/* * Copyright (c) 2017-2020, Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ //! //! \file mhw_vdbox_mfx_g9_X.h //! \brief Defines functions for constructing Vdbox MFX commands on Gen9-based platforms //! #ifndef __MHW_VDBOX_MFX_G9_X_H__ #define __MHW_VDBOX_MFX_G9_X_H__ #include "mhw_vdbox_mfx_generic.h" #include "mhw_mi_hwcmd_g9_X.h" #include "mhw_mmio_g9.h" //! MHW Vdbox Mfx interface for Gen9 /*! This class defines the Mfx command construction functions for Gen9 platforms as template */ template class MhwVdboxMfxInterfaceG9 : public MhwVdboxMfxInterfaceGeneric { protected: static const uint32_t m_avcInterMbMaxSize = 4095; //! AVC inter macroblock max size static const uint32_t m_avcIntraMbMaxSize = 2700; //! AVC intra macroblock max size #define PATCH_LIST_COMMAND(x) (x##_NUMBER_OF_ADDRESSES) enum CommandsNumberOfAddresses { // MFX Engine Commands MI_BATCH_BUFFER_START_CMD_NUMBER_OF_ADDRESSES = 1, // 2 DW for 1 address field MI_STORE_DATA_IMM_CMD_NUMBER_OF_ADDRESSES = 1, // 2 DW for 1 address field MI_FLUSH_DW_CMD_NUMBER_OF_ADDRESSES = 1, // 2 DW for 1 address field MI_CONDITIONAL_BATCH_BUFFER_END_CMD_NUMBER_OF_ADDRESSES = 1, // 2 DW for 1 address field MI_STORE_REGISTER_MEM_CMD_NUMBER_OF_ADDRESSES = 1, // 2 DW for 1 address field MFX_PIPE_MODE_SELECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_SURFACE_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_PIPE_BUF_ADDR_STATE_CMD_NUMBER_OF_ADDRESSES = 27, // 50 DW for 25 address fields, added 2 for DownScaledReconPicAddr MFX_IND_OBJ_BASE_ADDR_STATE_CMD_NUMBER_OF_ADDRESSES = 5, // 10 DW for 5 address fields MFX_WAIT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_BSP_BUF_BASE_ADDR_STATE_CMD_NUMBER_OF_ADDRESSES = 3, // 2 DW for 3 address fields MFD_AVC_PICID_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_AVC_DIRECTMODE_STATE_CMD_NUMBER_OF_ADDRESSES = 17, // 50 DW for 17 address fields MFX_AVC_IMG_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_QM_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_FQM_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_VC1_LONG_PIC_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_VC1_PRED_PIPE_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_VC1_DIRECTMODE_STATE_CMD_NUMBER_OF_ADDRESSES = 2, // 2 DW for 2 address fields MFX_MPEG2_PIC_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_DBK_OBJECT_CMD_NUMBER_OF_ADDRESSES = 4, // 2 DW for 4 address fields MFX_VP8_PIC_STATE_CMD_NUMBER_OF_ADDRESSES = 2, // 2 DW for 2 address fields MFX_AVC_SLICE_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_AVC_BSD_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_AVC_DPB_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_AVC_SLICEADDR_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_AVC_REF_IDX_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFX_AVC_WEIGHTOFFSET_STATE_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFC_AVC_PAK_INSERT_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_VC1_BSD_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_VC1_IT_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_MPEG2_BSD_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_MPEG2_IT_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields MFD_VP8_BSD_OBJECT_CMD_NUMBER_OF_ADDRESSES = 0, // 0 DW for address fields }; protected: //! //! \brief Constructor //! MhwVdboxMfxInterfaceG9( PMOS_INTERFACE osInterface, MhwMiInterface *miInterface, MhwCpInterface *cpInterface, bool decodeInUse) : MhwVdboxMfxInterfaceGeneric(osInterface, miInterface, cpInterface, decodeInUse) { MHW_FUNCTION_ENTER; InitRowstoreUserFeatureSettings(osInterface->pOsContext); InitMmioRegisters(); } //! //! \brief Destructor //! virtual ~MhwVdboxMfxInterfaceG9() { MHW_FUNCTION_ENTER; } void InitMmioRegisters() { MmioRegistersMfx *mmioRegisters = &this->m_mmioRegisters[MHW_VDBOX_NODE_1]; mmioRegisters->generalPurposeRegister0LoOffset = GENERAL_PURPOSE_REGISTER0_LO_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister0HiOffset = GENERAL_PURPOSE_REGISTER0_HI_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister4LoOffset = GENERAL_PURPOSE_REGISTER4_LO_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister4HiOffset = GENERAL_PURPOSE_REGISTER4_HI_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister11LoOffset = GENERAL_PURPOSE_REGISTER11_LO_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister11HiOffset = GENERAL_PURPOSE_REGISTER11_HI_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister12LoOffset = GENERAL_PURPOSE_REGISTER12_LO_OFFSET_NODE_1_INIT_G9; mmioRegisters->generalPurposeRegister12HiOffset = GENERAL_PURPOSE_REGISTER12_HI_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcImageStatusMaskRegOffset = MFC_IMAGE_STATUS_MASK_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcImageStatusCtrlRegOffset = MFC_IMAGE_STATUS_CTRL_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcAvcNumSlicesRegOffset = MFC_AVC_NUM_SLICES_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcQPStatusCountOffset = MFC_QP_STATUS_COUNT_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxErrorFlagsRegOffset = MFX_ERROR_FLAG_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxFrameCrcRegOffset = MFX_FRAME_CRC_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxMBCountRegOffset = MFX_MB_COUNT_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcBitstreamBytecountFrameRegOffset = MFC_BITSTREAM_BYTECOUNT_FRAME_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcBitstreamSeBitcountFrameRegOffset = MFC_BITSTREAM_SE_BITCOUNT_FRAME_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcBitstreamBytecountSliceRegOffset = MFC_BITSTREAM_BYTECOUNT_SLICE_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcVP8BitstreamBytecountFrameRegOffset = MFC_VP8_BITSTREAM_BYTECOUNT_FRAME_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcVP8ImageStatusMaskRegOffset = MFC_VP8_IMAGE_STATUS_MASK_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfcVP8ImageStatusCtrlRegOffset = MFC_VP8_IMAGE_STATUS_CTRL_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcDQIndexRegOffset = MFX_VP8_BRC_DQ_INDEX_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcDLoopFilterRegOffset = MFX_VP8_BRC_LOOP_FILTER_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDQIndex01RegOffset = MFX_VP8_BRC_CUMULATIVE_DQ_INDEX01_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDQIndex23RegOffset = MFX_VP8_BRC_CUMULATIVE_DQ_INDEX23_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDLoopFilter01RegOffset = MFX_VP8_BRC_CUMULATIVE_LOOP_FILTER01_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDLoopFilter23RegOffset = MFX_VP8_BRC_CUMULATIVE_LOOP_FILTER23_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxVP8BrcConvergenceStatusRegOffset = MFX_VP8_BRC_CONVERGENCE_STATUS_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxLra0RegOffset = MFX_LRA0_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxLra1RegOffset = MFX_LRA1_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters->mfxLra2RegOffset = MFX_LRA2_REG_OFFSET_NODE_1_INIT_G9; mmioRegisters = &this->m_mmioRegisters[MHW_VDBOX_NODE_2]; mmioRegisters->generalPurposeRegister0LoOffset = GENERAL_PURPOSE_REGISTER0_LO_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister0HiOffset = GENERAL_PURPOSE_REGISTER0_HI_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister4LoOffset = GENERAL_PURPOSE_REGISTER4_LO_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister4HiOffset = GENERAL_PURPOSE_REGISTER4_HI_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister11LoOffset = GENERAL_PURPOSE_REGISTER11_LO_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister11HiOffset = GENERAL_PURPOSE_REGISTER11_HI_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister12LoOffset = GENERAL_PURPOSE_REGISTER12_LO_OFFSET_NODE_2_INIT_G9; mmioRegisters->generalPurposeRegister12HiOffset = GENERAL_PURPOSE_REGISTER12_HI_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcImageStatusMaskRegOffset = MFC_IMAGE_STATUS_MASK_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcImageStatusCtrlRegOffset = MFC_IMAGE_STATUS_CTRL_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcAvcNumSlicesRegOffset = MFC_AVC_NUM_SLICES_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcQPStatusCountOffset = MFC_QP_STATUS_COUNT_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxErrorFlagsRegOffset = MFX_ERROR_FLAG_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxFrameCrcRegOffset = MFX_FRAME_CRC_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxMBCountRegOffset = MFX_MB_COUNT_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcBitstreamBytecountFrameRegOffset = MFC_BITSTREAM_BYTECOUNT_FRAME_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcBitstreamSeBitcountFrameRegOffset = MFC_BITSTREAM_SE_BITCOUNT_FRAME_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcBitstreamBytecountSliceRegOffset = MFC_BITSTREAM_BYTECOUNT_SLICE_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcVP8BitstreamBytecountFrameRegOffset = MFC_VP8_BITSTREAM_BYTECOUNT_FRAME_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcVP8ImageStatusMaskRegOffset = MFC_VP8_IMAGE_STATUS_MASK_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfcVP8ImageStatusCtrlRegOffset = MFC_VP8_IMAGE_STATUS_CTRL_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcDQIndexRegOffset = MFX_VP8_BRC_DQ_INDEX_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcDLoopFilterRegOffset = MFX_VP8_BRC_LOOP_FILTER_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDQIndex01RegOffset = MFX_VP8_BRC_CUMULATIVE_DQ_INDEX01_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDQIndex23RegOffset = MFX_VP8_BRC_CUMULATIVE_DQ_INDEX23_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDLoopFilter01RegOffset = MFX_VP8_BRC_CUMULATIVE_LOOP_FILTER01_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcCumulativeDLoopFilter23RegOffset = MFX_VP8_BRC_CUMULATIVE_LOOP_FILTER23_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxVP8BrcConvergenceStatusRegOffset = MFX_VP8_BRC_CONVERGENCE_STATUS_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxLra0RegOffset = MFX_LRA0_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxLra1RegOffset = MFX_LRA1_REG_OFFSET_NODE_2_INIT_G9; mmioRegisters->mfxLra2RegOffset = MFX_LRA2_REG_OFFSET_NODE_2_INIT_G9; } void InitRowstoreUserFeatureSettings(MOS_CONTEXT_HANDLE mosCtx) { MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); userFeatureData.u32Data = 0; userFeatureData.i32DataFlag = MOS_USER_FEATURE_VALUE_DATA_FLAG_CUSTOM_DEFAULT_VALUE_TYPE; #if (_DEBUG || _RELEASE_INTERNAL) MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_ROWSTORE_CACHE_DISABLE_ID, &userFeatureData, mosCtx); #endif // _DEBUG || _RELEASE_INTERNAL this->m_rowstoreCachingSupported = userFeatureData.i32Data ? false : true; if (this->m_rowstoreCachingSupported) { MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); #if (_DEBUG || _RELEASE_INTERNAL) MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_INTRAROWSTORECACHE_DISABLE_ID, &userFeatureData, mosCtx); #endif // _DEBUG || _RELEASE_INTERNAL this->m_intraRowstoreCache.bSupported = userFeatureData.i32Data ? false : true; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); #if (_DEBUG || _RELEASE_INTERNAL) MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_DEBLOCKINGFILTERROWSTORECACHE_DISABLE_ID, &userFeatureData, mosCtx); #endif // _DEBUG || _RELEASE_INTERNAL this->m_deblockingFilterRowstoreCache.bSupported = userFeatureData.i32Data ? false : true; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); #if (_DEBUG || _RELEASE_INTERNAL) MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_BSDMPCROWSTORECACHE_DISABLE_ID, &userFeatureData, mosCtx); #endif // _DEBUG || _RELEASE_INTERNAL this->m_bsdMpcRowstoreCache.bSupported = userFeatureData.i32Data ? false : true; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); #if (_DEBUG || _RELEASE_INTERNAL) MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_MPRROWSTORECACHE_DISABLE_ID, &userFeatureData, mosCtx); #endif // _DEBUG || _RELEASE_INTERNAL this->m_mprRowstoreCache.bSupported = userFeatureData.i32Data ? false : true; } } MOS_STATUS GetRowstoreCachingAddrs( PMHW_VDBOX_ROWSTORE_PARAMS rowstoreParams) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(rowstoreParams); if (this->m_intraRowstoreCache.bSupported) { this->m_intraRowstoreCache.bEnabled = true; if (!rowstoreParams->bMbaff) { if (rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_2K) { this->m_intraRowstoreCache.dwAddress = INTRAROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_LESS_THAN_2K; } else if (rowstoreParams->dwPicWidth >= MHW_VDBOX_PICWIDTH_2K && rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_3K) { this->m_intraRowstoreCache.dwAddress = INTRAROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_BETWEEN_2K_AND_3K; } else if (rowstoreParams->dwPicWidth >= MHW_VDBOX_PICWIDTH_3K && rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_4K && (rowstoreParams->Mode == CODECHAL_DECODE_MODE_VP8VLD || rowstoreParams->Mode == CODECHAL_ENCODE_MODE_AVC)) { this->m_intraRowstoreCache.dwAddress = INTRAROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_BETWEEN_3K_AND_4K; } else { this->m_intraRowstoreCache.dwAddress = 0; this->m_intraRowstoreCache.bEnabled = false; } } else //mbaff { if (rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_2K) { this->m_intraRowstoreCache.dwAddress = INTRAROWSTORE_MBAFF_BASEADDRESS_PICWIDTH_LESS_THAN_2K; } else { this->m_intraRowstoreCache.dwAddress = 0; this->m_intraRowstoreCache.bEnabled = false; } } } if (this->m_deblockingFilterRowstoreCache.bSupported) { this->m_deblockingFilterRowstoreCache.bEnabled = true; if (!rowstoreParams->bMbaff && rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_2K) { this->m_deblockingFilterRowstoreCache.dwAddress = DEBLOCKINGROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_LESS_THAN_2K; } else { this->m_deblockingFilterRowstoreCache.dwAddress = 0; this->m_deblockingFilterRowstoreCache.bEnabled = false; } } if (this->m_bsdMpcRowstoreCache.bSupported && rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_4K) // mbaff and non mbaff mode for all resolutions { this->m_bsdMpcRowstoreCache.bEnabled = true; this->m_bsdMpcRowstoreCache.dwAddress = BSDMPCROWSTORE_BASEADDRESS; } else { this->m_bsdMpcRowstoreCache.dwAddress = 0; this->m_bsdMpcRowstoreCache.bEnabled = false; } if (this->m_mprRowstoreCache.bSupported && rowstoreParams->Mode == CODECHAL_DECODE_MODE_AVCVLD) { this->m_mprRowstoreCache.bEnabled = true; if (!rowstoreParams->bMbaff) { if (rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_2K) { this->m_mprRowstoreCache.dwAddress = MPRROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_LESS_THAN_2K; } else if (rowstoreParams->dwPicWidth > MHW_VDBOX_PICWIDTH_2K && rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_3K) { this->m_mprRowstoreCache.dwAddress = MPRROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_BETWEEN_2K_AND_3K; } else { this->m_mprRowstoreCache.dwAddress = MPRROWSTORE_FRAME_FIELD_BASEADDRESS_PICWIDTH_GREATER_THAN_3K; } } else //Mbaff { if (rowstoreParams->dwPicWidth < MHW_VDBOX_PICWIDTH_2K) { this->m_mprRowstoreCache.dwAddress = MPRROWSTORE_MBAFF_BASEADDRESS_PICWIDTH_LESS_THAN_2K; } else { this->m_mprRowstoreCache.dwAddress = 0; this->m_mprRowstoreCache.bEnabled = false; } } } return eStatus; } MOS_STATUS FindGpuNodeToUse( PMHW_VDBOX_GPUNODE_LIMIT gpuNodeLimit) { MOS_GPU_NODE videoGpuNode = MOS_GPU_NODE_VIDEO; MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_MI_CHK_NULL(gpuNodeLimit); if (MEDIA_IS_SKU(this->m_skuTable, FtrVcs2)) { bool setVideoNode = false; if (this->m_osInterface->osCpInterface->IsCpEnabled() || gpuNodeLimit->bHuCInUse || gpuNodeLimit->bHcpInUse || //CP driver limitation gpuNodeLimit->bSfcInUse) { setVideoNode = true; videoGpuNode = MOS_GPU_NODE_VIDEO; } MHW_MI_CHK_STATUS(this->m_osInterface->pfnCreateVideoNodeAssociation( this->m_osInterface, setVideoNode, &videoGpuNode)); } gpuNodeLimit->dwGpuNodeToUse = videoGpuNode; return eStatus; } MOS_STATUS GetMfxStateCommandsDataSize( uint32_t mode, uint32_t *commandsSize, uint32_t *patchListSize, bool isShortFormat) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(commandsSize); MHW_MI_CHK_NULL(patchListSize); uint32_t maxSize= mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize + TMfxCmds::MFX_PIPE_MODE_SELECT_CMD::byteSize + TMfxCmds::MFX_SURFACE_STATE_CMD::byteSize + TMfxCmds::MFX_PIPE_BUF_ADDR_STATE_CMD::byteSize + TMfxCmds::MFX_IND_OBJ_BASE_ADDR_STATE_CMD::byteSize + 2 * mhw_mi_g9_X::MI_STORE_DATA_IMM_CMD::byteSize + 2 * mhw_mi_g9_X::MI_STORE_REGISTER_MEM_CMD::byteSize; uint32_t patchListMaxSize = PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD) + PATCH_LIST_COMMAND(MFX_PIPE_MODE_SELECT_CMD) + PATCH_LIST_COMMAND(MFX_SURFACE_STATE_CMD) + PATCH_LIST_COMMAND(MFX_PIPE_BUF_ADDR_STATE_CMD) + PATCH_LIST_COMMAND(MFX_IND_OBJ_BASE_ADDR_STATE_CMD) + (2 * PATCH_LIST_COMMAND(MI_STORE_DATA_IMM_CMD)) + (2 * PATCH_LIST_COMMAND(MI_STORE_REGISTER_MEM_CMD)); uint32_t standard = CodecHal_GetStandardFromMode(mode); if (standard == CODECHAL_AVC) { maxSize+= TMfxCmds::MFX_BSP_BUF_BASE_ADDR_STATE_CMD::byteSize + TMfxCmds::MFD_AVC_PICID_STATE_CMD::byteSize + TMfxCmds::MFX_AVC_DIRECTMODE_STATE_CMD::byteSize + TMfxCmds::MFX_AVC_IMG_STATE_CMD::byteSize + TMfxCmds::MFX_QM_STATE_CMD::byteSize * 4; // QM_State sent 4 times patchListMaxSize += PATCH_LIST_COMMAND(MFX_BSP_BUF_BASE_ADDR_STATE_CMD) + PATCH_LIST_COMMAND(MFD_AVC_PICID_STATE_CMD) + PATCH_LIST_COMMAND(MFX_AVC_DIRECTMODE_STATE_CMD) + PATCH_LIST_COMMAND(MFX_AVC_IMG_STATE_CMD) + PATCH_LIST_COMMAND(MFX_QM_STATE_CMD) * 4; if (mode == CODECHAL_ENCODE_MODE_AVC) { maxSize+= mhw_mi_g9_X::MI_CONDITIONAL_BATCH_BUFFER_END_CMD::byteSize + mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize * 3 + // 3 extra MI_FLUSH_DWs for encode TMfxCmds::MFX_FQM_STATE_CMD::byteSize * 4 + // FQM_State sent 4 times mhw_mi_g9_X::MI_STORE_REGISTER_MEM_CMD::byteSize * 8 + // 5 extra register queries for encode, 3 extra slice level commands for BrcPakStatistics mhw_mi_g9_X::MI_STORE_DATA_IMM_CMD::byteSize * 3 + // slice level commands for StatusReport, BrcPakStatistics MHW_VDBOX_PAK_BITSTREAM_OVERFLOW_SIZE + // accounting for the max DW payload for PAK_INSERT_OBJECT, for frame header payload TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD::byteSize * 4; // for inserting AU, SPS, PSP, SEI headers before first slice header patchListMaxSize += PATCH_LIST_COMMAND(MI_CONDITIONAL_BATCH_BUFFER_END_CMD) + PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD) * 3 + // 3 extra MI_FLUSH_DWs for encode PATCH_LIST_COMMAND(MFX_FQM_STATE_CMD) * 4 + // FQM_State sent 4 times PATCH_LIST_COMMAND(MI_STORE_REGISTER_MEM_CMD) * 8 + // extra register queries for encode, 3 extra slice level commands for BrcPakStatistics PATCH_LIST_COMMAND(MI_STORE_DATA_IMM_CMD) * 3 + // slice level commands for StatusReport, BrcPakStatistics PATCH_LIST_COMMAND(MFC_AVC_PAK_INSERT_OBJECT_CMD) * 4; // for inserting AU, SPS, PSP, SEI headers before first slice header } } else if (standard == CODECHAL_VC1) { maxSize+= mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize + TMfxCmds::MFD_VC1_LONG_PIC_STATE_CMD::byteSize + TMfxCmds::MFX_VC1_PRED_PIPE_STATE_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD) + PATCH_LIST_COMMAND(MFD_VC1_LONG_PIC_STATE_CMD) + PATCH_LIST_COMMAND(MFX_VC1_PRED_PIPE_STATE_CMD); if (mode == CODECHAL_DECODE_MODE_VC1VLD) { maxSize+= TMfxCmds::MFX_VC1_DIRECTMODE_STATE_CMD::byteSize + TMfxCmds::MFX_BSP_BUF_BASE_ADDR_STATE_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MFX_VC1_DIRECTMODE_STATE_CMD) + PATCH_LIST_COMMAND(MFX_BSP_BUF_BASE_ADDR_STATE_CMD); } else if (mode == CODECHAL_DECODE_MODE_VC1IT) { maxSize+= mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize * 2; patchListMaxSize += PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD) * 2; } } else if (standard == CODECHAL_MPEG2) { maxSize+= TMfxCmds::MFX_MPEG2_PIC_STATE_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MFX_MPEG2_PIC_STATE_CMD); if (mode == CODECHAL_DECODE_MODE_MPEG2VLD) { maxSize+= TMfxCmds::MFX_BSP_BUF_BASE_ADDR_STATE_CMD::byteSize + ((TMfxCmds::MFX_QM_STATE_CMD::byteSize + (MhwVdboxMfxInterface::m_mpeg2WeightScaleSize * sizeof(uint32_t))) * 2); patchListMaxSize += PATCH_LIST_COMMAND(MFX_BSP_BUF_BASE_ADDR_STATE_CMD) + PATCH_LIST_COMMAND(MFX_QM_STATE_CMD) * 2; } else if (mode == CODECHAL_DECODE_MODE_MPEG2IDCT) { maxSize+= mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize * 2; patchListMaxSize += PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD) * 2; } } else if (standard == CODECHAL_VP8) { maxSize+= TMfxCmds::MFX_BSP_BUF_BASE_ADDR_STATE_CMD::byteSize + TMfxCmds::MFX_VP8_PIC_STATE_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MFX_BSP_BUF_BASE_ADDR_STATE_CMD) + PATCH_LIST_COMMAND(MFX_VP8_PIC_STATE_CMD); } else if (standard == CODECHAL_JPEG) { // Added to prevent error for JPEG } else { MHW_ASSERTMESSAGE("Unsupported decode mode."); maxSize = 0; patchListMaxSize = 0; eStatus = MOS_STATUS_UNKNOWN; } *commandsSize = maxSize; *patchListSize = patchListMaxSize; return eStatus; } MOS_STATUS GetMfxPrimitiveCommandsDataSize( uint32_t mode, uint32_t *commandsSize, uint32_t *patchListSize, bool isModeSpecific) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(commandsSize); MHW_MI_CHK_NULL(patchListSize); uint32_t maxSize = 0, patchListMaxSize = 0; uint32_t standard = CodecHal_GetStandardFromMode(mode); if (standard == CODECHAL_AVC) { if (mode == CODECHAL_DECODE_MODE_AVCVLD) { maxSize = TMfxCmds::MFX_AVC_SLICE_STATE_CMD::byteSize + TMfxCmds::MFD_AVC_BSD_OBJECT_CMD::byteSize + TMfxCmds::MFD_AVC_DPB_STATE_CMD::byteSize + mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize; patchListMaxSize = PATCH_LIST_COMMAND(MFX_AVC_SLICE_STATE_CMD) + PATCH_LIST_COMMAND(MFD_AVC_BSD_OBJECT_CMD) + PATCH_LIST_COMMAND(MFD_AVC_DPB_STATE_CMD) + PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD); if (isModeSpecific) { // isModeSpecific = bShortFormat for AVC decode maxSize += TMfxCmds::MFD_AVC_DPB_STATE_CMD::byteSize + TMfxCmds::MFD_AVC_SLICEADDR_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MFD_AVC_DPB_STATE_CMD) + PATCH_LIST_COMMAND(MFD_AVC_SLICEADDR_CMD); } else { maxSize += (2 * TMfxCmds::MFX_AVC_REF_IDX_STATE_CMD::byteSize) + (2 * TMfxCmds::MFX_AVC_WEIGHTOFFSET_STATE_CMD::byteSize); patchListMaxSize += (2 * PATCH_LIST_COMMAND(MFX_AVC_REF_IDX_STATE_CMD)) + (2 * PATCH_LIST_COMMAND(MFX_AVC_WEIGHTOFFSET_STATE_CMD)); } } else // CODECHAL_ENCODE_MODE_AVC { // 1 PAK_INSERT_OBJECT inserted for every end of frame/stream with 1 DW payload maxSize = TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD::byteSize + sizeof(uint32_t); patchListMaxSize = PATCH_LIST_COMMAND(MFC_AVC_PAK_INSERT_OBJECT_CMD); if (isModeSpecific) { // isModeSpecific = bSingleTaskPhaseSupported for AVC encode maxSize += (2 * mhw_mi_g9_X::MI_BATCH_BUFFER_START_CMD::byteSize); patchListMaxSize += (2 * PATCH_LIST_COMMAND(MI_BATCH_BUFFER_START_CMD)); } else { maxSize += (2 * TMfxCmds::MFX_AVC_REF_IDX_STATE_CMD::byteSize) + (2 * TMfxCmds::MFX_AVC_WEIGHTOFFSET_STATE_CMD::byteSize) + TMfxCmds::MFX_AVC_SLICE_STATE_CMD::byteSize + MHW_VDBOX_PAK_SLICE_HEADER_OVERFLOW_SIZE + // slice header payload (2 * TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD::byteSize) + mhw_mi_g9_X::MI_BATCH_BUFFER_START_CMD::byteSize + mhw_mi_g9_X::MI_FLUSH_DW_CMD::byteSize; patchListMaxSize += (2 * PATCH_LIST_COMMAND(MFX_AVC_REF_IDX_STATE_CMD)) + (2 * PATCH_LIST_COMMAND(MFX_AVC_WEIGHTOFFSET_STATE_CMD)) + PATCH_LIST_COMMAND(MFX_AVC_SLICE_STATE_CMD) + (2 * PATCH_LIST_COMMAND(MFC_AVC_PAK_INSERT_OBJECT_CMD)) + PATCH_LIST_COMMAND(MI_BATCH_BUFFER_START_CMD) + PATCH_LIST_COMMAND(MI_FLUSH_DW_CMD); } } } else if (standard == CODECHAL_VC1) { if (mode == CODECHAL_DECODE_MODE_VC1VLD) { maxSize = TMfxCmds::MFD_VC1_BSD_OBJECT_CMD::byteSize; patchListMaxSize = PATCH_LIST_COMMAND(MFD_VC1_BSD_OBJECT_CMD); } else if (mode == CODECHAL_DECODE_MODE_VC1IT) { maxSize = TMfxCmds::MFD_IT_OBJECT_CMD::byteSize + TMfxCmds::MFD_IT_OBJECT_VC1_INLINE_DATA_CMD::byteSize; patchListMaxSize = PATCH_LIST_COMMAND(MFD_VC1_IT_OBJECT_CMD); } } else if (standard == CODECHAL_MPEG2) { if (mode == CODECHAL_DECODE_MODE_MPEG2VLD) { maxSize = TMfxCmds::MFD_MPEG2_BSD_OBJECT_CMD::byteSize; patchListMaxSize = PATCH_LIST_COMMAND(MFD_MPEG2_BSD_OBJECT_CMD); } else if (mode == CODECHAL_DECODE_MODE_MPEG2IDCT) { maxSize = TMfxCmds::MFD_IT_OBJECT_CMD::byteSize + TMfxCmds::MFD_IT_OBJECT_MPEG2_INLINE_DATA_CMD::byteSize; patchListMaxSize = PATCH_LIST_COMMAND(MFD_MPEG2_IT_OBJECT_CMD); } } else if (standard == CODECHAL_VP8) { maxSize = TMfxCmds::MFD_VP8_BSD_OBJECT_CMD::byteSize; patchListMaxSize += PATCH_LIST_COMMAND(MFD_VP8_BSD_OBJECT_CMD); } else if (standard == CODECHAL_JPEG) { // Adds only 2 DWORDs per PAK_INSERT_OBJ command since the rest of the DWORDs are currently unknown // This also does not include PAK_INSERT_OBJ for app data maxSize += TMfxCmds::MFX_FQM_STATE_CMD::byteSize * 3 + TMfxCmds::MFC_JPEG_HUFF_TABLE_STATE_CMD::byteSize * 2 + TMfxCmds::MFC_JPEG_SCAN_OBJECT_CMD::byteSize + // There are 11 PAK_INSERT_OBJ commands for JPEG excluding app data TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD::byteSize * 11; } else { MHW_ASSERTMESSAGE("Unsupported decode mode."); eStatus = MOS_STATUS_UNKNOWN; } *commandsSize = maxSize; *patchListSize = patchListMaxSize; return eStatus; } MOS_STATUS AddMfxPipeModeSelectCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_PIPE_MODE_SELECT_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); typename TMfxCmds::MFX_PIPE_MODE_SELECT_CMD cmd; MHW_MI_CHK_STATUS(this->m_cpInterface->SetProtectionSettingsForMfxPipeModeSelect((uint32_t *)&cmd)); // VDEnc does not use Multi-pass PAK streamOut cmd.DW1.StreamOutEnable = params->bStreamOutEnabled && (!params->bVdencEnabled); cmd.DW1.DeblockerStreamOutEnable = params->bDeblockerStreamOutEnable; if (this->m_decodeInUse) { cmd.DW1.PreDeblockingOutputEnablePredeblockoutenable = params->bPreDeblockOutEnable; cmd.DW1.PostDeblockingOutputEnablePostdeblockoutenable = params->bPostDeblockOutEnable; cmd.DW1.CodecSelect = MhwVdboxMfxInterface::decoderCodec; cmd.DW1.DecoderShortFormatMode = !params->bShortFormatInUse; cmd.DW2.Vlf720IOddHeightInVc1Mode = params->bVC1OddFrameHeight; if (CodecHalIsDecodeModeVLD(params->Mode)) { cmd.DW1.DecoderModeSelect = MhwVdboxMfxInterface::mfxDecoderModeVld; } else if (CodecHalIsDecodeModeIT(params->Mode)) { cmd.DW1.DecoderModeSelect = MhwVdboxMfxInterface::mfxDecoderModeIt; } } else { cmd.DW1.DeblockerStreamOutEnable = params->bDeblockerStreamOutEnable; cmd.DW1.PostDeblockingOutputEnablePostdeblockoutenable = params->bPostDeblockOutEnable; cmd.DW1.PreDeblockingOutputEnablePredeblockoutenable = params->bPreDeblockOutEnable; cmd.DW1.CodecSelect = MhwVdboxMfxInterface::encoderCodec; cmd.DW1.DecoderShortFormatMode = !params->bShortFormatInUse; // This bit is set to be long format in order for HW to not change next slice X and Y position in encoder mode } cmd.DW1.StandardSelect = CodecHal_GetStandardFromMode(params->Mode); if (params->bVdencEnabled) { cmd.DW1.VdencMode = 1; // Enable 4xDS in PAK for VDENC HME cmd.DW1.ScaledSurfaceEnable = 1; // Disable PAK streamout from previous PAK pass, as VDEnc does not support standalone PAK cmd.DW1.StreamOutEnable = 0; // Enable PAK statistics streamout cmd.DW1.FrameStatisticsStreamoutEnable = 1; } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxSurfaceCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_SURFACE_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); uint32_t uvPlaneAlignment; if (params->ucSurfaceStateId == CODECHAL_MFX_SRC_SURFACE_ID) { uvPlaneAlignment = MHW_VDBOX_MFX_RAW_UV_PLANE_ALIGNMENT_GEN9; } else if ((params->ucSurfaceStateId == CODECHAL_MFX_REF_SURFACE_ID) || params->ucSurfaceStateId == CODECHAL_MFX_DSRECON_SURFACE_ID) { uvPlaneAlignment = params->dwUVPlaneAlignment ? params->dwUVPlaneAlignment : MHW_VDBOX_MFX_RECON_UV_PLANE_ALIGNMENT; } else { uvPlaneAlignment = MHW_VDBOX_MFX_UV_PLANE_ALIGNMENT_LEGACY; } typename TMfxCmds::MFX_SURFACE_STATE_CMD cmd; cmd.DW1.SurfaceId = params->ucSurfaceStateId; cmd.DW2.Height = params->psSurface->dwHeight - 1; cmd.DW2.Width = params->psSurface->dwWidth - 1; cmd.DW3.TileWalk = TMfxCmds::MFX_SURFACE_STATE_CMD::TILE_WALK_YMAJOR; cmd.DW3.TiledSurface = 1; cmd.DW3.InterleaveChroma = 1; cmd.DW3.SurfacePitch = params->psSurface->dwPitch - 1; cmd.DW3.SurfaceFormat = this->MosToMediaStateFormat(params->psSurface->Format); cmd.DW3.TiledSurface = IS_TILE_FORMAT(params->psSurface->TileType) ? 1 : 0; if (cmd.DW3.TiledSurface) { cmd.DW3.TileWalk = (params->psSurface->TileType); } if (params->psSurface->Format == Format_P8) // monochrome format { cmd.DW3.InterleaveChroma = 0; } if (params->Mode == CODECHAL_DECODE_MODE_JPEG) { // this parameter must always be 0 for JPEG regardless of the YUV format cmd.DW3.InterleaveChroma = 0; // Separate function for JPEG decode because this surface format should match with that programmed // in JPEG Picture State cmd.DW3.SurfaceFormat = this->GetJpegDecodeFormat(params->psSurface->Format); } cmd.DW4.YOffsetForUCb = cmd.DW5.YOffsetForVCr = MOS_ALIGN_CEIL(params->psSurface->UPlaneOffset.iYOffset, uvPlaneAlignment); if (this->IsVPlanePresent(params->psSurface->Format)) { cmd.DW5.YOffsetForVCr = MOS_ALIGN_CEIL(params->psSurface->VPlaneOffset.iYOffset, uvPlaneAlignment); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxIndObjBaseAddrCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_IND_OBJ_BASE_ADDR_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_UPPER_BOUND_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_INDIRECT_OBJ_BASE_ADDR; typename TMfxCmds::MFX_IND_OBJ_BASE_ADDR_STATE_CMD cmd; // mode specific settings if (CodecHalIsDecodeModeVLD(params->Mode) || (params->Mode == CODECHAL_ENCODE_MODE_VP8)) { MHW_MI_CHK_NULL(params->presDataBuffer); cmd.DW3.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFX_INDIRECT_BITSTREAM_OBJECT_DECODE].Value; resourceParams.presResource = params->presDataBuffer; resourceParams.dwOffset = params->dwDataOffset; resourceParams.pdwCmd = &(cmd.DW1.Value); resourceParams.dwLocationInCmd = 1; resourceParams.dwSize = params->dwDataSize; resourceParams.bIsWritable = false; // upper bound of the allocated resource will be set at 3 DW apart from address location resourceParams.dwUpperBoundLocationOffsetFromCmd = 3; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } else if (CodecHalIsDecodeModeIT(params->Mode)) { MHW_MI_CHK_NULL(params->presDataBuffer); cmd.DW13.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFD_INDIRECT_IT_COEF_OBJECT_DECODE].Value; resourceParams.presResource = params->presDataBuffer; resourceParams.dwOffset = params->dwDataOffset; resourceParams.pdwCmd = &(cmd.DW11.Value); resourceParams.dwLocationInCmd = 11; resourceParams.dwSize = params->dwDataSize; resourceParams.bIsWritable = false; // upper bound of the allocated resource will be set at 3 DW apart from address location resourceParams.dwUpperBoundLocationOffsetFromCmd = 3; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presMvObjectBuffer) { cmd.DW8.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFX_INDIRECT_MV_OBJECT_CODEC].Value; resourceParams.presResource = params->presMvObjectBuffer; resourceParams.dwOffset = params->dwMvObjectOffset; resourceParams.pdwCmd = &(cmd.DW6.Value); resourceParams.dwLocationInCmd = 6; resourceParams.dwSize = MOS_ALIGN_CEIL(params->dwMvObjectSize, 0x1000); resourceParams.bIsWritable = false; // upper bound of the allocated resource will be set at 3 DW apart from address location resourceParams.dwUpperBoundLocationOffsetFromCmd = 3; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presPakBaseObjectBuffer) { cmd.DW23.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFC_INDIRECT_PAKBASE_OBJECT_CODEC].Value; resourceParams.presResource = params->presPakBaseObjectBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW21.Value); resourceParams.dwLocationInCmd = 21; resourceParams.dwSize = MOS_ALIGN_CEIL(params->dwPakBaseObjectSize, 0x1000); resourceParams.bIsWritable = true; // upper bound of the allocated resource will be set at 3 DW apart from address location resourceParams.dwUpperBoundLocationOffsetFromCmd = 3; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxBspBufBaseAddrCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_BSP_BUF_BASE_ADDR_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_GENERAL_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_BSP_BUF_BASE_ADDR; typename TMfxCmds::MFX_BSP_BUF_BASE_ADDR_STATE_CMD cmd; if (this->m_bsdMpcRowstoreCache.bEnabled) // mbaff and non mbaff mode for all resolutions { cmd.DW3.BsdMpcRowStoreScratchBufferCacheSelect = BUFFER_TO_INTERNALMEDIASTORAGE; cmd.DW1.BsdMpcRowStoreScratchBufferBaseAddressReadWrite = this->m_bsdMpcRowstoreCache.dwAddress; } else if (params->presBsdMpcRowStoreScratchBuffer) { cmd.DW3.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_BSDMPC_ROWSTORE_SCRATCH_BUFFER_CODEC].Value; cmd.DW1.BsdMpcRowStoreScratchBufferBaseAddressReadWrite = 0; resourceParams.presResource = params->presBsdMpcRowStoreScratchBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW1.Value); resourceParams.dwLocationInCmd = 1; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (this->m_mprRowstoreCache.bEnabled) { cmd.DW6.MprRowStoreScratchBufferCacheSelect = BUFFER_TO_INTERNALMEDIASTORAGE; cmd.DW4.MprRowStoreScratchBufferBaseAddressReadWriteDecoderOnly = this->m_mprRowstoreCache.dwAddress; } else if (params->presMprRowStoreScratchBuffer) { cmd.DW6.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MPR_ROWSTORE_SCRATCH_BUFFER_CODEC].Value; cmd.DW4.MprRowStoreScratchBufferBaseAddressReadWriteDecoderOnly = 0; resourceParams.presResource = params->presMprRowStoreScratchBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW4.Value); resourceParams.dwLocationInCmd = 4; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presBitplaneBuffer) { cmd.DW9.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_BITPLANE_READ_CODEC].Value; resourceParams.presResource = params->presBitplaneBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW7.Value); resourceParams.dwLocationInCmd = 7; resourceParams.bIsWritable = false; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxDecodeAvcImgCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_BATCH_BUFFER batchBuffer, PMHW_VDBOX_AVC_IMG_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MOS_UNUSED(batchBuffer); MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pAvcPicParams); auto avcPicParams = params->pAvcPicParams; typename TMfxCmds::MFX_AVC_IMG_STATE_CMD cmd; uint32_t numMBs = (avcPicParams->pic_height_in_mbs_minus1 + 1) * (avcPicParams->pic_width_in_mbs_minus1 + 1); cmd.DW1.FrameSize = numMBs; cmd.DW2.FrameHeight = avcPicParams->pic_height_in_mbs_minus1; cmd.DW2.FrameWidth = avcPicParams->pic_width_in_mbs_minus1; cmd.DW3.SecondChromaQpOffset = avcPicParams->second_chroma_qp_index_offset; cmd.DW3.FirstChromaQpOffset = avcPicParams->chroma_qp_index_offset; cmd.DW3.WeightedPredFlag = avcPicParams->pic_fields.weighted_pred_flag; cmd.DW3.WeightedBipredIdc = avcPicParams->pic_fields.weighted_bipred_idc; cmd.DW3.ImgstructImageStructureImgStructure10 = ((avcPicParams->CurrPic.PicFlags == PICTURE_FRAME) ? MhwVdboxMfxInterface::avcFrame : (CodecHal_PictureIsTopField(avcPicParams->CurrPic) ? MhwVdboxMfxInterface::avcTopField : MhwVdboxMfxInterface::avcBottomField)); cmd.DW4.Chromaformatidc = avcPicParams->seq_fields.chroma_format_idc; cmd.DW4.Entropycodingflag = avcPicParams->pic_fields.entropy_coding_mode_flag; cmd.DW4.Imgdisposableflag = !avcPicParams->pic_fields.reference_pic_flag; cmd.DW4.Constrainedipredflag = avcPicParams->pic_fields.constrained_intra_pred_flag; cmd.DW4.Direct8X8Infflag = avcPicParams->seq_fields.direct_8x8_inference_flag; cmd.DW4.Transform8X8Flag = avcPicParams->pic_fields.transform_8x8_mode_flag; cmd.DW4.Framembonlyflag = avcPicParams->seq_fields.frame_mbs_only_flag; cmd.DW4.Mbaffflameflag = avcPicParams->seq_fields.mb_adaptive_frame_field_flag && !avcPicParams->pic_fields.field_pic_flag; cmd.DW4.Fieldpicflag = avcPicParams->pic_fields.field_pic_flag; cmd.DW5.TrellisQuantizationChromaDisableTqchromadisable = true; cmd.DW13.CurrentPictureHasPerformedMmco5 = 0; cmd.DW13.NumberOfReferenceFrames = params->ucActiveFrameCnt; // These fields to be NumRefIdx(L0 or L1) Active - 1 at picture level // But hardware expects the data without the minus 1 to keep this field consistent with // NumRefIdxL0 and NumRefIdxL1 which appears at slice level. Thus the addition of 1 cmd.DW13.NumberOfActiveReferencePicturesFromL0 = avcPicParams->num_ref_idx_l0_active_minus1 + 1; cmd.DW13.NumberOfActiveReferencePicturesFromL1 = avcPicParams->num_ref_idx_l1_active_minus1 + 1; cmd.DW13.InitialQpValue = avcPicParams->pic_init_qp_minus26; cmd.DW14.Log2MaxFrameNumMinus4 = avcPicParams->seq_fields.log2_max_frame_num_minus4; cmd.DW14.Log2MaxPicOrderCntLsbMinus4 = avcPicParams->seq_fields.log2_max_pic_order_cnt_lsb_minus4; cmd.DW14.DeblockingFilterControlPresentFlag = avcPicParams->pic_fields.deblocking_filter_control_present_flag; cmd.DW14.NumSliceGroupsMinus1 = avcPicParams->num_slice_groups_minus1; cmd.DW14.RedundantPicCntPresentFlag = avcPicParams->pic_fields.redundant_pic_cnt_present_flag; cmd.DW14.PicOrderPresentFlag = avcPicParams->pic_fields.pic_order_present_flag; cmd.DW14.SliceGroupMapType = avcPicParams->slice_group_map_type; cmd.DW14.PicOrderCntType = avcPicParams->seq_fields.pic_order_cnt_type; cmd.DW14.DeltaPicOrderAlwaysZeroFlag = avcPicParams->seq_fields.delta_pic_order_always_zero_flag; cmd.DW15.CurrPicFrameNum = avcPicParams->frame_num; cmd.DW15.SliceGroupChangeRate = avcPicParams->slice_group_change_rate_minus1; auto mvcExtPicParams = params->pMvcExtPicParams; if (mvcExtPicParams) { cmd.DW16_17.CurrentFrameViewId = mvcExtPicParams->CurrViewID; cmd.DW16_17.MaxViewIdxl0 = mvcExtPicParams->NumInterViewRefsL0; cmd.DW16_17.MaxViewIdxl1 = mvcExtPicParams->NumInterViewRefsL1; cmd.DW16_17.InterViewOrderDisable = 0; } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxEncodeAvcImgCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_BATCH_BUFFER batchBuffer, PMHW_VDBOX_AVC_IMG_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pEncodeAvcSeqParams); MHW_MI_CHK_NULL(params->pEncodeAvcPicParams); if (cmdBuffer == nullptr && batchBuffer == nullptr) { MHW_ASSERTMESSAGE("No valid buffer to add the command to!"); return MOS_STATUS_INVALID_PARAMETER; } auto avcSeqParams = params->pEncodeAvcSeqParams; auto avcPicParams = params->pEncodeAvcPicParams; typename TMfxCmds::MFX_AVC_IMG_STATE_CMD cmd; uint32_t numMBs = params->wPicWidthInMb * params->wPicHeightInMb; cmd.DW1.FrameSize = (numMBs > 0xFFFF) ? 0xFFFF : numMBs; cmd.DW2.FrameHeight = params->wPicHeightInMb - 1; cmd.DW2.FrameWidth = params->wPicWidthInMb - 1; cmd.DW3.ImgstructImageStructureImgStructure10 = (CodecHal_PictureIsFrame(avcPicParams->CurrOriginalPic) ? MhwVdboxMfxInterface::avcFrame : (CodecHal_PictureIsTopField(avcPicParams->CurrOriginalPic) ? MhwVdboxMfxInterface::avcTopField : MhwVdboxMfxInterface::avcBottomField)); cmd.DW3.WeightedBipredIdc = avcPicParams->weighted_bipred_idc; cmd.DW3.WeightedPredFlag = avcPicParams->weighted_pred_flag; cmd.DW3.FirstChromaQpOffset = avcPicParams->chroma_qp_index_offset; cmd.DW3.SecondChromaQpOffset = avcPicParams->second_chroma_qp_index_offset; // Enable RhoDomain RC in PAK statistics cmd.DW3.RhodomainRateControlEnable = params->bVdencEnabled; cmd.DW4.Fieldpicflag = CodecHal_PictureIsField(avcPicParams->CurrOriginalPic); cmd.DW4.Mbaffflameflag = avcSeqParams->mb_adaptive_frame_field_flag; cmd.DW4.Framembonlyflag = avcSeqParams->frame_mbs_only_flag; cmd.DW4.Transform8X8Flag = avcPicParams->transform_8x8_mode_flag; cmd.DW4.Direct8X8Infflag = avcSeqParams->direct_8x8_inference_flag; cmd.DW4.Constrainedipredflag = avcPicParams->constrained_intra_pred_flag; cmd.DW4.Entropycodingflag = avcPicParams->entropy_coding_mode_flag; cmd.DW4.Chromaformatidc = avcSeqParams->chroma_format_idc; cmd.DW4.Mbmvformatflag = 1; cmd.DW4.Mvunpackedflag = 1; cmd.DW4.Loadslicepointerflag = 0; cmd.DW4.Mbstatenabled = 0; // Disable for the first pass if ((params->dwMaxFrameSize > 0) && params->currPass && params->pDeltaQp) { cmd.DW4.Mbstatenabled = 1; } cmd.DW4.Minframewsize = 0; cmd.DW5.IntrambmaxbitflagIntrambmaxsizereportmask = 1; cmd.DW5.IntermbmaxbitflagIntermbmaxsizereportmask = 1; cmd.DW5.FrameszoverflagFramebitratemaxreportmask = 1; cmd.DW5.FrameszunderflagFramebitrateminreportmask = 1; cmd.DW5.IntraIntermbipcmflagForceipcmcontrolmask = 1; cmd.DW5.MbratectrlflagMbLevelRateControlEnablingFlag = 0; cmd.DW5.Nonfirstpassflag = 0; cmd.DW5.TrellisQuantizationChromaDisableTqchromadisable = true; if (params->dwMaxFrameSize && params->currPass) { cmd.DW5.Nonfirstpassflag = 1; } if (params->dwTqEnabled && cmd.DW4.Entropycodingflag) { cmd.DW5.TrellisQuantizationEnabledTqenb = params->dwTqEnabled; cmd.DW5.TrellisQuantizationRoundingTqr = params->dwTqRounding; } else { cmd.DW5.TrellisQuantizationEnabledTqenb = cmd.DW5.TrellisQuantizationRoundingTqr = 0; } //DW6 cmd.DW6.Intrambmaxsz = m_avcIntraMbMaxSize; cmd.DW6.Intermbmaxsz = m_avcInterMbMaxSize; //DW8 cmd.DW8.Slicedeltaqppmax0 = cmd.DW8.Slicedeltaqpmax1 = cmd.DW8.Slicedeltaqpmax2 = cmd.DW8.Slicedeltaqpmax3 = 0; //DW9 cmd.DW9.Slicedeltaqpmin0 = cmd.DW9.Slicedeltaqpmin1 = cmd.DW9.Slicedeltaqpmin2 = cmd.DW9.Slicedeltaqpmin3 = 0; //DW10 MHW_VDBOX_AVC_IMG_BITRATE_PARAMS bitrateParams; this->CalcAvcImgStateMinMaxBitrate(bitrateParams); cmd.DW10.Framebitratemin = bitrateParams.frameBitRateMin; cmd.DW10.Framebitrateminunit = bitrateParams.frameBitRateMinUnit; cmd.DW10.Framebitrateminunitmode = bitrateParams.frameBitRateMinUnitMode; cmd.DW10.Framebitratemax = bitrateParams.frameBitRateMax; cmd.DW10.Framebitratemaxunit = bitrateParams.frameBitRateMaxUnit; cmd.DW10.Framebitratemaxunitmode = bitrateParams.frameBitRateMaxUnitMode; //DW11 cmd.DW11.Framebitratemindelta = bitrateParams.frameBitRateMinDelta; cmd.DW11.Framebitratemaxdelta = bitrateParams.frameBitRateMaxDelta; cmd.DW11.SliceStatsStreamoutEnable = params->bSliceSizeStreamOutEnabled; //add for multiple pass if (params->dwMaxFrameSize > 0 && params->pDeltaQp && (!params->bIPCMPass)) { cmd.DW8.Slicedeltaqppmax0 = cmd.DW8.Slicedeltaqpmax1 = cmd.DW8.Slicedeltaqpmax2 = cmd.DW8.Slicedeltaqpmax3 = params->pDeltaQp[params->currPass]; cmd.DW10.Framebitratemaxunit = 0; cmd.DW10.Framebitratemaxunitmode = 0; //when FrameBitrateMaxUnit & FrameBitrateMaxUnitMode both are 0, the frame size unit is 128bytes. cmd.DW10.Framebitratemax = params->dwMaxFrameSize >> 7; cmd.DW11.Framebitratemaxdelta = params->dwMaxFrameSize >> 8; // In compatibility mode (DW10.FrameBitrateMaxUnitMode = 0), only 12 bits is used. // If the calulated value of max frame size exceeded 12 bits, need change unit from 128 bytes to 16K bytes. if (params->dwMaxFrameSize >= (0x1 << 12) * 128) { // use 16K bytes unit mode in compatibility mode. cmd.DW10.Framebitratemaxunit = 1; cmd.DW10.Framebitratemaxunitmode = 0; cmd.DW10.Framebitratemax = params->dwMaxFrameSize >> 14; cmd.DW11.Framebitratemaxdelta = params->dwMaxFrameSize >> 15; } } if (params->bIPCMPass) { // InterMbConfFlag, IntraMbConfFlag: not being used in HW cmd.DW4.Mbstatenabled = true; cmd.DW5.IntraIntermbipcmflagForceipcmcontrolmask = true; } cmd.DW16_17.ExtendedRhodomainStatisticsEnable = this->m_rhoDomainStatsEnabled; if (avcSeqParams->EnableSliceLevelRateCtrl) { cmd.DW19.ThresholdSizeInBytes = avcPicParams->SliceSizeInBytes - MOS_MIN(avcPicParams->SliceSizeInBytes, params->dwVdencSliceMinusBytes); cmd.DW20.TargetSliceSizeInBytes = avcPicParams->SliceSizeInBytes; } MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB(this->m_osInterface, cmdBuffer, batchBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxAvcDirectmodeCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_AVC_DIRECTMODE_PARAMS params) { MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_GENERAL_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_AVC_DIRECT_MODE; typename TMfxCmds::MFX_AVC_DIRECTMODE_STATE_CMD cmd; if (!params->bDisableDmvBuffers) { MHW_MI_CHK_NULL(params->presAvcDmvBuffers); MHW_MI_CHK_NULL(params->pAvcDmvList); cmd.DW36.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_DIRECTMV_BUFFER_CODEC].Value; // current picture resourceParams.presResource = ¶ms->presAvcDmvBuffers[params->ucAvcDmvIdx]; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DirectMvBufferBaseAddressForWrite[0].DW0_1.Value[0]); resourceParams.dwLocationInCmd = 34; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } CODEC_REF_LIST** refList; MHW_MI_CHK_NULL(refList = (CODEC_REF_LIST**)params->avcRefList); if (CodecHal_PictureIsBottomField(params->CurrPic)) { cmd.PocList[MHW_VDBOX_AVC_DMV_DEST_TOP] = 0; cmd.PocList[MHW_VDBOX_AVC_DMV_DEST_BOTTOM] = refList[params->CurrPic.FrameIdx]->iFieldOrderCnt[1]; } else { cmd.PocList[MHW_VDBOX_AVC_DMV_DEST_TOP] = cmd.PocList[MHW_VDBOX_AVC_DMV_DEST_BOTTOM] = refList[params->CurrPic.FrameIdx]->iFieldOrderCnt[0]; if (CodecHal_PictureIsFrame(params->CurrPic)) { cmd.PocList[MHW_VDBOX_AVC_DMV_DEST_BOTTOM] = refList[params->CurrPic.FrameIdx]->iFieldOrderCnt[1]; } } if (!params->bDisableDmvBuffers) { // there is only one control DW33 for all references cmd.DW33.MemoryObjectControlState = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_DIRECTMV_BUFFER_CODEC].Value; } bool dmvPresent[CODEC_MAX_NUM_REF_FRAME] = { false }; for (auto i = 0; i < CODEC_MAX_NUM_REF_FRAME; i++) { if (params->pAvcPicIdx[i].bValid) { uint8_t idx = params->pAvcPicIdx[i].ucPicIdx; uint8_t picID = params->bPicIdRemappingInUse ? i : refList[idx]->ucFrameId; uint8_t mvIdx = refList[idx]->ucDMVIdx[0]; uint8_t validRef = ((params->uiUsedForReferenceFlags >> (i * 2)) >> 0) & 1; uint8_t frameID = picID << 1; if (frameID < CODEC_AVC_NUM_REF_DMV_BUFFERS * 2) { if (!params->bDisableDmvBuffers) { dmvPresent[picID] = true; resourceParams.presResource = ¶ms->presAvcDmvBuffers[mvIdx]; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DirectMvBufferBaseAddress[picID].DW0_1.Value[0]); resourceParams.dwLocationInCmd = picID * 2 + 1; resourceParams.bIsWritable = false; resourceParams.dwSharedMocsOffset = 33 - resourceParams.dwLocationInCmd; // Common Prodected Data bit is in DW33 MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } cmd.PocList[frameID] = refList[idx]->iFieldOrderCnt[0] * validRef; } else { return MOS_STATUS_UNKNOWN; } validRef = ((params->uiUsedForReferenceFlags >> (i * 2)) >> 1) & 1; frameID = (picID << 1) + 1; if (frameID < CODEC_AVC_NUM_REF_DMV_BUFFERS * 2) { cmd.PocList[frameID] = refList[idx]->iFieldOrderCnt[1] * validRef; } else { return MOS_STATUS_UNKNOWN; } } } if (!params->bDisableDmvBuffers) { // Use a valid address for remaining DMV buffers for (auto i = 0; i < CODEC_MAX_NUM_REF_FRAME; i++) { if (dmvPresent[i] == false) { //Give default buffer to the MV resourceParams.presResource = ¶ms->presAvcDmvBuffers[CODEC_AVC_NUM_REF_DMV_BUFFERS]; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DirectMvBufferBaseAddress[i].DW0_1.Value[0]); resourceParams.dwLocationInCmd = i * 2 + 1; resourceParams.bIsWritable = false; resourceParams.dwSharedMocsOffset = 33 - resourceParams.dwLocationInCmd; // Common Prodected Data bit is in DW33 MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } } } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return MOS_STATUS_SUCCESS; } MOS_STATUS AddMfdAvcSliceAddrCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_AVC_SLICE_STATE avcSliceState) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(avcSliceState); typename TMfxCmds::MFD_AVC_SLICEADDR_CMD cmd; if (avcSliceState->bFullFrameData) { cmd.DW1.IndirectBsdDataLength = avcSliceState->dwNextLength; cmd.DW2.IndirectBsdDataStartAddress = avcSliceState->dwNextOffset; } else { cmd.DW1.IndirectBsdDataLength = (avcSliceState->dwNextLength + 1 - this->m_osInterface->dwNumNalUnitBytesIncluded); cmd.DW2.IndirectBsdDataStartAddress = (avcSliceState->dwNextOffset - 1 + this->m_osInterface->dwNumNalUnitBytesIncluded); } MHW_CP_SLICE_INFO_PARAMS sliceInfoParam; sliceInfoParam.presDataBuffer = avcSliceState->presDataBuffer; sliceInfoParam.dwSliceIndex = avcSliceState->dwSliceIndex; sliceInfoParam.dwTotalBytesConsumed = avcSliceState->dwTotalBytesConsumed; sliceInfoParam.dwDataStartOffset[0] = cmd.DW2.IndirectBsdDataStartAddress; sliceInfoParam.dwDataStartOffset[1] = avcSliceState->pAvcSliceParams->slice_data_offset; MHW_MI_CHK_STATUS(this->m_cpInterface->SetMfxProtectionState( this->m_decodeInUse, cmdBuffer, nullptr, &sliceInfoParam)); MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfdAvcBsdObjectCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_AVC_SLICE_STATE avcSliceState) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(avcSliceState); MHW_MI_CHK_NULL(avcSliceState->pAvcSliceParams); typename TMfxCmds::MFD_AVC_BSD_OBJECT_CMD cmd; auto sliceParams = avcSliceState->pAvcSliceParams; cmd.DW4.LastsliceFlag = avcSliceState->bLastSlice; cmd.DW3.IntraPredmode4X48X8LumaErrorControlBit = 1; cmd.DW5.IntraPredictionErrorControlBitAppliedToIntra16X16Intra8X8Intra4X4LumaAndChroma = 1; cmd.DW5.Intra8X84X4PredictionErrorConcealmentControlBit = 1; cmd.DW5.ISliceConcealmentMode = 1; if (avcSliceState->bShortFormatInUse) { if (avcSliceState->bFullFrameData) { cmd.DW1.IndirectBsdDataLength = avcSliceState->dwLength; cmd.DW2.IndirectBsdDataStartAddress = sliceParams->slice_data_offset; } else { cmd.DW1.IndirectBsdDataLength = avcSliceState->dwLength + 1 - this->m_osInterface->dwNumNalUnitBytesIncluded; cmd.DW2.IndirectBsdDataStartAddress = sliceParams->slice_data_offset - 1 + this->m_osInterface->dwNumNalUnitBytesIncluded; } cmd.DW4.FirstMbByteOffsetOfSliceDataOrSliceHeader = 0; } else { // Long format cmd.DW1.IndirectBsdDataLength = avcSliceState->dwLength; cmd.DW2.IndirectBsdDataStartAddress = sliceParams->slice_data_offset + avcSliceState->dwOffset; cmd.DW4.FirstMacroblockMbBitOffset = sliceParams->slice_data_bit_offset; if (!avcSliceState->bIntelEntrypointInUse) { // NAL Header Unit must be passed to HW in the compressed bitstream buffer avcSliceState->dwOffset -= (this->m_osInterface->dwNumNalUnitBytesIncluded - 1); cmd.DW1.IndirectBsdDataLength += avcSliceState->dwOffset; cmd.DW2.IndirectBsdDataStartAddress -= avcSliceState->dwOffset; cmd.DW4.FirstMbByteOffsetOfSliceDataOrSliceHeader = avcSliceState->dwOffset; } } cmd.DW4.FixPrevMbSkipped = 1; MHW_CP_SLICE_INFO_PARAMS sliceInfoParam; sliceInfoParam.presDataBuffer = avcSliceState->presDataBuffer; sliceInfoParam.dwSliceIndex = avcSliceState->dwSliceIndex; sliceInfoParam.dwTotalBytesConsumed = avcSliceState->dwTotalBytesConsumed; sliceInfoParam.dwDataStartOffset[0] = cmd.DW2.IndirectBsdDataStartAddress; sliceInfoParam.dwDataStartOffset[1] = sliceParams->slice_data_offset; sliceInfoParam.dwDataLength[1] = sliceParams->slice_data_size; MHW_MI_CHK_STATUS(this->m_cpInterface->SetMfxProtectionState( this->m_decodeInUse, cmdBuffer, nullptr, &sliceInfoParam)); MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxPakInsertObject( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_BATCH_BUFFER batchBuffer, PMHW_VDBOX_PAK_INSERT_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(params); if (cmdBuffer == nullptr && batchBuffer == nullptr) { MHW_ASSERTMESSAGE("No valid buffer to add the command to!"); return MOS_STATUS_INVALID_PARAMETER; } typename TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD cmd; uint32_t dwordsUsed = TMfxCmds::MFX_PAK_INSERT_OBJECT_CMD::dwSize; cmd.DW1.SliceHeaderIndicator = params->bSliceHeaderIndicator; if (params->bLastPicInSeq || params->bLastPicInStream) // used by AVC, MPEG2 { dwordsUsed += params->bLastPicInSeq + params->bLastPicInStream; cmd.DW0.DwordLength = TMfxCmds::GetOpLength(dwordsUsed); cmd.DW1.BitstreamstartresetResetbitstreamstartingpos = 0; cmd.DW1.EndofsliceflagLastdstdatainsertcommandflag = 1; cmd.DW1.LastheaderflagLastsrcheaderdatainsertcommandflag = 1; cmd.DW1.EmulationflagEmulationbytebitsinsertenable = 0; cmd.DW1.SkipemulbytecntSkipEmulationByteCount = 0; // use dwBitSize to pass SrcDataEndingBitInclusion cmd.DW1.DatabitsinlastdwSrcdataendingbitinclusion50 = params->dwBitSize; cmd.DW1.DatabyteoffsetSrcdatastartingbyteoffset10 = 0; cmd.DW1.Headerlengthexcludefrmsize = cmd.DW1.EmulationflagEmulationbytebitsinsertenable ? false : params->bHeaderLengthExcludeFrmSize; // Cannot be set to true if emulation byte bit insertion is enabled MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB(this->m_osInterface, cmdBuffer, batchBuffer, &cmd, sizeof(cmd))); if (params->bLastPicInSeq) // only used by AVC, not used by MPEG2 { uint32_t lastPicInSeqData = params->dwLastPicInSeqData; MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB( this->m_osInterface, cmdBuffer, batchBuffer, &lastPicInSeqData, sizeof(lastPicInSeqData))); } if (params->bLastPicInStream) // used by AVC, MPEG2 { uint32_t lastPicInStreamData = params->dwLastPicInStreamData; MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB( this->m_osInterface, cmdBuffer, batchBuffer, &lastPicInStreamData, sizeof(lastPicInStreamData))); } } else // used by AVC, MPEG2, JPEG { uint32_t byteSize = (params->dwBitSize + 7) >> 3; uint32_t dataBitsInLastDw = params->dwBitSize % 32; if (dataBitsInLastDw == 0) { dataBitsInLastDw = 32; } dwordsUsed += ((byteSize + 3) >> 2); cmd.DW0.DwordLength = TMfxCmds::GetOpLength(dwordsUsed); cmd.DW1.BitstreamstartresetResetbitstreamstartingpos = params->bResetBitstreamStartingPos; cmd.DW1.EndofsliceflagLastdstdatainsertcommandflag = params->bEndOfSlice; cmd.DW1.LastheaderflagLastsrcheaderdatainsertcommandflag = params->bLastHeader; cmd.DW1.EmulationflagEmulationbytebitsinsertenable = params->bEmulationByteBitsInsert; cmd.DW1.SkipemulbytecntSkipEmulationByteCount = params->uiSkipEmulationCheckCount; cmd.DW1.DatabitsinlastdwSrcdataendingbitinclusion50 = dataBitsInLastDw; cmd.DW1.DatabyteoffsetSrcdatastartingbyteoffset10 = 0; cmd.DW1.Headerlengthexcludefrmsize = cmd.DW1.EmulationflagEmulationbytebitsinsertenable ? false : params->bHeaderLengthExcludeFrmSize; // Cannot be set to true if emulation byte bit insertion is enabled MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB(this->m_osInterface, cmdBuffer, batchBuffer, &cmd, sizeof(cmd))); // Add actual data uint8_t* data = (uint8_t*)(params->pBsBuffer->pBase + params->dwOffset); MHW_MI_CHK_STATUS(Mhw_AddCommandCmdOrBB(this->m_osInterface, cmdBuffer, batchBuffer, data, byteSize)); } return eStatus; } MOS_STATUS AddMfxJpegPicCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_JPEG_PIC_STATE params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pJpegPicParams); typename TMfxCmds::MFX_JPEG_PIC_STATE_CMD cmd; auto picParams = params->pJpegPicParams; if (picParams->m_chromaType == jpegRGB || picParams->m_chromaType == jpegBGR) { cmd.DW1.Obj1.InputFormatYuv = jpegYUV444; } else { cmd.DW1.Obj1.InputFormatYuv = picParams->m_chromaType; } cmd.DW1.Obj1.Rotation = picParams->m_rotation; cmd.DW1.Obj1.OutputFormatYuv = this->GetJpegDecodeFormat((MOS_FORMAT)params->dwOutputFormat); if (params->dwOutputFormat == Format_NV12) { if (picParams->m_chromaType == jpegYUV422H2Y || picParams->m_chromaType == jpegYUV422H4Y) { cmd.DW1.Obj1.VerticalDownSamplingEnable = 1; } else if (picParams->m_chromaType == jpegYUV422V2Y || picParams->m_chromaType == jpegYUV422V4Y) { cmd.DW1.Obj1.HorizontalDownSamplingEnable = 1; } } else if (params->dwOutputFormat == Format_UYVY || params->dwOutputFormat == Format_YUY2) { if (picParams->m_chromaType == jpegYUV420) { cmd.DW1.Obj1.VerticalUpSamplingEnable = 1; } } cmd.DW2.Obj0.FrameWidthInBlocksMinus1 = params->dwWidthInBlocks; cmd.DW2.Obj0.FrameHeightInBlocksMinus1 = params->dwHeightInBlocks; MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxJpegEncodePicStateCmd( PMOS_COMMAND_BUFFER cmdBuffer, MhwVdboxJpegEncodePicState *params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pJpegEncodePicParams); typename TMfxCmds::MFX_JPEG_PIC_STATE_CMD cmd; auto picParams = params->pJpegEncodePicParams; cmd.DW1.Obj0.InputSurfaceFormatYuv = picParams->m_inputSurfaceFormat; if (picParams->m_inputSurfaceFormat == codechalJpegY8) { cmd.DW1.Obj0.OutputMcuStructure = jpegYUV400; cmd.DW1.Obj0.PixelsInHorizontalLastMcu = picParams->m_picWidth % 8; cmd.DW1.Obj0.PixelsInVerticalLastMcu = picParams->m_picHeight % 8; } else if (picParams->m_inputSurfaceFormat == codechalJpegNV12) { cmd.DW1.Obj0.OutputMcuStructure = jpegYUV420; if (picParams->m_picWidth % 2 == 0) { cmd.DW1.Obj0.PixelsInHorizontalLastMcu = picParams->m_picWidth % 16; } else { cmd.DW1.Obj0.PixelsInHorizontalLastMcu = ((picParams->m_picWidth % 16) + 1) % 16; } if (picParams->m_picHeight % 2 == 0) { cmd.DW1.Obj0.PixelsInVerticalLastMcu = picParams->m_picHeight % 16; } else { cmd.DW1.Obj0.PixelsInVerticalLastMcu = ((picParams->m_picHeight % 16) + 1) % 16; } } else if (picParams->m_inputSurfaceFormat == codechalJpegYUY2 || picParams->m_inputSurfaceFormat == codechalJpegUYVY) { cmd.DW1.Obj0.OutputMcuStructure = jpegYUV422H2Y; if (picParams->m_picWidth % 2 == 0) { cmd.DW1.Obj0.PixelsInHorizontalLastMcu = picParams->m_picWidth % 16; } else { cmd.DW1.Obj0.PixelsInHorizontalLastMcu = ((picParams->m_picWidth % 16) + 1) % 16; } cmd.DW1.Obj0.PixelsInVerticalLastMcu = picParams->m_picHeight % 8; } else if (picParams->m_inputSurfaceFormat == codechalJpegRGB) { cmd.DW1.Obj0.OutputMcuStructure = jpegYUV444; cmd.DW1.Obj0.PixelsInHorizontalLastMcu = picParams->m_picWidth % 8; cmd.DW1.Obj0.PixelsInVerticalLastMcu = picParams->m_picHeight % 8; } uint32_t horizontalSamplingFactor = this->GetJpegHorizontalSamplingFactorForY((CodecEncodeJpegInputSurfaceFormat)picParams->m_inputSurfaceFormat); uint32_t verticalSamplingFactor = this->GetJpegVerticalSamplingFactorForY((CodecEncodeJpegInputSurfaceFormat)picParams->m_inputSurfaceFormat); cmd.DW2.Obj0.FrameWidthInBlocksMinus1 = (((picParams->m_picWidth + (horizontalSamplingFactor * 8 - 1)) / (horizontalSamplingFactor * 8)) * horizontalSamplingFactor) - 1; cmd.DW2.Obj0.FrameHeightInBlocksMinus1 = (((picParams->m_picHeight + (verticalSamplingFactor * 8 - 1)) / (verticalSamplingFactor * 8)) * verticalSamplingFactor) - 1; MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxJpegFqmCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_QM_PARAMS params, uint32_t numQuantTables) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); typename TMfxCmds::MFX_FQM_STATE_CMD cmd; for (uint32_t i = 0; i < numQuantTables; i++) { cmd.DW1.Obj0.Avc = i; MOS_ZeroMemory(&cmd.ForwardQuantizerMatrix, sizeof(cmd.ForwardQuantizerMatrix)); auto j = 0; // Copy over 32 uint32_t worth of values - Each uint32_t will contain 2 16 bit quantizer values // where for the DWordx Bits [15: 0] = 1/QM[0][x] Bits[32:16] = 1/QM[1][x] for (auto k = 0; k < 8; k++) { for (auto l = k; l < 64; l += 16) { cmd.ForwardQuantizerMatrix[j] = (((GetReciprocalScalingValue(params->pJpegQuantMatrix->m_quantMatrix[i][l + 8]) & 0xFFFF) << 16) | (GetReciprocalScalingValue(params->pJpegQuantMatrix->m_quantMatrix[i][l]) & 0xFFFF)); j++; } } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); } return eStatus; } MOS_STATUS AddMfcJpegHuffTableStateCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_ENCODE_HUFF_TABLE_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); typename TMfxCmds::MFC_JPEG_HUFF_TABLE_STATE_CMD cmd; cmd.DW1.HuffTableId = params->HuffTableID; // cmd DWORDS 2:13 for DC Table // Format- 3Bytes: Byte0 for Code length, Byte1 and Byte2 for Code word, and Byte3 for dummy for (auto j = 0; j < JPEG_NUM_HUFF_TABLE_DC_HUFFVAL; j++) { cmd.DcTable[j] = 0; cmd.DcTable[j] = (params->pDCCodeLength[j] & 0xFF) | ((params->pDCCodeValues[j] & 0xFFFF) << 8); } // cmd DWORDS 14:175 for AC table // Format- 3Bytes: Byte0 for Code length, Byte1 and Byte2 for Code word, and Byte3 for dummy for (auto j = 0; j < JPEG_NUM_HUFF_TABLE_AC_HUFFVAL; j++) { cmd.AcTable[j] = 0; cmd.AcTable[j] = (params->pACCodeLength[j] & 0xFF) | ((params->pACCodeValues[j] & 0xFFFF) << 8); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfcJpegScanObjCmd( PMOS_COMMAND_BUFFER cmdBuffer, MhwVdboxJpegScanParams *params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pJpegEncodeScanParams); typename TMfxCmds::MFC_JPEG_SCAN_OBJECT_CMD cmd; uint32_t horizontalSamplingFactor = this->GetJpegHorizontalSamplingFactorForY(params->inputSurfaceFormat); uint32_t verticalSamplingFactor = this->GetJpegVerticalSamplingFactorForY(params->inputSurfaceFormat); cmd.DW1.McuCount = ((params->dwPicWidth + (horizontalSamplingFactor * 8 - 1)) / (horizontalSamplingFactor * 8)) * ((params->dwPicHeight + (verticalSamplingFactor * 8 - 1)) / (verticalSamplingFactor * 8)); cmd.DW2.RestartInterval = params->pJpegEncodeScanParams->m_restartInterval; cmd.DW2.IsLastScan = 1; // Always 1 since there is only 1 scan in the JPEG frame cmd.DW2.HeadPresentFlag = 1; // There will always be MFC_JPEG_PAK_INSERT_OBJECT commands sent for (auto i = 0; i < jpegNumComponent; i++) { cmd.DW2.HuffmanDcTable |= (params->pJpegEncodeScanParams->m_dcCodingTblSelector[i]) << i; cmd.DW2.HuffmanAcTable |= (params->pJpegEncodeScanParams->m_acCodingTblSelector[i]) << i; } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxDecodeVp8PicCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_VP8_PIC_STATE params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); typename TMfxCmds::MFX_VP8_PIC_STATE_CMD cmd; auto vp8PicParams = params->pVp8PicParams; auto vp8IqMatrixParams = params->pVp8IqMatrixParams; cmd.DW1.FrameWidthMinus1 = vp8PicParams->wFrameWidthInMbsMinus1; cmd.DW1.FrameHeightMinus1 = vp8PicParams->wFrameHeightInMbsMinus1; cmd.DW2.McFilterSelect = (vp8PicParams->version != 0); cmd.DW2.ChromaFullPixelMcFilterMode = (vp8PicParams->version == 3); cmd.DW2.Dblkfiltertype = vp8PicParams->filter_type; cmd.DW2.Skeyframeflag = vp8PicParams->key_frame; cmd.DW2.SegmentationIdStreamoutEnable = (vp8PicParams->segmentation_enabled) && (vp8PicParams->update_mb_segmentation_map); cmd.DW2.SegmentationIdStreaminEnable = (vp8PicParams->segmentation_enabled) && !(vp8PicParams->update_mb_segmentation_map); cmd.DW2.SegmentEnableFlag = vp8PicParams->segmentation_enabled; cmd.DW2.UpdateMbsegmentMapFlag = (vp8PicParams->segmentation_enabled) ? vp8PicParams->update_mb_segmentation_map : 0; cmd.DW2.MbNocoeffSkipflag = vp8PicParams->mb_no_coeff_skip; cmd.DW2.ModeReferenceLoopFilterDeltaEnabled = vp8PicParams->loop_filter_adj_enable; cmd.DW2.GoldenRefPictureMvSignbiasFlag = vp8PicParams->sign_bias_golden; cmd.DW2.AlternateRefPicMvSignbiasFlag = vp8PicParams->sign_bias_alternate; cmd.DW2.DeblockSharpnessLevel = vp8PicParams->ucSharpnessLevel; cmd.DW3.DblkfilterlevelForSegment3 = vp8PicParams->ucLoopFilterLevel[3]; cmd.DW3.DblkfilterlevelForSegment2 = vp8PicParams->ucLoopFilterLevel[2]; cmd.DW3.DblkfilterlevelForSegment1 = vp8PicParams->ucLoopFilterLevel[1]; cmd.DW3.DblkfilterlevelForSegment0 = vp8PicParams->ucLoopFilterLevel[0]; uint32_t i = 0; uint32_t j = 0; cmd.DW4.dec.QuantizerValue0Blocktype0Y1Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW4.dec.QuantizerValue0Blocktype1Y1Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 0; j = 2; cmd.DW5.dec.QuantizerValue0Blocktype2Uvdc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW5.dec.QuantizerValue0Blocktype3Uvac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 0; j = 4; cmd.DW6.dec.QuantizerValue0Blocktype4Y2Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW6.dec.QuantizerValue0Blocktype5Y2Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 1; j = 0; cmd.DW7.dec.QuantizerValue1Blocktype0Y1Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW7.dec.QuantizerValue1Blocktype1Y1Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 1; j = 2; cmd.DW8.QuantizerValue1Blocktype2Uvdc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW8.QuantizerValue1Blocktype3Uvac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 1; j = 4; cmd.DW9.QuantizerValue1Blocktype4Y2Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW9.QuantizerValue1Blocktype5Y2Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 2; j = 0; cmd.DW10.QuantizerValue2Blocktype0Y1Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW10.QuantizerValue2Blocktype1Y1Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 2; j = 2; cmd.DW11.QuantizerValue2Blocktype2Uvdc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW11.QuantizerValue2Blocktype3Uvac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 2; j = 4; cmd.DW12.QuantizerValue2Blocktype4Y2Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW12.QuantizerValue2Blocktype5Y2Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 3; j = 0; cmd.DW13.QuantizerValue3Blocktype0Y1Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW13.QuantizerValue3Blocktype1Y1Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 3; j = 2; cmd.DW14.QuantizerValue3Blocktype2Uvdc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW14.QuantizerValue3Blocktype3Uvac = vp8IqMatrixParams->quantization_values[i][j + 1]; i = 3; j = 4; cmd.DW15.QuantizerValue3Blocktype4Y2Dc = vp8IqMatrixParams->quantization_values[i][j]; cmd.DW15.QuantizerValue3Blocktype5Y2Ac = vp8IqMatrixParams->quantization_values[i][j + 1]; cmd.DW19.Mbsegmentidtreeprobs2 = vp8PicParams->cMbSegmentTreeProbs[2]; cmd.DW19.Mbsegmentidtreeprobs1 = vp8PicParams->cMbSegmentTreeProbs[1]; cmd.DW19.Mbsegmentidtreeprobs0 = vp8PicParams->cMbSegmentTreeProbs[0]; cmd.DW20.Mbnocoeffskipfalseprob = vp8PicParams->ucProbSkipFalse; cmd.DW20.Intrambprob = vp8PicParams->ucProbIntra; cmd.DW20.Interpredfromlastrefprob = vp8PicParams->ucProbLast; cmd.DW20.Interpredfromgrefrefprob = vp8PicParams->ucProbGolden; cmd.DW21.Ymodeprob3 = vp8PicParams->ucYModeProbs[3]; cmd.DW21.Ymodeprob2 = vp8PicParams->ucYModeProbs[2]; cmd.DW21.Ymodeprob1 = vp8PicParams->ucYModeProbs[1]; cmd.DW21.Ymodeprob0 = vp8PicParams->ucYModeProbs[0]; cmd.DW22.Uvmodeprob2 = vp8PicParams->ucUvModeProbs[2]; cmd.DW22.Uvmodeprob1 = vp8PicParams->ucUvModeProbs[1]; cmd.DW22.Uvmodeprob0 = vp8PicParams->ucUvModeProbs[0]; i = 0; j = 0; cmd.DW23.Mvupdateprobs00 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW23.Mvupdateprobs01 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW23.Mvupdateprobs02 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW23.Mvupdateprobs03 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 0; j = 4; cmd.DW24.Mvupdateprobs04 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW24.Mvupdateprobs05 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW24.Mvupdateprobs06 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW24.Mvupdateprobs07 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 0; j = 8; cmd.DW25.Mvupdateprobs08 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW25.Mvupdateprobs09 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW25.Mvupdateprobs010 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW25.Mvupdateprobs011 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 0; j = 12; cmd.DW26.Mvupdateprobs012 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW26.Mvupdateprobs013 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW26.Mvupdateprobs014 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW26.Mvupdateprobs015 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 0; j = 16; cmd.DW27.Mvupdateprobs016 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW27.Mvupdateprobs017 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW27.Mvupdateprobs018 = vp8PicParams->ucMvUpdateProb[i][j + 2]; i = 1; j = 0; cmd.DW28.Mvupdateprobs10 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW28.Mvupdateprobs11 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW28.Mvupdateprobs12 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW28.Mvupdateprobs13 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 1; j = 4; cmd.DW29.Mvupdateprobs14 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW29.Mvupdateprobs15 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW29.Mvupdateprobs16 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW29.Mvupdateprobs17 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 1; j = 8; cmd.DW30.Mvupdateprobs18 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW30.Mvupdateprobs19 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW30.Mvupdateprobs110 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW30.Mvupdateprobs111 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 1; j = 12; cmd.DW31.Mvupdateprobs112 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW31.Mvupdateprobs113 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW31.Mvupdateprobs114 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW31.Mvupdateprobs115 = vp8PicParams->ucMvUpdateProb[i][j + 3]; i = 1; j = 16; cmd.DW32.Mvupdateprobs116 = vp8PicParams->ucMvUpdateProb[i][j]; cmd.DW32.Mvupdateprobs117 = vp8PicParams->ucMvUpdateProb[i][j + 1]; cmd.DW32.Mvupdateprobs118 = vp8PicParams->ucMvUpdateProb[i][j + 2]; cmd.DW33.Reflfdelta0ForIntraFrame = vp8PicParams->cRefLfDelta[0]; cmd.DW33.Reflfdelta1ForLastFrame = vp8PicParams->cRefLfDelta[1]; cmd.DW33.Reflfdelta2ForGoldenFrame = vp8PicParams->cRefLfDelta[2]; cmd.DW33.Reflfdelta3ForAltrefFrame = vp8PicParams->cRefLfDelta[3]; cmd.DW34.Modelfdelta0ForBPredMode = vp8PicParams->cModeLfDelta[0]; cmd.DW34.Modelfdelta1ForZeromvMode = vp8PicParams->cModeLfDelta[1]; cmd.DW34.Modelfdelta2ForNearestNearAndNewMode = vp8PicParams->cModeLfDelta[2]; cmd.DW34.Modelfdelta3ForSplitmvMode = vp8PicParams->cModeLfDelta[3]; MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_GENERAL_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_VP8_PIC; resourceParams.presResource = params->presCoefProbBuffer; resourceParams.dwOffset = params->dwCoefProbTableOffset; resourceParams.pdwCmd = &(cmd.DW16.Value); resourceParams.dwLocationInCmd = 16; resourceParams.bIsWritable = false; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); if (vp8PicParams->segmentation_enabled) { resourceParams.presResource = params->presSegmentationIdStreamBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW35.Value); resourceParams.dwLocationInCmd = 35; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfxEncodeVp8PicCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_VP8_PIC_STATE params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pEncodeVP8SeqParams); MHW_MI_CHK_NULL(params->pEncodeVP8PicParams); MHW_MI_CHK_NULL(params->pEncodeVP8QuantData); typename TMfxCmds::MFX_VP8_PIC_STATE_CMD cmd; auto vp8SeqParams = params->pEncodeVP8SeqParams; auto vp8PicParams = params->pEncodeVP8PicParams; auto vp8QuantData = params->pEncodeVP8QuantData; cmd.DW1.FrameWidthMinus1 = params->wPicWidthInMb - 1; cmd.DW1.FrameHeightMinus1 = params->wPicHeightInMb - 1; cmd.DW2.McFilterSelect = (vp8PicParams->version != 0); cmd.DW2.ChromaFullPixelMcFilterMode = (vp8PicParams->version == 3); cmd.DW2.Dblkfiltertype = vp8PicParams->filter_type; cmd.DW2.Skeyframeflag = !vp8PicParams->frame_type; cmd.DW2.SegmentEnableFlag = vp8PicParams->segmentation_enabled; cmd.DW2.UpdateMbsegmentMapFlag = (vp8PicParams->segmentation_enabled) ? vp8PicParams->update_mb_segmentation_map : 0; cmd.DW2.MbNocoeffSkipflag = vp8PicParams->mb_no_coeff_skip; cmd.DW2.ModeReferenceLoopFilterDeltaEnabled = vp8PicParams->loop_filter_adj_enable; cmd.DW2.GoldenRefPictureMvSignbiasFlag = vp8PicParams->sign_bias_golden; cmd.DW2.AlternateRefPicMvSignbiasFlag = vp8PicParams->sign_bias_alternate; cmd.DW2.DeblockSharpnessLevel = vp8PicParams->sharpness_level; cmd.DW2.Log2NumOfPartition = vp8PicParams->CodedCoeffTokenPartition; cmd.DW3.DblkfilterlevelForSegment3 = vp8PicParams->loop_filter_level[3]; cmd.DW3.DblkfilterlevelForSegment2 = vp8PicParams->loop_filter_level[2]; cmd.DW3.DblkfilterlevelForSegment1 = vp8PicParams->loop_filter_level[1]; cmd.DW3.DblkfilterlevelForSegment0 = vp8PicParams->loop_filter_level[0]; //Y1 AC is the reference. cmd.DW4.enc.Seg0Qindex = vp8QuantData->QIndex[0]; cmd.DW4.enc.Seg1Qindex = vp8QuantData->QIndex[1]; cmd.DW4.enc.Seg2Qindex = vp8QuantData->QIndex[2]; cmd.DW4.enc.Seg3Qindex = vp8QuantData->QIndex[3]; cmd.DW5.enc.Y2DcQindexDelta = vp8QuantData->QIndexDelta[VP8_QINDEX_Y2_DC]; cmd.DW5.enc.Y2AcQindexDeltaSign = (vp8QuantData->QIndexDelta[VP8_QINDEX_Y2_DC] < 0) ? 1 : 0; cmd.DW5.enc.Y2AcQindexDelta = vp8QuantData->QIndexDelta[VP8_QINDEX_Y2_AC]; cmd.DW5.enc.Y2AcQindexSign = (vp8QuantData->QIndexDelta[VP8_QINDEX_Y2_AC] < 0) ? 1 : 0; cmd.DW5.enc.UvdcQindexDelta = vp8QuantData->QIndexDelta[VP8_QINDEX_UV_DC]; cmd.DW5.enc.UvdcQindexDeltaSign = (vp8QuantData->QIndexDelta[VP8_QINDEX_UV_DC] < 0) ? 1 : 0; cmd.DW5.enc.UvacQindexdelta = vp8QuantData->QIndexDelta[VP8_QINDEX_UV_AC]; cmd.DW5.enc.UvacQindexDeltaSign = (vp8QuantData->QIndexDelta[VP8_QINDEX_UV_AC] < 0) ? 1 : 0; cmd.DW6.enc.Y1DcQindexDelta = vp8QuantData->QIndexDelta[VP8_QINDEX_Y1_DC]; cmd.DW6.enc.Y1DcQindexDeltaSign = (vp8QuantData->QIndexDelta[VP8_QINDEX_Y1_DC] < 0) ? 1 : 0; cmd.DW7.enc.ClampQindexLow = vp8PicParams->ClampQindexLow; cmd.DW7.enc.ClampQindexHigh = vp8PicParams->ClampQindexHigh; MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_GENERAL_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_VP8_PIC; cmd.DW19.Mbsegmentidtreeprobs2 = SegTreeProbs[2]; cmd.DW19.Mbsegmentidtreeprobs1 = SegTreeProbs[1]; cmd.DW19.Mbsegmentidtreeprobs0 = SegTreeProbs[0]; //The following probs need to be updated by the kernel when ready. cmd.DW20.Mbnocoeffskipfalseprob = 224; cmd.DW20.Intrambprob = 63; cmd.DW20.Interpredfromlastrefprob = 255; cmd.DW20.Interpredfromgrefrefprob = 128; cmd.DW21.Ymodeprob3 = YModeProb[3]; cmd.DW21.Ymodeprob2 = YModeProb[2]; cmd.DW21.Ymodeprob1 = YModeProb[1]; cmd.DW21.Ymodeprob0 = YModeProb[0]; cmd.DW22.Uvmodeprob2 = UVModeProb[2]; cmd.DW22.Uvmodeprob1 = UVModeProb[1]; cmd.DW22.Uvmodeprob0 = UVModeProb[0]; uint32_t i = 0; uint32_t j = 0; cmd.DW23.Mvupdateprobs00 = DefaultMvContext[i][j]; cmd.DW23.Mvupdateprobs01 = DefaultMvContext[i][j + 1]; cmd.DW23.Mvupdateprobs02 = DefaultMvContext[i][j + 2]; cmd.DW23.Mvupdateprobs03 = DefaultMvContext[i][j + 3]; i = 0; j = 4; cmd.DW24.Mvupdateprobs04 = DefaultMvContext[i][j]; cmd.DW24.Mvupdateprobs05 = DefaultMvContext[i][j + 1]; cmd.DW24.Mvupdateprobs06 = DefaultMvContext[i][j + 2]; cmd.DW24.Mvupdateprobs07 = DefaultMvContext[i][j + 3]; i = 0; j = 8; cmd.DW25.Mvupdateprobs08 = DefaultMvContext[i][j]; cmd.DW25.Mvupdateprobs09 = DefaultMvContext[i][j + 1]; cmd.DW25.Mvupdateprobs010 = DefaultMvContext[i][j + 2]; cmd.DW25.Mvupdateprobs011 = DefaultMvContext[i][j + 3]; i = 0; j = 12; cmd.DW26.Mvupdateprobs012 = DefaultMvContext[i][j]; cmd.DW26.Mvupdateprobs013 = DefaultMvContext[i][j + 1]; cmd.DW26.Mvupdateprobs014 = DefaultMvContext[i][j + 2]; cmd.DW26.Mvupdateprobs015 = DefaultMvContext[i][j + 3]; i = 0; j = 16; cmd.DW27.Mvupdateprobs016 = DefaultMvContext[i][j]; cmd.DW27.Mvupdateprobs017 = DefaultMvContext[i][j + 1]; cmd.DW27.Mvupdateprobs018 = DefaultMvContext[i][j + 2]; i = 1; j = 0; cmd.DW28.Mvupdateprobs10 = DefaultMvContext[i][j]; cmd.DW28.Mvupdateprobs11 = DefaultMvContext[i][j + 1]; cmd.DW28.Mvupdateprobs12 = DefaultMvContext[i][j + 2]; cmd.DW28.Mvupdateprobs13 = DefaultMvContext[i][j + 3]; i = 1; j = 4; cmd.DW29.Mvupdateprobs14 = DefaultMvContext[i][j]; cmd.DW29.Mvupdateprobs15 = DefaultMvContext[i][j + 1]; cmd.DW29.Mvupdateprobs16 = DefaultMvContext[i][j + 2]; cmd.DW29.Mvupdateprobs17 = DefaultMvContext[i][j + 3]; i = 1; j = 8; cmd.DW30.Mvupdateprobs18 = DefaultMvContext[i][j]; cmd.DW30.Mvupdateprobs19 = DefaultMvContext[i][j + 1]; cmd.DW30.Mvupdateprobs110 = DefaultMvContext[i][j + 2]; cmd.DW30.Mvupdateprobs111 = DefaultMvContext[i][j + 3]; i = 1; j = 12; cmd.DW31.Mvupdateprobs112 = DefaultMvContext[i][j]; cmd.DW31.Mvupdateprobs113 = DefaultMvContext[i][j + 1]; cmd.DW31.Mvupdateprobs114 = DefaultMvContext[i][j + 2]; cmd.DW31.Mvupdateprobs115 = DefaultMvContext[i][j + 3]; i = 1; j = 16; cmd.DW32.Mvupdateprobs116 = DefaultMvContext[i][j]; cmd.DW32.Mvupdateprobs117 = DefaultMvContext[i][j + 1]; cmd.DW32.Mvupdateprobs118 = DefaultMvContext[i][j + 2]; cmd.DW33.Reflfdelta0ForIntraFrame = vp8PicParams->ref_lf_delta[0]; cmd.DW33.Reflfdelta1ForLastFrame = vp8PicParams->ref_lf_delta[1]; cmd.DW33.Reflfdelta2ForGoldenFrame = vp8PicParams->ref_lf_delta[2]; cmd.DW33.Reflfdelta3ForAltrefFrame = vp8PicParams->ref_lf_delta[3]; cmd.DW34.Modelfdelta0ForBPredMode = vp8PicParams->mode_lf_delta[0]; cmd.DW34.Modelfdelta1ForZeromvMode = vp8PicParams->mode_lf_delta[1]; cmd.DW34.Modelfdelta2ForNearestNearAndNewMode = vp8PicParams->mode_lf_delta[2]; cmd.DW34.Modelfdelta3ForSplitmvMode = vp8PicParams->mode_lf_delta[3]; MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } MOS_STATUS AddMfdVp8BsdObjectCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_VP8_BSD_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; typename TMfxCmds::MFD_VP8_BSD_OBJECT_CMD cmd; eStatus = MhwVdboxMfxInterfaceGeneric::AddMfdVp8BsdObjectCmd(cmdBuffer, params); MHW_MI_CHK_STATUS(eStatus); return eStatus; } MOS_STATUS InitMfxVp8EncoderCfgCmd( PMOS_RESOURCE cfgCmdBuffer, PMHW_VDBOX_VP8_ENCODER_CFG_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(cfgCmdBuffer); MHW_MI_CHK_NULL(params); MHW_MI_CHK_NULL(params->pEncodeVP8PicParams); MHW_MI_CHK_NULL(params->pEncodeVP8SeqParams); MHW_MI_CHK_NULL(params->pEncodeVP8QuantData); auto picParams = params->pEncodeVP8PicParams; auto seqParams = params->pEncodeVP8SeqParams; auto quantData = params->pEncodeVP8QuantData; MOS_LOCK_PARAMS lockFlags; MOS_ZeroMemory(&lockFlags, sizeof(MOS_LOCK_PARAMS)); lockFlags.WriteOnly = 1; uint8_t *data = (uint8_t*)this->m_osInterface->pfnLockResource(this->m_osInterface, cfgCmdBuffer, &lockFlags); MHW_MI_CHK_NULL(data); data += params->dwCfgCmdOffset; MOS_ZeroMemory(data, params->dwCfgBufferSize); typename TMfxCmds::MFX_VP8_Encoder_CFG_CMD *cmd = (typename TMfxCmds::MFX_VP8_Encoder_CFG_CMD *)data; cmd->DW0.DwordLength = TMfxCmds::GetOpLength(TMfxCmds::MFX_VP8_Encoder_CFG_CMD::dwSize); cmd->DW0.SubOpcodeB = TMfxCmds::MFX_VP8_Encoder_CFG_CMD::SUB_OPCODE_B_MFXVP8ENCODERCFG; cmd->DW0.SubOpcodeA = TMfxCmds::MFX_VP8_Encoder_CFG_CMD::SUB_OPCODE_A_VP8COMMON; cmd->DW0.MediaCommandOpcode = TMfxCmds::MFX_VP8_Encoder_CFG_CMD::MEDIA_COMMAND_OPCODE_VP8; cmd->DW0.Pipeline = TMfxCmds::MFX_VP8_Encoder_CFG_CMD::PIPELINE_VIDEOCODEC; cmd->DW0.CommandType = TMfxCmds::MFX_VP8_Encoder_CFG_CMD::COMMAND_TYPE_PARALLELVIDEOPIPE; cmd->DW1.Value = 0; cmd->DW2.Value = 0; cmd->DW3.Value = 0; cmd->DW4.Value = 0; cmd->DW5.Value = 0; cmd->DW6.Value = 0; cmd->DW7.Value = 0; cmd->DW8.Value = 0; cmd->DW9.Value = 0; cmd->DW10.Value = 0; cmd->DW11.Value = 0; cmd->DW12.Value = 0; cmd->DW13.Value = 0; cmd->DW14.Value = 0; cmd->DW15.Value = 0; cmd->DW16.Value = 0; cmd->DW17.Value = 0; cmd->DW18.Value = 0; cmd->DW19.Value = 0; cmd->DW20.Value = 0; cmd->DW22.Value = 0; cmd->DW23.Value = 0; cmd->DW24.Value = 0; cmd->DW25.Value = 0; cmd->DW26.Value = 0; cmd->DW27.Value = 0; cmd->DW28.Value = 0; cmd->DW29.Value = 0; cmd->DW1.RateControlInitialPass = params->bFirstPass ? 1 : 0; cmd->DW1.PerSegmentDeltaQindexLoopfilterDisable = (params->bFirstPass || !params->bBRCEnabled); cmd->DW1.TokenStatisticsOutputEnable = 1; if (picParams->segmentation_enabled) { cmd->DW1.UpdateSegmentFeatureDataFlag = 1; } if (params->bBRCEnabled) { //Add BRC init below cmd->DW2.MaxFrameBitCountRateControlEnableMask = 1; cmd->DW2.MinFrameBitCountRateControlEnableMask = 1; } cmd->DW22.ShowFrame = picParams->show_frame; cmd->DW22.BitstreamFormatVersion = picParams->version; cmd->DW23.HorizontalSizeCode = ((seqParams->FrameWidthScale << 14) | seqParams->FrameWidth); cmd->DW23.VerticalSizeCode = ((seqParams->FrameHeightScale << 14) | seqParams->FrameHeight); //Add batch buffer end command data += sizeof(*cmd); mhw_mi_g9_X::MI_BATCH_BUFFER_END_CMD *miBatchBufferEndCmd = (mhw_mi_g9_X::MI_BATCH_BUFFER_END_CMD *)data; *miBatchBufferEndCmd = mhw_mi_g9_X::MI_BATCH_BUFFER_END_CMD(); MHW_MI_CHK_STATUS(this->m_osInterface->pfnUnlockResource( this->m_osInterface, cfgCmdBuffer)); return eStatus; } MOS_STATUS AddMfxVp8BspBufBaseAddrCmd( PMOS_COMMAND_BUFFER cmdBuffer, PMHW_VDBOX_VP8_BSP_BUF_BASE_ADDR_PARAMS params) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; MHW_FUNCTION_ENTER; MHW_MI_CHK_NULL(this->m_osInterface); MHW_MI_CHK_NULL(cmdBuffer); MHW_MI_CHK_NULL(params); if (params->dwPartitions == 0 || params->dwPartitions > MhwVdboxMfxInterface::m_vp8MaxNumPartitions) { MHW_ASSERTMESSAGE("Invalid Partitions."); eStatus = MOS_STATUS_INVALID_PARAMETER; return eStatus; } typename TMfxCmds::MFX_VP8_BSP_BUF_BASE_ADDR_STATE_CMD cmd; MHW_RESOURCE_PARAMS resourceParams; MOS_ZeroMemory(&resourceParams, sizeof(resourceParams)); resourceParams.dwLsbNum = MHW_VDBOX_MFX_GENERAL_STATE_SHIFT; resourceParams.HwCommandType = MOS_MFX_BSP_BUF_BASE_ADDR; if (params->presFrameHeaderBuffer) { cmd.DW3.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_SURFACE_MV_DATA_ENCODE].Value; resourceParams.presResource = params->presFrameHeaderBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW1.Value); resourceParams.dwLocationInCmd = 1; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presPakIntermediateBuffer) { cmd.DW6.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFC_INDIRECT_PAKBASE_OBJECT_CODEC].Value; resourceParams.presResource = params->presPakIntermediateBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW4.Value); resourceParams.dwLocationInCmd = 4; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); uint32_t partitionSize = (params->dwPakIntermediateTokenSize / params->dwPartitions); cmd.DW7.IntermediateBufferPartition1Offset = MOS_ALIGN_CEIL(params->dwPakIntermediatePartition0Size, 64); cmd.DW8.IntermediateBufferPartition2Offset = MOS_ALIGN_CEIL(cmd.DW7.IntermediateBufferPartition1Offset + partitionSize, 64); cmd.DW9.IntermediateBufferPartition3Offset = MOS_ALIGN_CEIL(cmd.DW8.IntermediateBufferPartition2Offset + partitionSize, 64); cmd.DW10.IntermediateBufferPartition4Offset = MOS_ALIGN_CEIL(cmd.DW9.IntermediateBufferPartition3Offset + partitionSize, 64); cmd.DW11.IntermediateBufferPartition5Offset = MOS_ALIGN_CEIL(cmd.DW10.IntermediateBufferPartition4Offset + partitionSize, 64); cmd.DW12.IntermediateBufferPartition6Offset = MOS_ALIGN_CEIL(cmd.DW11.IntermediateBufferPartition5Offset + partitionSize, 64); cmd.DW13.IntermediateBufferPartition7Offset = MOS_ALIGN_CEIL(cmd.DW12.IntermediateBufferPartition6Offset + partitionSize, 64); cmd.DW14.IntermediateBufferPartition8Offset = MOS_ALIGN_CEIL(cmd.DW13.IntermediateBufferPartition7Offset + partitionSize, 64); cmd.DW15.IntermediateBufferMaxSize = params->dwPakIntermediateTokenSize + params->dwPakIntermediatePartition0Size; } if (params->presPakFinalFrameBuffer) { cmd.DW18.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_MFC_INDIRECT_PAKBASE_OBJECT_CODEC].Value; resourceParams.presResource = params->presPakFinalFrameBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW16.Value); resourceParams.dwLocationInCmd = 16; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presCoeffProbsBuffer) { cmd.DW25.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_SURFACE_MV_DATA_ENCODE].Value; resourceParams.presResource = params->presCoeffProbsBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW23.Value); resourceParams.dwLocationInCmd = 23; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presTokenStatisticsBuffer) { cmd.DW28.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_SURFACE_MV_DATA_ENCODE].Value; resourceParams.presResource = params->presTokenStatisticsBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW26.Value); resourceParams.dwLocationInCmd = 26; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } if (params->presBsdMpcRowStoreScratchBuffer) { cmd.DW31.Value = this->m_cacheabilitySettings[MOS_CODEC_RESOURCE_USAGE_BSDMPC_ROWSTORE_SCRATCH_BUFFER_CODEC].Value; resourceParams.presResource = params->presBsdMpcRowStoreScratchBuffer; resourceParams.dwOffset = 0; resourceParams.pdwCmd = &(cmd.DW29_30.Value[0]); resourceParams.dwLocationInCmd = 29; resourceParams.bIsWritable = true; MHW_MI_CHK_STATUS(this->AddResourceToCmd( this->m_osInterface, cmdBuffer, &resourceParams)); } MHW_MI_CHK_STATUS(this->m_osInterface->pfnAddCommand(cmdBuffer, &cmd, sizeof(cmd))); return eStatus; } }; #endif