd_regs[addr];
                break;
        }
    } else {
        /* Process regular registers. */
        switch (addr) {
            case 0x84:
                ret = (dev->sgd_regs[0x00] & 0x01);
                ret |= (dev->sgd_regs[0x10] & 0x01) << 1;
                ret |= (dev->sgd_regs[0x20] & 0x01) << 2;

                ret |= (dev->sgd_regs[0x00] & 0x02) << 3;
                ret |= (dev->sgd_regs[0x10] & 0x02) << 4;
                ret |= (dev->sgd_regs[0x20] & 0x02) << 5;
                break;

            case 0x85:
                ret = (dev->sgd_regs[0x00] & 0x04) >> 2;
                ret |= (dev->sgd_regs[0x10] & 0x04) >> 1;
                ret |= (dev->sgd_regs[0x20] & 0x04);

                ret |= (dev->sgd_regs[0x00] & 0x80) >> 3;
                ret |= (dev->sgd_regs[0x10] & 0x80) >> 2;
                ret |= (dev->sgd_regs[0x20] & 0x80) >> 1;
                break;

            case 0x86:
                ret = (dev->sgd_regs[0x40] & 0x01);
                ret |= (dev->sgd_regs[0x50] & 0x01) << 1;

                ret |= (dev->sgd_regs[0x40] & 0x02) << 3;
                ret |= (dev->sgd_regs[0x50] & 0x02) << 4;
                break;

            case 0x87:
                ret = (dev->sgd_regs[0x40] & 0x04) >> 2;
                ret |= (dev->sgd_regs[0x50] & 0x04) >> 1;

                ret |= (dev->sgd_regs[0x40] & 0x80) >> 3;
                ret |= (dev->sgd_regs[0x50] & 0x80) >> 2;
                break;

            default:
                ret = dev->sgd_regs[addr];
                break;
        }
    }

    ac97_via_log("AC97 VIA %d: sgd_read(%02X) = %02X\n", modem, addr, ret);

    return ret;
}

void
ac97_via_sgd_write(uint16_t addr, uint8_t val, void *priv)
{
    ac97_via_t   *dev   = (ac97_via_t *) priv;
    uint8_t       modem = (addr & 0xff00) == dev->modem_sgd_base, i;
    ac97_codec_t *codec;
    addr &= 0xff;

    ac97_via_log("AC97 VIA %d: sgd_write(%02X, %02X)\n", modem, addr, val);

    /* Check function-specific read only registers. */
    if ((addr >= (modem ? 0x00 : 0x40)) && (addr < (modem ? 0x40 : 0x60)))
        return;
    if (addr >= (modem ? 0x90 : 0x88))
        return;

    if (!(addr & 0x80)) {
        /* Process SGD channel registers. */
        switch (addr & 0xf) {
            case 0x0:
                /* Clear RWC status bits. */
                dev->sgd_regs[addr] &= ~(val & 0x07);

                /* Update status interrupts. */
                ac97_via_update_irqs(dev);

                return;

            case 0x1:
                /* Start SGD if requested. */
                if (val & 0x80) {
                    if (dev->sgd_regs[addr & 0xf0] & 0x80) {
                        /* Queue SGD trigger if already running. */
                        dev->sgd_regs[addr & 0xf0] |= 0x08;
                    } else {
                        /* Start SGD immediately. */
                        dev->sgd_regs[addr & 0xf0] |= 0x80;
                        dev->sgd_regs[addr & 0xf0] &= ~0x44;

                        /* Start at the specified entry pointer. */
                        dev->sgd[addr >> 4].sample_ptr = 0;
                        dev->sgd[addr >> 4].entry_ptr  = *((uint32_t *) &dev->sgd_regs[(addr & 0xf0) | 0x4]) & 0xfffffffe;
                        dev->sgd[addr >> 4].restart    = 1;

                        /* Start the actual SGD process. */
                        ac97_via_sgd_process(&dev->sgd[addr >> 4]);
                    }
                }
                /* Stop SGD if requested. */
                if (val & 0x40)
                    dev->sgd_regs[addr & 0xf0] &= ~0x88;

                val &= 0x08;

                /* (Un)pause SGD if requested. */
                if (val & 0x08)
                    dev->sgd_regs[addr & 0xf0] |= 0x40;
                else
                    dev->sgd_regs[addr & 0xf0] &= ~0x40;

                break;

            case 0x2:
                if (addr & 0x10)
                    val &= 0xf3;
                break;

            case 0x3:
            case 0x8 ... 0xf:
                /* Read-only registers. */
                return;
        }
    } else {
        /* Process regular registers. */
        switch (addr) {
            case 0x30 ... 0x3f:
            case 0x60 ... 0x7f:
            case 0x84 ... 0x87:
                /* Read-only registers. */
                return;

            case 0x82:
                /* Determine the selected codec. */
                i     = !!(dev->sgd_regs[0x83] & 0x40);
                codec = dev->codec[modem][i];

                /* Keep value in register if this codec is not present. */
                if (codec) {
                    /* Read from or write to codec. */
                    if (val & 0x80) {
                        if (val & 1) { /* return 0x0000 on unaligned reads (real 686B behavior) */
                            dev->sgd_regs[0x80] = dev->sgd_regs[0x81] = 0x00;
                        } else {
                            *((uint16_t *) &dev->codec_shadow[modem].regs_codec[i][val & 0x7f]) = *((uint16_t *) &dev->sgd_regs[0x80]) = ac97_codec_readw(codec, val);
                        }

                        /* Flag data/status/index for this codec as valid. */
                        dev->sgd_regs[0x83] |= 0x02 << (i << 1);
                    } else if (!(val & 1)) { /* do nothing on unaligned writes */
                        ac97_codec_writew(codec, val,
                                          *((uint16_t *) &dev->codec_shadow[modem].regs_codec[i][val & 0x7f]) = *((uint16_t *) &dev->sgd_regs[0x80]));

                        /* Update primary audio codec state if that codec was written to. */
                        if (!modem && !i) {
                            ac97_via_update_codec(dev);

                            /* Set up CD audio filter if CD volume was written to. Setting it
                               up at init prevents CD audio from working on other cards, but
                               this works as the CD channel is muted by default per AC97 spec. */
                            if (val == 0x12)
                                sound_set_cd_audio_filter(ac97_via_filter_cd_audio, dev);
                        }
                    }
                }

                break;

            case 0x83:
                /* Clear RWC status bits. */
#if 0 /* race condition with Linux accessing a register and clearing status bits on the same dword write */
            val = (dev->sgd_regs[addr] & ~(val & 0x0a)) | (val & 0xc0);
#else
                val = dev->sgd_regs[addr] | (val & 0xc0);
#endif
                break;
        }
    }

    dev->sgd_regs[addr] = val;
}

void
ac97_via_remap_audio_sgd(void *priv, uint16_t new_io_base, uint8_t enable)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    if (dev->audio_sgd_base)
        io_removehandler(dev->audio_sgd_base, 256, ac97_via_sgd_read, NULL, NULL, ac97_via_sgd_write, NULL, NULL, dev);

    dev->audio_sgd_base = new_io_base;

    if (dev->audio_sgd_base && enable)
        io_sethandler(dev->audio_sgd_base, 256, ac97_via_sgd_read, NULL, NULL, ac97_via_sgd_write, NULL, NULL, dev);
}

void
ac97_via_remap_modem_sgd(void *priv, uint16_t new_io_base, uint8_t enable)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    if (dev->modem_sgd_base)
        io_removehandler(dev->modem_sgd_base, 256, ac97_via_sgd_read, NULL, NULL, ac97_via_sgd_write, NULL, NULL, dev);

    dev->modem_sgd_base = new_io_base;

    if (dev->modem_sgd_base && enable)
        io_sethandler(dev->modem_sgd_base, 256, ac97_via_sgd_read, NULL, NULL, ac97_via_sgd_write, NULL, NULL, dev);
}

uint8_t
ac97_via_codec_read(uint16_t addr, void *priv)
{
    ac97_via_t *dev   = (ac97_via_t *) priv;
    uint8_t     modem = (addr & 0xff00) == dev->modem_codec_base;
    addr &= 0xff;
    uint8_t ret = 0xff;

    ret = dev->codec_shadow[modem].regs_linear[addr];

    ac97_via_log("AC97 VIA %d: codec_read(%02X) = %02X\n", modem, addr, ret);

    return ret;
}

void
ac97_via_codec_write(uint16_t addr, uint8_t val, void *priv)
{
    ac97_via_t *dev   = (ac97_via_t *) priv;
    uint8_t     modem = (addr & 0xff00) == dev->modem_codec_base;
    addr &= 0xff;

    ac97_via_log("AC97 VIA %d: codec_write(%02X, %02X)\n", modem, addr, val);

    /* Unknown behavior, maybe it does write to the shadow registers? */
    dev->codec_shadow[modem].regs_linear[addr] = val;
}

void
ac97_via_remap_audio_codec(void *priv, uint16_t new_io_base, uint8_t enable)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    if (dev->audio_codec_base)
        io_removehandler(dev->audio_codec_base, 256, ac97_via_codec_read, NULL, NULL, ac97_via_codec_write, NULL, NULL, dev);

    dev->audio_codec_base = new_io_base;

    if (dev->audio_codec_base && enable)
        io_sethandler(dev->audio_codec_base, 256, ac97_via_codec_read, NULL, NULL, ac97_via_codec_write, NULL, NULL, dev);
}

void
ac97_via_remap_modem_codec(void *priv, uint16_t new_io_base, uint8_t enable)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    if (dev->modem_codec_base)
        io_removehandler(dev->modem_codec_base, 256, ac97_via_codec_read, NULL, NULL, ac97_via_codec_write, NULL, NULL, dev);

    dev->modem_codec_base = new_io_base;

    if (dev->modem_codec_base && enable)
        io_sethandler(dev->modem_codec_base, 256, ac97_via_codec_read, NULL, NULL, ac97_via_codec_write, NULL, NULL, dev);
}

static void
ac97_via_update_stereo(ac97_via_t *dev, ac97_via_sgd_t *sgd)
{
    int32_t l = (((sgd->out_l * sgd->vol_l) >> 15) * dev->master_vol_l) >> 15,
            r = (((sgd->out_r * sgd->vol_r) >> 15) * dev->master_vol_r) >> 15;

    if (l < -32768)
        l = -32768;
    else if (l > 32767)
        l = 32767;
    if (r < -32768)
        r = -32768;
    else if (r > 32767)
        r = 32767;

    for (; sgd->pos < sound_pos_global; sgd->pos++) {
        sgd->buffer[sgd->pos * 2]     = l;
        sgd->buffer[sgd->pos * 2 + 1] = r;
    }
}

static void
ac97_via_sgd_process(void *priv)
{
    ac97_via_sgd_t *sgd = (ac97_via_sgd_t *) priv;
    ac97_via_t     *dev = sgd->dev;

    /* Stop if this SGD is not active. */
    uint8_t sgd_status = dev->sgd_regs[sgd->id] & 0xc4;
    if (!(sgd_status & 0x80))
        return;

    /* Schedule next run. */
    timer_on_auto(&sgd->dma_timer, 10.0);

    /* Process SGD if it's active, and the FIFO has room or is disabled. */
    if ((sgd_status == 0x80) && (sgd->always_run || ((sgd->fifo_end - sgd->fifo_pos) <= (sizeof(sgd->fifo) - 4)))) {
        /* Move on to the next block if no entry is present. */
        if (sgd->restart) {
            sgd->restart = 0;

            /* Start at first entry if no pointer is present. */
            if (!sgd->entry_ptr)
                sgd->entry_ptr = *((uint32_t *) &dev->sgd_regs[sgd->id | 0x4]) & 0xfffffffe;

            /* Read entry. */
            sgd->sample_ptr = mem_readl_phys(sgd->entry_ptr);
            sgd->entry_ptr += 4;
            sgd->sample_count = mem_readl_phys(sgd->entry_ptr);
            sgd->entry_ptr += 4;
#ifdef ENABLE_AC97_VIA_LOG
            if (((sgd->sample_ptr == 0xffffffff) && (sgd->sample_count == 0xffffffff)) || ((sgd->sample_ptr == 0x00000000) && (sgd->sample_count == 0x00000000)))
                fatal("AC97 VIA: Invalid SGD %d entry %08X%08X at %08X\n", sgd->id >> 4,
                      sgd->sample_ptr, sgd->sample_count, sgd->entry_ptr - 8);
#endif

            /* Extract flags from the most significant byte. */
            sgd->entry_flags = sgd->sample_count >> 24;
            sgd->sample_count &= 0xffffff;

            ac97_via_log("AC97 VIA: Starting SGD %d block at %08X start %08X len %06X flags %02X\n", sgd->id >> 4,
                         sgd->entry_ptr - 8, sgd->sample_ptr, sgd->sample_count, sgd->entry_flags);
        }

        if (sgd->id & 0x10) {
            /* Write channel: read data from FIFO. */
            mem_writel_phys(sgd->sample_ptr, *((uint32_t *) &sgd->fifo[sgd->fifo_end & (sizeof(sgd->fifo) - 1)]));
        } else {
            /* Read channel: write data to FIFO. */
            *((uint32_t *) &sgd->fifo[sgd->fifo_end & (sizeof(sgd->fifo) - 1)]) = mem_readl_phys(sgd->sample_ptr);
        }
        sgd->fifo_end += 4;
        sgd->sample_ptr += 4;
        sgd->sample_count -= 4;

        /* Check if we've hit the end of this block. */
        if (sgd->sample_count <= 0) {
            ac97_via_log("AC97 VIA: Ending SGD %d block", sgd->id >> 4);

            if (sgd->entry_flags & 0x20) {
                ac97_via_log(" with STOP");

                /* Raise STOP to pause SGD. */
                dev->sgd_regs[sgd->id] |= 0x04;
            }

            if (sgd->entry_flags & 0x40) {
                ac97_via_log(" with FLAG");

                /* Raise FLAG and STOP. */
                dev->sgd_regs[sgd->id] |= 0x05;

#ifdef ENABLE_AC97_VIA_LOG
                if (dev->sgd_regs[sgd->id | 0x2] & 0x01)
                    ac97_via_log(" interrupt");
#endif
            }

            if (sgd->entry_flags & 0x80) {
                ac97_via_log(" with EOL");

                /* Raise EOL. */
                dev->sgd_regs[sgd->id] |= 0x02;

#ifdef ENABLE_AC97_VIA_LOG
                if (dev->sgd_regs[sgd->id | 0x2] & 0x02)
                    ac97_via_log(" interrupt");
#endif

                /* Restart SGD if a trigger is queued or auto-start is enabled. */
                if ((dev->sgd_regs[sgd->id] & 0x08) || (dev->sgd_regs[sgd->id | 0x2] & 0x80)) {
                    ac97_via_log(" restart");

                    /* Un-queue trigger. */
                    dev->sgd_regs[sgd->id] &= ~0x08;

                    /* Go back to the starting block. */
                    sgd->entry_ptr = 0; /* ugly, but Windows XP plays too fast if the pointer is reloaded now */
                } else {
                    ac97_via_log(" finish");

                    /* Terminate SGD. */
                    dev->sgd_regs[sgd->id] &= ~0x80;
                }
            }
            ac97_via_log("\n");

            /* Fire any requested status interrupts. */
            ac97_via_update_irqs(dev);

            /* Move on to a new block on the next run. */
            sgd->restart = 1;
        }
    }
}

static void
ac97_via_poll_stereo(void *priv)
{
    ac97_via_t     *dev = (ac97_via_t *) priv;
    ac97_via_sgd_t *sgd = &dev->sgd[0]; /* Audio Read */

    /* Schedule next run if PCM playback is enabled. */
    if (dev->pcm_enabled)
        timer_advance_u64(&sgd->poll_timer, sgd->timer_latch);

    /* Update stereo audio buffer. */
    ac97_via_update_stereo(dev, sgd);

    /* Feed next sample from the FIFO. */
    switch (dev->sgd_regs[sgd->id | 0x2] & 0x30) {
        case 0x00: /* Mono, 8-bit PCM */
            if ((sgd->fifo_end - sgd->fifo_pos) >= 1) {
                sgd->out_l = sgd->out_r = (sgd->fifo[sgd->fifo_pos++ & (sizeof(sgd->fifo) - 1)] ^ 0x80) << 8;
                return;
            }
            break;

        case 0x10: /* Stereo, 8-bit PCM */
            if ((sgd->fifo_end - sgd->fifo_pos) >= 2) {
                sgd->out_l = (sgd->fifo[sgd->fifo_pos++ & (sizeof(sgd->fifo) - 1)] ^ 0x80) << 8;
                sgd->out_r = (sgd->fifo[sgd->fifo_pos++ & (sizeof(sgd->fifo) - 1)] ^ 0x80) << 8;
                return;
            }
            break;

        case 0x20: /* Mono, 16-bit PCM */
            if ((sgd->fifo_end - sgd->fifo_pos) >= 2) {
                sgd->out_l = sgd->out_r = *((uint16_t *) &sgd->fifo[sgd->fifo_pos & (sizeof(sgd->fifo) - 1)]);
                sgd->fifo_pos += 2;
                return;
            }
            break;

        case 0x30: /* Stereo, 16-bit PCM */
            if ((sgd->fifo_end - sgd->fifo_pos) >= 4) {
                sgd->out_l = *((uint16_t *) &sgd->fifo[sgd->fifo_pos & (sizeof(sgd->fifo) - 1)]);
                sgd->fifo_pos += 2;
                sgd->out_r = *((uint16_t *) &sgd->fifo[sgd->fifo_pos & (sizeof(sgd->fifo) - 1)]);
                sgd->fifo_pos += 2;
                return;
            }
            break;
    }

    /* Feed silence if the FIFO is empty. */
    sgd->out_l = sgd->out_r = 0;
}

static void
ac97_via_poll_fm(void *priv)
{
    ac97_via_t     *dev = (ac97_via_t *) priv;
    ac97_via_sgd_t *sgd = &dev->sgd[2]; /* FM Read */

    /* Schedule next run if FM playback is enabled. */
    if (dev->fm_enabled)
        timer_advance_u64(&sgd->poll_timer, sgd->timer_latch);

    /* Update FM audio buffer. */
    ac97_via_update_stereo(dev, sgd);

    /* Feed next sample from the FIFO.
       The data format is not documented, but it probes as 16-bit stereo at 24 KHz. */
    if ((sgd->fifo_end - sgd->fifo_pos) >= 4) {
        sgd->out_l = *((uint16_t *) &sgd->fifo[sgd->fifo_pos & (sizeof(sgd->fifo) - 1)]);
        sgd->fifo_pos += 2;
        sgd->out_r = *((uint16_t *) &sgd->fifo[sgd->fifo_pos & (sizeof(sgd->fifo) - 1)]);
        sgd->fifo_pos += 2;
        return;
    }

    /* Feed silence if the FIFO is empty. */
    sgd->out_l = sgd->out_r = 0;
}

static void
ac97_via_get_buffer(int32_t *buffer, int len, void *priv)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    ac97_via_update_stereo(dev, &dev->sgd[0]);
    ac97_via_update_stereo(dev, &dev->sgd[2]);

    for (int c = 0; c < len * 2; c++) {
        buffer[c] += dev->sgd[0].buffer[c] / 2;
        buffer[c] += dev->sgd[2].buffer[c] / 2;
    }

    dev->sgd[0].pos = dev->sgd[2].pos = 0;
}

static void
ac97_via_filter_cd_audio(int channel, double *buffer, void *priv)
{
    ac97_via_t *dev = (ac97_via_t *) priv;
    double      c, volume = channel ? dev->cd_vol_r : dev->cd_vol_l;

    c       = ((*buffer) * volume) / 65536.0;
    *buffer = c;
}

static void
ac97_via_speed_changed(void *priv)
{
    ac97_via_t *dev = (ac97_via_t *) priv;
    double      freq;

    /* Get variable sample rate if enabled. */
    if (dev->vsr_enabled && dev->codec[0][0])
        freq = ac97_codec_getrate(dev->codec[0][0], 0x2c);
    else
        freq = 48000.0;

    dev->sgd[0].timer_latch = (uint64_t) ((double) TIMER_USEC * (1000000.0 / freq));
    dev->sgd[2].timer_latch = (uint64_t) ((double) TIMER_USEC * (1000000.0 / 24000.0));
}

static void *
ac97_via_init(const device_t *info)
{
    ac97_via_t *dev = malloc(sizeof(ac97_via_t));
    memset(dev, 0, sizeof(ac97_via_t));

    ac97_via_log("AC97 VIA: init()\n");

    /* Set up codecs. */
    ac97_codec       = &dev->codec[0][0];
    ac97_modem_codec = &dev->codec[1][0];
    ac97_codec_count = ac97_modem_codec_count = sizeof(dev->codec[0]) / sizeof(dev->codec[0][0]);
    ac97_codec_id = ac97_modem_codec_id = 0;

    /* Set up SGD channels. */
    for (uint8_t i = 0; i < (sizeof(dev->sgd) / sizeof(dev->sgd[0])); i++) {
        dev->sgd[i].id  = i << 4;
        dev->sgd[i].dev = dev;

        /* Disable the FIFO on SGDs we don't care about. */
        if ((i != 0) && (i != 2))
            dev->sgd[i].always_run = 1;

        /* No volume control on FM SGD that I know of. */
        if (i == 2)
            dev->sgd[i].vol_l = dev->sgd[i].vol_r = 32767;

        timer_add(&dev->sgd[i].dma_timer, ac97_via_sgd_process, &dev->sgd[i], 0);
    }

    /* Set up playback pollers. */
    timer_add(&dev->sgd[0].poll_timer, ac97_via_poll_stereo, dev, 0);
    timer_add(&dev->sgd[2].poll_timer, ac97_via_poll_fm, dev, 0);
    ac97_via_speed_changed(dev);

    /* Set up playback handler. */
    sound_add_handler(ac97_via_get_buffer, dev);

    return dev;
}

static void
ac97_via_close(void *priv)
{
    ac97_via_t *dev = (ac97_via_t *) priv;

    ac97_via_log("AC97 VIA: close()\n");

    free(dev);
}

const device_t ac97_via_device = {
    .name          = "VIA VT82C686 Integrated AC97 Controller",
    .internal_name = "ac97_via",
    .flags         = DEVICE_PCI,
    .local         = 0,
    .init          = ac97_via_init,
    .close         = ac97_via_close,
    .reset         = NULL,
    { .available = NULL },
    .speed_changed = ac97_via_speed_changed,
    .force_redraw  = NULL,
    .config        = NULL
};