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255 lines
16 KiB
C
255 lines
16 KiB
C
#ifndef _G_NO_DEVICE_MEM_NVOC_H_
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#define _G_NO_DEVICE_MEM_NVOC_H_
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#include "nvoc/runtime.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* SPDX-FileCopyrightText: Copyright (c) 2018 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
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* SPDX-License-Identifier: MIT
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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* DEALINGS IN THE SOFTWARE.
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*/
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#include "g_no_device_mem_nvoc.h"
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#ifndef _NO_DEVICE_MEMORY_H_
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#define _NO_DEVICE_MEMORY_H_
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#include "mem_mgr/mem.h"
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/**
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* This class represents contiguous system memory that is associated with a
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* client instead of a device. This object can be used for memory allocations
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* that should survive device teardown.
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*/
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#ifdef NVOC_NO_DEVICE_MEM_H_PRIVATE_ACCESS_ALLOWED
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#define PRIVATE_FIELD(x) x
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#else
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#define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x)
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#endif
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struct NoDeviceMemory {
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const struct NVOC_RTTI *__nvoc_rtti;
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struct Memory __nvoc_base_Memory;
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struct Object *__nvoc_pbase_Object;
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struct RsResource *__nvoc_pbase_RsResource;
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struct RmResourceCommon *__nvoc_pbase_RmResourceCommon;
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struct RmResource *__nvoc_pbase_RmResource;
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struct Memory *__nvoc_pbase_Memory;
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struct NoDeviceMemory *__nvoc_pbase_NoDeviceMemory;
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NV_STATUS (*__nodevicememGetMapAddrSpace__)(struct NoDeviceMemory *, CALL_CONTEXT *, NvU32, NV_ADDRESS_SPACE *);
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NV_STATUS (*__nodevicememCheckMemInterUnmap__)(struct NoDeviceMemory *, NvBool);
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NvBool (*__nodevicememShareCallback__)(struct NoDeviceMemory *, struct RsClient *, struct RsResourceRef *, RS_SHARE_POLICY *);
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NV_STATUS (*__nodevicememMapTo__)(struct NoDeviceMemory *, RS_RES_MAP_TO_PARAMS *);
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NvU32 (*__nodevicememGetRefCount__)(struct NoDeviceMemory *);
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void (*__nodevicememAddAdditionalDependants__)(struct RsClient *, struct NoDeviceMemory *, RsResourceRef *);
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NV_STATUS (*__nodevicememControl_Prologue__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NvBool (*__nodevicememIsGpuMapAllowed__)(struct NoDeviceMemory *, struct OBJGPU *);
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NV_STATUS (*__nodevicememUnmapFrom__)(struct NoDeviceMemory *, RS_RES_UNMAP_FROM_PARAMS *);
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void (*__nodevicememControl_Epilogue__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NV_STATUS (*__nodevicememControlLookup__)(struct NoDeviceMemory *, struct RS_RES_CONTROL_PARAMS_INTERNAL *, const struct NVOC_EXPORTED_METHOD_DEF **);
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NV_STATUS (*__nodevicememControl__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NV_STATUS (*__nodevicememUnmap__)(struct NoDeviceMemory *, CALL_CONTEXT *, RsCpuMapping *);
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NV_STATUS (*__nodevicememGetMemInterMapParams__)(struct NoDeviceMemory *, RMRES_MEM_INTER_MAP_PARAMS *);
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NV_STATUS (*__nodevicememGetMemoryMappingDescriptor__)(struct NoDeviceMemory *, MEMORY_DESCRIPTOR **);
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NV_STATUS (*__nodevicememControlFilter__)(struct NoDeviceMemory *, struct CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NV_STATUS (*__nodevicememControlSerialization_Prologue__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NvBool (*__nodevicememCanCopy__)(struct NoDeviceMemory *);
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NV_STATUS (*__nodevicememIsReady__)(struct NoDeviceMemory *, NvBool);
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NV_STATUS (*__nodevicememCheckCopyPermissions__)(struct NoDeviceMemory *, struct OBJGPU *, struct Device *);
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void (*__nodevicememPreDestruct__)(struct NoDeviceMemory *);
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NV_STATUS (*__nodevicememIsDuplicate__)(struct NoDeviceMemory *, NvHandle, NvBool *);
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void (*__nodevicememControlSerialization_Epilogue__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_RES_CONTROL_PARAMS_INTERNAL *);
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NV_STATUS (*__nodevicememMap__)(struct NoDeviceMemory *, CALL_CONTEXT *, struct RS_CPU_MAP_PARAMS *, RsCpuMapping *);
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NvBool (*__nodevicememAccessCallback__)(struct NoDeviceMemory *, struct RsClient *, void *, RsAccessRight);
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};
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#ifndef __NVOC_CLASS_NoDeviceMemory_TYPEDEF__
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#define __NVOC_CLASS_NoDeviceMemory_TYPEDEF__
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typedef struct NoDeviceMemory NoDeviceMemory;
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#endif /* __NVOC_CLASS_NoDeviceMemory_TYPEDEF__ */
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#ifndef __nvoc_class_id_NoDeviceMemory
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#define __nvoc_class_id_NoDeviceMemory 0x6c0832
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#endif /* __nvoc_class_id_NoDeviceMemory */
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extern const struct NVOC_CLASS_DEF __nvoc_class_def_NoDeviceMemory;
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#define __staticCast_NoDeviceMemory(pThis) \
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((pThis)->__nvoc_pbase_NoDeviceMemory)
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#ifdef __nvoc_no_device_mem_h_disabled
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#define __dynamicCast_NoDeviceMemory(pThis) ((NoDeviceMemory*)NULL)
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#else //__nvoc_no_device_mem_h_disabled
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#define __dynamicCast_NoDeviceMemory(pThis) \
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((NoDeviceMemory*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(NoDeviceMemory)))
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#endif //__nvoc_no_device_mem_h_disabled
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NV_STATUS __nvoc_objCreateDynamic_NoDeviceMemory(NoDeviceMemory**, Dynamic*, NvU32, va_list);
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NV_STATUS __nvoc_objCreate_NoDeviceMemory(NoDeviceMemory**, Dynamic*, NvU32, CALL_CONTEXT * arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams);
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#define __objCreate_NoDeviceMemory(ppNewObj, pParent, createFlags, arg_pCallContext, arg_pParams) \
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__nvoc_objCreate_NoDeviceMemory((ppNewObj), staticCast((pParent), Dynamic), (createFlags), arg_pCallContext, arg_pParams)
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#define nodevicememGetMapAddrSpace(pNoDeviceMemory, pCallContext, mapFlags, pAddrSpace) nodevicememGetMapAddrSpace_DISPATCH(pNoDeviceMemory, pCallContext, mapFlags, pAddrSpace)
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#define nodevicememCheckMemInterUnmap(pMemory, bSubdeviceHandleProvided) nodevicememCheckMemInterUnmap_DISPATCH(pMemory, bSubdeviceHandleProvided)
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#define nodevicememShareCallback(pResource, pInvokingClient, pParentRef, pSharePolicy) nodevicememShareCallback_DISPATCH(pResource, pInvokingClient, pParentRef, pSharePolicy)
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#define nodevicememMapTo(pResource, pParams) nodevicememMapTo_DISPATCH(pResource, pParams)
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#define nodevicememGetRefCount(pResource) nodevicememGetRefCount_DISPATCH(pResource)
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#define nodevicememAddAdditionalDependants(pClient, pResource, pReference) nodevicememAddAdditionalDependants_DISPATCH(pClient, pResource, pReference)
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#define nodevicememControl_Prologue(pResource, pCallContext, pParams) nodevicememControl_Prologue_DISPATCH(pResource, pCallContext, pParams)
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#define nodevicememIsGpuMapAllowed(pMemory, pGpu) nodevicememIsGpuMapAllowed_DISPATCH(pMemory, pGpu)
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#define nodevicememUnmapFrom(pResource, pParams) nodevicememUnmapFrom_DISPATCH(pResource, pParams)
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#define nodevicememControl_Epilogue(pResource, pCallContext, pParams) nodevicememControl_Epilogue_DISPATCH(pResource, pCallContext, pParams)
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#define nodevicememControlLookup(pResource, pParams, ppEntry) nodevicememControlLookup_DISPATCH(pResource, pParams, ppEntry)
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#define nodevicememControl(pMemory, pCallContext, pParams) nodevicememControl_DISPATCH(pMemory, pCallContext, pParams)
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#define nodevicememUnmap(pMemory, pCallContext, pCpuMapping) nodevicememUnmap_DISPATCH(pMemory, pCallContext, pCpuMapping)
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#define nodevicememGetMemInterMapParams(pMemory, pParams) nodevicememGetMemInterMapParams_DISPATCH(pMemory, pParams)
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#define nodevicememGetMemoryMappingDescriptor(pMemory, ppMemDesc) nodevicememGetMemoryMappingDescriptor_DISPATCH(pMemory, ppMemDesc)
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#define nodevicememControlFilter(pResource, pCallContext, pParams) nodevicememControlFilter_DISPATCH(pResource, pCallContext, pParams)
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#define nodevicememControlSerialization_Prologue(pResource, pCallContext, pParams) nodevicememControlSerialization_Prologue_DISPATCH(pResource, pCallContext, pParams)
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#define nodevicememCanCopy(pResource) nodevicememCanCopy_DISPATCH(pResource)
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#define nodevicememIsReady(pMemory, bCopyConstructorContext) nodevicememIsReady_DISPATCH(pMemory, bCopyConstructorContext)
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#define nodevicememCheckCopyPermissions(pMemory, pDstGpu, pDstDevice) nodevicememCheckCopyPermissions_DISPATCH(pMemory, pDstGpu, pDstDevice)
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#define nodevicememPreDestruct(pResource) nodevicememPreDestruct_DISPATCH(pResource)
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#define nodevicememIsDuplicate(pMemory, hMemory, pDuplicate) nodevicememIsDuplicate_DISPATCH(pMemory, hMemory, pDuplicate)
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#define nodevicememControlSerialization_Epilogue(pResource, pCallContext, pParams) nodevicememControlSerialization_Epilogue_DISPATCH(pResource, pCallContext, pParams)
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#define nodevicememMap(pMemory, pCallContext, pParams, pCpuMapping) nodevicememMap_DISPATCH(pMemory, pCallContext, pParams, pCpuMapping)
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#define nodevicememAccessCallback(pResource, pInvokingClient, pAllocParams, accessRight) nodevicememAccessCallback_DISPATCH(pResource, pInvokingClient, pAllocParams, accessRight)
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NV_STATUS nodevicememGetMapAddrSpace_IMPL(struct NoDeviceMemory *pNoDeviceMemory, CALL_CONTEXT *pCallContext, NvU32 mapFlags, NV_ADDRESS_SPACE *pAddrSpace);
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static inline NV_STATUS nodevicememGetMapAddrSpace_DISPATCH(struct NoDeviceMemory *pNoDeviceMemory, CALL_CONTEXT *pCallContext, NvU32 mapFlags, NV_ADDRESS_SPACE *pAddrSpace) {
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return pNoDeviceMemory->__nodevicememGetMapAddrSpace__(pNoDeviceMemory, pCallContext, mapFlags, pAddrSpace);
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}
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static inline NV_STATUS nodevicememCheckMemInterUnmap_DISPATCH(struct NoDeviceMemory *pMemory, NvBool bSubdeviceHandleProvided) {
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return pMemory->__nodevicememCheckMemInterUnmap__(pMemory, bSubdeviceHandleProvided);
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}
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static inline NvBool nodevicememShareCallback_DISPATCH(struct NoDeviceMemory *pResource, struct RsClient *pInvokingClient, struct RsResourceRef *pParentRef, RS_SHARE_POLICY *pSharePolicy) {
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return pResource->__nodevicememShareCallback__(pResource, pInvokingClient, pParentRef, pSharePolicy);
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}
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static inline NV_STATUS nodevicememMapTo_DISPATCH(struct NoDeviceMemory *pResource, RS_RES_MAP_TO_PARAMS *pParams) {
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return pResource->__nodevicememMapTo__(pResource, pParams);
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}
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static inline NvU32 nodevicememGetRefCount_DISPATCH(struct NoDeviceMemory *pResource) {
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return pResource->__nodevicememGetRefCount__(pResource);
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}
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static inline void nodevicememAddAdditionalDependants_DISPATCH(struct RsClient *pClient, struct NoDeviceMemory *pResource, RsResourceRef *pReference) {
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pResource->__nodevicememAddAdditionalDependants__(pClient, pResource, pReference);
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}
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static inline NV_STATUS nodevicememControl_Prologue_DISPATCH(struct NoDeviceMemory *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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return pResource->__nodevicememControl_Prologue__(pResource, pCallContext, pParams);
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}
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static inline NvBool nodevicememIsGpuMapAllowed_DISPATCH(struct NoDeviceMemory *pMemory, struct OBJGPU *pGpu) {
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return pMemory->__nodevicememIsGpuMapAllowed__(pMemory, pGpu);
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}
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static inline NV_STATUS nodevicememUnmapFrom_DISPATCH(struct NoDeviceMemory *pResource, RS_RES_UNMAP_FROM_PARAMS *pParams) {
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return pResource->__nodevicememUnmapFrom__(pResource, pParams);
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}
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static inline void nodevicememControl_Epilogue_DISPATCH(struct NoDeviceMemory *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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pResource->__nodevicememControl_Epilogue__(pResource, pCallContext, pParams);
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}
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static inline NV_STATUS nodevicememControlLookup_DISPATCH(struct NoDeviceMemory *pResource, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams, const struct NVOC_EXPORTED_METHOD_DEF **ppEntry) {
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return pResource->__nodevicememControlLookup__(pResource, pParams, ppEntry);
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}
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static inline NV_STATUS nodevicememControl_DISPATCH(struct NoDeviceMemory *pMemory, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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return pMemory->__nodevicememControl__(pMemory, pCallContext, pParams);
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}
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static inline NV_STATUS nodevicememUnmap_DISPATCH(struct NoDeviceMemory *pMemory, CALL_CONTEXT *pCallContext, RsCpuMapping *pCpuMapping) {
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return pMemory->__nodevicememUnmap__(pMemory, pCallContext, pCpuMapping);
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}
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static inline NV_STATUS nodevicememGetMemInterMapParams_DISPATCH(struct NoDeviceMemory *pMemory, RMRES_MEM_INTER_MAP_PARAMS *pParams) {
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return pMemory->__nodevicememGetMemInterMapParams__(pMemory, pParams);
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}
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static inline NV_STATUS nodevicememGetMemoryMappingDescriptor_DISPATCH(struct NoDeviceMemory *pMemory, MEMORY_DESCRIPTOR **ppMemDesc) {
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return pMemory->__nodevicememGetMemoryMappingDescriptor__(pMemory, ppMemDesc);
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}
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static inline NV_STATUS nodevicememControlFilter_DISPATCH(struct NoDeviceMemory *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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return pResource->__nodevicememControlFilter__(pResource, pCallContext, pParams);
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}
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static inline NV_STATUS nodevicememControlSerialization_Prologue_DISPATCH(struct NoDeviceMemory *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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return pResource->__nodevicememControlSerialization_Prologue__(pResource, pCallContext, pParams);
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}
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static inline NvBool nodevicememCanCopy_DISPATCH(struct NoDeviceMemory *pResource) {
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return pResource->__nodevicememCanCopy__(pResource);
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}
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static inline NV_STATUS nodevicememIsReady_DISPATCH(struct NoDeviceMemory *pMemory, NvBool bCopyConstructorContext) {
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return pMemory->__nodevicememIsReady__(pMemory, bCopyConstructorContext);
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}
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static inline NV_STATUS nodevicememCheckCopyPermissions_DISPATCH(struct NoDeviceMemory *pMemory, struct OBJGPU *pDstGpu, struct Device *pDstDevice) {
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return pMemory->__nodevicememCheckCopyPermissions__(pMemory, pDstGpu, pDstDevice);
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}
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static inline void nodevicememPreDestruct_DISPATCH(struct NoDeviceMemory *pResource) {
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pResource->__nodevicememPreDestruct__(pResource);
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}
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static inline NV_STATUS nodevicememIsDuplicate_DISPATCH(struct NoDeviceMemory *pMemory, NvHandle hMemory, NvBool *pDuplicate) {
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return pMemory->__nodevicememIsDuplicate__(pMemory, hMemory, pDuplicate);
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}
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static inline void nodevicememControlSerialization_Epilogue_DISPATCH(struct NoDeviceMemory *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) {
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pResource->__nodevicememControlSerialization_Epilogue__(pResource, pCallContext, pParams);
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}
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static inline NV_STATUS nodevicememMap_DISPATCH(struct NoDeviceMemory *pMemory, CALL_CONTEXT *pCallContext, struct RS_CPU_MAP_PARAMS *pParams, RsCpuMapping *pCpuMapping) {
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return pMemory->__nodevicememMap__(pMemory, pCallContext, pParams, pCpuMapping);
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}
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static inline NvBool nodevicememAccessCallback_DISPATCH(struct NoDeviceMemory *pResource, struct RsClient *pInvokingClient, void *pAllocParams, RsAccessRight accessRight) {
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return pResource->__nodevicememAccessCallback__(pResource, pInvokingClient, pAllocParams, accessRight);
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}
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NV_STATUS nodevicememConstruct_IMPL(struct NoDeviceMemory *arg_pNoDeviceMemory, CALL_CONTEXT *arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL *arg_pParams);
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#define __nvoc_nodevicememConstruct(arg_pNoDeviceMemory, arg_pCallContext, arg_pParams) nodevicememConstruct_IMPL(arg_pNoDeviceMemory, arg_pCallContext, arg_pParams)
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void nodevicememDestruct_IMPL(struct NoDeviceMemory *pNoDeviceMemory);
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#define __nvoc_nodevicememDestruct(pNoDeviceMemory) nodevicememDestruct_IMPL(pNoDeviceMemory)
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#undef PRIVATE_FIELD
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#endif
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#ifdef __cplusplus
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} // extern "C"
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#endif
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#endif // _G_NO_DEVICE_MEM_NVOC_H_
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