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fuchsia / third_party / github.com / intel / media-driver / 679657996f6a455d00c68f739431c5a95c16fe1f / . / media_driver / linux / common / os / mos_graphicsresource_specific.cpp
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/*
* Copyright (c) 2017-2018, 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 mos_graphicsresource_specific.cpp
//! \brief Container class for the linux/Android specfic graphic resource
//!
#include "mos_defs.h"
#include "mos_util_debug.h"
#include "mos_graphicsresource_specific.h"
#include "mos_context_specific.h"
#include "memory_policy_manager.h"
GraphicsResourceSpecific::GraphicsResourceSpecific()
{
MOS_OS_FUNCTION_ENTER;
}
GraphicsResourceSpecific::~GraphicsResourceSpecific()
{
MOS_OS_FUNCTION_ENTER;
}
MOS_STATUS GraphicsResourceSpecific::SetSyncTag(OsContext* osContextPtr, SyncParams& params, uint32_t streamIndex)
{
MOS_UNUSED(osContextPtr);
MOS_UNUSED(params);
MOS_UNUSED(streamIndex);
return MOS_STATUS_SUCCESS;
}
bool GraphicsResourceSpecific::ResourceIsNull()
{
return ((m_bo == nullptr)
#if (_DEBUG || _RELEASE_INTERNAL)
&& ((m_pData == nullptr) )
#endif // (_DEBUG || _RELEASE_INTERNAL)
);
}
GMM_RESOURCE_FORMAT GraphicsResourceSpecific::ConvertMosFmtToGmmFmt(MOS_FORMAT format)
{
switch (format)
{
case Format_Buffer : return GMM_FORMAT_GENERIC_8BIT;
case Format_Buffer_2D : return GMM_FORMAT_GENERIC_8BIT;
case Format_L8 : return GMM_FORMAT_GENERIC_8BIT;
case Format_L16 : return GMM_FORMAT_L16_UNORM_TYPE;
case Format_STMM : return GMM_FORMAT_R8_UNORM_TYPE;
case Format_AI44 : return GMM_FORMAT_GENERIC_8BIT;
case Format_IA44 : return GMM_FORMAT_GENERIC_8BIT;
case Format_R5G6B5 : return GMM_FORMAT_B5G6R5_UNORM_TYPE;
case Format_X8R8G8B8 : return GMM_FORMAT_B8G8R8X8_UNORM_TYPE;
case Format_A8R8G8B8 : return GMM_FORMAT_B8G8R8A8_UNORM_TYPE;
case Format_X8B8G8R8 : return GMM_FORMAT_R8G8B8X8_UNORM_TYPE;
case Format_A8B8G8R8 : return GMM_FORMAT_R8G8B8A8_UNORM_TYPE;
case Format_R32F : return GMM_FORMAT_R32_FLOAT_TYPE;
case Format_V8U8 : return GMM_FORMAT_GENERIC_16BIT; // matching size as format
case Format_YUY2 : return GMM_FORMAT_YUY2;
case Format_UYVY : return GMM_FORMAT_UYVY;
case Format_P8 : return GMM_FORMAT_RENDER_8BIT_TYPE; // matching size as format
case Format_A8 : return GMM_FORMAT_A8_UNORM_TYPE;
case Format_AYUV : return GMM_FORMAT_R8G8B8A8_UINT_TYPE;
case Format_NV12 : return GMM_FORMAT_NV12_TYPE;
case Format_NV21 : return GMM_FORMAT_NV21_TYPE;
case Format_YV12 : return GMM_FORMAT_YV12_TYPE;
case Format_R32U : return GMM_FORMAT_R32_UINT_TYPE;
case Format_R32S : return GMM_FORMAT_R32_SINT_TYPE;
case Format_RAW : return GMM_FORMAT_GENERIC_8BIT;
case Format_444P : return GMM_FORMAT_MFX_JPEG_YUV444_TYPE;
case Format_422H : return GMM_FORMAT_MFX_JPEG_YUV422H_TYPE;
case Format_422V : return GMM_FORMAT_MFX_JPEG_YUV422V_TYPE;
case Format_IMC3 : return GMM_FORMAT_IMC3_TYPE;
case Format_411P : return GMM_FORMAT_MFX_JPEG_YUV411_TYPE;
case Format_411R : return GMM_FORMAT_MFX_JPEG_YUV411R_TYPE;
case Format_RGBP : return GMM_FORMAT_RGBP_TYPE;
case Format_BGRP : return GMM_FORMAT_BGRP_TYPE;
case Format_R8U : return GMM_FORMAT_R8_UINT_TYPE;
case Format_R8UN : return GMM_FORMAT_R8_UNORM;
case Format_R16U : return GMM_FORMAT_R16_UINT_TYPE;
case Format_R16F : return GMM_FORMAT_R16_FLOAT_TYPE;
case Format_P010 : return GMM_FORMAT_P010_TYPE;
case Format_P016 : return GMM_FORMAT_P016_TYPE;
case Format_Y216 : return GMM_FORMAT_Y216_TYPE;
case Format_Y416 : return GMM_FORMAT_Y416_TYPE;
case Format_P208 : return GMM_FORMAT_P208_TYPE;
case Format_A16B16G16R16: return GMM_FORMAT_R16G16B16A16_UNORM_TYPE;
case Format_Y210 : return GMM_FORMAT_Y210_TYPE;
case Format_Y410 : return GMM_FORMAT_Y410_TYPE;
case Format_R10G10B10A2 : return GMM_FORMAT_R10G10B10A2_UNORM_TYPE;
case Format_A16B16G16R16F: return GMM_FORMAT_R16G16B16A16_FLOAT;
case Format_R32G32B32A32F: return GMM_FORMAT_R32G32B32A32_FLOAT;
default : return GMM_FORMAT_INVALID;
}
}
MOS_STATUS GraphicsResourceSpecific::Allocate(OsContext* osContextPtr, CreateParams& params)
{
MOS_OS_FUNCTION_ENTER;
if (osContextPtr == nullptr)
{
MOS_OS_ASSERTMESSAGE("Unable to get the active OS context.");
return MOS_STATUS_INVALID_HANDLE;
}
if (osContextPtr->GetOsContextValid() == false)
{
MOS_OS_ASSERTMESSAGE("The OS context got is not valid.");
return MOS_STATUS_INVALID_HANDLE;
}
OsContextSpecific *pOsContextSpecific = static_cast<OsContextSpecific *>(osContextPtr);
if (pOsContextSpecific == nullptr)
{
MOS_OS_ASSERTMESSAGE("Convert OsContextSpecific failed.");
return MOS_STATUS_INVALID_HANDLE;
}
MOS_STATUS status = MOS_STATUS_SUCCESS;
uint32_t tileFormatLinux = I915_TILING_NONE;
uint32_t alignedHeight = params.m_height;
uint32_t bufHeight = params.m_height;
GMM_RESOURCE_TYPE resourceType = RESOURCE_2D;
int mem_type = MOS_MEMPOOL_VIDEOMEMORY;
GMM_RESCREATE_PARAMS gmmParams;
MOS_ZeroMemory(&gmmParams, sizeof(gmmParams));
switch (params.m_type)
{
case MOS_GFXRES_BUFFER:
case MOS_GFXRES_SCRATCH:
gmmParams.Type = RESOURCE_BUFFER;
gmmParams.Flags.Gpu.State = true;
alignedHeight = 1;
break;
case MOS_GFXRES_2D:
gmmParams.Type = RESOURCE_2D;
gmmParams.Flags.Gpu.Video = true;
break;
case MOS_GFXRES_VOLUME:
gmmParams.Type = RESOURCE_3D;
gmmParams.Flags.Gpu.Video = true;
gmmParams.Depth = params.m_depth;
break;
default:
MOS_OS_ASSERTMESSAGE("Unknown surface type");
return MOS_STATUS_UNKNOWN;
}
// Create GmmResourceInfo
gmmParams.Format = ConvertMosFmtToGmmFmt(params.m_format);
if (gmmParams.Format == GMM_FORMAT_INVALID)
{
MOS_OS_ASSERTMESSAGE("Unsupported format");
return MOS_STATUS_UNIMPLEMENTED;
}
gmmParams.BaseWidth = params.m_width;
gmmParams.BaseHeight = alignedHeight;
gmmParams.ArraySize = 1;
MOS_TILE_TYPE tileformat = params.m_tileType;
switch (tileformat)
{
case MOS_TILE_Y:
tileFormatLinux = I915_TILING_Y;
if (params.m_isCompressible && MEDIA_IS_SKU(pOsContextSpecific->GetSkuTable(), FtrE2ECompression))
{
gmmParams.Flags.Gpu.MMC = true;
gmmParams.Flags.Info.MediaCompressed = 1;
gmmParams.Flags.Gpu.CCS = 1;
gmmParams.Flags.Gpu.RenderTarget = 1;
gmmParams.Flags.Gpu.UnifiedAuxSurface = 1;
if(MEDIA_IS_SKU(pOsContextSpecific->GetSkuTable(), FtrFlatPhysCCS))
{
gmmParams.Flags.Gpu.UnifiedAuxSurface = 0;
}
}
break;
case MOS_TILE_X:
gmmParams.Flags.Info.TiledX = true;
tileFormatLinux = I915_TILING_X;
break;
default:
gmmParams.Flags.Info.Linear = true;
tileFormatLinux = I915_TILING_NONE;
}
if (nullptr != params.m_pSystemMemory)
{
// If user provides a system memory pointer, the gfx resource is backed
// by the system memory pages. The resource is required to be linear.
gmmParams.Flags.Info.Linear = true;
gmmParams.Flags.Info.Cacheable = true;
gmmParams.NoGfxMemory = true;
GMM_RESOURCE_INFO *tmpGmmResInfoPtr = pOsContextSpecific
->GetGmmClientContext()->CreateResInfoObject(&gmmParams);
if (tmpGmmResInfoPtr == nullptr)
{
MOS_OS_ASSERTMESSAGE("Create GmmResInfo failed");
return MOS_STATUS_UNKNOWN;
}
gmmParams.ExistingSysMemSize = GFX_ULONG_CAST(tmpGmmResInfoPtr->GetSizeSurface());
gmmParams.pExistingSysMem = (GMM_VOIDPTR64)params.m_pSystemMemory;
gmmParams.NoGfxMemory = false;
gmmParams.Flags.Info.ExistingSysMem = true;
pOsContextSpecific->GetGmmClientContext()
->DestroyResInfoObject(tmpGmmResInfoPtr);
}
else
{
gmmParams.Flags.Info.LocalOnly = MEDIA_IS_SKU(pOsContextSpecific->GetSkuTable(), FtrLocalMemory);
}
GMM_RESOURCE_INFO* gmmResourceInfoPtr = pOsContextSpecific->GetGmmClientContext()->CreateResInfoObject(&gmmParams);
if (gmmResourceInfoPtr == nullptr)
{
MOS_OS_ASSERTMESSAGE("Get gmmResourceInfoPtr failed.");
return MOS_STATUS_INVALID_PARAMETER;
}
switch (gmmResourceInfoPtr->GetTileType())
{
case GMM_TILED_X:
tileformat = MOS_TILE_X;
tileFormatLinux = I915_TILING_X;
break;
case GMM_TILED_Y:
tileformat = MOS_TILE_Y;
tileFormatLinux = I915_TILING_Y;
break;
case GMM_NOT_TILED:
tileformat = MOS_TILE_LINEAR;
tileFormatLinux = I915_TILING_NONE;
break;
default:
tileformat = MOS_TILE_Y;
tileFormatLinux = I915_TILING_Y;
break;
}
if (params.m_tileType== MOS_TILE_Y)
{
gmmResourceInfoPtr->SetMmcMode((GMM_RESOURCE_MMC_INFO)params.m_compressionMode, 0);
}
uint32_t bufPitch = GFX_ULONG_CAST(gmmResourceInfoPtr->GetRenderPitch());
uint32_t bufSize = GFX_ULONG_CAST(gmmResourceInfoPtr->GetSizeSurface());
bufHeight = gmmResourceInfoPtr->GetBaseHeight();
unsigned long linuxPitch = 0;
MOS_LINUX_BO* boPtr = nullptr;
char bufName[m_maxBufNameLength];
MOS_SecureStrcpy(bufName, m_maxBufNameLength, params.m_name.c_str());
if(!params.m_pSystemMemory)
{
MemoryPolicyParameter memPolicyPar;
MOS_ZeroMemory(&memPolicyPar, sizeof(MemoryPolicyParameter));
memPolicyPar.skuTable = pOsContextSpecific->GetSkuTable();
memPolicyPar.waTable = pOsContextSpecific->GetWaTable();
memPolicyPar.resInfo = gmmResourceInfoPtr;
memPolicyPar.resName = params.m_name.c_str();
memPolicyPar.preferredMemType = params.m_memType;
mem_type = MemoryPolicyManager::UpdateMemoryPolicy(&memPolicyPar);
}
MOS_TraceEventExt(EVENT_RESOURCE_ALLOCATE, EVENT_TYPE_START, nullptr, 0, nullptr, 0);
if (nullptr != params.m_pSystemMemory)
{
boPtr = mos_bo_alloc_userptr(pOsContextSpecific->m_bufmgr,
bufName,
params.m_pSystemMemory,
tileFormatLinux,
bufPitch,
bufSize,
0);
}
// Only Linear and Y TILE supported
else if (tileFormatLinux == I915_TILING_NONE)
{
boPtr = mos_bo_alloc(pOsContextSpecific->m_bufmgr, bufName, bufSize, 4096, mem_type);
}
else
{
boPtr = mos_bo_alloc_tiled(pOsContextSpecific->m_bufmgr,
bufName,
bufPitch,
bufSize/bufPitch,
1,
&tileFormatLinux,
&linuxPitch,
0,
mem_type);
bufPitch = (uint32_t)linuxPitch;
}
m_mapped = false;
if (boPtr)
{
m_format = params.m_format;
m_width = params.m_width;
m_height = bufHeight;
m_pitch = bufPitch;
m_count = 0;
m_bo = boPtr;
m_name = params.m_name;
m_pData = (uint8_t*) boPtr->virt;
m_gmmResInfo = gmmResourceInfoPtr;
m_mapped = false;
m_mmapOperation = MOS_MMAP_OPERATION_NONE;
m_arraySize = 1;
m_depth = MOS_MAX(1, gmmResourceInfoPtr->GetBaseDepth());
m_size = (uint32_t)gmmResourceInfoPtr->GetSizeSurface();
m_tileType = tileformat;
m_tileModeGMM = (MOS_TILE_MODE_GMM)gmmResourceInfoPtr->GetTileModeSurfaceState();
m_isGMMTileEnabled = true;
m_compressible = gmmParams.Flags.Gpu.MMC ?
(gmmResourceInfoPtr->GetMmcHint(0) == GMM_MMC_HINT_ON) : false;
m_isCompressed = gmmResourceInfoPtr->IsMediaMemoryCompressed(0);
m_compressionMode = (MOS_RESOURCE_MMC_MODE)gmmResourceInfoPtr->GetMmcMode(0);
MOS_OS_VERBOSEMESSAGE("Alloc %7d bytes (%d x %d resource).",bufSize, params.m_width, bufHeight);
struct {
uint32_t m_handle;
uint32_t m_resFormat;
uint32_t m_baseWidth;
uint32_t m_baseHeight;
uint32_t m_pitch;
uint32_t m_size;
uint32_t m_resTileType;
GMM_RESOURCE_FLAG m_resFlag;
uint32_t m_reserve;
} eventData;
eventData.m_handle = boPtr->handle;
eventData.m_baseWidth = m_width;
eventData.m_baseHeight = m_height;
eventData.m_pitch = m_pitch;
eventData.m_size = m_size;
eventData.m_resFormat = m_format;
eventData.m_resTileType = m_tileType;
eventData.m_resFlag = gmmResourceInfoPtr->GetResFlags();
eventData.m_reserve = 0;
MOS_TraceEventExt(EVENT_RESOURCE_ALLOCATE,
EVENT_TYPE_INFO,
&eventData,
sizeof(eventData),
params.m_name.c_str(),
params.m_name.size() + 1);
}
else
{
MOS_OS_ASSERTMESSAGE("Fail to Alloc %7d bytes (%d x %d resource).",bufSize, params.m_width, params.m_height);
status = MOS_STATUS_NO_SPACE;
}
MOS_TraceEventExt(EVENT_RESOURCE_ALLOCATE, EVENT_TYPE_END, &status, sizeof(status), nullptr, 0);
m_memAllocCounterGfx++;
return status;
}
void GraphicsResourceSpecific::Free(OsContext* osContextPtr, uint32_t freeFlag)
{
MOS_OS_FUNCTION_ENTER;
MOS_UNUSED(osContextPtr);
MOS_UNUSED(freeFlag);
OsContextSpecific *pOsContextSpecific = static_cast<OsContextSpecific *>(osContextPtr);
MOS_LINUX_BO* boPtr = m_bo;
if (boPtr)
{
AuxTableMgr *auxTableMgr = pOsContextSpecific->GetAuxTableMgr();
if (auxTableMgr)
{
auxTableMgr->UnmapResource(m_gmmResInfo, boPtr);
}
mos_bo_unreference(boPtr);
m_bo = nullptr;
if (nullptr != m_gmmResInfo)
{
pOsContextSpecific->GetGmmClientContext()->DestroyResInfoObject(m_gmmResInfo);
m_gmmResInfo = nullptr;
m_memAllocCounterGfx--;
}
}
return;
}
bool GraphicsResourceSpecific::IsEqual(GraphicsResource* toCompare)
{
if (toCompare == nullptr)
{
return false;
}
GraphicsResourceSpecific *resSpecificPtr = static_cast<GraphicsResourceSpecific *>(toCompare);
return (m_bo == resSpecificPtr->m_bo);
}
bool GraphicsResourceSpecific::IsValid()
{
return (m_bo != nullptr);
}
MOS_STATUS GraphicsResourceSpecific::ConvertToMosResource(MOS_RESOURCE* pMosResource)
{
if (pMosResource == nullptr)
{
return MOS_STATUS_INVALID_PARAMETER;
}
pMosResource->Format = m_format;
pMosResource->iWidth = m_width;
pMosResource->iHeight = m_height;
pMosResource->iPitch = m_pitch;
pMosResource->iDepth = m_depth;
pMosResource->TileType = m_tileType;
pMosResource->TileModeGMM = m_tileModeGMM;
pMosResource->bGMMTileEnabled = m_isGMMTileEnabled;
pMosResource->iCount = 0;
pMosResource->pData = m_pData;
pMosResource->bufname = m_name.c_str();
pMosResource->bo = m_bo;
pMosResource->bMapped = m_mapped;
pMosResource->MmapOperation = m_mmapOperation;
pMosResource->pGmmResInfo = m_gmmResInfo;
pMosResource->user_provided_va = m_userProvidedVA;
pMosResource->pGfxResource = this;
return MOS_STATUS_SUCCESS;
}
void* GraphicsResourceSpecific::Lock(OsContext* osContextPtr, LockParams& params)
{
MOS_OS_FUNCTION_ENTER;
if (osContextPtr == nullptr)
{
MOS_OS_ASSERTMESSAGE("Unable to get the active OS context.");
return nullptr;
}
if (osContextPtr ->GetOsContextValid() == false)
{
MOS_OS_ASSERTMESSAGE("The OS context got is not valid.");
return nullptr;
}
OsContextSpecific *pOsContextSpecific = static_cast<OsContextSpecific *>(osContextPtr);
void* dataPtr = nullptr;
MOS_LINUX_BO* boPtr = m_bo;
if (boPtr)
{
// Do decompression for a compressed surface before lock
const auto pGmmResInfo = m_gmmResInfo;
MOS_OS_ASSERT(pGmmResInfo);
GMM_RESOURCE_FLAG GmmFlags = pGmmResInfo->GetResFlags();
if (!params.m_noDecompress &&
(((GmmFlags.Gpu.MMC || GmmFlags.Gpu.CCS) && GmmFlags.Info.MediaCompressed) ||
pGmmResInfo->IsMediaMemoryCompressed(0)))
{
if ((pOsContextSpecific->m_mediaMemDecompState == nullptr) ||
(pOsContextSpecific->m_memoryDecompress == nullptr))
{
MOS_OS_ASSERTMESSAGE("m_mediaMemDecompState/m_memoryDecompress is not valid.");
return nullptr;
}
MOS_RESOURCE mosResource = {};
ConvertToMosResource(&mosResource);
pOsContextSpecific->m_memoryDecompress(pOsContextSpecific->m_mosContext, &mosResource);
}
if(false == m_mapped)
{
if (pOsContextSpecific->IsAtomSoc())
{
mos_gem_bo_map_gtt(boPtr);
}
else
{
if (m_tileType != MOS_TILE_LINEAR && !params.m_tileAsTiled)
{
if (pOsContextSpecific->UseSwSwizzling())
{
mos_bo_map(boPtr, ( OSKM_LOCKFLAG_WRITEONLY & params.m_writeRequest ));
m_mmapOperation = MOS_MMAP_OPERATION_MMAP;
if (m_systemShadow == nullptr)
{
m_systemShadow = (uint8_t *)MOS_AllocMemory(boPtr->size);
MOS_OS_CHECK_CONDITION((m_systemShadow == nullptr), "Failed to allocate shadow surface", nullptr);
}
if (m_systemShadow)
{
int32_t flags = pOsContextSpecific->GetTileYFlag() ? 0 : 1;
uint64_t surfSize = m_gmmResInfo->GetSizeMainSurface();
MOS_OS_CHECK_CONDITION((m_tileType != MOS_TILE_Y), "Unsupported tile type", nullptr);
MOS_OS_CHECK_CONDITION((boPtr->size <= 0 || m_pitch <= 0), "Invalid BO size or pitch", nullptr);
Mos_SwizzleData((uint8_t*)boPtr->virt, m_systemShadow,
MOS_TILE_Y, MOS_TILE_LINEAR,
(int32_t)(surfSize / m_pitch), m_pitch, flags);
}
}
else
{
mos_gem_bo_map_gtt(boPtr);
m_mmapOperation = MOS_MMAP_OPERATION_MMAP_GTT;
}
}
else if (params.m_uncached)
{
mos_gem_bo_map_wc(boPtr);
m_mmapOperation = MOS_MMAP_OPERATION_MMAP_WC;
}
else
{
mos_bo_map(boPtr, ( OSKM_LOCKFLAG_WRITEONLY & params.m_writeRequest ));
m_mmapOperation = MOS_MMAP_OPERATION_MMAP;
}
}
m_mapped = true;
m_pData = m_systemShadow ? m_systemShadow : (uint8_t *)boPtr->virt;
}
dataPtr = m_pData;
}
MOS_OS_ASSERT(dataPtr);
return dataPtr;
}
MOS_STATUS GraphicsResourceSpecific::Unlock(OsContext* osContextPtr)
{
MOS_OS_FUNCTION_ENTER;
if (osContextPtr == nullptr)
{
MOS_OS_ASSERTMESSAGE("Unable to get the active OS context.");
return MOS_STATUS_INVALID_HANDLE;
}
if (osContextPtr ->GetOsContextValid() == false)
{
MOS_OS_ASSERTMESSAGE("The OS context got is not valid.");
return MOS_STATUS_INVALID_HANDLE;
}
OsContextSpecific *pOsContextSpecific = static_cast<OsContextSpecific *>(osContextPtr);
MOS_LINUX_BO* boPtr = m_bo;
if (boPtr)
{
if (m_mapped)
{
if (pOsContextSpecific->IsAtomSoc())
{
mos_gem_bo_unmap_gtt(boPtr);
}
else
{
if (m_systemShadow)
{
int32_t flags = pOsContextSpecific->GetTileYFlag() ? 0 : 1;
uint64_t surfSize = m_gmmResInfo->GetSizeMainSurface();
Mos_SwizzleData(m_systemShadow, (uint8_t*)boPtr->virt,
MOS_TILE_LINEAR, MOS_TILE_Y,
(int32_t)(surfSize / m_pitch), m_pitch, flags);
MOS_FreeMemory(m_systemShadow);
m_systemShadow = nullptr;
}
switch(m_mmapOperation)
{
case MOS_MMAP_OPERATION_MMAP_GTT:
mos_gem_bo_unmap_gtt(boPtr);
break;
case MOS_MMAP_OPERATION_MMAP_WC:
mos_gem_bo_unmap_wc(boPtr);
break;
case MOS_MMAP_OPERATION_MMAP:
mos_bo_unmap(boPtr);
break;
default:
MOS_OS_ASSERTMESSAGE("Invalid mmap operation type");
break;
}
}
m_mapped = false;
m_mmapOperation = MOS_MMAP_OPERATION_NONE;
boPtr->virt = nullptr;
m_bo = boPtr;
}
m_pData = nullptr;
}
return MOS_STATUS_SUCCESS;
}