/* * 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.cpp //! \brief Impelements the public interface for CodecHal Media Memory Compression //! #include "codechal_hw.h" #include "codechal_mmc.h" CodecHalMmcState::CodecHalMmcState(CodechalHwInterface *hwInterface) { CODECHAL_HW_FUNCTION_ENTER; CODECHAL_HW_ASSERT(hwInterface); m_hwInterface = hwInterface; CODECHAL_HW_ASSERT(hwInterface->GetOsInterface()); m_osInterface = hwInterface->GetOsInterface(); CODECHAL_HW_ASSERT(hwInterface->GetSkuTable()); #ifdef _MMC_SUPPORTED m_hcpMmcEnabled = MEDIA_IS_SKU(hwInterface->GetSkuTable(), FtrHcpDecMemoryCompression); m_10bitMmcEnabled = MEDIA_IS_SKU(hwInterface->GetSkuTable(), Ftr10bitDecMemoryCompression); m_gpuMmuPageFaultEnabled = MEDIA_IS_SKU(hwInterface->GetSkuTable(), FtrGpuMmuPageFault); if (MEDIA_IS_SKU(hwInterface->GetSkuTable(), FtrMemoryCompression)) { MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); // read reg key of Codec MMC enabling. MMC default on. userFeatureData.i32Data = true; userFeatureData.i32DataFlag = MOS_USER_FEATURE_VALUE_DATA_FLAG_CUSTOM_DEFAULT_VALUE_TYPE; MOS_USER_FEATURE_VALUE_ID valueId = __MEDIA_USER_FEATURE_VALUE_CODEC_MMC_ENABLE_ID; MOS_UserFeature_ReadValue_ID( nullptr, valueId, &userFeatureData, m_osInterface->pOsContext); m_mmcEnabled = (userFeatureData.i32Data) ? true : false; // report in-use MOS_USER_FEATURE_VALUE_WRITE_DATA userFeatureWriteData; MOS_ZeroMemory(&userFeatureWriteData, sizeof(userFeatureWriteData)); userFeatureWriteData.Value.i32Data = m_mmcEnabled; userFeatureWriteData.ValueID = __MEDIA_USER_FEATURE_VALUE_CODEC_MMC_IN_USE_ID; MOS_UserFeature_WriteValues_ID(nullptr, &userFeatureWriteData, 1, m_osInterface->pOsContext); } #endif } bool CodecHalMmcState::IsMmcEnabled() { CODECHAL_HW_FUNCTION_ENTER; return m_mmcEnabled; } void CodecHalMmcState::SetMmcDisabled() { CODECHAL_HW_FUNCTION_ENTER; m_mmcEnabled = false; } MOS_STATUS CodecHalMmcState::GetSurfaceMmcState(PMOS_SURFACE surface) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; if (m_mmcEnabled) { CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode( m_osInterface, &surface->OsResource, (PMOS_MEMCOMP_STATE)&surface->CompressionMode)); } return eStatus; } MOS_STATUS CodecHalMmcState::GetSurfaceMmcState(PMOS_SURFACE surface,MOS_MEMCOMP_STATE *mmcState) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, surface); MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, mmcState); MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, m_osInterface); if (m_mmcEnabled) { CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode( m_osInterface, &surface->OsResource, (PMOS_MEMCOMP_STATE)&surface->CompressionMode)); *mmcState = (MOS_MEMCOMP_STATE)surface->CompressionMode; } else { *mmcState = MOS_MEMCOMP_DISABLED; } return eStatus; } MOS_STATUS CodecHalMmcState::GetSurfaceMmcFormat( PMOS_SURFACE surface, uint32_t *mmcFormat) { MOS_STATUS status = MOS_STATUS_SUCCESS; MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, surface); MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, mmcFormat); MOS_CHK_NULL_RETURN(MOS_COMPONENT_MMC, MOS_MMC_SUBCOMP_SELF, m_osInterface); if (m_mmcEnabled) { status = m_osInterface->pfnGetMemoryCompressionFormat(m_osInterface, &surface->OsResource, mmcFormat); } else { *mmcFormat = 0; } return status; } MOS_STATUS CodecHalMmcState:: DisableSurfaceMmcState(PMOS_SURFACE surface) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnSetMemoryCompressionMode( m_osInterface, &surface->OsResource, MOS_MEMCOMP_DISABLED)); return eStatus; } MOS_STATUS CodecHalMmcState::SetSurfaceMmcMode( PMOS_SURFACE dstSurface, PMOS_SURFACE srcSurface) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; if (m_mmcEnabled) { if (srcSurface->CompressionMode == MOS_MMC_DISABLED) { CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnSetMemoryCompressionMode( m_osInterface, &dstSurface->OsResource, MOS_MEMCOMP_DISABLED)); dstSurface->CompressionMode = MOS_MMC_DISABLED; } else { if (dstSurface->bCompressible) { CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnSetMemoryCompressionMode( m_osInterface, &dstSurface->OsResource, (MOS_MEMCOMP_STATE)srcSurface->CompressionMode)); dstSurface->CompressionMode = srcSurface->CompressionMode; } else { m_osInterface->pfnDecompResource(m_osInterface, &srcSurface->OsResource); CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnSetMemoryCompressionMode( m_osInterface, &dstSurface->OsResource, MOS_MEMCOMP_DISABLED)); dstSurface->CompressionMode = MOS_MMC_DISABLED; } } } return eStatus; } MOS_STATUS CodecHalMmcState::SetSurfaceParams( PCODECHAL_SURFACE_CODEC_PARAMS surfaceParams) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; if (m_mmcEnabled) { CODECHAL_HW_CHK_NULL_RETURN(surfaceParams->psSurface); CODECHAL_HW_CHK_STATUS_RETURN(m_osInterface->pfnGetMemoryCompressionMode( m_osInterface, &surfaceParams->psSurface->OsResource, (PMOS_MEMCOMP_STATE) &surfaceParams->psSurface->CompressionMode)); // R8_UNORM is required by MMCD. For 4x downscaling, the input surface could be MMCD-compressed. if (surfaceParams->psSurface->CompressionMode != MOS_MMC_DISABLED) { surfaceParams->bUse32UnormSurfaceFormat = false; surfaceParams->bUse16UnormSurfaceFormat = false; } } return eStatus; } #if (_DEBUG || _RELEASE_INTERNAL) MOS_STATUS CodecHalMmcState::UpdateUserFeatureKey(PMOS_SURFACE surface) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_HW_FUNCTION_ENTER; CODECHAL_HW_CHK_NULL_RETURN(surface); #ifdef _MMC_SUPPORTED if (!m_userFeatureUpdated) { MOS_USER_FEATURE_VALUE_WRITE_DATA userFeatureWriteData; userFeatureWriteData = __NULL_USER_FEATURE_VALUE_WRITE_DATA__; userFeatureWriteData.Value.i32Data = surface->bCompressible; userFeatureWriteData.ValueID = (MOS_USER_FEATURE_VALUE_ID)m_compressibleId; MOS_UserFeature_WriteValues_ID(nullptr, &userFeatureWriteData, 1, m_osInterface->pOsContext); userFeatureWriteData = __NULL_USER_FEATURE_VALUE_WRITE_DATA__; userFeatureWriteData.Value.i32Data = surface->MmcState; userFeatureWriteData.ValueID = (MOS_USER_FEATURE_VALUE_ID)m_compressModeId; MOS_UserFeature_WriteValues_ID(nullptr, &userFeatureWriteData, 1, m_osInterface->pOsContext); m_userFeatureUpdated = true; } #endif return eStatus; } #endif