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fuchsia / third_party / github.com / intel / media-driver / b269bc099479d870f05ed35ab3da1b71c783f318 / . / media_driver / agnostic / common / codec / hal / codechal_encode_sw_scoreboard.cpp
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/*
* 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 codechal_encode_sw_scoreboard.cpp
//! \brief Defines base class for SW scoreboard init kernel
//!
#include "codechal_encoder_base.h"
#include "codechal_encode_sw_scoreboard.h"
#include "codeckrnheader.h"
#include "hal_oca_interface.h"
MOS_STATUS CodechalEncodeSwScoreboard::AllocateResources()
{
CODECHAL_ENCODE_FUNCTION_ENTER;
MOS_STATUS eStatus = MOS_STATUS_SUCCESS;
if (Mos_ResourceIsNull(&m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].OsResource))
{
MOS_ZeroMemory(&m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex], sizeof(MOS_SURFACE));
MOS_ALLOC_GFXRES_PARAMS allocParamsForBuffer2D;
MOS_ZeroMemory(&allocParamsForBuffer2D, sizeof(MOS_ALLOC_GFXRES_PARAMS));
allocParamsForBuffer2D.Type = MOS_GFXRES_2D;
allocParamsForBuffer2D.TileType = MOS_TILE_LINEAR;
allocParamsForBuffer2D.Format = Format_R32U;
allocParamsForBuffer2D.dwWidth = m_surfaceParams.swScoreboardSurfaceWidth;
allocParamsForBuffer2D.dwHeight = m_surfaceParams.swScoreboardSurfaceHeight;
allocParamsForBuffer2D.pBufName = "SW scoreboard init Buffer";
MEDIA_WA_TABLE* waTable = m_osInterface->pfnGetWaTable(m_osInterface);
if (MEDIA_IS_WA(waTable, WaForceAllocateLML4))
{
// If L4-PCIe WA is enabled, allocate in device memory
// And do not let CPU write to device memory later below
allocParamsForBuffer2D.dwMemType = MOS_MEMPOOL_DEVICEMEMORY;
}
CODECHAL_ENCODE_CHK_STATUS_MESSAGE_RETURN(m_osInterface->pfnAllocateResource(
m_osInterface,
&allocParamsForBuffer2D,
&m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].OsResource),
"Failed to allocate SW scoreboard init Buffer.");
CODECHAL_ENCODE_CHK_STATUS_RETURN(CodecHalGetResourceInfo(m_osInterface,
&m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex]));
if (!MEDIA_IS_WA(waTable, WaForceAllocateLML4))
{
MOS_LOCK_PARAMS lockFlagsWriteOnly;
MOS_ZeroMemory(&lockFlagsWriteOnly, sizeof(MOS_LOCK_PARAMS));
lockFlagsWriteOnly.WriteOnly = 1;
uint8_t* pData = (uint8_t*)m_osInterface->pfnLockResource(
m_osInterface,
&m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].OsResource,
&lockFlagsWriteOnly);
if (pData == nullptr)
{
CODECHAL_ENCODE_ASSERTMESSAGE("Failed to Lock SW scoreboard init Buffer");
eStatus = MOS_STATUS_UNKNOWN;
return eStatus;
}
uint32_t size =
m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].dwPitch *
m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].dwHeight;
MOS_ZeroMemory(pData, size);
m_osInterface->pfnUnlockResource(
m_osInterface, &m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex].OsResource);
}
}
return eStatus;
}
void CodechalEncodeSwScoreboard::ReleaseResources()
{
for (auto i = 0; i < CODECHAL_ENCODE_SW_SCOREBOARD_SURFACE_NUM; i++)
{
if (!Mos_ResourceIsNull(&m_surfaceParams.swScoreboardSurface[i].OsResource))
{
m_osInterface->pfnFreeResource(
m_osInterface,
&m_surfaceParams.swScoreboardSurface[i].OsResource);
}
}
}
uint8_t CodechalEncodeSwScoreboard::GetBTCount()
{
return (uint8_t)swScoreboardNumSurfaces;
}
MOS_STATUS CodechalEncodeSwScoreboard::SetCurbe()
{
CODECHAL_ENCODE_FUNCTION_ENTER;
MOS_STATUS eStatus = MOS_STATUS_SUCCESS;
CurbeData curbe;
MOS_ZeroMemory(&curbe, sizeof(CurbeData));
// ScoreboardWidth and Height in units of Thread Space
curbe.DW0.scoreboardWidth = m_curbeParams.scoreboardWidth;
curbe.DW0.scoreboardHeight = m_curbeParams.scoreboardHeight;
curbe.DW1.isHevc = m_curbeParams.isHevc;
curbe.DW2.numberOfWaveFrontsSplits = m_curbeParams.numberOfWaveFrontSplit;
curbe.DW2.numberofChildThreads = m_curbeParams.numberOfChildThread;
curbe.DW4.dependencyPattern = m_dependencyPatternIdx;
curbe.DW16.softwareScoreboard = swScoreboardInitSurface;
curbe.DW17.lcuInfoSurface = swScoreboardInitLcuInfoSurface;
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_kernelState->m_dshRegion.AddData(
&curbe,
m_kernelState->dwCurbeOffset,
sizeof(curbe)));
return eStatus;
}
MOS_STATUS CodechalEncodeSwScoreboard::SendSurface(PMOS_COMMAND_BUFFER cmdBuffer)
{
MOS_STATUS eStatus = MOS_STATUS_SUCCESS;
CODECHAL_ENCODE_FUNCTION_ENTER;
CODECHAL_ENCODE_CHK_NULL_RETURN(cmdBuffer);
// Set Surface States
CODECHAL_SURFACE_CODEC_PARAMS surfaceCodecParams;
MOS_ZeroMemory(&surfaceCodecParams, sizeof(surfaceCodecParams));
surfaceCodecParams.bIs2DSurface = true;
surfaceCodecParams.bMediaBlockRW = true;
surfaceCodecParams.bIsWritable = true;
surfaceCodecParams.bRenderTarget = true;
surfaceCodecParams.psSurface = &m_surfaceParams.swScoreboardSurface[m_surfaceParams.surfaceIndex];
surfaceCodecParams.dwCacheabilityControl = m_hwInterface->GetCacheabilitySettings()[MOS_CODEC_RESOURCE_USAGE_SURFACE_SOFTWARE_SCOREBOARD_ENCODE].Value;
surfaceCodecParams.dwBindingTableOffset = swScoreboardInitSurface;
surfaceCodecParams.bUse32UINTSurfaceFormat = true;
CODECHAL_ENCODE_CHK_STATUS_RETURN(CodecHalSetRcsSurfaceState(
m_hwInterface,
cmdBuffer,
&surfaceCodecParams,
m_kernelState));
if (m_surfaceParams.lcuInfoSurface)
{
MOS_ZeroMemory(&surfaceCodecParams, sizeof(surfaceCodecParams));
surfaceCodecParams.bIs2DSurface = true;
surfaceCodecParams.bMediaBlockRW = true;
surfaceCodecParams.bIsWritable = true;
surfaceCodecParams.bRenderTarget = true;
surfaceCodecParams.psSurface = m_surfaceParams.lcuInfoSurface;
surfaceCodecParams.dwBindingTableOffset = swScoreboardInitLcuInfoSurface;
surfaceCodecParams.bUse32UINTSurfaceFormat = true;
CODECHAL_ENCODE_CHK_STATUS_RETURN(CodecHalSetRcsSurfaceState(
m_hwInterface,
cmdBuffer,
&surfaceCodecParams,
m_kernelState));
}
return eStatus;
}
MOS_STATUS CodechalEncodeSwScoreboard::Execute(KernelParams *params)
{
MOS_STATUS eStatus = MOS_STATUS_SUCCESS;
CODECHAL_ENCODE_FUNCTION_ENTER;
CODECHAL_ENCODE_CHK_NULL_RETURN(params);
PerfTagSetting perfTag;
CODECHAL_ENCODE_SET_PERFTAG_INFO(perfTag, CODECHAL_ENCODE_PERFTAG_CALL_SCOREBOARD);
// Allocate output surface
m_surfaceParams.isHevc = params->isHevc;
m_surfaceParams.swScoreboardSurfaceWidth = params->swScoreboardSurfaceWidth;
m_surfaceParams.swScoreboardSurfaceHeight = params->swScoreboardSurfaceHeight;
if (m_surfaceParams.isHevc)
{
m_surfaceParams.lcuInfoSurface = params->lcuInfoSurface;
}
CODECHAL_ENCODE_CHK_STATUS_RETURN(AllocateResources());
// If Single Task Phase is not enabled, use BT count for the kernel state.
if (m_firstTaskInPhase == true || !m_singleTaskPhaseSupported)
{
auto maxBtCount = m_singleTaskPhaseSupported ?
m_maxBtCount : m_kernelState->KernelParams.iBTCount;
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_stateHeapInterface->RequestSshSpaceForCmdBuf(maxBtCount));
m_vmeStatesSize = m_hwInterface->GetKernelLoadCommandSize(maxBtCount);
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_encoder->VerifySpaceAvailable());
}
// setup DSH and Interface Descriptor
auto stateHeapInterface = m_renderInterface->m_stateHeapInterface;
CODECHAL_ENCODE_CHK_NULL_RETURN(stateHeapInterface);
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_hwInterface->AssignDshAndSshSpace(
stateHeapInterface,
m_kernelState,
false,
0,
false,
m_storeData));
MHW_INTERFACE_DESCRIPTOR_PARAMS idParams;
MOS_ZeroMemory(&idParams, sizeof(idParams));
idParams.pKernelState = m_kernelState;
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_stateHeapInterface->SetInterfaceDescriptor(1, &idParams));
// Setup Curbe
m_curbeParams.scoreboardWidth = params->scoreboardWidth;
m_curbeParams.scoreboardHeight = params->scoreboardHeight;
m_curbeParams.isHevc = params->isHevc;
m_curbeParams.numberOfWaveFrontSplit = params->numberOfWaveFrontSplit;
m_curbeParams.numberOfChildThread = params->numberOfChildThread;
CODECHAL_ENCODE_CHK_STATUS_RETURN(SetCurbe());
CODECHAL_MEDIA_STATE_TYPE encFunctionType = CODECHAL_MEDIA_STATE_SW_SCOREBOARD_INIT;
CODECHAL_DEBUG_TOOL(
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpKernelRegion(
encFunctionType,
MHW_DSH_TYPE,
m_kernelState));
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpCurbe(
encFunctionType,
m_kernelState));
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpKernelRegion(
encFunctionType,
MHW_ISH_TYPE,
m_kernelState));
)
MOS_COMMAND_BUFFER cmdBuffer;
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_osInterface->pfnGetCommandBuffer(m_osInterface, &cmdBuffer, 0));
SendKernelCmdsParams sendKernelCmdsParams = SendKernelCmdsParams();
sendKernelCmdsParams.EncFunctionType = encFunctionType;
sendKernelCmdsParams.pKernelState = m_kernelState;
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_encoder->SendGenericKernelCmds(&cmdBuffer, &sendKernelCmdsParams));
// add binding table
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_stateHeapInterface->SetBindingTable(m_kernelState));
// send surfaces
CODECHAL_ENCODE_CHK_STATUS_RETURN(SendSurface(&cmdBuffer));
CODECHAL_DEBUG_TOOL(
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpKernelRegion(
encFunctionType,
MHW_SSH_TYPE,
m_kernelState));
)
// Thread Dispatch Pattern - MEDIA OBJECT WALKER
CODECHAL_WALKER_CODEC_PARAMS walkerCodecParams;
MOS_ZeroMemory(&walkerCodecParams, sizeof(walkerCodecParams));
walkerCodecParams.WalkerMode = m_walkerMode;
walkerCodecParams.dwResolutionX = (uint32_t)(ceil)((m_curbeParams.scoreboardWidth) / 4.0);
walkerCodecParams.dwResolutionY = (uint32_t)(ceil)((m_curbeParams.scoreboardHeight) / 4.0);
walkerCodecParams.bNoDependency = true;
walkerCodecParams.bGroupIdSelectSupported = m_groupIdSelectSupported;
MHW_WALKER_PARAMS walkerParams;
CODECHAL_ENCODE_CHK_STATUS_RETURN(CodecHalInitMediaObjectWalkerParams(m_hwInterface, &walkerParams, &walkerCodecParams));
HalOcaInterface::TraceMessage(cmdBuffer, *m_osInterface->pOsContext, __FUNCTION__, sizeof(__FUNCTION__));
HalOcaInterface::OnDispatch(cmdBuffer, *m_osInterface->pOsContext, *m_miInterface, *m_renderInterface->GetMmioRegisters());
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_renderInterface->AddMediaObjectWalkerCmd(&cmdBuffer, &walkerParams));
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_encoder->EndStatusReport(&cmdBuffer, encFunctionType));
CODECHAL_DEBUG_TOOL(
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpKernelRegion(
encFunctionType,
MHW_SSH_TYPE,
m_kernelState));
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpCmdBuffer(
&cmdBuffer,
encFunctionType,
nullptr));
)
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_stateHeapInterface->SubmitBlocks(m_kernelState));
if (!m_singleTaskPhaseSupported || m_lastTaskInPhase)
{
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_stateHeapInterface->UpdateGlobalCmdBufId());
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_miInterface->AddMiBatchBufferEnd(&cmdBuffer, nullptr));
}
CODECHAL_DEBUG_TOOL(CODECHAL_ENCODE_CHK_STATUS_RETURN(m_debugInterface->DumpCmdBuffer(
&cmdBuffer,
encFunctionType,
nullptr)));
CODECHAL_ENCODE_CHK_STATUS_RETURN(m_hwInterface->UpdateSSEuForCmdBuffer(
&cmdBuffer, m_singleTaskPhaseSupported, m_lastTaskInPhase));
m_osInterface->pfnReturnCommandBuffer(m_osInterface, &cmdBuffer, 0);
if (!m_singleTaskPhaseSupported || m_lastTaskInPhase)
{
HalOcaInterface::On1stLevelBBEnd(cmdBuffer, *m_osInterface);
m_osInterface->pfnSubmitCommandBuffer(m_osInterface, &cmdBuffer, m_renderContextUsesNullHw);
m_lastTaskInPhase = false;
}
return eStatus;
}
CodechalEncodeSwScoreboard::CodechalEncodeSwScoreboard(CodechalEncoderState *encoder)
: m_useHwScoreboard(encoder->m_useHwScoreboard),
m_renderContextUsesNullHw(encoder->m_renderContextUsesNullHw),
m_groupIdSelectSupported(encoder->m_groupIdSelectSupported),
m_singleTaskPhaseSupported(encoder->m_singleTaskPhaseSupported),
m_firstTaskInPhase(encoder->m_firstTaskInPhase),
m_lastTaskInPhase(encoder->m_lastTaskInPhase),
m_groupId(encoder->m_groupId),
m_pictureCodingType(encoder->m_pictureCodingType),
m_mode(encoder->m_mode),
m_verticalLineStride(encoder->m_verticalLineStride),
m_maxBtCount(encoder->m_maxBtCount),
m_vmeStatesSize(encoder->m_vmeStatesSize),
m_storeData(encoder->m_storeData),
m_walkerMode(encoder->m_walkerMode)
{
CODECHAL_ENCODE_CHK_NULL_NO_STATUS_RETURN(encoder);
// Initilize interface pointers
m_encoder = encoder;
m_osInterface = encoder->GetOsInterface();
m_hwInterface = encoder->GetHwInterface();
m_debugInterface = encoder->GetDebugInterface();
m_miInterface = m_hwInterface->GetMiInterface();
m_renderInterface = m_hwInterface->GetRenderInterface();
m_stateHeapInterface = m_renderInterface->m_stateHeapInterface->pStateHeapInterface;
m_curbeLength = sizeof(CurbeData);
m_kernelBase = encoder->m_kernelBase;
m_kuidCommon = IDR_CODEC_HME_DS_SCOREBOARD_KERNEL;
}
CodechalEncodeSwScoreboard::~CodechalEncodeSwScoreboard()
{
// free SW scoreboard init surface
ReleaseResources();
if (m_kernelState)
{
MOS_Delete(m_kernelState);
m_kernelState = nullptr;
}
}