open-gpu-kernel-modules/src/nvidia/generated/g_kernel_mc_nvoc.c

#define NVOC_KERNEL_MC_H_PRIVATE_ACCESS_ALLOWED
#include "nvoc/runtime.h"
#include "nvoc/rtti.h"
#include "nvtypes.h"
#include "nvport/nvport.h"
#include "nvport/inline/util_valist.h"
#include "utils/nvassert.h"
#include "g_kernel_mc_nvoc.h"

#ifdef DEBUG
char __nvoc_class_id_uniqueness_check_0x3827ff = 1;
#endif

extern const struct NVOC_CLASS_DEF __nvoc_class_def_KernelMc;

extern const struct NVOC_CLASS_DEF __nvoc_class_def_Object;

extern const struct NVOC_CLASS_DEF __nvoc_class_def_OBJENGSTATE;

void __nvoc_init_KernelMc(KernelMc*, RmHalspecOwner* );
void __nvoc_init_funcTable_KernelMc(KernelMc*, RmHalspecOwner* );
NV_STATUS __nvoc_ctor_KernelMc(KernelMc*, RmHalspecOwner* );
void __nvoc_init_dataField_KernelMc(KernelMc*, RmHalspecOwner* );
void __nvoc_dtor_KernelMc(KernelMc*);
extern const struct NVOC_EXPORT_INFO __nvoc_export_info_KernelMc;

static const struct NVOC_RTTI __nvoc_rtti_KernelMc_KernelMc = {
    /*pClassDef=*/          &__nvoc_class_def_KernelMc,
    /*dtor=*/               (NVOC_DYNAMIC_DTOR) &__nvoc_dtor_KernelMc,
    /*offset=*/             0,
};

static const struct NVOC_RTTI __nvoc_rtti_KernelMc_Object = {
    /*pClassDef=*/          &__nvoc_class_def_Object,
    /*dtor=*/               &__nvoc_destructFromBase,
    /*offset=*/             NV_OFFSETOF(KernelMc, __nvoc_base_OBJENGSTATE.__nvoc_base_Object),
};

static const struct NVOC_RTTI __nvoc_rtti_KernelMc_OBJENGSTATE = {
    /*pClassDef=*/          &__nvoc_class_def_OBJENGSTATE,
    /*dtor=*/               &__nvoc_destructFromBase,
    /*offset=*/             NV_OFFSETOF(KernelMc, __nvoc_base_OBJENGSTATE),
};

static const struct NVOC_CASTINFO __nvoc_castinfo_KernelMc = {
    /*numRelatives=*/       3,
    /*relatives=*/ {
        &__nvoc_rtti_KernelMc_KernelMc,
        &__nvoc_rtti_KernelMc_OBJENGSTATE,
        &__nvoc_rtti_KernelMc_Object,
    },
};

const struct NVOC_CLASS_DEF __nvoc_class_def_KernelMc = 
{
    /*classInfo=*/ {
        /*size=*/               sizeof(KernelMc),
        /*classId=*/            classId(KernelMc),
        /*providerId=*/         &__nvoc_rtti_provider,
#if NV_PRINTF_STRINGS_ALLOWED
        /*name=*/               "KernelMc",
#endif
    },
    /*objCreatefn=*/        (NVOC_DYNAMIC_OBJ_CREATE) &__nvoc_objCreateDynamic_KernelMc,
    /*pCastInfo=*/          &__nvoc_castinfo_KernelMc,
    /*pExportInfo=*/        &__nvoc_export_info_KernelMc
};

// 2 down-thunk(s) defined to bridge methods in KernelMc from superclasses

// kmcStateInitLocked: virtual override (engstate) base (engstate)
static NV_STATUS __nvoc_down_thunk_KernelMc_engstateStateInitLocked(struct OBJGPU *pGpu, struct OBJENGSTATE *pKernelMc) {
    return kmcStateInitLocked(pGpu, (struct KernelMc *)(((unsigned char *) pKernelMc) - __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcStateLoad: virtual override (engstate) base (engstate)
static NV_STATUS __nvoc_down_thunk_KernelMc_engstateStateLoad(struct OBJGPU *pGpu, struct OBJENGSTATE *pKernelMc, NvU32 arg3) {
    return kmcStateLoad(pGpu, (struct KernelMc *)(((unsigned char *) pKernelMc) - __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}


// 12 up-thunk(s) defined to bridge methods in KernelMc to superclasses

// kmcConstructEngine: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcConstructEngine(POBJGPU pGpu, struct KernelMc *pEngstate, ENGDESCRIPTOR arg3) {
    return engstateConstructEngine(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcInitMissing: virtual inherited (engstate) base (engstate)
static void __nvoc_up_thunk_OBJENGSTATE_kmcInitMissing(POBJGPU pGpu, struct KernelMc *pEngstate) {
    engstateInitMissing(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcStatePreInitLocked: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePreInitLocked(POBJGPU pGpu, struct KernelMc *pEngstate) {
    return engstateStatePreInitLocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcStatePreInitUnlocked: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePreInitUnlocked(POBJGPU pGpu, struct KernelMc *pEngstate) {
    return engstateStatePreInitUnlocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcStateInitUnlocked: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStateInitUnlocked(POBJGPU pGpu, struct KernelMc *pEngstate) {
    return engstateStateInitUnlocked(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcStatePreLoad: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePreLoad(POBJGPU pGpu, struct KernelMc *pEngstate, NvU32 arg3) {
    return engstateStatePreLoad(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcStatePostLoad: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePostLoad(POBJGPU pGpu, struct KernelMc *pEngstate, NvU32 arg3) {
    return engstateStatePostLoad(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcStatePreUnload: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePreUnload(POBJGPU pGpu, struct KernelMc *pEngstate, NvU32 arg3) {
    return engstateStatePreUnload(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcStateUnload: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStateUnload(POBJGPU pGpu, struct KernelMc *pEngstate, NvU32 arg3) {
    return engstateStateUnload(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcStatePostUnload: virtual inherited (engstate) base (engstate)
static NV_STATUS __nvoc_up_thunk_OBJENGSTATE_kmcStatePostUnload(POBJGPU pGpu, struct KernelMc *pEngstate, NvU32 arg3) {
    return engstateStatePostUnload(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset), arg3);
}

// kmcStateDestroy: virtual inherited (engstate) base (engstate)
static void __nvoc_up_thunk_OBJENGSTATE_kmcStateDestroy(POBJGPU pGpu, struct KernelMc *pEngstate) {
    engstateStateDestroy(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}

// kmcIsPresent: virtual inherited (engstate) base (engstate)
static NvBool __nvoc_up_thunk_OBJENGSTATE_kmcIsPresent(POBJGPU pGpu, struct KernelMc *pEngstate) {
    return engstateIsPresent(pGpu, (struct OBJENGSTATE *)(((unsigned char *) pEngstate) + __nvoc_rtti_KernelMc_OBJENGSTATE.offset));
}


const struct NVOC_EXPORT_INFO __nvoc_export_info_KernelMc = 
{
    /*numEntries=*/     0,
    /*pExportEntries=*/  0
};

void __nvoc_dtor_OBJENGSTATE(OBJENGSTATE*);
void __nvoc_dtor_KernelMc(KernelMc *pThis) {
    __nvoc_dtor_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE);
    PORT_UNREFERENCED_VARIABLE(pThis);
}

void __nvoc_init_dataField_KernelMc(KernelMc *pThis, RmHalspecOwner *pRmhalspecowner) {
    ChipHal *chipHal = &pRmhalspecowner->chipHal;
    const unsigned long chipHal_HalVarIdx = (unsigned long)chipHal->__nvoc_HalVarIdx;
    PORT_UNREFERENCED_VARIABLE(pThis);
    PORT_UNREFERENCED_VARIABLE(pRmhalspecowner);
    PORT_UNREFERENCED_VARIABLE(chipHal);
    PORT_UNREFERENCED_VARIABLE(chipHal_HalVarIdx);
}

NV_STATUS __nvoc_ctor_OBJENGSTATE(OBJENGSTATE* );
NV_STATUS __nvoc_ctor_KernelMc(KernelMc *pThis, RmHalspecOwner *pRmhalspecowner) {
    NV_STATUS status = NV_OK;
    status = __nvoc_ctor_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE);
    if (status != NV_OK) goto __nvoc_ctor_KernelMc_fail_OBJENGSTATE;
    __nvoc_init_dataField_KernelMc(pThis, pRmhalspecowner);
    goto __nvoc_ctor_KernelMc_exit; // Success

__nvoc_ctor_KernelMc_fail_OBJENGSTATE:
__nvoc_ctor_KernelMc_exit:

    return status;
}

// Vtable initialization
static void __nvoc_init_funcTable_KernelMc_1(KernelMc *pThis, RmHalspecOwner *pRmhalspecowner) {
    ChipHal *chipHal = &pRmhalspecowner->chipHal;
    const unsigned long chipHal_HalVarIdx = (unsigned long)chipHal->__nvoc_HalVarIdx;
    PORT_UNREFERENCED_VARIABLE(pThis);
    PORT_UNREFERENCED_VARIABLE(pRmhalspecowner);
    PORT_UNREFERENCED_VARIABLE(chipHal);
    PORT_UNREFERENCED_VARIABLE(chipHal_HalVarIdx);

    // kmcStateInitLocked -- virtual override (engstate) base (engstate)
    pThis->__kmcStateInitLocked__ = &kmcStateInitLocked_IMPL;
    pThis->__nvoc_base_OBJENGSTATE.__engstateStateInitLocked__ = &__nvoc_down_thunk_KernelMc_engstateStateInitLocked;

    // kmcStateLoad -- virtual override (engstate) base (engstate)
    pThis->__kmcStateLoad__ = &kmcStateLoad_IMPL;
    pThis->__nvoc_base_OBJENGSTATE.__engstateStateLoad__ = &__nvoc_down_thunk_KernelMc_engstateStateLoad;

    // kmcWritePmcEnableReg -- halified (3 hals) body
    if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ 
    {
        pThis->__kmcWritePmcEnableReg__ = &kmcWritePmcEnableReg_GH100;
    }
    else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 */ 
    {
        pThis->__kmcWritePmcEnableReg__ = &kmcWritePmcEnableReg_GM107;
    }
    else
    {
        pThis->__kmcWritePmcEnableReg__ = &kmcWritePmcEnableReg_GA100;
    }

    // kmcReadPmcEnableReg -- halified (3 hals) body
    if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x10000000UL) )) /* ChipHal: GH100 */ 
    {
        pThis->__kmcReadPmcEnableReg__ = &kmcReadPmcEnableReg_GH100;
    }
    else if (( ((chipHal_HalVarIdx >> 5) == 1UL) && ((1UL << (chipHal_HalVarIdx & 0x1f)) & 0x000003e0UL) )) /* ChipHal: TU102 | TU104 | TU106 | TU116 | TU117 */ 
    {
        pThis->__kmcReadPmcEnableReg__ = &kmcReadPmcEnableReg_GM107;
    }
    else
    {
        pThis->__kmcReadPmcEnableReg__ = &kmcReadPmcEnableReg_GA100;
    }

    // kmcConstructEngine -- virtual inherited (engstate) base (engstate)
    pThis->__kmcConstructEngine__ = &__nvoc_up_thunk_OBJENGSTATE_kmcConstructEngine;

    // kmcInitMissing -- virtual inherited (engstate) base (engstate)
    pThis->__kmcInitMissing__ = &__nvoc_up_thunk_OBJENGSTATE_kmcInitMissing;

    // kmcStatePreInitLocked -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePreInitLocked__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePreInitLocked;

    // kmcStatePreInitUnlocked -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePreInitUnlocked__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePreInitUnlocked;

    // kmcStateInitUnlocked -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStateInitUnlocked__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStateInitUnlocked;

    // kmcStatePreLoad -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePreLoad__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePreLoad;

    // kmcStatePostLoad -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePostLoad__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePostLoad;

    // kmcStatePreUnload -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePreUnload__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePreUnload;

    // kmcStateUnload -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStateUnload__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStateUnload;

    // kmcStatePostUnload -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStatePostUnload__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStatePostUnload;

    // kmcStateDestroy -- virtual inherited (engstate) base (engstate)
    pThis->__kmcStateDestroy__ = &__nvoc_up_thunk_OBJENGSTATE_kmcStateDestroy;

    // kmcIsPresent -- virtual inherited (engstate) base (engstate)
    pThis->__kmcIsPresent__ = &__nvoc_up_thunk_OBJENGSTATE_kmcIsPresent;
} // End __nvoc_init_funcTable_KernelMc_1 with approximately 22 basic block(s).


// Initialize vtable(s) for 16 virtual method(s).
void __nvoc_init_funcTable_KernelMc(KernelMc *pThis, RmHalspecOwner *pRmhalspecowner) {

    // Initialize vtable(s) with 16 per-object function pointer(s).
    __nvoc_init_funcTable_KernelMc_1(pThis, pRmhalspecowner);
}

void __nvoc_init_OBJENGSTATE(OBJENGSTATE*);
void __nvoc_init_KernelMc(KernelMc *pThis, RmHalspecOwner *pRmhalspecowner) {
    pThis->__nvoc_pbase_KernelMc = pThis;
    pThis->__nvoc_pbase_Object = &pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object;
    pThis->__nvoc_pbase_OBJENGSTATE = &pThis->__nvoc_base_OBJENGSTATE;
    __nvoc_init_OBJENGSTATE(&pThis->__nvoc_base_OBJENGSTATE);
    __nvoc_init_funcTable_KernelMc(pThis, pRmhalspecowner);
}

NV_STATUS __nvoc_objCreate_KernelMc(KernelMc **ppThis, Dynamic *pParent, NvU32 createFlags)
{
    NV_STATUS status;
    Object *pParentObj = NULL;
    KernelMc *pThis;
    RmHalspecOwner *pRmhalspecowner;

    // Assign `pThis`, allocating memory unless suppressed by flag.
    status = __nvoc_handleObjCreateMemAlloc(createFlags, sizeof(KernelMc), (void**)&pThis, (void**)ppThis);
    if (status != NV_OK)
        return status;

    // Zero is the initial value for everything.
    portMemSet(pThis, 0, sizeof(KernelMc));

    // Initialize runtime type information.
    __nvoc_initRtti(staticCast(pThis, Dynamic), &__nvoc_class_def_KernelMc);

    pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object.createFlags = createFlags;

    // pParent must be a valid object that derives from a halspec owner class.
    NV_ASSERT_OR_RETURN(pParent != NULL, NV_ERR_INVALID_ARGUMENT);

    // 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;
    }

    if ((pRmhalspecowner = dynamicCast(pParent, RmHalspecOwner)) == NULL)
        pRmhalspecowner = objFindAncestorOfType(RmHalspecOwner, pParent);
    NV_ASSERT_OR_RETURN(pRmhalspecowner != NULL, NV_ERR_INVALID_ARGUMENT);

    __nvoc_init_KernelMc(pThis, pRmhalspecowner);
    status = __nvoc_ctor_KernelMc(pThis, pRmhalspecowner);
    if (status != NV_OK) goto __nvoc_objCreate_KernelMc_cleanup;

    // Assignment has no effect if NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT is set.
    *ppThis = pThis;

    return NV_OK;

__nvoc_objCreate_KernelMc_cleanup:

    // Unlink the child from the parent if it was linked above.
    if (pParentObj != NULL)
        objRemoveChild(pParentObj, &pThis->__nvoc_base_OBJENGSTATE.__nvoc_base_Object);

    // Do not call destructors here since the constructor already called them.
    if (createFlags & NVOC_OBJ_CREATE_FLAGS_IN_PLACE_CONSTRUCT)
        portMemSet(pThis, 0, sizeof(KernelMc));
    else
    {
        portMemFree(pThis);
        *ppThis = NULL;
    }

    // coverity[leaked_storage:FALSE]
    return status;
}

NV_STATUS __nvoc_objCreateDynamic_KernelMc(KernelMc **ppThis, Dynamic *pParent, NvU32 createFlags, va_list args) {
    NV_STATUS status;

    status = __nvoc_objCreate_KernelMc(ppThis, pParent, createFlags);

    return status;
}