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path: root/hw/intel-hda.c
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/*
 * Copyright (C) 2010 Red Hat, Inc.
 *
 * written by Gerd Hoffmann <kraxel@redhat.com>
 *
 * This program 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; either version 2 or
 * (at your option) version 3 of the License.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, see <http://www.gnu.org/licenses/>.
 */

#include "hw.h"
#include "pci.h"
#include "qemu-timer.h"
#include "audiodev.h"
#include "intel-hda.h"
#include "intel-hda-defs.h"

/* --------------------------------------------------------------------- */
/* hda bus                                                               */

static struct BusInfo hda_codec_bus_info = {
    .name      = "HDA",
    .size      = sizeof(HDACodecBus),
    .props     = (Property[]) {
        DEFINE_PROP_UINT32("cad", HDACodecDevice, cad, -1),
        DEFINE_PROP_END_OF_LIST()
    }
};

void hda_codec_bus_init(DeviceState *dev, HDACodecBus *bus,
                        hda_codec_response_func response,
                        hda_codec_xfer_func xfer)
{
    qbus_create_inplace(&bus->qbus, &hda_codec_bus_info, dev, NULL);
    bus->response = response;
    bus->xfer = xfer;
}

static int hda_codec_dev_init(DeviceState *qdev, DeviceInfo *base)
{
    HDACodecBus *bus = DO_UPCAST(HDACodecBus, qbus, qdev->parent_bus);
    HDACodecDevice *dev = DO_UPCAST(HDACodecDevice, qdev, qdev);
    HDACodecDeviceInfo *info = DO_UPCAST(HDACodecDeviceInfo, qdev, base);

    dev->info = info;
    if (dev->cad == -1) {
        dev->cad = bus->next_cad;
    }
    if (dev->cad > 15)
        return -1;
    bus->next_cad = dev->cad + 1;
    return info->init(dev);
}

void hda_codec_register(HDACodecDeviceInfo *info)
{
    info->qdev.init = hda_codec_dev_init;
    info->qdev.bus_info = &hda_codec_bus_info;
    qdev_register(&info->qdev);
}

HDACodecDevice *hda_codec_find(HDACodecBus *bus, uint32_t cad)
{
    DeviceState *qdev;
    HDACodecDevice *cdev;

    QLIST_FOREACH(qdev, &bus->qbus.children, sibling) {
        cdev = DO_UPCAST(HDACodecDevice, qdev, qdev);
        if (cdev->cad == cad) {
            return cdev;
        }
    }
    return NULL;
}

void hda_codec_response(HDACodecDevice *dev, bool solicited, uint32_t response)
{
    HDACodecBus *bus = DO_UPCAST(HDACodecBus, qbus, dev->qdev.parent_bus);
    bus->response(dev, solicited, response);
}

bool hda_codec_xfer(HDACodecDevice *dev, uint32_t stnr, bool output,
                    uint8_t *buf, uint32_t len)
{
    HDACodecBus *bus = DO_UPCAST(HDACodecBus, qbus, dev->qdev.parent_bus);
    return bus->xfer(dev, stnr, output, buf, len);
}

/* --------------------------------------------------------------------- */
/* intel hda emulation                                                   */

typedef struct IntelHDAStream IntelHDAStream;
typedef struct IntelHDAState IntelHDAState;
typedef struct IntelHDAReg IntelHDAReg;

typedef struct bpl {
    uint64_t addr;
    uint32_t len;
    uint32_t flags;
} bpl;

struct IntelHDAStream {
    /* registers */
    uint32_t ctl;
    uint32_t lpib;
    uint32_t cbl;
    uint32_t lvi;
    uint32_t fmt;
    uint32_t bdlp_lbase;
    uint32_t bdlp_ubase;

    /* state */
    bpl      *bpl;
    uint32_t bentries;
    uint32_t bsize, be, bp;
};

struct IntelHDAState {
    PCIDevice pci;
    const char *name;
    HDACodecBus codecs;

    /* registers */
    uint32_t g_ctl;
    uint32_t wake_en;
    uint32_t state_sts;
    uint32_t int_ctl;
    uint32_t int_sts;
    uint32_t wall_clk;

    uint32_t corb_lbase;
    uint32_t corb_ubase;
    uint32_t corb_rp;
    uint32_t corb_wp;
    uint32_t corb_ctl;
    uint32_t corb_sts;
    uint32_t corb_size;

    uint32_t rirb_lbase;
    uint32_t rirb_ubase;
    uint32_t rirb_wp;
    uint32_t rirb_cnt;
    uint32_t rirb_ctl;
    uint32_t rirb_sts;
    uint32_t rirb_size;

    uint32_t dp_lbase;
    uint32_t dp_ubase;

    uint32_t icw;
    uint32_t irr;
    uint32_t ics;

    /* streams */
    IntelHDAStream st[8];

    /* state */
    int mmio_addr;
    uint32_t rirb_count;
    int64_t wall_base_ns;

    /* debug logging */
    const IntelHDAReg *last_reg;
    uint32_t last_val;
    uint32_t last_write;
    uint32_t last_sec;
    uint32_t repeat_count;

    /* properties */
    uint32_t debug;
};

struct IntelHDAReg {
    const char *name;      /* register name */
    uint32_t   size;       /* size in bytes */
    uint32_t   reset;      /* reset value */
    uint32_t   wmask;      /* write mask */
    uint32_t   wclear;     /* write 1 to clear bits */
    uint32_t   offset;     /* location in IntelHDAState */
    uint32_t   shift;      /* byte access entries for dwords */
    uint32_t   stream;
    void       (*whandler)(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old);
    void       (*rhandler)(IntelHDAState *d, const IntelHDAReg *reg);
};

static void intel_hda_reset(DeviceState *dev);

/* --------------------------------------------------------------------- */

static target_phys_addr_t intel_hda_addr(uint32_t lbase, uint32_t ubase)
{
    target_phys_addr_t addr;

#if TARGET_PHYS_ADDR_BITS == 32
    addr = lbase;
#else
    addr = ubase;
    addr <<= 32;
    addr |= lbase;
#endif
    return addr;
}

static void stl_phys_le(target_phys_addr_t addr, uint32_t value)
{
    uint32_t value_le = cpu_to_le32(value);
    cpu_physical_memory_write(addr, (uint8_t*)(&value_le), sizeof(value_le));
}

static uint32_t ldl_phys_le(target_phys_addr_t addr)
{
    uint32_t value_le;
    cpu_physical_memory_read(addr, (uint8_t*)(&value_le), sizeof(value_le));
    return le32_to_cpu(value_le);
}

static void intel_hda_update_int_sts(IntelHDAState *d)
{
    uint32_t sts = 0;
    uint32_t i;

    /* update controller status */
    if (d->rirb_sts & ICH6_RBSTS_IRQ) {
        sts |= (1 << 30);
    }
    if (d->rirb_sts & ICH6_RBSTS_OVERRUN) {
        sts |= (1 << 30);
    }
    if (d->state_sts) {
        sts |= (1 << 30);
    }

    /* update stream status */
    for (i = 0; i < 8; i++) {
        /* buffer completion interrupt */
        if (d->st[i].ctl & (1 << 26)) {
            sts |= (1 << i);
        }
    }

    /* update global status */
    if (sts & d->int_ctl) {
        sts |= (1 << 31);
    }

    d->int_sts = sts;
}

static void intel_hda_update_irq(IntelHDAState *d)
{
    int level;

    intel_hda_update_int_sts(d);
    if (d->int_sts & (1 << 31) && d->int_ctl & (1 << 31)) {
        level = 1;
    } else {
        level = 0;
    }
    dprint(d, 2, "%s: level %d\n", __FUNCTION__, level);
    qemu_set_irq(d->pci.irq[0], level);
}

static int intel_hda_send_command(IntelHDAState *d, uint32_t verb)
{
    uint32_t cad, nid, data;
    HDACodecDevice *codec;

    cad = (verb >> 28) & 0x0f;
    if (verb & (1 << 27)) {
        /* indirect node addressing, not specified in HDA 1.0 */
        dprint(d, 1, "%s: indirect node addressing (guest bug?)\n", __FUNCTION__);
        return -1;
    }
    nid = (verb >> 20) & 0x7f;
    data = verb & 0xfffff;

    codec = hda_codec_find(&d->codecs, cad);
    if (codec == NULL) {
        dprint(d, 1, "%s: addressed non-existing codec\n", __FUNCTION__);
        return -1;
    }
    codec->info->command(codec, nid, data);
    return 0;
}

static void intel_hda_corb_run(IntelHDAState *d)
{
    target_phys_addr_t addr;
    uint32_t rp, verb;

    if (d->ics & ICH6_IRS_BUSY) {
        dprint(d, 2, "%s: [icw] verb 0x%08x\n", __FUNCTION__, d->icw);
        intel_hda_send_command(d, d->icw);
        return;
    }

    for (;;) {
        if (!(d->corb_ctl & ICH6_CORBCTL_RUN)) {
            dprint(d, 2, "%s: !run\n", __FUNCTION__);
            return;
        }
        if ((d->corb_rp & 0xff) == d->corb_wp) {
            dprint(d, 2, "%s: corb ring empty\n", __FUNCTION__);
            return;
        }
        if (d->rirb_count == d->rirb_cnt) {
            dprint(d, 2, "%s: rirb count reached\n", __FUNCTION__);
            return;
        }

        rp = (d->corb_rp + 1) & 0xff;
        addr = intel_hda_addr(d->corb_lbase, d->corb_ubase);
        verb = ldl_phys_le(addr + 4*rp);
        d->corb_rp = rp;

        dprint(d, 2, "%s: [rp 0x%x] verb 0x%08x\n", __FUNCTION__, rp, verb);
        intel_hda_send_command(d, verb);
    }
}

static void intel_hda_response(HDACodecDevice *dev, bool solicited, uint32_t response)
{
    HDACodecBus *bus = DO_UPCAST(HDACodecBus, qbus, dev->qdev.parent_bus);
    IntelHDAState *d = container_of(bus, IntelHDAState, codecs);
    target_phys_addr_t addr;
    uint32_t wp, ex;

    if (d->ics & ICH6_IRS_BUSY) {
        dprint(d, 2, "%s: [irr] response 0x%x, cad 0x%x\n",
               __FUNCTION__, response, dev->cad);
        d->irr = response;
        d->ics &= ~(ICH6_IRS_BUSY | 0xf0);
        d->ics |= (ICH6_IRS_VALID | (dev->cad << 4));
        return;
    }

    if (!(d->rirb_ctl & ICH6_RBCTL_DMA_EN)) {
        dprint(d, 1, "%s: rirb dma disabled, drop codec response\n", __FUNCTION__);
        return;
    }

    ex = (solicited ? 0 : (1 << 4)) | dev->cad;
    wp = (d->rirb_wp + 1) & 0xff;
    addr = intel_hda_addr(d->rirb_lbase, d->rirb_ubase);
    stl_phys_le(addr + 8*wp, response);
    stl_phys_le(addr + 8*wp + 4, ex);
    d->rirb_wp = wp;

    dprint(d, 2, "%s: [wp 0x%x] response 0x%x, extra 0x%x\n",
           __FUNCTION__, wp, response, ex);

    d->rirb_count++;
    if (d->rirb_count == d->rirb_cnt) {
        dprint(d, 2, "%s: rirb count reached (%d)\n", __FUNCTION__, d->rirb_count);
        if (d->rirb_ctl & ICH6_RBCTL_IRQ_EN) {
            d->rirb_sts |= ICH6_RBSTS_IRQ;
            intel_hda_update_irq(d);
        }
    } else if ((d->corb_rp & 0xff) == d->corb_wp) {
        dprint(d, 2, "%s: corb ring empty (%d/%d)\n", __FUNCTION__,
               d->rirb_count, d->rirb_cnt);
        if (d->rirb_ctl & ICH6_RBCTL_IRQ_EN) {
            d->rirb_sts |= ICH6_RBSTS_IRQ;
            intel_hda_update_irq(d);
        }
    }
}

static bool intel_hda_xfer(HDACodecDevice *dev, uint32_t stnr, bool output,
                           uint8_t *buf, uint32_t len)
{
    HDACodecBus *bus = DO_UPCAST(HDACodecBus, qbus, dev->qdev.parent_bus);
    IntelHDAState *d = container_of(bus, IntelHDAState, codecs);
    IntelHDAStream *st = NULL;
    target_phys_addr_t addr;
    uint32_t s, copy, left;
    bool irq = false;

    for (s = 0; s < ARRAY_SIZE(d->st); s++) {
        if (stnr == ((d->st[s].ctl >> 20) & 0x0f)) {
            st = d->st + s;
            break;
        }
    }
    if (st == NULL) {
        return false;
    }
    if (st->bpl == NULL) {
        return false;
    }
    if (st->ctl & (1 << 26)) {
        /*
         * Wait with the next DMA xfer until the guest
         * has acked the buffer completion interrupt
         */
        return false;
    }

    left = len;
    while (left > 0) {
        copy = left;
        if (copy > st->bsize - st->lpib)
            copy = st->bsize - st->lpib;
        if (copy > st->bpl[st->be].len - st->bp)
            copy = st->bpl[st->be].len - st->bp;

        dprint(d, 3, "dma: entry %d, pos %d/%d, copy %d\n",
               st->be, st->bp, st->bpl[st->be].len, copy);

        cpu_physical_memory_rw(st->bpl[st->be].addr + st->bp,
                               buf, copy, !output);
        st->lpib += copy;
        st->bp += copy;
        buf += copy;
        left -= copy;

        if (st->bpl[st->be].len == st->bp) {
            /* bpl entry filled */
            if (st->bpl[st->be].flags & 0x01) {
                irq = true;
            }
            st->bp = 0;
            st->be++;
            if (st->be == st->bentries) {
                /* bpl wrap around */
                st->be = 0;
                st->lpib = 0;
            }
        }
    }
    if (d->dp_lbase & 0x01) {
        addr = intel_hda_addr(d->dp_lbase & ~0x01, d->dp_ubase);
        stl_phys_le(addr + 8*s, st->lpib);
    }
    dprint(d, 3, "dma: --\n");

    if (irq) {
        st->ctl |= (1 << 26); /* buffer completion interrupt */
        intel_hda_update_irq(d);
    }
    return true;
}

static void intel_hda_parse_bdl(IntelHDAState *d, IntelHDAStream *st)
{
    target_phys_addr_t addr;
    uint8_t buf[16];
    uint32_t i;

    addr = intel_hda_addr(st->bdlp_lbase, st->bdlp_ubase);
    st->bentries = st->lvi +1;
    qemu_free(st->bpl);
    st->bpl = qemu_malloc(sizeof(bpl) * st->bentries);
    for (i = 0; i < st->bentries; i++, addr += 16) {
        cpu_physical_memory_read(addr, buf, 16);
        st->bpl[i].addr  = le64_to_cpu(*(uint64_t *)buf);
        st->bpl[i].len   = le32_to_cpu(*(uint32_t *)(buf + 8));
        st->bpl[i].flags = le32_to_cpu(*(uint32_t *)(buf + 12));
        dprint(d, 1, "bdl/%d: 0x%" PRIx64 " +0x%x, 0x%x\n",
               i, st->bpl[i].addr, st->bpl[i].len, st->bpl[i].flags);
    }

    st->bsize = st->cbl;
    st->lpib  = 0;
    st->be    = 0;
    st->bp    = 0;
}

static void intel_hda_notify_codecs(IntelHDAState *d, uint32_t stream, bool running)
{
    DeviceState *qdev;
    HDACodecDevice *cdev;

    QLIST_FOREACH(qdev, &d->codecs.qbus.children, sibling) {
        cdev = DO_UPCAST(HDACodecDevice, qdev, qdev);
        if (cdev->info->stream) {
            cdev->info->stream(cdev, stream, running);
        }
    }
}

/* --------------------------------------------------------------------- */

static void intel_hda_set_g_ctl(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    if ((d->g_ctl & ICH6_GCTL_RESET) == 0) {
        intel_hda_reset(&d->pci.qdev);
    }
}

static void intel_hda_set_state_sts(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    intel_hda_update_irq(d);
}

static void intel_hda_set_int_ctl(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    intel_hda_update_irq(d);
}

static void intel_hda_get_wall_clk(IntelHDAState *d, const IntelHDAReg *reg)
{
    int64_t ns;

    ns = qemu_get_clock_ns(vm_clock) - d->wall_base_ns;
    d->wall_clk = (uint32_t)(ns * 24 / 1000);  /* 24 MHz */
}

static void intel_hda_set_corb_wp(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    intel_hda_corb_run(d);
}

static void intel_hda_set_corb_ctl(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    intel_hda_corb_run(d);
}

static void intel_hda_set_rirb_wp(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    if (d->rirb_wp & ICH6_RIRBWP_RST) {
        d->rirb_wp = 0;
    }
}

static void intel_hda_set_rirb_sts(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    intel_hda_update_irq(d);

    if ((old & ICH6_RBSTS_IRQ) && !(d->rirb_sts & ICH6_RBSTS_IRQ)) {
        /* cleared ICH6_RBSTS_IRQ */
        d->rirb_count = 0;
        intel_hda_corb_run(d);
    }
}

static void intel_hda_set_ics(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    if (d->ics & ICH6_IRS_BUSY) {
        intel_hda_corb_run(d);
    }
}

static void intel_hda_set_st_ctl(IntelHDAState *d, const IntelHDAReg *reg, uint32_t old)
{
    IntelHDAStream *st = d->st + reg->stream;

    if (st->ctl & 0x01) {
        /* reset */
        dprint(d, 1, "st #%d: reset\n", reg->stream);
        st->ctl = 0;
    }
    if ((st->ctl & 0x02) != (old & 0x02)) {
        uint32_t stnr = (st->ctl >> 20) & 0x0f;
        /* run bit flipped */
        if (st->ctl & 0x02) {
            /* start */
            dprint(d, 1, "st #%d: start %d (ring buf %d bytes)\n",
                   reg->stream, stnr, st->cbl);
            intel_hda_parse_bdl(d, st);
            intel_hda_notify_codecs(d, stnr, true);
        } else {
            /* stop */
            dprint(d, 1, "st #%d: stop %d\n", reg->stream, stnr);
            intel_hda_notify_codecs(d, stnr, false);
        }
    }
    intel_hda_update_irq(d);
}

/* --------------------------------------------------------------------- */

#define ST_REG(_n, _o) (0x80 + (_n) * 0x20 + (_o))

static const struct IntelHDAReg regtab[] = {
    /* global */
    [ ICH6_REG_GCAP ] = {
        .name     = "GCAP",
        .size     = 2,
        .reset    = 0x4401,
    },
    [ ICH6_REG_VMIN ] = {
        .name     = "VMIN",
        .size     = 1,
    },
    [ ICH6_REG_VMAJ ] = {
        .name     = "VMAJ",
        .size     = 1,
        .reset    = 1,
    },
    [ ICH6_REG_OUTPAY ] = {
        .name     = "OUTPAY",
        .size     = 2,
        .reset    = 0x3c,
    },
    [ ICH6_REG_INPAY ] = {
        .name     = "INPAY",
        .size     = 2,
        .reset    = 0x1d,
    },
    [ ICH6_REG_GCTL ] = {
        .name     = "GCTL",
        .size     = 4,
        .wmask    = 0x0103,
        .offset   = offsetof(IntelHDAState, g_ctl),
        .whandler = intel_hda_set_g_ctl,
    },
    [ ICH6_REG_WAKEEN ] = {
        .name     = "WAKEEN",
        .size     = 2,
        .offset   = offsetof(IntelHDAState, wake_en),
    },
    [ ICH6_REG_STATESTS ] = {
        .name     = "STATESTS",
        .size     = 2,
        .wmask    = 0x3fff,
        .wclear   = 0x3fff,
        .offset   = offsetof(IntelHDAState, state_sts),
        .whandler = intel_hda_set_state_sts,
    },

    /* interrupts */
    [ ICH6_REG_INTCTL ] = {
        .name     = "INTCTL",
        .size     = 4,
        .wmask    = 0xc00000ff,
        .offset   = offsetof(IntelHDAState, int_ctl),
        .whandler = intel_hda_set_int_ctl,
    },
    [ ICH6_REG_INTSTS ] = {
        .name     = "INTSTS",
        .size     = 4,
        .wmask    = 0xc00000ff,
        .wclear   = 0xc00000ff,
        .offset   = offsetof(IntelHDAState, int_sts),
    },

    /* misc */
    [ ICH6_REG_WALLCLK ] = {
        .name     = "WALLCLK",
        .size     = 4,
        .offset   = offsetof(IntelHDAState, wall_clk),
        .rhandler = intel_hda_get_wall_clk,
    },
    [ ICH6_REG_WALLCLK + 0x2000 ] = {
        .name     = "WALLCLK(alias)",
        .size     = 4,
        .offset   = offsetof(IntelHDAState, wall_clk),
        .rhandler = intel_hda_get_wall_clk,
    },

    /* dma engine */
    [ ICH6_REG_CORBLBASE ] = {
        .name     = "CORBLBASE",
        .size     = 4,
        .wmask    = 0xffffff80,
        .offset   = offsetof(IntelHDAState, corb_lbase),
    },
    [ ICH6_REG_CORBUBASE ] = {
        .name     = "CORBUBASE",
        .size     = 4,
        .wmask    = 0xffffffff,
        .offset   = offsetof(IntelHDAState, corb_ubase),
    },
    [ ICH6_REG_CORBWP ] = {
        .name     = "CORBWP",
        .size     = 2,
        .wmask    = 0xff,
        .offset   = offsetof(IntelHDAState, corb_wp),
        .whandler = intel_hda_set_corb_wp,
    },
    [ ICH6_REG_CORBRP ] = {
        .name     = "CORBRP",
        .size     = 2,
        .wmask    = 0x80ff,
        .offset   = offsetof(IntelHDAState, corb_rp),
    },
    [ ICH6_REG_CORBCTL ] = {
        .name     = "CORBCTL",
        .size     = 1,
        .wmask    = 0x03,
        .offset   = offsetof(IntelHDAState, corb_ctl),
        .whandler = intel_hda_set_corb_ctl,
    },
    [ ICH6_REG_CORBSTS ] = {
        .name     = "CORBSTS",
        .size     = 1,
        .wmask    = 0x01,
        .wclear   = 0x01,
        .offset   = offsetof(IntelHDAState, corb_sts),
    },
    [ ICH6_REG_CORBSIZE ] = {
        .name     = "CORBSIZE",
        .size     = 1,
        .reset    = 0x42,
        .offset   = offsetof(IntelHDAState, corb_size),
    },
    [ ICH6_REG_RIRBLBASE ] = {
        .name     = "RIRBLBASE",
        .size     = 4,
        .wmask    = 0xffffff80,
        .offset   = offsetof(IntelHDAState, rirb_lbase),
    },
    [ ICH6_REG_RIRBUBASE ] = {
        .name     = "RIRBUBASE",
        .size     = 4,
        .wmask    = 0xffffffff,
        .offset   = offsetof(IntelHDAState, rirb_ubase),
    },
    [ ICH6_REG_RIRBWP ] = {
        .name     = "RIRBWP",
        .size     = 2,
        .wmask    = 0x8000,
        .offset   = offsetof(IntelHDAState, rirb_wp),
        .whandler = intel_hda_set_rirb_wp,
    },
    [ ICH6_REG_RINTCNT ] = {
        .name     = "RINTCNT",
        .size     = 2,
        .wmask    = 0xff,
        .offset   = offsetof(IntelHDAState, rirb_cnt),
    },
    [ ICH6_REG_RIRBCTL ] = {
        .name     = "RIRBCTL",
        .size     = 1,
        .wmask    = 0x07,
        .offset   = offsetof(IntelHDAState, rirb_ctl),
    },
    [ ICH6_REG_RIRBSTS ] = {
        .name     = "RIRBSTS",
        .size     = 1,
        .wmask    = 0x05,
        .wclear   = 0x05,
        .offset   = offsetof(IntelHDAState, rirb_sts),
        .whandler = intel_hda_set_rirb_sts,
    },
    [ ICH6_REG_RIRBSIZE ] = {
        .name     = "RIRBSIZE",
        .size     = 1,
        .reset    = 0x42,
        .offset   = offsetof(IntelHDAState, rirb_size),
    },

    [ ICH6_REG_DPLBASE ] = {
        .name     = "DPLBASE",
        .size     = 4,
        .wmask    = 0xffffff81,
        .offset   = offsetof(IntelHDAState, dp_lbase),
    },
    [ ICH6_REG_DPUBASE ] = {
        .name     = "DPUBASE",
        .size     = 4,
        .wmask    = 0xffffffff,
        .offset   = offsetof(IntelHDAState, dp_ubase),
    },

    [ ICH6_REG_IC ] = {
        .name     = "ICW",
        .size     = 4,
        .wmask    = 0xffffffff,
        .offset   = offsetof(IntelHDAState, icw),
    },
    [ ICH6_REG_IR ] = {
        .name     = "IRR",
        .size     = 4,
        .offset   = offsetof(IntelHDAState, irr),
    },
    [ ICH6_REG_IRS ] = {
        .name     = "ICS",
        .size     = 2,
        .wmask    = 0x0003,
        .wclear   = 0x0002,
        .offset   = offsetof(IntelHDAState, ics),
        .whandler = intel_hda_set_ics,
    },

#define HDA_STREAM(_t, _i)                                            \
    [ ST_REG(_i, ICH6_REG_SD_CTL) ] = {                               \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " CTL",                          \
        .size     = 4,                                                \
        .wmask    = 0x1cff001f,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].ctl),              \
        .whandler = intel_hda_set_st_ctl,                             \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_CTL) + 2] = {                            \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " CTL(stnr)",                    \
        .size     = 1,                                                \
        .shift    = 16,                                               \
        .wmask    = 0x00ff0000,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].ctl),              \
        .whandler = intel_hda_set_st_ctl,                             \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_STS)] = {                                \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " CTL(sts)",                     \
        .size     = 1,                                                \
        .shift    = 24,                                               \
        .wmask    = 0x1c000000,                                       \
        .wclear   = 0x1c000000,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].ctl),              \
        .whandler = intel_hda_set_st_ctl,                             \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_LPIB) ] = {                              \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " LPIB",                         \
        .size     = 4,                                                \
        .offset   = offsetof(IntelHDAState, st[_i].lpib),             \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_LPIB) + 0x2000 ] = {                     \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " LPIB(alias)",                  \
        .size     = 4,                                                \
        .offset   = offsetof(IntelHDAState, st[_i].lpib),             \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_CBL) ] = {                               \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " CBL",                          \
        .size     = 4,                                                \
        .wmask    = 0xffffffff,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].cbl),              \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_LVI) ] = {                               \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " LVI",                          \
        .size     = 2,                                                \
        .wmask    = 0x00ff,                                           \
        .offset   = offsetof(IntelHDAState, st[_i].lvi),              \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_FIFOSIZE) ] = {                          \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " FIFOS",                        \
        .size     = 2,                                                \
        .reset    = HDA_BUFFER_SIZE,                                  \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_FORMAT) ] = {                            \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " FMT",                          \
        .size     = 2,                                                \
        .wmask    = 0x7f7f,                                           \
        .offset   = offsetof(IntelHDAState, st[_i].fmt),              \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_BDLPL) ] = {                             \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " BDLPL",                        \
        .size     = 4,                                                \
        .wmask    = 0xffffff80,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].bdlp_lbase),       \
    },                                                                \
    [ ST_REG(_i, ICH6_REG_SD_BDLPU) ] = {                             \
        .stream   = _i,                                               \
        .name     = _t stringify(_i) " BDLPU",                        \
        .size     = 4,                                                \
        .wmask    = 0xffffffff,                                       \
        .offset   = offsetof(IntelHDAState, st[_i].bdlp_ubase),       \
    },                                                                \

    HDA_STREAM("IN", 0)
    HDA_STREAM("IN", 1)
    HDA_STREAM("IN", 2)
    HDA_STREAM("IN", 3)

    HDA_STREAM("OUT", 4)
    HDA_STREAM("OUT", 5)
    HDA_STREAM("OUT", 6)
    HDA_STREAM("OUT", 7)

};

static const IntelHDAReg *intel_hda_reg_find(IntelHDAState *d, target_phys_addr_t addr)
{
    const IntelHDAReg *reg;

    if (addr >= sizeof(regtab)/sizeof(regtab[0])) {
        goto noreg;
    }
    reg = regtab+addr;
    if (reg->name == NULL) {
        goto noreg;
    }
    return reg;

noreg:
    dprint(d, 1, "unknown register, addr 0x%x\n", (int) addr);
    return NULL;
}

static uint32_t *intel_hda_reg_addr(IntelHDAState *d, const IntelHDAReg *reg)
{
    uint8_t *addr = (void*)d;

    addr += reg->offset;
    return (uint32_t*)addr;
}

static void intel_hda_reg_write(IntelHDAState *d, const IntelHDAReg *reg, uint32_t val,
                                uint32_t wmask)
{
    uint32_t *addr;
    uint32_t old;

    if (!reg) {
        return;
    }

    if (d->debug) {
        time_t now = time(NULL);
        if (d->last_write && d->last_reg == reg && d->last_val == val) {
            d->repeat_count++;
            if (d->last_sec != now) {
                dprint(d, 2, "previous register op repeated %d times\n", d->repeat_count);
                d->last_sec = now;
                d->repeat_count = 0;
            }
        } else {
            if (d->repeat_count) {
                dprint(d, 2, "previous register op repeated %d times\n", d->repeat_count);
            }
            dprint(d, 2, "write %-16s: 0x%x (%x)\n", reg->name, val, wmask);
            d->last_write = 1;
            d->last_reg   = reg;
            d->last_val   = val;
            d->last_sec   = now;
            d->repeat_count = 0;
        }
    }
    assert(reg->offset != 0);

    addr = intel_hda_reg_addr(d, reg);
    old = *addr;

    if (reg->shift) {
        val <<= reg->shift;
        wmask <<= reg->shift;
    }
    wmask &= reg->wmask;
    *addr &= ~wmask;
    *addr |= wmask & val;
    *addr &= ~(val & reg->wclear);

    if (reg->whandler) {
        reg->whandler(d, reg, old);
    }
}

static uint32_t intel_hda_reg_read(IntelHDAState *d, const IntelHDAReg *reg,
                                   uint32_t rmask)
{
    uint32_t *addr, ret;

    if (!reg) {
        return 0;
    }

    if (reg->rhandler) {
        reg->rhandler(d, reg);
    }

    if (reg->offset == 0) {
        /* constant read-only register */
        ret = reg->reset;
    } else {
        addr = intel_hda_reg_addr(d, reg);
        ret = *addr;
        if (reg->shift) {
            ret >>= reg->shift;
        }
        ret &= rmask;
    }
    if (d->debug) {
        time_t now = time(NULL);
        if (!d->last_write && d->last_reg == reg && d->last_val == ret) {
            d->repeat_count++;
            if (d->last_sec != now) {
                dprint(d, 2, "previous register op repeated %d times\n", d->repeat_count);
                d->last_sec = now;
                d->repeat_count = 0;
            }
        } else {
            if (d->repeat_count) {
                dprint(d, 2, "previous register op repeated %d times\n", d->repeat_count);
            }
            dprint(d, 2, "read  %-16s: 0x%x (%x)\n", reg->name, ret, rmask);
            d->last_write = 0;
            d->last_reg   = reg;
            d->last_val   = ret;
            d->last_sec   = now;
            d->repeat_count = 0;
        }
    }
    return ret;
}

static void intel_hda_regs_reset(IntelHDAState *d)
{
    uint32_t *addr;
    int i;

    for (i = 0; i < sizeof(regtab)/sizeof(regtab[0]); i++) {
        if (regtab[i].name == NULL) {
            continue;
        }
        if (regtab[i].offset == 0) {
            continue;
        }
        addr = intel_hda_reg_addr(d, regtab + i);
        *addr = regtab[i].reset;
    }
}

/* --------------------------------------------------------------------- */

static void intel_hda_mmio_writeb(void *opaque, target_phys_addr_t addr, uint32_t val)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    intel_hda_reg_write(d, reg, val, 0xff);
}

static void intel_hda_mmio_writew(void *opaque, target_phys_addr_t addr, uint32_t val)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    intel_hda_reg_write(d, reg, val, 0xffff);
}

static void intel_hda_mmio_writel(void *opaque, target_phys_addr_t addr, uint32_t val)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    intel_hda_reg_write(d, reg, val, 0xffffffff);
}

static uint32_t intel_hda_mmio_readb(void *opaque, target_phys_addr_t addr)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    return intel_hda_reg_read(d, reg, 0xff);
}

static uint32_t intel_hda_mmio_readw(void *opaque, target_phys_addr_t addr)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    return intel_hda_reg_read(d, reg, 0xffff);
}

static uint32_t intel_hda_mmio_readl(void *opaque, target_phys_addr_t addr)
{
    IntelHDAState *d = opaque;
    const IntelHDAReg *reg = intel_hda_reg_find(d, addr);

    return intel_hda_reg_read(d, reg, 0xffffffff);
}

static CPUReadMemoryFunc * const intel_hda_mmio_read[3] = {
    intel_hda_mmio_readb,
    intel_hda_mmio_readw,
    intel_hda_mmio_readl,
};

static CPUWriteMemoryFunc * const intel_hda_mmio_write[3] = {
    intel_hda_mmio_writeb,
    intel_hda_mmio_writew,
    intel_hda_mmio_writel,
};

static void intel_hda_map(PCIDevice *pci, int region_num,
                          pcibus_t addr, pcibus_t size, int type)
{
    IntelHDAState *d = DO_UPCAST(IntelHDAState, pci, pci);

    cpu_register_physical_memory(addr, 0x4000, d->mmio_addr);
}

/* --------------------------------------------------------------------- */

static void intel_hda_reset(DeviceState *dev)
{
    IntelHDAState *d = DO_UPCAST(IntelHDAState, pci.qdev, dev);
    DeviceState *qdev;
    HDACodecDevice *cdev;

    intel_hda_regs_reset(d);
    d->wall_base_ns = qemu_get_clock(vm_clock);

    /* reset codecs */
    QLIST_FOREACH(qdev, &d->codecs.qbus.children, sibling) {
        cdev = DO_UPCAST(HDACodecDevice, qdev, qdev);
        if (qdev->info->reset) {
            qdev->info->reset(qdev);
        }
        d->state_sts |= (1 << cdev->cad);
    }
    intel_hda_update_irq(d);
}

static int intel_hda_init(PCIDevice *pci)
{
    IntelHDAState *d = DO_UPCAST(IntelHDAState, pci, pci);
    uint8_t *conf = d->pci.config;

    d->name = d->pci.qdev.info->name;

    pci_config_set_vendor_id(conf, PCI_VENDOR_ID_INTEL);
    pci_config_set_device_id(conf, 0x2668);
    pci_config_set_revision(conf, 1);
    pci_config_set_class(conf, PCI_CLASS_MULTIMEDIA_HD_AUDIO);
    pci_config_set_interrupt_pin(conf, 1);

    /* HDCTL off 0x40 bit 0 selects signaling mode (1-HDA, 0 - Ac97) 18.1.19 */
    conf[0x40] = 0x01;

    d->mmio_addr = cpu_register_io_memory(intel_hda_mmio_read,
                                          intel_hda_mmio_write, d);
    pci_register_bar(&d->pci, 0, 0x4000, PCI_BASE_ADDRESS_SPACE_MEMORY,
                     intel_hda_map);

    hda_codec_bus_init(&d->pci.qdev, &d->codecs,
                       intel_hda_response, intel_hda_xfer);

    return 0;
}

static int intel_hda_post_load(void *opaque, int version)
{
    IntelHDAState* d = opaque;
    int i;

    dprint(d, 1, "%s\n", __FUNCTION__);
    for (i = 0; i < ARRAY_SIZE(d->st); i++) {
        if (d->st[i].ctl & 0x02) {
            intel_hda_parse_bdl(d, &d->st[i]);
        }
    }
    intel_hda_update_irq(d);
    return 0;
}

static const VMStateDescription vmstate_intel_hda_stream = {
    .name = "intel-hda-stream",
    .version_id = 1,
    .fields = (VMStateField []) {
        VMSTATE_UINT32(ctl, IntelHDAStream),
        VMSTATE_UINT32(lpib, IntelHDAStream),
        VMSTATE_UINT32(cbl, IntelHDAStream),
        VMSTATE_UINT32(lvi, IntelHDAStream),
        VMSTATE_UINT32(fmt, IntelHDAStream),
        VMSTATE_UINT32(bdlp_lbase, IntelHDAStream),
        VMSTATE_UINT32(bdlp_ubase, IntelHDAStream),
        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_intel_hda = {
    .name = "intel-hda",
    .version_id = 1,
    .post_load = intel_hda_post_load,
    .fields = (VMStateField []) {
        VMSTATE_PCI_DEVICE(pci, IntelHDAState),

        /* registers */
        VMSTATE_UINT32(g_ctl, IntelHDAState),
        VMSTATE_UINT32(wake_en, IntelHDAState),
        VMSTATE_UINT32(state_sts, IntelHDAState),
        VMSTATE_UINT32(int_ctl, IntelHDAState),
        VMSTATE_UINT32(int_sts, IntelHDAState),
        VMSTATE_UINT32(wall_clk, IntelHDAState),
        VMSTATE_UINT32(corb_lbase, IntelHDAState),
        VMSTATE_UINT32(corb_ubase, IntelHDAState),
        VMSTATE_UINT32(corb_rp, IntelHDAState),
        VMSTATE_UINT32(corb_wp, IntelHDAState),
        VMSTATE_UINT32(corb_ctl, IntelHDAState),
        VMSTATE_UINT32(corb_sts, IntelHDAState),
        VMSTATE_UINT32(corb_size, IntelHDAState),
        VMSTATE_UINT32(rirb_lbase, IntelHDAState),
        VMSTATE_UINT32(rirb_ubase, IntelHDAState),
        VMSTATE_UINT32(rirb_wp, IntelHDAState),
        VMSTATE_UINT32(rirb_cnt, IntelHDAState),
        VMSTATE_UINT32(rirb_ctl, IntelHDAState),
        VMSTATE_UINT32(rirb_sts, IntelHDAState),
        VMSTATE_UINT32(rirb_size, IntelHDAState),
        VMSTATE_UINT32(dp_lbase, IntelHDAState),
        VMSTATE_UINT32(dp_ubase, IntelHDAState),
        VMSTATE_UINT32(icw, IntelHDAState),
        VMSTATE_UINT32(irr, IntelHDAState),
        VMSTATE_UINT32(ics, IntelHDAState),
        VMSTATE_STRUCT_ARRAY(st, IntelHDAState, 8, 0,
                             vmstate_intel_hda_stream,
                             IntelHDAStream),

        /* additional state info */
        VMSTATE_UINT32(rirb_count, IntelHDAState),
        VMSTATE_INT64(wall_base_ns, IntelHDAState),

        VMSTATE_END_OF_LIST()
    }
};

static PCIDeviceInfo intel_hda_info = {
    .qdev.name    = "intel-hda",
    .qdev.desc    = "Intel HD Audio Controller",
    .qdev.size    = sizeof(IntelHDAState),
    .qdev.vmsd    = &vmstate_intel_hda,
    .qdev.reset   = intel_hda_reset,
    .init         = intel_hda_init,
    .qdev.props   = (Property[]) {
        DEFINE_PROP_UINT32("debug", IntelHDAState, debug, 0),
        DEFINE_PROP_END_OF_LIST(),
    }
};

static void intel_hda_register(void)
{
    pci_qdev_register(&intel_hda_info);
}
device_init(intel_hda_register);

/*
 * create intel hda controller with codec attached to it,
 * so '-soundhw hda' works.
 */
int intel_hda_and_codec_init(PCIBus *bus)
{
    PCIDevice *controller;
    BusState *hdabus;
    DeviceState *codec;

    controller = pci_create_simple(bus, -1, "intel-hda");
    hdabus = QLIST_FIRST(&controller->qdev.child_bus);
    codec = qdev_create(hdabus, "hda-duplex");
    qdev_init_nofail(codec);
    return 0;
}