media_driver/agnostic/common/codec/hal/codechal_mmc_decode_vp9.cpp - third_party/github.com/intel/media-driver - Git at Google

 /*
 * Copyright (c) 2017, 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     codechal_mmc_decode_vp9.cpp
 //! \brief    Impelements the public interface for CodecHal Media Memory Compression
 //!

 #include "codechal_mmc_decode_vp9.h"

 CodechalMmcDecodeVp9::CodechalMmcDecodeVp9(
     CodechalHwInterface    *hwInterface,
     void *standardState):
     CodecHalMmcState(hwInterface)
 {
     CODECHAL_DECODE_FUNCTION_ENTER;

     m_vp9State = (CodechalDecodeVp9 *)standardState;
     CODECHAL_HW_ASSERT(m_vp9State);

     CODECHAL_HW_ASSERT(hwInterface);
     CODECHAL_HW_ASSERT(hwInterface->GetSkuTable());
     if (MEDIA_IS_SKU(hwInterface->GetSkuTable(), FtrMemoryCompression))
     {
         MOS_USER_FEATURE_VALUE_DATA userFeatureData;
         MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData));
         userFeatureData.i32Data = m_mmcEnabled;
         userFeatureData.i32DataFlag = MOS_USER_FEATURE_VALUE_DATA_FLAG_CUSTOM_DEFAULT_VALUE_TYPE;

         MOS_UserFeature_ReadValue_ID(
             nullptr,
             __MEDIA_USER_FEATURE_VALUE_DECODE_MMC_ENABLE_ID,
             &userFeatureData,
             m_osInterface->pOsContext);
         m_mmcEnabled = (userFeatureData.i32Data) ? true : false;

         MOS_USER_FEATURE_VALUE_WRITE_DATA userFeatureWriteData;
         MOS_ZeroMemory(&userFeatureWriteData, sizeof(userFeatureWriteData));
         userFeatureWriteData.Value.i32Data = m_mmcEnabled;
         userFeatureWriteData.ValueID = __MEDIA_USER_FEATURE_VALUE_DECODE_MMC_IN_USE_ID;
         MOS_UserFeature_WriteValues_ID(nullptr, &userFeatureWriteData, 1, m_osInterface->pOsContext);
     }
 #if (_DEBUG || _RELEASE_INTERNAL)
     m_compressibleId  = __MEDIA_USER_FEATURE_VALUE_MMC_DEC_RT_COMPRESSIBLE_ID;
     m_compressModeId  = __MEDIA_USER_FEATURE_VALUE_MMC_DEC_RT_COMPRESSMODE_ID;
 #endif
 }

 MOS_STATUS CodechalMmcDecodeVp9::SetPipeBufAddr(
     PMHW_VDBOX_PIPE_BUF_ADDR_PARAMS pipeBufAddrParams,
     PMOS_COMMAND_BUFFER cmdBuffer)
 {
     MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

     CODECHAL_DECODE_FUNCTION_ENTER;

     if (m_mmcEnabled &&
         m_hcpMmcEnabled &&
         m_vp9State->m_destSurface.bCompressible)
     {
         if ((m_10bitMmcEnabled && m_vp9State->m_destSurface.Format == Format_P010) ||
             (m_vp9State->m_destSurface.Format == Format_NV12))
         {
             pipeBufAddrParams->PreDeblockSurfMmcState = MOS_MEMCOMP_HORIZONTAL;
         }
         else
         {
             pipeBufAddrParams->PreDeblockSurfMmcState = MOS_MEMCOMP_DISABLED;
         }
     }

     CODECHAL_DEBUG_TOOL(
         m_vp9State->m_destSurface.MmcState = pipeBufAddrParams->PreDeblockSurfMmcState;)

     return eStatus;
 }

 MOS_STATUS CodechalMmcDecodeVp9::SetRefrenceSync(
     bool disableDecodeSyncLock,
     bool disableLockForTranscode)
 {
     MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

     CODECHAL_DECODE_FUNCTION_ENTER;

     // Check if reference surface needs to be synchronized in MMC case
     if (m_mmcEnabled)
     {
         MOS_SYNC_PARAMS syncParams = g_cInitSyncParams;
         syncParams.GpuContext = m_vp9State->GetVideoContext();
         syncParams.bDisableDecodeSyncLock = disableDecodeSyncLock;
         syncParams.bDisableLockForTranscode = disableLockForTranscode;

         if (m_vp9State->m_presLastRefSurface)
         {
             syncParams.presSyncResource = m_vp9State->m_presLastRefSurface;
             syncParams.bReadOnly = true;

             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
             m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
         }

         if (m_vp9State->m_presGoldenRefSurface)
         {
             syncParams.presSyncResource = m_vp9State->m_presGoldenRefSurface;
             syncParams.bReadOnly = true;

             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
             m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
         }

         if (m_vp9State->m_presAltRefSurface)
         {
             syncParams.presSyncResource = m_vp9State->m_presAltRefSurface;
             syncParams.bReadOnly = true;

             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
             m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
         }
     }

     return eStatus;
 }

 MOS_STATUS CodechalMmcDecodeVp9::CheckReferenceList(
         PMHW_VDBOX_PIPE_BUF_ADDR_PARAMS pipeBufAddrParams)
 {
     MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

     CODECHAL_DECODE_FUNCTION_ENTER;

     CODECHAL_DECODE_CHK_NULL_RETURN(pipeBufAddrParams);
     CODECHAL_DECODE_CHK_NULL_RETURN(m_vp9State->m_vp9PicParams);
     auto picParams = m_vp9State->m_vp9PicParams;

     MOS_MEMCOMP_STATE mmcMode;

     // Disable MMC if self-reference is dectected for P/B frames (mainly for error concealment)
     if (((pipeBufAddrParams->PostDeblockSurfMmcState != MOS_MEMCOMP_DISABLED) ||
         (pipeBufAddrParams->PreDeblockSurfMmcState != MOS_MEMCOMP_DISABLED)) &&
         (picParams->PicFlags.fields.frame_type != CODEC_VP9_KEY_FRAME &&
         !picParams->PicFlags.fields.intra_only))
     {
         bool selfReference = false;
         if ((picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.LastRefIdx].FrameIdx)   ||
             (picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.GoldenRefIdx].FrameIdx) ||
             (picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.AltRefIdx].FrameIdx))
         {
             selfReference = true;
         }

         if (selfReference)
         {
             pipeBufAddrParams->PostDeblockSurfMmcState = MOS_MEMCOMP_DISABLED;
             pipeBufAddrParams->PreDeblockSurfMmcState  = MOS_MEMCOMP_DISABLED;
             CODECHAL_DECODE_ASSERTMESSAGE("Self-reference is detected for P/B frames!");

             // Decompress current frame to avoid green corruptions in this error handling case
             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
                 m_osInterface,
                 &m_vp9State->m_destSurface.OsResource,
                 &mmcMode));
             if (mmcMode != MOS_MEMCOMP_DISABLED)
             {
                 m_osInterface->pfnDecompResource(m_osInterface, &m_vp9State->m_destSurface.OsResource);
             }
         }
     }

     // Do surface decompression to make sure the MMC states are consistent in the reference list
     MOS_MEMCOMP_STATE mmcModePrev = MOS_MEMCOMP_DISABLED;
     bool sameMmcStatus = true;
     bool firstRefPic = true;
     for (uint8_t i = 0; i < CODECHAL_MAX_CUR_NUM_REF_FRAME_VP9; i++)
     {
         if (pipeBufAddrParams->presReferences[i])
         {
             CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
                 m_osInterface,
                 pipeBufAddrParams->presReferences[i],
                 &mmcMode));
             if (firstRefPic)
             {
                 mmcModePrev = mmcMode;
                 firstRefPic = false;
             }
             else if (mmcModePrev != mmcMode)
             {
                 sameMmcStatus = false;
                 break;
             }
         }
     }

     if(!sameMmcStatus)
     {
         for (uint8_t i = 0; i < CODECHAL_MAX_CUR_NUM_REF_FRAME_VP9; i++)
         {
             if (pipeBufAddrParams->presReferences[i])
             {
                 CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
                     m_osInterface,
                     pipeBufAddrParams->presReferences[i],
                     &mmcMode));
                 if(mmcMode != MOS_MEMCOMP_DISABLED)
                 {
                     m_osInterface->pfnDecompResource(
                         m_osInterface,
                         pipeBufAddrParams->presReferences[i]);
                 }
             }
         }
     }

     return eStatus;
 }
	/*
	* Copyright (c) 2017, 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 codechal_mmc_decode_vp9.cpp
	//! \brief Impelements the public interface for CodecHal Media Memory Compression
	//!

	#include "codechal_mmc_decode_vp9.h"

	CodechalMmcDecodeVp9::CodechalMmcDecodeVp9(
	CodechalHwInterface *hwInterface,
	void *standardState):
	CodecHalMmcState(hwInterface)
	{
	CODECHAL_DECODE_FUNCTION_ENTER;

	m_vp9State = (CodechalDecodeVp9 *)standardState;
	CODECHAL_HW_ASSERT(m_vp9State);

	CODECHAL_HW_ASSERT(hwInterface);
	CODECHAL_HW_ASSERT(hwInterface->GetSkuTable());
	if (MEDIA_IS_SKU(hwInterface->GetSkuTable(), FtrMemoryCompression))
	{
	MOS_USER_FEATURE_VALUE_DATA userFeatureData;
	MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData));
	userFeatureData.i32Data = m_mmcEnabled;
	userFeatureData.i32DataFlag = MOS_USER_FEATURE_VALUE_DATA_FLAG_CUSTOM_DEFAULT_VALUE_TYPE;

	MOS_UserFeature_ReadValue_ID(
	nullptr,
	__MEDIA_USER_FEATURE_VALUE_DECODE_MMC_ENABLE_ID,
	&userFeatureData,
	m_osInterface->pOsContext);
	m_mmcEnabled = (userFeatureData.i32Data) ? true : false;

	MOS_USER_FEATURE_VALUE_WRITE_DATA userFeatureWriteData;
	MOS_ZeroMemory(&userFeatureWriteData, sizeof(userFeatureWriteData));
	userFeatureWriteData.Value.i32Data = m_mmcEnabled;
	userFeatureWriteData.ValueID = __MEDIA_USER_FEATURE_VALUE_DECODE_MMC_IN_USE_ID;
	MOS_UserFeature_WriteValues_ID(nullptr, &userFeatureWriteData, 1, m_osInterface->pOsContext);
	}
	#if (_DEBUG \|\| _RELEASE_INTERNAL)
	m_compressibleId = __MEDIA_USER_FEATURE_VALUE_MMC_DEC_RT_COMPRESSIBLE_ID;
	m_compressModeId = __MEDIA_USER_FEATURE_VALUE_MMC_DEC_RT_COMPRESSMODE_ID;
	#endif
	}

	MOS_STATUS CodechalMmcDecodeVp9::SetPipeBufAddr(
	PMHW_VDBOX_PIPE_BUF_ADDR_PARAMS pipeBufAddrParams,
	PMOS_COMMAND_BUFFER cmdBuffer)
	{
	MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

	CODECHAL_DECODE_FUNCTION_ENTER;

	if (m_mmcEnabled &&
	m_hcpMmcEnabled &&
	m_vp9State->m_destSurface.bCompressible)
	{
	if ((m_10bitMmcEnabled && m_vp9State->m_destSurface.Format == Format_P010) \|\|
	(m_vp9State->m_destSurface.Format == Format_NV12))
	{
	pipeBufAddrParams->PreDeblockSurfMmcState = MOS_MEMCOMP_HORIZONTAL;
	}
	else
	{
	pipeBufAddrParams->PreDeblockSurfMmcState = MOS_MEMCOMP_DISABLED;
	}
	}

	CODECHAL_DEBUG_TOOL(
	m_vp9State->m_destSurface.MmcState = pipeBufAddrParams->PreDeblockSurfMmcState;)

	return eStatus;
	}

	MOS_STATUS CodechalMmcDecodeVp9::SetRefrenceSync(
	bool disableDecodeSyncLock,
	bool disableLockForTranscode)
	{
	MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

	CODECHAL_DECODE_FUNCTION_ENTER;

	// Check if reference surface needs to be synchronized in MMC case
	if (m_mmcEnabled)
	{
	MOS_SYNC_PARAMS syncParams = g_cInitSyncParams;
	syncParams.GpuContext = m_vp9State->GetVideoContext();
	syncParams.bDisableDecodeSyncLock = disableDecodeSyncLock;
	syncParams.bDisableLockForTranscode = disableLockForTranscode;

	if (m_vp9State->m_presLastRefSurface)
	{
	syncParams.presSyncResource = m_vp9State->m_presLastRefSurface;
	syncParams.bReadOnly = true;

	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
	m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
	}

	if (m_vp9State->m_presGoldenRefSurface)
	{
	syncParams.presSyncResource = m_vp9State->m_presGoldenRefSurface;
	syncParams.bReadOnly = true;

	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
	m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
	}

	if (m_vp9State->m_presAltRefSurface)
	{
	syncParams.presSyncResource = m_vp9State->m_presAltRefSurface;
	syncParams.bReadOnly = true;

	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnPerformOverlaySync(m_osInterface, &syncParams));
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnResourceWait(m_osInterface, &syncParams));
	m_osInterface->pfnSetResourceSyncTag(m_osInterface, &syncParams);
	}
	}

	return eStatus;
	}

	MOS_STATUS CodechalMmcDecodeVp9::CheckReferenceList(
	PMHW_VDBOX_PIPE_BUF_ADDR_PARAMS pipeBufAddrParams)
	{
	MOS_STATUS eStatus = MOS_STATUS_SUCCESS;

	CODECHAL_DECODE_FUNCTION_ENTER;

	CODECHAL_DECODE_CHK_NULL_RETURN(pipeBufAddrParams);
	CODECHAL_DECODE_CHK_NULL_RETURN(m_vp9State->m_vp9PicParams);
	auto picParams = m_vp9State->m_vp9PicParams;

	MOS_MEMCOMP_STATE mmcMode;

	// Disable MMC if self-reference is dectected for P/B frames (mainly for error concealment)
	if (((pipeBufAddrParams->PostDeblockSurfMmcState != MOS_MEMCOMP_DISABLED) \|\|
	(pipeBufAddrParams->PreDeblockSurfMmcState != MOS_MEMCOMP_DISABLED)) &&
	(picParams->PicFlags.fields.frame_type != CODEC_VP9_KEY_FRAME &&
	!picParams->PicFlags.fields.intra_only))
	{
	bool selfReference = false;
	if ((picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.LastRefIdx].FrameIdx) \|\|
	(picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.GoldenRefIdx].FrameIdx) \|\|
	(picParams->CurrPic.FrameIdx == picParams->RefFrameList[picParams->PicFlags.fields.AltRefIdx].FrameIdx))
	{
	selfReference = true;
	}

	if (selfReference)
	{
	pipeBufAddrParams->PostDeblockSurfMmcState = MOS_MEMCOMP_DISABLED;
	pipeBufAddrParams->PreDeblockSurfMmcState = MOS_MEMCOMP_DISABLED;
	CODECHAL_DECODE_ASSERTMESSAGE("Self-reference is detected for P/B frames!");

	// Decompress current frame to avoid green corruptions in this error handling case
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
	m_osInterface,
	&m_vp9State->m_destSurface.OsResource,
	&mmcMode));
	if (mmcMode != MOS_MEMCOMP_DISABLED)
	{
	m_osInterface->pfnDecompResource(m_osInterface, &m_vp9State->m_destSurface.OsResource);
	}
	}
	}

	// Do surface decompression to make sure the MMC states are consistent in the reference list
	MOS_MEMCOMP_STATE mmcModePrev = MOS_MEMCOMP_DISABLED;
	bool sameMmcStatus = true;
	bool firstRefPic = true;
	for (uint8_t i = 0; i < CODECHAL_MAX_CUR_NUM_REF_FRAME_VP9; i++)
	{
	if (pipeBufAddrParams->presReferences[i])
	{
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
	m_osInterface,
	pipeBufAddrParams->presReferences[i],
	&mmcMode));
	if (firstRefPic)
	{
	mmcModePrev = mmcMode;
	firstRefPic = false;
	}
	else if (mmcModePrev != mmcMode)
	{
	sameMmcStatus = false;
	break;
	}
	}
	}

	if(!sameMmcStatus)
	{
	for (uint8_t i = 0; i < CODECHAL_MAX_CUR_NUM_REF_FRAME_VP9; i++)
	{
	if (pipeBufAddrParams->presReferences[i])
	{
	CODECHAL_DECODE_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode(
	m_osInterface,
	pipeBufAddrParams->presReferences[i],
	&mmcMode));
	if(mmcMode != MOS_MEMCOMP_DISABLED)
	{
	m_osInterface->pfnDecompResource(
	m_osInterface,
	pipeBufAddrParams->presReferences[i]);
	}
	}
	}
	}

	return eStatus;
	}