#ifndef _G_KERNEL_MIG_MANAGER_NVOC_H_ #define _G_KERNEL_MIG_MANAGER_NVOC_H_ #include "nvoc/runtime.h" #ifdef __cplusplus extern "C" { #endif /* * SPDX-FileCopyrightText: Copyright (c) 2021-2023 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. */ #include "g_kernel_mig_manager_nvoc.h" #ifndef KERNEL_MIG_MANAGER_H #define KERNEL_MIG_MANAGER_H #include "core/core.h" #include "gpu/eng_state.h" #include "gpu/gpu.h" #include "gpu_mgr/gpu_mgr.h" #include "kernel/gpu/gr/kernel_graphics_manager.h" #include "kernel/gpu_mgr/gpu_mgr.h" #include "kernel/gpu/mmu/kern_gmmu.h" #include "kernel/gpu/nvbitmask.h" #include "ctrl/ctrlc637.h" typedef struct KERNEL_MIG_GPU_INSTANCE KERNEL_MIG_GPU_INSTANCE; // Forward declaration of opaque type typedef struct KERNEL_MIG_MANAGER_PRIVATE_DATA KERNEL_MIG_MANAGER_PRIVATE_DATA; typedef struct MIG_GPU_INSTANCE MIG_GPU_INSTANCE; #define IS_MIG_ENABLED(pGpu) (((pGpu) != NULL) && (GPU_GET_KERNEL_MIG_MANAGER(pGpu) != NULL) && \ kmigmgrIsMIGEnabled((pGpu), GPU_GET_KERNEL_MIG_MANAGER(pGpu))) #define IS_MIG_IN_USE(pGpu) (((pGpu) != NULL) && (GPU_GET_KERNEL_MIG_MANAGER(pGpu) != NULL) && \ kmigmgrIsMIGGpuInstancingEnabled((pGpu), GPU_GET_KERNEL_MIG_MANAGER(pGpu))) #define FOR_EACH_VALID_GPU_INSTANCE(pGpu, pKernelMIGManager, pLocal) \ { \ NvU32 i; \ for (i = 0; i < KMIGMGR_MAX_GPU_INSTANCES; ++i) \ { \ (pLocal) = kmigmgrGetMIGGpuInstanceSlot((pGpu), (pKernelMIGManager), i); \ if (((pLocal) == NULL) || !(pLocal)->bValid) \ continue; #define FOR_EACH_VALID_GPU_INSTANCE_END() \ } \ } #define KMIGMGR_SWIZZID_INVALID 0xFFFFFFFF #define KMIGMGR_MAX_GPU_SWIZZID 15 #define KMIGMGR_MAX_GPU_INSTANCES GPUMGR_MAX_GPU_INSTANCES #define KMIGMGR_MAX_COMPUTE_INSTANCES GPUMGR_MAX_COMPUTE_INSTANCES #define KMIGMGR_COMPUTE_INSTANCE_ID_INVALID 0xFFFFFFFF #define KMIGMGR_COMPUTE_SIZE_INVALID NV2080_CTRL_GPU_PARTITION_FLAG_COMPUTE_SIZE__SIZE #define KMIGMGR_MAX_GPU_CTSID 21 #define KMIGMGR_CTSID_INVALID 0xFFFFFFFFUL #define KMIGMGR_SPAN_OFFSET_INVALID KMIGMGR_CTSID_INVALID #define KMIGMGR_INSTANCE_ATTRIBUTION_ID_INVALID \ ((KMIGMGR_MAX_GPU_SWIZZID * KMIGMGR_MAX_GPU_SWIZZID) + \ KMIGMGR_MAX_COMPUTE_INSTANCES) MAKE_BITVECTOR(GFID_BIT_VECTOR, VMMU_MAX_GFID); typedef struct KMIGMGR_INSTANCE_HANDLES { /*! * Client handle to make calls into this instance */ NvHandle hClient; /*! * Device handle to make calls into this instance */ NvHandle hDevice; /*! * Subdevice handle to make calls into this instance */ NvHandle hSubdevice; /*! * Subscription handle to make calls into this instance */ NvHandle hSubscription; } KMIGMGR_INSTANCE_HANDLES; typedef struct MIG_RESOURCE_ALLOCATION { /*! * Logical GPC-IDs which are associated with this instance * As current assumption is that GPCs within a instance is always * physically contiguous, so we can use start and count also saving some * memory however it will enforce contiguity restriction which may not be * in future. */ NvU32 gpcIds[KGRMGR_MAX_GPC]; /*! * Number of GPCs associated with this instance */ NvU32 gpcCount; /*! * Number of GFX GPCs associated with this instance. This should be a subset of gpcs included in gpcCount. */ NvU32 gfxGpcCount; /*! * VEID start offset for this instance */ NvU32 veidOffset; /*! * Number of VEIDs associated with this instance */ NvU32 veidCount; /*! * Bitvector of partitionable engines associated with this instance. */ ENGTYPE_BIT_VECTOR engines; /*! * Bitvector of local engine IDs associated with this instance. */ ENGTYPE_BIT_VECTOR localEngines; /*! * Virtualized GPC Count */ NvU32 virtualGpcCount; /*! * Number of SMs */ NvU32 smCount; } MIG_RESOURCE_ALLOCATION; typedef struct MIG_COMPUTE_INSTANCE { /*! * Resource allocated for this instance */ MIG_RESOURCE_ALLOCATION resourceAllocation; /*! * States that this is a valid compute instance */ NvBool bValid; /*! * Flags indicating which engines (if any) are shared across multiple compute * instances. Bit positions in this flag correspond to * NVC637_CTRL_EXEC_PARTITIONS_SHARED_FLAG_* */ NvU32 sharedEngFlag; /*! * Compute instance ID */ NvU32 id; /*! * Shared object to track instance reference count */ struct RsShared *pShare; /*! * Opaque pointer to os-specific capabilities */ OS_RM_CAPS *pOsRmCaps; /*! * Compute instance UUID */ NvUuid uuid; /*! * Handles for RPC's into this instance */ KMIGMGR_INSTANCE_HANDLES instanceHandles; /*! * Span start of this compute instance indicating the "position" of the * instance within a GPU instance's view. For non-CTS ID enabled chips, * this corresponds to the start of a VEID segment. For CTS-ID chips, this * corresponds to the offset from the first CTS ID of a given profile size. */ NvU32 spanStart; /*! * Compute Profile size associated with this MIG compute instance * To associate an instance with a given compute profile, since a CTS * ID may not have been assigned. */ NvU32 computeSize; } MIG_COMPUTE_INSTANCE; /*! * @brief Situational params for compute instance creation API * * This structure comes with two specializations: * TYPE_REQUEST * Parameter refers to request data passed in via EXEC_PARTITIONS_CREATE ctrl * call. All resources claimed by new compute instance are chosen via allocator, * and the API may create multiple compute instances. * TYPE_RESTORE * Parameter refers to saved compute instance data. Most resources claimed by new * compute instance are determined by the save data, and others are claimed via * allocator. * requestFlags * TYPE_REQUEST_WITH_IDS * Parameter refers to request data passed in via EXEC_PARTITIONS_CREATE ctrl * call. All resources claimed by new instance are chosen via allocator unless * the _AT_SPAN flag is also specified. * RM also tries to allocate instance with compute instance id * requested by user. This flag is only supported on vGPU enabled RM build * and will be removed when vgpu plugin implements virtualized compute * instance ID support. (bug 2938187) * TYPE_REQUEST_AT_SPAN * Parameter refers to request data passed in via EXEC_PARTITIONS_CREATE ctrl * call. All resources claimed by new instance are attempt to be claimed by * the RM allocater starting at the specified resource span. */ typedef struct KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS { enum { KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS_TYPE_REQUEST, KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS_TYPE_RESTORE } type; union { struct { NvU32 count; NVC637_CTRL_EXEC_PARTITIONS_INFO *pReqComputeInstanceInfo; NvU32 requestFlags; } request; struct { struct GPUMGR_SAVE_COMPUTE_INSTANCE *pComputeInstanceSave; } restore; } inst; } KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS; typedef struct KMIGMGR_CONFIGURE_INSTANCE_PARAMS { NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE profile; NvU32 ctsId; NvU32 veidSpanStart; } KMIGMGR_CONFIGURE_INSTANCE_REQUEST; typedef struct KERNEL_MIG_GPU_INSTANCE { /*! Structure containing GPU instance profile */ const NV2080_CTRL_INTERNAL_MIGMGR_PROFILE_INFO *pProfile; /*! * Resource allocated for this instance */ MIG_RESOURCE_ALLOCATION resourceAllocation; /*! * Mask of physical engines in this GPU instance which are assigned exclusively * to some compute instance. Indexed via RM_ENGINE_TYPE_* */ ENGTYPE_BIT_VECTOR exclusiveEngMask; /*! * Mask of physical engines in this GPU instance which are assigned to at least * one compute instance, but may be assigned to others. * Indexed via RM_ENGINE_TYPE_* */ ENGTYPE_BIT_VECTOR sharedEngMask; /*! * compute instance info. */ MIG_COMPUTE_INSTANCE MIGComputeInstance[KMIGMGR_MAX_COMPUTE_INSTANCES]; /*! * Bit Vector of GFID's associated with this instance. */ GFID_BIT_VECTOR gfidMap; /*! * GPU instance ID */ NvU32 swizzId; /*! * Validated user-provided instance flags - NV2080_CTRL_GPU_PARTITION_FLAG_* */ NvU32 partitionFlag; /*! * Memory handle associated with partitioned memory */ NvHandle hMemory; /*! * Shared object to track instance reference count */ struct RsShared *pShare; /*! * Heap used for managing instance's memory */ struct Heap *pMemoryPartitionHeap; /*! * States that this instance is valid */ NvBool bValid; /*! * Indicates that the GPU instance scrubber is initialized and should be * accounted for / ignored in the instance refcount when determining * whether or not a instance can be destroyed. */ NvBool bMemoryPartitionScrubberInitialized; /*! * Physical memory address range for this instance. */ NV_RANGE memRange; /*! * Memory pool for client page table allocations */ RM_POOL_ALLOC_MEM_RESERVE_INFO *pPageTableMemPool; /*! * Physical MIG GPU Instance info for this instance */ MIG_GPU_INSTANCE *pMIGGpuInstance; /*! * Mask of runlistIds for engines that belong to this instance */ NvU64 runlistIdMask; /*! * Opaque pointer to os-specific capabilities */ OS_RM_CAPS *pOsRmCaps; /*! * Handles for RPC's into this instance */ KMIGMGR_INSTANCE_HANDLES instanceHandles; /*! * Mask of CTS IDs in use */ NvU64 ctsIdsInUseMask; /*! * GR to CTS ID mapping */ NvU32 grCtsIdMap[KMIGMGR_MAX_COMPUTE_INSTANCES]; /*! * Mask tracking which compute spans are currently in-use */ NvU32 spanInUseMask; } KERNEL_MIG_GPU_INSTANCE; /*! * @brief Situational params for GPU instance creation API * * This structure comes with two specializations: * TYPE_REQUEST * Parameter refers to request data passed in via SET_PARTITIONS ctrl * call. All resources claimed by new GPU instance are chosen via allocator. * TYPE_RESTORE * Parameter refers to saved GPU instance data. Most resources claimed by new * GPU instance are determined by the save data, and others are claimed via * allocator. */ typedef struct KMIGMGR_CREATE_GPU_INSTANCE_PARAMS { enum { KMIGMGR_CREATE_GPU_INSTANCE_PARAMS_TYPE_REQUEST, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS_TYPE_RESTORE } type; union { struct { NvU32 partitionFlag; NV_RANGE placement; NvBool bUsePlacement; } request; struct { struct GPUMGR_SAVE_GPU_INSTANCE *pGPUInstanceSave; } restore; } inst; } KMIGMGR_CREATE_GPU_INSTANCE_PARAMS; /*! * @brief Packed pointer to a GPU instance/compute instance combo * @note Having NULL pKernelMIGGpuInstance and non-NULL pMIGComputeInstance is never expected */ struct MIG_INSTANCE_REF { KERNEL_MIG_GPU_INSTANCE *pKernelMIGGpuInstance; MIG_COMPUTE_INSTANCE *pMIGComputeInstance; }; typedef struct KERNEL_MIG_MANAGER_STATIC_INFO { /*! @ref NV2080_CTRL_CMD_INTERNAL_STATIC_MIGMGR_GET_PROFILES */ NV2080_CTRL_INTERNAL_STATIC_MIGMGR_GET_PROFILES_PARAMS *pProfiles; /*! Mask of partitionable engines which are present on this GPU. */ NvU32 partitionableEngineMask[NVGPU_ENGINE_CAPS_MASK_ARRAY_MAX]; /*! Per swizzId FB memory page ranges */ NV2080_CTRL_INTERNAL_STATIC_MIGMGR_GET_SWIZZ_ID_FB_MEM_PAGE_RANGES_PARAMS *pSwizzIdFbMemPageRanges; /*! Compute instance profiles */ NV2080_CTRL_INTERNAL_STATIC_MIGMGR_GET_COMPUTE_PROFILES_PARAMS *pCIProfiles; /*! Skyline info used to determine GPU and compute instance resources available */ NV2080_CTRL_INTERNAL_STATIC_GRMGR_GET_SKYLINE_INFO_PARAMS *pSkylineInfo; } KERNEL_MIG_MANAGER_STATIC_INFO; /*! * KernelMIGManager provides kernel side services for managing MIG instances. * It also maintains state relating to GPU partitioning and related state. */ #ifdef NVOC_KERNEL_MIG_MANAGER_H_PRIVATE_ACCESS_ALLOWED #define PRIVATE_FIELD(x) x #else #define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x) #endif struct KernelMIGManager { const struct NVOC_RTTI *__nvoc_rtti; struct OBJENGSTATE __nvoc_base_OBJENGSTATE; struct Object *__nvoc_pbase_Object; struct OBJENGSTATE *__nvoc_pbase_OBJENGSTATE; struct KernelMIGManager *__nvoc_pbase_KernelMIGManager; NV_STATUS (*__kmigmgrConstructEngine__)(OBJGPU *, struct KernelMIGManager *, ENGDESCRIPTOR); NV_STATUS (*__kmigmgrStateInitLocked__)(OBJGPU *, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStateUnload__)(OBJGPU *, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrCreateGPUInstanceCheck__)(OBJGPU *, struct KernelMIGManager *, NvBool); NvBool (*__kmigmgrIsDevinitMIGBitSet__)(OBJGPU *, struct KernelMIGManager *); NvBool (*__kmigmgrIsGPUInstanceCombinationValid__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsGPUInstanceFlagValid__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsMemoryPartitioningRequested__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsMemoryPartitioningNeeded__)(OBJGPU *, struct KernelMIGManager *, NvU32); struct NV_RANGE (*__kmigmgrMemSizeFlagToSwizzIdRange__)(OBJGPU *, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStateLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStatePreLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStatePostUnload__)(POBJGPU, struct KernelMIGManager *, NvU32); void (*__kmigmgrStateDestroy__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreUnload__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStateInitUnlocked__)(POBJGPU, struct KernelMIGManager *); void (*__kmigmgrInitMissing__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreInitLocked__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreInitUnlocked__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePostLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsPresent__)(POBJGPU, struct KernelMIGManager *); NvBool PRIVATE_FIELD(bIsA100ReducedConfig); KERNEL_MIG_MANAGER_PRIVATE_DATA *PRIVATE_FIELD(pPrivate); KERNEL_MIG_GPU_INSTANCE PRIVATE_FIELD(kernelMIGGpuInstance)[8]; NvBool PRIVATE_FIELD(bMIGEnabled); NvU64 PRIVATE_FIELD(swizzIdInUseMask); NvBool PRIVATE_FIELD(bRestoreWatchdog); NvBool PRIVATE_FIELD(bReenableWatchdog); union ENGTYPE_BIT_VECTOR PRIVATE_FIELD(partitionableEnginesInUse); NvBool PRIVATE_FIELD(bDeviceProfilingInUse); NvBool PRIVATE_FIELD(bMIGAutoOnlineEnabled); }; struct KernelMIGManager_PRIVATE { const struct NVOC_RTTI *__nvoc_rtti; struct OBJENGSTATE __nvoc_base_OBJENGSTATE; struct Object *__nvoc_pbase_Object; struct OBJENGSTATE *__nvoc_pbase_OBJENGSTATE; struct KernelMIGManager *__nvoc_pbase_KernelMIGManager; NV_STATUS (*__kmigmgrConstructEngine__)(OBJGPU *, struct KernelMIGManager *, ENGDESCRIPTOR); NV_STATUS (*__kmigmgrStateInitLocked__)(OBJGPU *, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStateUnload__)(OBJGPU *, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrCreateGPUInstanceCheck__)(OBJGPU *, struct KernelMIGManager *, NvBool); NvBool (*__kmigmgrIsDevinitMIGBitSet__)(OBJGPU *, struct KernelMIGManager *); NvBool (*__kmigmgrIsGPUInstanceCombinationValid__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsGPUInstanceFlagValid__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsMemoryPartitioningRequested__)(OBJGPU *, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsMemoryPartitioningNeeded__)(OBJGPU *, struct KernelMIGManager *, NvU32); struct NV_RANGE (*__kmigmgrMemSizeFlagToSwizzIdRange__)(OBJGPU *, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStateLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStatePreLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStatePostUnload__)(POBJGPU, struct KernelMIGManager *, NvU32); void (*__kmigmgrStateDestroy__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreUnload__)(POBJGPU, struct KernelMIGManager *, NvU32); NV_STATUS (*__kmigmgrStateInitUnlocked__)(POBJGPU, struct KernelMIGManager *); void (*__kmigmgrInitMissing__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreInitLocked__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePreInitUnlocked__)(POBJGPU, struct KernelMIGManager *); NV_STATUS (*__kmigmgrStatePostLoad__)(POBJGPU, struct KernelMIGManager *, NvU32); NvBool (*__kmigmgrIsPresent__)(POBJGPU, struct KernelMIGManager *); NvBool bIsA100ReducedConfig; KERNEL_MIG_MANAGER_PRIVATE_DATA *pPrivate; KERNEL_MIG_GPU_INSTANCE kernelMIGGpuInstance[8]; NvBool bMIGEnabled; NvU64 swizzIdInUseMask; NvBool bRestoreWatchdog; NvBool bReenableWatchdog; union ENGTYPE_BIT_VECTOR partitionableEnginesInUse; NvBool bDeviceProfilingInUse; NvBool bMIGAutoOnlineEnabled; }; #ifndef __NVOC_CLASS_KernelMIGManager_TYPEDEF__ #define __NVOC_CLASS_KernelMIGManager_TYPEDEF__ typedef struct KernelMIGManager KernelMIGManager; #endif /* __NVOC_CLASS_KernelMIGManager_TYPEDEF__ */ #ifndef __nvoc_class_id_KernelMIGManager #define __nvoc_class_id_KernelMIGManager 0x01c1bf #endif /* __nvoc_class_id_KernelMIGManager */ extern const struct NVOC_CLASS_DEF __nvoc_class_def_KernelMIGManager; #define __staticCast_KernelMIGManager(pThis) \ ((pThis)->__nvoc_pbase_KernelMIGManager) #ifdef __nvoc_kernel_mig_manager_h_disabled #define __dynamicCast_KernelMIGManager(pThis) ((KernelMIGManager*)NULL) #else //__nvoc_kernel_mig_manager_h_disabled #define __dynamicCast_KernelMIGManager(pThis) \ ((KernelMIGManager*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(KernelMIGManager))) #endif //__nvoc_kernel_mig_manager_h_disabled #define PDB_PROP_KMIGMGR_IS_MISSING_BASE_CAST __nvoc_base_OBJENGSTATE. #define PDB_PROP_KMIGMGR_IS_MISSING_BASE_NAME PDB_PROP_ENGSTATE_IS_MISSING NV_STATUS __nvoc_objCreateDynamic_KernelMIGManager(KernelMIGManager**, Dynamic*, NvU32, va_list); NV_STATUS __nvoc_objCreate_KernelMIGManager(KernelMIGManager**, Dynamic*, NvU32); #define __objCreate_KernelMIGManager(ppNewObj, pParent, createFlags) \ __nvoc_objCreate_KernelMIGManager((ppNewObj), staticCast((pParent), Dynamic), (createFlags)) #define kmigmgrConstructEngine(arg0, arg1, arg2) kmigmgrConstructEngine_DISPATCH(arg0, arg1, arg2) #define kmigmgrStateInitLocked(arg0, arg1) kmigmgrStateInitLocked_DISPATCH(arg0, arg1) #define kmigmgrStateUnload(arg0, arg1, flags) kmigmgrStateUnload_DISPATCH(arg0, arg1, flags) #define kmigmgrCreateGPUInstanceCheck(arg0, arg1, bMemoryPartitioningNeeded) kmigmgrCreateGPUInstanceCheck_DISPATCH(arg0, arg1, bMemoryPartitioningNeeded) #define kmigmgrCreateGPUInstanceCheck_HAL(arg0, arg1, bMemoryPartitioningNeeded) kmigmgrCreateGPUInstanceCheck_DISPATCH(arg0, arg1, bMemoryPartitioningNeeded) #define kmigmgrIsDevinitMIGBitSet(arg0, arg1) kmigmgrIsDevinitMIGBitSet_DISPATCH(arg0, arg1) #define kmigmgrIsDevinitMIGBitSet_HAL(arg0, arg1) kmigmgrIsDevinitMIGBitSet_DISPATCH(arg0, arg1) #define kmigmgrIsGPUInstanceCombinationValid(arg0, arg1, gpuInstanceFlag) kmigmgrIsGPUInstanceCombinationValid_DISPATCH(arg0, arg1, gpuInstanceFlag) #define kmigmgrIsGPUInstanceCombinationValid_HAL(arg0, arg1, gpuInstanceFlag) kmigmgrIsGPUInstanceCombinationValid_DISPATCH(arg0, arg1, gpuInstanceFlag) #define kmigmgrIsGPUInstanceFlagValid(arg0, arg1, gpuInstanceFlag) kmigmgrIsGPUInstanceFlagValid_DISPATCH(arg0, arg1, gpuInstanceFlag) #define kmigmgrIsGPUInstanceFlagValid_HAL(arg0, arg1, gpuInstanceFlag) kmigmgrIsGPUInstanceFlagValid_DISPATCH(arg0, arg1, gpuInstanceFlag) #define kmigmgrIsMemoryPartitioningRequested(arg0, arg1, partitionFlags) kmigmgrIsMemoryPartitioningRequested_DISPATCH(arg0, arg1, partitionFlags) #define kmigmgrIsMemoryPartitioningRequested_HAL(arg0, arg1, partitionFlags) kmigmgrIsMemoryPartitioningRequested_DISPATCH(arg0, arg1, partitionFlags) #define kmigmgrIsMemoryPartitioningNeeded(arg0, arg1, swizzId) kmigmgrIsMemoryPartitioningNeeded_DISPATCH(arg0, arg1, swizzId) #define kmigmgrIsMemoryPartitioningNeeded_HAL(arg0, arg1, swizzId) kmigmgrIsMemoryPartitioningNeeded_DISPATCH(arg0, arg1, swizzId) #define kmigmgrMemSizeFlagToSwizzIdRange(arg0, arg1, memSizeFlag) kmigmgrMemSizeFlagToSwizzIdRange_DISPATCH(arg0, arg1, memSizeFlag) #define kmigmgrMemSizeFlagToSwizzIdRange_HAL(arg0, arg1, memSizeFlag) kmigmgrMemSizeFlagToSwizzIdRange_DISPATCH(arg0, arg1, memSizeFlag) #define kmigmgrStateLoad(pGpu, pEngstate, arg0) kmigmgrStateLoad_DISPATCH(pGpu, pEngstate, arg0) #define kmigmgrStatePreLoad(pGpu, pEngstate, arg0) kmigmgrStatePreLoad_DISPATCH(pGpu, pEngstate, arg0) #define kmigmgrStatePostUnload(pGpu, pEngstate, arg0) kmigmgrStatePostUnload_DISPATCH(pGpu, pEngstate, arg0) #define kmigmgrStateDestroy(pGpu, pEngstate) kmigmgrStateDestroy_DISPATCH(pGpu, pEngstate) #define kmigmgrStatePreUnload(pGpu, pEngstate, arg0) kmigmgrStatePreUnload_DISPATCH(pGpu, pEngstate, arg0) #define kmigmgrStateInitUnlocked(pGpu, pEngstate) kmigmgrStateInitUnlocked_DISPATCH(pGpu, pEngstate) #define kmigmgrInitMissing(pGpu, pEngstate) kmigmgrInitMissing_DISPATCH(pGpu, pEngstate) #define kmigmgrStatePreInitLocked(pGpu, pEngstate) kmigmgrStatePreInitLocked_DISPATCH(pGpu, pEngstate) #define kmigmgrStatePreInitUnlocked(pGpu, pEngstate) kmigmgrStatePreInitUnlocked_DISPATCH(pGpu, pEngstate) #define kmigmgrStatePostLoad(pGpu, pEngstate, arg0) kmigmgrStatePostLoad_DISPATCH(pGpu, pEngstate, arg0) #define kmigmgrIsPresent(pGpu, pEngstate) kmigmgrIsPresent_DISPATCH(pGpu, pEngstate) NV_STATUS kmigmgrLoadStaticInfo_KERNEL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrLoadStaticInfo(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrLoadStaticInfo(arg0, arg1) kmigmgrLoadStaticInfo_KERNEL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrLoadStaticInfo_HAL(arg0, arg1) kmigmgrLoadStaticInfo(arg0, arg1) static inline NV_STATUS kmigmgrSetStaticInfo_46f6a7(OBJGPU *arg0, struct KernelMIGManager *arg1) { return NV_ERR_NOT_SUPPORTED; } #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetStaticInfo(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetStaticInfo(arg0, arg1) kmigmgrSetStaticInfo_46f6a7(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetStaticInfo_HAL(arg0, arg1) kmigmgrSetStaticInfo(arg0, arg1) static inline void kmigmgrClearStaticInfo_b3696a(OBJGPU *arg0, struct KernelMIGManager *arg1) { return; } #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrClearStaticInfo(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrClearStaticInfo(arg0, arg1) kmigmgrClearStaticInfo_b3696a(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrClearStaticInfo_HAL(arg0, arg1) kmigmgrClearStaticInfo(arg0, arg1) static inline NV_STATUS kmigmgrSaveToPersistenceFromVgpuStaticInfo_46f6a7(OBJGPU *arg0, struct KernelMIGManager *arg1) { return NV_ERR_NOT_SUPPORTED; } #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSaveToPersistenceFromVgpuStaticInfo(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSaveToPersistenceFromVgpuStaticInfo(arg0, arg1) kmigmgrSaveToPersistenceFromVgpuStaticInfo_46f6a7(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSaveToPersistenceFromVgpuStaticInfo_HAL(arg0, arg1) kmigmgrSaveToPersistenceFromVgpuStaticInfo(arg0, arg1) NV_STATUS kmigmgrDeleteGPUInstanceRunlists_FWCLIENT(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrDeleteGPUInstanceRunlists(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDeleteGPUInstanceRunlists(arg0, arg1, arg2) kmigmgrDeleteGPUInstanceRunlists_FWCLIENT(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDeleteGPUInstanceRunlists_HAL(arg0, arg1, arg2) kmigmgrDeleteGPUInstanceRunlists(arg0, arg1, arg2) NV_STATUS kmigmgrCreateGPUInstanceRunlists_FWCLIENT(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrCreateGPUInstanceRunlists(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrCreateGPUInstanceRunlists(arg0, arg1, arg2) kmigmgrCreateGPUInstanceRunlists_FWCLIENT(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrCreateGPUInstanceRunlists_HAL(arg0, arg1, arg2) kmigmgrCreateGPUInstanceRunlists(arg0, arg1, arg2) NV_STATUS kmigmgrRestoreFromPersistence_PF(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrRestoreFromPersistence(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrRestoreFromPersistence(arg0, arg1) kmigmgrRestoreFromPersistence_PF(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrRestoreFromPersistence_HAL(arg0, arg1) kmigmgrRestoreFromPersistence(arg0, arg1) void kmigmgrDetectReducedConfig_KERNEL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrDetectReducedConfig(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDetectReducedConfig(arg0, arg1) kmigmgrDetectReducedConfig_KERNEL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDetectReducedConfig_HAL(arg0, arg1) kmigmgrDetectReducedConfig(arg0, arg1) static inline NV_STATUS kmigmgrGenerateComputeInstanceUuid_5baef9(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvU32 globalGrIdx, NvUuid *pUuid) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGenerateComputeInstanceUuid(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvU32 globalGrIdx, NvUuid *pUuid) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGenerateComputeInstanceUuid(arg0, arg1, swizzId, globalGrIdx, pUuid) kmigmgrGenerateComputeInstanceUuid_5baef9(arg0, arg1, swizzId, globalGrIdx, pUuid) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGenerateComputeInstanceUuid_HAL(arg0, arg1, swizzId, globalGrIdx, pUuid) kmigmgrGenerateComputeInstanceUuid(arg0, arg1, swizzId, globalGrIdx, pUuid) NV_STATUS kmigmgrCreateComputeInstances_FWCLIENT(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvBool bQuery, KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS arg3, NvU32 *pCIIds, NvBool bCreateCap); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrCreateComputeInstances(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvBool bQuery, KMIGMGR_CREATE_COMPUTE_INSTANCE_PARAMS arg3, NvU32 *pCIIds, NvBool bCreateCap) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrCreateComputeInstances(arg0, arg1, arg2, bQuery, arg3, pCIIds, bCreateCap) kmigmgrCreateComputeInstances_FWCLIENT(arg0, arg1, arg2, bQuery, arg3, pCIIds, bCreateCap) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrCreateComputeInstances_HAL(arg0, arg1, arg2, bQuery, arg3, pCIIds, bCreateCap) kmigmgrCreateComputeInstances(arg0, arg1, arg2, bQuery, arg3, pCIIds, bCreateCap) NV_STATUS kmigmgrSetMIGState_FWCLIENT(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bMemoryPartitioningNeeded, NvBool bEnable, NvBool bUnload); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetMIGState(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bMemoryPartitioningNeeded, NvBool bEnable, NvBool bUnload) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetMIGState(arg0, arg1, bMemoryPartitioningNeeded, bEnable, bUnload) kmigmgrSetMIGState_FWCLIENT(arg0, arg1, bMemoryPartitioningNeeded, bEnable, bUnload) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetMIGState_HAL(arg0, arg1, bMemoryPartitioningNeeded, bEnable, bUnload) kmigmgrSetMIGState(arg0, arg1, bMemoryPartitioningNeeded, bEnable, bUnload) NvBool kmigmgrIsCTSAlignmentRequired_PF(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsCTSAlignmentRequired(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsCTSAlignmentRequired(arg0, arg1) kmigmgrIsCTSAlignmentRequired_PF(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsCTSAlignmentRequired_HAL(arg0, arg1) kmigmgrIsCTSAlignmentRequired(arg0, arg1) NV_STATUS kmigmgrConstructEngine_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, ENGDESCRIPTOR arg2); static inline NV_STATUS kmigmgrConstructEngine_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, ENGDESCRIPTOR arg2) { return arg1->__kmigmgrConstructEngine__(arg0, arg1, arg2); } NV_STATUS kmigmgrStateInitLocked_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); static inline NV_STATUS kmigmgrStateInitLocked_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1) { return arg1->__kmigmgrStateInitLocked__(arg0, arg1); } NV_STATUS kmigmgrStateUnload_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 flags); static inline NV_STATUS kmigmgrStateUnload_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 flags) { return arg1->__kmigmgrStateUnload__(arg0, arg1, flags); } NV_STATUS kmigmgrCreateGPUInstanceCheck_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bMemoryPartitioningNeeded); static inline NV_STATUS kmigmgrCreateGPUInstanceCheck_46f6a7(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bMemoryPartitioningNeeded) { return NV_ERR_NOT_SUPPORTED; } static inline NV_STATUS kmigmgrCreateGPUInstanceCheck_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bMemoryPartitioningNeeded) { return arg1->__kmigmgrCreateGPUInstanceCheck__(arg0, arg1, bMemoryPartitioningNeeded); } NvBool kmigmgrIsDevinitMIGBitSet_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1); static inline NvBool kmigmgrIsDevinitMIGBitSet_491d52(OBJGPU *arg0, struct KernelMIGManager *arg1) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsDevinitMIGBitSet_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1) { return arg1->__kmigmgrIsDevinitMIGBitSet__(arg0, arg1); } NvBool kmigmgrIsGPUInstanceCombinationValid_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag); NvBool kmigmgrIsGPUInstanceCombinationValid_GH100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag); static inline NvBool kmigmgrIsGPUInstanceCombinationValid_491d52(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsGPUInstanceCombinationValid_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag) { return arg1->__kmigmgrIsGPUInstanceCombinationValid__(arg0, arg1, gpuInstanceFlag); } NvBool kmigmgrIsGPUInstanceFlagValid_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag); NvBool kmigmgrIsGPUInstanceFlagValid_GH100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag); static inline NvBool kmigmgrIsGPUInstanceFlagValid_491d52(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsGPUInstanceFlagValid_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpuInstanceFlag) { return arg1->__kmigmgrIsGPUInstanceFlagValid__(arg0, arg1, gpuInstanceFlag); } NvBool kmigmgrIsMemoryPartitioningRequested_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 partitionFlags); static inline NvBool kmigmgrIsMemoryPartitioningRequested_491d52(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 partitionFlags) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsMemoryPartitioningRequested_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 partitionFlags) { return arg1->__kmigmgrIsMemoryPartitioningRequested__(arg0, arg1, partitionFlags); } NvBool kmigmgrIsMemoryPartitioningNeeded_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId); static inline NvBool kmigmgrIsMemoryPartitioningNeeded_491d52(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsMemoryPartitioningNeeded_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { return arg1->__kmigmgrIsMemoryPartitioningNeeded__(arg0, arg1, swizzId); } static inline struct NV_RANGE kmigmgrMemSizeFlagToSwizzIdRange_d64cd6(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 memSizeFlag) { return NV_RANGE_EMPTY; } struct NV_RANGE kmigmgrMemSizeFlagToSwizzIdRange_GA100(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 memSizeFlag); static inline struct NV_RANGE kmigmgrMemSizeFlagToSwizzIdRange_DISPATCH(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 memSizeFlag) { return arg1->__kmigmgrMemSizeFlagToSwizzIdRange__(arg0, arg1, memSizeFlag); } static inline NV_STATUS kmigmgrStateLoad_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate, NvU32 arg0) { return pEngstate->__kmigmgrStateLoad__(pGpu, pEngstate, arg0); } static inline NV_STATUS kmigmgrStatePreLoad_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate, NvU32 arg0) { return pEngstate->__kmigmgrStatePreLoad__(pGpu, pEngstate, arg0); } static inline NV_STATUS kmigmgrStatePostUnload_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate, NvU32 arg0) { return pEngstate->__kmigmgrStatePostUnload__(pGpu, pEngstate, arg0); } static inline void kmigmgrStateDestroy_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { pEngstate->__kmigmgrStateDestroy__(pGpu, pEngstate); } static inline NV_STATUS kmigmgrStatePreUnload_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate, NvU32 arg0) { return pEngstate->__kmigmgrStatePreUnload__(pGpu, pEngstate, arg0); } static inline NV_STATUS kmigmgrStateInitUnlocked_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { return pEngstate->__kmigmgrStateInitUnlocked__(pGpu, pEngstate); } static inline void kmigmgrInitMissing_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { pEngstate->__kmigmgrInitMissing__(pGpu, pEngstate); } static inline NV_STATUS kmigmgrStatePreInitLocked_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { return pEngstate->__kmigmgrStatePreInitLocked__(pGpu, pEngstate); } static inline NV_STATUS kmigmgrStatePreInitUnlocked_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { return pEngstate->__kmigmgrStatePreInitUnlocked__(pGpu, pEngstate); } static inline NV_STATUS kmigmgrStatePostLoad_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate, NvU32 arg0) { return pEngstate->__kmigmgrStatePostLoad__(pGpu, pEngstate, arg0); } static inline NvBool kmigmgrIsPresent_DISPATCH(POBJGPU pGpu, struct KernelMIGManager *pEngstate) { return pEngstate->__kmigmgrIsPresent__(pGpu, pEngstate); } static inline NvBool kmigmgrUseLegacyVgpuPolicy(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager) { return ((NvBool)(0 != 0)); } static inline NvBool kmigmgrIsMIGNvlinkP2PSupportOverridden(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager) { return ((NvBool)(0 != 0)); } static inline const union ENGTYPE_BIT_VECTOR *kmigmgrGetPartitionableEnginesInUse(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager) { struct KernelMIGManager_PRIVATE *pKernelMIGManager_PRIVATE = (struct KernelMIGManager_PRIVATE *)pKernelMIGManager; return &pKernelMIGManager_PRIVATE->partitionableEnginesInUse; } static inline NvBool kmigmgrIsA100ReducedConfig(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager) { struct KernelMIGManager_PRIVATE *pKernelMIGManager_PRIVATE = (struct KernelMIGManager_PRIVATE *)pKernelMIGManager; return pKernelMIGManager_PRIVATE->bIsA100ReducedConfig; } NV_STATUS kmigmgrIncRefCount_IMPL(struct RsShared *arg0); #define kmigmgrIncRefCount(arg0) kmigmgrIncRefCount_IMPL(arg0) NV_STATUS kmigmgrDecRefCount_IMPL(struct RsShared *arg0); #define kmigmgrDecRefCount(arg0) kmigmgrDecRefCount_IMPL(arg0) struct MIG_INSTANCE_REF kmigmgrMakeGIReference_IMPL(KERNEL_MIG_GPU_INSTANCE *arg0); #define kmigmgrMakeGIReference(arg0) kmigmgrMakeGIReference_IMPL(arg0) struct MIG_INSTANCE_REF kmigmgrMakeCIReference_IMPL(KERNEL_MIG_GPU_INSTANCE *arg0, MIG_COMPUTE_INSTANCE *arg1); #define kmigmgrMakeCIReference(arg0, arg1) kmigmgrMakeCIReference_IMPL(arg0, arg1) NV_STATUS kmigmgrEngineTypeXlate_IMPL(union ENGTYPE_BIT_VECTOR *pSrc, RM_ENGINE_TYPE srcEngineType, union ENGTYPE_BIT_VECTOR *pDst, RM_ENGINE_TYPE *pDstEngineType); #define kmigmgrEngineTypeXlate(pSrc, srcEngineType, pDst, pDstEngineType) kmigmgrEngineTypeXlate_IMPL(pSrc, srcEngineType, pDst, pDstEngineType) NvBool kmigmgrIsInstanceAttributionIdValid_IMPL(NvU16 id); #define kmigmgrIsInstanceAttributionIdValid(id) kmigmgrIsInstanceAttributionIdValid_IMPL(id) struct MIG_INSTANCE_REF kmigmgrMakeNoMIGReference_IMPL(void); #define kmigmgrMakeNoMIGReference() kmigmgrMakeNoMIGReference_IMPL() NvBool kmigmgrIsMIGReferenceValid_IMPL(struct MIG_INSTANCE_REF *arg0); #define kmigmgrIsMIGReferenceValid(arg0) kmigmgrIsMIGReferenceValid_IMPL(arg0) NvBool kmigmgrAreMIGReferencesSame_IMPL(struct MIG_INSTANCE_REF *arg0, struct MIG_INSTANCE_REF *arg1); #define kmigmgrAreMIGReferencesSame(arg0, arg1) kmigmgrAreMIGReferencesSame_IMPL(arg0, arg1) NvU32 kmigmgrCountEnginesOfType_IMPL(const union ENGTYPE_BIT_VECTOR *arg0, RM_ENGINE_TYPE arg1); #define kmigmgrCountEnginesOfType(arg0, arg1) kmigmgrCountEnginesOfType_IMPL(arg0, arg1) NvU16 kmigmgrGetAttributionIdFromMIGReference_IMPL(struct MIG_INSTANCE_REF arg0); #define kmigmgrGetAttributionIdFromMIGReference(arg0) kmigmgrGetAttributionIdFromMIGReference_IMPL(arg0) NV_STATUS kmigmgrAllocateInstanceEngines_IMPL(union ENGTYPE_BIT_VECTOR *pSourceEngines, NvBool bShared, struct NV_RANGE engTypeRange, NvU32 reqEngCount, union ENGTYPE_BIT_VECTOR *pOutEngines, union ENGTYPE_BIT_VECTOR *pExclusiveEngines, union ENGTYPE_BIT_VECTOR *pSharedEngines, union ENGTYPE_BIT_VECTOR *pAllocatableEngines); #define kmigmgrAllocateInstanceEngines(pSourceEngines, bShared, engTypeRange, reqEngCount, pOutEngines, pExclusiveEngines, pSharedEngines, pAllocatableEngines) kmigmgrAllocateInstanceEngines_IMPL(pSourceEngines, bShared, engTypeRange, reqEngCount, pOutEngines, pExclusiveEngines, pSharedEngines, pAllocatableEngines) void kmigmgrGetLocalEngineMask_IMPL(union ENGTYPE_BIT_VECTOR *pPhysicalEngineMask, union ENGTYPE_BIT_VECTOR *pLocalEngineMask); #define kmigmgrGetLocalEngineMask(pPhysicalEngineMask, pLocalEngineMask) kmigmgrGetLocalEngineMask_IMPL(pPhysicalEngineMask, pLocalEngineMask) NV_STATUS kmigmgrAllocGPUInstanceHandles_IMPL(OBJGPU *arg0, NvU32 swizzId, KERNEL_MIG_GPU_INSTANCE *arg1); #define kmigmgrAllocGPUInstanceHandles(arg0, swizzId, arg1) kmigmgrAllocGPUInstanceHandles_IMPL(arg0, swizzId, arg1) void kmigmgrFreeGPUInstanceHandles_IMPL(KERNEL_MIG_GPU_INSTANCE *arg0); #define kmigmgrFreeGPUInstanceHandles(arg0) kmigmgrFreeGPUInstanceHandles_IMPL(arg0) NvBool kmigmgrIsGPUInstanceReadyToBeDestroyed_IMPL(KERNEL_MIG_GPU_INSTANCE *arg0); #define kmigmgrIsGPUInstanceReadyToBeDestroyed(arg0) kmigmgrIsGPUInstanceReadyToBeDestroyed_IMPL(arg0) void kmigmgrDestruct_IMPL(struct KernelMIGManager *arg0); #define __nvoc_kmigmgrDestruct(arg0) kmigmgrDestruct_IMPL(arg0) void kmigmgrInitRegistryOverrides_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrInitRegistryOverrides(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitRegistryOverrides(arg0, arg1) kmigmgrInitRegistryOverrides_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled KERNEL_MIG_GPU_INSTANCE *kmigmgrGetMIGGpuInstanceSlot_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 i); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline KERNEL_MIG_GPU_INSTANCE *kmigmgrGetMIGGpuInstanceSlot(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 i) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NULL; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetMIGGpuInstanceSlot(arg0, arg1, i) kmigmgrGetMIGGpuInstanceSlot_IMPL(arg0, arg1, i) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsMIGSupported_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsMIGSupported(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsMIGSupported(arg0, arg1) kmigmgrIsMIGSupported_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsMIGEnabled_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsMIGEnabled(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsMIGEnabled(arg0, arg1) kmigmgrIsMIGEnabled_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsMIGGpuInstancingEnabled_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsMIGGpuInstancingEnabled(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsMIGGpuInstancingEnabled(arg0, arg1) kmigmgrIsMIGGpuInstancingEnabled_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsMIGMemPartitioningEnabled_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsMIGMemPartitioningEnabled(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsMIGMemPartitioningEnabled(arg0, arg1) kmigmgrIsMIGMemPartitioningEnabled_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled const KERNEL_MIG_MANAGER_STATIC_INFO *kmigmgrGetStaticInfo_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline const KERNEL_MIG_MANAGER_STATIC_INFO *kmigmgrGetStaticInfo(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NULL; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetStaticInfo(arg0, arg1) kmigmgrGetStaticInfo_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSaveToPersistence_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSaveToPersistence(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSaveToPersistence(arg0, arg1) kmigmgrSaveToPersistence_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrDisableWatchdog_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrDisableWatchdog(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDisableWatchdog(arg0, arg1) kmigmgrDisableWatchdog_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrRestoreWatchdog_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrRestoreWatchdog(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrRestoreWatchdog(arg0, arg1) kmigmgrRestoreWatchdog_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSetSwizzIdInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetSwizzIdInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetSwizzIdInUse(arg0, arg1, swizzId) kmigmgrSetSwizzIdInUse_IMPL(arg0, arg1, swizzId) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrClearSwizzIdInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrClearSwizzIdInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrClearSwizzIdInUse(arg0, arg1, swizzId) kmigmgrClearSwizzIdInUse_IMPL(arg0, arg1, swizzId) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsSwizzIdInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsSwizzIdInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsSwizzIdInUse(arg0, arg1, swizzId) kmigmgrIsSwizzIdInUse_IMPL(arg0, arg1, swizzId) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetInvalidSwizzIdMask_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvU64 *pUnsupportedSwizzIdMask); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetInvalidSwizzIdMask(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvU64 *pUnsupportedSwizzIdMask) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetInvalidSwizzIdMask(arg0, arg1, swizzId, pUnsupportedSwizzIdMask) kmigmgrGetInvalidSwizzIdMask_IMPL(arg0, arg1, swizzId, pUnsupportedSwizzIdMask) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsMIGNvlinkP2PSupported_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsMIGNvlinkP2PSupported(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsMIGNvlinkP2PSupported(arg0, arg1) kmigmgrIsMIGNvlinkP2PSupported_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvU64 kmigmgrGetSwizzIdInUseMask_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvU64 kmigmgrGetSwizzIdInUseMask(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return 0; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetSwizzIdInUseMask(arg0, arg1) kmigmgrGetSwizzIdInUseMask_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSetEnginesInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, union ENGTYPE_BIT_VECTOR *pEngines); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetEnginesInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, union ENGTYPE_BIT_VECTOR *pEngines) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetEnginesInUse(arg0, arg1, pEngines) kmigmgrSetEnginesInUse_IMPL(arg0, arg1, pEngines) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrClearEnginesInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, union ENGTYPE_BIT_VECTOR *pEngines); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrClearEnginesInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, union ENGTYPE_BIT_VECTOR *pEngines) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrClearEnginesInUse(arg0, arg1, pEngines) kmigmgrClearEnginesInUse_IMPL(arg0, arg1, pEngines) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsEngineInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsEngineInUse(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsEngineInUse(arg0, arg1, rmEngineType) kmigmgrIsEngineInUse_IMPL(arg0, arg1, rmEngineType) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsEnginePartitionable_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsEnginePartitionable(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsEnginePartitionable(arg0, arg1, rmEngineType) kmigmgrIsEnginePartitionable_IMPL(arg0, arg1, rmEngineType) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsEngineInInstance_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE globalRmEngType, struct MIG_INSTANCE_REF arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsEngineInInstance(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE globalRmEngType, struct MIG_INSTANCE_REF arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsEngineInInstance(arg0, arg1, globalRmEngType, arg2) kmigmgrIsEngineInInstance_IMPL(arg0, arg1, globalRmEngType, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrCreateGPUInstance_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 *pSwizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2, NvBool bValid, NvBool bCreateCap); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrCreateGPUInstance(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 *pSwizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2, NvBool bValid, NvBool bCreateCap) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrCreateGPUInstance(arg0, arg1, pSwizzId, arg2, bValid, bCreateCap) kmigmgrCreateGPUInstance_IMPL(arg0, arg1, pSwizzId, arg2, bValid, bCreateCap) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInvalidateGPUInstance_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvBool bUnload); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInvalidateGPUInstance(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, NvBool bUnload) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInvalidateGPUInstance(arg0, arg1, swizzId, bUnload) kmigmgrInvalidateGPUInstance_IMPL(arg0, arg1, swizzId, bUnload) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInitGPUInstanceScrubber_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInitGPUInstanceScrubber(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstanceScrubber(arg0, arg1, arg2) kmigmgrInitGPUInstanceScrubber_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrDestroyGPUInstanceScrubber_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrDestroyGPUInstanceScrubber(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDestroyGPUInstanceScrubber(arg0, arg1, arg2) kmigmgrDestroyGPUInstanceScrubber_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInitGPUInstanceBufPools_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInitGPUInstanceBufPools(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstanceBufPools(arg0, arg1, arg2) kmigmgrInitGPUInstanceBufPools_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInitGPUInstanceGrBufPools_IMPL(OBJGPU *pGpu, struct KernelMIGManager *arg0, KERNEL_MIG_GPU_INSTANCE *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInitGPUInstanceGrBufPools(OBJGPU *pGpu, struct KernelMIGManager *arg0, KERNEL_MIG_GPU_INSTANCE *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstanceGrBufPools(pGpu, arg0, arg1) kmigmgrInitGPUInstanceGrBufPools_IMPL(pGpu, arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrDestroyGPUInstanceGrBufPools_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrDestroyGPUInstanceGrBufPools(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDestroyGPUInstanceGrBufPools(arg0, arg1, arg2) kmigmgrDestroyGPUInstanceGrBufPools_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInitGPUInstancePool_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInitGPUInstancePool(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstancePool(arg0, arg1, arg2) kmigmgrInitGPUInstancePool_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrDestroyGPUInstancePool_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrDestroyGPUInstancePool(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDestroyGPUInstancePool(arg0, arg1, arg2) kmigmgrDestroyGPUInstancePool_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInitGPUInstanceRunlistBufPools_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInitGPUInstanceRunlistBufPools(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstanceRunlistBufPools(arg0, arg1, arg2) kmigmgrInitGPUInstanceRunlistBufPools_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrDestroyGPUInstanceRunlistBufPools_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrDestroyGPUInstanceRunlistBufPools(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDestroyGPUInstanceRunlistBufPools(arg0, arg1, arg2) kmigmgrDestroyGPUInstanceRunlistBufPools_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrPrintSubscribingClients_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrPrintSubscribingClients(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrPrintSubscribingClients(arg0, arg1, swizzId) kmigmgrPrintSubscribingClients_IMPL(arg0, arg1, swizzId) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrInitGPUInstanceInfo_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrInitGPUInstanceInfo(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInitGPUInstanceInfo(arg0, arg1, arg2) kmigmgrInitGPUInstanceInfo_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrTrimInstanceRunlistBufPools_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrTrimInstanceRunlistBufPools(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrTrimInstanceRunlistBufPools(arg0, arg1, arg2) kmigmgrTrimInstanceRunlistBufPools_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSetDeviceProfilingInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetDeviceProfilingInUse(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetDeviceProfilingInUse(arg0, arg1) kmigmgrSetDeviceProfilingInUse_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrClearDeviceProfilingInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrClearDeviceProfilingInUse(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrClearDeviceProfilingInUse(arg0, arg1) kmigmgrClearDeviceProfilingInUse_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsDeviceProfilingInUse_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsDeviceProfilingInUse(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsDeviceProfilingInUse(arg0, arg1) kmigmgrIsDeviceProfilingInUse_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsClientUsingDeviceProfiling_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvHandle hClient); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsClientUsingDeviceProfiling(OBJGPU *arg0, struct KernelMIGManager *arg1, NvHandle hClient) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsClientUsingDeviceProfiling(arg0, arg1, hClient) kmigmgrIsClientUsingDeviceProfiling_IMPL(arg0, arg1, hClient) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsDeviceUsingDeviceProfiling_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsDeviceUsingDeviceProfiling(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsDeviceUsingDeviceProfiling(arg0, arg1, pDevice) kmigmgrIsDeviceUsingDeviceProfiling_IMPL(arg0, arg1, pDevice) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrEnableAllLCEs_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bEnableAllLCEs); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrEnableAllLCEs(OBJGPU *arg0, struct KernelMIGManager *arg1, NvBool bEnableAllLCEs) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrEnableAllLCEs(arg0, arg1, bEnableAllLCEs) kmigmgrEnableAllLCEs_IMPL(arg0, arg1, bEnableAllLCEs) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetInstanceRefFromDevice_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *arg2, struct MIG_INSTANCE_REF *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetInstanceRefFromDevice(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *arg2, struct MIG_INSTANCE_REF *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetInstanceRefFromDevice(arg0, arg1, arg2, arg3) kmigmgrGetInstanceRefFromDevice_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetInstanceRefFromClient_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvHandle hClient, struct MIG_INSTANCE_REF *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetInstanceRefFromClient(OBJGPU *arg0, struct KernelMIGManager *arg1, NvHandle hClient, struct MIG_INSTANCE_REF *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetInstanceRefFromClient(arg0, arg1, hClient, arg2) kmigmgrGetInstanceRefFromClient_IMPL(arg0, arg1, hClient, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetMemoryPartitionHeapFromDevice_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *arg2, struct Heap **arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetMemoryPartitionHeapFromDevice(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *arg2, struct Heap **arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetMemoryPartitionHeapFromDevice(arg0, arg1, arg2, arg3) kmigmgrGetMemoryPartitionHeapFromDevice_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetSwizzIdFromDevice_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice, NvU32 *pSwizzId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetSwizzIdFromDevice(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice, NvU32 *pSwizzId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetSwizzIdFromDevice(arg0, arg1, pDevice, pSwizzId) kmigmgrGetSwizzIdFromDevice_IMPL(arg0, arg1, pDevice, pSwizzId) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrPrintGPUInstanceInfo_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrPrintGPUInstanceInfo(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrPrintGPUInstanceInfo(arg0, arg1, arg2) kmigmgrPrintGPUInstanceInfo_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSetGPUInstanceInfo_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetGPUInstanceInfo(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetGPUInstanceInfo(arg0, arg1, swizzId, arg2) kmigmgrSetGPUInstanceInfo_IMPL(arg0, arg1, swizzId, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetGPUInstanceInfo_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KERNEL_MIG_GPU_INSTANCE **arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetGPUInstanceInfo(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KERNEL_MIG_GPU_INSTANCE **arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetGPUInstanceInfo(arg0, arg1, swizzId, arg2) kmigmgrGetGPUInstanceInfo_IMPL(arg0, arg1, swizzId, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetLocalToGlobalEngineType_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct MIG_INSTANCE_REF arg2, RM_ENGINE_TYPE localEngType, RM_ENGINE_TYPE *pGlobalEngType); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetLocalToGlobalEngineType(OBJGPU *arg0, struct KernelMIGManager *arg1, struct MIG_INSTANCE_REF arg2, RM_ENGINE_TYPE localEngType, RM_ENGINE_TYPE *pGlobalEngType) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetLocalToGlobalEngineType(arg0, arg1, arg2, localEngType, pGlobalEngType) kmigmgrGetLocalToGlobalEngineType_IMPL(arg0, arg1, arg2, localEngType, pGlobalEngType) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetGlobalToLocalEngineType_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct MIG_INSTANCE_REF arg2, RM_ENGINE_TYPE globalEngType, RM_ENGINE_TYPE *pLocalEngType); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetGlobalToLocalEngineType(OBJGPU *arg0, struct KernelMIGManager *arg1, struct MIG_INSTANCE_REF arg2, RM_ENGINE_TYPE globalEngType, RM_ENGINE_TYPE *pLocalEngType) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetGlobalToLocalEngineType(arg0, arg1, arg2, globalEngType, pLocalEngType) kmigmgrGetGlobalToLocalEngineType_IMPL(arg0, arg1, arg2, globalEngType, pLocalEngType) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrFilterEngineList_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Subdevice *arg2, RM_ENGINE_TYPE *pEngineTypes, NvU32 *pEngineCount); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrFilterEngineList(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Subdevice *arg2, RM_ENGINE_TYPE *pEngineTypes, NvU32 *pEngineCount) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrFilterEngineList(arg0, arg1, arg2, pEngineTypes, pEngineCount) kmigmgrFilterEngineList_IMPL(arg0, arg1, arg2, pEngineTypes, pEngineCount) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrFilterEnginePartnerList_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Subdevice *arg2, NV2080_CTRL_GPU_GET_ENGINE_PARTNERLIST_PARAMS *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrFilterEnginePartnerList(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Subdevice *arg2, NV2080_CTRL_GPU_GET_ENGINE_PARTNERLIST_PARAMS *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrFilterEnginePartnerList(arg0, arg1, arg2, arg3) kmigmgrFilterEnginePartnerList_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetProfileByPartitionFlag_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 partitionFlag, const NV2080_CTRL_INTERNAL_MIGMGR_PROFILE_INFO **arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetProfileByPartitionFlag(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 partitionFlag, const NV2080_CTRL_INTERNAL_MIGMGR_PROFILE_INFO **arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetProfileByPartitionFlag(arg0, arg1, partitionFlag, arg2) kmigmgrGetProfileByPartitionFlag_IMPL(arg0, arg1, partitionFlag, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSaveComputeInstances_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, GPUMGR_SAVE_COMPUTE_INSTANCE *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSaveComputeInstances(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, GPUMGR_SAVE_COMPUTE_INSTANCE *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSaveComputeInstances(arg0, arg1, arg2, arg3) kmigmgrSaveComputeInstances_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSetPartitioningMode_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSetPartitioningMode(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSetPartitioningMode(arg0, arg1) kmigmgrSetPartitioningMode_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetMIGReferenceFromEngineType_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType, struct MIG_INSTANCE_REF *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetMIGReferenceFromEngineType(OBJGPU *arg0, struct KernelMIGManager *arg1, RM_ENGINE_TYPE rmEngineType, struct MIG_INSTANCE_REF *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetMIGReferenceFromEngineType(arg0, arg1, rmEngineType, arg2) kmigmgrGetMIGReferenceFromEngineType_IMPL(arg0, arg1, rmEngineType, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetGPUInstanceScrubberCe_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice, NvU32 *ceInst); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetGPUInstanceScrubberCe(OBJGPU *arg0, struct KernelMIGManager *arg1, struct Device *pDevice, NvU32 *ceInst) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetGPUInstanceScrubberCe(arg0, arg1, pDevice, ceInst) kmigmgrGetGPUInstanceScrubberCe_IMPL(arg0, arg1, pDevice, ceInst) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrDescribeGPUInstances_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NV2080_CTRL_GPU_DESCRIBE_PARTITIONS_PARAMS *arg2); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrDescribeGPUInstances(OBJGPU *arg0, struct KernelMIGManager *arg1, NV2080_CTRL_GPU_DESCRIBE_PARTITIONS_PARAMS *arg2) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDescribeGPUInstances(arg0, arg1, arg2) kmigmgrDescribeGPUInstances_IMPL(arg0, arg1, arg2) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrSwizzIdToResourceAllocation_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2, KERNEL_MIG_GPU_INSTANCE *arg3, MIG_RESOURCE_ALLOCATION *arg4); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrSwizzIdToResourceAllocation(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, KMIGMGR_CREATE_GPU_INSTANCE_PARAMS arg2, KERNEL_MIG_GPU_INSTANCE *arg3, MIG_RESOURCE_ALLOCATION *arg4) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSwizzIdToResourceAllocation(arg0, arg1, swizzId, arg2, arg3, arg4) kmigmgrSwizzIdToResourceAllocation_IMPL(arg0, arg1, swizzId, arg2, arg3, arg4) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrAllocComputeInstanceHandles_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrAllocComputeInstanceHandles(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrAllocComputeInstanceHandles(arg0, arg1, arg2, arg3) kmigmgrAllocComputeInstanceHandles_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrFreeComputeInstanceHandles_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrFreeComputeInstanceHandles(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrFreeComputeInstanceHandles(arg0, arg1, arg2, arg3) kmigmgrFreeComputeInstanceHandles_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrReleaseComputeInstanceEngines_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline void kmigmgrReleaseComputeInstanceEngines(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, MIG_COMPUTE_INSTANCE *arg3) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrReleaseComputeInstanceEngines(arg0, arg1, arg2, arg3) kmigmgrReleaseComputeInstanceEngines_IMPL(arg0, arg1, arg2, arg3) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrDeleteComputeInstance_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 CIId, NvBool bUnload); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrDeleteComputeInstance(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 CIId, NvBool bUnload) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrDeleteComputeInstance(arg0, arg1, arg2, CIId, bUnload) kmigmgrDeleteComputeInstance_IMPL(arg0, arg1, arg2, CIId, bUnload) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrConfigureGPUInstance_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, const KMIGMGR_CONFIGURE_INSTANCE_REQUEST *pConfigRequestPerCi, NvU32 updateEngMask); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrConfigureGPUInstance(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 swizzId, const KMIGMGR_CONFIGURE_INSTANCE_REQUEST *pConfigRequestPerCi, NvU32 updateEngMask) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrConfigureGPUInstance(arg0, arg1, swizzId, pConfigRequestPerCi, updateEngMask) kmigmgrConfigureGPUInstance_IMPL(arg0, arg1, swizzId, pConfigRequestPerCi, updateEngMask) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInvalidateGrGpcMapping_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 grIdx); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInvalidateGrGpcMapping(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 grIdx) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInvalidateGrGpcMapping(arg0, arg1, arg2, grIdx) kmigmgrInvalidateGrGpcMapping_IMPL(arg0, arg1, arg2, grIdx) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrInvalidateGr_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 grIdx); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrInvalidateGr(OBJGPU *arg0, struct KernelMIGManager *arg1, KERNEL_MIG_GPU_INSTANCE *arg2, NvU32 grIdx) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrInvalidateGr(arg0, arg1, arg2, grIdx) kmigmgrInvalidateGr_IMPL(arg0, arg1, arg2, grIdx) #endif //__nvoc_kernel_mig_manager_h_disabled NvU32 kmigmgrGetNextComputeSize_IMPL(NvBool bGetNextSmallest, NvU32 computeSize); #define kmigmgrGetNextComputeSize(bGetNextSmallest, computeSize) kmigmgrGetNextComputeSize_IMPL(bGetNextSmallest, computeSize) NV_STATUS kmigmgrGetSkylineFromSize_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, const NV2080_CTRL_INTERNAL_GRMGR_SKYLINE_INFO **ppSkyline); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetSkylineFromSize(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, const NV2080_CTRL_INTERNAL_GRMGR_SKYLINE_INFO **ppSkyline) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetSkylineFromSize(arg0, arg1, computeSize, ppSkyline) kmigmgrGetSkylineFromSize_IMPL(arg0, arg1, computeSize, ppSkyline) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetComputeProfileFromSize_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetComputeProfileFromSize(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetComputeProfileFromSize(arg0, arg1, computeSize, pProfile) kmigmgrGetComputeProfileFromSize_IMPL(arg0, arg1, computeSize, pProfile) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetComputeProfileFromSmCount_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 smCount, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetComputeProfileFromSmCount(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 smCount, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetComputeProfileFromSmCount(arg0, arg1, smCount, pProfile) kmigmgrGetComputeProfileFromSmCount_IMPL(arg0, arg1, smCount, pProfile) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetComputeProfileFromGpcCount_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpcCount, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetComputeProfileFromGpcCount(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 gpcCount, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetComputeProfileFromGpcCount(arg0, arg1, gpcCount, pProfile) kmigmgrGetComputeProfileFromGpcCount_IMPL(arg0, arg1, gpcCount, pProfile) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetComputeProfileFromCTSId_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetComputeProfileFromCTSId(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId, NV2080_CTRL_INTERNAL_MIGMGR_COMPUTE_PROFILE *pProfile) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetComputeProfileFromCTSId(arg0, arg1, ctsId, pProfile) kmigmgrGetComputeProfileFromCTSId_IMPL(arg0, arg1, ctsId, pProfile) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetInvalidCTSIdMask_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId, NvU64 *pInvalidCTSIdMask); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetInvalidCTSIdMask(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId, NvU64 *pInvalidCTSIdMask) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetInvalidCTSIdMask(arg0, arg1, ctsId, pInvalidCTSIdMask) kmigmgrGetInvalidCTSIdMask_IMPL(arg0, arg1, ctsId, pInvalidCTSIdMask) #endif //__nvoc_kernel_mig_manager_h_disabled struct NV_RANGE kmigmgrComputeProfileSizeToCTSIdRange_IMPL(NvU32 computeSize); #define kmigmgrComputeProfileSizeToCTSIdRange(computeSize) kmigmgrComputeProfileSizeToCTSIdRange_IMPL(computeSize) NV_STATUS kmigmgrGetFreeCTSId_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 *pCtsId, NvU64 globalValidCtsMask, NvU64 ctsIdInUseMask, NvU32 profileSize); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetFreeCTSId(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 *pCtsId, NvU64 globalValidCtsMask, NvU64 ctsIdInUseMask, NvU32 profileSize) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetFreeCTSId(arg0, arg1, pCtsId, globalValidCtsMask, ctsIdInUseMask, profileSize) kmigmgrGetFreeCTSId_IMPL(arg0, arg1, pCtsId, globalValidCtsMask, ctsIdInUseMask, profileSize) #endif //__nvoc_kernel_mig_manager_h_disabled NvU32 kmigmgrGetComputeSizeFromCTSId_IMPL(NvU32 ctsId); #define kmigmgrGetComputeSizeFromCTSId(ctsId) kmigmgrGetComputeSizeFromCTSId_IMPL(ctsId) NvU32 kmigmgrSmallestComputeProfileSize_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvU32 kmigmgrSmallestComputeProfileSize(OBJGPU *arg0, struct KernelMIGManager *arg1) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return 0; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrSmallestComputeProfileSize(arg0, arg1) kmigmgrSmallestComputeProfileSize_IMPL(arg0, arg1) #endif //__nvoc_kernel_mig_manager_h_disabled void kmigmgrSetCTSIdInUse_IMPL(KERNEL_MIG_GPU_INSTANCE *arg0, NvU32 ctsId, NvU32 grId, NvBool bInUse); #define kmigmgrSetCTSIdInUse(arg0, ctsId, grId, bInUse) kmigmgrSetCTSIdInUse_IMPL(arg0, ctsId, grId, bInUse) NV_STATUS kmigmgrXlateSpanStartToCTSId_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, NvU32 spanStart, NvU32 *pCtsId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrXlateSpanStartToCTSId(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 computeSize, NvU32 spanStart, NvU32 *pCtsId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrXlateSpanStartToCTSId(arg0, arg1, computeSize, spanStart, pCtsId) kmigmgrXlateSpanStartToCTSId_IMPL(arg0, arg1, computeSize, spanStart, pCtsId) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrGetSlotBasisMask_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU64 *pMask); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrGetSlotBasisMask(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU64 *pMask) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetSlotBasisMask(arg0, arg1, pMask) kmigmgrGetSlotBasisMask_IMPL(arg0, arg1, pMask) #endif //__nvoc_kernel_mig_manager_h_disabled NvU32 kmigmgrGetSpanStartFromCTSId_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvU32 kmigmgrGetSpanStartFromCTSId(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU32 ctsId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return 0; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrGetSpanStartFromCTSId(arg0, arg1, ctsId) kmigmgrGetSpanStartFromCTSId_IMPL(arg0, arg1, ctsId) #endif //__nvoc_kernel_mig_manager_h_disabled NvBool kmigmgrIsCTSIdAvailable_IMPL(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU64 ctsIdValidMask, NvU64 ctsIdInUseMask, NvU32 ctsId); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NvBool kmigmgrIsCTSIdAvailable(OBJGPU *arg0, struct KernelMIGManager *arg1, NvU64 ctsIdValidMask, NvU64 ctsIdInUseMask, NvU32 ctsId) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_FALSE; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrIsCTSIdAvailable(arg0, arg1, ctsIdValidMask, ctsIdInUseMask, ctsId) kmigmgrIsCTSIdAvailable_IMPL(arg0, arg1, ctsIdValidMask, ctsIdInUseMask, ctsId) #endif //__nvoc_kernel_mig_manager_h_disabled NV_STATUS kmigmgrUpdateCiConfigForVgpu_IMPL(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager, NvU32 execPartCount, NvU32 *pExecPartId, NvU32 gfid, NvBool bDelete); #ifdef __nvoc_kernel_mig_manager_h_disabled static inline NV_STATUS kmigmgrUpdateCiConfigForVgpu(OBJGPU *pGpu, struct KernelMIGManager *pKernelMIGManager, NvU32 execPartCount, NvU32 *pExecPartId, NvU32 gfid, NvBool bDelete) { NV_ASSERT_FAILED_PRECOMP("KernelMIGManager was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_mig_manager_h_disabled #define kmigmgrUpdateCiConfigForVgpu(pGpu, pKernelMIGManager, execPartCount, pExecPartId, gfid, bDelete) kmigmgrUpdateCiConfigForVgpu_IMPL(pGpu, pKernelMIGManager, execPartCount, pExecPartId, gfid, bDelete) #endif //__nvoc_kernel_mig_manager_h_disabled #undef PRIVATE_FIELD #endif // KERNEL_MIG_MANAGER_H #ifdef __cplusplus } // extern "C" #endif #endif // _G_KERNEL_MIG_MANAGER_NVOC_H_