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      1 /*
      2  * Copyright (c) 2007-2009 Intel Corporation. All Rights Reserved.
      3  *
      4  * Permission is hereby granted, free of charge, to any person obtaining a
      5  * copy of this software and associated documentation files (the
      6  * "Software"), to deal in the Software without restriction, including
      7  * without limitation the rights to use, copy, modify, merge, publish,
      8  * distribute, sub license, and/or sell copies of the Software, and to
      9  * permit persons to whom the Software is furnished to do so, subject to
     10  * the following conditions:
     11  *
     12  * The above copyright notice and this permission notice (including the
     13  * next paragraph) shall be included in all copies or substantial portions
     14  * of the Software.
     15  *
     16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
     17  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
     18  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
     19  * IN NO EVENT SHALL INTEL AND/OR ITS SUPPLIERS BE LIABLE FOR
     20  * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
     21  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
     22  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
     23  */
     24 /*
     25  * Video Acceleration (VA) API Specification
     26  *
     27  * Rev. 0.30
     28  * <jonathan.bian (at) intel.com>
     29  *
     30  * Revision History:
     31  * rev 0.10 (12/10/2006 Jonathan Bian) - Initial draft
     32  * rev 0.11 (12/15/2006 Jonathan Bian) - Fixed some errors
     33  * rev 0.12 (02/05/2007 Jonathan Bian) - Added VC-1 data structures for slice level decode
     34  * rev 0.13 (02/28/2007 Jonathan Bian) - Added GetDisplay()
     35  * rev 0.14 (04/13/2007 Jonathan Bian) - Fixed MPEG-2 PictureParameter structure, cleaned up a few funcs.
     36  * rev 0.15 (04/20/2007 Jonathan Bian) - Overhauled buffer management
     37  * rev 0.16 (05/02/2007 Jonathan Bian) - Added error codes and fixed some issues with configuration
     38  * rev 0.17 (05/07/2007 Jonathan Bian) - Added H.264/AVC data structures for slice level decode.
     39  * rev 0.18 (05/14/2007 Jonathan Bian) - Added data structures for MPEG-4 slice level decode
     40  *                                       and MPEG-2 motion compensation.
     41  * rev 0.19 (08/06/2007 Jonathan Bian) - Removed extra type for bitplane data.
     42  * rev 0.20 (08/08/2007 Jonathan Bian) - Added missing fields to VC-1 PictureParameter structure.
     43  * rev 0.21 (08/20/2007 Jonathan Bian) - Added image and subpicture support.
     44  * rev 0.22 (08/27/2007 Jonathan Bian) - Added support for chroma-keying and global alpha.
     45  * rev 0.23 (09/11/2007 Jonathan Bian) - Fixed some issues with images and subpictures.
     46  * rev 0.24 (09/18/2007 Jonathan Bian) - Added display attributes.
     47  * rev 0.25 (10/18/2007 Jonathan Bian) - Changed to use IDs only for some types.
     48  * rev 0.26 (11/07/2007 Waldo Bastian) - Change vaCreateBuffer semantics
     49  * rev 0.27 (11/19/2007 Matt Sottek)   - Added DeriveImage
     50  * rev 0.28 (12/06/2007 Jonathan Bian) - Added new versions of PutImage and AssociateSubpicture
     51  *                                       to enable scaling
     52  * rev 0.29 (02/07/2008 Jonathan Bian) - VC1 parameter fixes,
     53  *                                       added VA_STATUS_ERROR_RESOLUTION_NOT_SUPPORTED
     54  * rev 0.30 (03/01/2009 Jonathan Bian) - Added encoding support for H.264 BP and MPEG-4 SP and fixes
     55  *                                       for ISO C conformance.
     56  * rev 0.31 (09/02/2009 Gwenole Beauchesne) - VC-1/H264 fields change for VDPAU and XvBA backend
     57  *                                       Application needs to relink with the new library.
     58  *
     59  * rev 0.31.1 (03/29/2009)              - Data structure for JPEG encode
     60  * rev 0.31.2 (01/13/2011 Anthony Pabon)- Added a flag to indicate Subpicture coordinates are screen
     61  *                                        screen relative rather than source video relative.
     62  * rev 0.32.0 (01/13/2011 Xiang Haihao) - Add profile into VAPictureParameterBufferVC1
     63  *                                        update VAAPI to 0.32.0
     64  *
     65  * Acknowledgements:
     66  *  Some concepts borrowed from XvMC and XvImage.
     67  *  Waldo Bastian (Intel), Matt Sottek (Intel),  Austin Yuan (Intel), and Gwenole Beauchesne (SDS)
     68  *  contributed to various aspects of the API.
     69  */
     70 
     71 /**
     72  * \file va.h
     73  * \brief The Core API
     74  *
     75  * This file contains the \ref api_core "Core API".
     76  */
     77 
     78 #ifndef _VA_H_
     79 #define _VA_H_
     80 
     81 #include <stdint.h>
     82 #include <va/va_version.h>
     83 
     84 #ifdef __cplusplus
     85 extern "C" {
     86 #endif
     87 
     88 /**
     89  * \mainpage Video Acceleration (VA) API
     90  *
     91  * \section intro Introduction
     92  *
     93  * The main motivation for VA-API (Video Acceleration API) is to
     94  * enable hardware accelerated video decode and encode at various
     95  * entry-points (VLD, IDCT, Motion Compensation etc.) for the
     96  * prevailing coding standards today (MPEG-2, MPEG-4 ASP/H.263, MPEG-4
     97  * AVC/H.264, VC-1/VMW3, and JPEG).
     98  *
     99  * VA-API is split into several modules:
    100  * - \ref api_core
    101  * - \ref api_enc_h264
    102  * - \ref api_vpp
    103  */
    104 
    105 /**
    106  * \defgroup api_core Core API
    107  *
    108  * @{
    109  */
    110 
    111 /**
    112 Overview
    113 
    114 The VA API is intended to provide an interface between a video decode/encode/display
    115 application (client) and a hardware accelerator (server), to off-load
    116 video decode/encode/display operations from the host to the hardware accelerator at various
    117 entry-points.
    118 
    119 The basic operation steps are:
    120 
    121 - Negotiate a mutually acceptable configuration with the server to lock
    122   down profile, entrypoints, and other attributes that will not change on
    123   a frame-by-frame basis.
    124 - Create a decode context which represents a "virtualized" hardware decode
    125   device
    126 - Get and fill decode buffers with picture level, slice level and macroblock
    127   level data (depending on entrypoints)
    128 - Pass the decode buffers to the server to decode the current frame
    129 
    130 Initialization & Configuration Management
    131 
    132 - Find out supported profiles
    133 - Find out entrypoints for a given profile
    134 - Find out configuration attributes for a given profile/entrypoint pair
    135 - Create a configuration for use by the decoder
    136 
    137 */
    138 
    139 typedef void* VADisplay;	/* window system dependent */
    140 
    141 typedef int VAStatus;	/** Return status type from functions */
    142 /** Values for the return status */
    143 #define VA_STATUS_SUCCESS			0x00000000
    144 #define VA_STATUS_ERROR_OPERATION_FAILED	0x00000001
    145 #define VA_STATUS_ERROR_ALLOCATION_FAILED	0x00000002
    146 #define VA_STATUS_ERROR_INVALID_DISPLAY		0x00000003
    147 #define VA_STATUS_ERROR_INVALID_CONFIG		0x00000004
    148 #define VA_STATUS_ERROR_INVALID_CONTEXT		0x00000005
    149 #define VA_STATUS_ERROR_INVALID_SURFACE		0x00000006
    150 #define VA_STATUS_ERROR_INVALID_BUFFER		0x00000007
    151 #define VA_STATUS_ERROR_INVALID_IMAGE		0x00000008
    152 #define VA_STATUS_ERROR_INVALID_SUBPICTURE	0x00000009
    153 #define VA_STATUS_ERROR_ATTR_NOT_SUPPORTED	0x0000000a
    154 #define VA_STATUS_ERROR_MAX_NUM_EXCEEDED	0x0000000b
    155 #define VA_STATUS_ERROR_UNSUPPORTED_PROFILE	0x0000000c
    156 #define VA_STATUS_ERROR_UNSUPPORTED_ENTRYPOINT	0x0000000d
    157 #define VA_STATUS_ERROR_UNSUPPORTED_RT_FORMAT	0x0000000e
    158 #define VA_STATUS_ERROR_UNSUPPORTED_BUFFERTYPE	0x0000000f
    159 #define VA_STATUS_ERROR_SURFACE_BUSY		0x00000010
    160 #define VA_STATUS_ERROR_FLAG_NOT_SUPPORTED      0x00000011
    161 #define VA_STATUS_ERROR_INVALID_PARAMETER	0x00000012
    162 #define VA_STATUS_ERROR_RESOLUTION_NOT_SUPPORTED 0x00000013
    163 #define VA_STATUS_ERROR_UNIMPLEMENTED           0x00000014
    164 #define VA_STATUS_ERROR_SURFACE_IN_DISPLAYING   0x00000015
    165 #define VA_STATUS_ERROR_INVALID_IMAGE_FORMAT    0x00000016
    166 #define VA_STATUS_ERROR_DECODING_ERROR          0x00000017
    167 #define VA_STATUS_ERROR_ENCODING_ERROR          0x00000018
    168 /**
    169  * \brief An invalid/unsupported value was supplied.
    170  *
    171  * This is a catch-all error code for invalid or unsupported values.
    172  * e.g. value exceeding the valid range, invalid type in the context
    173  * of generic attribute values.
    174  */
    175 #define VA_STATUS_ERROR_INVALID_VALUE           0x00000019
    176 /** \brief An unsupported filter was supplied. */
    177 #define VA_STATUS_ERROR_UNSUPPORTED_FILTER      0x00000020
    178 /** \brief An invalid filter chain was supplied. */
    179 #define VA_STATUS_ERROR_INVALID_FILTER_CHAIN    0x00000021
    180 /** \brief Indicate HW busy (e.g. run multiple encoding simultaneously). */
    181 #define VA_STATUS_ERROR_HW_BUSY                 0x00000022
    182 #define VA_STATUS_ERROR_UNKNOWN			0xFFFFFFFF
    183 
    184 /** De-interlacing flags for vaPutSurface() */
    185 #define VA_FRAME_PICTURE        0x00000000
    186 #define VA_TOP_FIELD            0x00000001
    187 #define VA_BOTTOM_FIELD         0x00000002
    188 
    189 /**
    190  * Enabled the positioning/cropping/blending feature:
    191  * 1, specify the video playback position in the isurface
    192  * 2, specify the cropping info for video playback
    193  * 3, encoded video will blend with background color
    194  */
    195 #define VA_ENABLE_BLEND         0x00000004 /* video area blend with the constant color */
    196 
    197 /**
    198  * Clears the drawable with background color.
    199  * for hardware overlay based implementation this flag
    200  * can be used to turn off the overlay
    201  */
    202 #define VA_CLEAR_DRAWABLE       0x00000008
    203 
    204 /** Color space conversion flags for vaPutSurface() */
    205 #define VA_SRC_BT601            0x00000010
    206 #define VA_SRC_BT709            0x00000020
    207 #define VA_SRC_SMPTE_240        0x00000040
    208 
    209 /** Scaling flags for vaPutSurface() */
    210 #define VA_FILTER_SCALING_DEFAULT       0x00000000
    211 #define VA_FILTER_SCALING_FAST          0x00000100
    212 #define VA_FILTER_SCALING_HQ            0x00000200
    213 #define VA_FILTER_SCALING_NL_ANAMORPHIC 0x00000300
    214 #define VA_FILTER_SCALING_MASK          0x00000f00
    215 
    216 /**
    217  * Returns a short english description of error_status
    218  */
    219 const char *vaErrorStr(VAStatus error_status);
    220 
    221 /**
    222  * Initialization:
    223  * A display must be obtained by calling vaGetDisplay() before calling
    224  * vaInitialize() and other functions. This connects the API to the
    225  * native window system.
    226  * For X Windows, native_dpy would be from XOpenDisplay()
    227  */
    228 typedef void* VANativeDisplay;	/* window system dependent */
    229 
    230 int vaDisplayIsValid(VADisplay dpy);
    231 
    232 /**
    233  * Initialize the library
    234  */
    235 VAStatus vaInitialize (
    236     VADisplay dpy,
    237     int *major_version,	 /* out */
    238     int *minor_version 	 /* out */
    239 );
    240 
    241 /**
    242  * After this call, all library internal resources will be cleaned up
    243  */
    244 VAStatus vaTerminate (
    245     VADisplay dpy
    246 );
    247 
    248 /**
    249  * vaQueryVendorString returns a pointer to a zero-terminated string
    250  * describing some aspects of the VA implemenation on a specific
    251  * hardware accelerator. The format of the returned string is vendor
    252  * specific and at the discretion of the implementer.
    253  * e.g. for the Intel GMA500 implementation, an example would be:
    254  * "Intel GMA500 - 2.0.0.32L.0005"
    255  */
    256 const char *vaQueryVendorString (
    257     VADisplay dpy
    258 );
    259 
    260 typedef int (*VAPrivFunc)();
    261 
    262 /**
    263  * Return a function pointer given a function name in the library.
    264  * This allows private interfaces into the library
    265  */
    266 VAPrivFunc vaGetLibFunc (
    267     VADisplay dpy,
    268     const char *func
    269 );
    270 
    271 /** Currently defined profiles */
    272 typedef enum
    273 {
    274     /** \brief Profile ID used for video processing. */
    275     VAProfileNone                       = -1,
    276     VAProfileMPEG2Simple		= 0,
    277     VAProfileMPEG2Main			= 1,
    278     VAProfileMPEG4Simple		= 2,
    279     VAProfileMPEG4AdvancedSimple	= 3,
    280     VAProfileMPEG4Main			= 4,
    281     VAProfileH264Baseline		= 5,
    282     VAProfileH264Main			= 6,
    283     VAProfileH264High			= 7,
    284     VAProfileVC1Simple			= 8,
    285     VAProfileVC1Main			= 9,
    286     VAProfileVC1Advanced		= 10,
    287     VAProfileH263Baseline		= 11,
    288     VAProfileJPEGBaseline               = 12,
    289     VAProfileH264ConstrainedBaseline    = 13,
    290     VAProfileVP8Version0_3              = 14
    291 } VAProfile;
    292 
    293 /**
    294  *  Currently defined entrypoints
    295  */
    296 typedef enum
    297 {
    298     VAEntrypointVLD		= 1,
    299     VAEntrypointIZZ		= 2,
    300     VAEntrypointIDCT		= 3,
    301     VAEntrypointMoComp		= 4,
    302     VAEntrypointDeblocking	= 5,
    303     VAEntrypointEncSlice	= 6,	/* slice level encode */
    304     VAEntrypointEncPicture 	= 7,	/* pictuer encode, JPEG, etc */
    305     VAEntrypointVideoProc       = 10,   /**< Video pre/post-processing. */
    306 } VAEntrypoint;
    307 
    308 /** Currently defined configuration attribute types */
    309 typedef enum
    310 {
    311     VAConfigAttribRTFormat		= 0,
    312     VAConfigAttribSpatialResidual	= 1,
    313     VAConfigAttribSpatialClipping	= 2,
    314     VAConfigAttribIntraResidual		= 3,
    315     VAConfigAttribEncryption		= 4,
    316     VAConfigAttribRateControl		= 5,
    317 
    318     /** @name Attributes for encoding */
    319     /**@{*/
    320     /**
    321      * \brief Packed headers mode. Read/write.
    322      *
    323      * This attribute determines what packed headers the driver supports,
    324      * through vaGetConfigAttributes(); and what packed headers the user
    325      * will be providing to the driver, through vaCreateConfig(), if the
    326      * driver supports those.
    327      *
    328      * See \c VA_ENC_PACKED_HEADER_xxx for the list of packed headers.
    329      */
    330     VAConfigAttribEncPackedHeaders      = 10,
    331     /**
    332      * \brief Interlaced mode. Read/write.
    333      *
    334      * This attribute determines what kind of interlaced encoding mode
    335      * the driver supports.
    336      *
    337      * See \c VA_ENC_INTERLACED_xxx for the list of interlaced modes.
    338      */
    339     VAConfigAttribEncInterlaced         = 11,
    340     /**
    341      * \brief Maximum number of reference frames. Read-only.
    342      *
    343      * This attribute determines the maximum number of reference
    344      * frames supported for encoding.
    345      *
    346      * Note: for H.264 encoding, the value represents the maximum number
    347      * of reference frames for both the reference picture list 0 (bottom
    348      * 16 bits) and the reference picture list 1 (top 16 bits).
    349      */
    350     VAConfigAttribEncMaxRefFrames       = 13,
    351     /**
    352      * \brief Maximum number of slices per frame. Read-only.
    353      *
    354      * This attribute determines the maximum number of slices the
    355      * driver can support to encode a single frame.
    356      */
    357     VAConfigAttribEncMaxSlices          = 14,
    358     /**
    359      * \brief Slice structure. Read-only.
    360      *
    361      * This attribute determines slice structures supported by the
    362      * driver for encoding. This attribute is a hint to the user so
    363      * that he can choose a suitable surface size and how to arrange
    364      * the encoding process of multiple slices per frame.
    365      *
    366      * More specifically, for H.264 encoding, this attribute
    367      * determines the range of accepted values to
    368      * VAEncSliceParameterBufferH264::macroblock_address and
    369      * VAEncSliceParameterBufferH264::num_macroblocks.
    370      *
    371      * See \c VA_ENC_SLICE_STRUCTURE_xxx for the supported slice
    372      * structure types.
    373      */
    374     VAConfigAttribEncSliceStructure     = 15,
    375     /**
    376      * \brief Macroblock information. Read-only.
    377      *
    378      * This attribute determines whether the driver supports extra
    379      * encoding information per-macroblock. e.g. QP.
    380      *
    381      * More specifically, for H.264 encoding, if the driver returns a non-zero
    382      * value for this attribute, this means the application can create
    383      * additional #VAEncMacroblockParameterBufferH264 buffers referenced
    384      * through VAEncSliceParameterBufferH264::macroblock_info.
    385      */
    386     VAConfigAttribEncMacroblockInfo     = 16,
    387     /**@}*/
    388     VAConfigAttribTypeMax
    389 } VAConfigAttribType;
    390 
    391 /**
    392  * Configuration attributes
    393  * If there is more than one value for an attribute, a default
    394  * value will be assigned to the attribute if the client does not
    395  * specify the attribute when creating a configuration
    396  */
    397 typedef struct _VAConfigAttrib {
    398     VAConfigAttribType type;
    399     unsigned int value; /* OR'd flags (bits) for this attribute */
    400 } VAConfigAttrib;
    401 
    402 /** attribute value for VAConfigAttribRTFormat */
    403 #define VA_RT_FORMAT_YUV420	0x00000001
    404 #define VA_RT_FORMAT_YUV422	0x00000002
    405 #define VA_RT_FORMAT_YUV444	0x00000004
    406 #define VA_RT_FORMAT_YUV411	0x00000008
    407 #define VA_RT_FORMAT_YUV400	0x00000010
    408 #define VA_RT_FORMAT_RGB16	0x00010000
    409 #define VA_RT_FORMAT_RGB32	0x00020000
    410 /* RGBP covers RGBP and BGRP fourcc */
    411 #define VA_RT_FORMAT_RGBP	0x00100000
    412 #define VA_RT_FORMAT_PROTECTED	0x80000000
    413 
    414 /** @name Attribute values for VAConfigAttribRateControl */
    415 /**@{*/
    416 /** \brief Driver does not support any form of rate control. */
    417 #define VA_RC_NONE                      0x00000001
    418 /** \brief Constant bitrate. */
    419 #define VA_RC_CBR                       0x00000002
    420 /** \brief Variable bitrate. */
    421 #define VA_RC_VBR                       0x00000004
    422 /** \brief Video conference mode. */
    423 #define VA_RC_VCM                       0x00000008
    424 /** \brief Constant QP. */
    425 #define VA_RC_CQP                       0x00000010
    426 /** \brief Variable bitrate with peak rate higher than average bitrate. */
    427 #define VA_RC_VBR_CONSTRAINED           0x00000020
    428 /**@}*/
    429 
    430 /** @name Attribute values for VAConfigAttribEncPackedHeaders */
    431 /**@{*/
    432 /** \brief Driver does not support any packed headers mode. */
    433 #define VA_ENC_PACKED_HEADER_NONE       0x00000000
    434 /** \brief Driver supports packed sequence headers. e.g. SPS for H.264. */
    435 #define VA_ENC_PACKED_HEADER_SEQUENCE   0x00000001
    436 /** \brief Driver supports packed picture headers. e.g. PPS for H.264. */
    437 #define VA_ENC_PACKED_HEADER_PICTURE    0x00000002
    438 /** \brief Driver supports packed slice headers. e.g. \c slice_header() for H.264. */
    439 #define VA_ENC_PACKED_HEADER_SLICE      0x00000004
    440 /** \brief Driver supports misc packed headers. e.g. SEI for H.264. */
    441 #define VA_ENC_PACKED_HEADER_MISC       0x00000008
    442 /** \brief Driver supports raw packed header, see VAEncPackedHeaderRawData */
    443 #define VA_ENC_PACKED_HEADER_RAW_DATA   0x00000010
    444 /**@}*/
    445 
    446 /** @name Attribute values for VAConfigAttribEncInterlaced */
    447 /**@{*/
    448 /** \brief Driver does not support interlaced coding. */
    449 #define VA_ENC_INTERLACED_NONE          0x00000000
    450 /** \brief Driver supports interlaced frame coding. */
    451 #define VA_ENC_INTERLACED_FRAME         0x00000001
    452 /** \brief Driver supports interlaced field coding. */
    453 #define VA_ENC_INTERLACED_FIELD         0x00000002
    454 /** \brief Driver supports macroblock adaptive frame field coding. */
    455 #define VA_ENC_INTERLACED_MBAFF         0x00000004
    456 /** \brief Driver supports picture adaptive frame field coding. */
    457 #define VA_ENC_INTERLACED_PAFF          0x00000008
    458 /**@}*/
    459 
    460 /** @name Attribute values for VAConfigAttribEncSliceStructure */
    461 /**@{*/
    462 /** \brief Driver supports an arbitrary number of rows per slice. */
    463 #define VA_ENC_SLICE_STRUCTURE_ARBITRARY_ROWS           0x00000000
    464 /** \brief Driver supports a power-of-two number of rows per slice. */
    465 #define VA_ENC_SLICE_STRUCTURE_POWER_OF_TWO_ROWS        0x00000001
    466 /** \brief Driver supports an arbitrary number of rows per slice. */
    467 #define VA_ENC_SLICE_STRUCTURE_ARBITRARY_MACROBLOCKS    0x00000002
    468 /**@}*/
    469 
    470 /**
    471  * if an attribute is not applicable for a given
    472  * profile/entrypoint pair, then set the value to the following
    473  */
    474 #define VA_ATTRIB_NOT_SUPPORTED 0x80000000
    475 
    476 /** Get maximum number of profiles supported by the implementation */
    477 int vaMaxNumProfiles (
    478     VADisplay dpy
    479 );
    480 
    481 /** Get maximum number of entrypoints supported by the implementation */
    482 int vaMaxNumEntrypoints (
    483     VADisplay dpy
    484 );
    485 
    486 /** Get maximum number of attributs supported by the implementation */
    487 int vaMaxNumConfigAttributes (
    488     VADisplay dpy
    489 );
    490 
    491 /**
    492  * Query supported profiles
    493  * The caller must provide a "profile_list" array that can hold at
    494  * least vaMaxNumProfile() entries. The actual number of profiles
    495  * returned in "profile_list" is returned in "num_profile".
    496  */
    497 VAStatus vaQueryConfigProfiles (
    498     VADisplay dpy,
    499     VAProfile *profile_list,	/* out */
    500     int *num_profiles		/* out */
    501 );
    502 
    503 /**
    504  * Query supported entrypoints for a given profile
    505  * The caller must provide an "entrypoint_list" array that can hold at
    506  * least vaMaxNumEntrypoints() entries. The actual number of entrypoints
    507  * returned in "entrypoint_list" is returned in "num_entrypoints".
    508  */
    509 VAStatus vaQueryConfigEntrypoints (
    510     VADisplay dpy,
    511     VAProfile profile,
    512     VAEntrypoint *entrypoint_list,	/* out */
    513     int *num_entrypoints		/* out */
    514 );
    515 
    516 /**
    517  * Get attributes for a given profile/entrypoint pair
    518  * The caller must provide an "attrib_list" with all attributes to be
    519  * retrieved.  Upon return, the attributes in "attrib_list" have been
    520  * updated with their value.  Unknown attributes or attributes that are
    521  * not supported for the given profile/entrypoint pair will have their
    522  * value set to VA_ATTRIB_NOT_SUPPORTED
    523  */
    524 VAStatus vaGetConfigAttributes (
    525     VADisplay dpy,
    526     VAProfile profile,
    527     VAEntrypoint entrypoint,
    528     VAConfigAttrib *attrib_list, /* in/out */
    529     int num_attribs
    530 );
    531 
    532 /** Generic ID type, can be re-typed for specific implementation */
    533 typedef unsigned int VAGenericID;
    534 
    535 typedef VAGenericID VAConfigID;
    536 
    537 /**
    538  * Create a configuration for the decode pipeline
    539  * it passes in the attribute list that specifies the attributes it cares
    540  * about, with the rest taking default values.
    541  */
    542 VAStatus vaCreateConfig (
    543     VADisplay dpy,
    544     VAProfile profile,
    545     VAEntrypoint entrypoint,
    546     VAConfigAttrib *attrib_list,
    547     int num_attribs,
    548     VAConfigID *config_id /* out */
    549 );
    550 
    551 /**
    552  * Free resources associdated with a given config
    553  */
    554 VAStatus vaDestroyConfig (
    555     VADisplay dpy,
    556     VAConfigID config_id
    557 );
    558 
    559 /**
    560  * Query all attributes for a given configuration
    561  * The profile of the configuration is returned in "profile"
    562  * The entrypoint of the configuration is returned in "entrypoint"
    563  * The caller must provide an "attrib_list" array that can hold at least
    564  * vaMaxNumConfigAttributes() entries. The actual number of attributes
    565  * returned in "attrib_list" is returned in "num_attribs"
    566  */
    567 VAStatus vaQueryConfigAttributes (
    568     VADisplay dpy,
    569     VAConfigID config_id,
    570     VAProfile *profile, 	/* out */
    571     VAEntrypoint *entrypoint, 	/* out */
    572     VAConfigAttrib *attrib_list,/* out */
    573     int *num_attribs 		/* out */
    574 );
    575 
    576 
    577 /**
    578  * Contexts and Surfaces
    579  *
    580  * Context represents a "virtual" video decode pipeline. Surfaces are render
    581  * targets for a given context. The data in the surfaces are not accessible
    582  * to the client and the internal data format of the surface is implementatin
    583  * specific.
    584  *
    585  * Surfaces will be bound to a context when the context is created. Once
    586  * a surface is bound to a given context, it can not be used to create
    587  * another context. The association is removed when the context is destroyed
    588  *
    589  * Both contexts and surfaces are identified by unique IDs and its
    590  * implementation specific internals are kept opaque to the clients
    591  */
    592 
    593 typedef VAGenericID VAContextID;
    594 
    595 typedef VAGenericID VASurfaceID;
    596 
    597 #define VA_INVALID_ID		0xffffffff
    598 #define VA_INVALID_SURFACE	VA_INVALID_ID
    599 
    600 /** \brief Generic value types. */
    601 typedef enum  {
    602     VAGenericValueTypeInteger = 1,      /**< 32-bit signed integer. */
    603     VAGenericValueTypeFloat,            /**< 32-bit floating-point value. */
    604     VAGenericValueTypePointer,          /**< Generic pointer type */
    605     VAGenericValueTypeFunc              /**< Pointer to function */
    606 } VAGenericValueType;
    607 
    608 /** \brief Generic function type. */
    609 typedef void (*VAGenericFunc)(void);
    610 
    611 /** \brief Generic value. */
    612 typedef struct _VAGenericValue {
    613     /** \brief Value type. See #VAGenericValueType. */
    614     VAGenericValueType  type;
    615     /** \brief Value holder. */
    616     union {
    617         /** \brief 32-bit signed integer. */
    618         int             i;
    619         /** \brief 32-bit float. */
    620         float           f;
    621         /** \brief Generic pointer. */
    622         void           *p;
    623         /** \brief Pointer to function. */
    624         VAGenericFunc   fn;
    625     }                   value;
    626 } VAGenericValue;
    627 
    628 /** @name Surface attribute flags */
    629 /**@{*/
    630 /** \brief Surface attribute is not supported. */
    631 #define VA_SURFACE_ATTRIB_NOT_SUPPORTED 0x00000000
    632 /** \brief Surface attribute can be got through vaQuerySurfaceAttributes(). */
    633 #define VA_SURFACE_ATTRIB_GETTABLE      0x00000001
    634 /** \brief Surface attribute can be set through vaCreateSurfaces(). */
    635 #define VA_SURFACE_ATTRIB_SETTABLE      0x00000002
    636 /**@}*/
    637 
    638 /** \brief Surface attribute types. */
    639 typedef enum {
    640     VASurfaceAttribNone = 0,
    641     /**
    642      * \brief Pixel format (fourcc).
    643      *
    644      * The value is meaningful as input to vaQuerySurfaceAttributes().
    645      * If zero, the driver returns the optimal pixel format for the
    646      * specified config. Otherwise, if non-zero, the value represents
    647      * a pixel format (FOURCC) that is kept as is on output, if the
    648      * driver supports it. Otherwise, the driver sets the value to
    649      * zero and drops the \c VA_SURFACE_ATTRIB_SETTABLE flag.
    650      */
    651     VASurfaceAttribPixelFormat,
    652     /** \brief Minimal width in pixels (int, read-only). */
    653     VASurfaceAttribMinWidth,
    654     /** \brief Maximal width in pixels (int, read-only). */
    655     VASurfaceAttribMaxWidth,
    656     /** \brief Minimal height in pixels (int, read-only). */
    657     VASurfaceAttribMinHeight,
    658     /** \brief Maximal height in pixels (int, read-only). */
    659     VASurfaceAttribMaxHeight,
    660     /** \brief Surface memory type expressed in bit fields (int, read/write). */
    661     VASurfaceAttribMemoryType,
    662     /** \brief External buffer descriptor (pointer, write). */
    663     VASurfaceAttribExternalBufferDescriptor,
    664     /** \brief Number of surface attributes. */
    665     VASurfaceAttribCount
    666 } VASurfaceAttribType;
    667 
    668 /** \brief Surface attribute. */
    669 typedef struct _VASurfaceAttrib {
    670     /** \brief Type. */
    671     VASurfaceAttribType type;
    672     /** \brief Flags. See "Surface attribute flags". */
    673     unsigned int        flags;
    674     /** \brief Value. See "Surface attribute types" for the expected types. */
    675     VAGenericValue      value;
    676 } VASurfaceAttrib;
    677 
    678 /**
    679  * @name VASurfaceAttribMemoryType values in bit fields.
    680  * Bit 0:7 are reserved for generic types, Bit 31:28 are reserved for
    681  * Linux DRM, Bit 23:20 are reserved for Android. DRM and Android specific
    682  * types are defined in DRM and Android header files.
    683  */
    684 /**@{*/
    685 /** \brief VA memory type (default) is supported. */
    686 #define VA_SURFACE_ATTRIB_MEM_TYPE_VA			0x00000001
    687 /** \brief V4L2 buffer memory type is supported. */
    688 #define VA_SURFACE_ATTRIB_MEM_TYPE_V4L2			0x00000002
    689 /** \brief User pointer memory type is supported. */
    690 #define VA_SURFACE_ATTRIB_MEM_TYPE_USER_PTR		0x00000004
    691 /**@}*/
    692 
    693 /**
    694  * \brief VASurfaceAttribExternalBuffers structure for
    695  * the VASurfaceAttribExternalBufferDescriptor attribute.
    696  */
    697 typedef struct _VASurfaceAttribExternalBuffers {
    698     /** \brief pixel format in fourcc. */
    699     unsigned int pixel_format;
    700     /** \brief width in pixels. */
    701     unsigned int width;
    702     /** \brief height in pixels. */
    703     unsigned int height;
    704     /** \brief total size of the buffer in bytes. */
    705     unsigned int data_size;
    706     /** \brief number of planes for planar layout */
    707     unsigned int num_planes;
    708     /** \brief pitch for each plane in bytes */
    709     unsigned int pitches[4];
    710     /** \brief offset for each plane in bytes */
    711     unsigned int offsets[4];
    712     /** \brief buffer handles or user pointers */
    713     unsigned long *buffers;
    714     /** \brief number of elements in the "buffers" array */
    715     unsigned int num_buffers;
    716     /** \brief flags. See "Surface external buffer descriptor flags". */
    717     unsigned int flags;
    718     /** \brief reserved for passing private data */
    719     void *private_data;
    720 } VASurfaceAttribExternalBuffers;
    721 
    722 /** @name VASurfaceAttribExternalBuffers flags */
    723 /**@{*/
    724 /** \brief Enable memory tiling */
    725 #define VA_SURFACE_EXTBUF_DESC_ENABLE_TILING	0x00000001
    726 /** \brief Memory is cacheable */
    727 #define VA_SURFACE_EXTBUF_DESC_CACHED		0x00000002
    728 /** \brief Memory is non-cacheable */
    729 #define VA_SURFACE_EXTBUF_DESC_UNCACHED		0x00000004
    730 /** \brief Memory is write-combined */
    731 #define VA_SURFACE_EXTBUF_DESC_WC		0x00000008
    732 /** \brief Memory is protected */
    733 #define VA_SURFACE_EXTBUF_DESC_PROTECTED        0x80000000
    734 
    735 /**@}*/
    736 
    737 /**
    738  * \brief Queries surface attributes for the supplied config.
    739  *
    740  * Unlike vaGetSurfaceAttributes(), this function queries for all
    741  * supported attributes for the supplied VA @config. In particular, if
    742  * the underlying hardware supports the creation of VA surfaces in
    743  * various formats, then this function will enumerate all pixel
    744  * formats that are supported.
    745  *
    746  * The \c attrib_list array is allocated by the user and \c
    747  * num_attribs shall be initialized to the number of allocated
    748  * elements in that array. Upon successful return, the actual number
    749  * of attributes will be overwritten into \c num_attribs. Otherwise,
    750  * \c VA_STATUS_ERROR_MAX_NUM_EXCEEDED is returned and \c num_attribs
    751  * is adjusted to the number of elements that would be returned if
    752  * enough space was available.
    753  *
    754  * Note: it is perfectly valid to pass NULL to the \c attrib_list
    755  * argument when vaQuerySurfaceAttributes() is used to determine the
    756  * actual number of elements that need to be allocated.
    757  *
    758  * @param[in] dpy               the VA display
    759  * @param[in] config            the config identifying a codec or a video
    760  *     processing pipeline
    761  * @param[out] attrib_list      the output array of #VASurfaceAttrib elements
    762  * @param[in,out] num_attribs   the number of elements allocated on
    763  *      input, the number of elements actually filled in output
    764  */
    765 VAStatus
    766 vaQuerySurfaceAttributes(
    767     VADisplay           dpy,
    768     VAConfigID          config,
    769     VASurfaceAttrib    *attrib_list,
    770     unsigned int       *num_attribs
    771 );
    772 
    773 /**
    774  * \brief Creates an array of surfaces
    775  *
    776  * Creates an array of surfaces. The optional list of attributes shall
    777  * be constructed and validated through vaGetSurfaceAttributes() or
    778  * constructed based based on what the underlying hardware could
    779  * expose through vaQuerySurfaceAttributes().
    780  *
    781  * @param[in] dpy               the VA display
    782  * @param[in] format            the desired surface format. See \c VA_RT_FORMAT_*
    783  * @param[in] width             the surface width
    784  * @param[in] height            the surface height
    785  * @param[out] surfaces         the array of newly created surfaces
    786  * @param[in] num_surfaces      the number of surfaces to create
    787  * @param[in] attrib_list       the list of (optional) attributes, or \c NULL
    788  * @param[in] num_attribs       the number of attributes supplied in
    789  *     \c attrib_list, or zero
    790  */
    791 VAStatus
    792 vaCreateSurfaces(
    793     VADisplay           dpy,
    794     unsigned int        format,
    795     unsigned int        width,
    796     unsigned int        height,
    797     VASurfaceID        *surfaces,
    798     unsigned int        num_surfaces,
    799     VASurfaceAttrib    *attrib_list,
    800     unsigned int        num_attribs
    801 );
    802 
    803 /**
    804  * vaDestroySurfaces - Destroy resources associated with surfaces.
    805  *  Surfaces can only be destroyed after the context associated has been
    806  *  destroyed.
    807  *  dpy: display
    808  *  surfaces: array of surfaces to destroy
    809  *  num_surfaces: number of surfaces in the array to be destroyed.
    810  */
    811 VAStatus vaDestroySurfaces (
    812     VADisplay dpy,
    813     VASurfaceID *surfaces,
    814     int num_surfaces
    815 );
    816 
    817 #define VA_PROGRESSIVE 0x1
    818 /**
    819  * vaCreateContext - Create a context
    820  *  dpy: display
    821  *  config_id: configuration for the context
    822  *  picture_width: coded picture width
    823  *  picture_height: coded picture height
    824  *  flag: any combination of the following:
    825  *    VA_PROGRESSIVE (only progressive frame pictures in the sequence when set)
    826  *  render_targets: render targets (surfaces) tied to the context
    827  *  num_render_targets: number of render targets in the above array
    828  *  context: created context id upon return
    829  */
    830 VAStatus vaCreateContext (
    831     VADisplay dpy,
    832     VAConfigID config_id,
    833     int picture_width,
    834     int picture_height,
    835     int flag,
    836     VASurfaceID *render_targets,
    837     int num_render_targets,
    838     VAContextID *context		/* out */
    839 );
    840 
    841 /**
    842  * vaDestroyContext - Destroy a context
    843  *  dpy: display
    844  *  context: context to be destroyed
    845  */
    846 VAStatus vaDestroyContext (
    847     VADisplay dpy,
    848     VAContextID context
    849 );
    850 
    851 /**
    852  * Buffers
    853  * Buffers are used to pass various types of data from the
    854  * client to the server. The server maintains a data store
    855  * for each buffer created, and the client idenfies a buffer
    856  * through a unique buffer id assigned by the server.
    857  */
    858 
    859 typedef VAGenericID VABufferID;
    860 
    861 typedef enum
    862 {
    863     VAPictureParameterBufferType	= 0,
    864     VAIQMatrixBufferType		= 1,
    865     VABitPlaneBufferType		= 2,
    866     VASliceGroupMapBufferType		= 3,
    867     VASliceParameterBufferType		= 4,
    868     VASliceDataBufferType		= 5,
    869     VAMacroblockParameterBufferType	= 6,
    870     VAResidualDataBufferType		= 7,
    871     VADeblockingParameterBufferType	= 8,
    872     VAImageBufferType			= 9,
    873     VAProtectedSliceDataBufferType	= 10,
    874     VAQMatrixBufferType                 = 11,
    875     VAHuffmanTableBufferType            = 12,
    876     VAProbabilityBufferType             = 13,
    877 
    878 /* Following are encode buffer types */
    879     VAEncCodedBufferType		= 21,
    880     VAEncSequenceParameterBufferType	= 22,
    881     VAEncPictureParameterBufferType	= 23,
    882     VAEncSliceParameterBufferType	= 24,
    883     VAEncPackedHeaderParameterBufferType = 25,
    884     VAEncPackedHeaderDataBufferType     = 26,
    885     VAEncMiscParameterBufferType	= 27,
    886     VAEncMacroblockParameterBufferType	= 28,
    887 /* Following are video processing buffer types */
    888     /**
    889      * \brief Video processing pipeline parameter buffer.
    890      *
    891      * This buffer describes the video processing pipeline. See
    892      * #VAProcPipelineParameterBuffer for details.
    893      */
    894     VAProcPipelineParameterBufferType   = 41,
    895     /**
    896      * \brief Video filter parameter buffer.
    897      *
    898      * This buffer describes the video filter parameters. All buffers
    899      * inherit from #VAProcFilterParameterBufferBase, thus including
    900      * a unique filter buffer type.
    901      *
    902      * The default buffer used by most filters is #VAProcFilterParameterBuffer.
    903      * Filters requiring advanced parameters include, but are not limited to,
    904      * deinterlacing (#VAProcFilterParameterBufferDeinterlacing),
    905      * color balance (#VAProcFilterParameterBufferColorBalance), etc.
    906      */
    907     VAProcFilterParameterBufferType     = 42,
    908     VABufferTypeMax
    909 } VABufferType;
    910 
    911 typedef enum
    912 {
    913     VAEncMiscParameterTypeFrameRate 	= 0,
    914     VAEncMiscParameterTypeRateControl  	= 1,
    915     VAEncMiscParameterTypeMaxSliceSize	= 2,
    916     VAEncMiscParameterTypeAIR    	= 3,
    917     /** \brief Buffer type used to express a maximum frame size (in bits). */
    918     VAEncMiscParameterTypeMaxFrameSize  = 4,
    919     /** \brief Buffer type used for HRD parameters. */
    920     VAEncMiscParameterTypeHRD           = 5,
    921 } VAEncMiscParameterType;
    922 
    923 /** \brief Packed header type. */
    924 typedef enum {
    925     /** \brief Packed sequence header. */
    926     VAEncPackedHeaderSequence   = 1,
    927     /** \brief Packed picture header. */
    928     VAEncPackedHeaderPicture    = 2,
    929     /** \brief Packed slice header. */
    930     VAEncPackedHeaderSlice      = 3,
    931     /**
    932      * \brief Packed raw header.
    933      *
    934      * Packed raw data header can be used by the client to insert a header
    935      * into the bitstream data buffer at the point it is passed, the driver
    936      * will handle the raw packed header based on "has_emulation_bytes" field
    937      * in the packed header parameter structure.
    938      */
    939     VAEncPackedHeaderRawData    = 4,
    940     /** \brief Misc packed header. See codec-specific definitions. */
    941     VAEncPackedHeaderMiscMask   = 0x80000000,
    942 } VAEncPackedHeaderType;
    943 
    944 /** \brief Packed header parameter. */
    945 typedef struct _VAEncPackedHeaderParameterBuffer {
    946     /** Type of the packed header buffer. See #VAEncPackedHeaderType. */
    947     unsigned int                type;
    948     /** \brief Size of the #VAEncPackedHeaderDataBuffer in bits. */
    949     unsigned int                bit_length;
    950     /** \brief Flag: buffer contains start code emulation prevention bytes? */
    951     unsigned char               has_emulation_bytes;
    952 } VAEncPackedHeaderParameterBuffer;
    953 
    954 /**
    955  *  For application, e.g. set a new bitrate
    956  *    VABufferID buf_id;
    957  *    VAEncMiscParameterBuffer *misc_param;
    958  *    VAEncMiscParameterRateControl *misc_rate_ctrl;
    959  *
    960  *    vaCreateBuffer(dpy, context, VAEncMiscParameterBufferType,
    961  *              sizeof(VAEncMiscParameterBuffer) + sizeof(VAEncMiscParameterRateControl),
    962  *              1, NULL, &buf_id);
    963  *
    964  *    vaMapBuffer(dpy,buf_id,(void **)&misc_param);
    965  *    misc_param->type = VAEncMiscParameterTypeRateControl;
    966  *    misc_rate_ctrl= (VAEncMiscParameterRateControl *)misc_param->data;
    967  *    misc_rate_ctrl->bits_per_second = 6400000;
    968  *    vaUnmapBuffer(dpy, buf_id);
    969  *    vaRenderPicture(dpy, context, &buf_id, 1);
    970  */
    971 typedef struct _VAEncMiscParameterBuffer
    972 {
    973     VAEncMiscParameterType type;
    974     unsigned int data[0];
    975 } VAEncMiscParameterBuffer;
    976 
    977 
    978 /** \brief Rate control parameters */
    979 typedef struct _VAEncMiscParameterRateControl
    980 {
    981     /* this is the maximum bit-rate to be constrained by the rate control implementation */
    982     unsigned int bits_per_second;
    983     /* this is the bit-rate the rate control is targeting, as a percentage of the maximum
    984      * bit-rate for example if target_percentage is 95 then the rate control will target
    985      * a bit-rate that is 95% of the maximum bit-rate
    986      */
    987     unsigned int target_percentage;
    988     /* windows size in milliseconds. For example if this is set to 500,
    989      * then the rate control will guarantee the target bit-rate over a 500 ms window
    990      */
    991     unsigned int window_size;
    992     /* initial QP at I frames */
    993     unsigned int initial_qp;
    994     unsigned int min_qp;
    995     unsigned int basic_unit_size;
    996     union
    997     {
    998         struct
    999         {
   1000             unsigned int reset : 1;
   1001             unsigned int disable_frame_skip : 1; /* Disable frame skip in rate control mode */
   1002             unsigned int disable_bit_stuffing : 1; /* Disable bit stuffing in rate control mode */
   1003         } bits;
   1004         unsigned int value;
   1005     } rc_flags;
   1006 } VAEncMiscParameterRateControl;
   1007 
   1008 typedef struct _VAEncMiscParameterFrameRate
   1009 {
   1010     unsigned int framerate;
   1011 } VAEncMiscParameterFrameRate;
   1012 
   1013 /**
   1014  * Allow a maximum slice size to be specified (in bits).
   1015  * The encoder will attempt to make sure that individual slices do not exceed this size
   1016  * Or to signal applicate if the slice size exceed this size, see "status" of VACodedBufferSegment
   1017  */
   1018 typedef struct _VAEncMiscParameterMaxSliceSize
   1019 {
   1020     unsigned int max_slice_size;
   1021 } VAEncMiscParameterMaxSliceSize;
   1022 
   1023 typedef struct _VAEncMiscParameterAIR
   1024 {
   1025     unsigned int air_num_mbs;
   1026     unsigned int air_threshold;
   1027     unsigned int air_auto; /* if set to 1 then hardware auto-tune the AIR threshold */
   1028 } VAEncMiscParameterAIR;
   1029 
   1030 typedef struct _VAEncMiscParameterHRD
   1031 {
   1032     unsigned int initial_buffer_fullness;       /* in bits */
   1033     unsigned int buffer_size;                   /* in bits */
   1034 } VAEncMiscParameterHRD;
   1035 
   1036 /**
   1037  * \brief Defines a maximum frame size (in bits).
   1038  *
   1039  * This misc parameter buffer defines the maximum size of a frame (in
   1040  * bits). The encoder will try to make sure that each frame does not
   1041  * exceed this size. Otherwise, if the frame size exceeds this size,
   1042  * the \c status flag of #VACodedBufferSegment will contain
   1043  * #VA_CODED_BUF_STATUS_FRAME_SIZE_OVERFLOW.
   1044  */
   1045 typedef struct _VAEncMiscParameterBufferMaxFrameSize {
   1046     /** \brief Type. Shall be set to #VAEncMiscParameterTypeMaxFrameSize. */
   1047     VAEncMiscParameterType      type;
   1048     /** \brief Maximum size of a frame (in bits). */
   1049     unsigned int                max_frame_size;
   1050 } VAEncMiscParameterBufferMaxFrameSize;
   1051 
   1052 /**
   1053  * There will be cases where the bitstream buffer will not have enough room to hold
   1054  * the data for the entire slice, and the following flags will be used in the slice
   1055  * parameter to signal to the server for the possible cases.
   1056  * If a slice parameter buffer and slice data buffer pair is sent to the server with
   1057  * the slice data partially in the slice data buffer (BEGIN and MIDDLE cases below),
   1058  * then a slice parameter and data buffer needs to be sent again to complete this slice.
   1059  */
   1060 #define VA_SLICE_DATA_FLAG_ALL		0x00	/* whole slice is in the buffer */
   1061 #define VA_SLICE_DATA_FLAG_BEGIN	0x01	/* The beginning of the slice is in the buffer but the end if not */
   1062 #define VA_SLICE_DATA_FLAG_MIDDLE	0x02	/* Neither beginning nor end of the slice is in the buffer */
   1063 #define VA_SLICE_DATA_FLAG_END		0x04	/* end of the slice is in the buffer */
   1064 
   1065 /* Codec-independent Slice Parameter Buffer base */
   1066 typedef struct _VASliceParameterBufferBase
   1067 {
   1068     unsigned int slice_data_size;	/* number of bytes in the slice data buffer for this slice */
   1069     unsigned int slice_data_offset;	/* the offset to the first byte of slice data */
   1070     unsigned int slice_data_flag;	/* see VA_SLICE_DATA_FLAG_XXX definitions */
   1071 } VASliceParameterBufferBase;
   1072 
   1073 
   1074 /****************************
   1075  * JEPG data structure
   1076  ***************************/
   1077 typedef struct _VAQMatrixBufferJPEG
   1078 {
   1079     int load_lum_quantiser_matrix;
   1080     int load_chroma_quantiser_matrix;
   1081     unsigned char lum_quantiser_matrix[64];
   1082     unsigned char chroma_quantiser_matrix[64];
   1083 } VAQMatrixBufferJPEG;
   1084 
   1085 typedef struct _VAEncPictureParameterBufferJPEG
   1086 {
   1087     VASurfaceID reconstructed_picture;
   1088     unsigned short picture_width;
   1089     unsigned short picture_height;
   1090     VABufferID coded_buf;
   1091 } VAEncPictureParameterBufferJPEG;
   1092 
   1093 #include <va/va_dec_jpeg.h>
   1094 
   1095 /****************************
   1096  * MPEG-2 data structures
   1097  ****************************/
   1098 
   1099 /* MPEG-2 Picture Parameter Buffer */
   1100 /*
   1101  * For each frame or field, and before any slice data, a single
   1102  * picture parameter buffer must be send.
   1103  */
   1104 typedef struct _VAPictureParameterBufferMPEG2
   1105 {
   1106     unsigned short horizontal_size;
   1107     unsigned short vertical_size;
   1108     VASurfaceID forward_reference_picture;
   1109     VASurfaceID backward_reference_picture;
   1110     /* meanings of the following fields are the same as in the standard */
   1111     int picture_coding_type;
   1112     int f_code; /* pack all four fcode into this */
   1113     union {
   1114         struct {
   1115             unsigned int intra_dc_precision		: 2;
   1116             unsigned int picture_structure		: 2;
   1117             unsigned int top_field_first		: 1;
   1118             unsigned int frame_pred_frame_dct		: 1;
   1119             unsigned int concealment_motion_vectors	: 1;
   1120             unsigned int q_scale_type			: 1;
   1121             unsigned int intra_vlc_format		: 1;
   1122             unsigned int alternate_scan			: 1;
   1123             unsigned int repeat_first_field		: 1;
   1124             unsigned int progressive_frame		: 1;
   1125             unsigned int is_first_field			: 1; /* indicate whether the current field
   1126                                                               * is the first field for field picture
   1127                                                               */
   1128         } bits;
   1129         unsigned int value;
   1130     } picture_coding_extension;
   1131 } VAPictureParameterBufferMPEG2;
   1132 
   1133 /** MPEG-2 Inverse Quantization Matrix Buffer */
   1134 typedef struct _VAIQMatrixBufferMPEG2
   1135 {
   1136     int load_intra_quantiser_matrix;
   1137     int load_non_intra_quantiser_matrix;
   1138     int load_chroma_intra_quantiser_matrix;
   1139     int load_chroma_non_intra_quantiser_matrix;
   1140     unsigned char intra_quantiser_matrix[64];
   1141     unsigned char non_intra_quantiser_matrix[64];
   1142     unsigned char chroma_intra_quantiser_matrix[64];
   1143     unsigned char chroma_non_intra_quantiser_matrix[64];
   1144 } VAIQMatrixBufferMPEG2;
   1145 
   1146 /** MPEG-2 Slice Parameter Buffer */
   1147 typedef struct _VASliceParameterBufferMPEG2
   1148 {
   1149     unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
   1150     unsigned int slice_data_offset;/* the offset to the first byte of slice data */
   1151     unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
   1152     unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
   1153     unsigned int slice_horizontal_position;
   1154     unsigned int slice_vertical_position;
   1155     int quantiser_scale_code;
   1156     int intra_slice_flag;
   1157 } VASliceParameterBufferMPEG2;
   1158 
   1159 /** MPEG-2 Macroblock Parameter Buffer */
   1160 typedef struct _VAMacroblockParameterBufferMPEG2
   1161 {
   1162     unsigned short macroblock_address;
   1163     /*
   1164      * macroblock_address (in raster scan order)
   1165      * top-left: 0
   1166      * bottom-right: picture-height-in-mb*picture-width-in-mb - 1
   1167      */
   1168     unsigned char macroblock_type;  /* see definition below */
   1169     union {
   1170         struct {
   1171             unsigned int frame_motion_type		: 2;
   1172             unsigned int field_motion_type		: 2;
   1173             unsigned int dct_type			: 1;
   1174         } bits;
   1175         unsigned int value;
   1176     } macroblock_modes;
   1177     unsigned char motion_vertical_field_select;
   1178     /*
   1179      * motion_vertical_field_select:
   1180      * see section 6.3.17.2 in the spec
   1181      * only the lower 4 bits are used
   1182      * bit 0: first vector forward
   1183      * bit 1: first vector backward
   1184      * bit 2: second vector forward
   1185      * bit 3: second vector backward
   1186      */
   1187     short PMV[2][2][2]; /* see Table 7-7 in the spec */
   1188     unsigned short coded_block_pattern;
   1189     /*
   1190      * The bitplanes for coded_block_pattern are described
   1191      * in Figure 6.10-12 in the spec
   1192      */
   1193 
   1194     /* Number of skipped macroblocks after this macroblock */
   1195     unsigned short num_skipped_macroblocks;
   1196 } VAMacroblockParameterBufferMPEG2;
   1197 
   1198 /*
   1199  * OR'd flags for macroblock_type (section 6.3.17.1 in the spec)
   1200  */
   1201 #define VA_MB_TYPE_MOTION_FORWARD	0x02
   1202 #define VA_MB_TYPE_MOTION_BACKWARD	0x04
   1203 #define VA_MB_TYPE_MOTION_PATTERN	0x08
   1204 #define VA_MB_TYPE_MOTION_INTRA		0x10
   1205 
   1206 /**
   1207  * MPEG-2 Residual Data Buffer
   1208  * For each macroblock, there wil be 64 shorts (16-bit) in the
   1209  * residual data buffer
   1210  */
   1211 
   1212 /****************************
   1213  * MPEG-4 Part 2 data structures
   1214  ****************************/
   1215 
   1216 /* MPEG-4 Picture Parameter Buffer */
   1217 /*
   1218  * For each frame or field, and before any slice data, a single
   1219  * picture parameter buffer must be send.
   1220  */
   1221 typedef struct _VAPictureParameterBufferMPEG4
   1222 {
   1223     unsigned short vop_width;
   1224     unsigned short vop_height;
   1225     VASurfaceID forward_reference_picture;
   1226     VASurfaceID backward_reference_picture;
   1227     union {
   1228         struct {
   1229             unsigned int short_video_header		: 1;
   1230             unsigned int chroma_format			: 2;
   1231             unsigned int interlaced			: 1;
   1232             unsigned int obmc_disable			: 1;
   1233             unsigned int sprite_enable			: 2;
   1234             unsigned int sprite_warping_accuracy	: 2;
   1235             unsigned int quant_type			: 1;
   1236             unsigned int quarter_sample			: 1;
   1237             unsigned int data_partitioned		: 1;
   1238             unsigned int reversible_vlc			: 1;
   1239             unsigned int resync_marker_disable		: 1;
   1240         } bits;
   1241         unsigned int value;
   1242     } vol_fields;
   1243     unsigned char no_of_sprite_warping_points;
   1244     short sprite_trajectory_du[3];
   1245     short sprite_trajectory_dv[3];
   1246     unsigned char quant_precision;
   1247     union {
   1248         struct {
   1249             unsigned int vop_coding_type		: 2;
   1250             unsigned int backward_reference_vop_coding_type	: 2;
   1251             unsigned int vop_rounding_type		: 1;
   1252             unsigned int intra_dc_vlc_thr		: 3;
   1253             unsigned int top_field_first		: 1;
   1254             unsigned int alternate_vertical_scan_flag	: 1;
   1255         } bits;
   1256         unsigned int value;
   1257     } vop_fields;
   1258     unsigned char vop_fcode_forward;
   1259     unsigned char vop_fcode_backward;
   1260     unsigned short vop_time_increment_resolution;
   1261     /* short header related */
   1262     unsigned char num_gobs_in_vop;
   1263     unsigned char num_macroblocks_in_gob;
   1264     /* for direct mode prediction */
   1265     short TRB;
   1266     short TRD;
   1267 } VAPictureParameterBufferMPEG4;
   1268 
   1269 /** MPEG-4 Inverse Quantization Matrix Buffer */
   1270 typedef struct _VAIQMatrixBufferMPEG4
   1271 {
   1272     int load_intra_quant_mat;
   1273     int load_non_intra_quant_mat;
   1274     unsigned char intra_quant_mat[64];
   1275     unsigned char non_intra_quant_mat[64];
   1276 } VAIQMatrixBufferMPEG4;
   1277 
   1278 /** MPEG-4 Slice Parameter Buffer */
   1279 typedef struct _VASliceParameterBufferMPEG4
   1280 {
   1281     unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
   1282     unsigned int slice_data_offset;/* the offset to the first byte of slice data */
   1283     unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
   1284     unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
   1285     unsigned int macroblock_number;
   1286     int quant_scale;
   1287 } VASliceParameterBufferMPEG4;
   1288 
   1289 /**
   1290  VC-1 data structures
   1291 */
   1292 
   1293 typedef enum   /* see 7.1.1.32 */
   1294 {
   1295     VAMvMode1Mv                        = 0,
   1296     VAMvMode1MvHalfPel                 = 1,
   1297     VAMvMode1MvHalfPelBilinear         = 2,
   1298     VAMvModeMixedMv                    = 3,
   1299     VAMvModeIntensityCompensation      = 4
   1300 } VAMvModeVC1;
   1301 
   1302 /** VC-1 Picture Parameter Buffer */
   1303 /*
   1304  * For each picture, and before any slice data, a picture parameter
   1305  * buffer must be send. Multiple picture parameter buffers may be
   1306  * sent for a single picture. In that case picture parameters will
   1307  * apply to all slice data that follow it until a new picture
   1308  * parameter buffer is sent.
   1309  *
   1310  * Notes:
   1311  *   pic_quantizer_type should be set to the applicable quantizer
   1312  *   type as defined by QUANTIZER (J.1.19) and either
   1313  *   PQUANTIZER (7.1.1.8) or PQINDEX (7.1.1.6)
   1314  */
   1315 typedef struct _VAPictureParameterBufferVC1
   1316 {
   1317     VASurfaceID forward_reference_picture;
   1318     VASurfaceID backward_reference_picture;
   1319     /* if out-of-loop post-processing is done on the render
   1320        target, then we need to keep the in-loop decoded
   1321        picture as a reference picture */
   1322     VASurfaceID inloop_decoded_picture;
   1323 
   1324     /* sequence layer for AP or meta data for SP and MP */
   1325     union {
   1326         struct {
   1327             unsigned int pulldown	: 1; /* SEQUENCE_LAYER::PULLDOWN */
   1328             unsigned int interlace	: 1; /* SEQUENCE_LAYER::INTERLACE */
   1329             unsigned int tfcntrflag	: 1; /* SEQUENCE_LAYER::TFCNTRFLAG */
   1330             unsigned int finterpflag	: 1; /* SEQUENCE_LAYER::FINTERPFLAG */
   1331             unsigned int psf		: 1; /* SEQUENCE_LAYER::PSF */
   1332             unsigned int multires	: 1; /* METADATA::MULTIRES */
   1333             unsigned int overlap	: 1; /* METADATA::OVERLAP */
   1334             unsigned int syncmarker	: 1; /* METADATA::SYNCMARKER */
   1335             unsigned int rangered	: 1; /* METADATA::RANGERED */
   1336             unsigned int max_b_frames	: 3; /* METADATA::MAXBFRAMES */
   1337             unsigned int profile	: 2; /* SEQUENCE_LAYER::PROFILE or The MSB of METADATA::PROFILE */
   1338         } bits;
   1339         unsigned int value;
   1340     } sequence_fields;
   1341 
   1342     unsigned short coded_width;		/* ENTRY_POINT_LAYER::CODED_WIDTH */
   1343     unsigned short coded_height;	/* ENTRY_POINT_LAYER::CODED_HEIGHT */
   1344     union {
   1345 	struct {
   1346             unsigned int broken_link	: 1; /* ENTRY_POINT_LAYER::BROKEN_LINK */
   1347             unsigned int closed_entry	: 1; /* ENTRY_POINT_LAYER::CLOSED_ENTRY */
   1348             unsigned int panscan_flag	: 1; /* ENTRY_POINT_LAYER::PANSCAN_FLAG */
   1349             unsigned int loopfilter	: 1; /* ENTRY_POINT_LAYER::LOOPFILTER */
   1350 	} bits;
   1351 	unsigned int value;
   1352     } entrypoint_fields;
   1353     unsigned char conditional_overlap_flag; /* ENTRY_POINT_LAYER::CONDOVER */
   1354     unsigned char fast_uvmc_flag;	/* ENTRY_POINT_LAYER::FASTUVMC */
   1355     union {
   1356         struct {
   1357             unsigned int luma_flag	: 1; /* ENTRY_POINT_LAYER::RANGE_MAPY_FLAG */
   1358             unsigned int luma		: 3; /* ENTRY_POINT_LAYER::RANGE_MAPY */
   1359             unsigned int chroma_flag	: 1; /* ENTRY_POINT_LAYER::RANGE_MAPUV_FLAG */
   1360             unsigned int chroma		: 3; /* ENTRY_POINT_LAYER::RANGE_MAPUV */
   1361         } bits;
   1362         unsigned int value;
   1363     } range_mapping_fields;
   1364 
   1365     unsigned char b_picture_fraction;	/* PICTURE_LAYER::BFRACTION */
   1366     unsigned char cbp_table;		/* PICTURE_LAYER::CBPTAB/ICBPTAB */
   1367     unsigned char mb_mode_table;	/* PICTURE_LAYER::MBMODETAB */
   1368     unsigned char range_reduction_frame;/* PICTURE_LAYER::RANGEREDFRM */
   1369     unsigned char rounding_control;	/* PICTURE_LAYER::RNDCTRL */
   1370     unsigned char post_processing;	/* PICTURE_LAYER::POSTPROC */
   1371     unsigned char picture_resolution_index;	/* PICTURE_LAYER::RESPIC */
   1372     unsigned char luma_scale;		/* PICTURE_LAYER::LUMSCALE */
   1373     unsigned char luma_shift;		/* PICTURE_LAYER::LUMSHIFT */
   1374     union {
   1375         struct {
   1376             unsigned int picture_type		: 3; /* PICTURE_LAYER::PTYPE */
   1377             unsigned int frame_coding_mode	: 3; /* PICTURE_LAYER::FCM */
   1378             unsigned int top_field_first	: 1; /* PICTURE_LAYER::TFF */
   1379             unsigned int is_first_field		: 1; /* set to 1 if it is the first field */
   1380             unsigned int intensity_compensation	: 1; /* PICTURE_LAYER::INTCOMP */
   1381         } bits;
   1382         unsigned int value;
   1383     } picture_fields;
   1384     union {
   1385         struct {
   1386             unsigned int mv_type_mb	: 1; 	/* PICTURE::MVTYPEMB */
   1387             unsigned int direct_mb	: 1; 	/* PICTURE::DIRECTMB */
   1388             unsigned int skip_mb	: 1; 	/* PICTURE::SKIPMB */
   1389             unsigned int field_tx	: 1; 	/* PICTURE::FIELDTX */
   1390             unsigned int forward_mb	: 1;	/* PICTURE::FORWARDMB */
   1391             unsigned int ac_pred	: 1;	/* PICTURE::ACPRED */
   1392             unsigned int overflags	: 1;	/* PICTURE::OVERFLAGS */
   1393         } flags;
   1394         unsigned int value;
   1395     } raw_coding;
   1396     union {
   1397         struct {
   1398             unsigned int bp_mv_type_mb   : 1;    /* PICTURE::MVTYPEMB */
   1399             unsigned int bp_direct_mb    : 1;    /* PICTURE::DIRECTMB */
   1400             unsigned int bp_skip_mb      : 1;    /* PICTURE::SKIPMB */
   1401             unsigned int bp_field_tx     : 1;    /* PICTURE::FIELDTX */
   1402             unsigned int bp_forward_mb   : 1;    /* PICTURE::FORWARDMB */
   1403             unsigned int bp_ac_pred      : 1;    /* PICTURE::ACPRED */
   1404             unsigned int bp_overflags    : 1;    /* PICTURE::OVERFLAGS */
   1405         } flags;
   1406         unsigned int value;
   1407     } bitplane_present; /* signal what bitplane is being passed via the bitplane buffer */
   1408     union {
   1409         struct {
   1410             unsigned int reference_distance_flag : 1;/* PICTURE_LAYER::REFDIST_FLAG */
   1411             unsigned int reference_distance	: 5;/* PICTURE_LAYER::REFDIST */
   1412             unsigned int num_reference_pictures: 1;/* PICTURE_LAYER::NUMREF */
   1413             unsigned int reference_field_pic_indicator	: 1;/* PICTURE_LAYER::REFFIELD */
   1414         } bits;
   1415         unsigned int value;
   1416     } reference_fields;
   1417     union {
   1418         struct {
   1419             unsigned int mv_mode		: 3; /* PICTURE_LAYER::MVMODE */
   1420             unsigned int mv_mode2		: 3; /* PICTURE_LAYER::MVMODE2 */
   1421             unsigned int mv_table		: 3; /* PICTURE_LAYER::MVTAB/IMVTAB */
   1422             unsigned int two_mv_block_pattern_table: 2; /* PICTURE_LAYER::2MVBPTAB */
   1423             unsigned int four_mv_switch		: 1; /* PICTURE_LAYER::4MVSWITCH */
   1424             unsigned int four_mv_block_pattern_table : 2; /* PICTURE_LAYER::4MVBPTAB */
   1425             unsigned int extended_mv_flag	: 1; /* ENTRY_POINT_LAYER::EXTENDED_MV */
   1426             unsigned int extended_mv_range	: 2; /* PICTURE_LAYER::MVRANGE */
   1427             unsigned int extended_dmv_flag	: 1; /* ENTRY_POINT_LAYER::EXTENDED_DMV */
   1428             unsigned int extended_dmv_range	: 2; /* PICTURE_LAYER::DMVRANGE */
   1429         } bits;
   1430         unsigned int value;
   1431     } mv_fields;
   1432     union {
   1433         struct {
   1434             unsigned int dquant	: 2; 	/* ENTRY_POINT_LAYER::DQUANT */
   1435             unsigned int quantizer     : 2; 	/* ENTRY_POINT_LAYER::QUANTIZER */
   1436             unsigned int half_qp	: 1; 	/* PICTURE_LAYER::HALFQP */
   1437             unsigned int pic_quantizer_scale : 5;/* PICTURE_LAYER::PQUANT */
   1438             unsigned int pic_quantizer_type : 1;/* PICTURE_LAYER::PQUANTIZER */
   1439             unsigned int dq_frame	: 1; 	/* VOPDQUANT::DQUANTFRM */
   1440             unsigned int dq_profile	: 2; 	/* VOPDQUANT::DQPROFILE */
   1441             unsigned int dq_sb_edge	: 2; 	/* VOPDQUANT::DQSBEDGE */
   1442             unsigned int dq_db_edge 	: 2; 	/* VOPDQUANT::DQDBEDGE */
   1443             unsigned int dq_binary_level : 1; 	/* VOPDQUANT::DQBILEVEL */
   1444             unsigned int alt_pic_quantizer : 5;/* VOPDQUANT::ALTPQUANT */
   1445         } bits;
   1446         unsigned int value;
   1447     } pic_quantizer_fields;
   1448     union {
   1449         struct {
   1450             unsigned int variable_sized_transform_flag	: 1;/* ENTRY_POINT_LAYER::VSTRANSFORM */
   1451             unsigned int mb_level_transform_type_flag	: 1;/* PICTURE_LAYER::TTMBF */
   1452             unsigned int frame_level_transform_type	: 2;/* PICTURE_LAYER::TTFRM */
   1453             unsigned int transform_ac_codingset_idx1	: 2;/* PICTURE_LAYER::TRANSACFRM */
   1454             unsigned int transform_ac_codingset_idx2	: 2;/* PICTURE_LAYER::TRANSACFRM2 */
   1455             unsigned int intra_transform_dc_table	: 1;/* PICTURE_LAYER::TRANSDCTAB */
   1456         } bits;
   1457         unsigned int value;
   1458     } transform_fields;
   1459 } VAPictureParameterBufferVC1;
   1460 
   1461 /** VC-1 Bitplane Buffer
   1462 There will be at most three bitplanes coded in any picture header. To send
   1463 the bitplane data more efficiently, each byte is divided in two nibbles, with
   1464 each nibble carrying three bitplanes for one macroblock.  The following table
   1465 shows the bitplane data arrangement within each nibble based on the picture
   1466 type.
   1467 
   1468 Picture Type	Bit3		Bit2		Bit1		Bit0
   1469 I or BI				OVERFLAGS	ACPRED		FIELDTX
   1470 P				MYTYPEMB	SKIPMB		DIRECTMB
   1471 B				FORWARDMB	SKIPMB		DIRECTMB
   1472 
   1473 Within each byte, the lower nibble is for the first MB and the upper nibble is
   1474 for the second MB.  E.g. the lower nibble of the first byte in the bitplane
   1475 buffer is for Macroblock #1 and the upper nibble of the first byte is for
   1476 Macroblock #2 in the first row.
   1477 */
   1478 
   1479 /* VC-1 Slice Parameter Buffer */
   1480 typedef struct _VASliceParameterBufferVC1
   1481 {
   1482     unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
   1483     unsigned int slice_data_offset;/* the offset to the first byte of slice data */
   1484     unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
   1485     unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
   1486     unsigned int slice_vertical_position;
   1487 } VASliceParameterBufferVC1;
   1488 
   1489 /* VC-1 Slice Data Buffer */
   1490 /*
   1491 This is simplely a buffer containing raw bit-stream bytes
   1492 */
   1493 
   1494 /****************************
   1495  * H.264/AVC data structures
   1496  ****************************/
   1497 
   1498 typedef struct _VAPictureH264
   1499 {
   1500     VASurfaceID picture_id;
   1501     unsigned int frame_idx;
   1502     unsigned int flags;
   1503     signed int TopFieldOrderCnt;
   1504     signed int BottomFieldOrderCnt;
   1505 } VAPictureH264;
   1506 /* flags in VAPictureH264 could be OR of the following */
   1507 #define VA_PICTURE_H264_INVALID			0x00000001
   1508 #define VA_PICTURE_H264_TOP_FIELD		0x00000002
   1509 #define VA_PICTURE_H264_BOTTOM_FIELD		0x00000004
   1510 #define VA_PICTURE_H264_SHORT_TERM_REFERENCE	0x00000008
   1511 #define VA_PICTURE_H264_LONG_TERM_REFERENCE	0x00000010
   1512 
   1513 /** H.264 Picture Parameter Buffer */
   1514 /*
   1515  * For each picture, and before any slice data, a single
   1516  * picture parameter buffer must be send.
   1517  */
   1518 typedef struct _VAPictureParameterBufferH264
   1519 {
   1520     VAPictureH264 CurrPic;
   1521     VAPictureH264 ReferenceFrames[16];	/* in DPB */
   1522     unsigned short picture_width_in_mbs_minus1;
   1523     unsigned short picture_height_in_mbs_minus1;
   1524     unsigned char bit_depth_luma_minus8;
   1525     unsigned char bit_depth_chroma_minus8;
   1526     unsigned char num_ref_frames;
   1527     union {
   1528         struct {
   1529             unsigned int chroma_format_idc			: 2;
   1530             unsigned int residual_colour_transform_flag		: 1;
   1531             unsigned int gaps_in_frame_num_value_allowed_flag	: 1;
   1532             unsigned int frame_mbs_only_flag			: 1;
   1533             unsigned int mb_adaptive_frame_field_flag		: 1;
   1534             unsigned int direct_8x8_inference_flag		: 1;
   1535             unsigned int MinLumaBiPredSize8x8			: 1; /* see A.3.3.2 */
   1536             unsigned int log2_max_frame_num_minus4		: 4;
   1537             unsigned int pic_order_cnt_type			: 2;
   1538             unsigned int log2_max_pic_order_cnt_lsb_minus4	: 4;
   1539             unsigned int delta_pic_order_always_zero_flag	: 1;
   1540         } bits;
   1541         unsigned int value;
   1542     } seq_fields;
   1543     unsigned char num_slice_groups_minus1;
   1544     unsigned char slice_group_map_type;
   1545     unsigned short slice_group_change_rate_minus1;
   1546     signed char pic_init_qp_minus26;
   1547     signed char pic_init_qs_minus26;
   1548     signed char chroma_qp_index_offset;
   1549     signed char second_chroma_qp_index_offset;
   1550     union {
   1551         struct {
   1552             unsigned int entropy_coding_mode_flag	: 1;
   1553             unsigned int weighted_pred_flag		: 1;
   1554             unsigned int weighted_bipred_idc		: 2;
   1555             unsigned int transform_8x8_mode_flag	: 1;
   1556             unsigned int field_pic_flag			: 1;
   1557             unsigned int constrained_intra_pred_flag	: 1;
   1558             unsigned int pic_order_present_flag			: 1;
   1559             unsigned int deblocking_filter_control_present_flag : 1;
   1560             unsigned int redundant_pic_cnt_present_flag		: 1;
   1561             unsigned int reference_pic_flag			: 1; /* nal_ref_idc != 0 */
   1562         } bits;
   1563         unsigned int value;
   1564     } pic_fields;
   1565     unsigned short frame_num;
   1566 } VAPictureParameterBufferH264;
   1567 
   1568 /** H.264 Inverse Quantization Matrix Buffer */
   1569 typedef struct _VAIQMatrixBufferH264
   1570 {
   1571     unsigned char ScalingList4x4[6][16];
   1572     unsigned char ScalingList8x8[2][64];
   1573 } VAIQMatrixBufferH264;
   1574 
   1575 /**
   1576  * H.264 Slice Group Map Buffer
   1577  * When VAPictureParameterBufferH264::num_slice_group_minus1 is not equal to 0,
   1578  * A slice group map buffer should be sent for each picture if required. The buffer
   1579  * is sent only when there is a change in the mapping values.
   1580  * The slice group map buffer map "map units" to slice groups as specified in
   1581  * section 8.2.2 of the H.264 spec. The buffer will contain one byte for each macroblock
   1582  * in raster scan order
   1583  */
   1584 
   1585 /** H.264 Slice Parameter Buffer */
   1586 typedef struct _VASliceParameterBufferH264
   1587 {
   1588     unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
   1589     /** \brief Byte offset to the NAL Header Unit for this slice. */
   1590     unsigned int slice_data_offset;
   1591     unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
   1592     /**
   1593      * \brief Bit offset from NAL Header Unit to the begining of slice_data().
   1594      *
   1595      * This bit offset is relative to and includes the NAL unit byte
   1596      * and represents the number of bits parsed in the slice_header()
   1597      * after the removal of any emulation prevention bytes in
   1598      * there. However, the slice data buffer passed to the hardware is
   1599      * the original bitstream, thus including any emulation prevention
   1600      * bytes.
   1601      */
   1602     unsigned short slice_data_bit_offset;
   1603     unsigned short first_mb_in_slice;
   1604     unsigned char slice_type;
   1605     unsigned char direct_spatial_mv_pred_flag;
   1606     unsigned char num_ref_idx_l0_active_minus1;
   1607     unsigned char num_ref_idx_l1_active_minus1;
   1608     unsigned char cabac_init_idc;
   1609     char slice_qp_delta;
   1610     unsigned char disable_deblocking_filter_idc;
   1611     char slice_alpha_c0_offset_div2;
   1612     char slice_beta_offset_div2;
   1613     VAPictureH264 RefPicList0[32];	/* See 8.2.4.2 */
   1614     VAPictureH264 RefPicList1[32];	/* See 8.2.4.2 */
   1615     unsigned char luma_log2_weight_denom;
   1616     unsigned char chroma_log2_weight_denom;
   1617     unsigned char luma_weight_l0_flag;
   1618     short luma_weight_l0[32];
   1619     short luma_offset_l0[32];
   1620     unsigned char chroma_weight_l0_flag;
   1621     short chroma_weight_l0[32][2];
   1622     short chroma_offset_l0[32][2];
   1623     unsigned char luma_weight_l1_flag;
   1624     short luma_weight_l1[32];
   1625     short luma_offset_l1[32];
   1626     unsigned char chroma_weight_l1_flag;
   1627     short chroma_weight_l1[32][2];
   1628     short chroma_offset_l1[32][2];
   1629 } VASliceParameterBufferH264;
   1630 
   1631 /****************************
   1632  * Common encode data structures
   1633  ****************************/
   1634 typedef enum
   1635 {
   1636     VAEncPictureTypeIntra		= 0,
   1637     VAEncPictureTypePredictive		= 1,
   1638     VAEncPictureTypeBidirectional	= 2,
   1639 } VAEncPictureType;
   1640 
   1641 /* Encode Slice Parameter Buffer */
   1642 typedef struct _VAEncSliceParameterBuffer
   1643 {
   1644     unsigned int start_row_number;	/* starting MB row number for this slice */
   1645     unsigned int slice_height;	/* slice height measured in MB */
   1646     union {
   1647         struct {
   1648             unsigned int is_intra	: 1;
   1649             unsigned int disable_deblocking_filter_idc : 2;
   1650             unsigned int uses_long_term_ref		:1;
   1651             unsigned int is_long_term_ref		:1;
   1652         } bits;
   1653         unsigned int value;
   1654     } slice_flags;
   1655 } VAEncSliceParameterBuffer;
   1656 
   1657 
   1658 /****************************
   1659  * H.263 specific encode data structures
   1660  ****************************/
   1661 
   1662 typedef struct _VAEncSequenceParameterBufferH263
   1663 {
   1664     unsigned int intra_period;
   1665     unsigned int bits_per_second;
   1666     unsigned int frame_rate;
   1667     unsigned int initial_qp;
   1668     unsigned int min_qp;
   1669 } VAEncSequenceParameterBufferH263;
   1670 
   1671 typedef struct _VAEncPictureParameterBufferH263
   1672 {
   1673     VASurfaceID reference_picture;
   1674     VASurfaceID reconstructed_picture;
   1675     VABufferID coded_buf;
   1676     unsigned short picture_width;
   1677     unsigned short picture_height;
   1678     VAEncPictureType picture_type;
   1679 } VAEncPictureParameterBufferH263;
   1680 
   1681 /****************************
   1682  * MPEG-4 specific encode data structures
   1683  ****************************/
   1684 
   1685 typedef struct _VAEncSequenceParameterBufferMPEG4
   1686 {
   1687     unsigned char profile_and_level_indication;
   1688     unsigned int intra_period;
   1689     unsigned int video_object_layer_width;
   1690     unsigned int video_object_layer_height;
   1691     unsigned int vop_time_increment_resolution;
   1692     unsigned int fixed_vop_rate;
   1693     unsigned int fixed_vop_time_increment;
   1694     unsigned int bits_per_second;
   1695     unsigned int frame_rate;
   1696     unsigned int initial_qp;
   1697     unsigned int min_qp;
   1698 } VAEncSequenceParameterBufferMPEG4;
   1699 
   1700 typedef struct _VAEncPictureParameterBufferMPEG4
   1701 {
   1702     VASurfaceID reference_picture;
   1703     VASurfaceID reconstructed_picture;
   1704     VABufferID coded_buf;
   1705     unsigned short picture_width;
   1706     unsigned short picture_height;
   1707     unsigned int modulo_time_base; /* number of 1s */
   1708     unsigned int vop_time_increment;
   1709     VAEncPictureType picture_type;
   1710 } VAEncPictureParameterBufferMPEG4;
   1711 
   1712 
   1713 
   1714 /** Buffer functions */
   1715 
   1716 /**
   1717  * Creates a buffer for "num_elements" elements of "size" bytes and
   1718  * initalize with "data".
   1719  * if "data" is null, then the contents of the buffer data store
   1720  * are undefined.
   1721  * Basically there are two ways to get buffer data to the server side. One is
   1722  * to call vaCreateBuffer() with a non-null "data", which results the data being
   1723  * copied to the data store on the server side.  A different method that
   1724  * eliminates this copy is to pass null as "data" when calling vaCreateBuffer(),
   1725  * and then use vaMapBuffer() to map the data store from the server side to the
   1726  * client address space for access.
   1727  *  Note: image buffers are created by the library, not the client. Please see
   1728  *        vaCreateImage on how image buffers are managed.
   1729  */
   1730 VAStatus vaCreateBuffer (
   1731     VADisplay dpy,
   1732     VAContextID context,
   1733     VABufferType type,	/* in */
   1734     unsigned int size,	/* in */
   1735     unsigned int num_elements, /* in */
   1736     void *data,		/* in */
   1737     VABufferID *buf_id	/* out */
   1738 );
   1739 
   1740 /**
   1741  * Convey to the server how many valid elements are in the buffer.
   1742  * e.g. if multiple slice parameters are being held in a single buffer,
   1743  * this will communicate to the server the number of slice parameters
   1744  * that are valid in the buffer.
   1745  */
   1746 VAStatus vaBufferSetNumElements (
   1747     VADisplay dpy,
   1748     VABufferID buf_id,	/* in */
   1749     unsigned int num_elements /* in */
   1750 );
   1751 
   1752 
   1753 /**
   1754  * device independent data structure for codedbuffer
   1755  */
   1756 
   1757 /*
   1758  * FICTURE_AVE_QP(bit7-0): The average Qp value used during this frame
   1759  * LARGE_SLICE(bit8):At least one slice in the current frame was large
   1760  *              enough for the encoder to attempt to limit its size.
   1761  * SLICE_OVERFLOW(bit9): At least one slice in the current frame has
   1762  *              exceeded the maximum slice size specified.
   1763  * BITRATE_OVERFLOW(bit10): The peak bitrate was exceeded for this frame.
   1764  * BITRATE_HIGH(bit11): The frame size got within the safety margin of the maximum size (VCM only)
   1765  * AIR_MB_OVER_THRESHOLD: the number of MBs adapted to Intra MB
   1766  */
   1767 #define VA_CODED_BUF_STATUS_PICTURE_AVE_QP_MASK         0xff
   1768 #define VA_CODED_BUF_STATUS_LARGE_SLICE_MASK            0x100
   1769 #define VA_CODED_BUF_STATUS_SLICE_OVERFLOW_MASK         0x200
   1770 #define VA_CODED_BUF_STATUS_BITRATE_OVERFLOW		0x400
   1771 #define VA_CODED_BUF_STATUS_BITRATE_HIGH		0x800
   1772 /**
   1773  * \brief The frame has exceeded the maximum requested size.
   1774  *
   1775  * This flag indicates that the encoded frame size exceeds the value
   1776  * specified through a misc parameter buffer of type
   1777  * #VAEncMiscParameterTypeMaxFrameSize.
   1778  */
   1779 #define VA_CODED_BUF_STATUS_FRAME_SIZE_OVERFLOW         0x1000
   1780 #define VA_CODED_BUF_STATUS_AIR_MB_OVER_THRESHOLD	0xff0000
   1781 
   1782 /**
   1783  * \brief The coded buffer segment contains a single NAL unit.
   1784  *
   1785  * This flag indicates that the coded buffer segment contains a
   1786  * single NAL unit. This flag might be useful to the user for
   1787  * processing the coded buffer.
   1788  */
   1789 #define VA_CODED_BUF_STATUS_SINGLE_NALU                 0x10000000
   1790 
   1791 /**
   1792  * \brief Coded buffer segment.
   1793  *
   1794  * #VACodedBufferSegment is an element of a linked list describing
   1795  * some information on the coded buffer. The coded buffer segment
   1796  * could contain either a single NAL unit, or more than one NAL unit.
   1797  * It is recommended (but not required) to return a single NAL unit
   1798  * in a coded buffer segment, and the implementation should set the
   1799  * VA_CODED_BUF_STATUS_SINGLE_NALU status flag if that is the case.
   1800  */
   1801 typedef  struct _VACodedBufferSegment  {
   1802     /**
   1803      * \brief Size of the data buffer in this segment (in bytes).
   1804      */
   1805     unsigned int        size;
   1806     /** \brief Bit offset into the data buffer where the video data starts. */
   1807     unsigned int        bit_offset;
   1808     /** \brief Status set by the driver. See \c VA_CODED_BUF_STATUS_*. */
   1809     unsigned int        status;
   1810     /** \brief Reserved for future use. */
   1811     unsigned int        reserved;
   1812     /** \brief Pointer to the start of the data buffer. */
   1813     void               *buf;
   1814     /**
   1815      * \brief Pointer to the next #VACodedBufferSegment element,
   1816      * or \c NULL if there is none.
   1817      */
   1818     void               *next;
   1819 } VACodedBufferSegment;
   1820 
   1821 /**
   1822  * Map data store of the buffer into the client's address space
   1823  * vaCreateBuffer() needs to be called with "data" set to NULL before
   1824  * calling vaMapBuffer()
   1825  *
   1826  * if buffer type is VAEncCodedBufferType, pbuf points to link-list of
   1827  * VACodedBufferSegment, and the list is terminated if "next" is NULL
   1828  */
   1829 VAStatus vaMapBuffer (
   1830     VADisplay dpy,
   1831     VABufferID buf_id,	/* in */
   1832     void **pbuf 	/* out */
   1833 );
   1834 
   1835 /**
   1836  * After client making changes to a mapped data store, it needs to
   1837  * "Unmap" it to let the server know that the data is ready to be
   1838  * consumed by the server
   1839  */
   1840 VAStatus vaUnmapBuffer (
   1841     VADisplay dpy,
   1842     VABufferID buf_id	/* in */
   1843 );
   1844 
   1845 /**
   1846  * After this call, the buffer is deleted and this buffer_id is no longer valid
   1847  * Only call this if the buffer is not going to be passed to vaRenderBuffer
   1848  */
   1849 VAStatus vaDestroyBuffer (
   1850     VADisplay dpy,
   1851     VABufferID buffer_id
   1852 );
   1853 
   1854 /*
   1855 Render (Decode) Pictures
   1856 
   1857 A picture represents either a frame or a field.
   1858 
   1859 The Begin/Render/End sequence sends the decode buffers to the server
   1860 */
   1861 
   1862 /**
   1863  * Get ready to decode a picture to a target surface
   1864  */
   1865 VAStatus vaBeginPicture (
   1866     VADisplay dpy,
   1867     VAContextID context,
   1868     VASurfaceID render_target
   1869 );
   1870 
   1871 /**
   1872  * Send decode buffers to the server.
   1873  * Buffers are automatically destroyed afterwards
   1874  */
   1875 VAStatus vaRenderPicture (
   1876     VADisplay dpy,
   1877     VAContextID context,
   1878     VABufferID *buffers,
   1879     int num_buffers
   1880 );
   1881 
   1882 /**
   1883  * Make the end of rendering for a picture.
   1884  * The server should start processing all pending operations for this
   1885  * surface. This call is non-blocking. The client can start another
   1886  * Begin/Render/End sequence on a different render target.
   1887  */
   1888 VAStatus vaEndPicture (
   1889     VADisplay dpy,
   1890     VAContextID context
   1891 );
   1892 
   1893 /*
   1894 
   1895 Synchronization
   1896 
   1897 */
   1898 
   1899 /**
   1900  * This function blocks until all pending operations on the render target
   1901  * have been completed.  Upon return it is safe to use the render target for a
   1902  * different picture.
   1903  */
   1904 VAStatus vaSyncSurface (
   1905     VADisplay dpy,
   1906     VASurfaceID render_target
   1907 );
   1908 
   1909 typedef enum
   1910 {
   1911     VASurfaceRendering	= 1, /* Rendering in progress */
   1912     VASurfaceDisplaying	= 2, /* Displaying in progress (not safe to render into it) */
   1913                              /* this status is useful if surface is used as the source */
   1914                              /* of an overlay */
   1915     VASurfaceReady	= 4, /* not being rendered or displayed */
   1916     VASurfaceSkipped	= 8  /* Indicate a skipped frame during encode */
   1917 } VASurfaceStatus;
   1918 
   1919 /**
   1920  * Find out any pending ops on the render target
   1921  */
   1922 VAStatus vaQuerySurfaceStatus (
   1923     VADisplay dpy,
   1924     VASurfaceID render_target,
   1925     VASurfaceStatus *status	/* out */
   1926 );
   1927 
   1928 typedef enum
   1929 {
   1930     VADecodeSliceMissing            = 0,
   1931     VADecodeMBError                 = 1,
   1932 } VADecodeErrorType;
   1933 
   1934 /**
   1935  * Client calls vaQuerySurfaceError with VA_STATUS_ERROR_DECODING_ERROR, server side returns
   1936  * an array of structure VASurfaceDecodeMBErrors, and the array is terminated by setting status=-1
   1937 */
   1938 typedef struct _VASurfaceDecodeMBErrors
   1939 {
   1940     int status; /* 1 if hardware has returned detailed info below, -1 means this record is invalid */
   1941     unsigned int start_mb; /* start mb address with errors */
   1942     unsigned int end_mb;  /* end mb address with errors */
   1943     VADecodeErrorType decode_error_type;
   1944 } VASurfaceDecodeMBErrors;
   1945 
   1946 /**
   1947  * After the application gets VA_STATUS_ERROR_DECODING_ERROR after calling vaSyncSurface(),
   1948  * it can call vaQuerySurfaceError to find out further details on the particular error.
   1949  * VA_STATUS_ERROR_DECODING_ERROR should be passed in as "error_status",
   1950  * upon the return, error_info will point to an array of _VASurfaceDecodeMBErrors structure,
   1951  * which is allocated and filled by libVA with detailed information on the missing or error macroblocks.
   1952  * The array is terminated if "status==-1" is detected.
   1953  */
   1954 VAStatus vaQuerySurfaceError(
   1955     VADisplay dpy,
   1956     VASurfaceID surface,
   1957     VAStatus error_status,
   1958     void **error_info
   1959 );
   1960 
   1961 /**
   1962  * Images and Subpictures
   1963  * VAImage is used to either get the surface data to client memory, or
   1964  * to copy image data in client memory to a surface.
   1965  * Both images, subpictures and surfaces follow the same 2D coordinate system where origin
   1966  * is at the upper left corner with positive X to the right and positive Y down
   1967  */
   1968 #define VA_FOURCC(ch0, ch1, ch2, ch3) \
   1969     ((unsigned long)(unsigned char) (ch0) | ((unsigned long)(unsigned char) (ch1) << 8) | \
   1970     ((unsigned long)(unsigned char) (ch2) << 16) | ((unsigned long)(unsigned char) (ch3) << 24 ))
   1971 
   1972 /*
   1973  * Pre-defined fourcc codes
   1974  */
   1975 #define VA_FOURCC_NV12		0x3231564E
   1976 #define VA_FOURCC_AI44		0x34344149
   1977 #define VA_FOURCC_RGBA		0x41424752
   1978 #define VA_FOURCC_RGBX		0x58424752
   1979 #define VA_FOURCC_BGRA		0x41524742
   1980 #define VA_FOURCC_BGRX		0x58524742
   1981 #define VA_FOURCC_ARGB		0x42475241
   1982 #define VA_FOURCC_XRGB		0x42475258
   1983 #define VA_FOURCC_ABGR          0x52474241
   1984 #define VA_FOURCC_XBGR          0x52474258
   1985 #define VA_FOURCC_UYVY          0x59565955
   1986 #define VA_FOURCC_YUY2          0x32595559
   1987 #define VA_FOURCC_AYUV          0x56555941
   1988 #define VA_FOURCC_NV11          0x3131564e
   1989 #define VA_FOURCC_YV12          0x32315659
   1990 #define VA_FOURCC_P208          0x38303250
   1991 #define VA_FOURCC_IYUV          0x56555949
   1992 #define VA_FOURCC_YV24          0x34325659
   1993 #define VA_FOURCC_YV32          0x32335659
   1994 #define VA_FOURCC_Y800          0x30303859
   1995 #define VA_FOURCC_IMC3          0x33434D49
   1996 #define VA_FOURCC_411P          0x50313134
   1997 #define VA_FOURCC_422H          0x48323234
   1998 #define VA_FOURCC_422V          0x56323234
   1999 #define VA_FOURCC_444P          0x50343434
   2000 #define VA_FOURCC_RGBP          0x50424752
   2001 #define VA_FOURCC_BGRP          0x50524742
   2002 #define VA_FOURCC_411R          0x52313134 /* rotated 411P */
   2003 
   2004 /* byte order */
   2005 #define VA_LSB_FIRST		1
   2006 #define VA_MSB_FIRST		2
   2007 
   2008 typedef struct _VAImageFormat
   2009 {
   2010     unsigned int	fourcc;
   2011     unsigned int	byte_order; /* VA_LSB_FIRST, VA_MSB_FIRST */
   2012     unsigned int	bits_per_pixel;
   2013     /* for RGB formats */
   2014     unsigned int	depth; /* significant bits per pixel */
   2015     unsigned int	red_mask;
   2016     unsigned int	green_mask;
   2017     unsigned int	blue_mask;
   2018     unsigned int	alpha_mask;
   2019 } VAImageFormat;
   2020 
   2021 typedef VAGenericID VAImageID;
   2022 
   2023 typedef struct _VAImage
   2024 {
   2025     VAImageID		image_id; /* uniquely identify this image */
   2026     VAImageFormat	format;
   2027     VABufferID		buf;	/* image data buffer */
   2028     /*
   2029      * Image data will be stored in a buffer of type VAImageBufferType to facilitate
   2030      * data store on the server side for optimal performance. The buffer will be
   2031      * created by the CreateImage function, and proper storage allocated based on the image
   2032      * size and format. This buffer is managed by the library implementation, and
   2033      * accessed by the client through the buffer Map/Unmap functions.
   2034      */
   2035     unsigned short	width;
   2036     unsigned short	height;
   2037     unsigned int	data_size;
   2038     unsigned int	num_planes;	/* can not be greater than 3 */
   2039     /*
   2040      * An array indicating the scanline pitch in bytes for each plane.
   2041      * Each plane may have a different pitch. Maximum 3 planes for planar formats
   2042      */
   2043     unsigned int	pitches[3];
   2044     /*
   2045      * An array indicating the byte offset from the beginning of the image data
   2046      * to the start of each plane.
   2047      */
   2048     unsigned int	offsets[3];
   2049 
   2050     /* The following fields are only needed for paletted formats */
   2051     int num_palette_entries;   /* set to zero for non-palette images */
   2052     /*
   2053      * Each component is one byte and entry_bytes indicates the number of components in
   2054      * each entry (eg. 3 for YUV palette entries). set to zero for non-palette images
   2055      */
   2056     int entry_bytes;
   2057     /*
   2058      * An array of ascii characters describing the order of the components within the bytes.
   2059      * Only entry_bytes characters of the string are used.
   2060      */
   2061     char component_order[4];
   2062 } VAImage;
   2063 
   2064 /** Get maximum number of image formats supported by the implementation */
   2065 int vaMaxNumImageFormats (
   2066     VADisplay dpy
   2067 );
   2068 
   2069 /**
   2070  * Query supported image formats
   2071  * The caller must provide a "format_list" array that can hold at
   2072  * least vaMaxNumImageFormats() entries. The actual number of formats
   2073  * returned in "format_list" is returned in "num_formats".
   2074  */
   2075 VAStatus vaQueryImageFormats (
   2076     VADisplay dpy,
   2077     VAImageFormat *format_list,	/* out */
   2078     int *num_formats		/* out */
   2079 );
   2080 
   2081 /**
   2082  * Create a VAImage structure
   2083  * The width and height fields returned in the VAImage structure may get
   2084  * enlarged for some YUV formats. Upon return from this function,
   2085  * image->buf has been created and proper storage allocated by the library.
   2086  * The client can access the image through the Map/Unmap calls.
   2087  */
   2088 VAStatus vaCreateImage (
   2089     VADisplay dpy,
   2090     VAImageFormat *format,
   2091     int width,
   2092     int height,
   2093     VAImage *image	/* out */
   2094 );
   2095 
   2096 /**
   2097  * Should call DestroyImage before destroying the surface it is bound to
   2098  */
   2099 VAStatus vaDestroyImage (
   2100     VADisplay dpy,
   2101     VAImageID image
   2102 );
   2103 
   2104 VAStatus vaSetImagePalette (
   2105     VADisplay dpy,
   2106     VAImageID image,
   2107     /*
   2108      * pointer to an array holding the palette data.  The size of the array is
   2109      * num_palette_entries * entry_bytes in size.  The order of the components
   2110      * in the palette is described by the component_order in VAImage struct
   2111      */
   2112     unsigned char *palette
   2113 );
   2114 
   2115 /**
   2116  * Retrive surface data into a VAImage
   2117  * Image must be in a format supported by the implementation
   2118  */
   2119 VAStatus vaGetImage (
   2120     VADisplay dpy,
   2121     VASurfaceID surface,
   2122     int x,	/* coordinates of the upper left source pixel */
   2123     int y,
   2124     unsigned int width, /* width and height of the region */
   2125     unsigned int height,
   2126     VAImageID image
   2127 );
   2128 
   2129 /**
   2130  * Copy data from a VAImage to a surface
   2131  * Image must be in a format supported by the implementation
   2132  * Returns a VA_STATUS_ERROR_SURFACE_BUSY if the surface
   2133  * shouldn't be rendered into when this is called
   2134  */
   2135 VAStatus vaPutImage (
   2136     VADisplay dpy,
   2137     VASurfaceID surface,
   2138     VAImageID image,
   2139     int src_x,
   2140     int src_y,
   2141     unsigned int src_width,
   2142     unsigned int src_height,
   2143     int dest_x,
   2144     int dest_y,
   2145     unsigned int dest_width,
   2146     unsigned int dest_height
   2147 );
   2148 
   2149 /**
   2150  * Derive an VAImage from an existing surface.
   2151  * This interface will derive a VAImage and corresponding image buffer from
   2152  * an existing VA Surface. The image buffer can then be mapped/unmapped for
   2153  * direct CPU access. This operation is only possible on implementations with
   2154  * direct rendering capabilities and internal surface formats that can be
   2155  * represented with a VAImage. When the operation is not possible this interface
   2156  * will return VA_STATUS_ERROR_OPERATION_FAILED. Clients should then fall back
   2157  * to using vaCreateImage + vaPutImage to accomplish the same task in an
   2158  * indirect manner.
   2159  *
   2160  * Implementations should only return success when the resulting image buffer
   2161  * would be useable with vaMap/Unmap.
   2162  *
   2163  * When directly accessing a surface special care must be taken to insure
   2164  * proper synchronization with the graphics hardware. Clients should call
   2165  * vaQuerySurfaceStatus to insure that a surface is not the target of concurrent
   2166  * rendering or currently being displayed by an overlay.
   2167  *
   2168  * Additionally nothing about the contents of a surface should be assumed
   2169  * following a vaPutSurface. Implementations are free to modify the surface for
   2170  * scaling or subpicture blending within a call to vaPutImage.
   2171  *
   2172  * Calls to vaPutImage or vaGetImage using the same surface from which the image
   2173  * has been derived will return VA_STATUS_ERROR_SURFACE_BUSY. vaPutImage or
   2174  * vaGetImage with other surfaces is supported.
   2175  *
   2176  * An image created with vaDeriveImage should be freed with vaDestroyImage. The
   2177  * image and image buffer structures will be destroyed; however, the underlying
   2178  * surface will remain unchanged until freed with vaDestroySurfaces.
   2179  */
   2180 VAStatus vaDeriveImage (
   2181     VADisplay dpy,
   2182     VASurfaceID surface,
   2183     VAImage *image	/* out */
   2184 );
   2185 
   2186 /**
   2187  * Subpictures
   2188  * Subpicture is a special type of image that can be blended
   2189  * with a surface during vaPutSurface(). Subpicture can be used to render
   2190  * DVD sub-titles or closed captioning text etc.
   2191  */
   2192 
   2193 typedef VAGenericID VASubpictureID;
   2194 
   2195 /** Get maximum number of subpicture formats supported by the implementation */
   2196 int vaMaxNumSubpictureFormats (
   2197     VADisplay dpy
   2198 );
   2199 
   2200 /** flags for subpictures */
   2201 #define VA_SUBPICTURE_CHROMA_KEYING			0x0001
   2202 #define VA_SUBPICTURE_GLOBAL_ALPHA			0x0002
   2203 #define VA_SUBPICTURE_DESTINATION_IS_SCREEN_COORD	0x0004
   2204 /**
   2205  * Query supported subpicture formats
   2206  * The caller must provide a "format_list" array that can hold at
   2207  * least vaMaxNumSubpictureFormats() entries. The flags arrary holds the flag
   2208  * for each format to indicate additional capabilities for that format. The actual
   2209  * number of formats returned in "format_list" is returned in "num_formats".
   2210  *  flags: returned value to indicate addtional capabilities
   2211  *         VA_SUBPICTURE_CHROMA_KEYING - supports chroma-keying
   2212  *         VA_SUBPICTURE_GLOBAL_ALPHA - supports global alpha
   2213  * 	   VA_SUBPICTURE_DESTINATION_IS_SCREEN_COORD - supports unscaled screen relative subpictures for On Screen Display
   2214  */
   2215 
   2216 VAStatus vaQuerySubpictureFormats (
   2217     VADisplay dpy,
   2218     VAImageFormat *format_list,	/* out */
   2219     unsigned int *flags,	/* out */
   2220     unsigned int *num_formats	/* out */
   2221 );
   2222 
   2223 /**
   2224  * Subpictures are created with an image associated.
   2225  */
   2226 VAStatus vaCreateSubpicture (
   2227     VADisplay dpy,
   2228     VAImageID image,
   2229     VASubpictureID *subpicture	/* out */
   2230 );
   2231 
   2232 /**
   2233  * Destroy the subpicture before destroying the image it is assocated to
   2234  */
   2235 VAStatus vaDestroySubpicture (
   2236     VADisplay dpy,
   2237     VASubpictureID subpicture
   2238 );
   2239 
   2240 /**
   2241  * Bind an image to the subpicture. This image will now be associated with
   2242  * the subpicture instead of the one at creation.
   2243  */
   2244 VAStatus vaSetSubpictureImage (
   2245     VADisplay dpy,
   2246     VASubpictureID subpicture,
   2247     VAImageID image
   2248 );
   2249 
   2250 /**
   2251  * If chromakey is enabled, then the area where the source value falls within
   2252  * the chromakey [min, max] range is transparent
   2253  * The chromakey component format is the following:
   2254  *  For RGB: [0:7] Red [8:15] Blue [16:23] Green
   2255  *  For YUV: [0:7] V [8:15] U [16:23] Y
   2256  * The chromakey mask can be used to mask out certain components for chromakey
   2257  * comparision
   2258  */
   2259 VAStatus vaSetSubpictureChromakey (
   2260     VADisplay dpy,
   2261     VASubpictureID subpicture,
   2262     unsigned int chromakey_min,
   2263     unsigned int chromakey_max,
   2264     unsigned int chromakey_mask
   2265 );
   2266 
   2267 /**
   2268  * Global alpha value is between 0 and 1. A value of 1 means fully opaque and
   2269  * a value of 0 means fully transparent. If per-pixel alpha is also specified then
   2270  * the overall alpha is per-pixel alpha multiplied by the global alpha
   2271  */
   2272 VAStatus vaSetSubpictureGlobalAlpha (
   2273     VADisplay dpy,
   2274     VASubpictureID subpicture,
   2275     float global_alpha
   2276 );
   2277 
   2278 /**
   2279  * vaAssociateSubpicture associates the subpicture with target_surfaces.
   2280  * It defines the region mapping between the subpicture and the target
   2281  * surfaces through source and destination rectangles (with the same width and height).
   2282  * Both will be displayed at the next call to vaPutSurface.  Additional
   2283  * associations before the call to vaPutSurface simply overrides the association.
   2284  */
   2285 VAStatus vaAssociateSubpicture (
   2286     VADisplay dpy,
   2287     VASubpictureID subpicture,
   2288     VASurfaceID *target_surfaces,
   2289     int num_surfaces,
   2290     short src_x, /* upper left offset in subpicture */
   2291     short src_y,
   2292     unsigned short src_width,
   2293     unsigned short src_height,
   2294     short dest_x, /* upper left offset in surface */
   2295     short dest_y,
   2296     unsigned short dest_width,
   2297     unsigned short dest_height,
   2298     /*
   2299      * whether to enable chroma-keying, global-alpha, or screen relative mode
   2300      * see VA_SUBPICTURE_XXX values
   2301      */
   2302     unsigned int flags
   2303 );
   2304 
   2305 /**
   2306  * vaDeassociateSubpicture removes the association of the subpicture with target_surfaces.
   2307  */
   2308 VAStatus vaDeassociateSubpicture (
   2309     VADisplay dpy,
   2310     VASubpictureID subpicture,
   2311     VASurfaceID *target_surfaces,
   2312     int num_surfaces
   2313 );
   2314 
   2315 typedef struct _VARectangle
   2316 {
   2317     short x;
   2318     short y;
   2319     unsigned short width;
   2320     unsigned short height;
   2321 } VARectangle;
   2322 
   2323 /**
   2324  * Display attributes
   2325  * Display attributes are used to control things such as contrast, hue, saturation,
   2326  * brightness etc. in the rendering process.  The application can query what
   2327  * attributes are supported by the driver, and then set the appropriate attributes
   2328  * before calling vaPutSurface()
   2329  */
   2330 /* PowerVR IEP Lite attributes */
   2331 typedef enum
   2332 {
   2333     VADISPLAYATTRIB_BLE_OFF              = 0x00,
   2334     VADISPLAYATTRIB_BLE_LOW,
   2335     VADISPLAYATTRIB_BLE_MEDIUM,
   2336     VADISPLAYATTRIB_BLE_HIGH,
   2337     VADISPLAYATTRIB_BLE_NONE,
   2338 } VADisplayAttribBLEMode;
   2339 
   2340 /** attribute value for VADisplayAttribRotation   */
   2341 #define VA_ROTATION_NONE        0x00000000
   2342 #define VA_ROTATION_90          0x00000001
   2343 #define VA_ROTATION_180         0x00000002
   2344 #define VA_ROTATION_270         0x00000003
   2345 
   2346 /** attribute value for VADisplayAttribOutOfLoopDeblock */
   2347 #define VA_OOL_DEBLOCKING_FALSE 0x00000000
   2348 #define VA_OOL_DEBLOCKING_TRUE  0x00000001
   2349 
   2350 /** Render mode */
   2351 #define VA_RENDER_MODE_UNDEFINED           0
   2352 #define VA_RENDER_MODE_LOCAL_OVERLAY       1
   2353 #define VA_RENDER_MODE_LOCAL_GPU           2
   2354 #define VA_RENDER_MODE_EXTERNAL_OVERLAY    4
   2355 #define VA_RENDER_MODE_EXTERNAL_GPU        8
   2356 
   2357 /** Render device */
   2358 #define VA_RENDER_DEVICE_UNDEFINED  0
   2359 #define VA_RENDER_DEVICE_LOCAL      1
   2360 #define VA_RENDER_DEVICE_EXTERNAL   2
   2361 
   2362 /** Currently defined display attribute types */
   2363 typedef enum
   2364 {
   2365     VADisplayAttribBrightness		= 0,
   2366     VADisplayAttribContrast		= 1,
   2367     VADisplayAttribHue			= 2,
   2368     VADisplayAttribSaturation		= 3,
   2369     /* client can specifiy a background color for the target window
   2370      * the new feature of video conference,
   2371      * the uncovered area of the surface is filled by this color
   2372      * also it will blend with the decoded video color
   2373      */
   2374     VADisplayAttribBackgroundColor      = 4,
   2375     /*
   2376      * this is a gettable only attribute. For some implementations that use the
   2377      * hardware overlay, after PutSurface is called, the surface can not be
   2378      * re-used until after the subsequent PutSurface call. If this is the case
   2379      * then the value for this attribute will be set to 1 so that the client
   2380      * will not attempt to re-use the surface right after returning from a call
   2381      * to PutSurface.
   2382      *
   2383      * Don't use it, use flag VASurfaceDisplaying of vaQuerySurfaceStatus since
   2384      * driver may use overlay or GPU alternatively
   2385      */
   2386     VADisplayAttribDirectSurface       = 5,
   2387     VADisplayAttribRotation            = 6,
   2388     VADisplayAttribOutofLoopDeblock    = 7,
   2389 
   2390     /* PowerVR IEP Lite specific attributes */
   2391     VADisplayAttribBLEBlackMode        = 8,
   2392     VADisplayAttribBLEWhiteMode        = 9,
   2393     VADisplayAttribBlueStretch         = 10,
   2394     VADisplayAttribSkinColorCorrection = 11,
   2395     /*
   2396      * For type VADisplayAttribCSCMatrix, "value" field is a pointer to the color
   2397      * conversion matrix. Each element in the matrix is float-point
   2398      */
   2399     VADisplayAttribCSCMatrix           = 12,
   2400     /* specify the constant color used to blend with video surface
   2401      * Cd = Cv*Cc*Ac + Cb *(1 - Ac) C means the constant RGB
   2402      *      d: the final color to overwrite into the frame buffer
   2403      *      v: decoded video after color conversion,
   2404      *      c: video color specified by VADisplayAttribBlendColor
   2405      *      b: background color of the drawable
   2406      */
   2407     VADisplayAttribBlendColor          = 13,
   2408     /*
   2409      * Indicate driver to skip painting color key or not.
   2410      * only applicable if the render is overlay
   2411      */
   2412     VADisplayAttribOverlayAutoPaintColorKey   = 14,
   2413     /*
   2414      * customized overlay color key, the format is RGB888
   2415      * [23:16] = Red, [15:08] = Green, [07:00] = Blue.
   2416      */
   2417     VADisplayAttribOverlayColorKey	= 15,
   2418     /*
   2419      * The hint for the implementation of vaPutSurface
   2420      * normally, the driver could use an overlay or GPU to render the surface on the screen
   2421      * this flag provides APP the flexibity to switch the render dynamically
   2422      */
   2423     VADisplayAttribRenderMode           = 16,
   2424     /*
   2425      * specify if vaPutSurface needs to render into specified monitors
   2426      * one example is that one external monitor (e.g. HDMI) is enabled,
   2427      * but the window manager is not aware of it, and there is no associated drawable
   2428      */
   2429     VADisplayAttribRenderDevice        = 17,
   2430     /*
   2431      * specify vaPutSurface render area if there is no drawable on the monitor
   2432      */
   2433     VADisplayAttribRenderRect          = 18,
   2434 } VADisplayAttribType;
   2435 
   2436 /* flags for VADisplayAttribute */
   2437 #define VA_DISPLAY_ATTRIB_NOT_SUPPORTED	0x0000
   2438 #define VA_DISPLAY_ATTRIB_GETTABLE	0x0001
   2439 #define VA_DISPLAY_ATTRIB_SETTABLE	0x0002
   2440 
   2441 typedef struct _VADisplayAttribute
   2442 {
   2443     VADisplayAttribType type;
   2444     int min_value;
   2445     int max_value;
   2446     int value;	/* used by the set/get attribute functions */
   2447 /* flags can be VA_DISPLAY_ATTRIB_GETTABLE or VA_DISPLAY_ATTRIB_SETTABLE or OR'd together */
   2448     unsigned int flags;
   2449 } VADisplayAttribute;
   2450 
   2451 /** Get maximum number of display attributs supported by the implementation */
   2452 int vaMaxNumDisplayAttributes (
   2453     VADisplay dpy
   2454 );
   2455 
   2456 /**
   2457  * Query display attributes
   2458  * The caller must provide a "attr_list" array that can hold at
   2459  * least vaMaxNumDisplayAttributes() entries. The actual number of attributes
   2460  * returned in "attr_list" is returned in "num_attributes".
   2461  */
   2462 VAStatus vaQueryDisplayAttributes (
   2463     VADisplay dpy,
   2464     VADisplayAttribute *attr_list,	/* out */
   2465     int *num_attributes			/* out */
   2466 );
   2467 
   2468 /**
   2469  * Get display attributes
   2470  * This function returns the current attribute values in "attr_list".
   2471  * Only attributes returned with VA_DISPLAY_ATTRIB_GETTABLE set in the "flags" field
   2472  * from vaQueryDisplayAttributes() can have their values retrieved.
   2473  */
   2474 VAStatus vaGetDisplayAttributes (
   2475     VADisplay dpy,
   2476     VADisplayAttribute *attr_list,	/* in/out */
   2477     int num_attributes
   2478 );
   2479 
   2480 /**
   2481  * Set display attributes
   2482  * Only attributes returned with VA_DISPLAY_ATTRIB_SETTABLE set in the "flags" field
   2483  * from vaQueryDisplayAttributes() can be set.  If the attribute is not settable or
   2484  * the value is out of range, the function returns VA_STATUS_ERROR_ATTR_NOT_SUPPORTED
   2485  */
   2486 VAStatus vaSetDisplayAttributes (
   2487     VADisplay dpy,
   2488     VADisplayAttribute *attr_list,
   2489     int num_attributes
   2490 );
   2491 
   2492 /**@}*/
   2493 
   2494 #ifdef __cplusplus
   2495 }
   2496 #endif
   2497 
   2498 #endif /* _VA_H_ */
   2499