#define NVOC_KERNEL_CE_H_PRIVATE_ACCESS_ALLOWED // Version of generated metadata structures #ifdef NVOC_METADATA_VERSION #undef NVOC_METADATA_VERSION #endif #define NVOC_METADATA_VERSION 2 #include "nvoc/runtime.h" #include "nvoc/rtti.h" #include "nvtypes.h" #include "nvport/nvport.h" #include "nvport/inline/util_valist.h" #include "utils/nvassert.h" #include "g_kernel_ce_nvoc.h" #ifdef DEBUG char __nvoc_class_id_uniqueness_check__0x242aca = 1; #endif extern const struct NVOC_CLASS_DEF __nvoc_class_def_KernelCE; extern const struct NVOC_CLASS_DEF __nvoc_class_def_Object; extern const struct NVOC_CLASS_DEF __nvoc_class_def_OBJENGSTATE; extern const struct NVOC_CLASS_DEF __nvoc_class_def_IntrService; // Forward declarations for KernelCE void __nvoc_init__OBJENGSTATE(OBJENGSTATE*); void __nvoc_init__IntrService(IntrService*); void __nvoc_init__KernelCE(KernelCE*, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner); void __nvoc_init_funcTable_KernelCE(KernelCE*, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner); NV_STATUS __nvoc_ctor_KernelCE(KernelCE*, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner); void __nvoc_init_dataField_KernelCE(KernelCE*, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner); void __nvoc_dtor_KernelCE(KernelCE*); // Structures used within RTTI (run-time type information) extern const struct NVOC_CASTINFO __nvoc_castinfo__KernelCE; extern const struct NVOC_EXPORT_INFO __nvoc_export_info__KernelCE; // Down-thunk(s) to bridge KernelCE methods from ancestors (if any) NV_STATUS __nvoc_down_thunk_KernelCE_engstateConstructEngine(OBJGPU *pGpu, struct OBJENGSTATE *pKCe, ENGDESCRIPTOR arg3); // this NvBool __nvoc_down_thunk_KernelCE_engstateIsPresent(OBJGPU *pGpu, struct OBJENGSTATE *pKCe); // this NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateInitLocked(OBJGPU *arg1, struct OBJENGSTATE *arg_this); // this NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateUnload(OBJGPU *pGpu, struct OBJENGSTATE *pKCe, NvU32 flags); // this NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateLoad(OBJGPU *arg1, struct OBJENGSTATE *arg_this, NvU32 arg3); // this void __nvoc_down_thunk_KernelCE_engstateStateDestroy(OBJGPU *arg1, struct OBJENGSTATE *arg_this); // this void __nvoc_down_thunk_KernelCE_intrservRegisterIntrService(OBJGPU *arg1, struct IntrService *arg_this, IntrServiceRecord arg3[180]); // this NV_STATUS __nvoc_down_thunk_KernelCE_intrservServiceNotificationInterrupt(OBJGPU *arg1, struct IntrService *arg_this, IntrServiceServiceNotificationInterruptArguments *arg3); // this // Up-thunk(s) to bridge KernelCE methods to ancestors (if any) void __nvoc_up_thunk_OBJENGSTATE_kceInitMissing(struct OBJGPU *pGpu, struct KernelCE *pEngstate); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreInitLocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreInitUnlocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStateInitUnlocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreLoad(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePostLoad(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreUnload(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3); // this NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePostUnload(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3); // this NvBool __nvoc_up_thunk_IntrService_kceClearInterrupt(OBJGPU *pGpu, struct KernelCE *pIntrService, IntrServiceClearInterruptArguments *pParams); // this NvU32 __nvoc_up_thunk_IntrService_kceServiceInterrupt(OBJGPU *pGpu, struct KernelCE *pIntrService, IntrServiceServiceInterruptArguments *pParams); // this const struct NVOC_CLASS_DEF __nvoc_class_def_KernelCE = { /*classInfo=*/ { /*size=*/ sizeof(KernelCE), /*classId=*/ classId(KernelCE), /*providerId=*/ &__nvoc_rtti_provider, #if NV_PRINTF_STRINGS_ALLOWED /*name=*/ "KernelCE", #endif }, /*objCreatefn=*/ (NVOC_DYNAMIC_OBJ_CREATE) &__nvoc_objCreateDynamic_KernelCE, /*pCastInfo=*/ &__nvoc_castinfo__KernelCE, /*pExportInfo=*/ &__nvoc_export_info__KernelCE }; // Metadata with per-class RTTI and vtable with ancestor(s) static const struct NVOC_METADATA__KernelCE __nvoc_metadata__KernelCE = { .rtti.pClassDef = &__nvoc_class_def_KernelCE, // (kce) this .rtti.dtor = (NVOC_DYNAMIC_DTOR) &__nvoc_dtor_KernelCE, .rtti.offset = 0, .metadata__OBJENGSTATE.rtti.pClassDef = &__nvoc_class_def_OBJENGSTATE, // (engstate) super .metadata__OBJENGSTATE.rtti.dtor = &__nvoc_destructFromBase, .metadata__OBJENGSTATE.rtti.offset = NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE), .metadata__OBJENGSTATE.metadata__Object.rtti.pClassDef = &__nvoc_class_def_Object, // (obj) super^2 .metadata__OBJENGSTATE.metadata__Object.rtti.dtor = &__nvoc_destructFromBase, .metadata__OBJENGSTATE.metadata__Object.rtti.offset = NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE.__nvoc_base_Object), .metadata__IntrService.rtti.pClassDef = &__nvoc_class_def_IntrService, // (intrserv) super .metadata__IntrService.rtti.dtor = &__nvoc_destructFromBase, .metadata__IntrService.rtti.offset = NV_OFFSETOF(KernelCE, __nvoc_base_IntrService), .vtable.__kceConstructEngine__ = &kceConstructEngine_IMPL, // virtual override (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateConstructEngine__ = &__nvoc_down_thunk_KernelCE_engstateConstructEngine, // virtual .metadata__OBJENGSTATE.vtable.__engstateIsPresent__ = &__nvoc_down_thunk_KernelCE_engstateIsPresent, // virtual .vtable.__kceStateInitLocked__ = &kceStateInitLocked_IMPL, // virtual override (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStateInitLocked__ = &__nvoc_down_thunk_KernelCE_engstateStateInitLocked, // virtual .metadata__OBJENGSTATE.vtable.__engstateStateUnload__ = &__nvoc_down_thunk_KernelCE_engstateStateUnload, // virtual .metadata__OBJENGSTATE.vtable.__engstateStateLoad__ = &__nvoc_down_thunk_KernelCE_engstateStateLoad, // virtual .vtable.__kceStateDestroy__ = &kceStateDestroy_IMPL, // virtual override (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStateDestroy__ = &__nvoc_down_thunk_KernelCE_engstateStateDestroy, // virtual .vtable.__kceRegisterIntrService__ = &kceRegisterIntrService_IMPL, // virtual override (intrserv) base (intrserv) .metadata__IntrService.vtable.__intrservRegisterIntrService__ = &__nvoc_down_thunk_KernelCE_intrservRegisterIntrService, // virtual .vtable.__kceServiceNotificationInterrupt__ = &kceServiceNotificationInterrupt_IMPL, // virtual override (intrserv) base (intrserv) .metadata__IntrService.vtable.__intrservServiceNotificationInterrupt__ = &__nvoc_down_thunk_KernelCE_intrservServiceNotificationInterrupt, // virtual .vtable.__kceInitMissing__ = &__nvoc_up_thunk_OBJENGSTATE_kceInitMissing, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateInitMissing__ = &engstateInitMissing_IMPL, // virtual .vtable.__kceStatePreInitLocked__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePreInitLocked, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePreInitLocked__ = &engstateStatePreInitLocked_IMPL, // virtual .vtable.__kceStatePreInitUnlocked__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePreInitUnlocked, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePreInitUnlocked__ = &engstateStatePreInitUnlocked_IMPL, // virtual .vtable.__kceStateInitUnlocked__ = &__nvoc_up_thunk_OBJENGSTATE_kceStateInitUnlocked, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStateInitUnlocked__ = &engstateStateInitUnlocked_IMPL, // virtual .vtable.__kceStatePreLoad__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePreLoad, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePreLoad__ = &engstateStatePreLoad_IMPL, // virtual .vtable.__kceStatePostLoad__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePostLoad, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePostLoad__ = &engstateStatePostLoad_IMPL, // virtual .vtable.__kceStatePreUnload__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePreUnload, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePreUnload__ = &engstateStatePreUnload_IMPL, // virtual .vtable.__kceStatePostUnload__ = &__nvoc_up_thunk_OBJENGSTATE_kceStatePostUnload, // virtual inherited (engstate) base (engstate) .metadata__OBJENGSTATE.vtable.__engstateStatePostUnload__ = &engstateStatePostUnload_IMPL, // virtual .vtable.__kceClearInterrupt__ = &__nvoc_up_thunk_IntrService_kceClearInterrupt, // virtual inherited (intrserv) base (intrserv) .metadata__IntrService.vtable.__intrservClearInterrupt__ = &intrservClearInterrupt_IMPL, // virtual .vtable.__kceServiceInterrupt__ = &__nvoc_up_thunk_IntrService_kceServiceInterrupt, // virtual inherited (intrserv) base (intrserv) .metadata__IntrService.vtable.__intrservServiceInterrupt__ = &intrservServiceInterrupt_IMPL, // virtual }; // Dynamic down-casting information const struct NVOC_CASTINFO __nvoc_castinfo__KernelCE = { .numRelatives = 4, .relatives = { &__nvoc_metadata__KernelCE.rtti, // [0]: (kce) this &__nvoc_metadata__KernelCE.metadata__OBJENGSTATE.rtti, // [1]: (engstate) super &__nvoc_metadata__KernelCE.metadata__OBJENGSTATE.metadata__Object.rtti, // [2]: (obj) super^2 &__nvoc_metadata__KernelCE.metadata__IntrService.rtti, // [3]: (intrserv) super } }; // 8 down-thunk(s) defined to bridge methods in KernelCE from superclasses // kceConstructEngine: virtual override (engstate) base (engstate) NV_STATUS __nvoc_down_thunk_KernelCE_engstateConstructEngine(OBJGPU *pGpu, struct OBJENGSTATE *pKCe, ENGDESCRIPTOR arg3) { return kceConstructEngine(pGpu, (struct KernelCE *)(((unsigned char *) pKCe) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceIsPresent: virtual halified (2 hals) override (engstate) base (engstate) body NvBool __nvoc_down_thunk_KernelCE_engstateIsPresent(OBJGPU *pGpu, struct OBJENGSTATE *pKCe) { return kceIsPresent(pGpu, (struct KernelCE *)(((unsigned char *) pKCe) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStateInitLocked: virtual override (engstate) base (engstate) NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateInitLocked(OBJGPU *arg1, struct OBJENGSTATE *arg_this) { return kceStateInitLocked(arg1, (struct KernelCE *)(((unsigned char *) arg_this) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStateUnload: virtual halified (2 hals) override (engstate) base (engstate) body NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateUnload(OBJGPU *pGpu, struct OBJENGSTATE *pKCe, NvU32 flags) { return kceStateUnload(pGpu, (struct KernelCE *)(((unsigned char *) pKCe) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), flags); } // kceStateLoad: virtual halified (2 hals) override (engstate) base (engstate) NV_STATUS __nvoc_down_thunk_KernelCE_engstateStateLoad(OBJGPU *arg1, struct OBJENGSTATE *arg_this, NvU32 arg3) { return kceStateLoad(arg1, (struct KernelCE *)(((unsigned char *) arg_this) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceStateDestroy: virtual override (engstate) base (engstate) void __nvoc_down_thunk_KernelCE_engstateStateDestroy(OBJGPU *arg1, struct OBJENGSTATE *arg_this) { kceStateDestroy(arg1, (struct KernelCE *)(((unsigned char *) arg_this) - NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceRegisterIntrService: virtual override (intrserv) base (intrserv) void __nvoc_down_thunk_KernelCE_intrservRegisterIntrService(OBJGPU *arg1, struct IntrService *arg_this, IntrServiceRecord arg3[180]) { kceRegisterIntrService(arg1, (struct KernelCE *)(((unsigned char *) arg_this) - NV_OFFSETOF(KernelCE, __nvoc_base_IntrService)), arg3); } // kceServiceNotificationInterrupt: virtual override (intrserv) base (intrserv) NV_STATUS __nvoc_down_thunk_KernelCE_intrservServiceNotificationInterrupt(OBJGPU *arg1, struct IntrService *arg_this, IntrServiceServiceNotificationInterruptArguments *arg3) { return kceServiceNotificationInterrupt(arg1, (struct KernelCE *)(((unsigned char *) arg_this) - NV_OFFSETOF(KernelCE, __nvoc_base_IntrService)), arg3); } // 10 up-thunk(s) defined to bridge methods in KernelCE to superclasses // kceInitMissing: virtual inherited (engstate) base (engstate) void __nvoc_up_thunk_OBJENGSTATE_kceInitMissing(struct OBJGPU *pGpu, struct KernelCE *pEngstate) { engstateInitMissing(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStatePreInitLocked: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreInitLocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate) { return engstateStatePreInitLocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStatePreInitUnlocked: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreInitUnlocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate) { return engstateStatePreInitUnlocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStateInitUnlocked: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStateInitUnlocked(struct OBJGPU *pGpu, struct KernelCE *pEngstate) { return engstateStateInitUnlocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE))); } // kceStatePreLoad: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreLoad(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3) { return engstateStatePreLoad(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceStatePostLoad: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePostLoad(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3) { return engstateStatePostLoad(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceStatePreUnload: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePreUnload(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3) { return engstateStatePreUnload(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceStatePostUnload: virtual inherited (engstate) base (engstate) NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kceStatePostUnload(struct OBJGPU *pGpu, struct KernelCE *pEngstate, NvU32 arg3) { return engstateStatePostUnload(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + NV_OFFSETOF(KernelCE, __nvoc_base_OBJENGSTATE)), arg3); } // kceClearInterrupt: virtual inherited (intrserv) base (intrserv) NvBool __nvoc_up_thunk_IntrService_kceClearInterrupt(OBJGPU *pGpu, struct KernelCE *pIntrService, IntrServiceClearInterruptArguments *pParams) { return intrservClearInterrupt(pGpu, (struct IntrService *)(((unsigned char *) pIntrService) + NV_OFFSETOF(KernelCE, __nvoc_base_IntrService)), pParams); } // kceServiceInterrupt: virtual inherited (intrserv) base (intrserv) NvU32 __nvoc_up_thunk_IntrService_kceServiceInterrupt(OBJGPU *pGpu, struct KernelCE *pIntrService, IntrServiceServiceInterruptArguments *pParams) { return intrservServiceInterrupt(pGpu, (struct IntrService *)(((unsigned char *) pIntrService) + NV_OFFSETOF(KernelCE, __nvoc_base_IntrService)), pParams); } const struct NVOC_EXPORT_INFO __nvoc_export_info__KernelCE = { /*numEntries=*/ 0, /*pExportEntries=*/ 0 }; void __nvoc_dtor_OBJENGSTATE(OBJENGSTATE*); void __nvoc_dtor_IntrService(IntrService*); void __nvoc_dtor_KernelCE(KernelCE *pThis) { __nvoc_dtor_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE); __nvoc_dtor_IntrService(&pThis->__nvoc_base_IntrService); PORT_UNREFERENCED_VARIABLE(pThis); } void __nvoc_init_dataField_KernelCE(KernelCE *pThis, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner) { ChipHal *chipHal = &pGpuhalspecowner->chipHal; const unsigned long chipHal_HalVarIdx = (unsigned long)chipHal->__nvoc_HalVarIdx; RmVariantHal *rmVariantHal = &pRmhalspecowner->rmVariantHal; const unsigned long rmVariantHal_HalVarIdx = (unsigned long)rmVariantHal->__nvoc_HalVarIdx; PORT_UNREFERENCED_VARIABLE(pThis); PORT_UNREFERENCED_VARIABLE(pGpuhalspecowner); PORT_UNREFERENCED_VARIABLE(pRmhalspecowner); PORT_UNREFERENCED_VARIABLE(chipHal); PORT_UNREFERENCED_VARIABLE(chipHal_HalVarIdx); PORT_UNREFERENCED_VARIABLE(rmVariantHal); PORT_UNREFERENCED_VARIABLE(rmVariantHal_HalVarIdx); // Hal field -- bCcFipsSelfTestRequired if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->bCcFipsSelfTestRequired = NV_FALSE; } // default else { pThis->bCcFipsSelfTestRequired = NV_FALSE; } } NV_STATUS __nvoc_ctor_OBJENGSTATE(OBJENGSTATE* ); NV_STATUS __nvoc_ctor_IntrService(IntrService* ); NV_STATUS __nvoc_ctor_KernelCE(KernelCE *pThis, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner) { NV_STATUS status = NV_OK; status = __nvoc_ctor_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE); if (status != NV_OK) goto __nvoc_ctor_KernelCE_fail_OBJENGSTATE; status = __nvoc_ctor_IntrService(&pThis->__nvoc_base_IntrService); if (status != NV_OK) goto __nvoc_ctor_KernelCE_fail_IntrService; __nvoc_init_dataField_KernelCE(pThis, pGpuhalspecowner, pRmhalspecowner); goto __nvoc_ctor_KernelCE_exit; // Success __nvoc_ctor_KernelCE_fail_IntrService: __nvoc_dtor_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE); __nvoc_ctor_KernelCE_fail_OBJENGSTATE: __nvoc_ctor_KernelCE_exit: return status; } // Vtable initialization static void __nvoc_init_funcTable_KernelCE_1(KernelCE *pThis, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner) { ChipHal *chipHal = &pGpuhalspecowner->chipHal; const unsigned long chipHal_HalVarIdx = (unsigned long)chipHal->__nvoc_HalVarIdx; RmVariantHal *rmVariantHal = &pRmhalspecowner->rmVariantHal; const unsigned long rmVariantHal_HalVarIdx = (unsigned long)rmVariantHal->__nvoc_HalVarIdx; PORT_UNREFERENCED_VARIABLE(pThis); PORT_UNREFERENCED_VARIABLE(pGpuhalspecowner); PORT_UNREFERENCED_VARIABLE(pRmhalspecowner); PORT_UNREFERENCED_VARIABLE(chipHal); PORT_UNREFERENCED_VARIABLE(chipHal_HalVarIdx); PORT_UNREFERENCED_VARIABLE(rmVariantHal); PORT_UNREFERENCED_VARIABLE(rmVariantHal_HalVarIdx); // kceIsPresent -- virtual halified (2 hals) override (engstate) base (engstate) body if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceIsPresent__ = &kceIsPresent_3dd2c9; } else { pThis->__kceIsPresent__ = &kceIsPresent_IMPL; } // kceStateUnload -- virtual halified (2 hals) override (engstate) base (engstate) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xf1f0ffe0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe6UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 | GB100 | GB102 | GB10B | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceStateUnload__ = &kceStateUnload_GP100; } // default else { pThis->__kceStateUnload__ = &kceStateUnload_56cd7a; } // kceStateLoad -- virtual halified (2 hals) override (engstate) base (engstate) if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceStateLoad__ = &kceStateLoad_46f6a7; } else { pThis->__kceStateLoad__ = &kceStateLoad_GP100; } // kceSetShimInstance -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c06UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 | GB20B | GB20C */ { pThis->__kceSetShimInstance__ = &kceSetShimInstance_GB100; } // default else { pThis->__kceSetShimInstance__ = &kceSetShimInstance_b3696a; } // kceIsSecureCe -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x70000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe0UL) )) /* ChipHal: GH100 | GB100 | GB102 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceIsSecureCe__ = &kceIsSecureCe_GH100; } // default else { pThis->__kceIsSecureCe__ = &kceIsSecureCe_3dd2c9; } // kceSetDecompCeCap -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 */ { pThis->__kceSetDecompCeCap__ = &kceSetDecompCeCap_GB100; } // default else { pThis->__kceSetDecompCeCap__ = &kceSetDecompCeCap_b3696a; } // kceIsCeSysmemRead -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x11f0ffe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 */ { pThis->__kceIsCeSysmemRead__ = &kceIsCeSysmemRead_GP100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e6UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceIsCeSysmemRead__ = &kceIsCeSysmemRead_GB100; } // default else { pThis->__kceIsCeSysmemRead__ = &kceIsCeSysmemRead_3dd2c9; } // kceIsCeSysmemWrite -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x11f0ffe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 */ { pThis->__kceIsCeSysmemWrite__ = &kceIsCeSysmemWrite_GP100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e6UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceIsCeSysmemWrite__ = &kceIsCeSysmemWrite_GB100; } // default else { pThis->__kceIsCeSysmemWrite__ = &kceIsCeSysmemWrite_3dd2c9; } // kceIsCCWorkSubmitLce -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceIsCCWorkSubmitLce__ = &kceIsCCWorkSubmitLce_GB100; } // default else { pThis->__kceIsCCWorkSubmitLce__ = &kceIsCCWorkSubmitLce_3dd2c9; } // kceIsCeNvlinkP2P -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceIsCeNvlinkP2P__ = &kceIsCeNvlinkP2P_GB100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x91f0ffe0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 | GB10B | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceIsCeNvlinkP2P__ = &kceIsCeNvlinkP2P_GP100; } // default else { pThis->__kceIsCeNvlinkP2P__ = &kceIsCeNvlinkP2P_3dd2c9; } // kceIsScrubLce -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceIsScrubLce__ = &kceIsScrubLce_GB100; } // default else { pThis->__kceIsScrubLce__ = &kceIsScrubLce_3dd2c9; } // kceAssignCeCaps -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x11f0ffe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 */ { pThis->__kceAssignCeCaps__ = &kceAssignCeCaps_GP100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e6UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceAssignCeCaps__ = &kceAssignCeCaps_GB100; } // default else { pThis->__kceAssignCeCaps__ = &kceAssignCeCaps_b3696a; } // kceGetP2PCes -- halified (4 hals) if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceGetP2PCes__ = &kceGetP2PCes_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0ffe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceGetP2PCes__ = &kceGetP2PCes_GV100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe6UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetP2PCes__ = &kceGetP2PCes_GB100; } // default else { pThis->__kceGetP2PCes__ = &kceGetP2PCes_46f6a7; } // kceGetSysmemRWLCEs -- halified (3 hals) if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 */ { pThis->__kceGetSysmemRWLCEs__ = &kceGetSysmemRWLCEs_GB100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x11f0ffe0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetSysmemRWLCEs__ = &kceGetSysmemRWLCEs_GV100; } // default else { pThis->__kceGetSysmemRWLCEs__ = &kceGetSysmemRWLCEs_b3696a; } // kceGetNvlinkAutoConfigCeValues -- halified (4 hals) body if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceGetNvlinkAutoConfigCeValues__ = &kceGetNvlinkAutoConfigCeValues_56cd7a; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 */ { pThis->__kceGetNvlinkAutoConfigCeValues__ = &kceGetNvlinkAutoConfigCeValues_TU102; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c06UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 | GB20B | GB20C */ { pThis->__kceGetNvlinkAutoConfigCeValues__ = &kceGetNvlinkAutoConfigCeValues_GB100; } else { pThis->__kceGetNvlinkAutoConfigCeValues__ = &kceGetNvlinkAutoConfigCeValues_GA100; } // kceGetNvlinkMaxTopoForTable -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 */ { pThis->__kceGetNvlinkMaxTopoForTable__ = &kceGetNvlinkMaxTopoForTable_GP100; } else { pThis->__kceGetNvlinkMaxTopoForTable__ = &kceGetNvlinkMaxTopoForTable_3dd2c9; } // kceIsCurrentMaxTopology -- halified (2 hals) if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | T234D | T264D */ { pThis->__kceIsCurrentMaxTopology__ = &kceIsCurrentMaxTopology_3dd2c9; } else { pThis->__kceIsCurrentMaxTopology__ = &kceIsCurrentMaxTopology_GA100; } // kceClearAssignedNvlinkPeerMasks -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceClearAssignedNvlinkPeerMasks__ = &kceClearAssignedNvlinkPeerMasks_b3696a; } else { pThis->__kceClearAssignedNvlinkPeerMasks__ = &kceClearAssignedNvlinkPeerMasks_GV100; } // kceGetAutoConfigTableEntry -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceGetAutoConfigTableEntry__ = &kceGetAutoConfigTableEntry_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe1f0ffe0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe6UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GB100 | GB102 | GB10B | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetAutoConfigTableEntry__ = &kceGetAutoConfigTableEntry_GV100; } // default else { pThis->__kceGetAutoConfigTableEntry__ = &kceGetAutoConfigTableEntry_3dd2c9; } // kceGetGrceConfigSize1 -- halified (5 hals) if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c00UL) )) /* ChipHal: GB20B | GB20C */ { pThis->__kceGetGrceConfigSize1__ = &kceGetGrceConfigSize1_GB20B; } else if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceGetGrceConfigSize1__ = &kceGetGrceConfigSize1_4a4dee; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceGetGrceConfigSize1__ = &kceGetGrceConfigSize1_GB202; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x11f0ffe0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GH100 */ { pThis->__kceGetGrceConfigSize1__ = &kceGetGrceConfigSize1_TU102; } else { pThis->__kceGetGrceConfigSize1__ = &kceGetGrceConfigSize1_GB100; } // kceGetPce2lceConfigSize1 -- halified (9 hals) if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x80000000UL) )) /* ChipHal: GB10B */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GB10B; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c00UL) )) /* ChipHal: GB20B | GB20C */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GB20B; } else if (( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: T234D | T264D */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_4a4dee; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_TU102; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GB202; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0f800UL) )) /* ChipHal: GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GA102; } else { pThis->__kceGetPce2lceConfigSize1__ = &kceGetPce2lceConfigSize1_GB100; } // kceGetMappings -- halified (5 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceGetMappings__ = &kceGetMappings_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0fc00UL) )) /* ChipHal: GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceGetMappings__ = &kceGetMappings_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceGetMappings__ = &kceGetMappings_GB100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | T234D | T264D */ { pThis->__kceGetMappings__ = &kceGetMappings_46f6a7; } else { pThis->__kceGetMappings__ = &kceGetMappings_GB202; } // kceGetMappingsForMIGGpuInstance -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceGetMappingsForMIGGpuInstance__ = &kceGetMappingsForMIGGpuInstance_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 */ { pThis->__kceGetMappingsForMIGGpuInstance__ = &kceGetMappingsForMIGGpuInstance_GB100; } // default else { pThis->__kceGetMappingsForMIGGpuInstance__ = &kceGetMappingsForMIGGpuInstance_46f6a7; } // kceMapPceLceForC2C -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceMapPceLceForC2C__ = &kceMapPceLceForC2C_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForC2C__ = &kceMapPceLceForC2C_GB100; } // default else { pThis->__kceMapPceLceForC2C__ = &kceMapPceLceForC2C_46f6a7; } // kceMapPceLceForScrub -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForScrub__ = &kceMapPceLceForScrub_GB100; } // default else { pThis->__kceMapPceLceForScrub__ = &kceMapPceLceForScrub_46f6a7; } // kceMapPceLceForWorkSubmitLces -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForWorkSubmitLces__ = &kceMapPceLceForWorkSubmitLces_GB100; } // default else { pThis->__kceMapPceLceForWorkSubmitLces__ = &kceMapPceLceForWorkSubmitLces_56cd7a; } // kceMapPceLceForDecomp -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForDecomp__ = &kceMapPceLceForDecomp_GB100; } // default else { pThis->__kceMapPceLceForDecomp__ = &kceMapPceLceForDecomp_b3696a; } // kceMapPceLceForPCIe -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForPCIe__ = &kceMapPceLceForPCIe_GB100; } // default else { pThis->__kceMapPceLceForPCIe__ = &kceMapPceLceForPCIe_b3696a; } // kceMapPceLceForGRCE -- halified (6 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x80000000UL) )) /* ChipHal: GB10B */ { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_GB10B; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c00UL) )) /* ChipHal: GB20B | GB20C */ { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_GB20B; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_GB202; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_GB100; } // default else { pThis->__kceMapPceLceForGRCE__ = &kceMapPceLceForGRCE_b3696a; } // kceGetLceMaskForShimInstance -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe0000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe6UL) )) /* ChipHal: GB100 | GB102 | GB10B | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetLceMaskForShimInstance__ = &kceGetLceMaskForShimInstance_GB100; } // default else { pThis->__kceGetLceMaskForShimInstance__ = &kceGetLceMaskForShimInstance_4a4dee; } // kceMapPceLceForSysmemLinks -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceMapPceLceForSysmemLinks__ = &kceMapPceLceForSysmemLinks_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0f800UL) )) /* ChipHal: GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceMapPceLceForSysmemLinks__ = &kceMapPceLceForSysmemLinks_GA102; } else { pThis->__kceMapPceLceForSysmemLinks__ = &kceMapPceLceForSysmemLinks_46f6a7; } // kceMapPceLceForNvlinkPeers -- halified (4 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceMapPceLceForNvlinkPeers__ = &kceMapPceLceForNvlinkPeers_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0fc00UL) )) /* ChipHal: GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceMapPceLceForNvlinkPeers__ = &kceMapPceLceForNvlinkPeers_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapPceLceForNvlinkPeers__ = &kceMapPceLceForNvlinkPeers_GB100; } // default else { pThis->__kceMapPceLceForNvlinkPeers__ = &kceMapPceLceForNvlinkPeers_46f6a7; } // kceGetSysmemSupportedLceMask -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceGetSysmemSupportedLceMask__ = &kceGetSysmemSupportedLceMask_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xe1f0f800UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c06UL) )) /* ChipHal: GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 | GB100 | GB102 | GB10B | GB110 | GB112 | GB20B | GB20C */ { pThis->__kceGetSysmemSupportedLceMask__ = &kceGetSysmemSupportedLceMask_GA102; } else { pThis->__kceGetSysmemSupportedLceMask__ = &kceGetSysmemSupportedLceMask_4a4dee; } // kceMapAsyncLceDefault -- halified (7 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GH100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x80000000UL) )) /* ChipHal: GB10B */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GB10B; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000c00UL) )) /* ChipHal: GB20B | GB20C */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GB20B; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GB202; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x01f0fc00UL) )) /* ChipHal: GA100 | GA102 | GA103 | GA104 | GA106 | GA107 | AD102 | AD103 | AD104 | AD106 | AD107 */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x60000000UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000006UL) )) /* ChipHal: GB100 | GB102 | GB110 | GB112 */ { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_GB100; } else { pThis->__kceMapAsyncLceDefault__ = &kceMapAsyncLceDefault_46f6a7; } // kceGetNvlinkPeerSupportedLceMask -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | T234D | T264D */ { pThis->__kceGetNvlinkPeerSupportedLceMask__ = &kceGetNvlinkPeerSupportedLceMask_4a4dee; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0xf0000400UL) ) || ( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e6UL) )) /* ChipHal: GA100 | GH100 | GB100 | GB102 | GB10B | GB110 | GB112 | GB202 | GB203 | GB205 | GB206 | GB207 */ { pThis->__kceGetNvlinkPeerSupportedLceMask__ = &kceGetNvlinkPeerSupportedLceMask_GA100; } else { pThis->__kceGetNvlinkPeerSupportedLceMask__ = &kceGetNvlinkPeerSupportedLceMask_GA102; } // kceGetGrceSupportedLceMask -- halified (4 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceGetGrceSupportedLceMask__ = &kceGetGrceSupportedLceMask_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetGrceSupportedLceMask__ = &kceGetGrceSupportedLceMask_GB202; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) ) || ( ((chipHal_HalVarIdx >> 5) == 3UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x0000a000UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 | T234D | T264D */ { pThis->__kceGetGrceSupportedLceMask__ = &kceGetGrceSupportedLceMask_4a4dee; } else { pThis->__kceGetGrceSupportedLceMask__ = &kceGetGrceSupportedLceMask_GA102; } // kceIsGenXorHigherSupported -- halified (3 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceIsGenXorHigherSupported__ = &kceIsGenXorHigherSupported_GA100; } else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ { pThis->__kceIsGenXorHigherSupported__ = &kceIsGenXorHigherSupported_GH100; } else { pThis->__kceIsGenXorHigherSupported__ = &kceIsGenXorHigherSupported_88bc07; } // kceApplyGen4orHigherMapping -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000400UL) )) /* ChipHal: GA100 */ { pThis->__kceApplyGen4orHigherMapping__ = &kceApplyGen4orHigherMapping_GA100; } else { pThis->__kceApplyGen4orHigherMapping__ = &kceApplyGen4orHigherMapping_b3696a; } // kceGetGrceMaskReg -- halified (2 hals) body if (( ((chipHal_HalVarIdx >> 5) == 2UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x00000fe0UL) )) /* ChipHal: GB202 | GB203 | GB205 | GB206 | GB207 | GB20B | GB20C */ { pThis->__kceGetGrceMaskReg__ = &kceGetGrceMaskReg_GB202; } // default else { pThis->__kceGetGrceMaskReg__ = &kceGetGrceMaskReg_46f6a7; } } // End __nvoc_init_funcTable_KernelCE_1 with approximately 120 basic block(s). // Initialize vtable(s) for 54 virtual method(s). void __nvoc_init_funcTable_KernelCE(KernelCE *pThis, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner) { // Initialize vtable(s) with 39 per-object function pointer(s). __nvoc_init_funcTable_KernelCE_1(pThis, pGpuhalspecowner, pRmhalspecowner); } NvBool kceIsDecompLce_STATIC_DISPATCH(OBJGPU *pGpu, NvU32 lceIndex) { RmVariantHal *rmVariantHal = &staticCast(pGpu, RmHalspecOwner)->rmVariantHal; const unsigned long rmVariantHal_HalVarIdx = (unsigned long)rmVariantHal->__nvoc_HalVarIdx; if (( ((rmVariantHal_HalVarIdx >> 5) == 0UL) && ((1UL << (rmVariantHal_HalVarIdx & 0x1f)) & 0x00000001UL) )) /* RmVariantHal: VF */ { return kceIsDecompLce_VF(pGpu, lceIndex); } else { return kceIsDecompLce_IMPL(pGpu, lceIndex); } NV_ASSERT_FAILED("No hal impl found for kceIsDecompLce"); return NV_FALSE; } // Initialize newly constructed object. void __nvoc_init__KernelCE(KernelCE *pThis, GpuHalspecOwner *pGpuhalspecowner, RmHalspecOwner *pRmhalspecowner) { // Initialize pointers to inherited data. pThis->__nvoc_pbase_Object = &pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object; // (obj) super^2 pThis->__nvoc_pbase_OBJENGSTATE = &pThis->__nvoc_base_OBJENGSTATE; // (engstate) super pThis->__nvoc_pbase_IntrService = &pThis->__nvoc_base_IntrService; // (intrserv) super pThis->__nvoc_pbase_KernelCE = pThis; // (kce) this // Recurse to superclass initialization function(s). __nvoc_init__OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE); __nvoc_init__IntrService(&pThis->__nvoc_base_IntrService); // Pointer(s) to metadata structures(s) pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object.__nvoc_metadata_ptr = &__nvoc_metadata__KernelCE.metadata__OBJENGSTATE.metadata__Object; // (obj) super^2 pThis->__nvoc_base_OBJENGSTATE.__nvoc_metadata_ptr = &__nvoc_metadata__KernelCE.metadata__OBJENGSTATE; // (engstate) super pThis->__nvoc_base_IntrService.__nvoc_metadata_ptr = &__nvoc_metadata__KernelCE.metadata__IntrService; // (intrserv) super pThis->__nvoc_metadata_ptr = &__nvoc_metadata__KernelCE; // (kce) this // Initialize per-object vtables. __nvoc_init_funcTable_KernelCE(pThis, pGpuhalspecowner, pRmhalspecowner); } NV_STATUS __nvoc_objCreate_KernelCE(KernelCE **ppThis, Dynamic *pParent, NvU32 createFlags) { NV_STATUS status; Object *pParentObj = NULL; KernelCE *pThis; GpuHalspecOwner *pGpuhalspecowner; RmHalspecOwner *pRmhalspecowner; // Don't allocate memory if the caller has already done so. if (createFlags & NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT) { NV_CHECK_OR_RETURN(LEVEL_ERROR, ppThis != NULL && *ppThis != NULL, NV_ERR_INVALID_PARAMETER); pThis = *ppThis; } // Allocate memory else { pThis = portMemAllocNonPaged(sizeof(KernelCE)); NV_CHECK_OR_RETURN(LEVEL_ERROR, pThis != NULL, NV_ERR_NO_MEMORY); } // Zero is the initial value for everything. portMemSet(pThis, 0, sizeof(KernelCE)); pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object.createFlags = createFlags; // pParent must be a valid object that derives from a halspec owner class. NV_CHECK_TRUE_OR_GOTO(status, LEVEL_ERROR, pParent != NULL, NV_ERR_INVALID_ARGUMENT, __nvoc_objCreate_KernelCE_cleanup); // Link the child into the parent unless flagged not to do so. if (!(createFlags & NVOC_OBJ_CREATE_FLAGS_PARENT_HALSPEC_ONLY)) { pParentObj = dynamicCast(pParent, Object); objAddChild(pParentObj, &pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object); } else { pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object.pParent = NULL; } // HALs are defined by the parent or the first super class. if ((pGpuhalspecowner = dynamicCast(pParent, GpuHalspecOwner)) == NULL) pGpuhalspecowner = objFindAncestorOfType(GpuHalspecOwner, pParent); NV_CHECK_TRUE_OR_GOTO(status, LEVEL_ERROR, pGpuhalspecowner != NULL, NV_ERR_INVALID_ARGUMENT, __nvoc_objCreate_KernelCE_cleanup); if ((pRmhalspecowner = dynamicCast(pParent, RmHalspecOwner)) == NULL) pRmhalspecowner = objFindAncestorOfType(RmHalspecOwner, pParent); NV_CHECK_TRUE_OR_GOTO(status, LEVEL_ERROR, pRmhalspecowner != NULL, NV_ERR_INVALID_ARGUMENT, __nvoc_objCreate_KernelCE_cleanup); // Initialize vtable, RTTI, etc., then call constructor. __nvoc_init__KernelCE(pThis, pGpuhalspecowner, pRmhalspecowner); status = __nvoc_ctor_KernelCE(pThis, pGpuhalspecowner, pRmhalspecowner); if (status != NV_OK) goto __nvoc_objCreate_KernelCE_cleanup; // Assignment has no effect if NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT is set. *ppThis = pThis; // Success return NV_OK; // Do not call destructors here since the constructor already called them. __nvoc_objCreate_KernelCE_cleanup: // Unlink the child from the parent if it was linked above. if (pParentObj != NULL) objRemoveChild(pParentObj, &pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object); // Zero out memory that was allocated by caller. if (createFlags & NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT) portMemSet(pThis, 0, sizeof(KernelCE)); // Free memory allocated by `__nvoc_handleObjCreateMemAlloc`. else { portMemFree(pThis); *ppThis = NULL; } // Failure return status; } NV_STATUS __nvoc_objCreateDynamic_KernelCE(KernelCE **ppThis, Dynamic *pParent, NvU32 createFlags, va_list args) { NV_STATUS status; status = __nvoc_objCreate_KernelCE(ppThis, pParent, createFlags); return status; }