/*===================== begin_copyright_notice ================================== # Copyright (c) 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. ======================= end_copyright_notice ==================================*/ //! //! \file media_interfaces_mtl.cpp //! \brief Helps with MTL factory creation. //! #include "media_interfaces_mtl.h" #include "codechal_common.h" #include "codechal_debug.h" #include "vp_pipeline_adapter_xe_lpm_plus.h" #include "vp_platform_interface_xe_lpm_plus.h" #include "vp_kernel_config_xe_hpg_base.h" #include "mhw_mi_xe_lpm_plus_base_next_impl.h" #include "mhw_blt_xe_lpm_plus_base_next_impl.h" #include "mhw_sfc_xe_lpm_plus_base_next_impl.h" #include "mhw_vebox_xe_lpm_plus_base_next_impl.h" #include "mhw_render_xe_hpg_impl.h" #if defined(ENABLE_KERNELS) #include "igvpkrn_xe_hpg.h" #include "igvpkrn_xe_hpg_cmfcpatch.h" #if !defined(_FULL_OPEN_SOURCE) #include "igvpkrn_isa_xe_hpg.h" #endif #endif using namespace mhw::vdbox::avp::xe_lpm_plus_base; using namespace mhw::vdbox::vdenc::xe_lpm_plus_base; using namespace mhw::vdbox::huc::xe_lpm_plus_base; using namespace mhw::vdbox::mfx::xe_lpm_plus_base; extern template class MediaFactory; extern template class MediaFactory; extern template class MediaFactory; extern template class MediaFactory; // Swith to use new media factory template extern template class MediaFactory; extern template class MediaFactory; #define IP_VERSION_XE_LPM_PLUS 0x1300 static bool mtlRegisteredVphal = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS VphalInterfacesXe_Lpm_Plus::Initialize( PMOS_INTERFACE osInterface, bool bInitVphalState, MOS_STATUS * eStatus, bool clearViewMode) { vp::VpPlatformInterface *vpPlatformInterface = MOS_New(vp::VpPlatformInterfacesXe_Lpm_Plus, osInterface); if (nullptr == vpPlatformInterface) { *eStatus = MOS_STATUS_NULL_POINTER; return *eStatus; } InitPlatformKernelBinary(vpPlatformInterface); if (!bInitVphalState) { m_vpPipeline = MOS_New(vp::VpPipeline, osInterface); if (nullptr == m_vpPipeline) { MOS_Delete(vpPlatformInterface); MOS_OS_CHK_NULL_RETURN(m_vpPipeline); } m_vpPlatformInterface = vpPlatformInterface; *eStatus = MOS_STATUS_SUCCESS; return *eStatus; } m_vpBase = MOS_New( VpPipelineAdapterXe_Lpm_Plus, osInterface, *vpPlatformInterface, *eStatus); if (nullptr == m_vpBase) { MOS_Delete(vpPlatformInterface); *eStatus = MOS_STATUS_NULL_POINTER; return *eStatus; } m_isNextEnabled = true; return *eStatus; } MOS_STATUS VphalInterfacesXe_Lpm_Plus::CreateVpPlatformInterface( PMOS_INTERFACE osInterface, MOS_STATUS * eStatus) { vp::VpPlatformInterface *vpPlatformInterface = MOS_New(vp::VpPlatformInterfacesXe_Lpm_Plus, osInterface); if (nullptr == vpPlatformInterface) { *eStatus = MOS_STATUS_NULL_POINTER; } else { InitPlatformKernelBinary(vpPlatformInterface); m_vpPlatformInterface = vpPlatformInterface; *eStatus = MOS_STATUS_SUCCESS; } return *eStatus; } void VphalInterfacesXe_Lpm_Plus::InitPlatformKernelBinary( vp::VpPlatformInterface *&vpPlatformInterface) { static vp::VpKernelConfigXe_Hpg_Base kernelConfig; vpPlatformInterface->SetKernelConfig(&kernelConfig); #if defined(ENABLE_KERNELS) vpPlatformInterface->SetVpFCKernelBinary( IGVPKRN_XE_HPG, IGVPKRN_XE_HPG_SIZE, IGVPKRN_XE_HPG_CMFCPATCH, IGVPKRN_XE_HPG_CMFCPATCH_SIZE); #if !defined(_FULL_OPEN_SOURCE) vpPlatformInterface->AddVpIsaKernelEntryToList(IGVP3DLUT_GENERATION_XE_HPG, IGVP3DLUT_GENERATION_XE_HPG_SIZE); vpPlatformInterface->AddVpIsaKernelEntryToList(IGVPHVS_DENOISE_XE_HPG, IGVPHVS_DENOISE_XE_HPG_SIZE); #endif #endif } static bool mtlRegisteredMhwNext = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS MhwInterfacesXe_Lpm_Plus_Next::Initialize( CreateParams params, PMOS_INTERFACE osInterface) { if (osInterface == nullptr) { MHW_ASSERTMESSAGE("The OS interface is not valid!"); return MOS_STATUS_INVALID_PARAMETER; } m_osInterface = osInterface; auto gtSystemInfo = osInterface->pfnGetGtSystemInfo(osInterface); if (gtSystemInfo == nullptr) { MHW_ASSERTMESSAGE("The OS interface is not valid!"); return MOS_STATUS_INVALID_PARAMETER; } if ((params.m_isCp == false) && (params.Flags.m_value == 0)) { MHW_ASSERTMESSAGE("No MHW interfaces were requested for creation."); return MOS_STATUS_INVALID_PARAMETER; } // MHW_CP and MHW_MI must always be create MOS_STATUS status; m_cpInterface = osInterface->pfnCreateMhwCpInterface(osInterface); MHW_MI_CHK_NULL(m_cpInterface); auto ptr = std::make_shared(osInterface); m_miItf = std::static_pointer_cast(ptr); ptr->SetCpInterface(m_cpInterface, m_miItf); if (params.Flags.m_render) { auto ptr = std::make_shared(osInterface); m_renderItf = std::static_pointer_cast(ptr); } if (params.Flags.m_stateHeap) { m_stateHeapInterface = MOS_New(StateHeap, osInterface, params.m_heapMode); } if (params.Flags.m_sfc) { auto ptr = std::make_shared(osInterface); m_sfcItf = std::static_pointer_cast(ptr); } if (params.Flags.m_vebox) { auto ptr = std::make_shared(osInterface); m_veboxItf = std::static_pointer_cast(ptr); } if (params.Flags.m_vdboxAll || params.Flags.m_mfx) { auto ptr = std::make_shared(osInterface, m_cpInterface); m_mfxItf = std::static_pointer_cast(ptr); } if (params.Flags.m_vdboxAll || params.Flags.m_hcp) { m_hcpItf = std::make_shared(osInterface); } if (params.Flags.m_vdboxAll) { auto ptr = std::make_shared(osInterface); m_avpItf = std::static_pointer_cast(ptr); } if (params.Flags.m_vdboxAll || params.Flags.m_huc) { auto ptr = std::make_shared(osInterface, m_cpInterface); m_hucItf = std::static_pointer_cast(ptr); } if (params.Flags.m_vdboxAll || params.Flags.m_vdenc) { auto ptr = std::make_shared(osInterface); m_vdencItf = std::static_pointer_cast(ptr); } if (params.Flags.m_blt) { auto ptr = std::make_shared(osInterface); m_bltItf = std::static_pointer_cast(ptr); } return MOS_STATUS_SUCCESS; } //! //! \brief Destroys all created MHW interfaces //! \details If the HAL creation fails, this is used for cleanup //! void MhwInterfacesXe_Lpm_Plus_Next::Destroy() { MhwInterfacesNext::Destroy(); } #ifdef _MMC_SUPPORTED static bool mtlRegisteredMmd = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS MmdDeviceXe_Lpm_Plus_Next::Initialize( PMOS_INTERFACE osInterface, MhwInterfacesNext* mhwInterfaces) { #define MMD_FAILURE() \ { \ if (device != nullptr) \ { \ MOS_Delete(device); \ } \ return MOS_STATUS_NO_SPACE; \ } MHW_FUNCTION_ENTER; Mmd* device = nullptr; if (mhwInterfaces->m_miItf == nullptr) { MMD_FAILURE(); } if (mhwInterfaces->m_veboxItf == nullptr) { MMD_FAILURE(); } device = MOS_New(Mmd); if (device == nullptr) { MMD_FAILURE(); } if (device->Initialize( osInterface, mhwInterfaces) != MOS_STATUS_SUCCESS) { MOS_Delete(device); MOS_OS_CHK_STATUS_RETURN(MOS_STATUS_UNINITIALIZED); } m_mmdDevice = device; return MOS_STATUS_SUCCESS; } #endif static bool mtlRegisteredMcpy = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS McpyDeviceXe_Lpm_Plus::Initialize( PMOS_INTERFACE osInterface, MhwInterfacesNext *mhwInterfaces) { #define MCPY_FAILURE() \ { \ if (device != nullptr) \ { \ MOS_Delete(device); \ } \ return MOS_STATUS_NO_SPACE; \ } MHW_FUNCTION_ENTER; Mcpy *device = nullptr; if (nullptr == mhwInterfaces->m_miItf) { MCPY_FAILURE(); } if (nullptr == mhwInterfaces->m_veboxItf) { MCPY_FAILURE(); } if (nullptr == mhwInterfaces->m_bltItf) { MCPY_FAILURE(); } device = MOS_New(Mcpy); if (device == nullptr) { MCPY_FAILURE(); } if (device->Initialize( osInterface, mhwInterfaces) != MOS_STATUS_SUCCESS) { MOS_Delete(device); MOS_OS_CHK_STATUS_RETURN(MOS_STATUS_UNINITIALIZED); } m_mcpyDevice = device; return MOS_STATUS_SUCCESS; } static bool mtlRegisteredCodecHal = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS CodechalInterfacesXe_Lpm_Plus::Initialize( void * standardInfo, void * settings, MhwInterfacesNext *mhwInterfaces, PMOS_INTERFACE osInterface) { if (standardInfo == nullptr || mhwInterfaces == nullptr || osInterface == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("CodecHal device is not valid!"); return MOS_STATUS_INVALID_PARAMETER; } // Shared pointer to user setting instance MediaUserSettingSharedPtr userSettingPtr = osInterface->pfnGetUserSettingInstance(osInterface); // This part should be moved back to media_intefaces.cpp for softlet build PCODECHAL_STANDARD_INFO info = ((PCODECHAL_STANDARD_INFO)standardInfo); CODECHAL_FUNCTION CodecFunction = info->CodecFunction; bool disableScalability = false; #ifdef _VP9_ENCODE_VDENC_SUPPORTED if (info->Mode == CODECHAL_ENCODE_MODE_VP9) disableScalability = true; #endif CodechalHwInterfaceNext *hwInterface = MOS_New(Hw, osInterface, CodecFunction, mhwInterfaces, disableScalability); if (hwInterface == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("hwInterface is not valid!"); return MOS_STATUS_NO_SPACE; } hwInterface->pfnCreateDecodeSinglePipe = decode::DecodeScalabilitySinglePipeNext::CreateDecodeSinglePipe; hwInterface->pfnCreateDecodeMultiPipe = decode::DecodeScalabilityMultiPipeNext::CreateDecodeMultiPipe; #if USE_CODECHAL_DEBUG_TOOL CodechalDebugInterface *debugInterface = MOS_New(CodechalDebugInterface); if (debugInterface == nullptr) { MOS_Delete(hwInterface); CODECHAL_PUBLIC_ASSERTMESSAGE("debugInterface is not valid!"); return MOS_STATUS_NO_SPACE; } if (debugInterface->Initialize(hwInterface, CodecFunction) != MOS_STATUS_SUCCESS) { MOS_Delete(hwInterface); MOS_Delete(debugInterface); CODECHAL_PUBLIC_ASSERTMESSAGE("Debug interface creation failed!"); return MOS_STATUS_INVALID_PARAMETER; } #else CodechalDebugInterface *debugInterface = nullptr; #endif // USE_CODECHAL_DEBUG_TOOL auto release_func = [&]() { MOS_Delete(hwInterface); #if USE_CODECHAL_DEBUG_TOOL MOS_Delete(debugInterface); #endif // USE_CODECHAL_DEBUG_TOOL }; if (CodecHalIsDecode(CodecFunction)) { #ifdef _MPEG2_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_MPEG2IDCT || info->Mode == CODECHAL_DECODE_MODE_MPEG2VLD) { m_codechalDevice = MOS_New(DecodeMpeg2PipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); } else #endif #ifdef _VC1_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_VC1IT || info->Mode == CODECHAL_DECODE_MODE_VC1VLD) { CODECHAL_PUBLIC_ASSERTMESSAGE("MTL doesn't support VC1!"); } else #endif #ifdef _AVC_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_AVCVLD) { m_codechalDevice = MOS_New(DecodeAvcPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); } else #endif #ifdef _JPEG_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_JPEG) { m_codechalDevice = MOS_New(DecodeJpegPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); } else #endif #ifdef _VP8_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_VP8VLD) { m_codechalDevice = MOS_New(DecodeVp8PipelineAdapterXe_Lpm_Plus_Base, hwInterface, debugInterface); } else #endif #ifdef _HEVC_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_HEVCVLD) { m_codechalDevice = MOS_New(DecodeHevcPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); } else #endif #ifdef _VP9_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_VP9VLD) { m_codechalDevice = MOS_New(DecodeVp9PipelineAdapterXe_Lpm_Plus_Base, hwInterface, debugInterface); } else #endif #ifdef _AV1_DECODE_SUPPORTED if (info->Mode == CODECHAL_DECODE_MODE_AV1VLD) { m_codechalDevice = MOS_New(DecodeAv1PipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); } else #endif { CODECHAL_PUBLIC_ASSERTMESSAGE("Decode mode requested invalid!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } if (m_codechalDevice == nullptr) { MOS_Delete(hwInterface); mhwInterfaces->SetDestroyState(true); #if USE_CODECHAL_DEBUG_TOOL MOS_Delete(debugInterface); #endif CODECHAL_PUBLIC_ASSERTMESSAGE("Decoder device creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_NO_SPACE, release_func); } } else if (CodecHalIsEncode(CodecFunction)) { #if defined(_AVC_ENCODE_VDENC_SUPPORTED) if (info->Mode == CODECHAL_ENCODE_MODE_AVC) { if (CodecHalUsesVdencEngine(info->CodecFunction)) { m_codechalDevice = MOS_New(EncodeAvcVdencPipelineAdapterXe_Lpm_Plus_Base, hwInterface, debugInterface); if (m_codechalDevice == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode state creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } else { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode allocation failed, AVC VME Encoder is not supported, please use AVC LowPower Encoder instead!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } } else #endif #ifdef _VP9_ENCODE_VDENC_SUPPORTED if (info->Mode == CODECHAL_ENCODE_MODE_VP9) { m_codechalDevice = MOS_New(EncodeVp9VdencPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); if (m_codechalDevice == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode state creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } else #endif if (info->Mode == CODECHAL_ENCODE_MODE_MPEG2) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode allocation failed, MPEG2 Encoder is not supported!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } else #ifdef _JPEG_ENCODE_SUPPORTED if (info->Mode == CODECHAL_ENCODE_MODE_JPEG) { m_codechalDevice = MOS_New(EncodeJpegPipelineAdapterXe_Lpm_Plus_Base, hwInterface, debugInterface); if (m_codechalDevice == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode state creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } else #endif #if defined(_AV1_ENCODE_VDENC_SUPPORTED) if (info->Mode == codechalEncodeModeAv1) { if (CodecHalUsesVdencEngine(info->CodecFunction)) { m_codechalDevice = MOS_New(EncodeAv1VdencPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); if (m_codechalDevice == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode state creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } else { CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } } else #endif #if defined(_HEVC_ENCODE_VDENC_SUPPORTED) if (info->Mode == CODECHAL_ENCODE_MODE_HEVC) { if (CodecHalUsesVdencEngine(info->CodecFunction)) { m_codechalDevice = MOS_New(EncodeHevcVdencPipelineAdapterXe_Lpm_Plus, hwInterface, debugInterface); if (m_codechalDevice == nullptr) { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode state creation failed!"); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } else { CODECHAL_PUBLIC_ASSERTMESSAGE("Encode allocation failed, HEVC VME Encoder is not supported."); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } } else #endif { CODECHAL_PUBLIC_ASSERTMESSAGE("Unsupported encode function requested."); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } } else { CODECHAL_PUBLIC_ASSERTMESSAGE("Unsupported codec function requested."); CODECHAL_PUBLIC_CHK_STATUS_WITH_DESTROY_RETURN(MOS_STATUS_INVALID_PARAMETER, release_func); } return MOS_STATUS_SUCCESS; } static bool mtlRegisteredRenderHal = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS RenderHalInterfacesXe_Lpg::Initialize() { m_renderhalDevice = MOS_New(XRenderHal); if (m_renderhalDevice == nullptr) { MHW_ASSERTMESSAGE("Create Render Hal interfaces failed.") return MOS_STATUS_NO_SPACE; } return MOS_STATUS_SUCCESS; } #define IP_VERSION_XE_LPM_PLUS 0x1300 static bool mtlRegisteredHwInfo = MediaFactory:: Register((uint32_t)IGFX_METEORLAKE); MOS_STATUS MediaInterfacesHwInfoDeviceXe_Lpm_Plus::Initialize(PLATFORM platform) { m_hwInfo.SetDeviceInfo(IP_VERSION_XE_LPM_PLUS, platform.usRevId); return MOS_STATUS_SUCCESS; }