re3/sdk/dx8sdk/Include/dxva.h

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//------------------------------------------------------------------------------
// File: DXVA.h
//
// Desc: DirectX Video Acceleration header file.
//
// Copyright (c) 1999 - 2002, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __DIRECTX_VA__
#define __DIRECTX_VA__
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __DIRECTX_VA_COPP_ONLY
#define __DIRECTX_VA_DECODER__
#define __DIRECTX_VA_PROCAMPCONTROL__
#define __DIRECTX_VA_DEINTERLACE__
#endif
// -------------------------------------------------------------------------
//
// The definitions that follow describe the DirectX Video Acceleration
// decoding interface.
// This interface is accessable via the IAMVideoAccelerator interface.
//
// -------------------------------------------------------------------------
//
#ifndef __DIRECTX_VA_DECODER__
#define __DIRECTX_VA_DECODER__
DEFINE_GUID(DXVA_ModeNone, 0x1b81be00, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH261_A, 0x1b81be01, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH261_B, 0x1b81be02, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_A, 0x1b81be03, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_B, 0x1b81be04, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_C, 0x1b81be05, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_D, 0x1b81be06, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_E, 0x1b81be07, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeH263_F, 0x1b81be08, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeMPEG1_A, 0x1b81be09, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeMPEG2_A, 0x1b81be0A, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeMPEG2_B, 0x1b81be0B, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeMPEG2_C, 0x1b81be0C, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeMPEG2_D, 0x1b81be0D, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV8_A, 0x1b81be80, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV8_B, 0x1b81be81, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV9_A, 0x1b81be90, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV9_B, 0x1b81be91, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV9_Ai, 0x1b81be92, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_ModeWMV9_Bi, 0x1b81be93, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
DEFINE_GUID(DXVA_NoEncrypt, 0x1b81beD0, 0xa0c7,0x11d3,0xb9,0x84,0x00,0xc0,0x4f,0x2e,0x73,0xc5);
#define DXVA_RESTRICTED_MODE_UNRESTRICTED 0xFFFF
#define DXVA_RESTRICTED_MODE_H261_A 1
#define DXVA_RESTRICTED_MODE_H261_B 2
#define DXVA_RESTRICTED_MODE_H263_A 3
#define DXVA_RESTRICTED_MODE_H263_B 4
#define DXVA_RESTRICTED_MODE_H263_C 5
#define DXVA_RESTRICTED_MODE_H263_D 6
#define DXVA_RESTRICTED_MODE_H263_E 7
#define DXVA_RESTRICTED_MODE_H263_F 8
#define DXVA_RESTRICTED_MODE_MPEG1_A 9
#define DXVA_RESTRICTED_MODE_MPEG2_A 0xA
#define DXVA_RESTRICTED_MODE_MPEG2_B 0xB
#define DXVA_RESTRICTED_MODE_MPEG2_C 0xC
#define DXVA_RESTRICTED_MODE_MPEG2_D 0xD
#define DXVA_RESTRICTED_MODE_WMV8_A 0x80
#define DXVA_RESTRICTED_MODE_WMV8_B 0x81
#define DXVA_RESTRICTED_MODE_WMV9_A 0x90
#define DXVA_RESTRICTED_MODE_WMV9_B 0x91
#define DXVA_RESTRICTED_MODE_WMV9_Ai 0x92
#define DXVA_RESTRICTED_MODE_WMV9_Bi 0x93
#define DXVA_COMPBUFFER_TYPE_THAT_IS_NOT_USED 0
#define DXVA_PICTURE_DECODE_BUFFER 1
#define DXVA_MACROBLOCK_CONTROL_BUFFER 2
#define DXVA_RESIDUAL_DIFFERENCE_BUFFER 3
#define DXVA_DEBLOCKING_CONTROL_BUFFER 4
#define DXVA_INVERSE_QUANTIZATION_MATRIX_BUFFER 5
#define DXVA_SLICE_CONTROL_BUFFER 6
#define DXVA_BITSTREAM_DATA_BUFFER 7
#define DXVA_AYUV_BUFFER 8
#define DXVA_IA44_SURFACE_BUFFER 9
#define DXVA_DPXD_SURFACE_BUFFER 10
#define DXVA_HIGHLIGHT_BUFFER 11
#define DXVA_DCCMD_SURFACE_BUFFER 12
#define DXVA_ALPHA_BLEND_COMBINATION_BUFFER 13
#define DXVA_PICTURE_RESAMPLE_BUFFER 14
#define DXVA_READ_BACK_BUFFER 15
#define DXVA_NUM_TYPES_COMP_BUFFERS 16
/* values for bDXVA_Func */
#define DXVA_PICTURE_DECODING_FUNCTION 1
#define DXVA_ALPHA_BLEND_DATA_LOAD_FUNCTION 2
#define DXVA_ALPHA_BLEND_COMBINATION_FUNCTION 3
#define DXVA_PICTURE_RESAMPLE_FUNCTION 4
/* values returned from Execute command in absence of read-back */
#define DXVA_EXECUTE_RETURN_OK 0
#define DXVA_EXECUTE_RETURN_DATA_ERROR_MINOR 1
#define DXVA_EXECUTE_RETURN_DATA_ERROR_SIGNIF 2
#define DXVA_EXECUTE_RETURN_DATA_ERROR_SEVERE 3
#define DXVA_EXECUTE_RETURN_OTHER_ERROR_SEVERE 4
#pragma pack(push, BeforeDXVApacking, 1)
typedef struct _DXVA_ConnectMode {
GUID guidMode;
WORD wRestrictedMode;
} DXVA_ConnectMode, *LPDXVA_ConnectMode;
typedef DWORD DXVA_ConfigQueryOrReplyFunc, *LPDXVA_ConfigQueryOrReplyFunc;
#define DXVA_QUERYORREPLYFUNCFLAG_DECODER_PROBE_QUERY 0xFFFFF1
#define DXVA_QUERYORREPLYFUNCFLAG_DECODER_LOCK_QUERY 0xFFFFF5
#define DXVA_QUERYORREPLYFUNCFLAG_ACCEL_PROBE_OK_COPY 0xFFFFF8
#define DXVA_QUERYORREPLYFUNCFLAG_ACCEL_PROBE_OK_PLUS 0xFFFFF9
#define DXVA_QUERYORREPLYFUNCFLAG_ACCEL_LOCK_OK_COPY 0xFFFFFC
#define DXVA_QUERYORREPLYFUNCFLAG_ACCEL_PROBE_FALSE_PLUS 0xFFFFFB
#define DXVA_QUERYORREPLYFUNCFLAG_ACCEL_LOCK_FALSE_PLUS 0xFFFFFF
#define readDXVA_QueryOrReplyFuncFlag(ptr) ((*(ptr)) >> 8)
#define readDXVA_QueryOrReplyFuncFlag_ACCEL(ptr) (((*(ptr)) >> 11) & 1)
#define readDXVA_QueryOrReplyFuncFlag_LOCK(ptr) (((*(ptr)) >> 10) & 1)
#define readDXVA_QueryOrReplyFuncFlag_BAD(ptr) (((*(ptr)) >> 9) & 1)
#define readDXVA_QueryOrReplyFuncFlag_PLUS(ptr) (((*(ptr)) >> 8) & 1)
#define readDXVA_QueryOrReplyFuncFunc(ptr) ((*(ptr)) & 0xFF)
#define writeDXVA_QueryOrReplyFunc(ptr, flg, fnc) ((*(ptr)) = ((flg) << 8) | (fnc))
#define setDXVA_QueryOrReplyFuncFlag(ptr, flg) ((*(ptr)) |= ((flg) << 8))
#define setDXVA_QueryOrReplyFuncFunc(ptr, fnc) ((*(ptr)) |= (fnc));
typedef DWORD DXVA_EncryptProtocolFunc, *LPDXVA_EncryptProtocolFunc;
#define DXVA_ENCRYPTPROTOCOLFUNCFLAG_HOST 0xFFFF00
#define DXVA_ENCRYPTPROTOCOLFUNCFLAG_ACCEL 0xFFFF08
#define readDXVA_EncryptProtocolFuncFlag(ptr) ((*(ptr)) >> 8)
#define readDXVA_EncryptProtocolFuncFlag_ACCEL(ptr) (((*(ptr)) >> 11) & 1)
#define readDXVA_EncryptProtocolFuncFunc(ptr) ((*(ptr)) & 0xFF)
#define writeDXVA_EncryptProtocolFunc(ptr, flg, fnc) ((*(ptr)) = ((flg) << 8) | (fnc))
#define setDXVA_EncryptProtocolFuncFlag(ptr, flg) ((*(ptr)) |= ((flg) << 8))
#define setDXVA_EncryptProtocolFuncFunc(ptr, fnc) ((*(ptr)) |= (fnc));
typedef struct _DXVA_EncryptProtocolHeader {
DXVA_EncryptProtocolFunc dwFunction;
DWORD ReservedBits[3];
GUID guidEncryptProtocol;
} DXVA_EncryptProtocolHeader, *LPDXVA_EncryptProtocolHeader;
typedef struct _DXVA_ConfigPictureDecode {
// Operation Indicated
DXVA_ConfigQueryOrReplyFunc dwFunction;
// Alignment
DWORD dwReservedBits[3];
// Encryption GUIDs
GUID guidConfigBitstreamEncryption;
GUID guidConfigMBcontrolEncryption;
GUID guidConfigResidDiffEncryption;
// Bitstream Processing Indicator
BYTE bConfigBitstreamRaw;
// Macroblock Control Config
BYTE bConfigMBcontrolRasterOrder;
// Host Resid Diff Config
BYTE bConfigResidDiffHost;
BYTE bConfigSpatialResid8;
BYTE bConfigResid8Subtraction;
BYTE bConfigSpatialHost8or9Clipping;
BYTE bConfigSpatialResidInterleaved;
BYTE bConfigIntraResidUnsigned;
// Accelerator Resid Diff Config
BYTE bConfigResidDiffAccelerator;
BYTE bConfigHostInverseScan;
BYTE bConfigSpecificIDCT;
BYTE bConfig4GroupedCoefs;
} DXVA_ConfigPictureDecode, *LPDXVA_ConfigPictureDecode;
/* Picture Decoding Parameters */
typedef struct _DXVA_PictureParameters {
WORD wDecodedPictureIndex;
WORD wDeblockedPictureIndex;
WORD wForwardRefPictureIndex;
WORD wBackwardRefPictureIndex;
WORD wPicWidthInMBminus1;
WORD wPicHeightInMBminus1;
BYTE bMacroblockWidthMinus1;
BYTE bMacroblockHeightMinus1;
BYTE bBlockWidthMinus1;
BYTE bBlockHeightMinus1;
BYTE bBPPminus1;
BYTE bPicStructure;
BYTE bSecondField;
BYTE bPicIntra;
BYTE bPicBackwardPrediction;
BYTE bBidirectionalAveragingMode;
BYTE bMVprecisionAndChromaRelation;
BYTE bChromaFormat;
BYTE bPicScanFixed;
BYTE bPicScanMethod;
BYTE bPicReadbackRequests;
BYTE bRcontrol;
BYTE bPicSpatialResid8;
BYTE bPicOverflowBlocks;
BYTE bPicExtrapolation;
BYTE bPicDeblocked;
BYTE bPicDeblockConfined;
BYTE bPic4MVallowed;
BYTE bPicOBMC;
BYTE bPicBinPB;
BYTE bMV_RPS;
BYTE bReservedBits;
WORD wBitstreamFcodes;
WORD wBitstreamPCEelements;
BYTE bBitstreamConcealmentNeed;
BYTE bBitstreamConcealmentMethod;
} DXVA_PictureParameters, *LPDXVA_PictureParameters;
/* Picture Resampling */
typedef struct _DXVA_PicResample {
WORD wPicResampleSourcePicIndex;
WORD wPicResampleDestPicIndex;
WORD wPicResampleRcontrol;
BYTE bPicResampleExtrapWidth;
BYTE bPicResampleExtrapHeight;
DWORD dwPicResampleSourceWidth;
DWORD dwPicResampleSourceHeight;
DWORD dwPicResampleDestWidth;
DWORD dwPicResampleDestHeight;
DWORD dwPicResampleFullDestWidth;
DWORD dwPicResampleFullDestHeight;
} DXVA_PicResample, *LPDXVA_PicResample;
#define DXVA_CHROMA_FORMAT_420 1
#define DXVA_CHROMA_FORMAT_422 2
#define DXVA_CHROMA_FORMAT_444 3
#define DXVA_PICTURE_STRUCTURE_TOP_FIELD 1
#define DXVA_PICTURE_STRUCTURE_BOTTOM_FIELD 2
#define DXVA_PICTURE_STRUCTURE_FRAME 3
#define DXVA_BIDIRECTIONAL_AVERAGING_MPEG2_ROUND 0
#define DXVA_BIDIRECTIONAL_AVERAGING_H263_TRUNC 1
#define DXVA_MV_PRECISION_AND_CHROMA_RELATION_MPEG2 0
#define DXVA_MV_PRECISION_AND_CHROMA_RELATION_H263 1
#define DXVA_MV_PRECISION_AND_CHROMA_RELATION_H261 2
#define DXVA_SCAN_METHOD_ZIG_ZAG 0
#define DXVA_SCAN_METHOD_ALTERNATE_VERTICAL 1
#define DXVA_SCAN_METHOD_ALTERNATE_HORIZONTAL 2
#define DXVA_SCAN_METHOD_ARBITRARY 3
#define DXVA_BITSTREAM_CONCEALMENT_NEED_UNLIKELY 0
#define DXVA_BITSTREAM_CONCEALMENT_NEED_MILD 1
#define DXVA_BITSTREAM_CONCEALMENT_NEED_LIKELY 2
#define DXVA_BITSTREAM_CONCEALMENT_NEED_SEVERE 3
#define DXVA_BITSTREAM_CONCEALMENT_METHOD_UNSPECIFIED 0
#define DXVA_BITSTREAM_CONCEALMENT_METHOD_INTRA 1
#define DXVA_BITSTREAM_CONCEALMENT_METHOD_FORWARD 2
#define DXVA_BITSTREAM_CONCEALMENT_METHOD_BACKWARD 3
/* Buffer Description Data */
typedef struct _DXVA_BufferDescription {
DWORD dwTypeIndex;
DWORD dwBufferIndex;
DWORD dwDataOffset;
DWORD dwDataSize;
DWORD dwFirstMBaddress;
DWORD dwNumMBsInBuffer;
DWORD dwWidth;
DWORD dwHeight;
DWORD dwStride;
DWORD dwReservedBits;
} DXVA_BufferDescription, *LPDXVA_BufferDescription;
/* Off-Host IDCT Coefficient Data Structures */
typedef struct _DXVA_TCoef4Group {
BYTE TCoefIDX[4];
SHORT TCoefValue[4];
} DXVA_TCoef4Group, *LPDXVA_TCoef4Group;
typedef struct _DXVA_TCoefSingle {
WORD wIndexWithEOB;
SHORT TCoefValue;
} DXVA_TCoefSingle, *LPDXVA_TCoefSingle;
/* Macros for Reading EOB and Index Values */
#define readDXVA_TCoefSingleIDX(ptr) ((ptr)->wIndexWithEOB >> 1)
#define readDXVA_TCoefSingleEOB(ptr) ((ptr)->wIndexWithEOB & 1)
/* Macro for Writing EOB and Index Values */
#define writeDXVA_TCoefSingleIndexWithEOB(ptr, idx, eob) ((ptr)->wIndexWithEOB = ((idx) << 1) | (eob))
#define setDXVA_TCoefSingleIDX(ptr, idx) ((ptr)->wIndexWithEOB |= ((idx) << 1))
#define setDXVA_TCoefSingleEOB(ptr) ((ptr)->wIndexWithEOB |= 1)
/* Spatial-Domain Residual Difference Blocks */
#define DXVA_USUAL_BLOCK_WIDTH 8
#define DXVA_USUAL_BLOCK_HEIGHT 8
#define DXVA_USUAL_BLOCK_SIZE (DXVA_USUAL_BLOCK_WIDTH * DXVA_USUAL_BLOCK_HEIGHT)
typedef SHORT DXVA_Sample16[DXVA_USUAL_BLOCK_SIZE];
typedef signed char DXVA_Sample8 [DXVA_USUAL_BLOCK_SIZE];
/* Deblocking Filter Control Structure */
typedef BYTE DXVA_DeblockingEdgeControl;
typedef DXVA_DeblockingEdgeControl * LPDXVA_DeblockingEdgeControl;
/* Macros for Reading STRENGTH and FilterOn */
#define readDXVA_EdgeFilterStrength(ptr) ((*(ptr)) >> 1)
#define readDXVA_EdgeFilterOn(ptr) ((*(ptr)) & 1)
/* Macro for Writing STRENGTH and FilterOn */
#define writeDXVA_DeblockingEdgeControl(ptr, str, fon) ((*(ptr)) = ((str) << 1) | (fon))
#define setDXVA_EdgeFilterStrength(ptr, str) ((*(ptr)) |= ((str) << 1))
#define setDXVA_EdgeFilterOn(ptr) ((*(ptr)) |= 1)
/* Macroblock Control Command Data Structures */
typedef struct _DXVA_MVvalue {
SHORT horz, vert;
} DXVA_MVvalue, *LPDXVA_MVvalue;
/* Inverse Quantization Matrices */
typedef struct _DXVA_QmatrixData {
BYTE bNewQmatrix[4]; /* intra Y, inter Y, intra chroma, inter chroma */
WORD Qmatrix[4][DXVA_USUAL_BLOCK_WIDTH * DXVA_USUAL_BLOCK_HEIGHT];
} DXVA_QmatrixData, *LPDXVA_QmatrixData;
/* Slice Control Buffer Data */
typedef struct _DXVA_SliceInfo {
WORD wHorizontalPosition;
WORD wVerticalPosition;
DWORD dwSliceBitsInBuffer;
DWORD dwSliceDataLocation;
BYTE bStartCodeBitOffset;
BYTE bReservedBits;
WORD wMBbitOffset;
WORD wNumberMBsInSlice;
WORD wQuantizerScaleCode;
WORD wBadSliceChopping;
} DXVA_SliceInfo, *LPDXVA_SliceInfo;
#define DXVA_NumMV_OBMC_off_BinPBwith4MV_off 4
#define DXVA_NumMV_OBMC_off_BinPBwith4MV_on (4+1)
#define DXVA_NumMV_OBMC_on__BinPB_off (10)
#define DXVA_NumMV_OBMC_on__BinPB_on (11) /* not current standards */
#define DXVA_NumBlocksPerMB_420 (4+2+0)
#define DXVA_NumBlocksPerMB_422 (4+2+2)
#define DXVA_NumBlocksPerMB_444 (4+4+4)
/* Basic form for I pictures */
/* Host Residual Differences */
typedef struct _DXVA_MBctrl_I_HostResidDiff_1 {
WORD wMBaddress;
WORD wMBtype;
DWORD dwMB_SNL;
WORD wPatternCode;
WORD wPC_Overflow; /* zero if not overflow format */
DWORD dwReservedBits2;
} DXVA_MBctrl_I_HostResidDiff_1;
/* Basic form for I pictures */
/* Off-Host IDCT, 4:2:0 sampling */
typedef struct _DXVA_MBctrl_I_OffHostIDCT_1 {
WORD wMBaddress;
WORD wMBtype;
DWORD dwMB_SNL;
WORD wPatternCode;
BYTE bNumCoef[DXVA_NumBlocksPerMB_420];
} DXVA_MBctrl_I_OffHostIDCT_1;
/* Basic form for P and B pictures */
/* Should also be used for concealment MVs in MPEG-2 I pictures */
/* Without OBMC, without BinPB and 4MV together, without MV RPS */
/* Host Residual Differences */
typedef struct _DXVA_MBctrl_P_HostResidDiff_1 {
WORD wMBaddress;
WORD wMBtype;
DWORD dwMB_SNL;
WORD wPatternCode;
WORD wPC_Overflow; /* zero if not overflow format */
DWORD dwReservedBits2;
DXVA_MVvalue MVector[DXVA_NumMV_OBMC_off_BinPBwith4MV_off];
} DXVA_MBctrl_P_HostResidDiff_1;
/* Basic form for P and B pictures */
/* Without OBMC, without BinPB and 4MV together, without MV RPS */
/* Off-Host IDCT, 4:2:0 sampling */
typedef struct _DXVA_MBctrl_P_OffHostIDCT_1 {
WORD wMBaddress;
WORD wMBtype;
DWORD dwMB_SNL;
WORD wPatternCode;
BYTE bNumCoef[DXVA_NumBlocksPerMB_420];
DXVA_MVvalue MVector[DXVA_NumMV_OBMC_off_BinPBwith4MV_off];
} DXVA_MBctrl_P_OffHostIDCT_1;
/* How to load alpha blending graphic data */
typedef struct _DXVA_ConfigAlphaLoad {
// Operation Indicated
DXVA_ConfigQueryOrReplyFunc dwFunction;
// Alignment
DWORD dwReservedBits[3];
BYTE bConfigDataType;
} DXVA_ConfigAlphaLoad, *LPDXVA_ConfigAlphaLoad;
#define DXVA_CONFIG_DATA_TYPE_IA44 0
#define DXVA_CONFIG_DATA_TYPE_AI44 1
#define DXVA_CONFIG_DATA_TYPE_DPXD 2
#define DXVA_CONFIG_DATA_TYPE_AYUV 3
/* How to combine alpha blending graphic data */
typedef struct _DXVA_ConfigAlphaCombine {
// Operation Indicated
DXVA_ConfigQueryOrReplyFunc dwFunction;
// Alignment
DWORD dwReservedBits[3];
BYTE bConfigBlendType;
BYTE bConfigPictureResizing;
BYTE bConfigOnlyUsePicDestRectArea;
BYTE bConfigGraphicResizing;
BYTE bConfigWholePlaneAlpha;
} DXVA_ConfigAlphaCombine, *LPDXVA_ConfigAlphaCombine;
#define DXVA_CONFIG_BLEND_TYPE_FRONT_BUFFER 0
#define DXVA_CONFIG_BLEND_TYPE_BACK_HARDWARE 1
/* AYUV sample for 16-entry YUV palette or graphic surface */
typedef struct _DXVA_AYUVsample2 {
BYTE bCrValue;
BYTE bCbValue;
BYTE bY_Value;
BYTE bSampleAlpha8;
} DXVA_AYUVsample2, *LPDXVA_AYUVsample2;
/* Macros for IA44 alpha blending surface samples */
typedef BYTE DXVA_IA44sample, *LPDXVA_IA44sample;
#define readDXVA_IA44index(ptr) (((*(ptr)) & 0xF0) >> 4)
#define readDXVA_IA44alpha(ptr) ((*(ptr)) & 0x0F)
#define writeDXVA_IA44(ptr, idx, alpha) ((*(ptr)) = (((idx) << 4) | (alpha)))
#define setDXVA_IA44index(ptr, idx) ((*(ptr)) |= ((idx) << 4))
#define setDXVA_IA44alpha(ptr, alpha) ((*(ptr)) |= (alpha))
/* Macros for AI44 alpha blending surface samples */
typedef BYTE DXVA_AI44sample, *LPDXVA_AI44sample;
#define readDXVA_AI44index(ptr) ((*(ptr)) & 0x0F)
#define readDXVA_AI44alpha(ptr) (((*(ptr)) & 0xF0) >> 4)
#define writeDXVA_AI44(ptr, idx, alpha) ((*(ptr)) = (((alpha) << 4) | (idx)))
#define setDXVA_AI44index(ptr, idx) ((*(ptr)) |= (idx))
#define setDXVA_AI44alpha(ptr, alpha) ((*(ptr)) |= ((alpha) << 4))
/* Highlight data structure */
typedef struct _DXVA_Highlight {
WORD wHighlightActive;
WORD wHighlightIndices;
WORD wHighlightAlphas;
RECT HighlightRect;
} DXVA_Highlight, *LPDXVA_Highlight;
typedef BYTE DXVA_DPXD, *LPDXVA_DPXD;
typedef WORD DXVA_DCCMD, *LPDXVA_DCCMD;
/* Alpha blend combination */
typedef struct _DXVA_BlendCombination {
WORD wPictureSourceIndex;
WORD wBlendedDestinationIndex;
RECT PictureSourceRect16thPel;
RECT PictureDestinationRect;
RECT GraphicSourceRect;
RECT GraphicDestinationRect;
WORD wBlendDelay;
BYTE bBlendOn;
BYTE bWholePlaneAlpha;
DXVA_AYUVsample2 OutsideYUVcolor;
} DXVA_BlendCombination, *LPDXVA_BlendCombination;
#pragma pack(push, 16)
typedef DXVA_MBctrl_I_HostResidDiff_1 *
LPDXVA_MBctrl_I_HostResidDiff_1;
typedef DXVA_MBctrl_I_OffHostIDCT_1 *
LPDXVA_MBctrl_I_OffHostIDCT_1;
typedef DXVA_MBctrl_P_HostResidDiff_1 *
LPDXVA_MBctrl_P_HostResidDiff_1;
typedef DXVA_MBctrl_P_OffHostIDCT_1 *
LPDXVA_MBctrl_P_OffHostIDCT_1;
#pragma pack(pop)
/*
* Other forms of pictures are constructed in the obvious way
* from the above by adjusting the number of residual difference
* blocks, the number of motion vectors per macroblock, etc.
*/
#define readDXVA_MBskipsFollowing(ptr) (((ptr)->dwMB_SNL & 0xFF000000) >> 24)
#define readDXVA_MBdataLocation(ptr) (((ptr)->dwMB_SNL & 0x00FFFFFF))
#define writeDXVA_MB_SNL(ptr, skips, dloc) ((ptr)->dwMB_SNL = (((skips) << 24) | (dloc)))
#define setDXVA_MBskipsFollowing(ptr, skips) ((ptr)->dwMB_SNL |= ((skips) << 24))
#define setDXVA_MBdataLocation(ptr, dloc) ((ptr)->dwMB_SNL |= (dloc))
#define readDXVA_MvertFieldSel_3(ptr) (((ptr)->wMBtype & 0x8000) >> 15)
#define readDXVA_MvertFieldSel_2(ptr) (((ptr)->wMBtype & 0x4000) >> 14)
#define readDXVA_MvertFieldSel_1(ptr) (((ptr)->wMBtype & 0x2000) >> 13)
#define readDXVA_MvertFieldSel_0(ptr) (((ptr)->wMBtype & 0x1000) >> 12)
#define readDXVA_ReservedBits(ptr) (((ptr)->wMBtype & 0x0800) >> 11)
#define readDXVA_HostResidDiff(ptr) (((ptr)->wMBtype & 0x0400) >> 10)
#define readDXVA_MotionType(ptr) (((ptr)->wMBtype & 0x0300) >> 8)
#define readDXVA_MBscanMethod(ptr) (((ptr)->wMBtype & 0x00C0) >> 6)
#define readDXVA_FieldResidual(ptr) (((ptr)->wMBtype & 0x0020) >> 5)
#define readDXVA_H261LoopFilter(ptr) (((ptr)->wMBtype & 0x0010) >> 4)
#define readDXVA_Motion4MV(ptr) (((ptr)->wMBtype & 0x0008) >> 3)
#define readDXVA_MotionBackward(ptr) (((ptr)->wMBtype & 0x0004) >> 2)
#define readDXVA_MotionForward(ptr) (((ptr)->wMBtype & 0x0002) >> 1)
#define readDXVA_IntraMacroblock(ptr) (((ptr)->wMBtype & 0x0001))
#define setDXVA_MvertFieldSel_3(ptr) ((ptr)->wMBtype |= 0x8000)
#define setDXVA_MvertFieldSel_2(ptr) ((ptr)->wMBtype |= 0x4000)
#define setDXVA_MvertFieldSel_1(ptr) ((ptr)->wMBtype |= 0x2000)
#define setDXVA_MvertFieldSel_0(ptr) ((ptr)->wMBtype |= 0x1000)
#define setDXVA_ReservedBits(ptr) ((ptr)->wMBtype |= 0x0800)
#define setDXVA_HostResidDiff(ptr) ((ptr)->wMBtype |= 0x0400)
#define setDXVA_MotionType(ptr, value) ((ptr)->wMBtype |= ((value) << 8))
#define setDXVA_MBscanMethod(ptr, value) ((ptr)->wMBtype |= ((value) << 6))
#define setDXVA_FieldResidual(ptr) ((ptr)->wMBtype |= 0x0020)
#define setDXVA_H261LoopFilter(ptr) ((ptr)->wMBtype |= 0x0010)
#define setDXVA_Motion4MV(ptr) ((ptr)->wMBtype |= 0x0008)
#define setDXVA_MotionBackward(ptr) ((ptr)->wMBtype |= 0x0004)
#define setDXVA_MotionForward(ptr) ((ptr)->wMBtype |= 0x0002)
#define setDXVA_IntraMacroblock(ptr) ((ptr)->wMBtype |= 0x0001)
#define readDXVA_Y___0coded(ptr) (((ptr)->wPatternCode & 0x0800) >> 11)
#define readDXVA_Y___1coded(ptr) (((ptr)->wPatternCode & 0x0400) >> 10)
#define readDXVA_Y___2coded(ptr) (((ptr)->wPatternCode & 0x0200) >> 9)
#define readDXVA_Y___3coded(ptr) (((ptr)->wPatternCode & 0x0100) >> 8)
#define readDXVA_Cb__4coded(ptr) (((ptr)->wPatternCode & 0x0080) >> 7)
#define readDXVA_Cr__5coded(ptr) (((ptr)->wPatternCode & 0x0040) >> 6)
#define readDXVA_Cb__6coded(ptr) (((ptr)->wPatternCode & 0x0020) >> 5)
#define readDXVA_Cr__7coded(ptr) (((ptr)->wPatternCode & 0x0010) >> 4)
#define readDXVA_Cb__8coded(ptr) (((ptr)->wPatternCode & 0x0008) >> 3)
#define readDXVA_Cb__9coded(ptr) (((ptr)->wPatternCode & 0x0004) >> 2)
#define readDXVA_Cr_10coded(ptr) (((ptr)->wPatternCode & 0x0002) >> 1)
#define readDXVA_Cr_11coded(ptr) (((ptr)->wPatternCode & 0x0001))
#define readDXVA_Y___0oflow(ptr) (((ptr)->wPC_Overflow & 0x0800) >> 11)
#define readDXVA_Y___1oflow(ptr) (((ptr)->wPC_Overflow & 0x0400) >> 10)
#define readDXVA_Y___2oflow(ptr) (((ptr)->wPC_Overflow & 0x0200) >> 9)
#define readDXVA_Y___3oflow(ptr) (((ptr)->wPC_Overflow & 0x0100) >> 8)
#define readDXVA_Cb__4oflow(ptr) (((ptr)->wPC_Overflow & 0x0080) >> 7)
#define readDXVA_Cr__5oflow(ptr) (((ptr)->wPC_Overflow & 0x0040) >> 6)
#define readDXVA_Cb__6oflow(ptr) (((ptr)->wPC_Overflow & 0x0020) >> 5)
#define readDXVA_Cr__7oflow(ptr) (((ptr)->wPC_Overflow & 0x0010) >> 4)
#define readDXVA_Cb__8oflow(ptr) (((ptr)->wPC_Overflow & 0x0008) >> 3)
#define readDXVA_Cb__9oflow(ptr) (((ptr)->wPC_Overflow & 0x0004) >> 2)
#define readDXVA_Cr_10oflow(ptr) (((ptr)->wPC_Overflow & 0x0002) >> 1)
#define readDXVA_Cr_11oflow(ptr) (((ptr)->wPC_Overflow & 0x0001))
#pragma pack(pop, BeforeDXVApacking)
#endif /* __DIRECTX_VA_DECODER__ */
// -------------------------------------------------------------------------
//
// D3DFORMAT describes a pixel memory layout, DXVA sample format contains
// additional information that describes how the pixels should be interpreted.
//
// -------------------------------------------------------------------------
#ifndef __DIRECTX_VA_SAMPLEFORMAT__
#define __DIRECTX_VA_SAMPLEFORMAT__
#ifndef DXVABit
#define DXVABit(__x) (1 << __x)
#endif
typedef enum _DXVA_SampleFormat {
DXVA_SampleFormatMask = 0xFF, // 8 bits used for DXVA Sample format
DXVA_SampleUnknown = 0,
DXVA_SamplePreviousFrame = 1,
DXVA_SampleProgressiveFrame = 2,
DXVA_SampleFieldInterleavedEvenFirst = 3,
DXVA_SampleFieldInterleavedOddFirst = 4,
DXVA_SampleFieldSingleEven = 5,
DXVA_SampleFieldSingleOdd = 6,
DXVA_SampleSubStream = 7
} DXVA_SampleFormat;
#define DXVA_ExtractSampleFormat(_sf) ((_sf) & (DXVA_SampleFormatMask))
// -------------------------------------------------------------------------
//
// DXVA Extended color data - occupies the HIWORD of the SampleFormat DWORD
// use the DXVA_ExtractExtColorData macro to extract the individual color
// data fields.
//
// The packed form is:
// VideoTransferFunction (bits 15..12)
// VideoPrimaries (bits 11..8)
// VideoLighting (bits 7..5)
// VideoTransferMatrix (Y'Cb'Cr') OR VideoNominalRange (RGB images) (bits 4..2)
// VideoChromaSubsampling (bits 1..0)
//
// -------------------------------------------------------------------------
#define DXVA_ExtractExtColorData(_sf, _Mask, _Shift) \
(((_sf) >> (_Shift)) & (_Mask))
#define DXVA_ExtColorData_ShiftBase 16
typedef enum _DXVA_VideoTransferFunction
{
DXVA_VideoTransFuncMask = DXVABit(15)|DXVABit(14)|DXVABit(13)|DXVABit(12),
DXVA_VideoTransFuncShift = (DXVA_ExtColorData_ShiftBase + 12),
DXVA_VideoTransFunc_Unknown = 0,
DXVA_VideoTransFunc_10 = 1,
DXVA_VideoTransFunc_18 = 2,
DXVA_VideoTransFunc_20 = 3,
DXVA_VideoTransFunc_22 = 4,
DXVA_VideoTransFunc_22_8bit = 5,
DXVA_VideoTransFunc_22_8bit_240M = 6,
DXVA_VideoTransFunc_24_8bit_sRGB = 7,
DXVA_VideoTransFunc_28 = 8
} DXVA_VideoTransferFunction;
typedef enum _DXVA_VideoPrimaries
{
DXVA_VideoPrimariesMask = DXVABit(11)|DXVABit(10)|DXVABit(9)|DXVABit(8),
DXVA_VideoPrimariesShift = (DXVA_ExtColorData_ShiftBase + 8),
DXVA_VideoPrimaries_Unknown = 0,
DXVA_VideoPrimaries_BT601 = 1,
DXVA_VideoPrimaries_BT709 = 2,
DXVA_VideoPrimaries_BT470_2_SysM = 3,
DXVA_VideoPrimaries_BT470_2_SysBG = 4,
DXVA_VideoPrimaries_SMPTE170M = 5,
DXVA_VideoPrimaries_SMPTE240M = 6,
DXVA_VideoPrimaries_EBU3213 = 7,
DXVA_VideoPrimaries_SMPTE_C = 8
} DXVA_VideoPrimaries;
typedef enum _DXVA_VideoLighting
{
DXVA_VideoLightingMask = DXVABit(7)|DXVABit(6)|DXVABit(5),
DXVA_VideoLightingShift = (DXVA_ExtColorData_ShiftBase + 5),
DXVA_VideoLighting_Unknown = 0,
DXVA_VideoLighting_bright = 1,
DXVA_VideoLighting_office = 2,
DXVA_VideoLighting_dim = 3,
DXVA_VideoLighting_dark = 4
} DXVA_VideoLighting;
// -------------------------------------------------------------------------
// Note:
//
// DXVA_NominalRange and DXVA_VideoTransferMatrix are unioned together.
//
// -------------------------------------------------------------------------
//
typedef enum _DXVA_VideoTransferMatrix
{
DXVA_VideoTransferMatrixMask = DXVABit(4)|DXVABit(3)|DXVABit(2),
DXVA_VideoTransferMatrixShift = (DXVA_ExtColorData_ShiftBase + 2),
DXVA_VideoTransferMatrix_Unknown = 0,
DXVA_VideoTransferMatrix_BT709 = 1,
DXVA_VideoTransferMatrix_BT601 = 2,
DXVA_VideoTransferMatrix_SMPTE240M = 3
} DXVA_VideoTransferMatrix;
typedef enum _DXVA_NominalRange
{
DXVA_NominalRangeMask = DXVABit(4)|DXVABit(3)|DXVABit(2),
DXVA_NominalRangeShift = (DXVA_ExtColorData_ShiftBase + 2),
DXVA_NominalRange_Normal = 0,
DXVA_NominalRange_Wide = 1
} DXVA_NominalRange;
typedef enum _DXVA_VideoChromaSubsampling
{
DXVA_VideoChromaSubsamplingMask = DXVABit(1)|DXVABit(0),
DXVA_VideoChromaSubsamplingShift = (DXVA_ExtColorData_ShiftBase + 0),
DXVA_VideoChromaSubsampling_Unknown = 0,
DXVA_VideoChromaSubsampling_non_cosited = 1,
DXVA_VideoChromaSubsampling_cosited = 2
} DXVA_VideoChromaSubsampling;
#endif
// -------------------------------------------------------------------------
//
// The definitions that follow describe the video de-interlace interface
// between the VMR and the graphics device driver. This interface is not
// accessable via the IAMVideoAccelerator interface.
//
// -------------------------------------------------------------------------
//
#ifndef __DIRECTX_VA_DEINTERLACE__
#define __DIRECTX_VA_DEINTERLACE__
typedef LONGLONG REFERENCE_TIME;
DEFINE_GUID(DXVA_DeinterlaceBobDevice,
0x335aa36e,0x7884,0x43a4,0x9c,0x91,0x7f,0x87,0xfa,0xf3,0xe3,0x7e);
DEFINE_GUID(DXVA_DeinterlaceContainerDevice,
0x0e85cb93,0x3046,0x4ff0,0xae,0xcc,0xd5,0x8c,0xb5,0xf0,0x35,0xfd);
#if (DIRECT3D_VERSION < 0x0800) || !defined(DIRECT3D_VERSION)
typedef DWORD D3DFORMAT;
enum {
D3DPOOL_DEFAULT = 0,
D3DPOOL_MANAGED = 1,
D3DPOOL_SYSTEMMEM = 2,
D3DPOOL_SCRATCH = 3,
D3DPOOL_LOCALVIDMEM = 4,
D3DPOOL_NONLOCALVIDMEM = 5,
D3DPOOL_FORCE_DWORD = 0x7fffffff
};
#endif
// -------------------------------------------------------------------------
// data structures shared by User mode and Kernel mode.
// -------------------------------------------------------------------------
//
typedef struct _DXVA_Frequency {
DWORD Numerator;
DWORD Denominator;
} DXVA_Frequency;
typedef struct _DXVA_VideoDesc {
DWORD Size;
DWORD SampleWidth;
DWORD SampleHeight;
DWORD SampleFormat; // also contains extend color data
D3DFORMAT d3dFormat;
DXVA_Frequency InputSampleFreq;
DXVA_Frequency OutputFrameFreq;
} DXVA_VideoDesc, *LPDXVA_VideoDesc;
typedef enum _DXVA_VideoProcessCaps {
DXVA_VideoProcess_None = 0x0000,
DXVA_VideoProcess_YUV2RGB = 0x0001,
DXVA_VideoProcess_StretchX = 0x0002,
DXVA_VideoProcess_StretchY = 0x0004,
DXVA_VideoProcess_AlphaBlend = 0x0008,
DXVA_VideoProcess_SubRects = 0x0010,
DXVA_VideoProcess_SubStreams = 0x0020,
DXVA_VideoProcess_SubStreamsExtended = 0x0040,
DXVA_VideoProcess_YUV2RGBExtended = 0x0080,
DXVA_VideoProcess_AlphaBlendExtended = 0x0100
} DXVA_VideoProcessCaps;
typedef enum _DXVA_DeinterlaceTech {
// the algorithm is unknown or proprietary
DXVA_DeinterlaceTech_Unknown = 0x0000,
// the algorithm creates the missing lines by repeating
// the line either above or below it - this method will look very jaggy and
// isn't recommended
DXVA_DeinterlaceTech_BOBLineReplicate = 0x0001,
// The algorithm creates the missing lines by vertically stretching each
// video field by a factor of two by averaging two lines
DXVA_DeinterlaceTech_BOBVerticalStretch = 0x0002,
// or using a [-1, 9, 9, -1]/16 filter across four lines.
DXVA_DeinterlaceTech_BOBVerticalStretch4Tap = 0x0100,
// the pixels in the missing line are recreated by a median filtering operation
DXVA_DeinterlaceTech_MedianFiltering = 0x0004,
// the pixels in the missing line are recreated by an edge filter.
// In this process, spatial directional filters are applied to determine
// the orientation of edges in the picture content, and missing
// pixels are created by filtering along (rather than across) the
// detected edges.
DXVA_DeinterlaceTech_EdgeFiltering = 0x0010,
// the pixels in the missing line are recreated by switching on a field by
// field basis between using either spatial or temporal interpolation
// depending on the amount of motion.
DXVA_DeinterlaceTech_FieldAdaptive = 0x0020,
// the pixels in the missing line are recreated by switching on a pixel by pixel
// basis between using either spatial or temporal interpolation depending on
// the amount of motion..
DXVA_DeinterlaceTech_PixelAdaptive = 0x0040,
// Motion Vector Steering identifies objects within a sequence of video
// fields. The missing pixels are recreated after first aligning the
// movement axes of the individual objects in the scene to make them
// parallel with the time axis.
DXVA_DeinterlaceTech_MotionVectorSteered = 0x0080
} DXVA_DeinterlaceTech;
typedef struct _DXVA_VideoSample {
REFERENCE_TIME rtStart;
REFERENCE_TIME rtEnd;
DXVA_SampleFormat SampleFormat; // only lower 8 bits used
VOID* lpDDSSrcSurface;
} DXVA_VideoSample, *LPDXVA_VideoSample;
// -------------------------------------------------------------------------
// DeinterlaceBltEx declarations
// -------------------------------------------------------------------------
//
typedef enum _DXVA_SampleFlags {
DXVA_SampleFlagsMask = DXVABit(3)|DXVABit(2)|DXVABit(1)|DXVABit(0),
DXVA_SampleFlag_Palette_Changed = 0x0001,
DXVA_SampleFlag_SrcRect_Changed = 0x0002,
DXVA_SampleFlag_DstRect_Changed = 0x0004,
DXVA_SampleFlag_ColorData_Changed = 0x0008,
} DXVA_SampleFlags;
typedef enum _DXVA_DestinationFlags {
DXVA_DestinationFlagMask = DXVABit(3)|DXVABit(2)|DXVABit(1)|DXVABit(0),
DXVA_DestinationFlag_Background_Changed = 0x0001,
DXVA_DestinationFlag_TargetRect_Changed = 0x0002,
DXVA_DestinationFlag_ColorData_Changed = 0x0004,
DXVA_DestinationFlag_Alpha_Changed = 0x0008
} DXVA_DestinationFlags;
typedef struct _DXVA_VideoSample2 {
REFERENCE_TIME rtStart;
REFERENCE_TIME rtEnd;
DWORD SampleFormat;
DWORD SampleFlags;
VOID* lpDDSSrcSurface;
RECT rcSrc;
RECT rcDst;
DXVA_AYUVsample2 Palette[16];
} DXVA_VideoSample2, *LPDXVA_VideoSample2;
typedef struct _DXVA_DeinterlaceCaps {
DWORD Size;
DWORD NumPreviousOutputFrames;
DWORD InputPool;
DWORD NumForwardRefSamples;
DWORD NumBackwardRefSamples;
D3DFORMAT d3dOutputFormat;
DXVA_VideoProcessCaps VideoProcessingCaps;
DXVA_DeinterlaceTech DeinterlaceTechnology;
} DXVA_DeinterlaceCaps, *LPDXVA_DeinterlaceCaps;
// -------------------------------------------------------------------------
// Data types used with RenderMoComp in kernel mode
// -------------------------------------------------------------------------
//
// Function codes for RenderMoComp
#define MAX_DEINTERLACE_SURFACES 32
typedef struct _DXVA_DeinterlaceBlt {
DWORD Size;
DWORD Reserved;
REFERENCE_TIME rtTarget;
RECT DstRect;
RECT SrcRect;
DWORD NumSourceSurfaces;
FLOAT Alpha;
DXVA_VideoSample Source[MAX_DEINTERLACE_SURFACES];
} DXVA_DeinterlaceBlt;
#define DXVA_DeinterlaceBltFnCode 0x01
// lpInput => DXVA_DeinterlaceBlt*
// lpOuput => NULL /* not currently used */
typedef struct _DXVA_DeinterlaceBltEx {
DWORD Size;
DXVA_AYUVsample2 BackgroundColor;
RECT rcTarget;
REFERENCE_TIME rtTarget;
DWORD NumSourceSurfaces;
FLOAT Alpha;
DXVA_VideoSample2 Source[MAX_DEINTERLACE_SURFACES];
DWORD DestinationFormat;
DWORD DestinationFlags;
} DXVA_DeinterlaceBltEx;
#define DXVA_DeinterlaceBltExFnCode 0x02
// lpInput => DXVA_DeinterlaceBltEx*
// lpOuput => NULL /* not currently used */
#define MAX_DEINTERLACE_DEVICE_GUIDS 32
typedef struct _DXVA_DeinterlaceQueryAvailableModes {
DWORD Size;
DWORD NumGuids;
GUID Guids[MAX_DEINTERLACE_DEVICE_GUIDS];
} DXVA_DeinterlaceQueryAvailableModes;
#define DXVA_DeinterlaceQueryAvailableModesFnCode 0x01
// lpInput => DXVA_VideoDesc*
// lpOuput => DXVA_DeinterlaceQueryAvailableModes*
typedef struct _DXVA_DeinterlaceQueryModeCaps {
DWORD Size;
GUID Guid;
DXVA_VideoDesc VideoDesc;
} DXVA_DeinterlaceQueryModeCaps;
#define DXVA_DeinterlaceQueryModeCapsFnCode 0x02
// lpInput => DXVA_DeinterlaceQueryModeCaps*
// lpOuput => DXVA_DeinterlaceCaps*
#endif /* __DIRECTX_VA_DEINTERLACE__ */
// -------------------------------------------------------------------------
//
// The definitions that follow describe the video ProcAmp interface
// between the VMR and the graphics device driver. This interface is not
// accessable via the IAMVideoAccelerator interface.
//
// -------------------------------------------------------------------------
//
#ifndef __DIRECTX_VA_PROCAMPCONTROL__
#define __DIRECTX_VA_PROCAMPCONTROL__
DEFINE_GUID(DXVA_ProcAmpControlDevice,
0x9f200913,0x2ffd,0x4056,0x9f,0x1e,0xe1,0xb5,0x08,0xf2,0x2d,0xcf);
typedef enum _DXVA_ProcAmpControlProp {
DXVA_ProcAmp_None = 0x0000,
DXVA_ProcAmp_Brightness = 0x0001,
DXVA_ProcAmp_Contrast = 0x0002,
DXVA_ProcAmp_Hue = 0x0004,
DXVA_ProcAmp_Saturation = 0x0008
} DXVA_ProcAmpControlProp;
typedef struct _DXVA_ProcAmpControlCaps {
DWORD Size;
DWORD InputPool;
D3DFORMAT d3dOutputFormat;
DWORD ProcAmpControlProps;// see DXVA_ProcAmpControlProp
DWORD VideoProcessingCaps;// see DXVA_VideoProcessCaps
} DXVA_ProcAmpControlCaps, *LPDXVA_ProcAmpControlCaps;
#define DXVA_ProcAmpControlQueryCapsFnCode 0x03
// lpInput => DXVA_VideoDesc*
// lpOuput => DXVA_ProcAmpControlCaps*
typedef struct _DXVA_ProcAmpControlQueryRange {
DWORD Size;
DXVA_ProcAmpControlProp ProcAmpControlProp;
DXVA_VideoDesc VideoDesc;
} DXVA_ProcAmpControlQueryRange, *LPDXVA_ProcAmpControlQueryRange;
typedef struct _DXVA_VideoPropertyRange {
FLOAT MinValue;
FLOAT MaxValue;
FLOAT DefaultValue;
FLOAT StepSize;
} DXVA_VideoPropertyRange, *LPDXVA_VideoPropertyRange;
#define DXVA_ProcAmpControlQueryRangeFnCode 0x04
// lpInput => DXVA_ProcAmpControlQueryRange*
// lpOuput => DXVA_VideoPropertyRange*
typedef struct _DXVA_ProcAmpControlBlt {
DWORD Size;
RECT DstRect;
RECT SrcRect;
FLOAT Alpha;
FLOAT Brightness;
FLOAT Contrast;
FLOAT Hue;
FLOAT Saturation;
} DXVA_ProcAmpControlBlt;
#define DXVA_ProcAmpControlBltFnCode 0x01
// lpInput => DXVA_ProcAmpControlBlt*
// lpOuput => NULL /* not currently used */
#endif /* __DIRECTX_VA_PROCAMPCONTROL__ */
// -------------------------------------------------------------------------
//
// The definitions that follow describe the Certified Output Protection
// Protocol between the VMR and the graphics device driver. This interface
// is not accessable via the IAMVideoAccelerator interface.
//
// -------------------------------------------------------------------------
//
#ifndef __DIRECTX_VA_CERTOUTPUTPROTECT__
#define __DIRECTX_VA_CERTOUTPUTPROTECT__
DEFINE_GUID(DXVA_COPPDevice,
0xd2457add,0x8999,0x45ed,0x8a,0x8a,0xd1,0xaa,0x04,0x7b,0xa4,0xd5);
// -------------------------------------------------------------------------
// COPPGetCertificateLength
// -------------------------------------------------------------------------
#define DXVA_COPPGetCertificateLengthFnCode 0x01
// lpInput => NULL
// lpOuput => DWORD*
// -------------------------------------------------------------------------
// COPPKeyExchange
// -------------------------------------------------------------------------
#define DXVA_COPPKeyExchangeFnCode 0x02
// lpInputData => NULL
// lpOuputData => GUID*
// -------------------------------------------------------------------------
// COPPSequenceStart
// -------------------------------------------------------------------------
typedef struct _DXVA_COPPSignature {
UCHAR Signature[256];
} DXVA_COPPSignature, *LPDXVA_COPPSignature;
#define DXVA_COPPSequenceStartFnCode 0x03
// lpInputData => DXVA_COPPSignature*
// lpOuputData => NULL
// -------------------------------------------------------------------------
// COPPCommand
// -------------------------------------------------------------------------
typedef struct _DXVA_COPPCommand {
GUID macKDI; // 16 bytes
GUID guidCommandID; // 16 bytes
ULONG dwSequence; // 4 bytes
ULONG cbSizeData; // 4 bytes
UCHAR CommandData[4056]; // 4056 bytes (4056+4+4+16+16 = 4096)
} DXVA_COPPCommand, *LPDXVA_COPPCommand;
#define DXVA_COPPCommandFnCode 0x04
// lpInputData => DXVA_COPPCommand*
// lpOuputData => NULL
DEFINE_GUID(DXVA_COPPSetProtectionLevel,
0x9bb9327c,0x4eb5,0x4727,0x9f,0x00,0xb4,0x2b,0x09,0x19,0xc0,0xda);
typedef struct _DXVA_COPPSetProtectionLevelCmdData {
ULONG ProtType;
ULONG ProtLevel;
ULONG TypeSpecificMask;
ULONG TypeSpecificInfo;
} DXVA_COPPSetProtectionLevelCmdData;
// Set the HDCP protection level - (0 - 1 DWORD, 4 bytes)
typedef enum _COPP_HDCP_Protection_Level {
COPP_HDCP_Level0 = 0,
COPP_HDCP_LevelMin = COPP_HDCP_Level0,
COPP_HDCP_Level1 = 1,
COPP_HDCP_LevelMax = COPP_HDCP_Level1,
COPP_HDCP_ForceDWORD = 0x7fffffff
} COPP_HDCP_Protection_Level;
typedef enum _COPP_CGMSA_Protection_Level {
COPP_CGMSA_CopyFreely = 0,
COPP_CGMSA_LevelMin = COPP_CGMSA_CopyFreely,
COPP_CGMSA_CopyOneGeneration = 2,
COPP_CGMSA_CopyNever = 3,
COPP_CGMSA_RedistributionControlRequired = 0x04,
COPP_CGMSA_LevelMax = (COPP_CGMSA_RedistributionControlRequired + COPP_CGMSA_CopyNever),
COPP_CGMSA_ForceDWORD = 0x7fffffff
} COPP_CGMSA_Protection_Level;
#define COPP_WSS_FLAG 0x01 // used with DXVA_COPPSetProtectionLevelCmdData::TypeSpecificInfo
typedef enum _COPP_ACP_Protection_Level {
COPP_ACP_Level0 = 0,
COPP_ACP_LevelMin = COPP_ACP_Level0,
COPP_ACP_Level1 = 1,
COPP_ACP_Level2 = 2,
COPP_ACP_Level3 = 3,
COPP_ACP_LevelMax = COPP_ACP_Level3,
COPP_ACP_ForceDWORD = 0x7fffffff
} COPP_ACP_Protection_Level;
#define COPP_NoProtectionLevelAvailable -1
#define COPP_DefaultProtectionLevel 0
//
// Bit flags of possible protection types. Note that it is possible to apply
// different protection settings to a single connector.
//
enum {
COPP_ProtectionType_Unknown = 0x80000000,
COPP_ProtectionType_None = 0x00000000,
COPP_ProtectionType_HDCP = 0x00000001,
COPP_ProtectionType_ACP = 0x00000002,
COPP_ProtectionType_CGMSA = 0x00000004,
COPP_ProtectionType_Mask = 0x80000007,
COPP_ProtectionType_Reserved = 0x7FFFFFF8
};
// -------------------------------------------------------------------------
// COPPQueryStatus
// -------------------------------------------------------------------------
typedef struct _DXVA_COPPStatusInput {
GUID rApp; // 16 bytes
GUID guidStatusRequestID;// 16 bytes
ULONG dwSequence; // 4 bytes
ULONG cbSizeData; // 4 bytes
UCHAR StatusData[4056]; // 4056 bytes (4056+4+4+16+16 = 4096)
} DXVA_COPPStatusInput, *LPDXVA_COPPStatusInput;
typedef struct _DXVA_COPPStatusOutput {
GUID macKDI; // 16 bytes
ULONG cbSizeData; // 4 bytes
UCHAR COPPStatus[4076]; // 4076 bytes (4076+16+4 = 4096)
} DXVA_COPPStatusOutput, *LPDXVA_COPPStatusOutput;
typedef enum _COPP_StatusFlags {
COPP_StatusNormal = 0x00,
COPP_LinkLost = 0x01,
COPP_RenegotiationRequired = 0x02,
COPP_StatusFlagsReserved = 0xFFFFFFFC
} COPP_StatusFlags;
typedef struct _DXVA_COPPStatusData {
GUID rApp;
ULONG dwFlags; // See COPP_StatusFlags above
ULONG dwData;
ULONG TypeSpecificMask;
ULONG TypeSpecificInfo;
} DXVA_COPPStatusData;
typedef struct _DXVA_COPPStatusDisplayData {
GUID rApp;
ULONG dwFlags; // See COPP_StatusFlags above
ULONG DisplayWidth;
ULONG Displayheight;
ULONG Format; // also contains extended color data
ULONG d3dFormat;
ULONG FreqNumerator;
ULONG FreqDenominator;
} DXVA_COPPStatusDisplayData;
typedef enum _COPP_StatusHDCPFlags {
COPP_HDCPReceiver = 0x00,
COPP_HDCPRepeater = 0x01
} COPP_StatusHDCPFlags;
typedef struct _DXVA_COPPStatusHDCPKeyData {
GUID rApp;
ULONG dwFlags; // See COPP_StatusFlags above
ULONG dwHDCPFlags; // See COPP_StatusHDCPFlags above
GUID BKey; // Lower 40 bits
GUID reserved1;
GUID reserved2;
} DXVA_COPPStatusHDCPKeyData;
#define DXVA_COPPQueryStatusFnCode 0x05
// lpInputData => DXVA_COPPStatusInput*
// lpOuputData => DXVA_COPPStatusOutput*
//
// Status GUID and enumerations
//
DEFINE_GUID(DXVA_COPPQueryConnectorType,
0x81d0bfd5,0x6afe,0x48c2,0x99,0xc0,0x95,0xa0,0x8f,0x97,0xc5,0xda);
typedef enum _COPP_ConnectorType {
COPP_ConnectorType_Unknown = -1,
COPP_ConnectorType_VGA = 0,
COPP_ConnectorType_SVideo = 1,
COPP_ConnectorType_CompositeVideo = 2,
COPP_ConnectorType_ComponentVideo = 3,
COPP_ConnectorType_DVI = 4,
COPP_ConnectorType_HDMI = 5,
COPP_ConnectorType_LVDS = 6,
COPP_ConnectorType_TMDS = 7,
COPP_ConnectorType_D_JPN = 8,
COPP_ConnectorType_Internal = 0x80000000, // can be combined with the other connector types
COPP_ConnectorType_ForceDWORD = 0x7fffffff /* force 32-bit size enum */
} COPP_ConnectorType;
DEFINE_GUID(DXVA_COPPQueryProtectionType,
0x38f2a801,0x9a6c,0x48bb,0x91,0x07,0xb6,0x69,0x6e,0x6f,0x17,0x97);
DEFINE_GUID(DXVA_COPPQueryLocalProtectionLevel,
0xb2075857,0x3eda,0x4d5d,0x88,0xdb,0x74,0x8f,0x8c,0x1a,0x05,0x49);
DEFINE_GUID(DXVA_COPPQueryGlobalProtectionLevel,
0x1957210a,0x7766,0x452a,0xb9,0x9a,0xd2,0x7a,0xed,0x54,0xf0,0x3a);
DEFINE_GUID(DXVA_COPPQueryDisplayData,
0xd7bf1ba3,0xad13,0x4f8e,0xaf,0x98,0x0d,0xcb,0x3c,0xa2,0x04,0xcc);
DEFINE_GUID(DXVA_COPPQueryHDCPKeyData,
0xdb59d74, 0xa992, 0x492e, 0xa0, 0xbd, 0xc2, 0x3f, 0xda, 0x56, 0x4e, 0x0);
DEFINE_GUID(DXVA_COPPQueryBusData,
0xc6f4d673, 0x6174, 0x4184, 0x8e, 0x35, 0xf6, 0xdb, 0x52, 0x0, 0xbc, 0xba);
typedef enum _COPP_BusType {
COPP_BusType_Unknown = 0,
COPP_BusType_PCI = 1,
COPP_BusType_PCIX = 2,
COPP_BusType_PCIExpress = 3,
COPP_BusType_AGP = 4,
COPP_BusType_Integrated = 0x80000000, // can be combined with the other bus types
COPP_BusType_ForceDWORD = 0x7fffffff /* force 32-bit size enum */
} COPP_BusType;
#endif /* __DIRECTX_VA_CERTOUTPUTPROTECT__ */
#ifdef __cplusplus
}
#endif
#endif /* __DIRECTX_VA__ */