/* * Copyright (c) 2021-2022, 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 media_sku_wa_xe.cpp //! #include "igfxfmid.h" #include "linux_system_info.h" #include "skuwa_factory.h" #include "linux_skuwa_debug.h" #include "linux_media_skuwa.h" #include "mos_utilities.h" #include "mos_os_specific.h" #include "media_user_setting_specific.h" #ifndef SI_REV_LO #define SI_REV_LO(SteppingID) (SteppingID & 0xFFFF) #endif #ifndef SI_WA_FROM #define SI_WA_FROM(ulRevID, STEPPING) (ulRevID >= (int)SI_REV_LO(STEPPING)) #endif #ifndef ACM_G10_MEDIA_REV_ID_B0 #define ACM_G10_MEDIA_REV_ID_B0 DG2_MEDIA_REV_ID_B0 #endif static constexpr uint32_t singleVeboxSubSliceNumMax = 24; //extern template class DeviceInfoFactory; typedef DeviceInfoFactory DeviceInit; static struct LinuxCodecInfo XehpSdvCodecInfo = { .avcDecoding = 1, .mpeg2Decoding = 1, .vp8Decoding = 0, .vc1Decoding = 0, .jpegDecoding = 1, .avcEncoding = 0, .mpeg2Encoding = 0, .hevcDecoding = 1, .hevcEncoding = 0, .jpegEncoding = 0, .avcVdenc = 0, .vp9Decoding = 1, .hevc10Decoding = 1, .vp9b10Decoding = 1, .hevc10Encoding = 0, .hevc12Encoding = 0, .vp8Encoding = 0, .hevcVdenc = 0, .vp9Vdenc = 0, .adv0Decoding = 1, .adv1Decoding = 1, }; static struct LinuxCodecInfo Dg2CodecInfo = { .avcDecoding = 1, .mpeg2Decoding = 1, .vp8Decoding = 0, .vc1Decoding = 0, .jpegDecoding = 1, .avcEncoding = 0, .mpeg2Encoding = 0, .hevcDecoding = 1, .hevcEncoding = 0, .jpegEncoding = 1, .avcVdenc = 1, .vp9Decoding = 1, .hevc10Decoding = 1, .vp9b10Decoding = 1, .hevc10Encoding = 0, .hevc12Encoding = 0, .vp8Encoding = 0, .hevcVdenc = 1, .vp9Vdenc = 1, .adv0Decoding = 1, .adv1Decoding = 1, }; static struct LinuxCodecInfo PvcCodecInfo = { .avcDecoding = 1, .mpeg2Decoding = 1, .vp8Decoding = 0, .vc1Decoding = 0, .jpegDecoding = 1, .avcEncoding = 0, .mpeg2Encoding = 0, .hevcDecoding = 1, .hevcEncoding = 0, #ifdef IGFX_PVC_ENABLE_NON_UPSTREAM .jpegEncoding = 1, .avcVdenc = 1, #else .jpegEncoding = 0, .avcVdenc = 0, #endif .vp9Decoding = 1, .hevc10Decoding = 1, .vp9b10Decoding = 1, .hevc10Encoding = 0, .hevc12Encoding = 0, .vp8Encoding = 0, #ifdef IGFX_PVC_ENABLE_NON_UPSTREAM .hevcVdenc = 1, .vp9Vdenc = 1, #else .hevcVdenc = 0, .vp9Vdenc = 0, #endif .adv0Decoding = 1, .adv1Decoding = 1, }; static bool InitTglMediaSkuExt(struct GfxDeviceInfo *devInfo, MediaFeatureTable *skuTable, struct LinuxDriverInfo *drvInfo, struct LinuxCodecInfo *codecInfo, MediaUserSettingSharedPtr userSettingPtr) { if ((devInfo == nullptr) || (skuTable == nullptr) || (drvInfo == nullptr)) { DEVINFO_ERROR("null ptr is passed\n"); return false; } if (drvInfo->hasBsd) { MEDIA_WR_SKU(skuTable, FtrAVCVLDLongDecoding, codecInfo->avcDecoding); MEDIA_WR_SKU(skuTable, FtrMPEG2VLDDecoding, codecInfo->mpeg2Decoding); MEDIA_WR_SKU(skuTable, FtrIntelVP8VLDDecoding, codecInfo->vp8Decoding); MEDIA_WR_SKU(skuTable, FtrVC1VLDDecoding, codecInfo->vc1Decoding); MEDIA_WR_SKU(skuTable, FtrIntelJPEGDecoding, codecInfo->jpegDecoding); MEDIA_WR_SKU(skuTable, FtrEncodeAVC, codecInfo->avcEncoding); MEDIA_WR_SKU(skuTable, FtrEncodeMPEG2, codecInfo->mpeg2Encoding); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMainDecoding, codecInfo->hevcDecoding); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain10Decoding, codecInfo->hevc10Decoding); MEDIA_WR_SKU(skuTable, FtrEncodeHEVC, codecInfo->hevcEncoding); MEDIA_WR_SKU(skuTable, FtrEncodeHEVC10bit, codecInfo->hevc10Encoding); MEDIA_WR_SKU(skuTable, FtrEncodeJPEG, codecInfo->jpegEncoding); MEDIA_WR_SKU(skuTable, FtrEncodeAVCVdenc, codecInfo->avcVdenc); MEDIA_WR_SKU(skuTable, FtrVP9VLDDecoding, codecInfo->vp9Decoding); MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile0Decoding8bit420, codecInfo->vp9Decoding); MEDIA_WR_SKU(skuTable, FtrVP9VLD10bProfile2Decoding, codecInfo->vp9b10Decoding); MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile2Decoding, codecInfo->vp9b10Decoding); MEDIA_WR_SKU(skuTable, FtrIntelAV1VLDDecoding8bit420, codecInfo->adv0Decoding); MEDIA_WR_SKU(skuTable, FtrIntelAV1VLDDecoding10bit420, codecInfo->adv1Decoding); /* VP8 enc */ MEDIA_WR_SKU(skuTable, FtrEncodeVP8, codecInfo->vp8Encoding); /* HEVC VDENC */ MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain10, codecInfo->hevcVdenc); /* Vp9 VDENC */ MEDIA_WR_SKU(skuTable, FtrEncodeVP9Vdenc, codecInfo->vp9Vdenc); /* HEVC Main8/10bit-422/444 Decoding. Currently it is enabled. */ MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLD42210bitDecoding, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLD4448bitDecoding, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLD44410bitDecoding, 1); /* SFC Histogram Streamout. */ MEDIA_WR_SKU(skuTable, FtrSFCHistogramStreamOut, 1); /* Subset buffer for realtile decoding. */ MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDDecodingSubsetBuffer, 1); /* HEVC Main8/10bit-420/422/444 Scc Decoding. Currently it is enabled. */ MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain8bit420SCC, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain10bit420SCC, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain8bit444SCC, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain10bit444SCC, 1); /* HEVC VDENC Main8/10 422/444 Encoding. */ MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain444, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain422, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain10bit422, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain10bit444, codecInfo->hevcVdenc); /* HEVC VDENC Main8/10bit-420/422/444 Scc Encoding. */ MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMainSCC, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain10bitSCC, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain444SCC, codecInfo->hevcVdenc); MEDIA_WR_SKU(skuTable, FtrEncodeHEVCVdencMain10bit444SCC, codecInfo->hevcVdenc); /* HEVC 12bit Decoding. Currently it is enabled */ MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain12bit420Decoding, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain12bit422Decoding, 1); MEDIA_WR_SKU(skuTable, FtrIntelHEVCVLDMain12bit444Decoding, 1); /* VP9 8 bit 444 */ MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile1Decoding8bit444, 1); /* VP9 10 Bit 444*/ MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile3Decoding10bit444, 1); /* VP9 12 bit 420/444 */ MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile2Decoding12bit420, 1); MEDIA_WR_SKU(skuTable, FtrIntelVP9VLDProfile3Decoding12bit444, 1); /* VP9 VDENC 8Bit 444 */ MEDIA_WR_SKU(skuTable, FtrEncodeVP9Vdenc8bit444, codecInfo->vp9Vdenc); /* VP9 VDENC 10Bit 420/444 */ MEDIA_WR_SKU(skuTable, FtrEncodeVP9Vdenc10bit420, codecInfo->vp9Vdenc); MEDIA_WR_SKU(skuTable, FtrEncodeVP9Vdenc10bit444, codecInfo->vp9Vdenc); } MEDIA_WR_SKU(skuTable, FtrEnableMediaKernels, drvInfo->hasHuc); if (devInfo->eGTType == GTTYPE_GT1) { MEDIA_WR_SKU(skuTable, FtrGT1, 1); } else if (devInfo->eGTType == GTTYPE_GT1_5) { MEDIA_WR_SKU(skuTable, FtrGT1_5, 1); } else if (devInfo->eGTType == GTTYPE_GT2) { MEDIA_WR_SKU(skuTable, FtrGT2, 1); } else if (devInfo->eGTType == GTTYPE_GT3) { MEDIA_WR_SKU(skuTable, FtrGT3, 1); } else if (devInfo->eGTType == GTTYPE_GT4) { MEDIA_WR_SKU(skuTable, FtrGT4, 1); } else { /* GT1 is by default */ MEDIA_WR_SKU(skuTable, FtrGT1, 1); } MEDIA_WR_SKU(skuTable, FtrVERing, drvInfo->hasVebox); MEDIA_WR_SKU(skuTable, FtrPPGTT, drvInfo->hasPpgtt); MEDIA_WR_SKU(skuTable, FtrEDram, devInfo->hasERAM); /* Virtual VDBOX ring is used on Gen12 */ MEDIA_WR_SKU(skuTable, FtrVcs2, 0); MEDIA_WR_SKU(skuTable, FtrSingleVeboxSlice, 1); if (devInfo->SubSliceCount >= singleVeboxSubSliceNumMax) { MEDIA_WR_SKU(skuTable, FtrSingleVeboxSlice, 0); } MEDIA_WR_SKU(skuTable, FtrSFCPipe, 1); MEDIA_WR_SKU(skuTable, FtrHCP2SFCPipe, 1); MEDIA_WR_SKU(skuTable, FtrSSEUPowerGating, 1); MEDIA_WR_SKU(skuTable, FtrSSEUPowerGatingControlByUMD, 1); MEDIA_WR_SKU(skuTable, FtrPerCtxtPreemptionGranularityControl, 1); /* It is disabled by default. It can be enabled based on HW */ MEDIA_WR_SKU(skuTable, FtrMemoryCompression, 0); MEDIA_WR_SKU(skuTable, FtrHcpDecMemoryCompression, 0); MEDIA_WR_SKU(skuTable, Ftr10bitDecMemoryCompression, 0); MEDIA_WR_SKU(skuTable, FtrCCSNode, 1); MEDIA_WR_SKU(skuTable, FtrVpP010Output, 1); MEDIA_WR_SKU(skuTable, FtrVp10BitSupport, 1); MEDIA_WR_SKU(skuTable, FtrVp16BitSupport, 1); MEDIA_WR_SKU(skuTable, FtrContextBasedScheduling, 1); MEDIA_WR_SKU(skuTable, FtrSWMediaReset, 1); MEDIA_WR_SKU(skuTable, FtrVeboxScalabilitywith4K, 1); MEDIA_WR_SKU(skuTable, FtrTileY, 1); MEDIA_WR_SKU(skuTable, FtrE2ECompression, 1); MEDIA_WR_SKU(skuTable, FtrLinearCCS, 1); MEDIA_WR_SKU(skuTable, FtrFlatPhysCCS, 0); MEDIA_WR_SKU(skuTable, FtrHeight8AlignVE3DLUTDualPipe, 1); // Disable MMC for all components if set reg key MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_DISABLE_MMC_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); if (userFeatureData.bData) { MEDIA_WR_SKU(skuTable, FtrE2ECompression, 0); } // Create uncompressible surface by default MEDIA_WR_SKU(skuTable, FtrCompressibleSurfaceDefault, 0); bool compressibleSurfaceEnable = false; ReadUserSetting(userSettingPtr, compressibleSurfaceEnable, "Enable Compressible Surface Creation", MediaUserSetting::Group::Device); #ifdef _MMC_SUPPORTED if (compressibleSurfaceEnable) { MEDIA_WR_SKU(skuTable, FtrCompressibleSurfaceDefault, 1); } #endif if (drvInfo->devId == 0xFF20) { MEDIA_WR_SKU(skuTable, FtrConditionalBatchBuffEnd, 1); } MEDIA_WR_SKU(skuTable, FtrUseSwSwizzling, 1); MEDIA_WR_SKU(skuTable, FtrMemoryRemapSupport, 1); MEDIA_WR_SKU(skuTable, FtrAV1VLDLSTDecoding, 0); //Tile64 if (GFX_IS_DG2_G11_CONFIG(drvInfo->devId)) { MEDIA_WR_SKU(skuTable, FtrTileY, 0); } return true; } static bool InitTglMediaWaExt(struct GfxDeviceInfo *devInfo, MediaWaTable *waTable, struct LinuxDriverInfo *drvInfo) { if ((devInfo == nullptr) || (waTable == nullptr) || (drvInfo == nullptr)) { DEVINFO_ERROR("null ptr is passed\n"); return false; } MEDIA_WR_WA(waTable, WaForceGlobalGTT, !drvInfo->hasPpgtt); MEDIA_WR_WA(waTable, WaMidBatchPreemption, 0); MEDIA_WR_WA(waTable, WaArbitraryNumMbsInSlice, 1); MEDIA_WR_WA(waTable, WaSuperSliceHeaderPacking, 1); MEDIA_WR_WA(waTable, WaSFC270DegreeRotation, 0); MEDIA_WR_WA(waTable, WaEnableYV12BugFixInHalfSliceChicken7, 1); MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_AUX_TABLE_16K_GRANULAR_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); MEDIA_WR_WA(waTable, WaDummyReference, 1); MEDIA_WR_WA(waTable, Wa16KInputHeightNV12Planar420, 1); /*software wa to disable calculate the UV offset by gmmlib CPU blt call will add/remove padding on the platform*/ MEDIA_WR_WA(waTable, WaDisableGmmLibOffsetInDeriveImage, 1); /*software wa to fix some corner cases of HEVC/VP9 SFC and Scalability*/ MEDIA_WR_WA(waTable, Wa_14010222001, 1); /*software wa to fix some corner hang cases for Scalability*/ MEDIA_WR_WA(waTable, Wa_2209620131, 1); if (drvInfo->devId == 0x9A49 || drvInfo->devId == 0x9AC9 || drvInfo->devId == 0x9A60 || drvInfo->devId == 0x9A68 || drvInfo->devId == 0x9A70 || drvInfo->devId == 0x4905 || drvInfo->devId == 0x4906 || drvInfo->devId == 0x4907) { /*software wa to use frame based decoding for AV1 decode*/ MEDIA_WR_WA(waTable, Wa_1409820462, 1); } if (drvInfo->devId == 0x4905 || drvInfo->devId == 0x4906 || drvInfo->devId == 0x4907) { /* Turn off MMC for codec, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableCodecMmc, 1); /* Turn off MMC for VPP, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableVPMmc, 1); } if (MEDIA_IS_WA(waTable, Wa_14012254246)) { MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_DISABLE_TLB_PREFETCH_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); // For PVC A0, if TLB pre-fetch disabled, resource could be allocated to system memory and local memory; // otherwise, resource could be allocated to local memory only. if (userFeatureData.u32Data == 0) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } } // For DG2 if (GFX_IS_DG2_G11_CONFIG(drvInfo->devId)) { MEDIA_WR_WA(waTable, Wa_22011549751, 1); } MEDIA_WR_WA(waTable, WaEnableVPPCopy, 1); MEDIA_WR_WA(waTable, Wa_AvcUnalignedHeight, 1); return true; } static bool InitXehpSDVMediaSku(struct GfxDeviceInfo *devInfo, MediaFeatureTable *skuTable, struct LinuxDriverInfo *drvInfo, MediaUserSettingSharedPtr userSettingPtr) { if (!InitTglMediaSkuExt(devInfo, skuTable, drvInfo, &XehpSdvCodecInfo, userSettingPtr)) { return false; } // Guc Submission MEDIA_WR_SKU(skuTable, FtrGucSubmission, 1); // doesn't support legacy TileY MEDIA_WR_SKU(skuTable, FtrTileY, 0); MEDIA_WR_SKU(skuTable, FtrE2ECompression, 1); MEDIA_WR_SKU(skuTable, FtrLinearCCS, 1); MEDIA_WR_SKU(skuTable, FtrFlatPhysCCS, 1); MEDIA_WR_SKU(skuTable, FtrCompsitionMemoryCompressedOut, 1); //Enable LocalMemory for all dGraphics MEDIA_WR_SKU(skuTable, FtrLocalMemory, 1); MEDIA_WR_SKU(skuTable, FtrConditionalBatchBuffEnd, 1); return true; } static bool InitXehpSDVMediaWa(struct GfxDeviceInfo *devInfo, MediaWaTable *waTable, struct LinuxDriverInfo *drvInfo) { if (!InitTglMediaWaExt(devInfo, waTable, drvInfo)) { DEVINFO_ERROR("InitMediaWA failed\n"); return false; } /*software wa to use frame based decoding for AV1 decode*/ MEDIA_WR_WA(waTable, Wa_1409820462, 1); /*software wa to add a dummy workload in front of normal workload per batch buffer*/ MEDIA_WR_WA(waTable, Wa_1508208842, 1); /* Turn off MMC for codec, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableCodecMmc, 1); /* Turn off MMC for VPP, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableVPMmc, 1); /* default resource allocate policy for XeHP_SDV*/ MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); /* only enable L3 for A step*/ if (drvInfo->devRev == 0x0 || drvInfo->devRev == 0x1) { MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); } else { MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); } MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_LOCAL_MEMORY_LEVEL_SWITCH_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); if(userFeatureData.u32Data == 2) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } if(userFeatureData.u32Data == 3) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } if(userFeatureData.u32Data == 4) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 1); } if (char* pLocalMemLevelSwitch = getenv("LOCALMEMLEVELSWITCH")) { int localMemLevelSwitch = atoi(pLocalMemLevelSwitch); if(localMemLevelSwitch == 2) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } else if(localMemLevelSwitch == 3) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } else if(localMemLevelSwitch == 4) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 1); } } // XeHP_SDV I as P WA MEDIA_WR_WA(waTable, Wa_22011549751, 1); #ifdef IGFX_XEHP_SDV_ENABLE_NON_UPSTREAM MEDIA_WR_WA(waTable, WaHEVCVDEncForceDeltaQpRoiNotSupported, 1); #else MEDIA_WR_WA(waTable, WaHEVCVDEncForceDeltaQpRoiNotSupported, 0); #endif return true; } static bool InitPvcMediaSku(struct GfxDeviceInfo *devInfo, MediaFeatureTable *skuTable, struct LinuxDriverInfo *drvInfo, MediaUserSettingSharedPtr userSettingPtr) { if (!InitTglMediaSkuExt(devInfo, skuTable, drvInfo, &PvcCodecInfo, userSettingPtr)) { return false; } // PVC doesn't have VEBOX and SFC MEDIA_WR_SKU(skuTable, FtrSingleVeboxSlice, 0); MEDIA_WR_SKU(skuTable, FtrSFCPipe, 0); MEDIA_WR_SKU(skuTable, FtrVERing, 0); // PVC doesn't support legacy TileY MEDIA_WR_SKU(skuTable, FtrTileY, 0); MEDIA_WR_SKU(skuTable, FtrVERing, 0); MEDIA_WR_SKU(skuTable, FtrVeboxScalabilitywith4K, 0); // Compression Flags if (!(drvInfo->devId == 0x0BD0 || (drvInfo->devId == 0x0BD5 && drvInfo->devRev == 0x03))) { MEDIA_WR_SKU(skuTable, FtrLinearCCS, 1); MEDIA_WR_SKU(skuTable, FtrFlatPhysCCS, 1); MEDIA_WR_SKU(skuTable, FtrE2ECompression, 1); MEDIA_WR_SKU(skuTable, FtrRenderCompressionOnly, 1); MEDIA_WR_SKU(skuTable, FtrCompsitionMemoryCompressedOut, 1); } // Force MMC Turn on for all components if set reg key MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_FORCE_MMC_ON_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); if (userFeatureData.bData) { MEDIA_WR_SKU(skuTable, FtrE2ECompression, 1); } // Disable MMC for all components if set reg key MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_DISABLE_MMC_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); if (userFeatureData.bData) { MEDIA_WR_SKU(skuTable, FtrE2ECompression, 0); } MEDIA_WR_SKU(skuTable, FtrWithSlimVdbox, 1); // Enable LocalMemory for all dGraphics MEDIA_WR_SKU(skuTable, FtrLocalMemory, 1); //Enable AV1 Large Scale Tile decoding MEDIA_WR_SKU(skuTable, FtrAV1VLDLSTDecoding, 1); return true; } static bool InitPvcMediaWa(struct GfxDeviceInfo *devInfo, MediaWaTable *waTable, struct LinuxDriverInfo *drvInfo) { if (!InitTglMediaWaExt(devInfo, waTable, drvInfo)) { DEVINFO_ERROR("InitMediaWA failed\n"); return false; } // turn on Compression on B Step+ if (drvInfo->devId == 0x0BD0 || (drvInfo->devId == 0x0BD5 && drvInfo->devRev == 0x03)) { /* Turn off MMC for codec, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableCodecMmc, 1); /* Turn off MMC for VPP, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableVPMmc, 1); } // For PVC A0 dev, disable TLB prefetch WA if (drvInfo->devId == 0x0BD0 || drvInfo->devId == 0x0BD5) { MEDIA_WR_WA(waTable, Wa_14012254246, 1); } // for PVC XL/XT A0 dev, need add MEM policy WA, B0 doesn't need. if (drvInfo->devId == 0x0BD0 || (drvInfo->devId == 0x0BD5 && drvInfo->devRev == 0x03)) { /* default resource allocate policy for PVC */ MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); MOS_USER_FEATURE_VALUE_DATA userFeatureData; MOS_ZeroMemory(&userFeatureData, sizeof(userFeatureData)); MOS_UserFeature_ReadValue_ID( nullptr, __MEDIA_USER_FEATURE_VALUE_LOCAL_MEMORY_LEVEL_SWITCH_ID, &userFeatureData, (MOS_CONTEXT_HANDLE)nullptr); if(userFeatureData.u32Data == 2) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } if(userFeatureData.u32Data == 3) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } if(userFeatureData.u32Data == 4) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 1); } if (char* pLocalMemLevelSwitch = getenv("LOCALMEMLEVELSWITCH")) { int localMemLevelSwitch = atoi(pLocalMemLevelSwitch); if(localMemLevelSwitch == 2) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } else if(localMemLevelSwitch == 3) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 0); } else if(localMemLevelSwitch == 4) { MEDIA_WR_WA(waTable, WaForceAllocateLML2, 0); MEDIA_WR_WA(waTable, WaForceAllocateLML3, 1); MEDIA_WR_WA(waTable, WaForceAllocateLML4, 1); } } } #ifdef IGFX_PVC_ENABLE_NON_UPSTREAM MEDIA_WR_WA(waTable, WaHEVCVDEncForceDeltaQpRoiNotSupported, 1); #else MEDIA_WR_WA(waTable, WaHEVCVDEncForceDeltaQpRoiNotSupported, 0); #endif // I as P WA MEDIA_WR_WA(waTable, Wa_22011549751, 1); // Remove the WA of DummyReference MEDIA_WR_WA(waTable, WaDummyReference, 0); return true; } static bool InitDg2MediaSku(struct GfxDeviceInfo *devInfo, MediaFeatureTable *skuTable, struct LinuxDriverInfo *drvInfo, MediaUserSettingSharedPtr userSettingPtr) { if (!InitTglMediaSkuExt(devInfo, skuTable, drvInfo, &Dg2CodecInfo, userSettingPtr)) { return false; } // Disable CCS on DG2A if (drvInfo->devRev == 0) { MEDIA_WR_SKU(skuTable, FtrCCSNode, 0); } if (drvInfo->hasBsd) { /* AV1 VDENC 8/10Bit 420 */ MEDIA_WR_SKU(skuTable, FtrEncodeAV1Vdenc, 1); MEDIA_WR_SKU(skuTable, FtrEncodeAV1Vdenc10bit420, 1); } MEDIA_WR_SKU(skuTable, FtrSfcScalability, 1); // Guc Submission MEDIA_WR_SKU(skuTable, FtrGucSubmission, 1); MEDIA_WR_SKU(skuTable, FtrTileY, 0); MEDIA_WR_SKU(skuTable, FtrE2ECompression, 1); MEDIA_WR_SKU(skuTable, FtrLinearCCS, 1); MEDIA_WR_SKU(skuTable, FtrFlatPhysCCS, 1); MEDIA_WR_SKU(skuTable, FtrCompsitionMemoryCompressedOut, 1); // Enable LocalMemory for all dGraphics MEDIA_WR_SKU(skuTable, FtrLocalMemory, 1); // Enable AV1 Large Scale Tile decoding MEDIA_WR_SKU(skuTable, FtrAV1VLDLSTDecoding, 1); // Enable HDR MEDIA_WR_SKU(skuTable, FtrHDR, 1); // Enable down scaling first if 3DLUT enabled MEDIA_WR_SKU(skuTable, FtrScalingFirst, 1); // Disable HEVC 422 Virtual Tile Scalability MEDIA_WR_SKU(skuTable, FtrDecodeHEVC422VTScalaDisable, 1); // Tile64 if (drvInfo->devRev >= 0x04 && (drvInfo->devId == 0x4F80 || drvInfo->devId == 0x4F81 || drvInfo->devId == 0x4F82 || drvInfo->devId == 0x4F83 || drvInfo->devId == 0x4F84 || drvInfo->devId == 0x4F85 || drvInfo->devId == 0x4F86 || drvInfo->devId == 0x5690 || drvInfo->devId == 0x5691 || drvInfo->devId == 0x5692 || drvInfo->devId == 0x5695 || drvInfo->devId == 0x5696 || drvInfo->devId == 0x5697 || drvInfo->devId == 0x5698 || drvInfo->devId == 0x56A0 || drvInfo->devId == 0x56A1 || drvInfo->devId == 0x56A2 || drvInfo->devId == 0x56A3 || drvInfo->devId == 0x56A4 || drvInfo->devId == 0x56A5 || drvInfo->devId == 0x56A6 || drvInfo->devId == 0x56A7 || drvInfo->devId == 0x56A8 || drvInfo->devId == 0x56A9 || drvInfo->devId == 0x56C0)) { MEDIA_WR_SKU(skuTable, FtrTileY, 0); } MEDIA_WR_SKU(skuTable, FtrHDR, 1); // Enable HVS Denoise MEDIA_WR_SKU(skuTable, FtrHVSDenoise, 1); #define IS_SERVER_SKU(d) (((d) >= 0x56C0) && ((d) <= 0x56C1)) if (IS_SERVER_SKU(drvInfo->devId)) { drvInfo->isServer = 1; } else { drvInfo->isServer = 0; } return true; } static bool InitDg2MediaWa(struct GfxDeviceInfo *devInfo, MediaWaTable *waTable, struct LinuxDriverInfo *drvInfo) { if (!InitTglMediaWaExt(devInfo, waTable, drvInfo)) { DEVINFO_ERROR("InitMediaWA failed\n"); return false; } /* Turn off MMC for codec, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableCodecMmc, 1); /* Turn off MMC for VPP, need to remove once turn it on */ MEDIA_WR_WA(waTable, WaDisableVPMmc, 1); // Compression Settings if (SI_WA_FROM(drvInfo->devRev, ACM_G10_MEDIA_REV_ID_B0) || GFX_IS_DG2_G11_CONFIG(drvInfo->devId)) { /* Turn on MMC for codec and vpp*/ MEDIA_WR_WA(waTable, WaDisableCodecMmc, 0); MEDIA_WR_WA(waTable, WaDisableVPMmc, 0); } if (GFX_IS_DG2_G11_CONFIG(drvInfo->devId) || (GFX_IS_DG2_G10_CONFIG(drvInfo->devId) && SI_WA_FROM(drvInfo->devRev, ACM_G10_MEDIA_REV_ID_B0))) { MEDIA_WR_WA(waTable, Wa_22011700429, 1); } // For DG2 128/512 need to distinguish A stepping and B stepping // Disable B+ stepping features on DG2A if (GFX_IS_DG2_G10_CONFIG(drvInfo->devId) || GFX_IS_DG2_G11_CONFIG(drvInfo->devId)) { if (drvInfo->devRev < 4) { MEDIA_WR_WA(waTable, WaEnableOnlyASteppingFeatures, 1); MEDIA_WR_WA(waTable, Wa_14010476401, 1); MEDIA_WR_WA(waTable, Wa_22011531258, 1); MEDIA_WR_WA(waTable, Wa_2209975292, 1); MEDIA_WR_WA(waTable, WaHEVCVDEncForceDeltaQpRoiNotSupported, 1); } MEDIA_WR_WA(waTable, Wa_22011549751, 1); } // for DG2 256EU, support B+ features, don't need wa for A stepping if (GFX_IS_DG2_G12_CONFIG(drvInfo->devId)) { MEDIA_WR_WA(waTable, Wa_22011549751, 1); } // CCS Chromakey if (GFX_IS_DG2_G11_CONFIG(drvInfo->devId)) { MEDIA_WR_WA(waTable, Wa_16011481064, 1); } else { if (drvInfo->devRev >= 4) { MEDIA_WR_WA(waTable, Wa_16011481064, 1); } } MEDIA_WR_WA(waTable, Wa_15010089951, 1); // Remove the WA of DummyReference MEDIA_WR_WA(waTable, WaDummyReference, 0); MEDIA_WR_WA(waTable, WaDisableSetObjectCapture, 1); MEDIA_WR_WA(waTable, Wa_15013355402, 1); return true; } static struct LinuxDeviceInit xehpSDVDeviceInit = { .productFamily = IGFX_XE_HP_SDV, .InitMediaFeature = InitXehpSDVMediaSku, .InitMediaWa = InitXehpSDVMediaWa, }; static bool xehpSDVDeviceRegister = DeviceInfoFactory:: RegisterDevice(IGFX_XE_HP_SDV, &xehpSDVDeviceInit); static struct LinuxDeviceInit dg2DeviceInit = { .productFamily = IGFX_DG2, .InitMediaFeature = InitDg2MediaSku, .InitMediaWa = InitDg2MediaWa, }; static bool dg2DeviceRegister = DeviceInfoFactory:: RegisterDevice(IGFX_DG2, &dg2DeviceInit); static struct LinuxDeviceInit pvcDeviceInit = { .productFamily = IGFX_PVC, .InitMediaFeature = InitPvcMediaSku, .InitMediaWa = InitPvcMediaWa, }; static bool pvcDeviceRegister = DeviceInfoFactory:: RegisterDevice(IGFX_PVC, &pvcDeviceInit);