Use clamping functions instead of the min/max macros

[dsound-openal.git] / buffer.c

/* DirectSound COM interface
 *
 * Copyright 2009 Maarten Lankhorst
 *
 * Some code taken from the original dsound-openal implementation
 *    Copyright 2007-2009 Chris Robinson
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
 */

#include <stdarg.h>

#ifdef __WINESRC__

#define COBJMACROS
#define NONAMELESSSTRUCT
#define NONAMELESSUNION
#include "windef.h"
#include "winbase.h"
#include "winuser.h"
#include "winnls.h"
#include "winreg.h"
#include "vfwmsgs.h"
#include "mmsystem.h"
#include "winternl.h"
#include "mmddk.h"
#include "wine/debug.h"
#include "dsound.h"

#include "dsound_private.h"

#include "ks.h"
#include "ksmedia.h"

WINE_DEFAULT_DEBUG_CHANNEL(dsound);

#else

#define WINVER 0x0600
#define INITGUID
#include <windows.h>
#include <dsound.h>

#include "dsound_private.h"

DEFINE_GUID(CLSID_DirectSoundPrivate,0x11ab3ec0,0x25ec,0x11d1,0xa4,0xd8,0x00,0xc0,0x4f,0xc2,0x8a,0xca);

DEFINE_GUID(DSPROPSETID_DirectSoundDevice,0x84624f82,0x25ec,0x11d1,0xa4,0xd8,0x00,0xc0,0x4f,0xc2,0x8a,0xca);

DEFINE_GUID(KSDATAFORMAT_SUBTYPE_PCM, 0x00000001, 0x0000, 0x0010, 0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71);
DEFINE_GUID(KSDATAFORMAT_SUBTYPE_IEEE_FLOAT, 0x00000003, 0x0000, 0x0010, 0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71);

#ifndef E_PROP_ID_UNSUPPORTED
#define E_PROP_ID_UNSUPPORTED            ((HRESULT)0x80070490)
#endif

#endif

#ifndef WAVE_FORMAT_IEEE_FLOAT
#define WAVE_FORMAT_IEEE_FLOAT 3
#endif

/* TODO: when bufferlost is set, return from all calls except initialize with
 * DSERR_BUFFERLOST
 */
static const IDirectSoundBuffer8Vtbl DS8Buffer_Vtbl;
static const IDirectSound3DBufferVtbl DS8Buffer3d_Vtbl;
static const IDirectSoundNotifyVtbl DS8BufferNot_Vtbl;
static const IKsPropertySetVtbl DS8BufferProp_Vtbl;


static inline DS8Buffer *impl_from_IDirectSoundBuffer8(IDirectSoundBuffer8 *iface)
{
    return CONTAINING_RECORD(iface, DS8Buffer, IDirectSoundBuffer8_iface);
}
/* Shares the same vtable */
static inline DS8Buffer *impl_from_IDirectSoundBuffer(IDirectSoundBuffer *iface)
{
    return CONTAINING_RECORD(iface, DS8Buffer, IDirectSoundBuffer8_iface);
}

static inline DS8Buffer *impl_from_IDirectSound3DBuffer(IDirectSound3DBuffer *iface)
{
    return CONTAINING_RECORD(iface, DS8Buffer, IDirectSound3DBuffer_iface);
}

static inline DS8Buffer *impl_from_IDirectSoundNotify(IDirectSoundNotify *iface)
{
    return CONTAINING_RECORD(iface, DS8Buffer, IDirectSoundNotify_iface);
}

static inline DS8Buffer *impl_from_IKsPropertySet(IKsPropertySet *iface)
{
    return CONTAINING_RECORD(iface, DS8Buffer, IKsPropertySet_iface);
}


static void CALLBACK DS8Buffer_timer(UINT timerID, UINT msg, DWORD_PTR dwUser,
                                     DWORD_PTR dw1, DWORD_PTR dw2)
{
    (void)timerID;
    (void)msg;
    (void)dw1;
    (void)dw2;
    PostThreadMessageA(dwUser, WM_USER, 0, 0);
}

static void DS8Buffer_starttimer(DS8Primary *prim)
{
    DWORD triggertime, res = DS_TIME_RES;
    ALint refresh = FAKE_REFRESH_COUNT;
    TIMECAPS time;

    if(prim->timer_id)
        return;

    timeGetDevCaps(&time, sizeof(TIMECAPS));

    alcGetIntegerv(prim->parent->device, ALC_REFRESH, 1, &refresh);
    getALCError(prim->parent->device);

    triggertime = 1000 / refresh / 2;
    if(triggertime < time.wPeriodMin)
        triggertime = time.wPeriodMin;
    TRACE("Calling timer every %u ms for %i refreshes per second\n", triggertime, refresh);

    if (res < time.wPeriodMin)
        res = time.wPeriodMin;
    if (timeBeginPeriod(res) == TIMERR_NOCANDO)
        WARN("Could not set minimum resolution, don't expect sound\n");

    prim->timer_res = res;
    prim->timer_id = timeSetEvent(triggertime, res, DS8Buffer_timer, prim->thread_id, TIME_PERIODIC|TIME_KILL_SYNCHRONOUS);
}

/* Should be called with critsect held and context set.. */
static void DS8Buffer_addnotify(DS8Buffer *buf)
{
    DS8Buffer **list;
    DWORD i;

    list = buf->primary->notifies;
    for(i = 0; i < buf->primary->nnotifies; ++i)
    {
        if(buf == list[i])
        {
            ERR("Buffer %p already in notification list\n", buf);
            return;
        }
    }
    if(buf->primary->nnotifies == buf->primary->sizenotifies)
    {
        list = HeapReAlloc(GetProcessHeap(), 0, list, (buf->primary->nnotifies + 1) * sizeof(*list));
        if(!list)
            return;
        buf->primary->sizenotifies++;
    }
    list[buf->primary->nnotifies++] = buf;
    buf->primary->notifies = list;
}


static const char *get_fmtstr_PCM(const DS8Primary *prim, const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out)
{
    out->Format = *format;
    out->Format.cbSize = 0;

    if(out->Format.nChannels != 1 && out->Format.nChannels != 2 &&
       !prim->SupportedExt[EXT_MCFORMATS])
    {
        WARN("Multi-channel not available\n");
        return NULL;
    }

    if(format->wBitsPerSample == 8)
    {
        switch(format->nChannels)
        {
        case 1: return "AL_FORMAT_MONO8";
        case 2: return "AL_FORMAT_STEREO8";
        case 4: return "AL_FORMAT_QUAD8";
        case 6: return "AL_FORMAT_51CHN8";
        case 7: return "AL_FORMAT_61CHN8";
        case 8: return "AL_FORMAT_71CHN8";
        }
    }
    else if(format->wBitsPerSample == 16)
    {
        switch(format->nChannels)
        {
        case 1: return "AL_FORMAT_MONO16";
        case 2: return "AL_FORMAT_STEREO16";
        case 4: return "AL_FORMAT_QUAD16";
        case 6: return "AL_FORMAT_51CHN16";
        case 7: return "AL_FORMAT_61CHN16";
        case 8: return "AL_FORMAT_71CHN16";
        }
    }

    FIXME("Could not get OpenAL format (%d-bit, %d channels)\n",
          format->wBitsPerSample, format->nChannels);
    return NULL;
}
static ALenum get_fmt_PCM(const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out, ALenum *in_chans, ALenum *in_type)
{
    out->Format = *format;
    out->Format.cbSize = 0;

    if(format->wBitsPerSample == 8)
    {
        *in_type = AL_UNSIGNED_BYTE;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO8;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO8;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD8;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_8;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_8;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_8;
        }
    }
    else if(format->wBitsPerSample == 16)
    {
        *in_type = AL_SHORT;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO16;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO16;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD16;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_16;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_16;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_16;
        }
    }
#if 0 /* Will cause incorrect byte offsets */
    else if(format->wBitsPerSample == 24)
    {
        *in_type = AL_BYTE3;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO32F;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO32F;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD32F;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_32F;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_32F;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_32F;
        }
    }
#endif
    else if(format->wBitsPerSample == 32)
    {
        *in_type = AL_INT;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO32F;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO32F;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD32F;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_32F;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_32F;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_32F;
        }
    }

    FIXME("Could not get OpenAL format (%d-bit, %d channels)\n",
          format->wBitsPerSample, format->nChannels);
    return AL_NONE;
}

static const char *get_fmtstr_FLOAT(const DS8Primary *prim, const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out)
{
    out->Format = *format;
    out->Format.cbSize = 0;

    if(out->Format.nChannels != 1 && out->Format.nChannels != 2 &&
       !prim->SupportedExt[EXT_MCFORMATS])
    {
        WARN("Multi-channel not available\n");
        return NULL;
    }

    if(format->wBitsPerSample == 32 && prim->SupportedExt[EXT_FLOAT32])
    {
        switch(format->nChannels)
        {
        case 1: return "AL_FORMAT_MONO_FLOAT32";
        case 2: return "AL_FORMAT_STEREO_FLOAT32";
        case 4: return "AL_FORMAT_QUAD32";
        case 6: return "AL_FORMAT_51CHN32";
        case 7: return "AL_FORMAT_61CHN32";
        case 8: return "AL_FORMAT_71CHN32";
        }
    }

    FIXME("Could not get OpenAL format (%d-bit, %d channels)\n",
          format->wBitsPerSample, format->nChannels);
    return NULL;
}
static ALenum get_fmt_FLOAT(const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out, ALenum *in_chans, ALenum *in_type)
{
    out->Format = *format;
    out->Format.cbSize = 0;

    if(format->wBitsPerSample == 32)
    {
        *in_type = AL_FLOAT;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO32F;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO32F;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD32F;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_32F;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_32F;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_32F;
        }
    }
#if 0 /* Will cause incorrect byte offsets */
    else if(format->wBitsPerSample == 64)
    {
        *in_type = AL_DOUBLE;
        switch(format->nChannels)
        {
        case 1: *in_chans = AL_MONO;
                return AL_MONO32F;
        case 2: *in_chans = AL_STEREO;
                return AL_STEREO32F;
        case 4: *in_chans = AL_QUAD;
                return AL_QUAD32F;
        case 6: *in_chans = AL_5POINT1;
                return AL_5POINT1_32F;
        case 7: *in_chans = AL_6POINT1;
                return AL_6POINT1_32F;
        case 8: *in_chans = AL_7POINT1;
                return AL_7POINT1_32F;
        }
    }
#endif

    FIXME("Could not get OpenAL format (%d-bit, %d channels)\n",
          format->wBitsPerSample, format->nChannels);
    return AL_NONE;
}

/* Speaker configs */
#define MONO SPEAKER_FRONT_CENTER
#define STEREO (SPEAKER_FRONT_LEFT|SPEAKER_FRONT_RIGHT)
#define REAR (SPEAKER_BACK_LEFT|SPEAKER_BACK_RIGHT)
#define QUAD (SPEAKER_FRONT_LEFT|SPEAKER_FRONT_RIGHT|SPEAKER_BACK_LEFT|SPEAKER_BACK_RIGHT)
#define X5DOT1 (SPEAKER_FRONT_LEFT|SPEAKER_FRONT_RIGHT|SPEAKER_FRONT_CENTER|SPEAKER_LOW_FREQUENCY|SPEAKER_BACK_LEFT|SPEAKER_BACK_RIGHT)
#define X6DOT1 (SPEAKER_FRONT_LEFT|SPEAKER_FRONT_RIGHT|SPEAKER_FRONT_CENTER|SPEAKER_LOW_FREQUENCY|SPEAKER_BACK_CENTER|SPEAKER_SIDE_LEFT|SPEAKER_SIDE_RIGHT)
#define X7DOT1 (SPEAKER_FRONT_LEFT|SPEAKER_FRONT_RIGHT|SPEAKER_FRONT_CENTER|SPEAKER_LOW_FREQUENCY|SPEAKER_BACK_LEFT|SPEAKER_BACK_RIGHT|SPEAKER_SIDE_LEFT|SPEAKER_SIDE_RIGHT)

static const char *get_fmtstr_EXT(const DS8Primary *prim, const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out)
{
    *out = *CONTAINING_RECORD(format, const WAVEFORMATEXTENSIBLE, Format);
    out->Format.cbSize = sizeof(*out) - sizeof(out->Format);

    if(!out->Samples.wValidBitsPerSample)
        out->Samples.wValidBitsPerSample = out->Format.wBitsPerSample;
    else if(out->Samples.wValidBitsPerSample != out->Format.wBitsPerSample)
    {
        FIXME("Padded samples not supported (%u of %u)\n", out->Samples.wValidBitsPerSample, out->Format.wBitsPerSample);
        return NULL;
    }

    if(out->dwChannelMask != MONO && out->dwChannelMask != STEREO &&
       !prim->SupportedExt[EXT_MCFORMATS])
    {
        WARN("Multi-channel not available\n");
        return NULL;
    }

    if(IsEqualGUID(&out->SubFormat, &KSDATAFORMAT_SUBTYPE_PCM))
    {
        if(out->Samples.wValidBitsPerSample == 8)
        {
            switch(out->dwChannelMask)
            {
            case   MONO: return "AL_FORMAT_MONO8";
            case STEREO: return "AL_FORMAT_STEREO8";
            case   REAR: return "AL_FORMAT_REAR8";
            case   QUAD: return "AL_FORMAT_QUAD8";
            case X5DOT1: return "AL_FORMAT_51CHN8";
            case X6DOT1: return "AL_FORMAT_61CHN8";
            case X7DOT1: return "AL_FORMAT_71CHN8";
            }
        }
        else if(out->Samples.wValidBitsPerSample == 16)
        {
            switch(out->dwChannelMask)
            {
            case   MONO: return "AL_FORMAT_MONO16";
            case STEREO: return "AL_FORMAT_STEREO16";
            case   REAR: return "AL_FORMAT_REAR16";
            case   QUAD: return "AL_FORMAT_QUAD16";
            case X5DOT1: return "AL_FORMAT_51CHN16";
            case X6DOT1: return "AL_FORMAT_61CHN16";
            case X7DOT1: return "AL_FORMAT_71CHN16";
            }
        }

        FIXME("Could not get OpenAL PCM format (%d-bit, channelmask %#x)\n",
              out->Samples.wValidBitsPerSample, out->dwChannelMask);
        return NULL;
    }
    else if(IsEqualGUID(&out->SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT) &&
            prim->SupportedExt[EXT_FLOAT32])
    {
        if(out->Samples.wValidBitsPerSample == 32)
        {
            switch(out->dwChannelMask)
            {
            case   MONO: return "AL_FORMAT_MONO_FLOAT32";
            case STEREO: return "AL_FORMAT_STEREO_FLOAT32";
            case   REAR: return "AL_FORMAT_REAR32";
            case   QUAD: return "AL_FORMAT_QUAD32";
            case X5DOT1: return "AL_FORMAT_51CHN32";
            case X6DOT1: return "AL_FORMAT_61CHN32";
            case X7DOT1: return "AL_FORMAT_71CHN32";
            }
        }
        else
        {
            WARN("Invalid float bits: %u\n", out->Samples.wValidBitsPerSample);
            return NULL;
        }

        FIXME("Could not get OpenAL float format (%d-bit, channelmask %#x)\n",
              out->Samples.wValidBitsPerSample, out->dwChannelMask);
        return NULL;
    }
    else if(!IsEqualGUID(&out->SubFormat, &GUID_NULL))
        ERR("Unhandled extensible format: %s\n", debugstr_guid(&out->SubFormat));
    return NULL;
}
static ALenum get_fmt_EXT(const WAVEFORMATEX *format, WAVEFORMATEXTENSIBLE *out, ALenum *in_chans, ALenum *in_type)
{
    *out = *CONTAINING_RECORD(format, const WAVEFORMATEXTENSIBLE, Format);
    out->Format.cbSize = sizeof(*out) - sizeof(out->Format);

    if(!out->Samples.wValidBitsPerSample)
        out->Samples.wValidBitsPerSample = out->Format.wBitsPerSample;
    else if(out->Samples.wValidBitsPerSample != out->Format.wBitsPerSample)
    {
        FIXME("Padded samples not supported (%u of %u)\n", out->Samples.wValidBitsPerSample, out->Format.wBitsPerSample);
        return AL_NONE;
    }

    if(IsEqualGUID(&out->SubFormat, &KSDATAFORMAT_SUBTYPE_PCM))
    {
        if(out->Samples.wValidBitsPerSample == 8)
        {
            *in_type = AL_UNSIGNED_BYTE;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO8;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO8;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR8;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD8;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_8;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_8;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_8;
            }
        }
        else if(out->Samples.wValidBitsPerSample == 16)
        {
            *in_type = AL_SHORT;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO16;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO16;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR16;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD16;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_16;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_16;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_16;
            }
        }
#if 0
        else if(out->Samples.wValidBitsPerSample == 24)
        {
            *in_type = AL_BYTE3;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO32F;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO32F;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR32F;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD32F;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_32F;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_32F;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_32F;
            }
        }
#endif
        else if(out->Samples.wValidBitsPerSample == 32)
        {
            *in_type = AL_INT;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO32F;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO32F;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR32F;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD32F;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_32F;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_32F;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_32F;
            }
        }

        FIXME("Could not get OpenAL PCM format (%d-bit, channelmask %#x)\n",
              out->Samples.wValidBitsPerSample, out->dwChannelMask);
        return AL_NONE;
    }
    else if(IsEqualGUID(&out->SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT))
    {
        if(out->Samples.wValidBitsPerSample == 32)
        {
            *in_type = AL_FLOAT;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO32F;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO32F;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR32F;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD32F;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_32F;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_32F;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_32F;
            }
        }
#if 0
        else if(out->Samples.wValidBitsPerSample == 64)
        {
            *in_type = AL_DOUBLE;
            switch(out->dwChannelMask)
            {
            case   MONO: *in_chans = AL_MONO;
                         return AL_MONO32F;
            case STEREO: *in_chans = AL_STEREO;
                         return AL_STEREO32F;
            case   REAR: *in_chans = AL_REAR;
                         return AL_REAR32F;
            case   QUAD: *in_chans = AL_QUAD;
                         return AL_QUAD32F;
            case X5DOT1: *in_chans = AL_5POINT1;
                         return AL_5POINT1_32F;
            case X6DOT1: *in_chans = AL_6POINT1;
                         return AL_6POINT1_32F;
            case X7DOT1: *in_chans = AL_7POINT1;
                         return AL_7POINT1_32F;
            }
        }
#endif
        else
        {
            WARN("Invalid float bits: %u\n", out->Samples.wValidBitsPerSample);
            return AL_NONE;
        }

        FIXME("Could not get OpenAL float format (%d-bit, channelmask %#x)\n",
              out->Samples.wValidBitsPerSample, out->dwChannelMask);
        return AL_NONE;
    }
    else if(!IsEqualGUID(&out->SubFormat, &GUID_NULL))
        ERR("Unhandled extensible format: %s\n", debugstr_guid(&out->SubFormat));
    return AL_NONE;
}

static void DS8Data_Release(DS8Data *This);
static HRESULT DS8Data_Create(DS8Data **ppv, const DSBUFFERDESC *desc, DS8Primary *prim)
{
    HRESULT hr = DSERR_INVALIDPARAM;
    const WAVEFORMATEX *format;
    DS8Data *pBuffer;

    format = desc->lpwfxFormat;
    TRACE("Requested buffer format:\n"
          "    FormatTag      = 0x%04x\n"
          "    Channels       = %d\n"
          "    SamplesPerSec  = %u\n"
          "    AvgBytesPerSec = %u\n"
          "    BlockAlign     = %d\n"
          "    BitsPerSample  = %d\n",
          format->wFormatTag, format->nChannels,
          format->nSamplesPerSec, format->nAvgBytesPerSec,
          format->nBlockAlign, format->wBitsPerSample);

    if(format->nBlockAlign == 0)
    {
        WARN("Invalid BlockAlign specified\n");
        return DSERR_INVALIDPARAM;
    }

    /* Generate a new buffer. Supporting the DSBCAPS_LOC* flags properly
     * will need the EAX-RAM extension. Currently, we just tell the app it
     * gets what it wanted. */
    pBuffer = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*pBuffer));
    if(!pBuffer)
        return E_OUTOFMEMORY;
    pBuffer->ref = 1;

    pBuffer->dsbflags = desc->dwFlags;
    if((pBuffer->dsbflags&(DSBCAPS_LOCSOFTWARE|DSBCAPS_LOCHARDWARE)) == (DSBCAPS_LOCSOFTWARE|DSBCAPS_LOCHARDWARE))
    {
        WARN("Hardware and software location requested\n");
        goto fail;
    }
    if(!(pBuffer->dsbflags&(DSBCAPS_LOCSOFTWARE|DSBCAPS_LOCHARDWARE|DSBCAPS_LOCDEFER)))
        pBuffer->dsbflags |= DSBCAPS_LOCHARDWARE;

    pBuffer->buf_size  = desc->dwBufferBytes + format->nBlockAlign - 1;
    pBuffer->buf_size -= pBuffer->buf_size%format->nBlockAlign;

    hr = DSERR_BUFFERTOOSMALL;
    if(pBuffer->buf_size < DSBSIZE_MIN)
        goto fail;

    hr = DSERR_INVALIDPARAM;
    if(pBuffer->buf_size > DSBSIZE_MAX)
        goto fail;

    pBuffer->numsegs = 1;
    pBuffer->segsize = pBuffer->buf_size;
    pBuffer->lastsegsize = pBuffer->buf_size;

    if(!prim->SupportedExt[SOFT_BUFFER_SAMPLES])
    {
        const char *fmt_str;

        if(!(pBuffer->dsbflags&DSBCAPS_STATIC) && !prim->SupportedExt[SOFT_BUFFER_SUB_DATA] &&
           !prim->SupportedExt[EXT_STATIC_BUFFER])
        {
            ALCint refresh = FAKE_REFRESH_COUNT;
            ALuint newSize;

            alcGetIntegerv(prim->parent->device, ALC_REFRESH, 1, &refresh);
            getALCError(prim->parent->device);

            newSize  = format->nAvgBytesPerSec/refresh + format->nBlockAlign - 1;
            newSize -= newSize%format->nBlockAlign;

            /* Make sure enough buffers are available */
            if(newSize > pBuffer->buf_size/(QBUFFERS+2))
                ERR("Buffer segments too large to stream (%u for %u)!\n",
                    newSize, pBuffer->buf_size);
            else
            {
                pBuffer->numsegs = pBuffer->buf_size/newSize;
                pBuffer->segsize = newSize;
                pBuffer->lastsegsize = pBuffer->buf_size - (newSize*(pBuffer->numsegs-1));
                TRACE("New streaming buffer (%u chunks, %u : %u sizes)\n",
                      pBuffer->numsegs, pBuffer->segsize, pBuffer->lastsegsize);
            }
        }

        if(format->wFormatTag == WAVE_FORMAT_PCM)
            fmt_str = get_fmtstr_PCM(prim, format, &pBuffer->format);
        else if(format->wFormatTag == WAVE_FORMAT_IEEE_FLOAT)
            fmt_str = get_fmtstr_FLOAT(prim, format, &pBuffer->format);
        else if(format->wFormatTag == WAVE_FORMAT_EXTENSIBLE)
        {
            const WAVEFORMATEXTENSIBLE *wfe;

            hr = DSERR_CONTROLUNAVAIL;
            if(format->cbSize != sizeof(WAVEFORMATEXTENSIBLE)-sizeof(WAVEFORMATEX) &&
               format->cbSize != sizeof(WAVEFORMATEXTENSIBLE))
                goto fail;

            wfe = CONTAINING_RECORD(format, const WAVEFORMATEXTENSIBLE, Format);
            TRACE("Extensible values:\n"
                  "    Samples     = %d\n"
                  "    ChannelMask = 0x%x\n"
                  "    SubFormat   = %s\n",
                  wfe->Samples.wReserved, wfe->dwChannelMask,
                  debugstr_guid(&wfe->SubFormat));

            fmt_str = get_fmtstr_EXT(prim, format, &pBuffer->format);
        }
        else
            ERR("Unhandled formattag 0x%04x\n", format->wFormatTag);

        hr = DSERR_INVALIDCALL;
        if(!fmt_str)
            goto fail;

        pBuffer->buf_format = alGetEnumValue(fmt_str);
        if(alGetError() != AL_NO_ERROR || pBuffer->buf_format == 0 ||
           pBuffer->buf_format == -1)
        {
            WARN("Could not get OpenAL format from %s\n", fmt_str);
            goto fail;
        }
    }
    else
    {
        if(format->wFormatTag == WAVE_FORMAT_PCM)
            pBuffer->buf_format = get_fmt_PCM(format, &pBuffer->format, &pBuffer->in_chans, &pBuffer->in_type);
        else if(format->wFormatTag == WAVE_FORMAT_IEEE_FLOAT)
            pBuffer->buf_format = get_fmt_FLOAT(format, &pBuffer->format, &pBuffer->in_chans, &pBuffer->in_type);
        else if(format->wFormatTag == WAVE_FORMAT_EXTENSIBLE)
        {
            const WAVEFORMATEXTENSIBLE *wfe;

            hr = DSERR_CONTROLUNAVAIL;
            if(format->cbSize != sizeof(WAVEFORMATEXTENSIBLE)-sizeof(WAVEFORMATEX) &&
               format->cbSize != sizeof(WAVEFORMATEXTENSIBLE))
                goto fail;

            wfe = CONTAINING_RECORD(format, const WAVEFORMATEXTENSIBLE, Format);
            TRACE("Extensible values:\n"
                  "    Samples     = %d\n"
                  "    ChannelMask = 0x%x\n"
                  "    SubFormat   = %s\n",
                  wfe->Samples.wReserved, wfe->dwChannelMask,
                  debugstr_guid(&wfe->SubFormat));

            pBuffer->buf_format = get_fmt_EXT(format, &pBuffer->format, &pBuffer->in_chans, &pBuffer->in_type);
        }
        else
            ERR("Unhandled formattag 0x%04x\n", format->wFormatTag);

        hr = DSERR_INVALIDCALL;
        if(prim->ExtAL.IsBufferFormatSupportedSOFT(pBuffer->buf_format) == AL_FALSE)
        {
            WARN("Unsupported OpenAL format: 0x%x\n", pBuffer->buf_format);
            goto fail;
        }
    }

    hr = E_OUTOFMEMORY;
    pBuffer->buffers = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*pBuffer->buffers)*pBuffer->numsegs);
    pBuffer->data = HeapAlloc(GetProcessHeap(), 0, pBuffer->buf_size);
    if(!pBuffer->buffers || !pBuffer->data)
        goto fail;

    alGenBuffers(pBuffer->numsegs, pBuffer->buffers);
    getALError();

    *ppv = pBuffer;
    return S_OK;

fail:
    DS8Data_Release(pBuffer);
    return hr;
}

static void DS8Data_AddRef(DS8Data *data)
{
    InterlockedIncrement(&data->ref);
}

/* This function is always called with the device lock held */
static void DS8Data_Release(DS8Data *This)
{
    if(InterlockedDecrement(&This->ref)) return;

    TRACE("Deleting %p\n", This);
    if (This->buffers && This->buffers[0])
    {
        alDeleteBuffers(This->numsegs, This->buffers);
        getALError();
    }
    HeapFree(GetProcessHeap(), 0, This->buffers);
    HeapFree(GetProcessHeap(), 0, This->data);
    HeapFree(GetProcessHeap(), 0, This);
}

HRESULT DS8Buffer_Create(DS8Buffer **ppv, DS8Primary *parent, IDirectSoundBuffer *orig)
{
    HRESULT hr = DSERR_OUTOFMEMORY;
    DS8Buffer *This;
    DS8Buffer **bufs;

    *ppv = NULL;
    This = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*This));
    if(!This) return hr;

    This->IDirectSoundBuffer8_iface.lpVtbl = (IDirectSoundBuffer8Vtbl*)&DS8Buffer_Vtbl;
    This->IDirectSound3DBuffer_iface.lpVtbl = (IDirectSound3DBufferVtbl*)&DS8Buffer3d_Vtbl;
    This->IDirectSoundNotify_iface.lpVtbl = (IDirectSoundNotifyVtbl*)&DS8BufferNot_Vtbl;
    This->IKsPropertySet_iface.lpVtbl = (IKsPropertySetVtbl*)&DS8BufferProp_Vtbl;

    This->primary = parent;
    This->ctx = parent->ctx;
    This->ExtAL = &parent->ExtAL;
    This->crst = &parent->crst;
    This->ref = This->all_ref = 1;

    if(orig)
    {
        DS8Buffer *org = impl_from_IDirectSoundBuffer(orig);
        hr = DSERR_BUFFERLOST;
        if(org->bufferlost)
            goto fail;
        DS8Data_AddRef(org->buffer);
        This->buffer = org->buffer;
    }

    /* Append to buffer list */
    bufs = parent->buffers;
    if(parent->nbuffers == parent->sizebuffers)
    {
        bufs = HeapReAlloc(GetProcessHeap(), 0, bufs, sizeof(*bufs)*(1+parent->nbuffers));
        hr = DSERR_OUTOFMEMORY;
        if(!bufs) goto fail;
        parent->sizebuffers++;
    }
    parent->buffers = bufs;
    bufs[parent->nbuffers++] = This;

    /* Disable until initialized.. */
    This->ds3dmode = DS3DMODE_DISABLE;

    *ppv = This;
    return S_OK;

fail:
    DS8Buffer_Destroy(This);
    return hr;
}

void DS8Buffer_Destroy(DS8Buffer *This)
{
    DS8Primary *prim = This->primary;
    DWORD idx;

    TRACE("Destroying %p\n", This);

    EnterCriticalSection(&prim->crst);
    /* Remove from list, if in list */
    for(idx = 0;idx < prim->nnotifies;++idx)
    {
        if(This == prim->notifies[idx])
        {
            prim->notifies[idx] = prim->notifies[--prim->nnotifies];
            break;
        }
    }
    for(idx = 0;idx < prim->nbuffers;++idx)
    {
        if(prim->buffers[idx] == This)
        {
            prim->buffers[idx] = prim->buffers[--prim->nbuffers];
            break;
        }
    }

    setALContext(This->ctx);
    if(This->source)
    {
        ALuint *sources;

        alSourceStop(This->source);
        alSourcei(This->source, AL_BUFFER, 0);
        getALError();

        sources = prim->sources;
        if(prim->nsources == prim->sizesources)
        {
            sources = HeapReAlloc(GetProcessHeap(), 0, sources, sizeof(*sources)*(prim->nsources+1));
            if(!sources)
                alDeleteSources(1, &This->source);
            else
                prim->sizesources++;
        }
        if(sources)
        {
            sources[prim->nsources++] = This->source;
            prim->sources = sources;
        }
        This->source = 0;
    }
    LeaveCriticalSection(&prim->crst);

    if(This->buffer)
        DS8Data_Release(This->buffer);

    popALContext();

    HeapFree(GetProcessHeap(), 0, This->notify);
    HeapFree(GetProcessHeap(), 0, This);
}


static HRESULT WINAPI DS8Buffer_QueryInterface(IDirectSoundBuffer8 *iface, REFIID riid, void **ppv)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);

    TRACE("(%p)->(%s, %p)\n", iface, debugstr_guid(riid), ppv);

    *ppv = NULL;
    if(IsEqualIID(riid, &IID_IUnknown) ||
       IsEqualIID(riid, &IID_IDirectSoundBuffer))
        *ppv = &This->IDirectSoundBuffer8_iface;
    else if(IsEqualIID(riid, &IID_IDirectSoundBuffer8))
    {
        if(This->primary->parent->is_8)
            *ppv = &This->IDirectSoundBuffer8_iface;
    }
    else if(IsEqualIID(riid, &IID_IDirectSound3DBuffer))
    {
        if((This->buffer->dsbflags&DSBCAPS_CTRL3D))
            *ppv = &This->IDirectSound3DBuffer_iface;
    }
    else if(IsEqualIID(riid, &IID_IDirectSoundNotify))
    {
        if((This->buffer->dsbflags&DSBCAPS_CTRLPOSITIONNOTIFY))
            *ppv = &This->IDirectSoundNotify_iface;
    }
    else if(IsEqualIID(riid, &IID_IKsPropertySet))
        *ppv = &This->IKsPropertySet_iface;
    else
        FIXME("Unhandled GUID: %s\n", debugstr_guid(riid));

    if(*ppv)
    {
        IUnknown_AddRef((IUnknown*)*ppv);
        return S_OK;
    }

    return E_NOINTERFACE;
}

static ULONG WINAPI DS8Buffer_AddRef(IDirectSoundBuffer8 *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    LONG ret;

    InterlockedIncrement(&This->all_ref);
    ret = InterlockedIncrement(&This->ref);
    TRACE("new refcount %d\n", ret);

    return ret;
}

static ULONG WINAPI DS8Buffer_Release(IDirectSoundBuffer8 *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    LONG ret;

    ret = InterlockedDecrement(&This->ref);
    TRACE("new refcount %d\n", ret);
    if(InterlockedDecrement(&This->all_ref) == 0)
        DS8Buffer_Destroy(This);

    return ret;
}

static HRESULT WINAPI DS8Buffer_GetCaps(IDirectSoundBuffer8 *iface, DSBCAPS *caps)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);

    TRACE("(%p)->(%p)\n", iface, caps);

    if(!caps || caps->dwSize < sizeof(*caps))
    {
        WARN("Invalid DSBCAPS (%p, %u)\n", caps, (caps ? caps->dwSize : 0));
        return DSERR_INVALIDPARAM;
    }

    caps->dwFlags = This->buffer->dsbflags;
    caps->dwBufferBytes = This->buffer->buf_size;
    caps->dwUnlockTransferRate = 4096;
    caps->dwPlayCpuOverhead = 0;
    return S_OK;
}

static HRESULT WINAPI DS8Buffer_GetCurrentPosition(IDirectSoundBuffer8 *iface, DWORD *playpos, DWORD *curpos)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    WAVEFORMATEX *format = &This->buffer->format.Format;
    UINT writecursor, pos;

    TRACE("(%p)->(%p, %p)\n", iface, playpos, curpos);

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    if(This->buffer->numsegs > 1)
    {
        ALint queued = QBUFFERS;
        alGetSourcei(This->source, AL_BUFFERS_QUEUED, &queued);
        getALError();

        pos = (This->curidx+This->buffer->numsegs-queued)%This->buffer->numsegs;
        pos *= This->buffer->segsize;
        writecursor = This->curidx * This->buffer->segsize;
    }
    else if(This->primary->SupportedExt[SOFT_BUFFER_SUB_DATA] ||
            This->primary->SupportedExt[SOFT_BUFFER_SAMPLES])
    {
        ALint rwpos[2] = { 0, 0 };

        alGetSourceiv(This->source, AL_BYTE_RW_OFFSETS_SOFT, rwpos);
        getALError();

        pos = rwpos[0];
        writecursor = rwpos[1];
    }
    else
    {
        ALint status = 0;
        ALint ofs = 0;

        alGetSourcei(This->source, AL_BYTE_OFFSET, &ofs);
        alGetSourcei(This->source, AL_SOURCE_STATE, &status);
        getALError();

        pos = ofs;
        if(status == AL_PLAYING)
        {
            writecursor = format->nSamplesPerSec / 100;
            writecursor *= format->nBlockAlign;
        }
        else
            writecursor = 0;
        writecursor = (writecursor + pos) % This->buffer->buf_size;
    }
    TRACE("%p Play pos = %u, write pos = %u\n", This, pos, writecursor);
    if(pos >= This->buffer->buf_size)
    {
        ERR("playpos >= buf_size\n");
        pos %= This->buffer->buf_size;
    }
    if(writecursor >= This->buffer->buf_size)
    {
        ERR("writepos >= buf_size\n");
        writecursor %= This->buffer->buf_size;
    }

    if(playpos) *playpos = pos;
    if(curpos)  *curpos = writecursor;

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer_GetFormat(IDirectSoundBuffer8 *iface, WAVEFORMATEX *wfx, DWORD allocated, DWORD *written)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr = S_OK;
    UINT size;

    TRACE("(%p)->(%p, %u, %p)\n", iface, wfx, allocated, written);

    if(!wfx && !written)
    {
        WARN("Cannot report format or format size\n");
        return DSERR_INVALIDPARAM;
    }

    size = sizeof(This->buffer->format.Format) + This->buffer->format.Format.cbSize;
    if(wfx)
    {
        if(allocated < size)
            hr = DSERR_INVALIDPARAM;
        else
            memcpy(wfx, &This->buffer->format.Format, size);
    }
    if(written)
        *written = size;

    return hr;
}

static HRESULT WINAPI DS8Buffer_GetVolume(IDirectSoundBuffer8 *iface, LONG *vol)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr;

    TRACE("(%p)->(%p)\n", iface, vol);

    if(!vol)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    hr = DSERR_CONTROLUNAVAIL;
    if(!(This->buffer->dsbflags&DSBCAPS_CTRLVOLUME))
        WARN("Volume control not set\n");
    else
    {
        ALfloat gain = 1.0f;

        setALContext(This->ctx);
        alGetSourcef(This->source, AL_GAIN, &gain);
        getALError();
        popALContext();

        *vol = clampI(gain_to_mB(gain), DSBVOLUME_MIN, DSBVOLUME_MAX);
        hr = DS_OK;
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_GetPan(IDirectSoundBuffer8 *iface, LONG *pan)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr;

    TRACE("(%p)->(%p)\n", iface, pan);

    if(!pan)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    hr = DSERR_CONTROLUNAVAIL;
    if(!(This->buffer->dsbflags&DSBCAPS_CTRLPAN))
        WARN("Panning control not set\n");
    else
    {
        ALfloat pos[3];

        setALContext(This->ctx);
        alGetSourcefv(This->source, AL_POSITION, pos);
        getALError();
        popALContext();

        *pan = clampI(((pos[0]+1.0) * (DSBPAN_RIGHT-DSBPAN_LEFT) / 2.0 + 0.5) + DSBPAN_LEFT, DSBPAN_LEFT, DSBPAN_RIGHT);
        hr = DS_OK;
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_GetFrequency(IDirectSoundBuffer8 *iface, DWORD *freq)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr;

    TRACE("(%p)->(%p)\n", iface, freq);

    if(!freq)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    hr = DSERR_CONTROLUNAVAIL;
    if(!(This->buffer->dsbflags&DSBCAPS_CTRLFREQUENCY))
        WARN("Frequency control not set\n");
    else
    {
        ALfloat pitch = 1.0f;

        setALContext(This->ctx);
        alGetSourcefv(This->source, AL_PITCH, &pitch);
        getALError();
        popALContext();

        *freq = (DWORD)(This->buffer->format.Format.nSamplesPerSec * pitch);
        hr = DS_OK;
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_GetStatus(IDirectSoundBuffer8 *iface, DWORD *status)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    ALint state, looping;

    TRACE("(%p)->(%p)\n", iface, status);

    if(!status)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);

    setALContext(This->ctx);
    alGetSourcei(This->source, AL_SOURCE_STATE, &state);
    looping = This->islooping;
    if(This->buffer->numsegs == 1)
        alGetSourcei(This->source, AL_LOOPING, &looping);
    else if(state != AL_PLAYING)
        state = This->isplaying ? AL_PLAYING : AL_PAUSED;
    getALError();
    popALContext();

    LeaveCriticalSection(This->crst);

    *status = 0;
    if((This->buffer->dsbflags&DSBCAPS_LOCDEFER))
    {
        if((This->buffer->dsbflags&DSBCAPS_LOCSOFTWARE))
            *status |= DSBSTATUS_LOCSOFTWARE;
        else if((This->buffer->dsbflags&DSBCAPS_LOCHARDWARE))
            *status |= DSBSTATUS_LOCHARDWARE;
    }
    if(state == AL_PLAYING)
        *status |= DSBSTATUS_PLAYING | (looping ? DSBSTATUS_LOOPING : 0);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer_Initialize(IDirectSoundBuffer8 *iface, IDirectSound *ds, const DSBUFFERDESC *desc)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    DS3DBUFFER *ds3dbuffer;
    HRESULT hr;

    TRACE("(%p)->(%p, %p)\n", iface, ds, desc);

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    hr = DSERR_ALREADYINITIALIZED;
    if(This->source)
        goto out;

    if(!This->buffer)
    {
        hr = DSERR_INVALIDPARAM;
        if(!desc)
        {
            WARN("Missing DSound buffer description\n");
            goto out;
        }
        if(!desc->lpwfxFormat)
        {
            WARN("Missing buffer format (%p)\n", This);
            goto out;
        }
        if((desc->dwFlags&DSBCAPS_CTRL3D) && desc->lpwfxFormat->nChannels != 1)
        {
            if(This->primary->parent->is_8)
            {
                /* DirectSoundBuffer8 objects aren't allowed non-mono 3D
                 * buffers */
                WARN("Can't create multi-channel 3D buffers\n");
                goto out;
            }
            ERR("Multi-channel 3D sounds are not spatialized\n");
        }

        hr = DS8Data_Create(&This->buffer, desc, This->primary);
        if(FAILED(hr))
            goto out;
        else
        {
            DS8Data *buf = This->buffer;

            if(buf->format.Format.wBitsPerSample == 8)
                memset(buf->data, 0x80, buf->buf_size);
            else
                memset(buf->data, 0x00, buf->buf_size);

            if(This->primary->SupportedExt[EXT_STATIC_BUFFER])
                This->ExtAL->BufferDataStatic(buf->buffers[0], buf->buf_format,
                                              buf->data, buf->buf_size,
                                              buf->format.Format.nSamplesPerSec);
            else if(This->primary->SupportedExt[SOFT_BUFFER_SAMPLES])
                This->ExtAL->BufferSamplesSOFT(buf->buffers[0],
                         buf->format.Format.nSamplesPerSec, buf->buf_format,
                         buf->buf_size/buf->format.Format.nBlockAlign,
                         buf->in_chans, buf->in_type, buf->data);
            else if(This->primary->SupportedExt[SOFT_BUFFER_SUB_DATA])
                alBufferData(buf->buffers[0], buf->buf_format,
                             buf->data, buf->buf_size,
                             buf->format.Format.nSamplesPerSec);
        }
        getALError();
    }

    hr = DSERR_GENERIC;
    if(This->primary->nsources)
    {
        This->source = This->primary->sources[--This->primary->nsources];
        alSourcef(This->source, AL_GAIN, 1.0f);
        alSourcef(This->source, AL_PITCH, 1.0f);
        getALError();
    }
    else
    {
        alGenSources(1, &This->source);
        if(alGetError() != AL_NO_ERROR)
            goto out;
    }

    ds3dbuffer = &This->ds3dbuffer;
    ds3dbuffer->dwSize = sizeof(*ds3dbuffer);
    ds3dbuffer->vPosition.x = 0.0;
    ds3dbuffer->vPosition.y = 0.0;
    ds3dbuffer->vPosition.z = 0.0;
    ds3dbuffer->vVelocity.x = 0.0;
    ds3dbuffer->vVelocity.y = 0.0;
    ds3dbuffer->vVelocity.z = 0.0;
    ds3dbuffer->dwInsideConeAngle = DS3D_DEFAULTCONEANGLE;
    ds3dbuffer->dwOutsideConeAngle = DS3D_DEFAULTCONEANGLE;
    ds3dbuffer->vConeOrientation.x = 0.0;
    ds3dbuffer->vConeOrientation.y = 0.0;
    ds3dbuffer->vConeOrientation.z = 1.0;
    ds3dbuffer->lConeOutsideVolume = DS3D_DEFAULTCONEOUTSIDEVOLUME;
    ds3dbuffer->flMinDistance = DS3D_DEFAULTMINDISTANCE;
    ds3dbuffer->flMaxDistance = DS3D_DEFAULTMAXDISTANCE;
    ds3dbuffer->dwMode = DS3DMODE_NORMAL;

    if((This->buffer->dsbflags&DSBCAPS_CTRL3D))
    {
        if(This->primary->auxslot != 0)
        {
            alSource3i(This->source, AL_AUXILIARY_SEND_FILTER, This->primary->auxslot, 0, AL_FILTER_NULL);
            getALError();
        }

        hr = IDirectSound3DBuffer_SetAllParameters(&This->IDirectSound3DBuffer_iface, ds3dbuffer, DS3D_IMMEDIATE);
        if(FAILED(hr))
        {
            ERR("SetAllParameters failed\n");
            goto out;
        }
    }
    else
    {
        ALuint source = This->source;

        if(This->primary->auxslot != 0)
        {
            /* Simple hack to make reverb affect non-3D sounds too */
            alSource3i(source, AL_AUXILIARY_SEND_FILTER, This->primary->auxslot, 0, AL_FILTER_NULL);
            /*alSource3i(source, AL_AUXILIARY_SEND_FILTER, 0, 0, AL_FILTER_NULL);*/
        }

        /* Non-3D sources aren't distance attenuated */
        This->ds3dmode = DS3DMODE_DISABLE;
        alSource3f(source, AL_POSITION, 0.0f, 1.0f, 0.0f);
        alSource3f(source, AL_VELOCITY, 0.0f, 0.0f, 0.0f);
        alSource3f(source, AL_DIRECTION, 0.0f, 0.0f, 0.0f);
        alSourcef(source, AL_CONE_OUTER_GAIN, 1.0f);
        alSourcef(source, AL_REFERENCE_DISTANCE, 1.0f);
        alSourcef(source, AL_MAX_DISTANCE, 1000.0f);
        alSourcef(source, AL_ROLLOFF_FACTOR, 0.0f);
        alSourcei(source, AL_CONE_INNER_ANGLE, 360);
        alSourcei(source, AL_CONE_OUTER_ANGLE, 360);
        alSourcei(source, AL_SOURCE_RELATIVE, AL_TRUE);
        getALError();
    }
    hr = S_OK;

out:
    popALContext();
    LeaveCriticalSection(This->crst);

    return hr;
}

static HRESULT WINAPI DS8Buffer_Lock(IDirectSoundBuffer8 *iface, DWORD ofs, DWORD bytes, void **ptr1, DWORD *len1, void **ptr2, DWORD *len2, DWORD flags)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    DWORD remain;

    TRACE("(%p)->(%u, %u, %p, %p, %p, %p, 0x%x)\n", This, ofs, bytes, ptr1, len1, ptr2, len2, flags);

    if(!ptr1 || !len1)
    {
        WARN("Invalid pointer/len %p %p\n", ptr1, len1);
        return DSERR_INVALIDPARAM;
    }

    *ptr1 = NULL;
    *len1 = 0;
    if(ptr2) *ptr2 = NULL;
    if(len2) *len2 = 0;

    if((flags&DSBLOCK_FROMWRITECURSOR))
        DS8Buffer_GetCurrentPosition(iface, NULL, &ofs);
    else if(ofs >= This->buffer->buf_size)
    {
        WARN("Invalid ofs %u\n", ofs);
        return DSERR_INVALIDPARAM;
    }
    if((flags&DSBLOCK_ENTIREBUFFER))
        bytes = This->buffer->buf_size;
    else if(bytes > This->buffer->buf_size)
    {
        WARN("Invalid size %u\n", bytes);
        return DSERR_INVALIDPARAM;
    }

    if(InterlockedExchange(&This->buffer->locked, TRUE) == TRUE)
    {
        WARN("Already locked\n");
        return DSERR_INVALIDPARAM;
    }

    *ptr1 = This->buffer->data + ofs;
    if(ofs+bytes >= This->buffer->buf_size)
    {
        *len1 = This->buffer->buf_size - ofs;
        remain = bytes - *len1;
    }
    else
    {
        *len1 = bytes;
        remain = 0;
    }

    if(ptr2 && len2 && remain)
    {
        *ptr2 = This->buffer->data;
        *len2 = remain;
    }

    return DS_OK;
}

static HRESULT WINAPI DS8Buffer_Play(IDirectSoundBuffer8 *iface, DWORD res1, DWORD prio, DWORD flags)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    ALint type, state = AL_STOPPED;
    HRESULT hr;
    (void)res1;

    TRACE("%p\n", This);

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    hr = DSERR_BUFFERLOST;
    if(This->bufferlost)
    {
        WARN("Buffer %p lost\n", This);
        goto out;
    }

    if((This->buffer->dsbflags&DSBCAPS_LOCDEFER))
    {
        if(!(This->buffer->dsbflags&(DSBCAPS_LOCHARDWARE|DSBCAPS_LOCSOFTWARE)))
        {
            if(flags & DSBPLAY_LOCSOFTWARE)
                This->buffer->dsbflags |= DSBCAPS_LOCSOFTWARE;
            else
                This->buffer->dsbflags |= DSBCAPS_LOCHARDWARE;
        }
    }
    else if(prio)
    {
        ERR("Invalid priority set for non-deferred buffer %p, %u!\n", This->buffer, prio);
        hr = DSERR_INVALIDPARAM;
        goto out;
    }

    alGetSourcei(This->source, AL_SOURCE_STATE, &state);
    if(This->buffer->numsegs > 1)
    {
        This->islooping = !!(flags&DSBPLAY_LOOPING);
        if(state != AL_PLAYING && This->isplaying)
            state = AL_PLAYING;
    }
    else
    {
        alGetSourcei(This->source, AL_SOURCE_TYPE, &type);
        alSourcei(This->source, AL_LOOPING, (flags&DSBPLAY_LOOPING) ? AL_TRUE : AL_FALSE);
    }
    getALError();

    hr = S_OK;
    if(state == AL_PLAYING)
        goto out;

    /* alSourceQueueBuffers will implicitly set type to streaming */
    if(This->buffer->numsegs == 1)
    {
        if(type != AL_STATIC)
            alSourcei(This->source, AL_BUFFER, This->buffer->buffers[0]);
        alSourcePlay(This->source);
    }
    if(alGetError() != AL_NO_ERROR)
    {
        ERR("Couldn't start source\n");
        This->curidx = (This->buffer->numsegs-1+This->curidx)%This->buffer->numsegs;
        alSourcei(This->source, AL_BUFFER, 0);
        getALError();
        hr = DSERR_GENERIC;
        goto out;
    }
    This->isplaying = TRUE;

    if(This->nnotify)
    {
        DS8Buffer_addnotify(This);
        DS8Buffer_starttimer(This->primary);
    }
    else if(This->buffer->numsegs > 1)
        DS8Buffer_starttimer(This->primary);

out:
    popALContext();
    LeaveCriticalSection(This->crst);
    return hr;
}

static HRESULT WINAPI DS8Buffer_SetCurrentPosition(IDirectSoundBuffer8 *iface, DWORD pos)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);

    TRACE("(%p)->(%u)\n", iface, (UINT)pos);

    if(pos >= This->buffer->buf_size)
        return DSERR_INVALIDPARAM;

    EnterCriticalSection(This->crst);

    if(This->buffer->numsegs > 1)
    {
        DS8Data *buf = This->buffer;
        This->curidx = pos/buf->segsize;
        if(This->curidx >= buf->numsegs)
            This->curidx = buf->numsegs - 1;
        if(This->isplaying)
        {
            setALContext(This->ctx);
            /* Perform a flush, so the next timer update will restart at the
             * proper position */
            alSourceStop(This->source);
            getALError();
            popALContext();
        }
    }
    else
    {
        setALContext(This->ctx);
        alSourcei(This->source, AL_BYTE_OFFSET, pos);
        popALContext();
    }
    This->lastpos = pos;

    LeaveCriticalSection(This->crst);
    return DS_OK;
}

static HRESULT WINAPI DS8Buffer_SetFormat(IDirectSoundBuffer8 *iface, const WAVEFORMATEX *wfx)
{
    /* This call only works on primary buffers */
    WARN("(%p)->(%p)\n", iface, wfx);
    return DSERR_INVALIDCALL;
}

static HRESULT WINAPI DS8Buffer_SetVolume(IDirectSoundBuffer8 *iface, LONG vol)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr = S_OK;

    TRACE("(%p)->(%d)\n", iface, vol);

    if(vol > DSBVOLUME_MAX || vol < DSBVOLUME_MIN)
    {
        WARN("Invalid volume (%d)\n", vol);
        return DSERR_INVALIDPARAM;
    }

    if(!(This->buffer->dsbflags&DSBCAPS_CTRLVOLUME))
        hr = DSERR_CONTROLUNAVAIL;
    if(SUCCEEDED(hr))
    {
        ALfloat fvol = mB_to_gain(vol);
        setALContext(This->ctx);
        alSourcef(This->source, AL_GAIN, fvol);
        popALContext();
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_SetPan(IDirectSoundBuffer8 *iface, LONG pan)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr = S_OK;

    TRACE("(%p)->(%d)\n", iface, pan);

    if(pan > DSBPAN_RIGHT || pan < DSBPAN_LEFT)
    {
        WARN("invalid parameter: pan = %d\n", pan);
        return DSERR_INVALIDPARAM;
    }

    if(!(This->buffer->dsbflags&DSBCAPS_CTRLPAN))
        hr = DSERR_CONTROLUNAVAIL;
    else
    {
        ALfloat pos[3];
        pos[0] = (pan-DSBPAN_LEFT) * 2.0 / (ALfloat)(DSBPAN_RIGHT-DSBPAN_LEFT) - 1.0;
        /* NOTE: Strict movement along the X plane can cause the sound to jump
         * between left and right sharply. Using a curved path helps smooth it
         * out */
        pos[1] = sqrt(1.0 - pos[0]*pos[0]);
        pos[2] = 0.0;

        setALContext(This->ctx);
        alSourcefv(This->source, AL_POSITION, pos);
        getALError();
        popALContext();

        if(pan != 0 && This->buffer->format.Format.nChannels > 1)
            FIXME("Panning for multi-channel buffers is not supported\n");
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_SetFrequency(IDirectSoundBuffer8 *iface, DWORD freq)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr = S_OK;

    TRACE("(%p)->(%u)\n", iface, freq);

    if(freq < DSBFREQUENCY_MIN || freq > DSBFREQUENCY_MAX)
    {
        WARN("invalid parameter: freq = %d\n", freq);
        return DSERR_INVALIDPARAM;
    }

    if(!(This->buffer->dsbflags&DSBCAPS_CTRLFREQUENCY))
        hr = DSERR_CONTROLUNAVAIL;
    else
    {
        ALfloat pitch = 1.0f;
        if(freq != DSBFREQUENCY_ORIGINAL)
            pitch = freq / (ALfloat)This->buffer->format.Format.nSamplesPerSec;

        setALContext(This->ctx);
        alSourcef(This->source, AL_PITCH, pitch);
        getALError();
        popALContext();
    }

    return hr;
}

static HRESULT WINAPI DS8Buffer_Stop(IDirectSoundBuffer8 *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    ALint state;

    TRACE("(%p)->()\n", iface);

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alSourcePause(This->source);
    getALError();
    /* Mac OS X doesn't immediately report state change
     * if Play() is immediately called after Stop, this can be fatal,
     * the buffer would never be restarted
     */
    do {
        state = AL_PAUSED;
        alGetSourcei(This->source, AL_SOURCE_STATE, &state);
        if(state != AL_PLAYING)
            break;
        Sleep(1);
    } while(1);

    This->isplaying = FALSE;

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer_Unlock(IDirectSoundBuffer8 *iface, void *ptr1, DWORD len1, void *ptr2, DWORD len2)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    DS8Data *buf = This->buffer;
    DWORD bufsize = buf->buf_size;
    DWORD_PTR ofs1, ofs2;
    DWORD_PTR boundary = (DWORD_PTR)buf->data;
    HRESULT hr;

    TRACE("(%p)->(%p, %u, %p, %u)\n", iface, ptr1, len1, ptr2, len2);

    if(InterlockedExchange(&This->buffer->locked, FALSE) == FALSE)
    {
        WARN("Not locked\n");
        return DSERR_INVALIDPARAM;
    }

    hr = DSERR_INVALIDPARAM;
    /* Make sure offset is between boundary and boundary + bufsize */
    ofs1 = (DWORD_PTR)ptr1;
    ofs2 = (DWORD_PTR)ptr2;
    if(ofs1 < boundary)
        goto out;
    if(ofs2 && ofs2 != boundary)
        goto out;
    ofs1 -= boundary;
    ofs2 = 0;
    if(bufsize-ofs1 < len1 || len2 > ofs1)
        goto out;
    if(!ptr2)
        len2 = 0;

    hr = DS_OK;
    if(!len1 && !len2)
        goto out;
    if(This->primary->SupportedExt[EXT_STATIC_BUFFER])
        goto out;

    setALContext(This->ctx);
    if(This->primary->SupportedExt[SOFT_BUFFER_SAMPLES])
    {
        const WAVEFORMATEX *format = &buf->format.Format;

        ptr1 = (BYTE*)ptr1 - (ofs1%format->nBlockAlign);
        ofs1 /= format->nBlockAlign;
        len1 /= format->nBlockAlign;
        if(len1 > 0)
            This->ExtAL->BufferSubSamplesSOFT(buf->buffers[0], ofs1, len1,
                                              buf->in_chans, buf->in_type, ptr1);
        ptr2 = (BYTE*)ptr2 - (ofs2%format->nBlockAlign);
        ofs2 /= format->nBlockAlign;
        len2 /= format->nBlockAlign;
        if(len2 > 0)
            This->ExtAL->BufferSubSamplesSOFT(buf->buffers[0], ofs2, len2,
                                              buf->in_chans, buf->in_type, ptr2);
        getALError();
    }
    else if(This->primary->SupportedExt[SOFT_BUFFER_SUB_DATA])
    {
        const WAVEFORMATEX *format = &buf->format.Format;

        len1 -= len1%format->nBlockAlign;
        if(len1 > 0)
            This->ExtAL->BufferSubData(buf->buffers[0], buf->buf_format, ptr1,
                                       ofs1, len1);
        len2 -= len2%format->nBlockAlign;
        if(len2 > 0)
            This->ExtAL->BufferSubData(buf->buffers[0], buf->buf_format, ptr2,
                                       ofs2, len2);
        getALError();
    }
    else
    {
        alBufferData(buf->buffers[0], buf->buf_format,
                     buf->data, buf->buf_size,
                     buf->format.Format.nSamplesPerSec);
        getALError();
    }
    popALContext();

out:
    if(hr != S_OK)
        WARN("Invalid parameters (0x%lx,%u) (%p,%u,%p,%u)\n", boundary, bufsize, ptr1, len1, ptr2, len2);
    return hr;
}

static HRESULT WINAPI DS8Buffer_Restore(IDirectSoundBuffer8 *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    HRESULT hr;

    TRACE("(%p)->()\n", iface);

    EnterCriticalSection(This->crst);
    if(This->primary->parent->prio_level < DSSCL_WRITEPRIMARY ||
       iface == This->primary->write_emu)
    {
        This->bufferlost = 0;
        hr = S_OK;
    }
    else
        hr = DSERR_BUFFERLOST;
    LeaveCriticalSection(This->crst);

    return hr;
}

static HRESULT WINAPI DS8Buffer_SetFX(IDirectSoundBuffer8 *iface, DWORD fxcount, DSEFFECTDESC *desc, DWORD *rescodes)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);
    DWORD i;

    TRACE("(%p)->(%u, %p, %p)\n", This, fxcount, desc, rescodes);

    if(!(This->buffer->dsbflags&DSBCAPS_CTRLFX))
    {
        WARN("FX control not set\n");
        return DSERR_CONTROLUNAVAIL;
    }

    if(fxcount == 0)
    {
        if(desc || rescodes)
        {
            WARN("Non-NULL desc and/or result pointer specified with no effects.\n");
            return DSERR_INVALIDPARAM;
        }

        /* No effects; we can handle that */
        return DS_OK;
    }

    if(!desc || !rescodes)
    {
        WARN("NULL desc and/or result pointer specified.\n");
        return DSERR_INVALIDPARAM;
    }

    /* We don't (currently) handle DSound effects */
    for(i = 0;i < fxcount;++i)
    {
        FIXME("Cannot handle effect: %s\n", debugstr_guid(&desc[i].guidDSFXClass));
        rescodes[i] = DSFXR_FAILED;
    }

    return DS_INCOMPLETE;
}

static HRESULT WINAPI DS8Buffer_AcquireResources(IDirectSoundBuffer8 *iface, DWORD flags, DWORD fxcount, DWORD *rescodes)
{
    DS8Buffer *This = impl_from_IDirectSoundBuffer8(iface);

    TRACE("(%p)->(%u, %u, %p)\n", This, flags, fxcount, rescodes);

    /* effects aren't supported at the moment.. */
    if(fxcount != 0 || rescodes)
    {
        WARN("Non-zero effect count and/or result pointer specified with no effects.\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if((This->buffer->dsbflags&DSBCAPS_LOCDEFER))
    {
        This->buffer->dsbflags &= ~(DSBCAPS_LOCSOFTWARE|DSBCAPS_LOCHARDWARE);
        if((flags&DSBPLAY_LOCSOFTWARE))
            This->buffer->dsbflags |= DSBCAPS_LOCSOFTWARE;
        else
            This->buffer->dsbflags |= DSBCAPS_LOCHARDWARE;
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer_GetObjectInPath(IDirectSoundBuffer8 *iface, REFGUID guid, DWORD idx, REFGUID rguidiface, void **ppv)
{
    FIXME("(%p)->(%s, %u, %s, %p) : stub!\n", iface, debugstr_guid(guid), idx, debugstr_guid(rguidiface), ppv);
    return E_NOTIMPL;
}

static const IDirectSoundBuffer8Vtbl DS8Buffer_Vtbl =
{
    DS8Buffer_QueryInterface,
    DS8Buffer_AddRef,
    DS8Buffer_Release,
    DS8Buffer_GetCaps,
    DS8Buffer_GetCurrentPosition,
    DS8Buffer_GetFormat,
    DS8Buffer_GetVolume,
    DS8Buffer_GetPan,
    DS8Buffer_GetFrequency,
    DS8Buffer_GetStatus,
    DS8Buffer_Initialize,
    DS8Buffer_Lock,
    DS8Buffer_Play,
    DS8Buffer_SetCurrentPosition,
    DS8Buffer_SetFormat,
    DS8Buffer_SetVolume,
    DS8Buffer_SetPan,
    DS8Buffer_SetFrequency,
    DS8Buffer_Stop,
    DS8Buffer_Unlock,
    DS8Buffer_Restore,
    DS8Buffer_SetFX,
    DS8Buffer_AcquireResources,
    DS8Buffer_GetObjectInPath
};


static HRESULT WINAPI DS8Buffer3D_QueryInterface(IDirectSound3DBuffer *iface, REFIID riid, void **ppv)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    return IDirectSoundBuffer8_QueryInterface(&This->IDirectSoundBuffer8_iface, riid, ppv);
}

static ULONG WINAPI DS8Buffer3D_AddRef(IDirectSound3DBuffer *iface)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    LONG ret;

    InterlockedIncrement(&This->all_ref);
    ret = InterlockedIncrement(&This->ds3d_ref);
    TRACE("new refcount %d\n", ret);

    return ret;
}

static ULONG WINAPI DS8Buffer3D_Release(IDirectSound3DBuffer *iface)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    LONG ret;

    ret = InterlockedDecrement(&This->ds3d_ref);
    TRACE("new refcount %d\n", ret);
    if(InterlockedDecrement(&This->all_ref) == 0)
        DS8Buffer_Destroy(This);

    return ret;
}

static HRESULT WINAPI DS8Buffer3D_GetAllParameters(IDirectSound3DBuffer *iface, DS3DBUFFER *ds3dbuffer)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    DS3DBUFFER ds3dbuf;
    HRESULT hr;

    TRACE("%p\n", This);

    if(!ds3dbuffer || ds3dbuffer->dwSize < sizeof(*ds3dbuffer))
    {
        WARN("Invalid parameters %p %u\n", ds3dbuffer, ds3dbuffer ? ds3dbuffer->dwSize : 0);
        return DSERR_INVALIDPARAM;
    }
    ds3dbuf.dwSize = sizeof(ds3dbuf);

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    hr = IDirectSound3DBuffer_GetPosition(iface, &ds3dbuf.vPosition);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetVelocity(iface, &ds3dbuf.vVelocity);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetConeAngles(iface, &ds3dbuf.dwInsideConeAngle, &ds3dbuf.dwOutsideConeAngle);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetConeOrientation(iface, &ds3dbuf.vConeOrientation);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetConeOutsideVolume(iface, &ds3dbuf.lConeOutsideVolume);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetMinDistance(iface, &ds3dbuf.flMinDistance);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetMaxDistance(iface, &ds3dbuf.flMaxDistance);
    if(SUCCEEDED(hr))
        hr = IDirectSound3DBuffer_GetMode(iface, &ds3dbuf.dwMode);
    if(SUCCEEDED(hr))
        memcpy(ds3dbuffer, &ds3dbuf, sizeof(ds3dbuf));

    popALContext();
    LeaveCriticalSection(This->crst);

    return hr;
}

static HRESULT WINAPI DS8Buffer3D_GetConeAngles(IDirectSound3DBuffer *iface, DWORD *pdwInsideConeAngle, DWORD *pdwOutsideConeAngle)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALint inangle, outangle;

    TRACE("(%p)->(%p, %p)\n", This, pdwInsideConeAngle, pdwOutsideConeAngle);
    if(!pdwInsideConeAngle || !pdwOutsideConeAngle)
    {
        WARN("Invalid pointers (%p, %p)\n", pdwInsideConeAngle, pdwOutsideConeAngle);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcei(This->source, AL_CONE_INNER_ANGLE, &inangle);
    alGetSourcei(This->source, AL_CONE_OUTER_ANGLE, &outangle);
    getALError();
    *pdwInsideConeAngle = inangle;
    *pdwOutsideConeAngle = outangle;

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetConeOrientation(IDirectSound3DBuffer *iface, D3DVECTOR *orient)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat dir[3];

    TRACE("(%p)->(%p)\n", This, orient);
    if(!orient)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcefv(This->source, AL_DIRECTION, dir);
    getALError();
    orient->x =  dir[0];
    orient->y =  dir[1];
    orient->z = -dir[2];

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetConeOutsideVolume(IDirectSound3DBuffer *iface, LONG *vol)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat gain;

    TRACE("(%p)->(%p)\n", This, vol);
    if(!vol)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcef(This->source, AL_CONE_OUTER_GAIN, &gain);
    getALError();

    popALContext();
    LeaveCriticalSection(This->crst);

    *vol = clampI(gain_to_mB(gain), DSBVOLUME_MIN, DSBVOLUME_MAX);
    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetMaxDistance(IDirectSound3DBuffer *iface, D3DVALUE *maxdist)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat dist;

    TRACE("(%p)->(%p)\n", This, maxdist);
    if(!maxdist)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcef(This->source, AL_MAX_DISTANCE, &dist);
    getALError();

    popALContext();
    LeaveCriticalSection(This->crst);

    *maxdist = dist;
    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetMinDistance(IDirectSound3DBuffer *iface, D3DVALUE *mindist)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat dist;

    TRACE("(%p)->(%p)\n", This, mindist);
    if(!mindist)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcef(This->source, AL_REFERENCE_DISTANCE, &dist);
    getALError();
    *mindist = dist;

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetMode(IDirectSound3DBuffer *iface, DWORD *mode)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%p)\n", This, mode);
    if(!mode)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    *mode = This->ds3dmode;
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetPosition(IDirectSound3DBuffer *iface, D3DVECTOR *pos)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat alpos[3];

    TRACE("(%p)->(%p)\n", This, pos);
    if(!pos)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcefv(This->source, AL_POSITION, alpos);
    getALError();
    pos->x =  alpos[0];
    pos->y =  alpos[1];
    pos->z = -alpos[2];

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_GetVelocity(IDirectSound3DBuffer *iface, D3DVECTOR *vel)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    ALfloat alvel[3];

    TRACE("(%p)->(%p)\n", This, vel);
    if(!vel)
    {
        WARN("Invalid pointer\n");
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);

    alGetSourcefv(This->source, AL_VELOCITY, alvel);
    getALError();
    vel->x =  alvel[0];
    vel->y =  alvel[1];
    vel->z = -alvel[2];

    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetAllParameters(IDirectSound3DBuffer *iface, const DS3DBUFFER *ds3dbuffer, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);
    TRACE("(%p)->(%p, %u)\n", This, ds3dbuffer, apply);

    if(!ds3dbuffer || ds3dbuffer->dwSize < sizeof(*ds3dbuffer))
    {
        WARN("Invalid DS3DBUFFER (%p, %u)\n", ds3dbuffer, ds3dbuffer ? ds3dbuffer->dwSize : 0);
        return DSERR_INVALIDPARAM;
    }

    if(ds3dbuffer->dwInsideConeAngle > DS3D_MAXCONEANGLE ||
       ds3dbuffer->dwOutsideConeAngle > DS3D_MAXCONEANGLE)
    {
        WARN("Invalid cone angles (%u, %u)\n", ds3dbuffer->dwInsideConeAngle,
                                               ds3dbuffer->dwOutsideConeAngle);
        return DSERR_INVALIDPARAM;
    }

    if(ds3dbuffer->lConeOutsideVolume > DSBVOLUME_MAX ||
       ds3dbuffer->lConeOutsideVolume < DSBVOLUME_MIN)
    {
        WARN("Invalid cone outside volume (%d)\n", ds3dbuffer->lConeOutsideVolume);
        return DSERR_INVALIDPARAM;
    }

    if(ds3dbuffer->flMaxDistance < 0.0f)
    {
        WARN("Invalid max distance (%f)\n", ds3dbuffer->flMaxDistance);
        return DSERR_INVALIDPARAM;
    }

    if(ds3dbuffer->flMinDistance < 0.0f)
    {
        WARN("Invalid min distance (%f)\n", ds3dbuffer->flMinDistance);
        return DSERR_INVALIDPARAM;
    }

    if(ds3dbuffer->dwMode != DS3DMODE_NORMAL &&
       ds3dbuffer->dwMode != DS3DMODE_HEADRELATIVE &&
       ds3dbuffer->dwMode != DS3DMODE_DISABLE)
    {
        WARN("Invalid mode (%u)\n", ds3dbuffer->dwMode);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    setALContext(This->ctx);
    IDirectSound3DBuffer_SetPosition(iface, ds3dbuffer->vPosition.x, ds3dbuffer->vPosition.y, ds3dbuffer->vPosition.z, apply);
    IDirectSound3DBuffer_SetVelocity(iface, ds3dbuffer->vVelocity.x, ds3dbuffer->vVelocity.y, ds3dbuffer->vVelocity.z, apply);
    IDirectSound3DBuffer_SetConeAngles(iface, ds3dbuffer->dwInsideConeAngle, ds3dbuffer->dwOutsideConeAngle, apply);
    IDirectSound3DBuffer_SetConeOrientation(iface, ds3dbuffer->vConeOrientation.x, ds3dbuffer->vConeOrientation.y, ds3dbuffer->vConeOrientation.z, apply);
    IDirectSound3DBuffer_SetConeOutsideVolume(iface, ds3dbuffer->lConeOutsideVolume, apply);
    IDirectSound3DBuffer_SetMinDistance(iface, ds3dbuffer->flMinDistance, apply);
    IDirectSound3DBuffer_SetMaxDistance(iface, ds3dbuffer->flMaxDistance, apply);
    IDirectSound3DBuffer_SetMode(iface, ds3dbuffer->dwMode, apply);
    popALContext();
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetConeAngles(IDirectSound3DBuffer *iface, DWORD dwInsideConeAngle, DWORD dwOutsideConeAngle, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%u, %u, %u)\n", This, dwInsideConeAngle, dwOutsideConeAngle, apply);
    if(dwInsideConeAngle > DS3D_MAXCONEANGLE ||
       dwOutsideConeAngle > DS3D_MAXCONEANGLE)
    {
        WARN("Invalid cone angles (%u, %u)\n", dwInsideConeAngle, dwOutsideConeAngle);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.dwInsideConeAngle = dwInsideConeAngle;
        This->ds3dbuffer.dwOutsideConeAngle = dwOutsideConeAngle;
        This->dirty.bit.cone_angles = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSourcei(This->source, AL_CONE_INNER_ANGLE, dwInsideConeAngle);
        alSourcei(This->source, AL_CONE_OUTER_ANGLE, dwOutsideConeAngle);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetConeOrientation(IDirectSound3DBuffer *iface, D3DVALUE x, D3DVALUE y, D3DVALUE z, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%f, %f, %f, %u)\n", This, x, y, z, apply);

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.vConeOrientation.x = x;
        This->ds3dbuffer.vConeOrientation.y = y;
        This->ds3dbuffer.vConeOrientation.z = z;
        This->dirty.bit.cone_orient = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSource3f(This->source, AL_DIRECTION, x, y, -z);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetConeOutsideVolume(IDirectSound3DBuffer *iface, LONG vol, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%u, %u)\n", This, vol, apply);
    if(vol < DSBVOLUME_MIN || vol > DSBVOLUME_MAX)
    {
        WARN("Invalid volume (%u)\n", vol);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.lConeOutsideVolume = vol;
        This->dirty.bit.cone_outsidevolume = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSourcef(This->source, AL_CONE_OUTER_GAIN, mB_to_gain(vol));
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetMaxDistance(IDirectSound3DBuffer *iface, D3DVALUE maxdist, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%f, %u)\n", This, maxdist, apply);
    if(maxdist < 0.0f)
    {
        WARN("Invalid max distance (%f)\n", maxdist);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.flMaxDistance = maxdist;
        This->dirty.bit.max_distance = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSourcef(This->source, AL_MAX_DISTANCE, maxdist);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetMinDistance(IDirectSound3DBuffer *iface, D3DVALUE mindist, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%f, %u)\n", This, mindist, apply);
    if(mindist < 0.0f)
    {
        WARN("Invalid min distance (%f)\n", mindist);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.flMinDistance = mindist;
        This->dirty.bit.min_distance = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSourcef(This->source, AL_REFERENCE_DISTANCE, mindist);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetMode(IDirectSound3DBuffer *iface, DWORD mode, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%u, %u)\n", This, mode, apply);
    if(mode != DS3DMODE_NORMAL && mode != DS3DMODE_HEADRELATIVE &&
       mode != DS3DMODE_DISABLE)
    {
        WARN("Invalid mode (%u)\n", mode);
        return DSERR_INVALIDPARAM;
    }

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.dwMode = mode;
        This->dirty.bit.mode = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSourcei(This->source, AL_SOURCE_RELATIVE,
                  (mode != DS3DMODE_NORMAL) ? AL_TRUE : AL_FALSE);
        alSourcef(This->source, AL_ROLLOFF_FACTOR,
                  (mode == DS3DMODE_DISABLE) ? 0.0f : This->primary->rollofffactor);
        This->ds3dmode = mode;
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetPosition(IDirectSound3DBuffer *iface, D3DVALUE x, D3DVALUE y, D3DVALUE z, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%f, %f, %f, %u)\n", This, x, y, z, apply);

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.vPosition.x = x;
        This->ds3dbuffer.vPosition.y = y;
        This->ds3dbuffer.vPosition.z = z;
        This->dirty.bit.pos = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSource3f(This->source, AL_POSITION, x, y, -z);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static HRESULT WINAPI DS8Buffer3D_SetVelocity(IDirectSound3DBuffer *iface, D3DVALUE x, D3DVALUE y, D3DVALUE z, DWORD apply)
{
    DS8Buffer *This = impl_from_IDirectSound3DBuffer(iface);

    TRACE("(%p)->(%f, %f, %f, %u)\n", This, x, y, z, apply);

    EnterCriticalSection(This->crst);
    if(apply == DS3D_DEFERRED)
    {
        This->ds3dbuffer.vVelocity.x = x;
        This->ds3dbuffer.vVelocity.y = y;
        This->ds3dbuffer.vVelocity.z = z;
        This->dirty.bit.vel = 1;
    }
    else
    {
        setALContext(This->ctx);
        alSource3f(This->source, AL_VELOCITY, x, y, -z);
        getALError();
        popALContext();
    }
    LeaveCriticalSection(This->crst);

    return S_OK;
}

static const IDirectSound3DBufferVtbl DS8Buffer3d_Vtbl =
{
    DS8Buffer3D_QueryInterface,
    DS8Buffer3D_AddRef,
    DS8Buffer3D_Release,
    DS8Buffer3D_GetAllParameters,
    DS8Buffer3D_GetConeAngles,
    DS8Buffer3D_GetConeOrientation,
    DS8Buffer3D_GetConeOutsideVolume,
    DS8Buffer3D_GetMaxDistance,
    DS8Buffer3D_GetMinDistance,
    DS8Buffer3D_GetMode,
    DS8Buffer3D_GetPosition,
    DS8Buffer3D_GetVelocity,
    DS8Buffer3D_SetAllParameters,
    DS8Buffer3D_SetConeAngles,
    DS8Buffer3D_SetConeOrientation,
    DS8Buffer3D_SetConeOutsideVolume,
    DS8Buffer3D_SetMaxDistance,
    DS8Buffer3D_SetMinDistance,
    DS8Buffer3D_SetMode,
    DS8Buffer3D_SetPosition,
    DS8Buffer3D_SetVelocity
};


static HRESULT WINAPI DS8BufferNot_QueryInterface(IDirectSoundNotify *iface, REFIID riid, void **ppv)
{
    DS8Buffer *This = impl_from_IDirectSoundNotify(iface);
    return IDirectSoundBuffer8_QueryInterface(&This->IDirectSoundBuffer8_iface, riid, ppv);
}

static ULONG WINAPI DS8BufferNot_AddRef(IDirectSoundNotify *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundNotify(iface);
    LONG ret;

    InterlockedIncrement(&This->all_ref);
    ret = InterlockedIncrement(&This->not_ref);
    TRACE("new refcount %d\n", ret);

    return ret;
}

static ULONG WINAPI DS8BufferNot_Release(IDirectSoundNotify *iface)
{
    DS8Buffer *This = impl_from_IDirectSoundNotify(iface);
    LONG ret;

    ret = InterlockedDecrement(&This->not_ref);
    TRACE("new refcount %d\n", ret);
    if(InterlockedDecrement(&This->all_ref) == 0)
        DS8Buffer_Destroy(This);

    return ret;
}

static HRESULT WINAPI DS8BufferNot_SetNotificationPositions(IDirectSoundNotify *iface, DWORD count, const DSBPOSITIONNOTIFY *notifications)
{
    DS8Buffer *This = impl_from_IDirectSoundNotify(iface);
    DSBPOSITIONNOTIFY *nots;
    DWORD state;
    HRESULT hr;

    EnterCriticalSection(This->crst);
    hr = DSERR_INVALIDPARAM;
    if(count && !notifications)
        goto out;

    hr = IDirectSoundBuffer8_GetStatus(&This->IDirectSoundBuffer8_iface, &state);
    if(FAILED(hr))
        goto out;

    hr = DSERR_INVALIDCALL;
    if((state&DSBSTATUS_PLAYING))
        goto out;

    if(!count)
    {
        HeapFree(GetProcessHeap(), 0, This->notify);
        This->notify = 0;
        This->nnotify = 0;
        hr = S_OK;
    }
    else
    {
        DWORD i;

        hr = DSERR_INVALIDPARAM;
        for(i = 0;i < count;++i)
        {
            if(notifications[i].dwOffset >= This->buffer->buf_size &&
               notifications[i].dwOffset != (DWORD)DSBPN_OFFSETSTOP)
                goto out;
        }

        hr = E_OUTOFMEMORY;
        nots = HeapAlloc(GetProcessHeap(), 0, count*sizeof(*nots));
        if(!nots)
            goto out;
        memcpy(nots, notifications, count*sizeof(*nots));

        HeapFree(GetProcessHeap(), 0, This->notify);
        This->notify = nots;
        This->nnotify = count;

        hr = S_OK;
    }

out:
    LeaveCriticalSection(This->crst);
    return hr;
}

static const IDirectSoundNotifyVtbl DS8BufferNot_Vtbl =
{
    DS8BufferNot_QueryInterface,
    DS8BufferNot_AddRef,
    DS8BufferNot_Release,
    DS8BufferNot_SetNotificationPositions
};


static HRESULT WINAPI DS8BufferProp_QueryInterface(IKsPropertySet *iface, REFIID riid, void **ppv)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    return IDirectSoundBuffer8_QueryInterface(&This->IDirectSoundBuffer8_iface, riid, ppv);
}

static ULONG WINAPI DS8BufferProp_AddRef(IKsPropertySet *iface)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    LONG ret;

    InterlockedIncrement(&This->all_ref);
    ret = InterlockedIncrement(&This->prop_ref);
    TRACE("new refcount %d\n", ret);

    return ret;
}

static ULONG WINAPI DS8BufferProp_Release(IKsPropertySet *iface)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    LONG ret;

    ret = InterlockedDecrement(&This->prop_ref);
    TRACE("new refcount %d\n", ret);
    if(InterlockedDecrement(&This->all_ref) == 0)
        DS8Buffer_Destroy(This);

    return ret;
}

/* NOTE: Due to some apparent quirks in DSound, the listener properties are
         handled through secondary buffers. */
static HRESULT WINAPI DS8BufferProp_Get(IKsPropertySet *iface,
  REFGUID guidPropSet, ULONG dwPropID,
  LPVOID pInstanceData, ULONG cbInstanceData,
  LPVOID pPropData, ULONG cbPropData,
  PULONG pcbReturned)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    HRESULT hr = E_PROP_ID_UNSUPPORTED;

    TRACE("(%p)->(%s, %u, %p, %u, %p, %u, %p)\n", iface, debugstr_guid(guidPropSet),
          dwPropID, pInstanceData, cbInstanceData, pPropData, cbPropData, pcbReturned);

    if(!pcbReturned)
        return E_POINTER;
    *pcbReturned = 0;

#if 0
    if(IsEqualIID(guidPropSet, &DSPROPSETID_EAX20_BufferProperties))
    {
    }
    else
#endif
    {
        /* Not a known buffer/source property. Pass it to the listener */
        hr = IKsPropertySet_Get(&This->primary->IKsPropertySet_iface, guidPropSet,
                                dwPropID, pInstanceData, cbInstanceData, pPropData, cbPropData,
                                pcbReturned);
    }

    return hr;
}

static HRESULT WINAPI DS8BufferProp_Set(IKsPropertySet *iface,
  REFGUID guidPropSet, ULONG dwPropID,
  LPVOID pInstanceData, ULONG cbInstanceData,
  LPVOID pPropData, ULONG cbPropData)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    HRESULT hr = E_PROP_ID_UNSUPPORTED;

    TRACE("(%p)->(%s, %u, %p, %u, %p, %u)\n", iface, debugstr_guid(guidPropSet),
          dwPropID, pInstanceData, cbInstanceData, pPropData, cbPropData);

#if 0
    if(IsEqualIID(guidPropSet, &DSPROPSETID_EAX20_BufferProperties))
    {
    }
    else
#endif
    {
        /* Not a known buffer/source property. Pass it to the listener */
        hr = IKsPropertySet_Set(&This->primary->IKsPropertySet_iface, guidPropSet,
                                dwPropID, pInstanceData, cbInstanceData, pPropData,
                                cbPropData);
    }

    return hr;
}

static HRESULT WINAPI DS8BufferProp_QuerySupport(IKsPropertySet *iface,
  REFGUID guidPropSet, ULONG dwPropID,
  PULONG pTypeSupport)
{
    DS8Buffer *This = impl_from_IKsPropertySet(iface);
    HRESULT hr = E_PROP_ID_UNSUPPORTED;

    TRACE("(%p)->(%s, %u, %p)\n", iface, debugstr_guid(guidPropSet), dwPropID, pTypeSupport);

    if(!pTypeSupport)
        return E_POINTER;
    *pTypeSupport = 0;

#if 0
    if(IsEqualIID(guidPropSet, &DSPROPSETID_EAX20_BufferProperties))
    {
    }
    else
#endif
    {
        /* Not a known buffer/source property. Pass it to the listener */
        hr = IKsPropertySet_QuerySupport(&This->primary->IKsPropertySet_iface,
                                         guidPropSet, dwPropID, pTypeSupport);
    }

    return hr;
}

static const IKsPropertySetVtbl DS8BufferProp_Vtbl =
{
    DS8BufferProp_QueryInterface,
    DS8BufferProp_AddRef,
    DS8BufferProp_Release,
    DS8BufferProp_Get,
    DS8BufferProp_Set,
    DS8BufferProp_QuerySupport
};