#define NVOC_VIRT_MEM_RANGE_H_PRIVATE_ACCESS_ALLOWED #include "nvoc/runtime.h" #include "nvoc/rtti.h" #include "nvtypes.h" #include "nvport/nvport.h" #include "nvport/inline/util_valist.h" #include "utils/nvassert.h" #include "g_virt_mem_range_nvoc.h" #ifdef DEBUG char __nvoc_class_id_uniqueness_check_0x7032c6 = 1; #endif extern const struct NVOC_CLASS_DEF __nvoc_class_def_VirtualMemoryRange; extern const struct NVOC_CLASS_DEF __nvoc_class_def_Object; extern const struct NVOC_CLASS_DEF __nvoc_class_def_RsResource; extern const struct NVOC_CLASS_DEF __nvoc_class_def_RmResourceCommon; extern const struct NVOC_CLASS_DEF __nvoc_class_def_RmResource; extern const struct NVOC_CLASS_DEF __nvoc_class_def_Memory; extern const struct NVOC_CLASS_DEF __nvoc_class_def_StandardMemory; extern const struct NVOC_CLASS_DEF __nvoc_class_def_VirtualMemory; void __nvoc_init_VirtualMemoryRange(VirtualMemoryRange*); void __nvoc_init_funcTable_VirtualMemoryRange(VirtualMemoryRange*); NV_STATUS __nvoc_ctor_VirtualMemoryRange(VirtualMemoryRange*, CALL_CONTEXT * arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams); void __nvoc_init_dataField_VirtualMemoryRange(VirtualMemoryRange*); void __nvoc_dtor_VirtualMemoryRange(VirtualMemoryRange*); extern const struct NVOC_EXPORT_INFO __nvoc_export_info_VirtualMemoryRange; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_VirtualMemoryRange = { /*pClassDef=*/ &__nvoc_class_def_VirtualMemoryRange, /*dtor=*/ (NVOC_DYNAMIC_DTOR) &__nvoc_dtor_VirtualMemoryRange, /*offset=*/ 0, }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_Object = { /*pClassDef=*/ &__nvoc_class_def_Object, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_RsResource = { /*pClassDef=*/ &__nvoc_class_def_RsResource, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_RmResourceCommon = { /*pClassDef=*/ &__nvoc_class_def_RmResourceCommon, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RmResourceCommon), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_RmResource = { /*pClassDef=*/ &__nvoc_class_def_RmResource, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_Memory = { /*pClassDef=*/ &__nvoc_class_def_Memory, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_StandardMemory = { /*pClassDef=*/ &__nvoc_class_def_StandardMemory, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory.__nvoc_base_StandardMemory), }; static const struct NVOC_RTTI __nvoc_rtti_VirtualMemoryRange_VirtualMemory = { /*pClassDef=*/ &__nvoc_class_def_VirtualMemory, /*dtor=*/ &__nvoc_destructFromBase, /*offset=*/ NV_OFFSETOF(VirtualMemoryRange, __nvoc_base_VirtualMemory), }; static const struct NVOC_CASTINFO __nvoc_castinfo_VirtualMemoryRange = { /*numRelatives=*/ 8, /*relatives=*/ { &__nvoc_rtti_VirtualMemoryRange_VirtualMemoryRange, &__nvoc_rtti_VirtualMemoryRange_VirtualMemory, &__nvoc_rtti_VirtualMemoryRange_StandardMemory, &__nvoc_rtti_VirtualMemoryRange_Memory, &__nvoc_rtti_VirtualMemoryRange_RmResource, &__nvoc_rtti_VirtualMemoryRange_RmResourceCommon, &__nvoc_rtti_VirtualMemoryRange_RsResource, &__nvoc_rtti_VirtualMemoryRange_Object, }, }; const struct NVOC_CLASS_DEF __nvoc_class_def_VirtualMemoryRange = { /*classInfo=*/ { /*size=*/ sizeof(VirtualMemoryRange), /*classId=*/ classId(VirtualMemoryRange), /*providerId=*/ &__nvoc_rtti_provider, #if NV_PRINTF_STRINGS_ALLOWED /*name=*/ "VirtualMemoryRange", #endif }, /*objCreatefn=*/ (NVOC_DYNAMIC_OBJ_CREATE) &__nvoc_objCreateDynamic_VirtualMemoryRange, /*pCastInfo=*/ &__nvoc_castinfo_VirtualMemoryRange, /*pExportInfo=*/ &__nvoc_export_info_VirtualMemoryRange }; static NV_STATUS __nvoc_thunk_Memory_vmrangeCheckMemInterUnmap(struct VirtualMemoryRange *pMemory, NvBool bSubdeviceHandleProvided) { return memCheckMemInterUnmap((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), bSubdeviceHandleProvided); } static NV_STATUS __nvoc_thunk_VirtualMemory_vmrangeMapTo(struct VirtualMemoryRange *pVirtualMemory, struct RS_RES_MAP_TO_PARAMS *pParams) { return virtmemMapTo((struct VirtualMemory *)(((unsigned char *)pVirtualMemory) + __nvoc_rtti_VirtualMemoryRange_VirtualMemory.offset), pParams); } static NvBool __nvoc_thunk_RmResource_vmrangeShareCallback(struct VirtualMemoryRange *pResource, struct RsClient *pInvokingClient, struct RsResourceRef *pParentRef, RS_SHARE_POLICY *pSharePolicy) { return rmresShareCallback((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pInvokingClient, pParentRef, pSharePolicy); } static NV_STATUS __nvoc_thunk_Memory_vmrangeGetMapAddrSpace(struct VirtualMemoryRange *pMemory, CALL_CONTEXT *pCallContext, NvU32 mapFlags, NV_ADDRESS_SPACE *pAddrSpace) { return memGetMapAddrSpace((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pCallContext, mapFlags, pAddrSpace); } static NvBool __nvoc_thunk_Memory_vmrangeIsExportAllowed(struct VirtualMemoryRange *pMemory) { return memIsExportAllowed((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset)); } static NvU32 __nvoc_thunk_RsResource_vmrangeGetRefCount(struct VirtualMemoryRange *pResource) { return resGetRefCount((struct RsResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RsResource.offset)); } static void __nvoc_thunk_RsResource_vmrangeAddAdditionalDependants(struct RsClient *pClient, struct VirtualMemoryRange *pResource, RsResourceRef *pReference) { resAddAdditionalDependants(pClient, (struct RsResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RsResource.offset), pReference); } static NV_STATUS __nvoc_thunk_RmResource_vmrangeControl_Prologue(struct VirtualMemoryRange *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return rmresControl_Prologue((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pCallContext, pParams); } static NvBool __nvoc_thunk_Memory_vmrangeIsGpuMapAllowed(struct VirtualMemoryRange *pMemory, struct OBJGPU *pGpu) { return memIsGpuMapAllowed((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pGpu); } static NV_STATUS __nvoc_thunk_VirtualMemory_vmrangeUnmapFrom(struct VirtualMemoryRange *pVirtualMemory, struct RS_RES_UNMAP_FROM_PARAMS *pParams) { return virtmemUnmapFrom((struct VirtualMemory *)(((unsigned char *)pVirtualMemory) + __nvoc_rtti_VirtualMemoryRange_VirtualMemory.offset), pParams); } static void __nvoc_thunk_RmResource_vmrangeControl_Epilogue(struct VirtualMemoryRange *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { rmresControl_Epilogue((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pCallContext, pParams); } static NV_STATUS __nvoc_thunk_Memory_vmrangeControl(struct VirtualMemoryRange *pMemory, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return memControl((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pCallContext, pParams); } static NV_STATUS __nvoc_thunk_Memory_vmrangeUnmap(struct VirtualMemoryRange *pMemory, CALL_CONTEXT *pCallContext, RsCpuMapping *pCpuMapping) { return memUnmap((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pCallContext, pCpuMapping); } static NV_STATUS __nvoc_thunk_Memory_vmrangeGetMemInterMapParams(struct VirtualMemoryRange *pMemory, RMRES_MEM_INTER_MAP_PARAMS *pParams) { return memGetMemInterMapParams((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pParams); } static NV_STATUS __nvoc_thunk_Memory_vmrangeGetMemoryMappingDescriptor(struct VirtualMemoryRange *pMemory, MEMORY_DESCRIPTOR **ppMemDesc) { return memGetMemoryMappingDescriptor((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), ppMemDesc); } static NV_STATUS __nvoc_thunk_RsResource_vmrangeControlFilter(struct VirtualMemoryRange *pResource, struct CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return resControlFilter((struct RsResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RsResource.offset), pCallContext, pParams); } static NV_STATUS __nvoc_thunk_RmResource_vmrangeControlSerialization_Prologue(struct VirtualMemoryRange *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { return rmresControlSerialization_Prologue((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pCallContext, pParams); } static NvBool __nvoc_thunk_StandardMemory_vmrangeCanCopy(struct VirtualMemoryRange *pStandardMemory) { return stdmemCanCopy((struct StandardMemory *)(((unsigned char *)pStandardMemory) + __nvoc_rtti_VirtualMemoryRange_StandardMemory.offset)); } static NvBool __nvoc_thunk_VirtualMemory_vmrangeIsPartialUnmapSupported(struct VirtualMemoryRange *pVirtualMemory) { return virtmemIsPartialUnmapSupported((struct VirtualMemory *)(((unsigned char *)pVirtualMemory) + __nvoc_rtti_VirtualMemoryRange_VirtualMemory.offset)); } static NV_STATUS __nvoc_thunk_Memory_vmrangeIsReady(struct VirtualMemoryRange *pMemory, NvBool bCopyConstructorContext) { return memIsReady((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), bCopyConstructorContext); } static NV_STATUS __nvoc_thunk_Memory_vmrangeCheckCopyPermissions(struct VirtualMemoryRange *pMemory, struct OBJGPU *pDstGpu, struct Device *pDstDevice) { return memCheckCopyPermissions((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pDstGpu, pDstDevice); } static void __nvoc_thunk_RsResource_vmrangePreDestruct(struct VirtualMemoryRange *pResource) { resPreDestruct((struct RsResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RsResource.offset)); } static NV_STATUS __nvoc_thunk_Memory_vmrangeIsDuplicate(struct VirtualMemoryRange *pMemory, NvHandle hMemory, NvBool *pDuplicate) { return memIsDuplicate((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), hMemory, pDuplicate); } static void __nvoc_thunk_RmResource_vmrangeControlSerialization_Epilogue(struct VirtualMemoryRange *pResource, CALL_CONTEXT *pCallContext, struct RS_RES_CONTROL_PARAMS_INTERNAL *pParams) { rmresControlSerialization_Epilogue((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pCallContext, pParams); } static NV_STATUS __nvoc_thunk_Memory_vmrangeMap(struct VirtualMemoryRange *pMemory, CALL_CONTEXT *pCallContext, struct RS_CPU_MAP_PARAMS *pParams, RsCpuMapping *pCpuMapping) { return memMap((struct Memory *)(((unsigned char *)pMemory) + __nvoc_rtti_VirtualMemoryRange_Memory.offset), pCallContext, pParams, pCpuMapping); } static NvBool __nvoc_thunk_RmResource_vmrangeAccessCallback(struct VirtualMemoryRange *pResource, struct RsClient *pInvokingClient, void *pAllocParams, RsAccessRight accessRight) { return rmresAccessCallback((struct RmResource *)(((unsigned char *)pResource) + __nvoc_rtti_VirtualMemoryRange_RmResource.offset), pInvokingClient, pAllocParams, accessRight); } const struct NVOC_EXPORT_INFO __nvoc_export_info_VirtualMemoryRange = { /*numEntries=*/ 0, /*pExportEntries=*/ 0 }; void __nvoc_dtor_VirtualMemory(VirtualMemory*); void __nvoc_dtor_VirtualMemoryRange(VirtualMemoryRange *pThis) { __nvoc_dtor_VirtualMemory(&pThis->__nvoc_base_VirtualMemory); PORT_UNREFERENCED_VARIABLE(pThis); } void __nvoc_init_dataField_VirtualMemoryRange(VirtualMemoryRange *pThis) { PORT_UNREFERENCED_VARIABLE(pThis); } NV_STATUS __nvoc_ctor_VirtualMemory(VirtualMemory* , CALL_CONTEXT *, struct RS_RES_ALLOC_PARAMS_INTERNAL *); NV_STATUS __nvoc_ctor_VirtualMemoryRange(VirtualMemoryRange *pThis, CALL_CONTEXT * arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams) { NV_STATUS status = NV_OK; status = __nvoc_ctor_VirtualMemory(&pThis->__nvoc_base_VirtualMemory, arg_pCallContext, arg_pParams); if (status != NV_OK) goto __nvoc_ctor_VirtualMemoryRange_fail_VirtualMemory; __nvoc_init_dataField_VirtualMemoryRange(pThis); status = __nvoc_vmrangeConstruct(pThis, arg_pCallContext, arg_pParams); if (status != NV_OK) goto __nvoc_ctor_VirtualMemoryRange_fail__init; goto __nvoc_ctor_VirtualMemoryRange_exit; // Success __nvoc_ctor_VirtualMemoryRange_fail__init: __nvoc_dtor_VirtualMemory(&pThis->__nvoc_base_VirtualMemory); __nvoc_ctor_VirtualMemoryRange_fail_VirtualMemory: __nvoc_ctor_VirtualMemoryRange_exit: return status; } static void __nvoc_init_funcTable_VirtualMemoryRange_1(VirtualMemoryRange *pThis) { PORT_UNREFERENCED_VARIABLE(pThis); pThis->__vmrangeCheckMemInterUnmap__ = &__nvoc_thunk_Memory_vmrangeCheckMemInterUnmap; pThis->__vmrangeMapTo__ = &__nvoc_thunk_VirtualMemory_vmrangeMapTo; pThis->__vmrangeShareCallback__ = &__nvoc_thunk_RmResource_vmrangeShareCallback; pThis->__vmrangeGetMapAddrSpace__ = &__nvoc_thunk_Memory_vmrangeGetMapAddrSpace; pThis->__vmrangeIsExportAllowed__ = &__nvoc_thunk_Memory_vmrangeIsExportAllowed; pThis->__vmrangeGetRefCount__ = &__nvoc_thunk_RsResource_vmrangeGetRefCount; pThis->__vmrangeAddAdditionalDependants__ = &__nvoc_thunk_RsResource_vmrangeAddAdditionalDependants; pThis->__vmrangeControl_Prologue__ = &__nvoc_thunk_RmResource_vmrangeControl_Prologue; pThis->__vmrangeIsGpuMapAllowed__ = &__nvoc_thunk_Memory_vmrangeIsGpuMapAllowed; pThis->__vmrangeUnmapFrom__ = &__nvoc_thunk_VirtualMemory_vmrangeUnmapFrom; pThis->__vmrangeControl_Epilogue__ = &__nvoc_thunk_RmResource_vmrangeControl_Epilogue; pThis->__vmrangeControl__ = &__nvoc_thunk_Memory_vmrangeControl; pThis->__vmrangeUnmap__ = &__nvoc_thunk_Memory_vmrangeUnmap; pThis->__vmrangeGetMemInterMapParams__ = &__nvoc_thunk_Memory_vmrangeGetMemInterMapParams; pThis->__vmrangeGetMemoryMappingDescriptor__ = &__nvoc_thunk_Memory_vmrangeGetMemoryMappingDescriptor; pThis->__vmrangeControlFilter__ = &__nvoc_thunk_RsResource_vmrangeControlFilter; pThis->__vmrangeControlSerialization_Prologue__ = &__nvoc_thunk_RmResource_vmrangeControlSerialization_Prologue; pThis->__vmrangeCanCopy__ = &__nvoc_thunk_StandardMemory_vmrangeCanCopy; pThis->__vmrangeIsPartialUnmapSupported__ = &__nvoc_thunk_VirtualMemory_vmrangeIsPartialUnmapSupported; pThis->__vmrangeIsReady__ = &__nvoc_thunk_Memory_vmrangeIsReady; pThis->__vmrangeCheckCopyPermissions__ = &__nvoc_thunk_Memory_vmrangeCheckCopyPermissions; pThis->__vmrangePreDestruct__ = &__nvoc_thunk_RsResource_vmrangePreDestruct; pThis->__vmrangeIsDuplicate__ = &__nvoc_thunk_Memory_vmrangeIsDuplicate; pThis->__vmrangeControlSerialization_Epilogue__ = &__nvoc_thunk_RmResource_vmrangeControlSerialization_Epilogue; pThis->__vmrangeMap__ = &__nvoc_thunk_Memory_vmrangeMap; pThis->__vmrangeAccessCallback__ = &__nvoc_thunk_RmResource_vmrangeAccessCallback; } void __nvoc_init_funcTable_VirtualMemoryRange(VirtualMemoryRange *pThis) { __nvoc_init_funcTable_VirtualMemoryRange_1(pThis); } void __nvoc_init_VirtualMemory(VirtualMemory*); void __nvoc_init_VirtualMemoryRange(VirtualMemoryRange *pThis) { pThis->__nvoc_pbase_VirtualMemoryRange = pThis; pThis->__nvoc_pbase_Object = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object; pThis->__nvoc_pbase_RsResource = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource; pThis->__nvoc_pbase_RmResourceCommon = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RmResourceCommon; pThis->__nvoc_pbase_RmResource = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource; pThis->__nvoc_pbase_Memory = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory; pThis->__nvoc_pbase_StandardMemory = &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory; pThis->__nvoc_pbase_VirtualMemory = &pThis->__nvoc_base_VirtualMemory; __nvoc_init_VirtualMemory(&pThis->__nvoc_base_VirtualMemory); __nvoc_init_funcTable_VirtualMemoryRange(pThis); } NV_STATUS __nvoc_objCreate_VirtualMemoryRange(VirtualMemoryRange **ppThis, Dynamic *pParent, NvU32 createFlags, CALL_CONTEXT * arg_pCallContext, struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams) { NV_STATUS status; Object *pParentObj = NULL; VirtualMemoryRange *pThis; // Assign `pThis`, allocating memory unless suppressed by flag. status = __nvoc_handleObjCreateMemAlloc(createFlags, sizeof(VirtualMemoryRange), (void**)&pThis, (void**)ppThis); if (status != NV_OK) return status; // Zero is the initial value for everything. portMemSet(pThis, 0, sizeof(VirtualMemoryRange)); // Initialize runtime type information. __nvoc_initRtti(staticCast(pThis, Dynamic), &__nvoc_class_def_VirtualMemoryRange); pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object.createFlags = createFlags; // Link the child into the parent if there is one unless flagged not to do so. if (pParent != NULL && !(createFlags & NVOC_OBJ_CREATE_FLAGS_PARENT_HALSPEC_ONLY)) { pParentObj = dynamicCast(pParent, Object); objAddChild(pParentObj, &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object); } else { pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object.pParent = NULL; } __nvoc_init_VirtualMemoryRange(pThis); status = __nvoc_ctor_VirtualMemoryRange(pThis, arg_pCallContext, arg_pParams); if (status != NV_OK) goto __nvoc_objCreate_VirtualMemoryRange_cleanup; // Assignment has no effect if NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT is set. *ppThis = pThis; return NV_OK; __nvoc_objCreate_VirtualMemoryRange_cleanup: // Unlink the child from the parent if it was linked above. if (pParentObj != NULL) objRemoveChild(pParentObj, &pThis->__nvoc_base_VirtualMemory.__nvoc_base_StandardMemory.__nvoc_base_Memory.__nvoc_base_RmResource.__nvoc_base_RsResource.__nvoc_base_Object); // Do not call destructors here since the constructor already called them. if (createFlags & NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT) portMemSet(pThis, 0, sizeof(VirtualMemoryRange)); else { portMemFree(pThis); *ppThis = NULL; } // coverity[leaked_storage:FALSE] return status; } NV_STATUS __nvoc_objCreateDynamic_VirtualMemoryRange(VirtualMemoryRange **ppThis, Dynamic *pParent, NvU32 createFlags, va_list args) { NV_STATUS status; CALL_CONTEXT * arg_pCallContext = va_arg(args, CALL_CONTEXT *); struct RS_RES_ALLOC_PARAMS_INTERNAL * arg_pParams = va_arg(args, struct RS_RES_ALLOC_PARAMS_INTERNAL *); status = __nvoc_objCreate_VirtualMemoryRange(ppThis, pParent, createFlags, arg_pCallContext, arg_pParams); return status; }