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Andy Ritger
2022-05-09 13:18:59 -07:00
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src/nvidia/generated/g_gpu_vaspace_nvoc.h Normal file
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#ifndef _G_GPU_VASPACE_NVOC_H_
#define _G_GPU_VASPACE_NVOC_H_
#include "nvoc/runtime.h"
#ifdef __cplusplus
extern "C" {
#endif
/*
* SPDX-FileCopyrightText: Copyright (c) 2013-2022 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_gpu_vaspace_nvoc.h"
#ifndef GPU_VASPACE_H
#define GPU_VASPACE_H
/**************** Resource Manager Defines and Structures ******************\
* *
* Module: gpu_vaspace.h *
* Defines and structures used for GPU Virtual Address Space Object. *
\***************************************************************************/
#include "mmu/mmu_walk.h"
#include "mmu/gmmu_fmt.h"
#include "core/core.h"
#include "mem_mgr/vaspace.h" // base class object header
#include "ctrl/ctrl90f1.h"
#include "containers/list.h"
#include "containers/map.h"
#include "mem_mgr/pool_alloc.h"
MAKE_MAP(GVAS_CHANGRP_MAP, NvU32);
typedef GVAS_CHANGRP_MAPIter GVAS_CHANGRP_MAP_ITER;
typedef struct OBJGVASPACE *POBJGVASPACE;
#ifndef __NVOC_CLASS_OBJGVASPACE_TYPEDEF__
#define __NVOC_CLASS_OBJGVASPACE_TYPEDEF__
typedef struct OBJGVASPACE OBJGVASPACE;
#endif /* __NVOC_CLASS_OBJGVASPACE_TYPEDEF__ */
#ifndef __nvoc_class_id_OBJGVASPACE
#define __nvoc_class_id_OBJGVASPACE 0xba5875
#endif /* __nvoc_class_id_OBJGVASPACE */
typedef struct KernelChannelGroup KernelChannelGroup;
#ifndef __NVOC_CLASS_KernelChannelGroup_TYPEDEF__
#define __NVOC_CLASS_KernelChannelGroup_TYPEDEF__
typedef struct KernelChannelGroup KernelChannelGroup;
#endif /* __NVOC_CLASS_KernelChannelGroup_TYPEDEF__ */
#ifndef __nvoc_class_id_KernelChannelGroup
#define __nvoc_class_id_KernelChannelGroup 0xec6de1
#endif /* __nvoc_class_id_KernelChannelGroup */
/*!
* Max number of ranges of VA reserved for partial page tables.
*/
#define GVAS_MAX_PARTIAL_PAGE_TABLE_RANGES 5
// On Linux, CUDA apps allocate VA in bottom 4GB and also above 8GB
#define SPLIT_VAS_SERVER_RM_MANAGED_VA_START 0x100000000ULL // 4GB
#define SPLIT_VAS_SERVER_RM_MANAGED_VA_SIZE 0x20000000ULL // 512MB
/*!
* Tracks ranges currently mapped (per-GPU).
*/
typedef struct
{
/*!
* Embedded btree node.
*/
NODE node;
/*!
* Mask of GPUs with this mapping.
*/
NvU32 gpuMask;
} GVAS_MAPPING;
/*!
* Virtual Address Space Block - Data tracked per virtual allocation
*/
typedef struct
{
/*!
* Tree of current mappings.
*/
GVAS_MAPPING *pMapTree;
/*!
* Mask of page sizes locked down at VA reservation.
*/
NvU64 pageSizeLockMask;
/*!
* Flags passed by user on VA alloc (reservation).
*/
VAS_ALLOC_FLAGS flags;
/*!
* Level of management.
*/
VA_MANAGEMENT management;
} GVAS_BLOCK, *PGVAS_BLOCK;
/*!
* Virtual address range.
*/
struct VA_RANGE_GPU
{
NvU64 vaLo;
NvU64 vaHi;
};
typedef struct VA_RANGE_GPU VA_RANGE_GPU;
/*!
* List of virtual address range.
*/
MAKE_LIST(ReservedPageTableEntriesList, VA_RANGE_GPU);
/*!
* Per-VAS per-GPU state.
*/
typedef struct GVAS_GPU_STATE
{
/*!
* GMMU format for this GPU (structured for heterogenous SLI).
*/
const GMMU_FMT *pFmt;
/*!
* MMU walk library state.
*/
MMU_WALK *pWalk;
/*!
* Mirrored Root Page Dir for UVM mirroring.
*/
MMU_WALK_MEMDESC *pMirroredRoot;
/*!
* RM-internal root page directory for shared VAS management.
*/
MEMORY_DESCRIPTOR *pRootInternal;
/*!
* List head of 4K page cache used for suballocating BPTs
*/
MEMORY_DESCRIPTOR_LIST unpackedMemDescList;
/*!
* Reserved page table entries for the GVA space.
*/
ReservedPageTableEntriesList reservedPageTableEntries;
/*!
* FLA Dummy page for short term WAR for FLA Security issue documented in
* bug: 3059741.
*/
struct
{
/*!
* Memory handle for Dummy Big page
*/
NvHandle hMemory;
/*!
* PTE Entry for 64K Dummy page size
*/
GMMU_ENTRY_VALUE pte;
}flaDummyPage;
} GVAS_GPU_STATE;
/*!
* GVAS definition of the MMU walker user context.
*/
struct MMU_WALK_USER_CTX
{
struct OBJGVASPACE *pGVAS;
OBJGPU *pGpu;
GVAS_GPU_STATE *pGpuState;
const GVAS_BLOCK *pBlock;
const NvU32 *pChID;
NvU32 gfid;
};
/*!
* RM-registered/managed GPU virtual address space.
*/
#ifdef NVOC_GPU_VASPACE_H_PRIVATE_ACCESS_ALLOWED
#define PRIVATE_FIELD(x) x
#else
#define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x)
#endif
struct OBJGVASPACE {
const struct NVOC_RTTI *__nvoc_rtti;
struct OBJVASPACE __nvoc_base_OBJVASPACE;
struct Object *__nvoc_pbase_Object;
struct OBJVASPACE *__nvoc_pbase_OBJVASPACE;
struct OBJGVASPACE *__nvoc_pbase_OBJGVASPACE;
NV_STATUS (*__gvaspaceConstruct___)(struct OBJGVASPACE *, NvU32, NvU32, NvU64, NvU64, NvU64, NvU64, NvU32);
NV_STATUS (*__gvaspaceReserveMempool__)(struct OBJGVASPACE *, struct OBJGPU *, NvHandle, NvU64, NvU64, NvU32);
NV_STATUS (*__gvaspaceAlloc__)(struct OBJGVASPACE *, NvU64, NvU64, NvU64, NvU64, NvU64, VAS_ALLOC_FLAGS, NvU64 *);
NV_STATUS (*__gvaspaceFree__)(struct OBJGVASPACE *, NvU64);
NV_STATUS (*__gvaspaceApplyDefaultAlignment__)(struct OBJGVASPACE *, const FB_ALLOC_INFO *, NvU64 *, NvU64 *, NvU64 *);
NV_STATUS (*__gvaspaceIncAllocRefCnt__)(struct OBJGVASPACE *, NvU64);
NV_STATUS (*__gvaspaceMap__)(struct OBJGVASPACE *, struct OBJGPU *, const NvU64, const NvU64, const MMU_MAP_TARGET *, const VAS_MAP_FLAGS);
void (*__gvaspaceUnmap__)(struct OBJGVASPACE *, struct OBJGPU *, const NvU64, const NvU64);
struct OBJEHEAP *(*__gvaspaceGetHeap__)(struct OBJGVASPACE *);
NvU32 (*__gvaspaceGetMapPageSize__)(struct OBJGVASPACE *, struct OBJGPU *, EMEMBLOCK *);
NvU32 (*__gvaspaceGetBigPageSize__)(struct OBJGVASPACE *);
NvU32 (*__gvaspaceGetFlags__)(struct OBJGVASPACE *);
NvBool (*__gvaspaceIsMirrored__)(struct OBJGVASPACE *);
NvBool (*__gvaspaceIsFaultCapable__)(struct OBJGVASPACE *);
NvBool (*__gvaspaceIsExternallyOwned__)(struct OBJGVASPACE *);
NvBool (*__gvaspaceIsAtsEnabled__)(struct OBJGVASPACE *);
NV_STATUS (*__gvaspaceGetPasid__)(struct OBJGVASPACE *, NvU32 *);
PMEMORY_DESCRIPTOR (*__gvaspaceGetPageDirBase__)(struct OBJGVASPACE *, struct OBJGPU *);
PMEMORY_DESCRIPTOR (*__gvaspaceGetKernelPageDirBase__)(struct OBJGVASPACE *, struct OBJGPU *);
NV_STATUS (*__gvaspacePinRootPageDir__)(struct OBJGVASPACE *, struct OBJGPU *);
void (*__gvaspaceUnpinRootPageDir__)(struct OBJGVASPACE *, struct OBJGPU *);
void (*__gvaspaceInvalidateTlb__)(struct OBJGVASPACE *, struct OBJGPU *, VAS_PTE_UPDATE_TYPE);
NV_STATUS (*__gvaspaceGetVasInfo__)(struct OBJGVASPACE *, NV0080_CTRL_DMA_ADV_SCHED_GET_VA_CAPS_PARAMS *);
NV_STATUS (*__gvaspaceGetPageTableInfo__)(struct OBJGVASPACE *, NV0080_CTRL_DMA_GET_PDE_INFO_PARAMS *);
NV_STATUS (*__gvaspaceGetPteInfo__)(struct OBJGVASPACE *, struct OBJGPU *, NV0080_CTRL_DMA_GET_PTE_INFO_PARAMS *, RmPhysAddr *);
NV_STATUS (*__gvaspaceSetPteInfo__)(struct OBJGVASPACE *, struct OBJGPU *, NV0080_CTRL_DMA_SET_PTE_INFO_PARAMS *);
NvBool (*__gvaspaceIsInternalVaRestricted__)(struct OBJGVASPACE *);
NvU64 (*__gvaspaceGetVaLimit__)(struct OBJGVASPACE *);
NvU64 (*__gvaspaceGetVaStart__)(struct OBJGVASPACE *);
struct OBJEHEAP *pHeap;
NvU32 bigPageSize;
NvU64 maxPageSizeSupported;
NvU64 compPageSize;
NvU64 extManagedAlign;
NvU32 flags;
NvU64 partialPtVaRangeSize;
NvU64 partialPtVaRangeBase[5];
NvU32 numPartialPtRanges;
NvBool bIsMirrored;
NvBool bIsFaultCapable;
NvBool bIsExternallyOwned;
MEMORY_DESCRIPTOR *pExternalPDB;
NvBool bIsAtsEnabled;
NvU32 processAddrSpaceId;
NvU64 vaLimitMax;
GVAS_GPU_STATE *pGpuStates;
GVAS_CHANGRP_MAP chanGrpMap;
NvU64 vaStartInternal;
NvU64 vaLimitInternal;
NvBool bRMInternalRestrictedVaRange;
NvU64 vaStartServerRMOwned;
NvU64 vaLimitServerRMOwned;
RM_POOL_ALLOC_MEM_RESERVE_INFO *pPageTableMemPool;
};
#ifndef __NVOC_CLASS_OBJGVASPACE_TYPEDEF__
#define __NVOC_CLASS_OBJGVASPACE_TYPEDEF__
typedef struct OBJGVASPACE OBJGVASPACE;
#endif /* __NVOC_CLASS_OBJGVASPACE_TYPEDEF__ */
#ifndef __nvoc_class_id_OBJGVASPACE
#define __nvoc_class_id_OBJGVASPACE 0xba5875
#endif /* __nvoc_class_id_OBJGVASPACE */
extern const struct NVOC_CLASS_DEF __nvoc_class_def_OBJGVASPACE;
#define __staticCast_OBJGVASPACE(pThis) \
((pThis)->__nvoc_pbase_OBJGVASPACE)
#ifdef __nvoc_gpu_vaspace_h_disabled
#define __dynamicCast_OBJGVASPACE(pThis) ((OBJGVASPACE*)NULL)
#else //__nvoc_gpu_vaspace_h_disabled
#define __dynamicCast_OBJGVASPACE(pThis) \
((OBJGVASPACE*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(OBJGVASPACE)))
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS __nvoc_objCreateDynamic_OBJGVASPACE(OBJGVASPACE**, Dynamic*, NvU32, va_list);
NV_STATUS __nvoc_objCreate_OBJGVASPACE(OBJGVASPACE**, Dynamic*, NvU32);
#define __objCreate_OBJGVASPACE(ppNewObj, pParent, createFlags) \
__nvoc_objCreate_OBJGVASPACE((ppNewObj), staticCast((pParent), Dynamic), (createFlags))
#define gvaspaceConstruct_(pGVAS, classId, vaspaceId, vaStart, vaLimit, vaStartInternal, vaLimitInternal, flags) gvaspaceConstruct__DISPATCH(pGVAS, classId, vaspaceId, vaStart, vaLimit, vaStartInternal, vaLimitInternal, flags)
#define gvaspaceReserveMempool(pGVAS, pGpu, hClient, size, pageSizeLockMask, flags) gvaspaceReserveMempool_DISPATCH(pGVAS, pGpu, hClient, size, pageSizeLockMask, flags)
#define gvaspaceAlloc(pVAS, size, align, rangeLo, rangeHi, pageSizeLockMask, flags, pAddr) gvaspaceAlloc_DISPATCH(pVAS, size, align, rangeLo, rangeHi, pageSizeLockMask, flags, pAddr)
#define gvaspaceFree(pVAS, vAddr) gvaspaceFree_DISPATCH(pVAS, vAddr)
#define gvaspaceApplyDefaultAlignment(pVAS, pAllocInfo, pAlign, pSize, pPageSizeLockMask) gvaspaceApplyDefaultAlignment_DISPATCH(pVAS, pAllocInfo, pAlign, pSize, pPageSizeLockMask)
#define gvaspaceIncAllocRefCnt(pVAS, vAddr) gvaspaceIncAllocRefCnt_DISPATCH(pVAS, vAddr)
#define gvaspaceMap(pVAS, pGpu, vaLo, vaHi, pTarget, flags) gvaspaceMap_DISPATCH(pVAS, pGpu, vaLo, vaHi, pTarget, flags)
#define gvaspaceUnmap(pVAS, pGpu, vaLo, vaHi) gvaspaceUnmap_DISPATCH(pVAS, pGpu, vaLo, vaHi)
#define gvaspaceGetHeap(pVAS) gvaspaceGetHeap_DISPATCH(pVAS)
#define gvaspaceGetMapPageSize(pVAS, pGpu, pMemBlock) gvaspaceGetMapPageSize_DISPATCH(pVAS, pGpu, pMemBlock)
#define gvaspaceGetBigPageSize(pVAS) gvaspaceGetBigPageSize_DISPATCH(pVAS)
#define gvaspaceGetFlags(pVAS) gvaspaceGetFlags_DISPATCH(pVAS)
#define gvaspaceIsMirrored(pVAS) gvaspaceIsMirrored_DISPATCH(pVAS)
#define gvaspaceIsFaultCapable(pVAS) gvaspaceIsFaultCapable_DISPATCH(pVAS)
#define gvaspaceIsExternallyOwned(pVAS) gvaspaceIsExternallyOwned_DISPATCH(pVAS)
#define gvaspaceIsAtsEnabled(pVAS) gvaspaceIsAtsEnabled_DISPATCH(pVAS)
#define gvaspaceGetPasid(pVAS, pPasid) gvaspaceGetPasid_DISPATCH(pVAS, pPasid)
#define gvaspaceGetPageDirBase(pVAS, pGpu) gvaspaceGetPageDirBase_DISPATCH(pVAS, pGpu)
#define gvaspaceGetKernelPageDirBase(pVAS, pGpu) gvaspaceGetKernelPageDirBase_DISPATCH(pVAS, pGpu)
#define gvaspacePinRootPageDir(pVAS, pGpu) gvaspacePinRootPageDir_DISPATCH(pVAS, pGpu)
#define gvaspaceUnpinRootPageDir(pVAS, pGpu) gvaspaceUnpinRootPageDir_DISPATCH(pVAS, pGpu)
#define gvaspaceInvalidateTlb(pVAS, pGpu, type) gvaspaceInvalidateTlb_DISPATCH(pVAS, pGpu, type)
#define gvaspaceGetVasInfo(pVAS, pParams) gvaspaceGetVasInfo_DISPATCH(pVAS, pParams)
#define gvaspaceGetPageTableInfo(pVAS, pParams) gvaspaceGetPageTableInfo_DISPATCH(pVAS, pParams)
#define gvaspaceGetPteInfo(pVAS, pGpu, pParams, pPhysAddr) gvaspaceGetPteInfo_DISPATCH(pVAS, pGpu, pParams, pPhysAddr)
#define gvaspaceSetPteInfo(pVAS, pGpu, pParams) gvaspaceSetPteInfo_DISPATCH(pVAS, pGpu, pParams)
#define gvaspaceIsInternalVaRestricted(pGVAS) gvaspaceIsInternalVaRestricted_DISPATCH(pGVAS)
#define gvaspaceGetVaLimit(pVAS) gvaspaceGetVaLimit_DISPATCH(pVAS)
#define gvaspaceGetVaStart(pVAS) gvaspaceGetVaStart_DISPATCH(pVAS)
NV_STATUS gvaspaceConstruct__IMPL(struct OBJGVASPACE *pGVAS, NvU32 classId, NvU32 vaspaceId, NvU64 vaStart, NvU64 vaLimit, NvU64 vaStartInternal, NvU64 vaLimitInternal, NvU32 flags);
static inline NV_STATUS gvaspaceConstruct__DISPATCH(struct OBJGVASPACE *pGVAS, NvU32 classId, NvU32 vaspaceId, NvU64 vaStart, NvU64 vaLimit, NvU64 vaStartInternal, NvU64 vaLimitInternal, NvU32 flags) {
return pGVAS->__gvaspaceConstruct___(pGVAS, classId, vaspaceId, vaStart, vaLimit, vaStartInternal, vaLimitInternal, flags);
}
NV_STATUS gvaspaceReserveMempool_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NvHandle hClient, NvU64 size, NvU64 pageSizeLockMask, NvU32 flags);
static inline NV_STATUS gvaspaceReserveMempool_DISPATCH(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NvHandle hClient, NvU64 size, NvU64 pageSizeLockMask, NvU32 flags) {
return pGVAS->__gvaspaceReserveMempool__(pGVAS, pGpu, hClient, size, pageSizeLockMask, flags);
}
NV_STATUS gvaspaceAlloc_IMPL(struct OBJGVASPACE *pVAS, NvU64 size, NvU64 align, NvU64 rangeLo, NvU64 rangeHi, NvU64 pageSizeLockMask, VAS_ALLOC_FLAGS flags, NvU64 *pAddr);
static inline NV_STATUS gvaspaceAlloc_DISPATCH(struct OBJGVASPACE *pVAS, NvU64 size, NvU64 align, NvU64 rangeLo, NvU64 rangeHi, NvU64 pageSizeLockMask, VAS_ALLOC_FLAGS flags, NvU64 *pAddr) {
return pVAS->__gvaspaceAlloc__(pVAS, size, align, rangeLo, rangeHi, pageSizeLockMask, flags, pAddr);
}
NV_STATUS gvaspaceFree_IMPL(struct OBJGVASPACE *pVAS, NvU64 vAddr);
static inline NV_STATUS gvaspaceFree_DISPATCH(struct OBJGVASPACE *pVAS, NvU64 vAddr) {
return pVAS->__gvaspaceFree__(pVAS, vAddr);
}
NV_STATUS gvaspaceApplyDefaultAlignment_IMPL(struct OBJGVASPACE *pVAS, const FB_ALLOC_INFO *pAllocInfo, NvU64 *pAlign, NvU64 *pSize, NvU64 *pPageSizeLockMask);
static inline NV_STATUS gvaspaceApplyDefaultAlignment_DISPATCH(struct OBJGVASPACE *pVAS, const FB_ALLOC_INFO *pAllocInfo, NvU64 *pAlign, NvU64 *pSize, NvU64 *pPageSizeLockMask) {
return pVAS->__gvaspaceApplyDefaultAlignment__(pVAS, pAllocInfo, pAlign, pSize, pPageSizeLockMask);
}
NV_STATUS gvaspaceIncAllocRefCnt_IMPL(struct OBJGVASPACE *pVAS, NvU64 vAddr);
static inline NV_STATUS gvaspaceIncAllocRefCnt_DISPATCH(struct OBJGVASPACE *pVAS, NvU64 vAddr) {
return pVAS->__gvaspaceIncAllocRefCnt__(pVAS, vAddr);
}
NV_STATUS gvaspaceMap_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const MMU_MAP_TARGET *pTarget, const VAS_MAP_FLAGS flags);
static inline NV_STATUS gvaspaceMap_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const MMU_MAP_TARGET *pTarget, const VAS_MAP_FLAGS flags) {
return pVAS->__gvaspaceMap__(pVAS, pGpu, vaLo, vaHi, pTarget, flags);
}
void gvaspaceUnmap_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi);
static inline void gvaspaceUnmap_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi) {
pVAS->__gvaspaceUnmap__(pVAS, pGpu, vaLo, vaHi);
}
struct OBJEHEAP *gvaspaceGetHeap_IMPL(struct OBJGVASPACE *pVAS);
static inline struct OBJEHEAP *gvaspaceGetHeap_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceGetHeap__(pVAS);
}
NvU32 gvaspaceGetMapPageSize_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, EMEMBLOCK *pMemBlock);
static inline NvU32 gvaspaceGetMapPageSize_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, EMEMBLOCK *pMemBlock) {
return pVAS->__gvaspaceGetMapPageSize__(pVAS, pGpu, pMemBlock);
}
NvU32 gvaspaceGetBigPageSize_IMPL(struct OBJGVASPACE *pVAS);
static inline NvU32 gvaspaceGetBigPageSize_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceGetBigPageSize__(pVAS);
}
NvU32 gvaspaceGetFlags_IMPL(struct OBJGVASPACE *pVAS);
static inline NvU32 gvaspaceGetFlags_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceGetFlags__(pVAS);
}
NvBool gvaspaceIsMirrored_IMPL(struct OBJGVASPACE *pVAS);
static inline NvBool gvaspaceIsMirrored_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceIsMirrored__(pVAS);
}
NvBool gvaspaceIsFaultCapable_IMPL(struct OBJGVASPACE *pVAS);
static inline NvBool gvaspaceIsFaultCapable_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceIsFaultCapable__(pVAS);
}
NvBool gvaspaceIsExternallyOwned_IMPL(struct OBJGVASPACE *pVAS);
static inline NvBool gvaspaceIsExternallyOwned_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceIsExternallyOwned__(pVAS);
}
NvBool gvaspaceIsAtsEnabled_IMPL(struct OBJGVASPACE *pVAS);
static inline NvBool gvaspaceIsAtsEnabled_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceIsAtsEnabled__(pVAS);
}
NV_STATUS gvaspaceGetPasid_IMPL(struct OBJGVASPACE *pVAS, NvU32 *pPasid);
static inline NV_STATUS gvaspaceGetPasid_DISPATCH(struct OBJGVASPACE *pVAS, NvU32 *pPasid) {
return pVAS->__gvaspaceGetPasid__(pVAS, pPasid);
}
PMEMORY_DESCRIPTOR gvaspaceGetPageDirBase_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu);
static inline PMEMORY_DESCRIPTOR gvaspaceGetPageDirBase_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu) {
return pVAS->__gvaspaceGetPageDirBase__(pVAS, pGpu);
}
PMEMORY_DESCRIPTOR gvaspaceGetKernelPageDirBase_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu);
static inline PMEMORY_DESCRIPTOR gvaspaceGetKernelPageDirBase_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu) {
return pVAS->__gvaspaceGetKernelPageDirBase__(pVAS, pGpu);
}
NV_STATUS gvaspacePinRootPageDir_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu);
static inline NV_STATUS gvaspacePinRootPageDir_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu) {
return pVAS->__gvaspacePinRootPageDir__(pVAS, pGpu);
}
void gvaspaceUnpinRootPageDir_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu);
static inline void gvaspaceUnpinRootPageDir_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu) {
pVAS->__gvaspaceUnpinRootPageDir__(pVAS, pGpu);
}
void gvaspaceInvalidateTlb_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, VAS_PTE_UPDATE_TYPE type);
static inline void gvaspaceInvalidateTlb_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, VAS_PTE_UPDATE_TYPE type) {
pVAS->__gvaspaceInvalidateTlb__(pVAS, pGpu, type);
}
NV_STATUS gvaspaceGetVasInfo_IMPL(struct OBJGVASPACE *pVAS, NV0080_CTRL_DMA_ADV_SCHED_GET_VA_CAPS_PARAMS *pParams);
static inline NV_STATUS gvaspaceGetVasInfo_DISPATCH(struct OBJGVASPACE *pVAS, NV0080_CTRL_DMA_ADV_SCHED_GET_VA_CAPS_PARAMS *pParams) {
return pVAS->__gvaspaceGetVasInfo__(pVAS, pParams);
}
NV_STATUS gvaspaceGetPageTableInfo_IMPL(struct OBJGVASPACE *pVAS, NV0080_CTRL_DMA_GET_PDE_INFO_PARAMS *pParams);
static inline NV_STATUS gvaspaceGetPageTableInfo_DISPATCH(struct OBJGVASPACE *pVAS, NV0080_CTRL_DMA_GET_PDE_INFO_PARAMS *pParams) {
return pVAS->__gvaspaceGetPageTableInfo__(pVAS, pParams);
}
NV_STATUS gvaspaceGetPteInfo_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_GET_PTE_INFO_PARAMS *pParams, RmPhysAddr *pPhysAddr);
static inline NV_STATUS gvaspaceGetPteInfo_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_GET_PTE_INFO_PARAMS *pParams, RmPhysAddr *pPhysAddr) {
return pVAS->__gvaspaceGetPteInfo__(pVAS, pGpu, pParams, pPhysAddr);
}
NV_STATUS gvaspaceSetPteInfo_IMPL(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_SET_PTE_INFO_PARAMS *pParams);
static inline NV_STATUS gvaspaceSetPteInfo_DISPATCH(struct OBJGVASPACE *pVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_SET_PTE_INFO_PARAMS *pParams) {
return pVAS->__gvaspaceSetPteInfo__(pVAS, pGpu, pParams);
}
NvBool gvaspaceIsInternalVaRestricted_IMPL(struct OBJGVASPACE *pGVAS);
static inline NvBool gvaspaceIsInternalVaRestricted_DISPATCH(struct OBJGVASPACE *pGVAS) {
return pGVAS->__gvaspaceIsInternalVaRestricted__(pGVAS);
}
static inline NvU64 gvaspaceGetVaLimit_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceGetVaLimit__(pVAS);
}
static inline NvU64 gvaspaceGetVaStart_DISPATCH(struct OBJGVASPACE *pVAS) {
return pVAS->__gvaspaceGetVaStart__(pVAS);
}
static inline NvU32 gvaspaceGetReservedVaspaceBase(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu) {
if (!((0) && (pGpu))) {
return 1048576;
}
return 67108864;
}
void gvaspaceDestruct_IMPL(struct OBJGVASPACE *pGVAS);
#define __nvoc_gvaspaceDestruct(pGVAS) gvaspaceDestruct_IMPL(pGVAS)
NV_STATUS gvaspaceExternalRootDirCommit_IMPL(struct OBJGVASPACE *pGVAS, NvHandle hClient, struct OBJGPU *pGpu, NV0080_CTRL_DMA_SET_PAGE_DIRECTORY_PARAMS *pParams);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceExternalRootDirCommit(struct OBJGVASPACE *pGVAS, NvHandle hClient, struct OBJGPU *pGpu, NV0080_CTRL_DMA_SET_PAGE_DIRECTORY_PARAMS *pParams) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceExternalRootDirCommit(pGVAS, hClient, pGpu, pParams) gvaspaceExternalRootDirCommit_IMPL(pGVAS, hClient, pGpu, pParams)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceExternalRootDirRevoke_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_UNSET_PAGE_DIRECTORY_PARAMS *pParams);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceExternalRootDirRevoke(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_UNSET_PAGE_DIRECTORY_PARAMS *pParams) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceExternalRootDirRevoke(pGVAS, pGpu, pParams) gvaspaceExternalRootDirRevoke_IMPL(pGVAS, pGpu, pParams)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceResize_IMPL(struct OBJGVASPACE *pGVAS, NV0080_CTRL_DMA_SET_VA_SPACE_SIZE_PARAMS *pParams);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceResize(struct OBJGVASPACE *pGVAS, NV0080_CTRL_DMA_SET_VA_SPACE_SIZE_PARAMS *pParams) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceResize(pGVAS, pParams) gvaspaceResize_IMPL(pGVAS, pParams)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceUpdatePde2_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_UPDATE_PDE_2_PARAMS *pParams);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceUpdatePde2(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV0080_CTRL_DMA_UPDATE_PDE_2_PARAMS *pParams) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceUpdatePde2(pGVAS, pGpu, pParams) gvaspaceUpdatePde2_IMPL(pGVAS, pGpu, pParams)
#endif //__nvoc_gpu_vaspace_h_disabled
const struct GMMU_FMT *gvaspaceGetGmmuFmt_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline const struct GMMU_FMT *gvaspaceGetGmmuFmt(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NULL;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceGetGmmuFmt(pGVAS, pGpu) gvaspaceGetGmmuFmt_IMPL(pGVAS, pGpu)
#endif //__nvoc_gpu_vaspace_h_disabled
GVAS_GPU_STATE *gvaspaceGetGpuState_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline GVAS_GPU_STATE *gvaspaceGetGpuState(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NULL;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceGetGpuState(pGVAS, pGpu) gvaspaceGetGpuState_IMPL(pGVAS, pGpu)
#endif //__nvoc_gpu_vaspace_h_disabled
void gvaspaceWalkUserCtxAcquire_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const GVAS_BLOCK *pVASBlock, struct MMU_WALK_USER_CTX *pUserCtx);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline void gvaspaceWalkUserCtxAcquire(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const GVAS_BLOCK *pVASBlock, struct MMU_WALK_USER_CTX *pUserCtx) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceWalkUserCtxAcquire(pGVAS, pGpu, pVASBlock, pUserCtx) gvaspaceWalkUserCtxAcquire_IMPL(pGVAS, pGpu, pVASBlock, pUserCtx)
#endif //__nvoc_gpu_vaspace_h_disabled
void gvaspaceWalkUserCtxRelease_IMPL(struct OBJGVASPACE *pGVAS, struct MMU_WALK_USER_CTX *pUserCtx);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline void gvaspaceWalkUserCtxRelease(struct OBJGVASPACE *pGVAS, struct MMU_WALK_USER_CTX *pUserCtx) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceWalkUserCtxRelease(pGVAS, pUserCtx) gvaspaceWalkUserCtxRelease_IMPL(pGVAS, pUserCtx)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceIncChanGrpRefCnt_IMPL(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceIncChanGrpRefCnt(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceIncChanGrpRefCnt(pGVAS, pKernelChannelGroup) gvaspaceIncChanGrpRefCnt_IMPL(pGVAS, pKernelChannelGroup)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceDecChanGrpRefCnt_IMPL(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceDecChanGrpRefCnt(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceDecChanGrpRefCnt(pGVAS, pKernelChannelGroup) gvaspaceDecChanGrpRefCnt_IMPL(pGVAS, pKernelChannelGroup)
#endif //__nvoc_gpu_vaspace_h_disabled
NvU32 gvaspaceGetChanGrpRefCnt_IMPL(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NvU32 gvaspaceGetChanGrpRefCnt(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return 0;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceGetChanGrpRefCnt(pGVAS, pKernelChannelGroup) gvaspaceGetChanGrpRefCnt_IMPL(pGVAS, pKernelChannelGroup)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceCheckChanGrpRefCnt_IMPL(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceCheckChanGrpRefCnt(struct OBJGVASPACE *pGVAS, KernelChannelGroup *pKernelChannelGroup) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceCheckChanGrpRefCnt(pGVAS, pKernelChannelGroup) gvaspaceCheckChanGrpRefCnt_IMPL(pGVAS, pKernelChannelGroup)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceUnregisterAllChanGrps_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceUnregisterAllChanGrps(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceUnregisterAllChanGrps(pGVAS, pGpu) gvaspaceUnregisterAllChanGrps_IMPL(pGVAS, pGpu)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceReservePageTableEntries_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const NvU64 pageSizeMask);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceReservePageTableEntries(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const NvU64 pageSizeMask) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceReservePageTableEntries(pGVAS, pGpu, vaLo, vaHi, pageSizeMask) gvaspaceReservePageTableEntries_IMPL(pGVAS, pGpu, vaLo, vaHi, pageSizeMask)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceReleasePageTableEntries_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const NvU64 pageSizeMask);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceReleasePageTableEntries(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, const NvU64 vaLo, const NvU64 vaHi, const NvU64 pageSizeMask) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceReleasePageTableEntries(pGVAS, pGpu, vaLo, vaHi, pageSizeMask) gvaspaceReleasePageTableEntries_IMPL(pGVAS, pGpu, vaLo, vaHi, pageSizeMask)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceGetPageLevelInfo_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV90F1_CTRL_VASPACE_GET_PAGE_LEVEL_INFO_PARAMS *pParams);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceGetPageLevelInfo(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu, NV90F1_CTRL_VASPACE_GET_PAGE_LEVEL_INFO_PARAMS *pParams) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceGetPageLevelInfo(pGVAS, pGpu, pParams) gvaspaceGetPageLevelInfo_IMPL(pGVAS, pGpu, pParams)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceCopyServerRmReservedPdesToServerRm_IMPL(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceCopyServerRmReservedPdesToServerRm(struct OBJGVASPACE *pGVAS, struct OBJGPU *pGpu) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceCopyServerRmReservedPdesToServerRm(pGVAS, pGpu) gvaspaceCopyServerRmReservedPdesToServerRm_IMPL(pGVAS, pGpu)
#endif //__nvoc_gpu_vaspace_h_disabled
NV_STATUS gvaspaceGetFreeHeap_IMPL(struct OBJGVASPACE *pGVAS, NvU64 *pFreeSize);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NV_STATUS gvaspaceGetFreeHeap(struct OBJGVASPACE *pGVAS, NvU64 *pFreeSize) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_ERR_NOT_SUPPORTED;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceGetFreeHeap(pGVAS, pFreeSize) gvaspaceGetFreeHeap_IMPL(pGVAS, pFreeSize)
#endif //__nvoc_gpu_vaspace_h_disabled
NvBool gvaspaceIsInUse_IMPL(struct OBJGVASPACE *pGVAS);
#ifdef __nvoc_gpu_vaspace_h_disabled
static inline NvBool gvaspaceIsInUse(struct OBJGVASPACE *pGVAS) {
NV_ASSERT_FAILED_PRECOMP("OBJGVASPACE was disabled!");
return NV_FALSE;
}
#else //__nvoc_gpu_vaspace_h_disabled
#define gvaspaceIsInUse(pGVAS) gvaspaceIsInUse_IMPL(pGVAS)
#endif //__nvoc_gpu_vaspace_h_disabled
#undef PRIVATE_FIELD
#endif // GPU_VASPACE_H
#ifdef __cplusplus
} // extern "C"
#endif
#endif // _G_GPU_VASPACE_NVOC_H_