/* * 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_decode_nv12top010.cpp //! \brief Implements the conversion from NV12 to P010 format. //! \details This file is for the base implemetation which is shared by all platforms. //! #include "codechal_decoder.h" #include "codechal_decode_nv12top010.h" #include "cm_surface_2d_rt.h" MOS_STATUS CodechalDecodeNV12ToP010::Init(PMOS_INTERFACE osInterface) { MOS_STATUS eStatus = MOS_STATUS_SUCCESS; CODECHAL_DECODE_FUNCTION_ENTER; CODECHAL_DECODE_CHK_NULL_RETURN(osInterface); m_osInterface = osInterface; uint32_t devCreateOption = CM_DEVICE_CREATE_OPTION_FOR_HEVC; devCreateOption &= (~CM_DEVICE_CONFIG_GPUCONTEXT_ENABLE); osInterface->pfnNotifyStreamIndexSharing(osInterface); CODECHAL_DECODE_CHK_STATUS_RETURN(osInterface->pfnCreateCmDevice( osInterface->pOsContext, m_cmDevice, devCreateOption, CM_DEVICE_CREATE_PRIORITY_DEFAULT)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateQueue( m_cmQueue)); CmProgram *nv12ToP010Program; CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->LoadProgram( (void *)m_nv12ToP010KernelBinary, m_nv12ToP010KernelSize, nv12ToP010Program, "-nojitter")); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateKernel( nv12ToP010Program, "NV12ToP010", m_cmKernel)); return eStatus; } MOS_STATUS CodechalDecodeNV12ToP010::Execute( PMOS_RESOURCE srcResource, PMOS_RESOURCE dstResource) { MOS_STATUS eStatus= MOS_STATUS_SUCCESS; CODECHAL_DECODE_FUNCTION_ENTER; CODECHAL_DECODE_CHK_NULL_RETURN(m_cmDevice); MOS_TraceEventExt(EVENT_CODEC_NV12ToP010, EVENT_TYPE_START, nullptr, 0, nullptr, 0); CmSurface2D *srcCmSurface2D = nullptr; CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateSurface2D(srcResource, srcCmSurface2D)); CODECHAL_DECODE_CHK_NULL_RETURN(srcCmSurface2D); CmSurface2D *dstCmSurface2D = nullptr; CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateSurface2D(dstResource, dstCmSurface2D)); CODECHAL_DECODE_CHK_NULL_RETURN(dstCmSurface2D); uint32_t surfaceWidth, surfaceHeight; MOS_FORMAT format; uint32_t sizePerPixel; CmSurface2DRT *surfaceRT = static_cast(srcCmSurface2D); surfaceRT->GetSurfaceDesc(surfaceWidth, surfaceHeight, format, sizePerPixel); SurfaceIndex *srcSurfaceIndex; CODECHAL_DECODE_CHK_STATUS_RETURN(srcCmSurface2D->GetIndex(srcSurfaceIndex)); SurfaceIndex *dstSurfaceIndex; CODECHAL_DECODE_CHK_STATUS_RETURN(dstCmSurface2D->GetIndex(dstSurfaceIndex)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateTask(m_cmTask)); CODECHAL_DECODE_CHK_NULL_RETURN(m_cmTask); uint32_t threadWidth = MOS_ALIGN_CEIL(surfaceWidth, 8) / 8; uint32_t threadHeight = MOS_ALIGN_CEIL(surfaceHeight, 16) / 16; CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmDevice->CreateThreadSpace( threadWidth, threadHeight, m_cmThreadSpace)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmKernel->SetThreadCount(threadWidth * threadHeight)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmKernel->AssociateThreadSpace(m_cmThreadSpace)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmKernel->SetKernelArg(0, sizeof(SurfaceIndex), srcSurfaceIndex)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmKernel->SetKernelArg(1, sizeof(SurfaceIndex), dstSurfaceIndex)); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmTask->AddSync()); CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmTask->AddKernel(m_cmKernel)); CmEvent *eventKernel; CODECHAL_DECODE_CHK_STATUS_RETURN(m_cmQueue->Enqueue( m_cmTask, eventKernel)); CODECHAL_DECODE_CHK_NULL_RETURN(eventKernel); eventKernel->WaitForTaskFinished(); if (srcCmSurface2D != nullptr) { m_cmDevice->DestroySurface(srcCmSurface2D); } if (dstCmSurface2D != nullptr) { m_cmDevice->DestroySurface(dstCmSurface2D); } MOS_TraceEventExt(EVENT_CODEC_NV12ToP010, EVENT_TYPE_END, &surfaceWidth, sizeof(uint32_t), &surfaceHeight, sizeof(uint32_t)); return eStatus; } CodechalDecodeNV12ToP010::~CodechalDecodeNV12ToP010() { CODECHAL_DECODE_FUNCTION_ENTER; CODECHAL_DECODE_CHK_NULL_NO_STATUS_RETURN(m_cmDevice); if (m_cmKernel != nullptr) { m_cmDevice->DestroyKernel(m_cmKernel); m_cmKernel = nullptr; } if (m_osInterface != nullptr) { m_osInterface->pfnDestroyCmDevice(m_cmDevice); } }