#ifndef _G_CE_UTILS_NVOC_H_ #define _G_CE_UTILS_NVOC_H_ #include "nvoc/runtime.h" // Version of generated metadata structures #ifdef NVOC_METADATA_VERSION #undef NVOC_METADATA_VERSION #endif #define NVOC_METADATA_VERSION 0 #ifdef __cplusplus extern "C" { #endif /* * SPDX-FileCopyrightText: Copyright (c) 2023-2024 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: MIT * * 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. */ #pragma once #include "g_ce_utils_nvoc.h" #ifndef CE_UTILS_H #define CE_UTILS_H #include "gpu/gpu_resource.h" // GpuResource #include "class/cl0050.h" #include "ctrl/ctrl0050.h" #include "kernel/gpu/mem_mgr/channel_utils.h" typedef struct { MEMORY_DESCRIPTOR *pMemDesc; NvU64 offset; NvU64 length; NvU32 pattern; NvU64 flags; NvU64 submittedWorkId; // Payload to poll for async completion } CEUTILS_MEMSET_PARAMS; typedef struct { MEMORY_DESCRIPTOR *pSrcMemDesc; MEMORY_DESCRIPTOR *pDstMemDesc; NvU64 dstOffset; NvU64 srcOffset; NvU64 length; NvU64 flags; NvU64 submittedWorkId; // Payload to poll for async completion } CEUTILS_MEMCOPY_PARAMS; struct KernelChannel; #ifndef __NVOC_CLASS_KernelChannel_TYPEDEF__ #define __NVOC_CLASS_KernelChannel_TYPEDEF__ typedef struct KernelChannel KernelChannel; #endif /* __NVOC_CLASS_KernelChannel_TYPEDEF__ */ #ifndef __nvoc_class_id_KernelChannel #define __nvoc_class_id_KernelChannel 0x5d8d70 #endif /* __nvoc_class_id_KernelChannel */ // Private field names are wrapped in PRIVATE_FIELD, which does nothing for // the matching C source file, but causes diagnostics to be issued if another // source file references the field. #ifdef NVOC_CE_UTILS_H_PRIVATE_ACCESS_ALLOWED #define PRIVATE_FIELD(x) x #else #define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x) #endif struct CeUtils { // Metadata const struct NVOC_RTTI *__nvoc_rtti; // Parent (i.e. superclass or base class) object pointers struct Object __nvoc_base_Object; // Ancestor object pointers for `staticCast` feature struct Object *__nvoc_pbase_Object; // obj super struct CeUtils *__nvoc_pbase_CeUtils; // ceutils // Data members NvHandle hClient; OBJCHANNEL *pChannel; struct OBJGPU *pGpu; struct KernelCE *pKCe; NvBool bUseVasForCeCopy; NvU32 hTdCopyClass; NvU64 lastSubmittedPayload; NvU64 lastCompletedPayload; struct KernelChannel *pLiteKernelChannel; }; #ifndef __NVOC_CLASS_CeUtils_TYPEDEF__ #define __NVOC_CLASS_CeUtils_TYPEDEF__ typedef struct CeUtils CeUtils; #endif /* __NVOC_CLASS_CeUtils_TYPEDEF__ */ #ifndef __nvoc_class_id_CeUtils #define __nvoc_class_id_CeUtils 0x8b8bae #endif /* __nvoc_class_id_CeUtils */ // Casting support extern const struct NVOC_CLASS_DEF __nvoc_class_def_CeUtils; #define __staticCast_CeUtils(pThis) \ ((pThis)->__nvoc_pbase_CeUtils) #ifdef __nvoc_ce_utils_h_disabled #define __dynamicCast_CeUtils(pThis) ((CeUtils*)NULL) #else //__nvoc_ce_utils_h_disabled #define __dynamicCast_CeUtils(pThis) \ ((CeUtils*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(CeUtils))) #endif //__nvoc_ce_utils_h_disabled NV_STATUS __nvoc_objCreateDynamic_CeUtils(CeUtils**, Dynamic*, NvU32, va_list); NV_STATUS __nvoc_objCreate_CeUtils(CeUtils**, Dynamic*, NvU32, struct OBJGPU * arg_pGpu, KERNEL_MIG_GPU_INSTANCE * arg_pKernelMIGGPUInstance, NV0050_ALLOCATION_PARAMETERS * arg_pAllocParams); #define __objCreate_CeUtils(ppNewObj, pParent, createFlags, arg_pGpu, arg_pKernelMIGGPUInstance, arg_pAllocParams) \ __nvoc_objCreate_CeUtils((ppNewObj), staticCast((pParent), Dynamic), (createFlags), arg_pGpu, arg_pKernelMIGGPUInstance, arg_pAllocParams) // Wrapper macros // Dispatch functions NV_STATUS ceutilsConstruct_IMPL(struct CeUtils *arg_pCeUtils, struct OBJGPU *arg_pGpu, KERNEL_MIG_GPU_INSTANCE *arg_pKernelMIGGPUInstance, NV0050_ALLOCATION_PARAMETERS *arg_pAllocParams); #define __nvoc_ceutilsConstruct(arg_pCeUtils, arg_pGpu, arg_pKernelMIGGPUInstance, arg_pAllocParams) ceutilsConstruct_IMPL(arg_pCeUtils, arg_pGpu, arg_pKernelMIGGPUInstance, arg_pAllocParams) void ceutilsDestruct_IMPL(struct CeUtils *pCeUtils); #define __nvoc_ceutilsDestruct(pCeUtils) ceutilsDestruct_IMPL(pCeUtils) NV_STATUS ceutilsMemset_IMPL(struct CeUtils *pCeUtils, CEUTILS_MEMSET_PARAMS *pParams); #ifdef __nvoc_ce_utils_h_disabled static inline NV_STATUS ceutilsMemset(struct CeUtils *pCeUtils, CEUTILS_MEMSET_PARAMS *pParams) { NV_ASSERT_FAILED_PRECOMP("CeUtils was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_ce_utils_h_disabled #define ceutilsMemset(pCeUtils, pParams) ceutilsMemset_IMPL(pCeUtils, pParams) #endif //__nvoc_ce_utils_h_disabled NV_STATUS ceutilsMemcopy_IMPL(struct CeUtils *pCeUtils, CEUTILS_MEMCOPY_PARAMS *pParams); #ifdef __nvoc_ce_utils_h_disabled static inline NV_STATUS ceutilsMemcopy(struct CeUtils *pCeUtils, CEUTILS_MEMCOPY_PARAMS *pParams) { NV_ASSERT_FAILED_PRECOMP("CeUtils was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_ce_utils_h_disabled #define ceutilsMemcopy(pCeUtils, pParams) ceutilsMemcopy_IMPL(pCeUtils, pParams) #endif //__nvoc_ce_utils_h_disabled NvU64 ceutilsUpdateProgress_IMPL(struct CeUtils *pCeUtils); #ifdef __nvoc_ce_utils_h_disabled static inline NvU64 ceutilsUpdateProgress(struct CeUtils *pCeUtils) { NV_ASSERT_FAILED_PRECOMP("CeUtils was disabled!"); return 0; } #else //__nvoc_ce_utils_h_disabled #define ceutilsUpdateProgress(pCeUtils) ceutilsUpdateProgress_IMPL(pCeUtils) #endif //__nvoc_ce_utils_h_disabled void ceutilsServiceInterrupts_IMPL(struct CeUtils *pCeUtils); #ifdef __nvoc_ce_utils_h_disabled static inline void ceutilsServiceInterrupts(struct CeUtils *pCeUtils) { NV_ASSERT_FAILED_PRECOMP("CeUtils was disabled!"); } #else //__nvoc_ce_utils_h_disabled #define ceutilsServiceInterrupts(pCeUtils) ceutilsServiceInterrupts_IMPL(pCeUtils) #endif //__nvoc_ce_utils_h_disabled #undef PRIVATE_FIELD // Private field names are wrapped in PRIVATE_FIELD, which does nothing for // the matching C source file, but causes diagnostics to be issued if another // source file references the field. #ifdef NVOC_CE_UTILS_H_PRIVATE_ACCESS_ALLOWED #define PRIVATE_FIELD(x) x #else #define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x) #endif struct CeUtilsApi { // Metadata const struct NVOC_RTTI *__nvoc_rtti; // Parent (i.e. superclass or base class) object pointers struct GpuResource __nvoc_base_GpuResource; // Ancestor object pointers for `staticCast` feature struct Object *__nvoc_pbase_Object; // obj super^4 struct RsResource *__nvoc_pbase_RsResource; // res super^3 struct RmResourceCommon *__nvoc_pbase_RmResourceCommon; // rmrescmn super^3 struct RmResource *__nvoc_pbase_RmResource; // rmres super^2 struct GpuResource *__nvoc_pbase_GpuResource; // gpures super struct CeUtilsApi *__nvoc_pbase_CeUtilsApi; // ceutilsapi // Vtable with 28 per-object function pointers NV_STATUS (*__ceutilsapiCtrlCmdMemset__)(struct CeUtilsApi * /*this*/, NV0050_CTRL_MEMSET_PARAMS *); // exported (id=0x500101) NV_STATUS (*__ceutilsapiCtrlCmdMemcopy__)(struct CeUtilsApi * /*this*/, NV0050_CTRL_MEMCOPY_PARAMS *); // exported (id=0x500102) NV_STATUS (*__ceutilsapiCtrlCmdCheckProgress__)(struct CeUtilsApi * /*this*/, NV0050_CTRL_CHECK_PROGRESS_PARAMS *); // exported (id=0x500103) NV_STATUS (*__ceutilsapiControl__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (gpures) base (gpures) NV_STATUS (*__ceutilsapiMap__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_CPU_MAP_PARAMS *, struct RsCpuMapping *); // virtual inherited (gpures) base (gpures) NV_STATUS (*__ceutilsapiUnmap__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RsCpuMapping *); // virtual inherited (gpures) base (gpures) NvBool (*__ceutilsapiShareCallback__)(struct CeUtilsApi * /*this*/, struct RsClient *, struct RsResourceRef *, RS_SHARE_POLICY *); // virtual inherited (gpures) base (gpures) NV_STATUS (*__ceutilsapiGetRegBaseOffsetAndSize__)(struct CeUtilsApi * /*this*/, struct OBJGPU *, NvU32 *, NvU32 *); // virtual inherited (gpures) base (gpures) NV_STATUS (*__ceutilsapiGetMapAddrSpace__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, NvU32, NV_ADDRESS_SPACE *); // virtual inherited (gpures) base (gpures) NV_STATUS (*__ceutilsapiInternalControlForward__)(struct CeUtilsApi * /*this*/, NvU32, void *, NvU32); // virtual inherited (gpures) base (gpures) NvHandle (*__ceutilsapiGetInternalObjectHandle__)(struct CeUtilsApi * /*this*/); // virtual inherited (gpures) base (gpures) NvBool (*__ceutilsapiAccessCallback__)(struct CeUtilsApi * /*this*/, struct RsClient *, void *, RsAccessRight); // virtual inherited (rmres) base (gpures) NV_STATUS (*__ceutilsapiGetMemInterMapParams__)(struct CeUtilsApi * /*this*/, RMRES_MEM_INTER_MAP_PARAMS *); // virtual inherited (rmres) base (gpures) NV_STATUS (*__ceutilsapiCheckMemInterUnmap__)(struct CeUtilsApi * /*this*/, NvBool); // virtual inherited (rmres) base (gpures) NV_STATUS (*__ceutilsapiGetMemoryMappingDescriptor__)(struct CeUtilsApi * /*this*/, struct MEMORY_DESCRIPTOR **); // virtual inherited (rmres) base (gpures) NV_STATUS (*__ceutilsapiControlSerialization_Prologue__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (rmres) base (gpures) void (*__ceutilsapiControlSerialization_Epilogue__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (rmres) base (gpures) NV_STATUS (*__ceutilsapiControl_Prologue__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (rmres) base (gpures) void (*__ceutilsapiControl_Epilogue__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (rmres) base (gpures) NvBool (*__ceutilsapiCanCopy__)(struct CeUtilsApi * /*this*/); // virtual inherited (res) base (gpures) NV_STATUS (*__ceutilsapiIsDuplicate__)(struct CeUtilsApi * /*this*/, NvHandle, NvBool *); // virtual inherited (res) base (gpures) void (*__ceutilsapiPreDestruct__)(struct CeUtilsApi * /*this*/); // virtual inherited (res) base (gpures) NV_STATUS (*__ceutilsapiControlFilter__)(struct CeUtilsApi * /*this*/, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *); // virtual inherited (res) base (gpures) NvBool (*__ceutilsapiIsPartialUnmapSupported__)(struct CeUtilsApi * /*this*/); // inline virtual inherited (res) base (gpures) body NV_STATUS (*__ceutilsapiMapTo__)(struct CeUtilsApi * /*this*/, RS_RES_MAP_TO_PARAMS *); // virtual inherited (res) base (gpures) NV_STATUS (*__ceutilsapiUnmapFrom__)(struct CeUtilsApi * /*this*/, RS_RES_UNMAP_FROM_PARAMS *); // virtual inherited (res) base (gpures) NvU32 (*__ceutilsapiGetRefCount__)(struct CeUtilsApi * /*this*/); // virtual inherited (res) base (gpures) void (*__ceutilsapiAddAdditionalDependants__)(struct RsClient *, struct CeUtilsApi * /*this*/, RsResourceRef *); // virtual inherited (res) base (gpures) // Data members struct CeUtils *pCeUtils; }; #ifndef __NVOC_CLASS_CeUtilsApi_TYPEDEF__ #define __NVOC_CLASS_CeUtilsApi_TYPEDEF__ typedef struct CeUtilsApi CeUtilsApi; #endif /* __NVOC_CLASS_CeUtilsApi_TYPEDEF__ */ #ifndef __nvoc_class_id_CeUtilsApi #define __nvoc_class_id_CeUtilsApi 0x2eb528 #endif /* __nvoc_class_id_CeUtilsApi */ // Casting support extern const struct NVOC_CLASS_DEF __nvoc_class_def_CeUtilsApi; #define __staticCast_CeUtilsApi(pThis) \ ((pThis)->__nvoc_pbase_CeUtilsApi) #ifdef __nvoc_ce_utils_h_disabled #define __dynamicCast_CeUtilsApi(pThis) ((CeUtilsApi*)NULL) #else //__nvoc_ce_utils_h_disabled #define __dynamicCast_CeUtilsApi(pThis) \ ((CeUtilsApi*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(CeUtilsApi))) #endif //__nvoc_ce_utils_h_disabled NV_STATUS __nvoc_objCreateDynamic_CeUtilsApi(CeUtilsApi**, Dynamic*, NvU32, va_list); NV_STATUS __nvoc_objCreate_CeUtilsApi(CeUtilsApi**, Dynamic*, NvU32, CALL_CONTEXT * arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams); #define __objCreate_CeUtilsApi(ppNewObj, pParent, createFlags, arg_pCallContext, arg_pParams) \ __nvoc_objCreate_CeUtilsApi((ppNewObj), staticCast((pParent), Dynamic), (createFlags), arg_pCallContext, arg_pParams) // Wrapper macros #define ceutilsapiCtrlCmdMemset_FNPTR(pCeUtilsApi) pCeUtilsApi->__ceutilsapiCtrlCmdMemset__ #define ceutilsapiCtrlCmdMemset(pCeUtilsApi, pParams) ceutilsapiCtrlCmdMemset_DISPATCH(pCeUtilsApi, pParams) #define ceutilsapiCtrlCmdMemcopy_FNPTR(pCeUtilsApi) pCeUtilsApi->__ceutilsapiCtrlCmdMemcopy__ #define ceutilsapiCtrlCmdMemcopy(pCeUtilsApi, pParams) ceutilsapiCtrlCmdMemcopy_DISPATCH(pCeUtilsApi, pParams) #define ceutilsapiCtrlCmdCheckProgress_FNPTR(pCeUtilsApi) pCeUtilsApi->__ceutilsapiCtrlCmdCheckProgress__ #define ceutilsapiCtrlCmdCheckProgress(pCeUtilsApi, pParams) ceutilsapiCtrlCmdCheckProgress_DISPATCH(pCeUtilsApi, pParams) #define ceutilsapiControl_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresControl__ #define ceutilsapiControl(pGpuResource, pCallContext, pParams) ceutilsapiControl_DISPATCH(pGpuResource, pCallContext, pParams) #define ceutilsapiMap_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresMap__ #define ceutilsapiMap(pGpuResource, pCallContext, pParams, pCpuMapping) ceutilsapiMap_DISPATCH(pGpuResource, pCallContext, pParams, pCpuMapping) #define ceutilsapiUnmap_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresUnmap__ #define ceutilsapiUnmap(pGpuResource, pCallContext, pCpuMapping) ceutilsapiUnmap_DISPATCH(pGpuResource, pCallContext, pCpuMapping) #define ceutilsapiShareCallback_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresShareCallback__ #define ceutilsapiShareCallback(pGpuResource, pInvokingClient, pParentRef, pSharePolicy) ceutilsapiShareCallback_DISPATCH(pGpuResource, pInvokingClient, pParentRef, pSharePolicy) #define ceutilsapiGetRegBaseOffsetAndSize_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresGetRegBaseOffsetAndSize__ #define ceutilsapiGetRegBaseOffsetAndSize(pGpuResource, pGpu, pOffset, pSize) ceutilsapiGetRegBaseOffsetAndSize_DISPATCH(pGpuResource, pGpu, pOffset, pSize) #define ceutilsapiGetMapAddrSpace_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresGetMapAddrSpace__ #define ceutilsapiGetMapAddrSpace(pGpuResource, pCallContext, mapFlags, pAddrSpace) ceutilsapiGetMapAddrSpace_DISPATCH(pGpuResource, pCallContext, mapFlags, pAddrSpace) #define ceutilsapiInternalControlForward_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresInternalControlForward__ #define ceutilsapiInternalControlForward(pGpuResource, command, pParams, size) ceutilsapiInternalControlForward_DISPATCH(pGpuResource, command, pParams, size) #define ceutilsapiGetInternalObjectHandle_FNPTR(pGpuResource) pGpuResource->__nvoc_base_GpuResource.__gpuresGetInternalObjectHandle__ #define ceutilsapiGetInternalObjectHandle(pGpuResource) ceutilsapiGetInternalObjectHandle_DISPATCH(pGpuResource) #define ceutilsapiAccessCallback_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresAccessCallback__ #define ceutilsapiAccessCallback(pResource, pInvokingClient, pAllocParams, accessRight) ceutilsapiAccessCallback_DISPATCH(pResource, pInvokingClient, pAllocParams, accessRight) #define ceutilsapiGetMemInterMapParams_FNPTR(pRmResource) pRmResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresGetMemInterMapParams__ #define ceutilsapiGetMemInterMapParams(pRmResource, pParams) ceutilsapiGetMemInterMapParams_DISPATCH(pRmResource, pParams) #define ceutilsapiCheckMemInterUnmap_FNPTR(pRmResource) pRmResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresCheckMemInterUnmap__ #define ceutilsapiCheckMemInterUnmap(pRmResource, bSubdeviceHandleProvided) ceutilsapiCheckMemInterUnmap_DISPATCH(pRmResource, bSubdeviceHandleProvided) #define ceutilsapiGetMemoryMappingDescriptor_FNPTR(pRmResource) pRmResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresGetMemoryMappingDescriptor__ #define ceutilsapiGetMemoryMappingDescriptor(pRmResource, ppMemDesc) ceutilsapiGetMemoryMappingDescriptor_DISPATCH(pRmResource, ppMemDesc) #define ceutilsapiControlSerialization_Prologue_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresControlSerialization_Prologue__ #define ceutilsapiControlSerialization_Prologue(pResource, pCallContext, pParams) ceutilsapiControlSerialization_Prologue_DISPATCH(pResource, pCallContext, pParams) #define ceutilsapiControlSerialization_Epilogue_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresControlSerialization_Epilogue__ #define ceutilsapiControlSerialization_Epilogue(pResource, pCallContext, pParams) ceutilsapiControlSerialization_Epilogue_DISPATCH(pResource, pCallContext, pParams) #define ceutilsapiControl_Prologue_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresControl_Prologue__ #define ceutilsapiControl_Prologue(pResource, pCallContext, pParams) ceutilsapiControl_Prologue_DISPATCH(pResource, pCallContext, pParams) #define ceutilsapiControl_Epilogue_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__rmresControl_Epilogue__ #define ceutilsapiControl_Epilogue(pResource, pCallContext, pParams) ceutilsapiControl_Epilogue_DISPATCH(pResource, pCallContext, pParams) #define ceutilsapiCanCopy_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resCanCopy__ #define ceutilsapiCanCopy(pResource) ceutilsapiCanCopy_DISPATCH(pResource) #define ceutilsapiIsDuplicate_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resIsDuplicate__ #define ceutilsapiIsDuplicate(pResource, hMemory, pDuplicate) ceutilsapiIsDuplicate_DISPATCH(pResource, hMemory, pDuplicate) #define ceutilsapiPreDestruct_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resPreDestruct__ #define ceutilsapiPreDestruct(pResource) ceutilsapiPreDestruct_DISPATCH(pResource) #define ceutilsapiControlFilter_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resControlFilter__ #define ceutilsapiControlFilter(pResource, pCallContext, pParams) ceutilsapiControlFilter_DISPATCH(pResource, pCallContext, pParams) #define ceutilsapiIsPartialUnmapSupported_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resIsPartialUnmapSupported__ #define ceutilsapiIsPartialUnmapSupported(pResource) ceutilsapiIsPartialUnmapSupported_DISPATCH(pResource) #define ceutilsapiMapTo_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resMapTo__ #define ceutilsapiMapTo(pResource, pParams) ceutilsapiMapTo_DISPATCH(pResource, pParams) #define ceutilsapiUnmapFrom_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resUnmapFrom__ #define ceutilsapiUnmapFrom(pResource, pParams) ceutilsapiUnmapFrom_DISPATCH(pResource, pParams) #define ceutilsapiGetRefCount_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resGetRefCount__ #define ceutilsapiGetRefCount(pResource) ceutilsapiGetRefCount_DISPATCH(pResource) #define ceutilsapiAddAdditionalDependants_FNPTR(pResource) pResource->__nvoc_base_GpuResource.__nvoc_base_RmResource.__nvoc_base_RsResource.__resAddAdditionalDependants__ #define ceutilsapiAddAdditionalDependants(pClient, pResource, pReference) ceutilsapiAddAdditionalDependants_DISPATCH(pClient, pResource, pReference) // Dispatch functions static inline NV_STATUS ceutilsapiCtrlCmdMemset_DISPATCH(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_MEMSET_PARAMS *pParams) { return pCeUtilsApi->__ceutilsapiCtrlCmdMemset__(pCeUtilsApi, pParams); } static inline NV_STATUS ceutilsapiCtrlCmdMemcopy_DISPATCH(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_MEMCOPY_PARAMS *pParams) { return pCeUtilsApi->__ceutilsapiCtrlCmdMemcopy__(pCeUtilsApi, pParams); } static inline NV_STATUS ceutilsapiCtrlCmdCheckProgress_DISPATCH(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_CHECK_PROGRESS_PARAMS *pParams) { return pCeUtilsApi->__ceutilsapiCtrlCmdCheckProgress__(pCeUtilsApi, pParams); } static inline NV_STATUS ceutilsapiControl_DISPATCH(struct CeUtilsApi *pGpuResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return pGpuResource->__ceutilsapiControl__(pGpuResource, pCallContext, pParams); } static inline NV_STATUS ceutilsapiMap_DISPATCH(struct CeUtilsApi *pGpuResource, struct CALL_CONTEXT *pCallContext, struct RS_CPU_MAP_PARAMS *pParams, struct RsCpuMapping *pCpuMapping) { return pGpuResource->__ceutilsapiMap__(pGpuResource, pCallContext, pParams, pCpuMapping); } static inline NV_STATUS ceutilsapiUnmap_DISPATCH(struct CeUtilsApi *pGpuResource, struct CALL_CONTEXT *pCallContext, struct RsCpuMapping *pCpuMapping) { return pGpuResource->__ceutilsapiUnmap__(pGpuResource, pCallContext, pCpuMapping); } static inline NvBool ceutilsapiShareCallback_DISPATCH(struct CeUtilsApi *pGpuResource, struct RsClient *pInvokingClient, struct RsResourceRef *pParentRef, RS_SHARE_POLICY *pSharePolicy) { return pGpuResource->__ceutilsapiShareCallback__(pGpuResource, pInvokingClient, pParentRef, pSharePolicy); } static inline NV_STATUS ceutilsapiGetRegBaseOffsetAndSize_DISPATCH(struct CeUtilsApi *pGpuResource, struct OBJGPU *pGpu, NvU32 *pOffset, NvU32 *pSize) { return pGpuResource->__ceutilsapiGetRegBaseOffsetAndSize__(pGpuResource, pGpu, pOffset, pSize); } static inline NV_STATUS ceutilsapiGetMapAddrSpace_DISPATCH(struct CeUtilsApi *pGpuResource, struct CALL_CONTEXT *pCallContext, NvU32 mapFlags, NV_ADDRESS_SPACE *pAddrSpace) { return pGpuResource->__ceutilsapiGetMapAddrSpace__(pGpuResource, pCallContext, mapFlags, pAddrSpace); } static inline NV_STATUS ceutilsapiInternalControlForward_DISPATCH(struct CeUtilsApi *pGpuResource, NvU32 command, void *pParams, NvU32 size) { return pGpuResource->__ceutilsapiInternalControlForward__(pGpuResource, command, pParams, size); } static inline NvHandle ceutilsapiGetInternalObjectHandle_DISPATCH(struct CeUtilsApi *pGpuResource) { return pGpuResource->__ceutilsapiGetInternalObjectHandle__(pGpuResource); } static inline NvBool ceutilsapiAccessCallback_DISPATCH(struct CeUtilsApi *pResource, struct RsClient *pInvokingClient, void *pAllocParams, RsAccessRight accessRight) { return pResource->__ceutilsapiAccessCallback__(pResource, pInvokingClient, pAllocParams, accessRight); } static inline NV_STATUS ceutilsapiGetMemInterMapParams_DISPATCH(struct CeUtilsApi *pRmResource, RMRES_MEM_INTER_MAP_PARAMS *pParams) { return pRmResource->__ceutilsapiGetMemInterMapParams__(pRmResource, pParams); } static inline NV_STATUS ceutilsapiCheckMemInterUnmap_DISPATCH(struct CeUtilsApi *pRmResource, NvBool bSubdeviceHandleProvided) { return pRmResource->__ceutilsapiCheckMemInterUnmap__(pRmResource, bSubdeviceHandleProvided); } static inline NV_STATUS ceutilsapiGetMemoryMappingDescriptor_DISPATCH(struct CeUtilsApi *pRmResource, struct MEMORY_DESCRIPTOR **ppMemDesc) { return pRmResource->__ceutilsapiGetMemoryMappingDescriptor__(pRmResource, ppMemDesc); } static inline NV_STATUS ceutilsapiControlSerialization_Prologue_DISPATCH(struct CeUtilsApi *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return pResource->__ceutilsapiControlSerialization_Prologue__(pResource, pCallContext, pParams); } static inline void ceutilsapiControlSerialization_Epilogue_DISPATCH(struct CeUtilsApi *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { pResource->__ceutilsapiControlSerialization_Epilogue__(pResource, pCallContext, pParams); } static inline NV_STATUS ceutilsapiControl_Prologue_DISPATCH(struct CeUtilsApi *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return pResource->__ceutilsapiControl_Prologue__(pResource, pCallContext, pParams); } static inline void ceutilsapiControl_Epilogue_DISPATCH(struct CeUtilsApi *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { pResource->__ceutilsapiControl_Epilogue__(pResource, pCallContext, pParams); } static inline NvBool ceutilsapiCanCopy_DISPATCH(struct CeUtilsApi *pResource) { return pResource->__ceutilsapiCanCopy__(pResource); } static inline NV_STATUS ceutilsapiIsDuplicate_DISPATCH(struct CeUtilsApi *pResource, NvHandle hMemory, NvBool *pDuplicate) { return pResource->__ceutilsapiIsDuplicate__(pResource, hMemory, pDuplicate); } static inline void ceutilsapiPreDestruct_DISPATCH(struct CeUtilsApi *pResource) { pResource->__ceutilsapiPreDestruct__(pResource); } static inline NV_STATUS ceutilsapiControlFilter_DISPATCH(struct CeUtilsApi *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return pResource->__ceutilsapiControlFilter__(pResource, pCallContext, pParams); } static inline NvBool ceutilsapiIsPartialUnmapSupported_DISPATCH(struct CeUtilsApi *pResource) { return pResource->__ceutilsapiIsPartialUnmapSupported__(pResource); } static inline NV_STATUS ceutilsapiMapTo_DISPATCH(struct CeUtilsApi *pResource, RS_RES_MAP_TO_PARAMS *pParams) { return pResource->__ceutilsapiMapTo__(pResource, pParams); } static inline NV_STATUS ceutilsapiUnmapFrom_DISPATCH(struct CeUtilsApi *pResource, RS_RES_UNMAP_FROM_PARAMS *pParams) { return pResource->__ceutilsapiUnmapFrom__(pResource, pParams); } static inline NvU32 ceutilsapiGetRefCount_DISPATCH(struct CeUtilsApi *pResource) { return pResource->__ceutilsapiGetRefCount__(pResource); } static inline void ceutilsapiAddAdditionalDependants_DISPATCH(struct RsClient *pClient, struct CeUtilsApi *pResource, RsResourceRef *pReference) { pResource->__ceutilsapiAddAdditionalDependants__(pClient, pResource, pReference); } NV_STATUS ceutilsapiCtrlCmdMemset_IMPL(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_MEMSET_PARAMS *pParams); NV_STATUS ceutilsapiCtrlCmdMemcopy_IMPL(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_MEMCOPY_PARAMS *pParams); NV_STATUS ceutilsapiCtrlCmdCheckProgress_IMPL(struct CeUtilsApi *pCeUtilsApi, NV0050_CTRL_CHECK_PROGRESS_PARAMS *pParams); NV_STATUS ceutilsapiConstruct_IMPL(struct CeUtilsApi *arg_pCeUtilsApi, CALL_CONTEXT *arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL *arg_pParams); #define __nvoc_ceutilsapiConstruct(arg_pCeUtilsApi, arg_pCallContext, arg_pParams) ceutilsapiConstruct_IMPL(arg_pCeUtilsApi, arg_pCallContext, arg_pParams) void ceutilsapiDestruct_IMPL(struct CeUtilsApi *pCeUtilsApi); #define __nvoc_ceutilsapiDestruct(pCeUtilsApi) ceutilsapiDestruct_IMPL(pCeUtilsApi) #undef PRIVATE_FIELD #endif // CE_UTILS_H #ifdef __cplusplus } // extern "C" #endif #endif // _G_CE_UTILS_NVOC_H_