wine/include/mfobjects.idl
Jactry Zeng 645cf84677 mfplat: Implement MFCreateDXGIDeviceManager().
Signed-off-by: Jactry Zeng <jzeng@codeweavers.com>
Signed-off-by: Nikolay Sivov <nsivov@codeweavers.com>
Signed-off-by: Alexandre Julliard <julliard@winehq.org>
2019-08-30 20:00:29 +02:00

746 lines
26 KiB
Text

/*
* Copyright 2015 Jacek Caban for CodeWeavers
*
* 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
*/
import "unknwn.idl";
import "propsys.idl";
import "mediaobj.idl";
cpp_quote("#include <mmreg.h>")
#include <mmreg.h>
typedef ULONGLONG QWORD;
typedef enum _MF_ATTRIBUTE_TYPE {
MF_ATTRIBUTE_UINT32 = VT_UI4,
MF_ATTRIBUTE_UINT64 = VT_UI8,
MF_ATTRIBUTE_DOUBLE = VT_R8,
MF_ATTRIBUTE_GUID = VT_CLSID,
MF_ATTRIBUTE_STRING = VT_LPWSTR,
MF_ATTRIBUTE_BLOB = VT_VECTOR | VT_UI1,
MF_ATTRIBUTE_IUNKNOWN = VT_UNKNOWN
} MF_ATTRIBUTE_TYPE;
typedef enum _MF_ATTRIBUTES_MATCH_TYPE {
MF_ATTRIBUTES_MATCH_OUR_ITEMS = 0,
MF_ATTRIBUTES_MATCH_THEIR_ITEMS = 1,
MF_ATTRIBUTES_MATCH_ALL_ITEMS = 2,
MF_ATTRIBUTES_MATCH_INTERSECTION = 3,
MF_ATTRIBUTES_MATCH_SMALLER = 4
} MF_ATTRIBUTES_MATCH_TYPE;
[
object,
uuid(2cd2d921-c447-44a7-a13c-4adabfc247e3)
]
interface IMFAttributes : IUnknown
{
HRESULT GetItem(REFGUID guidKey, [in, out, ptr] PROPVARIANT *pValue);
HRESULT GetItemType(REFGUID guidKey, [out] MF_ATTRIBUTE_TYPE *pType);
HRESULT CompareItem(REFGUID guidKey, REFPROPVARIANT Value, [out] BOOL *pbResult);
HRESULT Compare(IMFAttributes *pTheirs, MF_ATTRIBUTES_MATCH_TYPE MatchType, [out] BOOL *pbResult);
HRESULT GetUINT32(REFGUID guidKey, [out] UINT32 *punValue);
HRESULT GetUINT64(REFGUID guidKey, [out] UINT64 *punValue);
HRESULT GetDouble(REFGUID guidKey, [out] double *pfValue);
HRESULT GetGUID(REFGUID guidKey, [out] GUID *pguidValue);
HRESULT GetStringLength(REFGUID guidKey, [out] UINT32 *pcchLength);
HRESULT GetString(REFGUID guidKey, [out, size_is(cchBufSize)] LPWSTR pwszValue, UINT32 cchBufSize,
[in, out, ptr] UINT32 *pcchLength);
HRESULT GetAllocatedString(REFGUID guidKey, [out, size_is(,*pcchLength+1)] LPWSTR *ppwszValue,
[out] UINT32 *pcchLength);
HRESULT GetBlobSize(REFGUID guidKey, [out] UINT32 *pcbBlobSize);
HRESULT GetBlob(REFGUID guidKey, [out, size_is(cbBufSize)] UINT8 *pBuf, UINT32 cbBufSize,
[in, out, ptr] UINT32 *pcbBlobSize);
HRESULT GetAllocatedBlob(REFGUID guidKey, [out, size_is(,*pcbSize)] UINT8 **ppBuf, [out] UINT32 *pcbSize);
HRESULT GetUnknown(REFGUID guidKey, REFIID riid, [out, iid_is(riid)] LPVOID *ppv);
HRESULT SetItem(REFGUID guidKey, REFPROPVARIANT Value);
HRESULT DeleteItem(REFGUID guidKey);
HRESULT DeleteAllItems();
HRESULT SetUINT32(REFGUID guidKey, UINT32 unValue);
HRESULT SetUINT64(REFGUID guidKey, UINT64 unValue);
HRESULT SetDouble(REFGUID guidKey, double fValue);
HRESULT SetGUID(REFGUID guidKey, REFGUID guidValue);
HRESULT SetString(REFGUID guidKey, [in, string] LPCWSTR wszValue);
HRESULT SetBlob(REFGUID guidKey, [in, size_is(cbBufSize)] const UINT8* pBuf, UINT32 cbBufSize);
HRESULT SetUnknown(REFGUID guidKey, [in] IUnknown *pUnknown);
HRESULT LockStore();
HRESULT UnlockStore();
HRESULT GetCount([out] UINT32 *pcItems);
HRESULT GetItemByIndex(UINT32 unIndex, [out] GUID *pguidKey, [in, out, ptr] PROPVARIANT *pValue);
HRESULT CopyAllItems([in] IMFAttributes *pDest);
}
enum MF_ATTRIBUTE_SERIALIZE_OPTIONS {
MF_ATTRIBUTE_SERIALIZE_UNKNOWN_BYREF = 0x00000001
};
[
object,
uuid(045fa593-8799-42b8-bc8d-8968c6453507),
local
]
interface IMFMediaBuffer : IUnknown
{
HRESULT Lock([out] BYTE **ppbBuffer, [out] DWORD *pcbMaxLength, [out] DWORD *pcbCurrentLength);
HRESULT Unlock();
HRESULT GetCurrentLength([out] DWORD *pcbCurrentLength);
HRESULT SetCurrentLength([in] DWORD cbCurrentLength);
HRESULT GetMaxLength([out] DWORD *pcbMaxLength);
}
[
object,
uuid(c40a00f2-b93a-4d80-ae8c-5a1c634f58e4),
local
]
interface IMFSample : IMFAttributes
{
HRESULT GetSampleFlags([out] DWORD *pdwSampleFlags);
HRESULT SetSampleFlags([in] DWORD dwSampleFlags);
HRESULT GetSampleTime([out] LONGLONG *phnsSampleTime);
HRESULT SetSampleTime([in] LONGLONG hnsSampleTime);
HRESULT GetSampleDuration([out] LONGLONG *phnsSampleDuration);
HRESULT SetSampleDuration([in] LONGLONG hnsSampleDuration);
HRESULT GetBufferCount([out] DWORD *pdwBufferCount);
HRESULT GetBufferByIndex([in] DWORD dwIndex, [out] IMFMediaBuffer **ppBuffer);
HRESULT ConvertToContiguousBuffer([out] IMFMediaBuffer **ppBuffer);
HRESULT AddBuffer([in] IMFMediaBuffer *pBuffer);
HRESULT RemoveBufferByIndex([in] DWORD dwIndex);
HRESULT RemoveAllBuffers();
HRESULT GetTotalLength([out] DWORD *pcbTotalLength);
HRESULT CopyToBuffer([in] IMFMediaBuffer *pBuffer);
}
[
object,
uuid(7dc9d5f9-9ed9-44ec-9bbf-0600bb589fbb),
local
]
interface IMF2DBuffer : IUnknown
{
HRESULT Lock2D([out] BYTE **pbScanline0, [out] LONG *plPitch);
HRESULT Unlock2D();
HRESULT GetScanline0AndPitch([out] BYTE **pbScanline0, [out] LONG *plPitch);
HRESULT IsContiguousFormat([out] BOOL *pfIsContiguous);
HRESULT GetContiguousLength([out] DWORD *pcbLength);
HRESULT ContiguousCopyTo([out, size_is(cbDestBuffer)] BYTE *pbDestBuffer, [in] DWORD cbDestBuffer);
HRESULT ContiguousCopyFrom([in, size_is(cbSrcBuffer)] const BYTE *pbSrcBuffer, [in] DWORD cbSrcBuffer);
}
[
object,
uuid(44ae0fa8-ea31-4109-8d2e-4cae4997c555),
local
]
interface IMFMediaType : IMFAttributes
{
HRESULT GetMajorType([out] GUID *pguidMajorType);
HRESULT IsCompressedFormat([out] BOOL *pfCompressed);
HRESULT IsEqual([in] IMFMediaType *pIMediaType, [out] DWORD *pdwFlags);
HRESULT GetRepresentation([in] GUID guidRepresentation, [out] LPVOID *ppvRepresentation);
HRESULT FreeRepresentation([in] GUID guidRepresentation, [in] LPVOID pvRepresentation);
}
cpp_quote("#define MF_MEDIATYPE_EQUAL_MAJOR_TYPES 0x00000001")
cpp_quote("#define MF_MEDIATYPE_EQUAL_FORMAT_TYPES 0x00000002")
cpp_quote("#define MF_MEDIATYPE_EQUAL_FORMAT_DATA 0x00000004")
cpp_quote("#define MF_MEDIATYPE_EQUAL_FORMAT_USER_DATA 0x00000008")
[
object,
uuid(26a0adc3-ce26-4672-9304-69552edd3faf),
local
]
interface IMFAudioMediaType : IMFMediaType
{
const WAVEFORMATEX *GetAudioFormat();
}
typedef struct {
GUID guidMajorType;
GUID guidSubtype;
} MFT_REGISTER_TYPE_INFO;
typedef enum _MFVideoFlags {
MFVideoFlag_PAD_TO_Mask = 0x00000003,
MFVideoFlag_PAD_TO_None = 0,
MFVideoFlag_PAD_TO_4x3 = 0x00000001,
MFVideoFlag_PAD_TO_16x9 = 0x00000002,
MFVideoFlag_SrcContentHintMask = 0x0000001c,
MFVideoFlag_SrcContentHintNone = 0,
MFVideoFlag_SrcContentHint16x9 = 0x00000004,
MFVideoFlag_SrcContentHint235_1 = 0x00000008,
MFVideoFlag_AnalogProtected = 0x00000020,
MFVideoFlag_DigitallyProtected = 0x00000040,
MFVideoFlag_ProgressiveContent = 0x00000080,
MFVideoFlag_FieldRepeatCountMask = 0x00000700,
MFVideoFlag_FieldRepeatCountShift = 8,
MFVideoFlag_ProgressiveSeqReset = 0x00000800,
MFVideoFlag_PanScanEnabled = 0x00020000,
MFVideoFlag_LowerFieldFirst = 0x00040000,
MFVideoFlag_BottomUpLinearRep = 0x00080000,
MFVideoFlags_DXVASurface = 0x00100000,
MFVideoFlags_RenderTargetSurface = 0x00400000,
MFVideoFlags_ForceQWORD = 0x7fffffff
} MFVideoFlags;
typedef struct _MFRatio {
DWORD Numerator;
DWORD Denominator;
} MFRatio;
typedef struct _MFOffset {
WORD fract;
short value;
} MFOffset;
typedef struct _MFVideoArea {
MFOffset OffsetX;
MFOffset OffsetY;
SIZE Area;
} MFVideoArea;
typedef enum _MFVideoChromaSubsampling {
MFVideoChromaSubsampling_Unknown = 0,
MFVideoChromaSubsampling_ProgressiveChroma = 0x8,
MFVideoChromaSubsampling_Horizontally_Cosited = 0x4,
MFVideoChromaSubsampling_Vertically_Cosited = 0x2,
MFVideoChromaSubsampling_Vertically_AlignedChromaPlanes = 0x1,
MFVideoChromaSubsampling_MPEG2
= MFVideoChromaSubsampling_Horizontally_Cosited
| MFVideoChromaSubsampling_Vertically_AlignedChromaPlanes,
MFVideoChromaSubsampling_MPEG1
= MFVideoChromaSubsampling_Vertically_AlignedChromaPlanes,
MFVideoChromaSubsampling_DV_PAL
= MFVideoChromaSubsampling_Horizontally_Cosited
| MFVideoChromaSubsampling_Vertically_Cosited,
MFVideoChromaSubsampling_Cosited
= MFVideoChromaSubsampling_Horizontally_Cosited
| MFVideoChromaSubsampling_Vertically_Cosited
| MFVideoChromaSubsampling_Vertically_AlignedChromaPlanes,
MFVideoChromaSubsampling_Last = MFVideoChromaSubsampling_Cosited + 1,
MFVideoChromaSubsampling_ForceDWORD = 0x7fffffff
} MFVideoChromaSubsampling;
typedef enum _MFVideoInterlaceMode {
MFVideoInterlace_Unknown = 0,
MFVideoInterlace_Progressive = 2,
MFVideoInterlace_FieldInterleavedUpperFirst = 3,
MFVideoInterlace_FieldInterleavedLowerFirst = 4,
MFVideoInterlace_FieldSingleUpper = 5,
MFVideoInterlace_FieldSingleLower = 6,
MFVideoInterlace_MixedInterlaceOrProgressive = 7,
MFVideoInterlace_Last,
MFVideoInterlace_ForceDWORD = 0x7fffffff
} MFVideoInterlaceMode;
typedef enum _MFVideoTransferFunction {
MFVideoTransFunc_Unknown = 0,
MFVideoTransFunc_10 = 1,
MFVideoTransFunc_18 = 2,
MFVideoTransFunc_20 = 3,
MFVideoTransFunc_22 = 4,
MFVideoTransFunc_709 = 5,
MFVideoTransFunc_240M = 6,
MFVideoTransFunc_sRGB = 7,
MFVideoTransFunc_28 = 8,
MFVideoTransFunc_Log_100 = 9,
MFVideoTransFunc_Log_316 = 10,
MFVideoTransFunc_709_sym = 11,
MFVideoTransFunc_Last,
MFVideoTransFunc_ForceDWORD = 0x7fffffff
} MFVideoTransferFunction;
typedef enum _MFVideoTransferMatrix {
MFVideoTransferMatrix_Unknown = 0,
MFVideoTransferMatrix_BT709 = 1,
MFVideoTransferMatrix_BT601 = 2,
MFVideoTransferMatrix_SMPTE240M = 3,
MFVideoTransferMatrix_BT2020_10 = 4,
MFVideoTransferMatrix_BT2020_12 = 5,
MFVideoTransferMatrix_Last,
MFVideoTransferMatrix_ForceDWORD = 0x7fffffff
} MFVideoTransferMatrix;
typedef enum _MFVideoPrimaries {
MFVideoPrimaries_Unknown = 0,
MFVideoPrimaries_reserved = 1,
MFVideoPrimaries_BT709 = 2,
MFVideoPrimaries_BT470_2_SysM = 3,
MFVideoPrimaries_BT470_2_SysBG = 4,
MFVideoPrimaries_SMPTE170M = 5,
MFVideoPrimaries_SMPTE240M = 6,
MFVideoPrimaries_EBU3213 = 7,
MFVideoPrimaries_SMPTE_C = 8,
MFVideoPrimaries_Last,
MFVideoPrimaries_ForceDWORD = 0x7fffffff
} MFVideoPrimaries;
typedef enum _MFVideoLighting {
MFVideoLighting_Unknown = 0,
MFVideoLighting_bright = 1,
MFVideoLighting_office = 2,
MFVideoLighting_dim = 3,
MFVideoLighting_dark = 4,
MFVideoLighting_Last,
MFVideoLighting_ForceDWORD = 0x7fffffff
} MFVideoLighting;
typedef enum _MFNominalRange {
MFNominalRange_Unknown = 0,
MFNominalRange_Normal = 1,
MFNominalRange_Wide = 2,
MFNominalRange_0_255 = 1,
MFNominalRange_16_235 = 2,
MFNominalRange_48_208 = 3,
MFNominalRange_64_127 = 4
} MFNominalRange;
typedef struct _MFVideoInfo {
DWORD dwWidth;
DWORD dwHeight;
MFRatio PixelAspectRatio;
MFVideoChromaSubsampling SourceChromaSubsampling;
MFVideoInterlaceMode InterlaceMode;
MFVideoTransferFunction TransferFunction;
MFVideoPrimaries ColorPrimaries;
MFVideoTransferMatrix TransferMatrix;
MFVideoLighting SourceLighting;
MFRatio FramesPerSecond;
MFNominalRange NominalRange;
MFVideoArea GeometricAperture;
MFVideoArea MinimumDisplayAperture;
MFVideoArea PanScanAperture;
unsigned __int64 VideoFlags;
} MFVideoInfo;
typedef struct _MFVideoCompressedInfo {
LONGLONG AvgBitrate;
LONGLONG AvgBitErrorRate;
DWORD MaxKeyFrameSpacing;
} MFVideoCompressedInfo;
typedef struct _MFARGB {
BYTE rgbBlue;
BYTE rgbGreen;
BYTE rgbRed;
BYTE rgbAlpha;
} MFARGB;
typedef struct __MFAYUVSample {
BYTE bCrValue;
BYTE bCbValue;
BYTE bYValue;
BYTE bSampleAlpha8;
} MFAYUVSample;
typedef union _MFPaletteEntry {
MFARGB ARGB;
MFAYUVSample AYCbCr;
} MFPaletteEntry;
typedef struct _MFVideoSurfaceInfo {
DWORD Format;
DWORD PaletteEntries;
MFPaletteEntry Palette[];
} MFVideoSurfaceInfo;
typedef struct _MFVIDEOFORMAT {
DWORD dwSize;
MFVideoInfo videoInfo;
GUID guidFormat;
MFVideoCompressedInfo compressedInfo;
MFVideoSurfaceInfo surfaceInfo;
} MFVIDEOFORMAT;
typedef enum _MFStandardVideoFormat {
MFStdVideoFormat_reserved = 0,
MFStdVideoFormat_NTSC,
MFStdVideoFormat_PAL,
MFStdVideoFormat_DVD_NTSC,
MFStdVideoFormat_DVD_PAL,
MFStdVideoFormat_DV_PAL,
MFStdVideoFormat_DV_NTSC,
MFStdVideoFormat_ATSC_SD480i,
MFStdVideoFormat_ATSC_HD1080i,
MFStdVideoFormat_ATSC_HD720p
} MFStandardVideoFormat;
[
object,
uuid(b99f381f-a8f9-47a2-a5af-ca3a225a3890),
local
]
interface IMFVideoMediaType : IMFMediaType
{
const MFVIDEOFORMAT *GetVideoFormat();
HRESULT GetVideoRepresentation([in] GUID guidRepresentation, [out] LPVOID *ppvRepresentation,
[in] LONG lStride);
}
[
object,
uuid(ac6b7889-0740-4d51-8619-905994a55cc6)
]
interface IMFAsyncResult : IUnknown
{
HRESULT GetState([out] IUnknown **ppunkState);
HRESULT GetStatus();
HRESULT SetStatus([in] HRESULT hrStatus);
HRESULT GetObject([out] IUnknown **ppObject);
[local] IUnknown *GetStateNoAddRef();
}
[
object,
uuid(a27003cf-2354-4f2a-8d6a-ab7cff15437e),
]
interface IMFAsyncCallback : IUnknown
{
HRESULT GetParameters([out] DWORD *pdwFlags, [out] DWORD *pdwQueue);
HRESULT Invoke([in] IMFAsyncResult *pAsyncResult);
}
[
object,
uuid(a27003d0-2354-4f2a-8d6a-ab7cff15437e),
]
interface IMFRemoteAsyncCallback : IUnknown
{
HRESULT Invoke([in] HRESULT hr, [in] IUnknown *pRemoteResult);
}
cpp_quote("#define MFASYNC_FAST_IO_PROCESSING_CALLBACK 0x0001")
cpp_quote("#define MFASYNC_SIGNAL_CALLBACK 0x0002" )
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_UNDEFINED 0x00000000")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_STANDARD 0x00000001")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_RT 0x00000002")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_IO 0x00000003")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_TIMER 0x00000004")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_MULTITHREADED 0x00000005")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_LONG_FUNCTION 0x00000007")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_PRIVATE_MASK 0xffff0000")
cpp_quote("#define MFASYNC_CALLBACK_QUEUE_ALL 0xffffffff")
enum {
MEUnknown = 0,
MEError = 1,
MEExtendedType = 2,
MENonFatalError = 3,
MEGenericV1Anchor = MENonFatalError,
MESessionUnknown = 100,
MESessionTopologySet = 101,
MESessionTopologiesCleared = 102,
MESessionStarted = 103,
MESessionPaused = 104,
MESessionStopped = 105,
MESessionClosed = 106,
MESessionEnded = 107,
MESessionRateChanged = 108,
MESessionScrubSampleComplete = 109,
MESessionCapabilitiesChanged = 110,
MESessionTopologyStatus = 111,
MESessionNotifyPresentationTime = 112,
MENewPresentation = 113,
MELicenseAcquisitionStart = 114,
MELicenseAcquisitionCompleted = 115,
MEIndividualizationStart = 116,
MEIndividualizationCompleted = 117,
MEEnablerProgress = 118,
MEEnablerCompleted = 119,
MEPolicyError = 120,
MEPolicyReport = 121,
MEBufferingStarted = 122,
MEBufferingStopped = 123,
MEConnectStart = 124,
MEConnectEnd = 125,
MEReconnectStart = 126,
MEReconnectEnd = 127,
MERendererEvent = 128,
MESessionStreamSinkFormatChanged = 129,
MESessionV1Anchor = MESessionStreamSinkFormatChanged,
MESourceUnknown = 200,
MESourceStarted = 201,
MEStreamStarted = 202,
MESourceSeeked = 203,
MEStreamSeeked = 204,
MENewStream = 205,
MEUpdatedStream = 206,
MESourceStopped = 207,
MEStreamStopped = 208,
MESourcePaused = 209,
MEStreamPaused = 210,
MEEndOfPresentation = 211,
MEEndOfStream = 212,
MEMediaSample = 213,
MEStreamTick = 214,
MEStreamThinMode = 215,
MEStreamFormatChanged = 216,
MESourceRateChanged = 217,
MEEndOfPresentationSegment = 218,
MESourceCharacteristicsChanged = 219,
MESourceRateChangeRequested = 220,
MESourceMetadataChanged = 221,
MESequencerSourceTopologyUpdated = 222,
MESourceV1Anchor = MESequencerSourceTopologyUpdated,
MESinkUnknown = 300,
MEStreamSinkStarted = 301,
MEStreamSinkStopped = 302,
MEStreamSinkPaused = 303,
MEStreamSinkRateChanged = 304,
MEStreamSinkRequestSample = 305,
MEStreamSinkMarker = 306,
MEStreamSinkPrerolled = 307,
MEStreamSinkScrubSampleComplete = 308,
MEStreamSinkFormatChanged = 309,
MEStreamSinkDeviceChanged = 310,
MEQualityNotify = 311,
MESinkInvalidated = 312,
MEAudioSessionNameChanged = 313,
MEAudioSessionVolumeChanged = 314,
MEAudioSessionDeviceRemoved = 315,
MEAudioSessionServerShutdown = 316,
MEAudioSessionGroupingParamChanged = 317,
MEAudioSessionIconChanged = 318,
MEAudioSessionFormatChanged = 319,
MEAudioSessionDisconnected = 320,
MEAudioSessionExclusiveModeOverride = 321,
MESinkV1Anchor = MEAudioSessionExclusiveModeOverride,
METrustUnknown = 400,
MEPolicyChanged = 401,
MEContentProtectionMessage = 402,
MEPolicySet = 403,
METrustV1Anchor = MEPolicySet,
MEWMDRMLicenseBackupCompleted = 500,
MEWMDRMLicenseBackupProgress = 501,
MEWMDRMLicenseRestoreCompleted = 502,
MEWMDRMLicenseRestoreProgress = 503,
MEWMDRMLicenseAcquisitionCompleted = 506,
MEWMDRMIndividualizationCompleted = 508,
MEWMDRMIndividualizationProgress = 513,
MEWMDRMProximityCompleted = 514,
MEWMDRMLicenseStoreCleaned = 515,
MEWMDRMRevocationDownloadCompleted = 516,
MEWMDRMV1Anchor = MEWMDRMRevocationDownloadCompleted,
MEReservedMax = 10000
};
typedef DWORD MediaEventType;
[
object,
uuid(df598932-f10c-4e39-bba2-c308f101daa3)
]
interface IMFMediaEvent : IMFAttributes
{
HRESULT GetType([out] MediaEventType *pmet);
HRESULT GetExtendedType([out] GUID *pguidExtendedType);
HRESULT GetStatus([out] HRESULT *phrStatus);
HRESULT GetValue([out] PROPVARIANT *pvValue);
}
cpp_quote("#define MF_EVENT_FLAG_NO_WAIT 0x00000001")
[
object,
uuid(2cd0bd52-bcd5-4b89-b62c-eadc0c031e7d)
]
interface IMFMediaEventGenerator : IUnknown
{
HRESULT GetEvent([in] DWORD dwFlags, [out] IMFMediaEvent **ppEvent);
[local] HRESULT BeginGetEvent([in] IMFAsyncCallback *pCallback, [in] IUnknown *punkState);
[call_as(BeginGetEvent)] HRESULT RemoteBeginGetEvent([in] IMFRemoteAsyncCallback *pCallback);
[local] HRESULT EndGetEvent([in] IMFAsyncResult *pResult, [out] IMFMediaEvent **ppEvent);
[call_as(EndGetEvent)] HRESULT RemoteEndGetEvent([in] IUnknown *pResult, [out] DWORD *pcbEvent,
[out, size_is(,*pcbEvent)] BYTE **ppbEvent);
HRESULT QueueEvent([in] MediaEventType met, [in] REFGUID guidExtendedType, [in] HRESULT hrStatus,
[in, unique] const PROPVARIANT *pvValue);
}
typedef enum _MFBYTESTREAM_SEEK_ORIGIN {
msoBegin,
msoCurrent
} MFBYTESTREAM_SEEK_ORIGIN;
[
object,
uuid(ad4c1b00-4bf7-422f-9175-756693d9130d),
]
interface IMFByteStream : IUnknown
{
HRESULT GetCapabilities([out] DWORD *pdwCapabilities);
HRESULT GetLength([out] QWORD *pqwLength);
HRESULT SetLength([in] QWORD qwLength);
HRESULT GetCurrentPosition([out] QWORD *pqwPosition);
HRESULT SetCurrentPosition([in] QWORD qwPosition);
HRESULT IsEndOfStream([out] BOOL *pfEndOfStream);
[local] HRESULT Read([in] BYTE* pb, [in] ULONG cb, [out] ULONG *pcbRead);
[local] HRESULT BeginRead([in] BYTE *pb, [in] ULONG cb, [in] IMFAsyncCallback *pCallback, [in] IUnknown *punkState);
[local] HRESULT EndRead([in] IMFAsyncResult *pResult, [out] ULONG *pcbRead);
[local] HRESULT Write([in] const BYTE *pb, [in] ULONG cb, [out] ULONG *pcbWritten);
[local] HRESULT BeginWrite([in] const BYTE *pb, [in] ULONG cb, [in] IMFAsyncCallback *pCallback, [in] IUnknown *punkState);
[local] HRESULT EndWrite([in] IMFAsyncResult *pResult, [out] ULONG *pcbWritten);
[local] HRESULT Seek([in] MFBYTESTREAM_SEEK_ORIGIN SeekOrigin, [in] LONGLONG llSeekOffset, [in] DWORD dwSeekFlags,
[out] QWORD *pqwCurrentPosition);
HRESULT Flush();
HRESULT Close();
}
cpp_quote("#define MFBYTESTREAM_IS_READABLE 0x00000001")
cpp_quote("#define MFBYTESTREAM_IS_WRITABLE 0x00000002")
cpp_quote("#define MFBYTESTREAM_IS_SEEKABLE 0x00000004")
cpp_quote("#define MFBYTESTREAM_IS_REMOTE 0x00000008")
cpp_quote("#define MFBYTESTREAM_IS_DIRECTORY 0x00000080")
cpp_quote("#define MFBYTESTREAM_HAS_SLOW_SEEK 0x00000100")
cpp_quote("#define MFBYTESTREAM_IS_PARTIALLY_DOWNLOADED 0x00000200")
cpp_quote("#define MFBYTESTREAM_SHARE_WRITE 0x00000400")
cpp_quote("#define MFBYTESTREAM_DOES_NOT_USE_NETWORK 0x00000800")
cpp_quote("#define MFBYTESTREAM_SEEK_FLAG_CANCEL_PENDING_IO 0x00000001")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_ORIGIN_NAME, 0xfc358288,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_CONTENT_TYPE, 0xfc358289,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_DURATION, 0xfc35828a,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_LAST_MODIFIED_TIME, 0xfc35828b,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_IFO_FILE_URI, 0xfc35828c,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
cpp_quote("EXTERN_GUID(MF_BYTESTREAM_DLNA_PROFILE_ID, 0xfc35828d,0x3cb6,0x460c,0xa4,0x24,0xb6,0x68,0x12,0x60,0x37,0x5a);")
typedef enum MF_FILE_ACCESSMODE {
MF_ACCESSMODE_READ = 1,
MF_ACCESSMODE_WRITE = 2,
MF_ACCESSMODE_READWRITE = 3
} MF_FILE_ACCESSMODE;
typedef enum {
MF_OPENMODE_FAIL_IF_NOT_EXIST = 0,
MF_OPENMODE_FAIL_IF_EXIST = 1,
MF_OPENMODE_RESET_IF_EXIST = 2,
MF_OPENMODE_APPEND_IF_EXIST = 3,
MF_OPENMODE_DELETE_IF_EXIST = 4
} MF_FILE_OPENMODE;
typedef enum {
MF_FILEFLAGS_NONE = 0x00000000,
MF_FILEFLAGS_NOBUFFERING = 0x00000001,
MF_FILEFLAGS_ALLOW_WRITE_SHARING = 0x00000002
} MF_FILE_FLAGS;
[
object,
uuid(8feed468-6f7e-440d-869a-49bdd283ad0d),
]
interface IMFSampleOutputStream : IUnknown
{
HRESULT BeginWriteSample(
[in] IMFSample *sample,
[in] IMFAsyncCallback *callback,
[in] IUnknown *state);
HRESULT EndWriteSample(
[in] IMFAsyncResult *result);
HRESULT Close();
}
[
object,
uuid(5bc8a76b-869a-46a3-9b03-fa218a66aebe)
]
interface IMFCollection : IUnknown
{
HRESULT GetElementCount([out] DWORD *pcElements);
HRESULT GetElement([in] DWORD dwElementIndex, [out] IUnknown **ppUnkElement);
HRESULT AddElement([in] IUnknown *pUnkElement);
HRESULT RemoveElement([in] DWORD dwElementIndex, [out] IUnknown **ppUnkElement);
HRESULT InsertElementAt([in] DWORD dwIndex, [in] IUnknown *pUnknown);
HRESULT RemoveAllElements();
}
[
object,
uuid(7fee9e9a-4a89-47a6-899c-b6a53a70fb67),
pointer_default(unique)
]
interface IMFActivate : IMFAttributes
{
HRESULT ActivateObject([in] REFIID riid, [out, iid_is(riid), retval] void **ppv);
HRESULT ShutdownObject();
HRESULT DetachObject();
}
typedef enum _MF_Plugin_Type {
MF_Plugin_Type_MFT = 0,
MF_Plugin_Type_MediaSource = 1
} MF_Plugin_Type;
[
object,
local,
uuid(5c6c44bf-1db6-435b-9249-e8cd10fdec96),
pointer_default(unique)
]
interface IMFPluginControl : IUnknown
{
HRESULT GetPreferredClsid(DWORD pluginType, LPCWSTR selector, CLSID *clsid);
HRESULT GetPreferredClsidByIndex(DWORD pluginType, DWORD index, LPWSTR *selector, CLSID *clsid);
HRESULT SetPreferredClsid(DWORD pluginType, LPCWSTR selector, const CLSID *clsid);
HRESULT IsDisabled(DWORD pluginType, REFCLSID clsid);
HRESULT GetDisabledByIndex(DWORD pluginType, DWORD index, CLSID *clsid);
HRESULT SetDisabled(DWORD pluginType, REFCLSID clsid, BOOL disabled);
}
[
object,
uuid(36f846fc-2256-48b6-b58e-e2b638316581),
local
]
interface IMFMediaEventQueue : IUnknown
{
HRESULT GetEvent([in] DWORD flags, [out] IMFMediaEvent **event);
HRESULT BeginGetEvent([in] IMFAsyncCallback *callback, [in] IUnknown *state);
HRESULT EndGetEvent([in] IMFAsyncResult *result, [out] IMFMediaEvent **event);
HRESULT QueueEvent([in] IMFMediaEvent *event);
HRESULT QueueEventParamVar([in] MediaEventType met, [in] REFGUID type,
[in] HRESULT status, [in, unique] const PROPVARIANT *value);
HRESULT QueueEventParamUnk([in] MediaEventType met, [in] REFGUID type,
[in] HRESULT status, [in, unique] IUnknown *unk);
HRESULT Shutdown();
}
[
object,
uuid(eb533d5d-2db6-40f8-97a9-494692014f07),
local,
pointer_default(unique)
]
interface IMFDXGIDeviceManager : IUnknown
{
HRESULT CloseDeviceHandle([in] HANDLE device);
HRESULT GetVideoService([in] HANDLE device, [in] REFIID riid, [out] void **service);
HRESULT LockDevice([in] HANDLE device, [in] REFIID riid, [out] void **ppv, [in] BOOL block);
HRESULT OpenDeviceHandle([out] HANDLE *device);
HRESULT ResetDevice([in] IUnknown *device, [in] UINT token);
HRESULT TestDevice([in] HANDLE device);
HRESULT UnlockDevice([in] HANDLE device, [in] BOOL state);
}