#ifndef _G_KERNEL_GSP_NVOC_H_ #define _G_KERNEL_GSP_NVOC_H_ #include "nvoc/runtime.h" // Version of generated metadata structures #ifdef NVOC_METADATA_VERSION #undef NVOC_METADATA_VERSION #endif #define NVOC_METADATA_VERSION 0 #ifdef __cplusplus extern "C" { #endif /* * SPDX-FileCopyrightText: Copyright (c) 2017-2024 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #pragma once #include "g_kernel_gsp_nvoc.h" #ifndef KERNEL_GSP_H #define KERNEL_GSP_H /*! * This file provides definitions for all KernelGsp data structures * and interfaces. KernelGsp is responsible for initiating the boot * of RM on the GSP core (GSP-RM) and helps facilitate communication * between Kernel RM and GSP-RM. */ #include "core/core.h" #include "core/bin_data.h" #include "gpu/eng_state.h" #include "gpu/intr/intr_service.h" #include "gpu/falcon/kernel_falcon.h" #include "gpu/gsp/gsp_static_config.h" #include "gpu/gsp/gsp_init_args.h" #include "gpu/gsp/gsp_fw_heap.h" #include "nv-firmware.h" #include "nv_sriov_defines.h" #include "rmRiscvUcode.h" #include "libos_init_args.h" #include "gsp_fw_wpr_meta.h" #include "gsp_fw_sr_meta.h" #include "liblogdecode.h" /*! * Forward declarations */ typedef struct SimAccessBuffer SimAccessBuffer; typedef struct GSP_FMC_BOOT_PARAMS GSP_FMC_BOOT_PARAMS; /*! * Structure for VBIOS image for early FRTS. */ typedef struct KernelGspVbiosImg { NvU8 *pImage; NvU32 biosSize; NvU32 expansionRomOffset; } KernelGspVbiosImg; /*! * Variant of KernelGspFlcnUcode representing a non-Boot-from-HS ucode that * loads directly without the generic falcon bootloader. */ typedef struct KernelGspFlcnUcodeBootDirect { NvU8 *pImage; NvU32 size; NvU32 imemSize; NvU32 imemNsSize; NvU32 imemNsPa; NvU32 imemSecSize; NvU32 imemSecPa; NvU32 dataOffset; NvU32 dmemSize; NvU32 dmemPa; } KernelGspFlcnUcodeBootDirect; /*! * Variant of KernelGspFlcnUcode representing a non-Boot-from-HS ucode that * loads via the generic falcon bootloader. */ typedef struct KernelGspFlcnUcodeBootWithLoader { MEMORY_DESCRIPTOR *pCodeMemDesc; MEMORY_DESCRIPTOR *pDataMemDesc; NvU32 codeOffset; NvU32 imemSize; NvU32 imemNsSize; NvU32 imemNsPa; NvU32 imemSecSize; NvU32 imemSecPa; NvU32 codeEntry; NvU32 dataOffset; NvU32 dmemSize; NvU32 dmemPa; // Extra fields used for falcon ucodes from VBIOS NvU32 interfaceOffset; } KernelGspFlcnUcodeBootWithLoader; /*! * Variant of KernelGspFlcnUcode representing a Boot-from-HS ucode. */ typedef struct KernelGspFlcnUcodeBootFromHs { MEMORY_DESCRIPTOR *pUcodeMemDesc; NvU32 size; NvU32 codeOffset; NvU32 imemSize; NvU32 imemPa; NvU32 imemVa; NvU32 dataOffset; NvU32 dmemSize; NvU32 dmemPa; NvU32 dmemVa; NvU32 hsSigDmemAddr; NvU32 ucodeId; NvU32 engineIdMask; // Extra fields used for falcon ucodes from VBIOS NvU32 *pSignatures; NvU32 signaturesTotalSize; // size of buffer pointed by pSignatures NvU32 sigSize; // size of one signature NvU32 sigCount; NvU32 vbiosSigVersions; NvU32 interfaceOffset; } KernelGspFlcnUcodeBootFromHs; /*! * Type of KernelGspFlcnUcode. Used as tag in tagged union KernelGspFlcnUcode. * Affects how the ucode is loaded/booted. */ typedef enum KernelGspFlcnUcodeBootType { KGSP_FLCN_UCODE_BOOT_DIRECT, KGSP_FLCN_UCODE_BOOT_WITH_LOADER, KGSP_FLCN_UCODE_BOOT_FROM_HS } KernelGspFlcnUcodeBootType; /*! * RPC processing trigger */ typedef enum KernelGspRpcEventHandlerContext { KGSP_RPC_EVENT_HANDLER_CONTEXT_POLL, // called after issuing an RPC KGSP_RPC_EVENT_HANDLER_CONTEXT_POLL_BOOTUP, // called from kgspWaitForRmInitDone KGSP_RPC_EVENT_HANDLER_CONTEXT_INTERRUPT // called in bottom-half interrupt path } KernelGspRpcEventHandlerContext; /*! * Tagged union of falcon ucode variants used by early FRTS and GSP-RM boot. */ typedef struct KernelGspFlcnUcode { KernelGspFlcnUcodeBootType bootType; union { KernelGspFlcnUcodeBootDirect ucodeBootDirect; KernelGspFlcnUcodeBootWithLoader ucodeBootWithLoader; KernelGspFlcnUcodeBootFromHs ucodeBootFromHs; }; } KernelGspFlcnUcode; /*! * Structure for used for executing a FWSEC command */ typedef struct KernelGspPreparedFwsecCmd { KernelGspFlcnUcode *pFwsecUcode; NvU32 cmd; NvU64 frtsOffset; } KernelGspPreparedFwsecCmd; /*! * GSP-RM source when running in Emulated/Simulated RISCV environment is * extremely slow, so we need a factor (X) to scale timeouts by. */ #define GSP_SCALE_TIMEOUT_EMU_SIM 2500 /*! * Size of libos init arguments packet. */ #define LIBOS_INIT_ARGUMENTS_SIZE 0x1000 /*! * Structure for passing GSP-RM firmware data */ typedef struct GSP_FIRMWARE { const void *pBuf; // buffer holding the firmware (ucode) NvU32 size; // size of the firmware const void *pImageData; // points to the GSP FW image start inside the pBuf buffer NvU64 imageSize; // GSP FW image size inside the pBuf buffer const void *pSignatureData; // points to the GSP FW signature start inside the pBuf buffer NvU64 signatureSize; // GSP FW signature size inside the pBuf buffer const void *pLogElf; // firmware logging section and symbol information to decode logs NvU32 logElfSize; // size of the gsp log elf binary } GSP_FIRMWARE; /*! * Known ELF section names (or name prefixes) of gsp_*.bin or gsp_log_*.bin. */ #define GSP_VERSION_SECTION_NAME ".fwversion" #define GSP_IMAGE_SECTION_NAME ".fwimage" #define GSP_LOGGING_SECTION_NAME ".fwlogging" #define GSP_SIGNATURE_SECTION_NAME_PREFIX ".fwsignature_" #define GSP_CC_SIGNATURE_SECTION_NAME_PREFIX ".fwsignature_cc_" /*! * GSP Notify op infra. Used by UVM in HCC mode. */ #define GSP_NOTIFY_OP_RESERVED_OPCODE 0 // Request fault buffer flush. #define GSP_NOTIFY_OP_FLUSH_REPLAYABLE_FAULT_BUFFER_OPCODE 1 #define GSP_NOTIFY_OP_FLUSH_REPLAYABLE_FAULT_BUFFER_VALID_ARGC 1 #define GSP_NOTIFY_OP_FLUSH_REPLAYABLE_FAULT_BUFFER_FLUSH_MODE_ARGIDX 0 // Fault on prefetch toggle. #define GSP_NOTIFY_OP_TOGGLE_FAULT_ON_PREFETCH_OPCODE 2 #define GSP_NOTIFY_OP_TOGGLE_FAULT_ON_PREFETCH_VALID_ARGC 1 #define GSP_NOTIFY_OP_TOGGLE_FAULT_ON_PREFETCH_EN_ARGIDX 0 // Always keep this as the last defined value #define GSP_NOTIFY_OP_OPCODE_MAX 3 #define GSP_NOTIFY_OP_NO_ARGUMENTS 0 #define GSP_NOTIFY_OP_MAX_ARGUMENT_COUNT 1 typedef struct NotifyOpSharedSurface { NvU32 inUse; // 0 - signals free, 1 - signals busy // An atomic swap is issued in a loop over this field from the // KernelRM side to synchronize access to the shared notify op resource. // Once the operation finishes the exiting thread flips the value back to 0. NvU32 seqNum; // Read by KernelRM; Written by GSP. Provides synchronization so the // requester knows when the operation is finished by GSP. NvU32 opCode; // Written by KernelRM; Read by GSP. Specifies the operation to be performed. NvU32 status; // Read by KernelRM; Written by GSP. Specifies the status of the operation. // Becomes valid for the current operation after seqNum is incremented. NvU32 argc; // Written by KernelRM; Read by GSP. Specifies the number of arguments. NvU32 args[GSP_NOTIFY_OP_MAX_ARGUMENT_COUNT]; // Written by KernelRM; Read by GSP. Contains a list of NvU32 args used // by the operation. } NotifyOpSharedSurface; /*! * Index into libosLogDecode array. */ enum { LOGIDX_INIT, LOGIDX_INTR, LOGIDX_RM, LOGIDX_SIZE }; /*! * LIBOS task logging. */ typedef struct { /* Memory for task logging */ MEMORY_DESCRIPTOR *pTaskLogDescriptor; NvU64 *pTaskLogBuffer; NvP64 pTaskLogMappingPriv; NvU64 id8; } RM_LIBOS_LOG_MEM; /*! * KernelGsp object definition */ // Private field names are wrapped in PRIVATE_FIELD, which does nothing for // the matching C source file, but causes diagnostics to be issued if another // source file references the field. #ifdef NVOC_KERNEL_GSP_H_PRIVATE_ACCESS_ALLOWED #define PRIVATE_FIELD(x) x #else #define PRIVATE_FIELD(x) NVOC_PRIVATE_FIELD(x) #endif struct MESSAGE_QUEUE_COLLECTION; struct KernelGsp { // Metadata const struct NVOC_RTTI *__nvoc_rtti; // Parent (i.e. superclass or base class) object pointers struct OBJENGSTATE __nvoc_base_OBJENGSTATE; struct IntrService __nvoc_base_IntrService; struct KernelFalcon __nvoc_base_KernelFalcon; // Ancestor object pointers for `staticCast` feature struct Object *__nvoc_pbase_Object; // obj super^2 struct OBJENGSTATE *__nvoc_pbase_OBJENGSTATE; // engstate super struct IntrService *__nvoc_pbase_IntrService; // intrserv super struct CrashCatEngine *__nvoc_pbase_CrashCatEngine; // crashcatEngine super^3 struct KernelCrashCatEngine *__nvoc_pbase_KernelCrashCatEngine; // kcrashcatEngine super^2 struct KernelFalcon *__nvoc_pbase_KernelFalcon; // kflcn super struct KernelGsp *__nvoc_pbase_KernelGsp; // kgsp // Vtable with 82 per-object function pointers NV_STATUS (*__kgspConstructEngine__)(struct OBJGPU *, struct KernelGsp * /*this*/, ENGDESCRIPTOR); // virtual override (engstate) base (engstate) NV_STATUS (*__kgspStateInitLocked__)(struct OBJGPU *, struct KernelGsp * /*this*/); // virtual override (engstate) base (engstate) void (*__kgspRegisterIntrService__)(struct OBJGPU *, struct KernelGsp * /*this*/, IntrServiceRecord *); // virtual override (intrserv) base (intrserv) NvU32 (*__kgspServiceInterrupt__)(struct OBJGPU *, struct KernelGsp * /*this*/, IntrServiceServiceInterruptArguments *); // virtual override (intrserv) base (intrserv) void (*__kgspConfigureFalcon__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NvBool (*__kgspIsDebugModeEnabled__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspAllocBootArgs__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body void (*__kgspFreeBootArgs__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body void (*__kgspProgramLibosBootArgsAddr__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NV_STATUS (*__kgspSetCmdQueueHead__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32, NvU32); // halified (2 hals) body NV_STATUS (*__kgspPrepareForBootstrap__)(struct OBJGPU *, struct KernelGsp * /*this*/, GSP_FIRMWARE *); // halified (3 hals) body NV_STATUS (*__kgspBootstrap__)(struct OBJGPU *, struct KernelGsp * /*this*/, GSP_FIRMWARE *); // halified (3 hals) body void (*__kgspGetGspRmBootUcodeStorage__)(struct OBJGPU *, struct KernelGsp * /*this*/, BINDATA_STORAGE **, BINDATA_STORAGE **); // halified (4 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveGspRmBoot__)(struct KernelGsp * /*this*/); // halified (6 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveConcatenatedFMCDesc__)(struct KernelGsp * /*this*/); // halified (3 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveConcatenatedFMC__)(struct KernelGsp * /*this*/); // halified (3 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveGspRmFmcGfwDebugSigned__)(struct KernelGsp * /*this*/); // halified (3 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveGspRmFmcGfwProdSigned__)(struct KernelGsp * /*this*/); // halified (3 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveGspRmCcFmcGfwProdSigned__)(struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspCalculateFbLayout__)(struct OBJGPU *, struct KernelGsp * /*this*/, GSP_FIRMWARE *); // halified (3 hals) body NvU32 (*__kgspGetNonWprHeapSize__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspExecuteSequencerCommand__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32, NvU32 *, NvU32); // halified (3 hals) body NvU32 (*__kgspReadUcodeFuseVersion__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32); // halified (3 hals) body NV_STATUS (*__kgspResetHw__)(struct OBJGPU *, struct KernelGsp * /*this*/); // virtual halified (3 hals) override (kflcn) base (kflcn) body NvBool (*__kgspHealthCheck__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NvU32 (*__kgspService__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NvBool (*__kgspIsWpr2Up__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NvU32 (*__kgspGetFrtsSize__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NvU64 (*__kgspGetPrescrubbedTopFbSize__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspExtractVbiosFromRom__)(struct OBJGPU *, struct KernelGsp * /*this*/, KernelGspVbiosImg **); // halified (3 hals) body NV_STATUS (*__kgspPrepareForFwsecFrts__)(struct OBJGPU *, struct KernelGsp * /*this*/, KernelGspFlcnUcode *, const NvU64, KernelGspPreparedFwsecCmd *); // halified (3 hals) body NV_STATUS (*__kgspPrepareForFwsecSb__)(struct OBJGPU *, struct KernelGsp * /*this*/, KernelGspFlcnUcode *, KernelGspPreparedFwsecCmd *); // halified (3 hals) body NV_STATUS (*__kgspExecuteFwsec__)(struct OBJGPU *, struct KernelGsp * /*this*/, KernelGspPreparedFwsecCmd *); // halified (3 hals) body NV_STATUS (*__kgspExecuteScrubberIfNeeded__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspExecuteBooterLoad__)(struct OBJGPU *, struct KernelGsp * /*this*/, const NvU64); // halified (3 hals) body NV_STATUS (*__kgspExecuteBooterUnloadIfNeeded__)(struct OBJGPU *, struct KernelGsp * /*this*/, const NvU64); // halified (3 hals) body NV_STATUS (*__kgspExecuteHsFalcon__)(struct OBJGPU *, struct KernelGsp * /*this*/, KernelGspFlcnUcode *, struct KernelFalcon *, NvU32 *, NvU32 *); // halified (4 hals) body NV_STATUS (*__kgspWaitForProcessorSuspend__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NV_STATUS (*__kgspSavePowerMgmtState__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NV_STATUS (*__kgspRestorePowerMgmtState__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body void (*__kgspFreeSuspendResumeData__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (2 hals) body NV_STATUS (*__kgspWaitForGfwBootOk__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveBooterLoadUcode__)(struct KernelGsp * /*this*/); // halified (7 hals) body const BINDATA_ARCHIVE * (*__kgspGetBinArchiveBooterUnloadUcode__)(struct KernelGsp * /*this*/); // halified (7 hals) body NvU64 (*__kgspGetMinWprHeapSizeMB__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NvU64 (*__kgspGetMaxWprHeapSizeMB__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NvU32 (*__kgspGetFwHeapParamOsCarveoutSize__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspInitVgpuPartitionLogging__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32, NvU64, NvU64, NvU64, NvU64); // halified (3 hals) body NV_STATUS (*__kgspFreeVgpuPartitionLogging__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32); // halified (3 hals) body const char * (*__kgspGetSignatureSectionNamePrefix__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body NV_STATUS (*__kgspSetupGspFmcArgs__)(struct OBJGPU *, struct KernelGsp * /*this*/, GSP_FIRMWARE *); // halified (3 hals) body void (*__kgspReadEmem__)(struct KernelGsp * /*this*/, NvU64, NvU64, void *); // virtual halified (2 hals) override (kcrashcatEngine) base (kflcn) body NV_STATUS (*__kgspIssueNotifyOp__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32, NvU32 *, NvU32); // halified (3 hals) body NV_STATUS (*__kgspCheckGspRmCcCleanup__)(struct OBJGPU *, struct KernelGsp * /*this*/); // halified (3 hals) body void (*__kgspInitMissing__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePreInitLocked__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePreInitUnlocked__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStateInitUnlocked__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePreLoad__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStateLoad__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePostLoad__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePreUnload__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStateUnload__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) NV_STATUS (*__kgspStatePostUnload__)(POBJGPU, struct KernelGsp * /*this*/, NvU32); // virtual inherited (engstate) base (engstate) void (*__kgspStateDestroy__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NvBool (*__kgspIsPresent__)(POBJGPU, struct KernelGsp * /*this*/); // virtual inherited (engstate) base (engstate) NvBool (*__kgspClearInterrupt__)(struct OBJGPU *, struct KernelGsp * /*this*/, IntrServiceClearInterruptArguments *); // virtual inherited (intrserv) base (intrserv) NV_STATUS (*__kgspServiceNotificationInterrupt__)(struct OBJGPU *, struct KernelGsp * /*this*/, IntrServiceServiceNotificationInterruptArguments *); // virtual inherited (intrserv) base (intrserv) NvU32 (*__kgspRegRead__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32); // virtual halified (2 hals) inherited (kflcn) base (kflcn) body void (*__kgspRegWrite__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32, NvU32); // virtual halified (2 hals) inherited (kflcn) base (kflcn) body NvU32 (*__kgspMaskDmemAddr__)(struct OBJGPU *, struct KernelGsp * /*this*/, NvU32); // virtual halified (3 hals) inherited (kflcn) base (kflcn) body NvBool (*__kgspConfigured__)(struct KernelGsp * /*this*/); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspUnload__)(struct KernelGsp * /*this*/); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspVprintf__)(struct KernelGsp * /*this*/, NvBool, const char *, va_list); // virtual inherited (kcrashcatEngine) base (kflcn) NvU32 (*__kgspPriRead__)(struct KernelGsp * /*this*/, NvU32); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspPriWrite__)(struct KernelGsp * /*this*/, NvU32, NvU32); // virtual inherited (kcrashcatEngine) base (kflcn) void * (*__kgspMapBufferDescriptor__)(struct KernelGsp * /*this*/, CrashCatBufferDescriptor *); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspUnmapBufferDescriptor__)(struct KernelGsp * /*this*/, CrashCatBufferDescriptor *); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspSyncBufferDescriptor__)(struct KernelGsp * /*this*/, CrashCatBufferDescriptor *, NvU32, NvU32); // virtual inherited (kcrashcatEngine) base (kflcn) void (*__kgspReadDmem__)(struct KernelGsp * /*this*/, NvU32, NvU32, void *); // virtual halified (singleton optimized) inherited (kcrashcatEngine) base (kflcn) const NvU32 * (*__kgspGetScratchOffsets__)(struct KernelGsp * /*this*/, NV_CRASHCAT_SCRATCH_GROUP_ID); // virtual halified (singleton optimized) inherited (kcrashcatEngine) base (kflcn) NvU32 (*__kgspGetWFL0Offset__)(struct KernelGsp * /*this*/); // virtual halified (singleton optimized) inherited (kcrashcatEngine) base (kflcn) // Data members struct MESSAGE_QUEUE_COLLECTION *pMQCollection; struct OBJRPC *pRpc; char vbiosVersionStr[16]; KernelGspFlcnUcode *pFwsecUcode; KernelGspFlcnUcode *pScrubberUcode; KernelGspFlcnUcode *pBooterLoadUcode; KernelGspFlcnUcode *pBooterUnloadUcode; MEMORY_DESCRIPTOR *pWprMetaDescriptor; GspFwWprMeta *pWprMeta; NvP64 pWprMetaMappingPriv; KernelGspPreparedFwsecCmd *pPreparedFwsecCmd; MEMORY_DESCRIPTOR *pSRMetaDescriptor; MEMORY_DESCRIPTOR *pSRRadix3Descriptor; MEMORY_DESCRIPTOR *pGspFmcArgumentsDescriptor; GSP_FMC_BOOT_PARAMS *pGspFmcArgumentsCached; NvP64 pGspFmcArgumentsMappingPriv; MEMORY_DESCRIPTOR *pLibosInitArgumentsDescriptor; LibosMemoryRegionInitArgument *pLibosInitArgumentsCached; NvP64 pLibosInitArgumentsMappingPriv; MEMORY_DESCRIPTOR *pGspArgumentsDescriptor; GSP_ARGUMENTS_CACHED *pGspArgumentsCached; NvP64 pGspArgumentsMappingPriv; MEMORY_DESCRIPTOR *pGspRmBootUcodeMemdesc; NvP64 pGspRmBootUcodeMemdescPriv; NvU32 gspRmBootUcodeSize; NvU8 *pGspRmBootUcodeImage; RM_RISCV_UCODE_DESC *pGspRmBootUcodeDesc; MEMORY_DESCRIPTOR *pGspUCodeRadix3Descriptor; MEMORY_DESCRIPTOR *pSignatureMemdesc; LIBOS_LOG_DECODE logDecode; LIBOS_LOG_DECODE logDecodeVgpuPartition[32]; RM_LIBOS_LOG_MEM rmLibosLogMem[3]; RM_LIBOS_LOG_MEM gspPluginInitTaskLogMem[32]; RM_LIBOS_LOG_MEM gspPluginVgpuTaskLogMem[32]; NvBool bHasVgpuLogs; void *pLogElf; NvU64 logElfDataSize; PORT_MUTEX *pNvlogFlushMtx; NvBool bLibosLogsPollingEnabled; NvU8 bootAttempts; NvBool bInInit; NvBool bInLockdown; NvBool bPollingForRpcResponse; NvBool bFatalError; MEMORY_DESCRIPTOR *pMemDesc_simAccessBuf; SimAccessBuffer *pSimAccessBuf; NvP64 pSimAccessBufPriv; MEMORY_DESCRIPTOR *pNotifyOpSurfMemDesc; NotifyOpSharedSurface *pNotifyOpSurf; NvP64 pNotifyOpSurfPriv; MEMORY_DESCRIPTOR *pProfilerSamplesMD; void *pProfilerSamplesMDPriv; void *pProfilerSamples; GspStaticConfigInfo gspStaticInfo; NvBool bPartitionedFmc; NvBool bScrubberUcodeSupported; NvU32 fwHeapParamBaseSize; NvBool bBootGspRmWithBoostClocks; NvU8 ememPort; }; #ifndef __NVOC_CLASS_KernelGsp_TYPEDEF__ #define __NVOC_CLASS_KernelGsp_TYPEDEF__ typedef struct KernelGsp KernelGsp; #endif /* __NVOC_CLASS_KernelGsp_TYPEDEF__ */ #ifndef __nvoc_class_id_KernelGsp #define __nvoc_class_id_KernelGsp 0x311d4e #endif /* __nvoc_class_id_KernelGsp */ // Casting support extern const struct NVOC_CLASS_DEF __nvoc_class_def_KernelGsp; #define __staticCast_KernelGsp(pThis) \ ((pThis)->__nvoc_pbase_KernelGsp) #ifdef __nvoc_kernel_gsp_h_disabled #define __dynamicCast_KernelGsp(pThis) ((KernelGsp*)NULL) #else //__nvoc_kernel_gsp_h_disabled #define __dynamicCast_KernelGsp(pThis) \ ((KernelGsp*)__nvoc_dynamicCast(staticCast((pThis), Dynamic), classInfo(KernelGsp))) #endif //__nvoc_kernel_gsp_h_disabled // Property macros #define PDB_PROP_KGSP_IS_MISSING_BASE_CAST __nvoc_base_OBJENGSTATE. #define PDB_PROP_KGSP_IS_MISSING_BASE_NAME PDB_PROP_ENGSTATE_IS_MISSING NV_STATUS __nvoc_objCreateDynamic_KernelGsp(KernelGsp**, Dynamic*, NvU32, va_list); NV_STATUS __nvoc_objCreate_KernelGsp(KernelGsp**, Dynamic*, NvU32); #define __objCreate_KernelGsp(ppNewObj, pParent, createFlags) \ __nvoc_objCreate_KernelGsp((ppNewObj), staticCast((pParent), Dynamic), (createFlags)) // Wrapper macros #define kgspConstructEngine_FNPTR(pKernelGsp) pKernelGsp->__kgspConstructEngine__ #define kgspConstructEngine(pGpu, pKernelGsp, arg3) kgspConstructEngine_DISPATCH(pGpu, pKernelGsp, arg3) #define kgspStateInitLocked_FNPTR(pKernelGsp) pKernelGsp->__kgspStateInitLocked__ #define kgspStateInitLocked(pGpu, pKernelGsp) kgspStateInitLocked_DISPATCH(pGpu, pKernelGsp) #define kgspRegisterIntrService_FNPTR(pKernelGsp) pKernelGsp->__kgspRegisterIntrService__ #define kgspRegisterIntrService(pGpu, pKernelGsp, pRecords) kgspRegisterIntrService_DISPATCH(pGpu, pKernelGsp, pRecords) #define kgspServiceInterrupt_FNPTR(pKernelGsp) pKernelGsp->__kgspServiceInterrupt__ #define kgspServiceInterrupt(pGpu, pKernelGsp, pParams) kgspServiceInterrupt_DISPATCH(pGpu, pKernelGsp, pParams) #define kgspConfigureFalcon_FNPTR(pKernelGsp) pKernelGsp->__kgspConfigureFalcon__ #define kgspConfigureFalcon(pGpu, pKernelGsp) kgspConfigureFalcon_DISPATCH(pGpu, pKernelGsp) #define kgspConfigureFalcon_HAL(pGpu, pKernelGsp) kgspConfigureFalcon_DISPATCH(pGpu, pKernelGsp) #define kgspIsDebugModeEnabled_FNPTR(pKernelGsp) pKernelGsp->__kgspIsDebugModeEnabled__ #define kgspIsDebugModeEnabled(pGpu, pKernelGsp) kgspIsDebugModeEnabled_DISPATCH(pGpu, pKernelGsp) #define kgspIsDebugModeEnabled_HAL(pGpu, pKernelGsp) kgspIsDebugModeEnabled_DISPATCH(pGpu, pKernelGsp) #define kgspAllocBootArgs_FNPTR(pKernelGsp) pKernelGsp->__kgspAllocBootArgs__ #define kgspAllocBootArgs(pGpu, pKernelGsp) kgspAllocBootArgs_DISPATCH(pGpu, pKernelGsp) #define kgspAllocBootArgs_HAL(pGpu, pKernelGsp) kgspAllocBootArgs_DISPATCH(pGpu, pKernelGsp) #define kgspFreeBootArgs_FNPTR(pKernelGsp) pKernelGsp->__kgspFreeBootArgs__ #define kgspFreeBootArgs(pGpu, pKernelGsp) kgspFreeBootArgs_DISPATCH(pGpu, pKernelGsp) #define kgspFreeBootArgs_HAL(pGpu, pKernelGsp) kgspFreeBootArgs_DISPATCH(pGpu, pKernelGsp) #define kgspProgramLibosBootArgsAddr_FNPTR(pKernelGsp) pKernelGsp->__kgspProgramLibosBootArgsAddr__ #define kgspProgramLibosBootArgsAddr(pGpu, pKernelGsp) kgspProgramLibosBootArgsAddr_DISPATCH(pGpu, pKernelGsp) #define kgspProgramLibosBootArgsAddr_HAL(pGpu, pKernelGsp) kgspProgramLibosBootArgsAddr_DISPATCH(pGpu, pKernelGsp) #define kgspSetCmdQueueHead_FNPTR(pKernelGsp) pKernelGsp->__kgspSetCmdQueueHead__ #define kgspSetCmdQueueHead(pGpu, pKernelGsp, queueIdx, value) kgspSetCmdQueueHead_DISPATCH(pGpu, pKernelGsp, queueIdx, value) #define kgspSetCmdQueueHead_HAL(pGpu, pKernelGsp, queueIdx, value) kgspSetCmdQueueHead_DISPATCH(pGpu, pKernelGsp, queueIdx, value) #define kgspPrepareForBootstrap_FNPTR(pKernelGsp) pKernelGsp->__kgspPrepareForBootstrap__ #define kgspPrepareForBootstrap(pGpu, pKernelGsp, pGspFw) kgspPrepareForBootstrap_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspPrepareForBootstrap_HAL(pGpu, pKernelGsp, pGspFw) kgspPrepareForBootstrap_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspBootstrap_FNPTR(pKernelGsp) pKernelGsp->__kgspBootstrap__ #define kgspBootstrap(pGpu, pKernelGsp, pGspFw) kgspBootstrap_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspBootstrap_HAL(pGpu, pKernelGsp, pGspFw) kgspBootstrap_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspGetGspRmBootUcodeStorage_FNPTR(pKernelGsp) pKernelGsp->__kgspGetGspRmBootUcodeStorage__ #define kgspGetGspRmBootUcodeStorage(pGpu, pKernelGsp, ppBinStorageImage, ppBinStorageDesc) kgspGetGspRmBootUcodeStorage_DISPATCH(pGpu, pKernelGsp, ppBinStorageImage, ppBinStorageDesc) #define kgspGetGspRmBootUcodeStorage_HAL(pGpu, pKernelGsp, ppBinStorageImage, ppBinStorageDesc) kgspGetGspRmBootUcodeStorage_DISPATCH(pGpu, pKernelGsp, ppBinStorageImage, ppBinStorageDesc) #define kgspGetBinArchiveGspRmBoot_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveGspRmBoot__ #define kgspGetBinArchiveGspRmBoot(pKernelGsp) kgspGetBinArchiveGspRmBoot_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmBoot_HAL(pKernelGsp) kgspGetBinArchiveGspRmBoot_DISPATCH(pKernelGsp) #define kgspGetBinArchiveConcatenatedFMCDesc_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveConcatenatedFMCDesc__ #define kgspGetBinArchiveConcatenatedFMCDesc(pKernelGsp) kgspGetBinArchiveConcatenatedFMCDesc_DISPATCH(pKernelGsp) #define kgspGetBinArchiveConcatenatedFMCDesc_HAL(pKernelGsp) kgspGetBinArchiveConcatenatedFMCDesc_DISPATCH(pKernelGsp) #define kgspGetBinArchiveConcatenatedFMC_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveConcatenatedFMC__ #define kgspGetBinArchiveConcatenatedFMC(pKernelGsp) kgspGetBinArchiveConcatenatedFMC_DISPATCH(pKernelGsp) #define kgspGetBinArchiveConcatenatedFMC_HAL(pKernelGsp) kgspGetBinArchiveConcatenatedFMC_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmFmcGfwDebugSigned_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveGspRmFmcGfwDebugSigned__ #define kgspGetBinArchiveGspRmFmcGfwDebugSigned(pKernelGsp) kgspGetBinArchiveGspRmFmcGfwDebugSigned_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmFmcGfwDebugSigned_HAL(pKernelGsp) kgspGetBinArchiveGspRmFmcGfwDebugSigned_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmFmcGfwProdSigned_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveGspRmFmcGfwProdSigned__ #define kgspGetBinArchiveGspRmFmcGfwProdSigned(pKernelGsp) kgspGetBinArchiveGspRmFmcGfwProdSigned_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmFmcGfwProdSigned_HAL(pKernelGsp) kgspGetBinArchiveGspRmFmcGfwProdSigned_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmCcFmcGfwProdSigned_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveGspRmCcFmcGfwProdSigned__ #define kgspGetBinArchiveGspRmCcFmcGfwProdSigned(pKernelGsp) kgspGetBinArchiveGspRmCcFmcGfwProdSigned_DISPATCH(pKernelGsp) #define kgspGetBinArchiveGspRmCcFmcGfwProdSigned_HAL(pKernelGsp) kgspGetBinArchiveGspRmCcFmcGfwProdSigned_DISPATCH(pKernelGsp) #define kgspCalculateFbLayout_FNPTR(pKernelGsp) pKernelGsp->__kgspCalculateFbLayout__ #define kgspCalculateFbLayout(pGpu, pKernelGsp, pGspFw) kgspCalculateFbLayout_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspCalculateFbLayout_HAL(pGpu, pKernelGsp, pGspFw) kgspCalculateFbLayout_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspGetNonWprHeapSize_FNPTR(pKernelGsp) pKernelGsp->__kgspGetNonWprHeapSize__ #define kgspGetNonWprHeapSize(pGpu, pKernelGsp) kgspGetNonWprHeapSize_DISPATCH(pGpu, pKernelGsp) #define kgspGetNonWprHeapSize_HAL(pGpu, pKernelGsp) kgspGetNonWprHeapSize_DISPATCH(pGpu, pKernelGsp) #define kgspExecuteSequencerCommand_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteSequencerCommand__ #define kgspExecuteSequencerCommand(pGpu, pKernelGsp, opCode, pPayLoad, payloadSize) kgspExecuteSequencerCommand_DISPATCH(pGpu, pKernelGsp, opCode, pPayLoad, payloadSize) #define kgspExecuteSequencerCommand_HAL(pGpu, pKernelGsp, opCode, pPayLoad, payloadSize) kgspExecuteSequencerCommand_DISPATCH(pGpu, pKernelGsp, opCode, pPayLoad, payloadSize) #define kgspReadUcodeFuseVersion_FNPTR(pKernelGsp) pKernelGsp->__kgspReadUcodeFuseVersion__ #define kgspReadUcodeFuseVersion(pGpu, pKernelGsp, ucodeId) kgspReadUcodeFuseVersion_DISPATCH(pGpu, pKernelGsp, ucodeId) #define kgspReadUcodeFuseVersion_HAL(pGpu, pKernelGsp, ucodeId) kgspReadUcodeFuseVersion_DISPATCH(pGpu, pKernelGsp, ucodeId) #define kgspResetHw_FNPTR(pKernelGsp) pKernelGsp->__kgspResetHw__ #define kgspResetHw(pGpu, pKernelGsp) kgspResetHw_DISPATCH(pGpu, pKernelGsp) #define kgspResetHw_HAL(pGpu, pKernelGsp) kgspResetHw_DISPATCH(pGpu, pKernelGsp) #define kgspHealthCheck_FNPTR(pKernelGsp) pKernelGsp->__kgspHealthCheck__ #define kgspHealthCheck(pGpu, pKernelGsp) kgspHealthCheck_DISPATCH(pGpu, pKernelGsp) #define kgspHealthCheck_HAL(pGpu, pKernelGsp) kgspHealthCheck_DISPATCH(pGpu, pKernelGsp) #define kgspService_FNPTR(pKernelGsp) pKernelGsp->__kgspService__ #define kgspService(pGpu, pKernelGsp) kgspService_DISPATCH(pGpu, pKernelGsp) #define kgspService_HAL(pGpu, pKernelGsp) kgspService_DISPATCH(pGpu, pKernelGsp) #define kgspIsWpr2Up_FNPTR(pKernelGsp) pKernelGsp->__kgspIsWpr2Up__ #define kgspIsWpr2Up(pGpu, pKernelGsp) kgspIsWpr2Up_DISPATCH(pGpu, pKernelGsp) #define kgspIsWpr2Up_HAL(pGpu, pKernelGsp) kgspIsWpr2Up_DISPATCH(pGpu, pKernelGsp) #define kgspGetFrtsSize_FNPTR(pKernelGsp) pKernelGsp->__kgspGetFrtsSize__ #define kgspGetFrtsSize(pGpu, pKernelGsp) kgspGetFrtsSize_DISPATCH(pGpu, pKernelGsp) #define kgspGetFrtsSize_HAL(pGpu, pKernelGsp) kgspGetFrtsSize_DISPATCH(pGpu, pKernelGsp) #define kgspGetPrescrubbedTopFbSize_FNPTR(pKernelGsp) pKernelGsp->__kgspGetPrescrubbedTopFbSize__ #define kgspGetPrescrubbedTopFbSize(pGpu, pKernelGsp) kgspGetPrescrubbedTopFbSize_DISPATCH(pGpu, pKernelGsp) #define kgspGetPrescrubbedTopFbSize_HAL(pGpu, pKernelGsp) kgspGetPrescrubbedTopFbSize_DISPATCH(pGpu, pKernelGsp) #define kgspExtractVbiosFromRom_FNPTR(pKernelGsp) pKernelGsp->__kgspExtractVbiosFromRom__ #define kgspExtractVbiosFromRom(pGpu, pKernelGsp, ppVbiosImg) kgspExtractVbiosFromRom_DISPATCH(pGpu, pKernelGsp, ppVbiosImg) #define kgspExtractVbiosFromRom_HAL(pGpu, pKernelGsp, ppVbiosImg) kgspExtractVbiosFromRom_DISPATCH(pGpu, pKernelGsp, ppVbiosImg) #define kgspPrepareForFwsecFrts_FNPTR(pKernelGsp) pKernelGsp->__kgspPrepareForFwsecFrts__ #define kgspPrepareForFwsecFrts(pGpu, pKernelGsp, pFwsecUcode, frtsOffset, preparedCmd) kgspPrepareForFwsecFrts_DISPATCH(pGpu, pKernelGsp, pFwsecUcode, frtsOffset, preparedCmd) #define kgspPrepareForFwsecFrts_HAL(pGpu, pKernelGsp, pFwsecUcode, frtsOffset, preparedCmd) kgspPrepareForFwsecFrts_DISPATCH(pGpu, pKernelGsp, pFwsecUcode, frtsOffset, preparedCmd) #define kgspPrepareForFwsecSb_FNPTR(pKernelGsp) pKernelGsp->__kgspPrepareForFwsecSb__ #define kgspPrepareForFwsecSb(pGpu, pKernelGsp, pFwsecUcode, preparedCmd) kgspPrepareForFwsecSb_DISPATCH(pGpu, pKernelGsp, pFwsecUcode, preparedCmd) #define kgspPrepareForFwsecSb_HAL(pGpu, pKernelGsp, pFwsecUcode, preparedCmd) kgspPrepareForFwsecSb_DISPATCH(pGpu, pKernelGsp, pFwsecUcode, preparedCmd) #define kgspExecuteFwsec_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteFwsec__ #define kgspExecuteFwsec(pGpu, pKernelGsp, preparedCmd) kgspExecuteFwsec_DISPATCH(pGpu, pKernelGsp, preparedCmd) #define kgspExecuteFwsec_HAL(pGpu, pKernelGsp, preparedCmd) kgspExecuteFwsec_DISPATCH(pGpu, pKernelGsp, preparedCmd) #define kgspExecuteScrubberIfNeeded_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteScrubberIfNeeded__ #define kgspExecuteScrubberIfNeeded(pGpu, pKernelGsp) kgspExecuteScrubberIfNeeded_DISPATCH(pGpu, pKernelGsp) #define kgspExecuteScrubberIfNeeded_HAL(pGpu, pKernelGsp) kgspExecuteScrubberIfNeeded_DISPATCH(pGpu, pKernelGsp) #define kgspExecuteBooterLoad_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteBooterLoad__ #define kgspExecuteBooterLoad(pGpu, pKernelGsp, sysmemAddrOfData) kgspExecuteBooterLoad_DISPATCH(pGpu, pKernelGsp, sysmemAddrOfData) #define kgspExecuteBooterLoad_HAL(pGpu, pKernelGsp, sysmemAddrOfData) kgspExecuteBooterLoad_DISPATCH(pGpu, pKernelGsp, sysmemAddrOfData) #define kgspExecuteBooterUnloadIfNeeded_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteBooterUnloadIfNeeded__ #define kgspExecuteBooterUnloadIfNeeded(pGpu, pKernelGsp, sysmemAddrOfSuspendResumeData) kgspExecuteBooterUnloadIfNeeded_DISPATCH(pGpu, pKernelGsp, sysmemAddrOfSuspendResumeData) #define kgspExecuteBooterUnloadIfNeeded_HAL(pGpu, pKernelGsp, sysmemAddrOfSuspendResumeData) kgspExecuteBooterUnloadIfNeeded_DISPATCH(pGpu, pKernelGsp, sysmemAddrOfSuspendResumeData) #define kgspExecuteHsFalcon_FNPTR(pKernelGsp) pKernelGsp->__kgspExecuteHsFalcon__ #define kgspExecuteHsFalcon(pGpu, pKernelGsp, pFlcnUcode, pKernelFlcn, pMailbox0, pMailbox1) kgspExecuteHsFalcon_DISPATCH(pGpu, pKernelGsp, pFlcnUcode, pKernelFlcn, pMailbox0, pMailbox1) #define kgspExecuteHsFalcon_HAL(pGpu, pKernelGsp, pFlcnUcode, pKernelFlcn, pMailbox0, pMailbox1) kgspExecuteHsFalcon_DISPATCH(pGpu, pKernelGsp, pFlcnUcode, pKernelFlcn, pMailbox0, pMailbox1) #define kgspWaitForProcessorSuspend_FNPTR(pKernelGsp) pKernelGsp->__kgspWaitForProcessorSuspend__ #define kgspWaitForProcessorSuspend(pGpu, pKernelGsp) kgspWaitForProcessorSuspend_DISPATCH(pGpu, pKernelGsp) #define kgspWaitForProcessorSuspend_HAL(pGpu, pKernelGsp) kgspWaitForProcessorSuspend_DISPATCH(pGpu, pKernelGsp) #define kgspSavePowerMgmtState_FNPTR(pKernelGsp) pKernelGsp->__kgspSavePowerMgmtState__ #define kgspSavePowerMgmtState(pGpu, pKernelGsp) kgspSavePowerMgmtState_DISPATCH(pGpu, pKernelGsp) #define kgspSavePowerMgmtState_HAL(pGpu, pKernelGsp) kgspSavePowerMgmtState_DISPATCH(pGpu, pKernelGsp) #define kgspRestorePowerMgmtState_FNPTR(pKernelGsp) pKernelGsp->__kgspRestorePowerMgmtState__ #define kgspRestorePowerMgmtState(pGpu, pKernelGsp) kgspRestorePowerMgmtState_DISPATCH(pGpu, pKernelGsp) #define kgspRestorePowerMgmtState_HAL(pGpu, pKernelGsp) kgspRestorePowerMgmtState_DISPATCH(pGpu, pKernelGsp) #define kgspFreeSuspendResumeData_FNPTR(pKernelGsp) pKernelGsp->__kgspFreeSuspendResumeData__ #define kgspFreeSuspendResumeData(pGpu, pKernelGsp) kgspFreeSuspendResumeData_DISPATCH(pGpu, pKernelGsp) #define kgspFreeSuspendResumeData_HAL(pGpu, pKernelGsp) kgspFreeSuspendResumeData_DISPATCH(pGpu, pKernelGsp) #define kgspWaitForGfwBootOk_FNPTR(pKernelGsp) pKernelGsp->__kgspWaitForGfwBootOk__ #define kgspWaitForGfwBootOk(pGpu, pKernelGsp) kgspWaitForGfwBootOk_DISPATCH(pGpu, pKernelGsp) #define kgspWaitForGfwBootOk_HAL(pGpu, pKernelGsp) kgspWaitForGfwBootOk_DISPATCH(pGpu, pKernelGsp) #define kgspGetBinArchiveBooterLoadUcode_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveBooterLoadUcode__ #define kgspGetBinArchiveBooterLoadUcode(pKernelGsp) kgspGetBinArchiveBooterLoadUcode_DISPATCH(pKernelGsp) #define kgspGetBinArchiveBooterLoadUcode_HAL(pKernelGsp) kgspGetBinArchiveBooterLoadUcode_DISPATCH(pKernelGsp) #define kgspGetBinArchiveBooterUnloadUcode_FNPTR(pKernelGsp) pKernelGsp->__kgspGetBinArchiveBooterUnloadUcode__ #define kgspGetBinArchiveBooterUnloadUcode(pKernelGsp) kgspGetBinArchiveBooterUnloadUcode_DISPATCH(pKernelGsp) #define kgspGetBinArchiveBooterUnloadUcode_HAL(pKernelGsp) kgspGetBinArchiveBooterUnloadUcode_DISPATCH(pKernelGsp) #define kgspGetMinWprHeapSizeMB_FNPTR(pKernelGsp) pKernelGsp->__kgspGetMinWprHeapSizeMB__ #define kgspGetMinWprHeapSizeMB(pGpu, pKernelGsp) kgspGetMinWprHeapSizeMB_DISPATCH(pGpu, pKernelGsp) #define kgspGetMinWprHeapSizeMB_HAL(pGpu, pKernelGsp) kgspGetMinWprHeapSizeMB_DISPATCH(pGpu, pKernelGsp) #define kgspGetMaxWprHeapSizeMB_FNPTR(pKernelGsp) pKernelGsp->__kgspGetMaxWprHeapSizeMB__ #define kgspGetMaxWprHeapSizeMB(pGpu, pKernelGsp) kgspGetMaxWprHeapSizeMB_DISPATCH(pGpu, pKernelGsp) #define kgspGetMaxWprHeapSizeMB_HAL(pGpu, pKernelGsp) kgspGetMaxWprHeapSizeMB_DISPATCH(pGpu, pKernelGsp) #define kgspGetFwHeapParamOsCarveoutSize_FNPTR(pKernelGsp) pKernelGsp->__kgspGetFwHeapParamOsCarveoutSize__ #define kgspGetFwHeapParamOsCarveoutSize(pGpu, pKernelGsp) kgspGetFwHeapParamOsCarveoutSize_DISPATCH(pGpu, pKernelGsp) #define kgspGetFwHeapParamOsCarveoutSize_HAL(pGpu, pKernelGsp) kgspGetFwHeapParamOsCarveoutSize_DISPATCH(pGpu, pKernelGsp) #define kgspInitVgpuPartitionLogging_FNPTR(pKernelGsp) pKernelGsp->__kgspInitVgpuPartitionLogging__ #define kgspInitVgpuPartitionLogging(pGpu, pKernelGsp, gfid, initTaskLogBUffOffset, initTaskLogBUffSize, vgpuTaskLogBUffOffset, vgpuTaskLogBuffSize) kgspInitVgpuPartitionLogging_DISPATCH(pGpu, pKernelGsp, gfid, initTaskLogBUffOffset, initTaskLogBUffSize, vgpuTaskLogBUffOffset, vgpuTaskLogBuffSize) #define kgspInitVgpuPartitionLogging_HAL(pGpu, pKernelGsp, gfid, initTaskLogBUffOffset, initTaskLogBUffSize, vgpuTaskLogBUffOffset, vgpuTaskLogBuffSize) kgspInitVgpuPartitionLogging_DISPATCH(pGpu, pKernelGsp, gfid, initTaskLogBUffOffset, initTaskLogBUffSize, vgpuTaskLogBUffOffset, vgpuTaskLogBuffSize) #define kgspFreeVgpuPartitionLogging_FNPTR(pKernelGsp) pKernelGsp->__kgspFreeVgpuPartitionLogging__ #define kgspFreeVgpuPartitionLogging(pGpu, pKernelGsp, gfid) kgspFreeVgpuPartitionLogging_DISPATCH(pGpu, pKernelGsp, gfid) #define kgspFreeVgpuPartitionLogging_HAL(pGpu, pKernelGsp, gfid) kgspFreeVgpuPartitionLogging_DISPATCH(pGpu, pKernelGsp, gfid) #define kgspGetSignatureSectionNamePrefix_FNPTR(pKernelGsp) pKernelGsp->__kgspGetSignatureSectionNamePrefix__ #define kgspGetSignatureSectionNamePrefix(pGpu, pKernelGsp) kgspGetSignatureSectionNamePrefix_DISPATCH(pGpu, pKernelGsp) #define kgspGetSignatureSectionNamePrefix_HAL(pGpu, pKernelGsp) kgspGetSignatureSectionNamePrefix_DISPATCH(pGpu, pKernelGsp) #define kgspSetupGspFmcArgs_FNPTR(pKernelGsp) pKernelGsp->__kgspSetupGspFmcArgs__ #define kgspSetupGspFmcArgs(pGpu, pKernelGsp, pGspFw) kgspSetupGspFmcArgs_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspSetupGspFmcArgs_HAL(pGpu, pKernelGsp, pGspFw) kgspSetupGspFmcArgs_DISPATCH(pGpu, pKernelGsp, pGspFw) #define kgspReadEmem_FNPTR(pKernelGsp) pKernelGsp->__kgspReadEmem__ #define kgspReadEmem(pKernelGsp, offset, size, pBuf) kgspReadEmem_DISPATCH(pKernelGsp, offset, size, pBuf) #define kgspReadEmem_HAL(pKernelGsp, offset, size, pBuf) kgspReadEmem_DISPATCH(pKernelGsp, offset, size, pBuf) #define kgspIssueNotifyOp_FNPTR(pKernelGsp) pKernelGsp->__kgspIssueNotifyOp__ #define kgspIssueNotifyOp(pGpu, pKernelGsp, opCode, pArgs, argc) kgspIssueNotifyOp_DISPATCH(pGpu, pKernelGsp, opCode, pArgs, argc) #define kgspIssueNotifyOp_HAL(pGpu, pKernelGsp, opCode, pArgs, argc) kgspIssueNotifyOp_DISPATCH(pGpu, pKernelGsp, opCode, pArgs, argc) #define kgspCheckGspRmCcCleanup_FNPTR(pKernelGsp) pKernelGsp->__kgspCheckGspRmCcCleanup__ #define kgspCheckGspRmCcCleanup(pGpu, pKernelGsp) kgspCheckGspRmCcCleanup_DISPATCH(pGpu, pKernelGsp) #define kgspCheckGspRmCcCleanup_HAL(pGpu, pKernelGsp) kgspCheckGspRmCcCleanup_DISPATCH(pGpu, pKernelGsp) #define kgspInitMissing_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateInitMissing__ #define kgspInitMissing(pGpu, pEngstate) kgspInitMissing_DISPATCH(pGpu, pEngstate) #define kgspStatePreInitLocked_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePreInitLocked__ #define kgspStatePreInitLocked(pGpu, pEngstate) kgspStatePreInitLocked_DISPATCH(pGpu, pEngstate) #define kgspStatePreInitUnlocked_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePreInitUnlocked__ #define kgspStatePreInitUnlocked(pGpu, pEngstate) kgspStatePreInitUnlocked_DISPATCH(pGpu, pEngstate) #define kgspStateInitUnlocked_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStateInitUnlocked__ #define kgspStateInitUnlocked(pGpu, pEngstate) kgspStateInitUnlocked_DISPATCH(pGpu, pEngstate) #define kgspStatePreLoad_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePreLoad__ #define kgspStatePreLoad(pGpu, pEngstate, arg3) kgspStatePreLoad_DISPATCH(pGpu, pEngstate, arg3) #define kgspStateLoad_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStateLoad__ #define kgspStateLoad(pGpu, pEngstate, arg3) kgspStateLoad_DISPATCH(pGpu, pEngstate, arg3) #define kgspStatePostLoad_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePostLoad__ #define kgspStatePostLoad(pGpu, pEngstate, arg3) kgspStatePostLoad_DISPATCH(pGpu, pEngstate, arg3) #define kgspStatePreUnload_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePreUnload__ #define kgspStatePreUnload(pGpu, pEngstate, arg3) kgspStatePreUnload_DISPATCH(pGpu, pEngstate, arg3) #define kgspStateUnload_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStateUnload__ #define kgspStateUnload(pGpu, pEngstate, arg3) kgspStateUnload_DISPATCH(pGpu, pEngstate, arg3) #define kgspStatePostUnload_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStatePostUnload__ #define kgspStatePostUnload(pGpu, pEngstate, arg3) kgspStatePostUnload_DISPATCH(pGpu, pEngstate, arg3) #define kgspStateDestroy_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateStateDestroy__ #define kgspStateDestroy(pGpu, pEngstate) kgspStateDestroy_DISPATCH(pGpu, pEngstate) #define kgspIsPresent_FNPTR(pEngstate) pEngstate->__nvoc_base_OBJENGSTATE.__engstateIsPresent__ #define kgspIsPresent(pGpu, pEngstate) kgspIsPresent_DISPATCH(pGpu, pEngstate) #define kgspClearInterrupt_FNPTR(pIntrService) pIntrService->__nvoc_base_IntrService.__intrservClearInterrupt__ #define kgspClearInterrupt(pGpu, pIntrService, pParams) kgspClearInterrupt_DISPATCH(pGpu, pIntrService, pParams) #define kgspServiceNotificationInterrupt_FNPTR(pIntrService) pIntrService->__nvoc_base_IntrService.__intrservServiceNotificationInterrupt__ #define kgspServiceNotificationInterrupt(pGpu, pIntrService, pParams) kgspServiceNotificationInterrupt_DISPATCH(pGpu, pIntrService, pParams) #define kgspRegRead_FNPTR(pKernelFlcn) pKernelFlcn->__nvoc_base_KernelFalcon.__kflcnRegRead__ #define kgspRegRead(pGpu, pKernelFlcn, offset) kgspRegRead_DISPATCH(pGpu, pKernelFlcn, offset) #define kgspRegRead_HAL(pGpu, pKernelFlcn, offset) kgspRegRead_DISPATCH(pGpu, pKernelFlcn, offset) #define kgspRegWrite_FNPTR(pKernelFlcn) pKernelFlcn->__nvoc_base_KernelFalcon.__kflcnRegWrite__ #define kgspRegWrite(pGpu, pKernelFlcn, offset, data) kgspRegWrite_DISPATCH(pGpu, pKernelFlcn, offset, data) #define kgspRegWrite_HAL(pGpu, pKernelFlcn, offset, data) kgspRegWrite_DISPATCH(pGpu, pKernelFlcn, offset, data) #define kgspMaskDmemAddr_FNPTR(pKernelFlcn) pKernelFlcn->__nvoc_base_KernelFalcon.__kflcnMaskDmemAddr__ #define kgspMaskDmemAddr(pGpu, pKernelFlcn, addr) kgspMaskDmemAddr_DISPATCH(pGpu, pKernelFlcn, addr) #define kgspMaskDmemAddr_HAL(pGpu, pKernelFlcn, addr) kgspMaskDmemAddr_DISPATCH(pGpu, pKernelFlcn, addr) #define kgspConfigured_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineConfigured__ #define kgspConfigured(arg_this) kgspConfigured_DISPATCH(arg_this) #define kgspUnload_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineUnload__ #define kgspUnload(arg_this) kgspUnload_DISPATCH(arg_this) #define kgspVprintf_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineVprintf__ #define kgspVprintf(arg_this, bReportStart, fmt, args) kgspVprintf_DISPATCH(arg_this, bReportStart, fmt, args) #define kgspPriRead_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEnginePriRead__ #define kgspPriRead(arg_this, offset) kgspPriRead_DISPATCH(arg_this, offset) #define kgspPriWrite_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEnginePriWrite__ #define kgspPriWrite(arg_this, offset, data) kgspPriWrite_DISPATCH(arg_this, offset, data) #define kgspMapBufferDescriptor_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineMapBufferDescriptor__ #define kgspMapBufferDescriptor(arg_this, pBufDesc) kgspMapBufferDescriptor_DISPATCH(arg_this, pBufDesc) #define kgspUnmapBufferDescriptor_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineUnmapBufferDescriptor__ #define kgspUnmapBufferDescriptor(arg_this, pBufDesc) kgspUnmapBufferDescriptor_DISPATCH(arg_this, pBufDesc) #define kgspSyncBufferDescriptor_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineSyncBufferDescriptor__ #define kgspSyncBufferDescriptor(arg_this, pBufDesc, offset, size) kgspSyncBufferDescriptor_DISPATCH(arg_this, pBufDesc, offset, size) #define kgspReadDmem_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineReadDmem__ #define kgspReadDmem(arg_this, offset, size, pBuf) kgspReadDmem_DISPATCH(arg_this, offset, size, pBuf) #define kgspReadDmem_HAL(arg_this, offset, size, pBuf) kgspReadDmem_DISPATCH(arg_this, offset, size, pBuf) #define kgspGetScratchOffsets_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineGetScratchOffsets__ #define kgspGetScratchOffsets(arg_this, scratchGroupId) kgspGetScratchOffsets_DISPATCH(arg_this, scratchGroupId) #define kgspGetScratchOffsets_HAL(arg_this, scratchGroupId) kgspGetScratchOffsets_DISPATCH(arg_this, scratchGroupId) #define kgspGetWFL0Offset_FNPTR(arg_this) arg_this->__nvoc_base_KernelFalcon.__nvoc_base_KernelCrashCatEngine.__kcrashcatEngineGetWFL0Offset__ #define kgspGetWFL0Offset(arg_this) kgspGetWFL0Offset_DISPATCH(arg_this) #define kgspGetWFL0Offset_HAL(arg_this) kgspGetWFL0Offset_DISPATCH(arg_this) // Dispatch functions static inline NV_STATUS kgspConstructEngine_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, ENGDESCRIPTOR arg3) { return pKernelGsp->__kgspConstructEngine__(pGpu, pKernelGsp, arg3); } static inline NV_STATUS kgspStateInitLocked_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspStateInitLocked__(pGpu, pKernelGsp); } static inline void kgspRegisterIntrService_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, IntrServiceRecord pRecords[175]) { pKernelGsp->__kgspRegisterIntrService__(pGpu, pKernelGsp, pRecords); } static inline NvU32 kgspServiceInterrupt_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, IntrServiceServiceInterruptArguments *pParams) { return pKernelGsp->__kgspServiceInterrupt__(pGpu, pKernelGsp, pParams); } static inline void kgspConfigureFalcon_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { pKernelGsp->__kgspConfigureFalcon__(pGpu, pKernelGsp); } static inline NvBool kgspIsDebugModeEnabled_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspIsDebugModeEnabled__(pGpu, pKernelGsp); } static inline NV_STATUS kgspAllocBootArgs_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspAllocBootArgs__(pGpu, pKernelGsp); } static inline void kgspFreeBootArgs_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { pKernelGsp->__kgspFreeBootArgs__(pGpu, pKernelGsp); } static inline void kgspProgramLibosBootArgsAddr_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { pKernelGsp->__kgspProgramLibosBootArgsAddr__(pGpu, pKernelGsp); } static inline NV_STATUS kgspSetCmdQueueHead_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 queueIdx, NvU32 value) { return pKernelGsp->__kgspSetCmdQueueHead__(pGpu, pKernelGsp, queueIdx, value); } static inline NV_STATUS kgspPrepareForBootstrap_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { return pKernelGsp->__kgspPrepareForBootstrap__(pGpu, pKernelGsp, pGspFw); } static inline NV_STATUS kgspBootstrap_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { return pKernelGsp->__kgspBootstrap__(pGpu, pKernelGsp, pGspFw); } static inline void kgspGetGspRmBootUcodeStorage_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, BINDATA_STORAGE **ppBinStorageImage, BINDATA_STORAGE **ppBinStorageDesc) { pKernelGsp->__kgspGetGspRmBootUcodeStorage__(pGpu, pKernelGsp, ppBinStorageImage, ppBinStorageDesc); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveGspRmBoot_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveGspRmBoot__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveConcatenatedFMCDesc_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveConcatenatedFMCDesc__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveConcatenatedFMC_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveConcatenatedFMC__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveGspRmFmcGfwDebugSigned_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveGspRmFmcGfwDebugSigned__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveGspRmFmcGfwProdSigned_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveGspRmFmcGfwProdSigned__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveGspRmCcFmcGfwProdSigned_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveGspRmCcFmcGfwProdSigned__(pKernelGsp); } static inline NV_STATUS kgspCalculateFbLayout_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { return pKernelGsp->__kgspCalculateFbLayout__(pGpu, pKernelGsp, pGspFw); } static inline NvU32 kgspGetNonWprHeapSize_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetNonWprHeapSize__(pGpu, pKernelGsp); } static inline NV_STATUS kgspExecuteSequencerCommand_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pPayLoad, NvU32 payloadSize) { return pKernelGsp->__kgspExecuteSequencerCommand__(pGpu, pKernelGsp, opCode, pPayLoad, payloadSize); } static inline NvU32 kgspReadUcodeFuseVersion_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 ucodeId) { return pKernelGsp->__kgspReadUcodeFuseVersion__(pGpu, pKernelGsp, ucodeId); } static inline NV_STATUS kgspResetHw_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspResetHw__(pGpu, pKernelGsp); } static inline NvBool kgspHealthCheck_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspHealthCheck__(pGpu, pKernelGsp); } static inline NvU32 kgspService_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspService__(pGpu, pKernelGsp); } static inline NvBool kgspIsWpr2Up_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspIsWpr2Up__(pGpu, pKernelGsp); } static inline NvU32 kgspGetFrtsSize_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetFrtsSize__(pGpu, pKernelGsp); } static inline NvU64 kgspGetPrescrubbedTopFbSize_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetPrescrubbedTopFbSize__(pGpu, pKernelGsp); } static inline NV_STATUS kgspExtractVbiosFromRom_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspVbiosImg **ppVbiosImg) { return pKernelGsp->__kgspExtractVbiosFromRom__(pGpu, pKernelGsp, ppVbiosImg); } static inline NV_STATUS kgspPrepareForFwsecFrts_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, const NvU64 frtsOffset, KernelGspPreparedFwsecCmd *preparedCmd) { return pKernelGsp->__kgspPrepareForFwsecFrts__(pGpu, pKernelGsp, pFwsecUcode, frtsOffset, preparedCmd); } static inline NV_STATUS kgspPrepareForFwsecSb_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, KernelGspPreparedFwsecCmd *preparedCmd) { return pKernelGsp->__kgspPrepareForFwsecSb__(pGpu, pKernelGsp, pFwsecUcode, preparedCmd); } static inline NV_STATUS kgspExecuteFwsec_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspPreparedFwsecCmd *preparedCmd) { return pKernelGsp->__kgspExecuteFwsec__(pGpu, pKernelGsp, preparedCmd); } static inline NV_STATUS kgspExecuteScrubberIfNeeded_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspExecuteScrubberIfNeeded__(pGpu, pKernelGsp); } static inline NV_STATUS kgspExecuteBooterLoad_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfData) { return pKernelGsp->__kgspExecuteBooterLoad__(pGpu, pKernelGsp, sysmemAddrOfData); } static inline NV_STATUS kgspExecuteBooterUnloadIfNeeded_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfSuspendResumeData) { return pKernelGsp->__kgspExecuteBooterUnloadIfNeeded__(pGpu, pKernelGsp, sysmemAddrOfSuspendResumeData); } static inline NV_STATUS kgspExecuteHsFalcon_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFlcnUcode, struct KernelFalcon *pKernelFlcn, NvU32 *pMailbox0, NvU32 *pMailbox1) { return pKernelGsp->__kgspExecuteHsFalcon__(pGpu, pKernelGsp, pFlcnUcode, pKernelFlcn, pMailbox0, pMailbox1); } static inline NV_STATUS kgspWaitForProcessorSuspend_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspWaitForProcessorSuspend__(pGpu, pKernelGsp); } static inline NV_STATUS kgspSavePowerMgmtState_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspSavePowerMgmtState__(pGpu, pKernelGsp); } static inline NV_STATUS kgspRestorePowerMgmtState_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspRestorePowerMgmtState__(pGpu, pKernelGsp); } static inline void kgspFreeSuspendResumeData_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { pKernelGsp->__kgspFreeSuspendResumeData__(pGpu, pKernelGsp); } static inline NV_STATUS kgspWaitForGfwBootOk_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspWaitForGfwBootOk__(pGpu, pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveBooterLoadUcode_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveBooterLoadUcode__(pKernelGsp); } static inline const BINDATA_ARCHIVE * kgspGetBinArchiveBooterUnloadUcode_DISPATCH(struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetBinArchiveBooterUnloadUcode__(pKernelGsp); } static inline NvU64 kgspGetMinWprHeapSizeMB_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetMinWprHeapSizeMB__(pGpu, pKernelGsp); } static inline NvU64 kgspGetMaxWprHeapSizeMB_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetMaxWprHeapSizeMB__(pGpu, pKernelGsp); } static inline NvU32 kgspGetFwHeapParamOsCarveoutSize_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetFwHeapParamOsCarveoutSize__(pGpu, pKernelGsp); } static inline NV_STATUS kgspInitVgpuPartitionLogging_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid, NvU64 initTaskLogBUffOffset, NvU64 initTaskLogBUffSize, NvU64 vgpuTaskLogBUffOffset, NvU64 vgpuTaskLogBuffSize) { return pKernelGsp->__kgspInitVgpuPartitionLogging__(pGpu, pKernelGsp, gfid, initTaskLogBUffOffset, initTaskLogBUffSize, vgpuTaskLogBUffOffset, vgpuTaskLogBuffSize); } static inline NV_STATUS kgspFreeVgpuPartitionLogging_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid) { return pKernelGsp->__kgspFreeVgpuPartitionLogging__(pGpu, pKernelGsp, gfid); } static inline const char * kgspGetSignatureSectionNamePrefix_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspGetSignatureSectionNamePrefix__(pGpu, pKernelGsp); } static inline NV_STATUS kgspSetupGspFmcArgs_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { return pKernelGsp->__kgspSetupGspFmcArgs__(pGpu, pKernelGsp, pGspFw); } static inline void kgspReadEmem_DISPATCH(struct KernelGsp *pKernelGsp, NvU64 offset, NvU64 size, void *pBuf) { pKernelGsp->__kgspReadEmem__(pKernelGsp, offset, size, pBuf); } static inline NV_STATUS kgspIssueNotifyOp_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pArgs, NvU32 argc) { return pKernelGsp->__kgspIssueNotifyOp__(pGpu, pKernelGsp, opCode, pArgs, argc); } static inline NV_STATUS kgspCheckGspRmCcCleanup_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pKernelGsp->__kgspCheckGspRmCcCleanup__(pGpu, pKernelGsp); } static inline void kgspInitMissing_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { pEngstate->__kgspInitMissing__(pGpu, pEngstate); } static inline NV_STATUS kgspStatePreInitLocked_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { return pEngstate->__kgspStatePreInitLocked__(pGpu, pEngstate); } static inline NV_STATUS kgspStatePreInitUnlocked_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { return pEngstate->__kgspStatePreInitUnlocked__(pGpu, pEngstate); } static inline NV_STATUS kgspStateInitUnlocked_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { return pEngstate->__kgspStateInitUnlocked__(pGpu, pEngstate); } static inline NV_STATUS kgspStatePreLoad_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStatePreLoad__(pGpu, pEngstate, arg3); } static inline NV_STATUS kgspStateLoad_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStateLoad__(pGpu, pEngstate, arg3); } static inline NV_STATUS kgspStatePostLoad_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStatePostLoad__(pGpu, pEngstate, arg3); } static inline NV_STATUS kgspStatePreUnload_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStatePreUnload__(pGpu, pEngstate, arg3); } static inline NV_STATUS kgspStateUnload_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStateUnload__(pGpu, pEngstate, arg3); } static inline NV_STATUS kgspStatePostUnload_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate, NvU32 arg3) { return pEngstate->__kgspStatePostUnload__(pGpu, pEngstate, arg3); } static inline void kgspStateDestroy_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { pEngstate->__kgspStateDestroy__(pGpu, pEngstate); } static inline NvBool kgspIsPresent_DISPATCH(POBJGPU pGpu, struct KernelGsp *pEngstate) { return pEngstate->__kgspIsPresent__(pGpu, pEngstate); } static inline NvBool kgspClearInterrupt_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pIntrService, IntrServiceClearInterruptArguments *pParams) { return pIntrService->__kgspClearInterrupt__(pGpu, pIntrService, pParams); } static inline NV_STATUS kgspServiceNotificationInterrupt_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pIntrService, IntrServiceServiceNotificationInterruptArguments *pParams) { return pIntrService->__kgspServiceNotificationInterrupt__(pGpu, pIntrService, pParams); } static inline NvU32 kgspRegRead_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelFlcn, NvU32 offset) { return pKernelFlcn->__kgspRegRead__(pGpu, pKernelFlcn, offset); } static inline void kgspRegWrite_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelFlcn, NvU32 offset, NvU32 data) { pKernelFlcn->__kgspRegWrite__(pGpu, pKernelFlcn, offset, data); } static inline NvU32 kgspMaskDmemAddr_DISPATCH(struct OBJGPU *pGpu, struct KernelGsp *pKernelFlcn, NvU32 addr) { return pKernelFlcn->__kgspMaskDmemAddr__(pGpu, pKernelFlcn, addr); } static inline NvBool kgspConfigured_DISPATCH(struct KernelGsp *arg_this) { return arg_this->__kgspConfigured__(arg_this); } static inline void kgspUnload_DISPATCH(struct KernelGsp *arg_this) { arg_this->__kgspUnload__(arg_this); } static inline void kgspVprintf_DISPATCH(struct KernelGsp *arg_this, NvBool bReportStart, const char *fmt, va_list args) { arg_this->__kgspVprintf__(arg_this, bReportStart, fmt, args); } static inline NvU32 kgspPriRead_DISPATCH(struct KernelGsp *arg_this, NvU32 offset) { return arg_this->__kgspPriRead__(arg_this, offset); } static inline void kgspPriWrite_DISPATCH(struct KernelGsp *arg_this, NvU32 offset, NvU32 data) { arg_this->__kgspPriWrite__(arg_this, offset, data); } static inline void * kgspMapBufferDescriptor_DISPATCH(struct KernelGsp *arg_this, CrashCatBufferDescriptor *pBufDesc) { return arg_this->__kgspMapBufferDescriptor__(arg_this, pBufDesc); } static inline void kgspUnmapBufferDescriptor_DISPATCH(struct KernelGsp *arg_this, CrashCatBufferDescriptor *pBufDesc) { arg_this->__kgspUnmapBufferDescriptor__(arg_this, pBufDesc); } static inline void kgspSyncBufferDescriptor_DISPATCH(struct KernelGsp *arg_this, CrashCatBufferDescriptor *pBufDesc, NvU32 offset, NvU32 size) { arg_this->__kgspSyncBufferDescriptor__(arg_this, pBufDesc, offset, size); } static inline void kgspReadDmem_DISPATCH(struct KernelGsp *arg_this, NvU32 offset, NvU32 size, void *pBuf) { arg_this->__kgspReadDmem__(arg_this, offset, size, pBuf); } static inline const NvU32 * kgspGetScratchOffsets_DISPATCH(struct KernelGsp *arg_this, NV_CRASHCAT_SCRATCH_GROUP_ID scratchGroupId) { return arg_this->__kgspGetScratchOffsets__(arg_this, scratchGroupId); } static inline NvU32 kgspGetWFL0Offset_DISPATCH(struct KernelGsp *arg_this) { return arg_this->__kgspGetWFL0Offset__(arg_this); } NV_STATUS kgspConstructEngine_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, ENGDESCRIPTOR arg3); NV_STATUS kgspStateInitLocked_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); void kgspRegisterIntrService_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, IntrServiceRecord pRecords[175]); NvU32 kgspServiceInterrupt_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, IntrServiceServiceInterruptArguments *pParams); void kgspConfigureFalcon_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); void kgspConfigureFalcon_GA102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline void kgspConfigureFalcon_f2d351(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_PRECOMP(0); } NvBool kgspIsDebugModeEnabled_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); NvBool kgspIsDebugModeEnabled_GA100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NvBool kgspIsDebugModeEnabled_108313(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((NvBool)(0 != 0))); } NV_STATUS kgspAllocBootArgs_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); NV_STATUS kgspAllocBootArgs_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspAllocBootArgs_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } void kgspFreeBootArgs_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); void kgspFreeBootArgs_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline void kgspFreeBootArgs_f2d351(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_PRECOMP(0); } void kgspProgramLibosBootArgsAddr_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline void kgspProgramLibosBootArgsAddr_f2d351(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_PRECOMP(0); } NV_STATUS kgspSetCmdQueueHead_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 queueIdx, NvU32 value); static inline NV_STATUS kgspSetCmdQueueHead_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 queueIdx, NvU32 value) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspPrepareForBootstrap_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); NV_STATUS kgspPrepareForBootstrap_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); static inline NV_STATUS kgspPrepareForBootstrap_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspBootstrap_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); NV_STATUS kgspBootstrap_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); static inline NV_STATUS kgspBootstrap_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } void kgspGetGspRmBootUcodeStorage_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, BINDATA_STORAGE **ppBinStorageImage, BINDATA_STORAGE **ppBinStorageDesc); void kgspGetGspRmBootUcodeStorage_GA102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, BINDATA_STORAGE **ppBinStorageImage, BINDATA_STORAGE **ppBinStorageDesc); void kgspGetGspRmBootUcodeStorage_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, BINDATA_STORAGE **ppBinStorageImage, BINDATA_STORAGE **ppBinStorageDesc); static inline void kgspGetGspRmBootUcodeStorage_f2d351(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, BINDATA_STORAGE **ppBinStorageImage, BINDATA_STORAGE **ppBinStorageDesc) { NV_ASSERT_PRECOMP(0); } const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_TU102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_GA100(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_GA102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_GH100(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_AD102(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmBoot_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveConcatenatedFMCDesc_GH100(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveConcatenatedFMCDesc_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveConcatenatedFMC_GH100(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveConcatenatedFMC_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmFmcGfwDebugSigned_GH100(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmFmcGfwDebugSigned_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmFmcGfwProdSigned_GH100(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmFmcGfwProdSigned_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmCcFmcGfwProdSigned_GH100(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveGspRmCcFmcGfwProdSigned_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } NV_STATUS kgspCalculateFbLayout_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); NV_STATUS kgspCalculateFbLayout_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); static inline NV_STATUS kgspCalculateFbLayout_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } static inline NvU32 kgspGetNonWprHeapSize_ed6b8b(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 1048576; } static inline NvU32 kgspGetNonWprHeapSize_d505ea(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 2097152; } static inline NvU32 kgspGetNonWprHeapSize_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteSequencerCommand_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pPayLoad, NvU32 payloadSize); NV_STATUS kgspExecuteSequencerCommand_GA102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pPayLoad, NvU32 payloadSize); static inline NV_STATUS kgspExecuteSequencerCommand_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pPayLoad, NvU32 payloadSize) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } static inline NvU32 kgspReadUcodeFuseVersion_b2b553(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 ucodeId) { return 0; } NvU32 kgspReadUcodeFuseVersion_GA100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 ucodeId); static inline NvU32 kgspReadUcodeFuseVersion_474d46(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 ucodeId) { NV_ASSERT_OR_RETURN_PRECOMP(0, 0); } NV_STATUS kgspResetHw_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); NV_STATUS kgspResetHw_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspResetHw_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NvBool kgspHealthCheck_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NvBool kgspHealthCheck_108313(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((NvBool)(0 != 0))); } NvU32 kgspService_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NvU32 kgspService_474d46(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, 0); } NvBool kgspIsWpr2Up_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); NvBool kgspIsWpr2Up_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NvBool kgspIsWpr2Up_108313(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((NvBool)(0 != 0))); } NvU32 kgspGetFrtsSize_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NvU32 kgspGetFrtsSize_4a4dee(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 0; } static inline NvU32 kgspGetFrtsSize_474d46(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, 0); } static inline NvU64 kgspGetPrescrubbedTopFbSize_e1e623(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 256 * 1024 * 1024; } static inline NvU64 kgspGetPrescrubbedTopFbSize_604eb7(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return (+18446744073709551615ULL); } static inline NvU64 kgspGetPrescrubbedTopFbSize_474d46(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, 0); } NV_STATUS kgspExtractVbiosFromRom_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspVbiosImg **ppVbiosImg); static inline NV_STATUS kgspExtractVbiosFromRom_395e98(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspVbiosImg **ppVbiosImg) { return NV_ERR_NOT_SUPPORTED; } static inline NV_STATUS kgspExtractVbiosFromRom_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspVbiosImg **ppVbiosImg) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspPrepareForFwsecFrts_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, const NvU64 frtsOffset, KernelGspPreparedFwsecCmd *preparedCmd); static inline NV_STATUS kgspPrepareForFwsecFrts_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, const NvU64 frtsOffset, KernelGspPreparedFwsecCmd *preparedCmd) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspPrepareForFwsecSb_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, KernelGspPreparedFwsecCmd *preparedCmd); static inline NV_STATUS kgspPrepareForFwsecSb_395e98(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, KernelGspPreparedFwsecCmd *preparedCmd) { return NV_ERR_NOT_SUPPORTED; } static inline NV_STATUS kgspPrepareForFwsecSb_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFwsecUcode, KernelGspPreparedFwsecCmd *preparedCmd) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteFwsec_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspPreparedFwsecCmd *preparedCmd); static inline NV_STATUS kgspExecuteFwsec_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspPreparedFwsecCmd *preparedCmd) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteScrubberIfNeeded_AD102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspExecuteScrubberIfNeeded_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteBooterLoad_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfData); static inline NV_STATUS kgspExecuteBooterLoad_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfData) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteBooterUnloadIfNeeded_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfSuspendResumeData); static inline NV_STATUS kgspExecuteBooterUnloadIfNeeded_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const NvU64 sysmemAddrOfSuspendResumeData) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspExecuteHsFalcon_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFlcnUcode, struct KernelFalcon *pKernelFlcn, NvU32 *pMailbox0, NvU32 *pMailbox1); NV_STATUS kgspExecuteHsFalcon_GA102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFlcnUcode, struct KernelFalcon *pKernelFlcn, NvU32 *pMailbox0, NvU32 *pMailbox1); static inline NV_STATUS kgspExecuteHsFalcon_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode *pFlcnUcode, struct KernelFalcon *pKernelFlcn, NvU32 *pMailbox0, NvU32 *pMailbox1) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspWaitForProcessorSuspend_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspWaitForProcessorSuspend_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspSavePowerMgmtState_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspSavePowerMgmtState_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspRestorePowerMgmtState_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspRestorePowerMgmtState_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } void kgspFreeSuspendResumeData_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline void kgspFreeSuspendResumeData_f2d351(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_PRECOMP(0); } NV_STATUS kgspWaitForGfwBootOk_TU102(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); NV_STATUS kgspWaitForGfwBootOk_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspWaitForGfwBootOk_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_TU102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_TU116(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_GA100(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_GA102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_AD102(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveBooterLoadUcode_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_TU102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_TU116(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_GA100(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_GA102(struct KernelGsp *pKernelGsp); const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_AD102(struct KernelGsp *pKernelGsp); static inline const BINDATA_ARCHIVE *kgspGetBinArchiveBooterUnloadUcode_80f438(struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } static inline NvU64 kgspGetMinWprHeapSizeMB_7185bf(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return (64U); } static inline NvU64 kgspGetMinWprHeapSizeMB_cc88c3(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pGpu->bVgpuGspPluginOffloadEnabled ? (565U) : (86U); } static inline NvU64 kgspGetMinWprHeapSizeMB_b2b553(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 0; } static inline NvU64 kgspGetMaxWprHeapSizeMB_ad4e6a(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return (256U); } static inline NvU64 kgspGetMaxWprHeapSizeMB_55728f(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pGpu->bVgpuGspPluginOffloadEnabled ? (1040U) : (278U); } static inline NvU64 kgspGetMaxWprHeapSizeMB_b2b553(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 0; } static inline NvU32 kgspGetFwHeapParamOsCarveoutSize_397f70(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return (0 << 20); } static inline NvU32 kgspGetFwHeapParamOsCarveoutSize_4b5307(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return pGpu->bVgpuGspPluginOffloadEnabled ? (36 << 20) : (22 << 20); } static inline NvU32 kgspGetFwHeapParamOsCarveoutSize_b2b553(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return 0; } static inline NV_STATUS kgspInitVgpuPartitionLogging_395e98(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid, NvU64 initTaskLogBUffOffset, NvU64 initTaskLogBUffSize, NvU64 vgpuTaskLogBUffOffset, NvU64 vgpuTaskLogBuffSize) { return NV_ERR_NOT_SUPPORTED; } NV_STATUS kgspInitVgpuPartitionLogging_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid, NvU64 initTaskLogBUffOffset, NvU64 initTaskLogBUffSize, NvU64 vgpuTaskLogBUffOffset, NvU64 vgpuTaskLogBuffSize); static inline NV_STATUS kgspFreeVgpuPartitionLogging_395e98(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid) { return NV_ERR_NOT_SUPPORTED; } NV_STATUS kgspFreeVgpuPartitionLogging_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 gfid); const char *kgspGetSignatureSectionNamePrefix_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline const char *kgspGetSignatureSectionNamePrefix_789efb(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { return ".fwsignature_"; } static inline const char *kgspGetSignatureSectionNamePrefix_80f438(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, ((void *)0)); } NV_STATUS kgspSetupGspFmcArgs_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); static inline NV_STATUS kgspSetupGspFmcArgs_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } void kgspReadEmem_TU102(struct KernelGsp *pKernelGsp, NvU64 offset, NvU64 size, void *pBuf); static inline void kgspReadEmem_366c4c(struct KernelGsp *pKernelGsp, NvU64 offset, NvU64 size, void *pBuf) { NV_ASSERT(0); } NV_STATUS kgspIssueNotifyOp_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pArgs, NvU32 argc); static inline NV_STATUS kgspIssueNotifyOp_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU32 opCode, NvU32 *pArgs, NvU32 argc) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } NV_STATUS kgspCheckGspRmCcCleanup_GH100(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); static inline NV_STATUS kgspCheckGspRmCcCleanup_5baef9(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_OR_RETURN_PRECOMP(0, NV_ERR_NOT_SUPPORTED); } void kgspDestruct_IMPL(struct KernelGsp *pKernelGsp); #define __nvoc_kgspDestruct(pKernelGsp) kgspDestruct_IMPL(pKernelGsp) void kgspPopulateGspRmInitArgs_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_SR_INIT_ARGUMENTS *pGspSrInitArgs); #ifdef __nvoc_kernel_gsp_h_disabled static inline void kgspPopulateGspRmInitArgs(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_SR_INIT_ARGUMENTS *pGspSrInitArgs) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); } #else //__nvoc_kernel_gsp_h_disabled #define kgspPopulateGspRmInitArgs(pGpu, pKernelGsp, pGspSrInitArgs) kgspPopulateGspRmInitArgs_IMPL(pGpu, pKernelGsp, pGspSrInitArgs) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspInitRm_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspInitRm(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, GSP_FIRMWARE *pGspFw) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspInitRm(pGpu, pKernelGsp, pGspFw) kgspInitRm_IMPL(pGpu, pKernelGsp, pGspFw) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspCreateRadix3_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, MEMORY_DESCRIPTOR **ppMemdescRadix3, MEMORY_DESCRIPTOR *pMemdescData, const void *pData, NvU64 sizeOfData); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspCreateRadix3(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, MEMORY_DESCRIPTOR **ppMemdescRadix3, MEMORY_DESCRIPTOR *pMemdescData, const void *pData, NvU64 sizeOfData) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspCreateRadix3(pGpu, pKernelGsp, ppMemdescRadix3, pMemdescData, pData, sizeOfData) kgspCreateRadix3_IMPL(pGpu, pKernelGsp, ppMemdescRadix3, pMemdescData, pData, sizeOfData) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspUnloadRm_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspUnloadRm(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspUnloadRm(pGpu, pKernelGsp) kgspUnloadRm_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspPrepareBootBinaryImage_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspPrepareBootBinaryImage(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspPrepareBootBinaryImage(pGpu, pKernelGsp) kgspPrepareBootBinaryImage_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled NvU64 kgspGetFwHeapSize_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU64 posteriorFbSize); #ifdef __nvoc_kernel_gsp_h_disabled static inline NvU64 kgspGetFwHeapSize(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, NvU64 posteriorFbSize) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return 0; } #else //__nvoc_kernel_gsp_h_disabled #define kgspGetFwHeapSize(pGpu, pKernelGsp, posteriorFbSize) kgspGetFwHeapSize_IMPL(pGpu, pKernelGsp, posteriorFbSize) #endif //__nvoc_kernel_gsp_h_disabled NvU64 kgspGetWprEndMargin_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NvU64 kgspGetWprEndMargin(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return 0; } #else //__nvoc_kernel_gsp_h_disabled #define kgspGetWprEndMargin(pGpu, pKernelGsp) kgspGetWprEndMargin_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled void kgspSetupLibosInitArgs_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline void kgspSetupLibosInitArgs(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); } #else //__nvoc_kernel_gsp_h_disabled #define kgspSetupLibosInitArgs(pGpu, pKernelGsp) kgspSetupLibosInitArgs_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspQueueAsyncInitRpcs_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspQueueAsyncInitRpcs(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspQueueAsyncInitRpcs(pGpu, pKernelGsp) kgspQueueAsyncInitRpcs_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled void kgspRpcRecvEvents_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline void kgspRpcRecvEvents(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); } #else //__nvoc_kernel_gsp_h_disabled #define kgspRpcRecvEvents(pGpu, pKernelGsp) kgspRpcRecvEvents_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspWaitForRmInitDone_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspWaitForRmInitDone(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspWaitForRmInitDone(pGpu, pKernelGsp) kgspWaitForRmInitDone_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspStartLogPolling_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspStartLogPolling(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspStartLogPolling(pGpu, pKernelGsp) kgspStartLogPolling_IMPL(pGpu, pKernelGsp) #endif //__nvoc_kernel_gsp_h_disabled void kgspDumpGspLogs_IMPL(struct KernelGsp *pKernelGsp, NvBool arg2); #ifdef __nvoc_kernel_gsp_h_disabled static inline void kgspDumpGspLogs(struct KernelGsp *pKernelGsp, NvBool arg2) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); } #else //__nvoc_kernel_gsp_h_disabled #define kgspDumpGspLogs(pKernelGsp, arg2) kgspDumpGspLogs_IMPL(pKernelGsp, arg2) #endif //__nvoc_kernel_gsp_h_disabled void kgspDumpGspLogsUnlocked_IMPL(struct KernelGsp *pKernelGsp, NvBool arg2); #ifdef __nvoc_kernel_gsp_h_disabled static inline void kgspDumpGspLogsUnlocked(struct KernelGsp *pKernelGsp, NvBool arg2) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); } #else //__nvoc_kernel_gsp_h_disabled #define kgspDumpGspLogsUnlocked(pKernelGsp, arg2) kgspDumpGspLogsUnlocked_IMPL(pKernelGsp, arg2) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspExecuteSequencerBuffer_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, void *pRunCpuSeqParams); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspExecuteSequencerBuffer(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, void *pRunCpuSeqParams) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspExecuteSequencerBuffer(pGpu, pKernelGsp, pRunCpuSeqParams) kgspExecuteSequencerBuffer_IMPL(pGpu, pKernelGsp, pRunCpuSeqParams) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspParseFwsecUcodeFromVbiosImg_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const KernelGspVbiosImg *const pVbiosImg, KernelGspFlcnUcode **ppFwsecUcode, NvU64 *pVbiosVersionCombined); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspParseFwsecUcodeFromVbiosImg(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, const KernelGspVbiosImg *const pVbiosImg, KernelGspFlcnUcode **ppFwsecUcode, NvU64 *pVbiosVersionCombined) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspParseFwsecUcodeFromVbiosImg(pGpu, pKernelGsp, pVbiosImg, ppFwsecUcode, pVbiosVersionCombined) kgspParseFwsecUcodeFromVbiosImg_IMPL(pGpu, pKernelGsp, pVbiosImg, ppFwsecUcode, pVbiosVersionCombined) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspAllocateScrubberUcodeImage_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppScrubberUcode); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspAllocateScrubberUcodeImage(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppScrubberUcode) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspAllocateScrubberUcodeImage(pGpu, pKernelGsp, ppScrubberUcode) kgspAllocateScrubberUcodeImage_IMPL(pGpu, pKernelGsp, ppScrubberUcode) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspAllocateBooterLoadUcodeImage_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppBooterLoadUcode); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspAllocateBooterLoadUcodeImage(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppBooterLoadUcode) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspAllocateBooterLoadUcodeImage(pGpu, pKernelGsp, ppBooterLoadUcode) kgspAllocateBooterLoadUcodeImage_IMPL(pGpu, pKernelGsp, ppBooterLoadUcode) #endif //__nvoc_kernel_gsp_h_disabled NV_STATUS kgspAllocateBooterUnloadUcodeImage_IMPL(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppBooterUnloadUcode); #ifdef __nvoc_kernel_gsp_h_disabled static inline NV_STATUS kgspAllocateBooterUnloadUcodeImage(struct OBJGPU *pGpu, struct KernelGsp *pKernelGsp, KernelGspFlcnUcode **ppBooterUnloadUcode) { NV_ASSERT_FAILED_PRECOMP("KernelGsp was disabled!"); return NV_ERR_NOT_SUPPORTED; } #else //__nvoc_kernel_gsp_h_disabled #define kgspAllocateBooterUnloadUcodeImage(pGpu, pKernelGsp, ppBooterUnloadUcode) kgspAllocateBooterUnloadUcodeImage_IMPL(pGpu, pKernelGsp, ppBooterUnloadUcode) #endif //__nvoc_kernel_gsp_h_disabled #undef PRIVATE_FIELD NV_STATUS rpcRmApiControl_GSP(RM_API *pRmApi, NvHandle hClient, NvHandle hObject, NvU32 cmd, void *pParamStructPtr, NvU32 paramsSize); NV_STATUS rpcRmApiAlloc_GSP(RM_API *pRmApi, NvHandle hClient, NvHandle hParent, NvHandle hObject, NvU32 hClass, void *pAllocParams, NvU32 allocParamsSize); NV_STATUS rpcRmApiDupObject_GSP(RM_API *pRmApi, NvHandle hClient, NvHandle hParent, NvHandle *phObject, NvHandle hClientSrc, NvHandle hObjectSrc, NvU32 flags); NV_STATUS rpcRmApiFree_GSP(RM_API *pRmApi, NvHandle hClient, NvHandle hObject); /* Free a KernelGspVbiosImg structure */ void kgspFreeVbiosImg(KernelGspVbiosImg *pVbiosImg); /* Free a KernelGspFlcnUcode structure */ void kgspFreeFlcnUcode(KernelGspFlcnUcode *pFlcnUcode); void kgspLogRpcDebugInfo(struct OBJGPU *pGpu, OBJRPC *pRpc, NvU32 errorNum, NvBool bPollingForRpcResponse); #endif // KERNEL_GSP_H #ifdef __cplusplus } // extern "C" #endif #endif // _G_KERNEL_GSP_NVOC_H_