summaryrefslogtreecommitdiff
path: root/src/vm/method.cpp
blob: d903c9026a390d8032e63afaa6bd02c5cedf605b (plain)
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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
// ===========================================================================
// File: Method.CPP
//

// 
// See the book of the runtime entry for overall design:
// file:../../doc/BookOfTheRuntime/ClassLoader/MethodDescDesign.doc
//


#include "common.h"
#include "excep.h"
#include "dbginterface.h"
#include "ecall.h"
#include "eeconfig.h"
#include "mlinfo.h"
#include "dllimport.h"
#include "generics.h"
#include "genericdict.h"
#include "typedesc.h"
#include "typestring.h"
#include "virtualcallstub.h"
#include "jitinterface.h"
#include "runtimehandles.h"
#include "eventtrace.h"
#include "interoputil.h"
#include "prettyprintsig.h"
#include "formattype.h"

#ifdef FEATURE_PREJIT
#include "compile.h"
#endif

#ifdef FEATURE_COMINTEROP
#include "comcallablewrapper.h"
#include "clrtocomcall.h"
#endif

#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable:4244)
#endif // _MSC_VER

#ifdef FEATURE_MINIMETADATA_IN_TRIAGEDUMPS
GVAL_IMPL(DWORD, g_MiniMetaDataBuffMaxSize);
GVAL_IMPL(TADDR, g_MiniMetaDataBuffAddress);
#endif // FEATURE_MINIMETADATA_IN_TRIAGEDUMPS

// forward decl
bool FixupSignatureContainingInternalTypes(
    DataImage *     image, 
    PCCOR_SIGNATURE pSig, 
    DWORD           cSig, 
    bool checkOnly = false);

// Alias ComPlusCallMethodDesc to regular MethodDesc to simplify definition of the size table
#ifndef FEATURE_COMINTEROP
#define ComPlusCallMethodDesc MethodDesc
#endif

// Verify that the structure sizes of our MethodDescs support proper
// aligning for atomic stub replacement.
//
static_assert_no_msg((sizeof(MethodDescChunk)       & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(MethodDesc)            & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(FCallMethodDesc)       & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(NDirectMethodDesc)     & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(EEImplMethodDesc)      & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(ArrayMethodDesc)       & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(ComPlusCallMethodDesc) & MethodDesc::ALIGNMENT_MASK) == 0);
static_assert_no_msg((sizeof(DynamicMethodDesc)     & MethodDesc::ALIGNMENT_MASK) == 0);

#define METHOD_DESC_SIZES(adjustment)                                       \
    adjustment + sizeof(MethodDesc),                 /* mcIL            */  \
    adjustment + sizeof(FCallMethodDesc),            /* mcFCall         */  \
    adjustment + sizeof(NDirectMethodDesc),          /* mcNDirect       */  \
    adjustment + sizeof(EEImplMethodDesc),           /* mcEEImpl        */  \
    adjustment + sizeof(ArrayMethodDesc),            /* mcArray         */  \
    adjustment + sizeof(InstantiatedMethodDesc),     /* mcInstantiated  */  \
    adjustment + sizeof(ComPlusCallMethodDesc),      /* mcComInterOp    */  \
    adjustment + sizeof(DynamicMethodDesc)           /* mcDynamic       */

const SIZE_T MethodDesc::s_ClassificationSizeTable[] = {
    // This is the raw
    METHOD_DESC_SIZES(0),

    // This extended part of the table is used for faster MethodDesc size lookup.
    // We index using optional slot flags into it
    METHOD_DESC_SIZES(sizeof(NonVtableSlot)),
    METHOD_DESC_SIZES(sizeof(MethodImpl)),
    METHOD_DESC_SIZES(sizeof(NonVtableSlot) + sizeof(MethodImpl))
};

#ifndef FEATURE_COMINTEROP
#undef ComPlusCallMethodDesc
#endif

class ArgIteratorBaseForPInvoke : public ArgIteratorBase
{
protected:
    FORCEINLINE BOOL IsRegPassedStruct(MethodTable* pMT)
    {
        return pMT->GetLayoutInfo()->IsNativeStructPassedInRegisters();
    }
};

class PInvokeArgIterator : public ArgIteratorTemplate<ArgIteratorBaseForPInvoke>
{
public:
    PInvokeArgIterator(MetaSig* pSig)
    {
        m_pSig = pSig;
    }
};


//*******************************************************************************
SIZE_T MethodDesc::SizeOf()
{
    LIMITED_METHOD_DAC_CONTRACT;

    SIZE_T size = s_ClassificationSizeTable[m_wFlags & (mdcClassification | mdcHasNonVtableSlot | mdcMethodImpl)];

    if (HasNativeCodeSlot())
    {
        size += (*dac_cast<PTR_TADDR>(dac_cast<TADDR>(this) + size) & FIXUP_LIST_MASK) ?
            (sizeof(NativeCodeSlot) + sizeof(FixupListSlot)) : sizeof(NativeCodeSlot);
    }

#ifdef FEATURE_COMINTEROP
    if (IsGenericComPlusCall())
        size += sizeof(ComPlusCallInfo);
#endif // FEATURE_COMINTEROP

    return size;
}

/*********************************************************************/
#ifndef DACCESS_COMPILE
BOOL NDirectMethodDesc::HasDefaultDllImportSearchPathsAttribute()
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    if(IsDefaultDllImportSearchPathsAttributeCached())
    {
        return (ndirect.m_wFlags  & kDefaultDllImportSearchPathsStatus) != 0;
    }

    _ASSERTE(!IsZapped());

    BOOL attributeIsFound = GetDefaultDllImportSearchPathsAttributeValue(GetModule(),GetMemberDef(),&ndirect.m_DefaultDllImportSearchPathsAttributeValue);

    if(attributeIsFound )
    {
        InterlockedSetNDirectFlags(kDefaultDllImportSearchPathsIsCached | kDefaultDllImportSearchPathsStatus);
    }
    else
    {
        InterlockedSetNDirectFlags(kDefaultDllImportSearchPathsIsCached);
    }

    return (ndirect.m_wFlags  & kDefaultDllImportSearchPathsStatus) != 0;
}
#endif //!DACCESS_COMPILE

//*******************************************************************************
#ifndef DACCESS_COMPILE
VOID MethodDesc::EnsureActive()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
    }
    CONTRACTL_END;
    GetMethodTable()->EnsureInstanceActive();
    if (HasMethodInstantiation() && !IsGenericMethodDefinition())
    {
        Instantiation methodInst = GetMethodInstantiation();
        for (DWORD i = 0; i < methodInst.GetNumArgs(); ++i)
        {
            MethodTable * pMT = methodInst[i].GetMethodTable();
            if (pMT)
                pMT->EnsureInstanceActive();
        }
    }
}
#endif //!DACCESS_COMPILE

//*******************************************************************************
CHECK MethodDesc::CheckActivated()
{
    WRAPPER_NO_CONTRACT;
    CHECK(GetModule()->CheckActivated());
    CHECK_OK;
}

//*******************************************************************************
BaseDomain *MethodDesc::GetDomain()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END

    return AppDomain::GetCurrentDomain();
}

#ifndef DACCESS_COMPILE

//*******************************************************************************
LoaderAllocator * MethodDesc::GetDomainSpecificLoaderAllocator()
{
    if (GetLoaderModule()->IsCollectible())
    {
        return GetLoaderAllocator();
    }
    else
    {
        return ::GetAppDomain()->GetLoaderAllocator();
    }

}

#endif //!DACCESS_COMPILE

//*******************************************************************************
LPCUTF8 MethodDesc::GetName(USHORT slot)
{
    // MethodDesc::GetDeclMethodDesc can throw.
    WRAPPER_NO_CONTRACT;
    MethodDesc *pDeclMD = GetDeclMethodDesc((UINT32)slot);
    CONSISTENCY_CHECK(IsInterface() || !pDeclMD->IsInterface());
    return pDeclMD->GetName();
}

//*******************************************************************************
LPCUTF8 MethodDesc::GetName()
{
    CONTRACTL
    {
        if (FORBIDGC_LOADER_USE_ENABLED()) NOTHROW; else THROWS; // MethodImpl::FindMethodDesc can throw.
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }CONTRACTL_END;

    g_IBCLogger.LogMethodDescAccess(this);

    if (IsArray())
    {
        // Array classes don't have metadata tokens
        return dac_cast<PTR_ArrayMethodDesc>(this)->GetMethodName();
    }
    else if (IsNoMetadata())
    {
        // LCG methods don't have metadata tokens
        return dac_cast<PTR_DynamicMethodDesc>(this)->GetMethodName();
    }
    else
    {
        // Get the metadata string name for this method
        LPCUTF8 result = NULL;

        if (FAILED(GetMDImport()->GetNameOfMethodDef(GetMemberDef(), &result)))
        {
            result = NULL;
        }

        return(result);
    }
}

#ifndef DACCESS_COMPILE
/*
 * Function to get a method's name, its namespace
 */
VOID MethodDesc::GetMethodInfoNoSig(SString &namespaceOrClassName, SString &methodName)
{
    static LPCWSTR pDynamicClassName = W("dynamicClass");

    // namespace
    if(IsDynamicMethod())
        namespaceOrClassName.Append(pDynamicClassName);
    else
        TypeString::AppendType(namespaceOrClassName, TypeHandle(GetMethodTable()));

    // name
    methodName.AppendUTF8(GetName());
}

/*
 * Function to get a method's name, its namespace and signature (legacy format)
 */
VOID MethodDesc::GetMethodInfo(SString &namespaceOrClassName, SString &methodName, SString &methodSignature)
{
    GetMethodInfoNoSig(namespaceOrClassName, methodName);

    // signature
    CQuickBytes qbOut;
    ULONG cSig = 0;
    PCCOR_SIGNATURE pSig;
    
    GetSig(&pSig, &cSig);
    PrettyPrintSigInternalLegacy(pSig, cSig, " ", &qbOut, GetMDImport());
    methodSignature.AppendUTF8((char *)qbOut.Ptr());
}

/*
 * Function to get a method's name, its namespace and signature (new format)
 */
VOID MethodDesc::GetMethodInfoWithNewSig(SString &namespaceOrClassName, SString &methodName, SString &methodSignature)
{
    GetMethodInfoNoSig(namespaceOrClassName, methodName);

    // signature
    CQuickBytes qbOut;
    ULONG cSig = 0;
    PCCOR_SIGNATURE pSig;
    
    GetSig(&pSig, &cSig);
    PrettyPrintSig(pSig, (DWORD)cSig, "", &qbOut, GetMDImport(), NULL);
    methodSignature.AppendUTF8((char *)qbOut.Ptr());    
}

/*
 * Function to get a method's full name, something like 
 * void [mscorlib]System.StubHelpers.BSTRMarshaler::ClearNative(native int) 
 */
VOID MethodDesc::GetFullMethodInfo(SString& fullMethodSigName)
{   
    SString namespaceOrClassName, methodName;
    GetMethodInfoNoSig(namespaceOrClassName, methodName);

    // signature
    CQuickBytes qbOut;
    ULONG cSig = 0;
    PCCOR_SIGNATURE pSig;

    SString methodFullName;
    StackScratchBuffer namespaceNameBuffer, methodNameBuffer;
    methodFullName.AppendPrintf(
        (LPCUTF8)"[%s] %s::%s", 
        GetModule()->GetAssembly()->GetSimpleName(), 
        namespaceOrClassName.GetUTF8(namespaceNameBuffer), 
        methodName.GetUTF8(methodNameBuffer));
    
    GetSig(&pSig, &cSig);

    StackScratchBuffer buffer;
    PrettyPrintSig(pSig, (DWORD)cSig, methodFullName.GetUTF8(buffer), &qbOut, GetMDImport(), NULL);
    fullMethodSigName.AppendUTF8((char *)qbOut.Ptr());    
}

//*******************************************************************************
void MethodDesc::PrecomputeNameHash()
{
    CONTRACTL
    {
        STANDARD_VM_CHECK;
        PRECONDITION(IsCompilationProcess());
    }
    CONTRACTL_END;


    // We only have space for a name hash when we can use the packed slot layout
    if (RequiresFullSlotNumber())
    {
        return;
    }

    // Store a case-insensitive hash so that we can use this value for
    // both case-sensitive and case-insensitive name lookups
    SString name(SString::Utf8Literal, GetName());
    ULONG nameHashValue = (WORD) name.HashCaseInsensitive() & enum_packedSlotLayout_NameHashMask;

    // We expect to set the hash once during NGen and not overwrite any existing bits
    _ASSERTE((m_wSlotNumber & enum_packedSlotLayout_NameHashMask) == 0);

    m_wSlotNumber |= nameHashValue;
}
#endif

//*******************************************************************************
BOOL MethodDesc::MightHaveName(ULONG nameHashValue)
{
    LIMITED_METHOD_CONTRACT;

    // We only have space for a name hash when we are using the packed slot layout
    if (RequiresFullSlotNumber())
    {
        return TRUE;
    }

    WORD thisHashValue = m_wSlotNumber & enum_packedSlotLayout_NameHashMask;

    // A zero value might mean no hash has ever been set
    // (checking this way is better than dedicating a bit to tell us)
    if (thisHashValue == 0)
    {
        return TRUE;
    }

    WORD testHashValue = (WORD) nameHashValue & enum_packedSlotLayout_NameHashMask;

    return (thisHashValue == testHashValue);
}

//*******************************************************************************
void MethodDesc::GetSig(PCCOR_SIGNATURE *ppSig, DWORD *pcSig)
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END

    if (HasStoredSig())
    {
        PTR_StoredSigMethodDesc pSMD = dac_cast<PTR_StoredSigMethodDesc>(this);
        if (pSMD->HasStoredMethodSig() || GetClassification()==mcDynamic)
        {
            *ppSig = pSMD->GetStoredMethodSig(pcSig);
            PREFIX_ASSUME(*ppSig != NULL);

#if defined(FEATURE_PREJIT) && !defined(DACCESS_COMPILE)
            _ASSERTE_MSG((**ppSig & IMAGE_CEE_CS_CALLCONV_NEEDSRESTORE) == 0 || !IsILStub() || (strncmp(m_pszDebugMethodName,"IL_STUB_Array", 13)==0) ,
                         "CheckRestore must be called on IL stub MethodDesc");
#endif // FEATURE_PREJIT && !DACCESS_COMPILE
            return;
        }
    }

    GetSigFromMetadata(GetMDImport(), ppSig, pcSig);
    PREFIX_ASSUME(*ppSig != NULL);
}

//*******************************************************************************
// get a function signature from its metadata
// Arguments: 
//    input:
//        importer   the metatdata importer to be used
//    output:
//        ppSig      the function signature
//        pcSig      number of elements in the signature


void MethodDesc::GetSigFromMetadata(IMDInternalImport * importer, 
                                    PCCOR_SIGNATURE   * ppSig, 
                                    DWORD             * pcSig)
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END
    
    if (FAILED(importer->GetSigOfMethodDef(GetMemberDef(), pcSig, ppSig)))
    {   // Class loader already asked for signature, so this should always succeed (unless there's a 
        // bug or a new code path)
        _ASSERTE(!"If this ever fires, then this method should return HRESULT");
        *ppSig = NULL;
        *pcSig = 0;
    }
}

//*******************************************************************************
PCCOR_SIGNATURE MethodDesc::GetSig()
{
    WRAPPER_NO_CONTRACT;

    PCCOR_SIGNATURE pSig;
    DWORD           cSig;

    GetSig(&pSig, &cSig);

    PREFIX_ASSUME(pSig != NULL);

    return pSig;
}

Signature MethodDesc::GetSignature()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;

    PCCOR_SIGNATURE pSig;
    DWORD           cSig;

    GetSig(&pSig, &cSig);

    PREFIX_ASSUME(pSig != NULL);

    return Signature(pSig, cSig);
}

PCODE MethodDesc::GetMethodEntryPoint()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
        SUPPORTS_DAC;
    }
    CONTRACTL_END;

    // Similarly to SetMethodEntryPoint(), it is up to the caller to ensure that calls to this function are appropriately
    // synchronized

    // Keep implementations of MethodDesc::GetMethodEntryPoint and MethodDesc::GetAddrOfSlot in sync!

    g_IBCLogger.LogMethodDescAccess(this);

    if (HasNonVtableSlot())
    {
        SIZE_T size = GetBaseSize();

        TADDR pSlot = dac_cast<TADDR>(this) + size;

        return IsZapped() ? NonVtableSlot::GetValueAtPtr(pSlot) : *PTR_PCODE(pSlot);
    }

    _ASSERTE(GetMethodTable()->IsCanonicalMethodTable());
    return GetMethodTable_NoLogging()->GetSlot(GetSlot());
}

TADDR MethodDesc::GetAddrOfSlot()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
        SUPPORTS_DAC;
    }
    CONTRACTL_END;

    // Keep implementations of MethodDesc::GetMethodEntryPoint and MethodDesc::GetAddrOfSlot in sync!

    if (HasNonVtableSlot())
    {
        // Slots in NGened images are relative pointers
        _ASSERTE(!IsZapped());

        SIZE_T size = GetBaseSize();

        return dac_cast<TADDR>(this) + size;
    }

    _ASSERTE(GetMethodTable()->IsCanonicalMethodTable());
    return GetMethodTable()->GetSlotPtr(GetSlot());
}

//*******************************************************************************
PTR_MethodDesc MethodDesc::GetDeclMethodDesc(UINT32 slotNumber)
{
    CONTRACTL {
        WRAPPER(THROWS);
        WRAPPER(GC_TRIGGERS);
        INSTANCE_CHECK;
    } CONTRACTL_END;

    MethodDesc *pMDResult = this;

    // If the MethodDesc is not itself a methodImpl, but it is not in its native
    // slot, then someone (perhaps itself) must have overridden a methodImpl
    // in a parent, which causes the method to get put into all of the methodImpl
    // slots. So, the MethodDesc is implicitly a methodImpl without containing
    // the data. To find the real methodImpl MethodDesc, climb the inheritance
    // hierarchy checking the native slot on the way.
    if ((UINT32)pMDResult->GetSlot() != slotNumber)
    {
        while (!pMDResult->IsMethodImpl())
        {
            CONSISTENCY_CHECK(CheckPointer(pMDResult->GetMethodTable()->GetParentMethodTable()));
            CONSISTENCY_CHECK(slotNumber < pMDResult->GetMethodTable()->GetParentMethodTable()->GetNumVirtuals());
            pMDResult = pMDResult->GetMethodTable()->GetParentMethodTable()->GetMethodDescForSlot(slotNumber);
        }

        {
            CONSISTENCY_CHECK(pMDResult->IsMethodImpl());
            MethodImpl *pImpl = pMDResult->GetMethodImpl();
            pMDResult = pImpl->FindMethodDesc(slotNumber, PTR_MethodDesc(pMDResult));
        }

        // It is possible that a methodImpl'd slot got copied into another slot because
        // of slot unification, for example:
        //      C1::A is methodImpled with C2::B
        //      C1::B is methodImpled with C2::C
        // this means that through slot unification that A is tied to B and B is tied to C,
        // so A is tied to C even though C does not have a methodImpl entry specifically
        // relating to that slot. In this case, we recurse to the parent type and ask the
        // same question again.
        if (pMDResult->GetSlot() != slotNumber)
        {
            MethodTable * pMTOfMD = pMDResult->GetMethodTable();
            CONSISTENCY_CHECK(slotNumber < pMTOfMD->GetParentMethodTable()->GetNumVirtuals());
            pMDResult = pMTOfMD->GetParentMethodTable()->GetMethodDescForSlot(slotNumber);
            pMDResult = pMDResult->GetDeclMethodDesc(slotNumber);
        }
    }

    CONSISTENCY_CHECK(CheckPointer(pMDResult));
    CONSISTENCY_CHECK((UINT32)pMDResult->GetSlot() == slotNumber);
    return PTR_MethodDesc(pMDResult);
}

//*******************************************************************************
// Returns a hash for the method.
// The hash will be the same for the method across multiple process runs.
COUNT_T MethodDesc::GetStableHash()
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(IsRestored_NoLogging());
    DefineFullyQualifiedNameForClass();

    const char *  moduleName = GetModule()->GetSimpleName();
    const char *  className;
    const char *  methodName = GetName();

    if (IsLCGMethod())
    {
        className = "DynamicClass";
    }
    else if (IsILStub())
    {
        className = ILStubResolver::GetStubClassName(this);
    }
    else
    {
#if defined(_DEBUG) 
        // Calling _GetFullyQualifiedNameForClass in chk build is very expensive
        // since it construct the class name everytime we call this method. In chk
        // builds we already have a cheaper way to get the class name -
        // GetDebugClassName - which doesn't calculate the class name everytime.
        // This results in huge saving in Ngen time for checked builds. 
        className = m_pszDebugClassName;
#else // !_DEBUG
        // since this is for diagnostic purposes only,
        // give up on the namespace, as we don't have a buffer to concat it
        // also note this won't show array class names.
        LPCUTF8       nameSpace;
        MethodTable * pMT = GetMethodTable();

        className = pMT->GetFullyQualifiedNameInfo(&nameSpace);
#endif // !_DEBUG
    }

    COUNT_T hash = HashStringA(moduleName);             // Start the hash with the Module name            
    hash = HashCOUNT_T(hash, HashStringA(className));   // Hash in the name of the Class name
    hash = HashCOUNT_T(hash, HashStringA(methodName));  // Hash in the name of the Method name
   
    // Handle Generic Types and Generic Methods
    //
    if (HasClassInstantiation() && !GetMethodTable()->IsGenericTypeDefinition())
    {
        Instantiation classInst = GetClassInstantiation();
        for (DWORD i = 0; i < classInst.GetNumArgs(); i++)
        {
            MethodTable * pMT = classInst[i].GetMethodTable();
            // pMT can be NULL for TypeVarTypeDesc
            // @TODO: Implement TypeHandle::GetStableHash instead of
            // checking pMT==NULL
            if (pMT)
                hash = HashCOUNT_T(hash, HashStringA(GetFullyQualifiedNameForClass(pMT)));
        }
    }

    if (HasMethodInstantiation() && !IsGenericMethodDefinition())
    {
        Instantiation methodInst = GetMethodInstantiation();
        for (DWORD i = 0; i < methodInst.GetNumArgs(); i++)
        {
            MethodTable * pMT = methodInst[i].GetMethodTable();
            // pMT can be NULL for TypeVarTypeDesc
            // @TODO: Implement TypeHandle::GetStableHash instead of
            // checking pMT==NULL
            if (pMT)
                hash = HashCOUNT_T(hash, HashStringA(GetFullyQualifiedNameForClass(pMT)));
        }
    }

    return hash;
}

//*******************************************************************************
// Get the number of type parameters to a generic method
DWORD MethodDesc::GetNumGenericMethodArgs()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        CANNOT_TAKE_LOCK;
        SUPPORTS_DAC;
    }
    CONTRACTL_END

    g_IBCLogger.LogMethodDescAccess(this);

    if (GetClassification() == mcInstantiated)
    {
        InstantiatedMethodDesc *pIMD = AsInstantiatedMethodDesc();
        return pIMD->m_wNumGenericArgs;
    }
    else return 0;
}

//*******************************************************************************
MethodTable * MethodDesc::GetExactDeclaringType(MethodTable * ownerOrSubType)
{
    CONTRACTL 
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    MethodTable * pMT = GetMethodTable();

    // Fast path for typical case.
    if (ownerOrSubType == pMT)
        return pMT;

    // If we come here for array method, the typedef tokens inside GetMethodTableMatchingParentClass 
    // will match, but the types are actually from unrelated arrays, so the result would be incorrect.
    _ASSERTE(!IsArray());

    return ownerOrSubType->GetMethodTableMatchingParentClass(pMT);
}

//*******************************************************************************
Instantiation MethodDesc::GetExactClassInstantiation(TypeHandle possibleObjType)
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END


    return (possibleObjType.IsNull()
            ? GetClassInstantiation()
            : possibleObjType.GetInstantiationOfParentClass(GetMethodTable()));
}

//*******************************************************************************
BOOL MethodDesc::HasSameMethodDefAs(MethodDesc * pMD)
{
    LIMITED_METHOD_CONTRACT;

    if (this == pMD)
        return TRUE;

    return (GetMemberDef() == pMD->GetMemberDef()) && (GetModule() == pMD->GetModule());
}

//*******************************************************************************
BOOL MethodDesc::IsTypicalSharedInstantiation()
{
    WRAPPER_NO_CONTRACT;
    PRECONDITION(IsRestored_NoLogging());

    Instantiation classInst = GetMethodTable()->GetInstantiation();
    if (!ClassLoader::IsTypicalSharedInstantiation(classInst))
        return FALSE;

    if (IsGenericMethodDefinition())
        return FALSE;

    Instantiation methodInst = GetMethodInstantiation();
    if (!ClassLoader::IsTypicalSharedInstantiation(methodInst))
        return FALSE;

    return TRUE;
}

//*******************************************************************************
Instantiation MethodDesc::LoadMethodInstantiation()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM(););
    }
    CONTRACTL_END

    if (IsGenericMethodDefinition() && !IsTypicalMethodDefinition())
    {
        return LoadTypicalMethodDefinition()->GetMethodInstantiation();
    }
    else
        return GetMethodInstantiation();
}

//*******************************************************************************
Module *MethodDesc::GetDefiningModuleForOpenMethod()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
    }
    CONTRACTL_END

    Module *pModule = GetMethodTable()->GetDefiningModuleForOpenType();
    if (pModule != NULL)
        return pModule;

    if (IsGenericMethodDefinition())
        return GetModule();

    Instantiation inst = GetMethodInstantiation();
    for (DWORD i = 0; i < inst.GetNumArgs(); i++)
    {
        // Encoded types are never open
        if (!inst[i].IsEncodedFixup())
        {
            pModule = inst[i].GetDefiningModuleForOpenType();
            if (pModule != NULL)
                return pModule;
        }
    }

    return NULL;
}


//*******************************************************************************
BOOL MethodDesc::ContainsGenericVariables()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        PRECONDITION(IsRestored_NoLogging());
    }
    CONTRACTL_END

    // If this is a method of a generic type, does the type have
    // non-instantiated type arguments

    if (TypeHandle(GetMethodTable()).ContainsGenericVariables())
        return TRUE;

    if (IsGenericMethodDefinition())
        return TRUE;

    // If this is an instantiated generic method, are there are any generic type variables
    if (GetNumGenericMethodArgs() != 0)
    {
        Instantiation methodInst = GetMethodInstantiation();
        for (DWORD i = 0; i < methodInst.GetNumArgs(); i++)
        {
            if (methodInst[i].ContainsGenericVariables())
                return TRUE;
        }
    }

    return FALSE;
}

//*******************************************************************************
BOOL MethodDesc::IsTightlyBoundToMethodTable()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;

    // Anything with the real vtable slot is tightly bound
    if (!HasNonVtableSlot())
        return TRUE;

    // All instantiations of generic methods are stored in the InstMethHashTable.
    if (HasMethodInstantiation())
    {
        if (IsGenericMethodDefinition())
            return TRUE;
        else
            return FALSE;
    }

    // Wrapper stubs are stored in the InstMethHashTable, e.g. for static methods in generic classes
    if (IsWrapperStub())
        return FALSE;

    return TRUE;
}

#ifndef DACCESS_COMPILE

//*******************************************************************************
// Update flags in a thread safe manner.
WORD MethodDesc::InterlockedUpdateFlags(WORD wMask, BOOL fSet)
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    WORD    wOldState = m_wFlags;
    DWORD   dwMask = wMask;

    // We need to make this operation atomic (multiple threads can play with the flags field at the same time). But the flags field
    // is a word and we only have interlock operations over dwords. So we round down the flags field address to the nearest aligned
    // dword (along with the intended bitfield mask). Note that we make the assumption that the flags word is aligned itself, so we
    // only have two possibilites: the field already lies on a dword boundary or it's precisely one word out.
    DWORD* pdwFlags = (DWORD*)((ULONG_PTR)&m_wFlags - (offsetof(MethodDesc, m_wFlags) & 0x3));

#ifdef _PREFAST_
#pragma warning(push)
#pragma warning(disable:6326) // "Suppress PREFast warning about comparing two constants"
#endif // _PREFAST_

#if BIGENDIAN
    if ((offsetof(MethodDesc, m_wFlags) & 0x3) == 0) {
#else // !BIGENDIAN
    if ((offsetof(MethodDesc, m_wFlags) & 0x3) != 0) {
#endif // !BIGENDIAN
        static_assert_no_msg(sizeof(m_wFlags) == 2);
        dwMask <<= 16;
    }
#ifdef _PREFAST_
#pragma warning(pop)
#endif

    g_IBCLogger.LogMethodDescWriteAccess(this);
    EnsureWritablePages(pdwFlags);    

    if (fSet)
        FastInterlockOr(pdwFlags, dwMask);
    else
        FastInterlockAnd(pdwFlags, ~dwMask);

    return wOldState;
}

WORD MethodDesc::InterlockedUpdateFlags3(WORD wMask, BOOL fSet)
{
    LIMITED_METHOD_CONTRACT;

    WORD    wOldState = m_wFlags3AndTokenRemainder;
    DWORD   dwMask = wMask;

    // We need to make this operation atomic (multiple threads can play with the flags field at the same time). But the flags field
    // is a word and we only have interlock operations over dwords. So we round down the flags field address to the nearest aligned
    // dword (along with the intended bitfield mask). Note that we make the assumption that the flags word is aligned itself, so we
    // only have two possibilites: the field already lies on a dword boundary or it's precisely one word out.
    DWORD* pdwFlags = (DWORD*)((ULONG_PTR)&m_wFlags3AndTokenRemainder - (offsetof(MethodDesc, m_wFlags3AndTokenRemainder) & 0x3));

#ifdef _PREFAST_
#pragma warning(push)
#pragma warning(disable:6326) // "Suppress PREFast warning about comparing two constants"
#endif // _PREFAST_

#if BIGENDIAN
    if ((offsetof(MethodDesc, m_wFlags3AndTokenRemainder) & 0x3) == 0) {
#else // !BIGENDIAN
    if ((offsetof(MethodDesc, m_wFlags3AndTokenRemainder) & 0x3) != 0) {
#endif // !BIGENDIAN
        static_assert_no_msg(sizeof(m_wFlags3AndTokenRemainder) == 2);
        dwMask <<= 16;
    }
#ifdef _PREFAST_
#pragma warning(pop)
#endif

    g_IBCLogger.LogMethodDescWriteAccess(this);

    if (fSet)
        FastInterlockOr(pdwFlags, dwMask);
    else
        FastInterlockAnd(pdwFlags, ~dwMask);

    return wOldState;
}

#endif // !DACCESS_COMPILE

//*******************************************************************************
// Returns the address of the native code. The native code can be one of:
// - jitted code if !IsPreImplemented()
// - ngened code if IsPreImplemented()
// 
// Methods which have no native code are either implemented by stubs or not jitted yet.
// For example, NDirectMethodDesc's have no native code.  They are treated as 
// implemented by stubs.  On WIN64, these stubs are IL stubs, which DO have native code.
//
// This function returns null if the method has no native code.
PCODE MethodDesc::GetNativeCode()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;

    g_IBCLogger.LogMethodDescAccess(this);

    if (HasNativeCodeSlot())
    {
        // When profiler is enabled, profiler may ask to rejit a code even though we
        // we have ngen code for this MethodDesc.  (See MethodDesc::DoPrestub).
        // This means that NativeCodeSlot::GetValueMaybeNullAtPtr(GetAddrOfNativeCodeSlot())
        // is not stable. It can turn from non-zero to zero.
        PCODE pCode = PCODE(NativeCodeSlot::GetValueMaybeNullAtPtr(GetAddrOfNativeCodeSlot()) & ~FIXUP_LIST_MASK);
#ifdef _TARGET_ARM_
        if (pCode != NULL)
            pCode |= THUMB_CODE;
#endif
        return pCode;
    }

    if (!HasStableEntryPoint() || HasPrecode())
        return NULL;

    return GetStableEntryPoint();
}

//*******************************************************************************
TADDR MethodDesc::GetAddrOfNativeCodeSlot()
{
    WRAPPER_NO_CONTRACT;

    _ASSERTE(HasNativeCodeSlot());

    SIZE_T size = s_ClassificationSizeTable[m_wFlags & (mdcClassification | mdcHasNonVtableSlot |  mdcMethodImpl)];

    return dac_cast<TADDR>(this) + size;
}

//*******************************************************************************
PCODE MethodDesc::GetPreImplementedCode()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
        SUPPORTS_DAC;
    }
    CONTRACTL_END;

#ifdef FEATURE_PREJIT
    PCODE pNativeCode = GetNativeCode();
    if (pNativeCode == NULL)
        return NULL;

    Module* pZapModule = GetZapModule();
    if (pZapModule == NULL)
        return NULL;

    if (!pZapModule->IsZappedCode(pNativeCode))
        return NULL;

    return pNativeCode;
#else // !FEATURE_PREJIT
    return NULL;
#endif // !FEATURE_PREJIT
}

//*******************************************************************************
BOOL MethodDesc::IsVoid()
{
    WRAPPER_NO_CONTRACT;

    MetaSig sig(this);
    return sig.IsReturnTypeVoid();
}

//*******************************************************************************
BOOL MethodDesc::HasRetBuffArg()
{
    WRAPPER_NO_CONTRACT;

    MetaSig sig(this);
    ArgIterator argit(&sig);
    return argit.HasRetBuffArg();
}

//*******************************************************************************
// This returns the offset of the IL.
// The offset is relative to the base of the IL image.
ULONG MethodDesc::GetRVA()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END

    if (IsRuntimeSupplied())
    {
        return 0;
    }
    
    // Methods without metadata don't have an RVA.  Examples are IL stubs and LCG methods.
    if (IsNoMetadata())
    {
        return 0;
    }

    if (GetMemberDef() & 0x00FFFFFF)
    {
        Module *pModule = GetModule();
        PREFIX_ASSUME(pModule != NULL);

        DWORD dwDescrOffset;
        DWORD dwImplFlags;
        if (FAILED(pModule->GetMDImport()->GetMethodImplProps(GetMemberDef(), &dwDescrOffset, &dwImplFlags)))
        {   // Class loader already asked for MethodImpls, so this should always succeed (unless there's a 
            // bug or a new code path)
            _ASSERTE(!"If this ever fires, then this method should return HRESULT");
            return 0;
        }
        BAD_FORMAT_NOTHROW_ASSERT(IsNDirect() || IsMiIL(dwImplFlags) || IsMiOPTIL(dwImplFlags) || dwDescrOffset == 0);
        return dwDescrOffset;
    }

    return 0;
}

//*******************************************************************************
BOOL MethodDesc::IsVarArg()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;
    SUPPORTS_DAC;

    Signature signature = GetSignature();
    _ASSERTE(!signature.IsEmpty());
    return MetaSig::IsVarArg(GetModule(), signature);
}

//*******************************************************************************
COR_ILMETHOD* MethodDesc::GetILHeader(BOOL fAllowOverrides /*=FALSE*/)
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        PRECONDITION(IsIL());
        PRECONDITION(!IsUnboxingStub());
    }
    CONTRACTL_END

    Module *pModule = GetModule();

    // Always pickup 'permanent' overrides like reflection emit, EnC, etc.
    // but only grab temporary overrides (like profiler rewrites) if asked to
    TADDR pIL = pModule->GetDynamicIL(GetMemberDef(), fAllowOverrides);

    if (pIL == NULL)
    {
        pIL = pModule->GetIL(GetRVA());
    }

#ifdef _DEBUG_IMPL
    if (pIL != NULL)
    {
        //
        // This is convenient place to verify that COR_ILMETHOD_DECODER::GetOnDiskSize is in sync
        // with our private DACized copy in PEDecoder::ComputeILMethodSize
        //
        COR_ILMETHOD_DECODER header((COR_ILMETHOD *)pIL);
        SIZE_T size1 = header.GetOnDiskSize((COR_ILMETHOD *)pIL);
        SIZE_T size2 = PEDecoder::ComputeILMethodSize(pIL);
        _ASSERTE(size1 == size2);
    }
#endif

#ifdef DACCESS_COMPILE
    return (pIL != NULL) ? DacGetIlMethod(pIL) : NULL;
#else // !DACCESS_COMPILE
    return PTR_COR_ILMETHOD(pIL);
#endif // !DACCESS_COMPILE
}

//*******************************************************************************
ReturnKind MethodDesc::ParseReturnKindFromSig(INDEBUG(bool supportStringConstructors))
{
    CONTRACTL
    {
        if (FORBIDGC_LOADER_USE_ENABLED()) NOTHROW; else THROWS;
        GC_NOTRIGGER;
        FORBID_FAULT;
    }
    CONTRACTL_END

    ENABLE_FORBID_GC_LOADER_USE_IN_THIS_SCOPE();

    TypeHandle thValueType;

    MetaSig sig(this);
    CorElementType et = sig.GetReturnTypeNormalized(&thValueType);

    switch (et)
    {
        case ELEMENT_TYPE_STRING:
        case ELEMENT_TYPE_CLASS:
        case ELEMENT_TYPE_SZARRAY:
        case ELEMENT_TYPE_ARRAY:
        case ELEMENT_TYPE_OBJECT:
        case ELEMENT_TYPE_VAR:
            return RT_Object;

#ifdef ENREGISTERED_RETURNTYPE_INTEGER_MAXSIZE
        case ELEMENT_TYPE_VALUETYPE:
            // We return value types in registers if they fit in ENREGISTERED_RETURNTYPE_MAXSIZE
            // These valuetypes could contain gc refs.
            {
                ArgIterator argit(&sig);
                if (!argit.HasRetBuffArg())
                {
                    // the type must already be loaded
                    _ASSERTE(!thValueType.IsNull());
                    if (!thValueType.IsTypeDesc())
                    {
                        MethodTable * pReturnTypeMT = thValueType.AsMethodTable();
#ifdef UNIX_AMD64_ABI
                        if (pReturnTypeMT->IsRegPassedStruct())
                        {
                            // The Multi-reg return case using the classhandle is only implemented for AMD64 SystemV ABI.
                            // On other platforms, multi-reg return is not supported with GcInfo v1.
                            // So, the relevant information must be obtained from the GcInfo tables (which requires version2).
                            EEClass* eeClass = pReturnTypeMT->GetClass();
                            ReturnKind regKinds[2] = { RT_Unset, RT_Unset };
                            int orefCount = 0;
                            for (int i = 0; i < 2; i++)
                            {
                                if (eeClass->GetEightByteClassification(i) == SystemVClassificationTypeIntegerReference)
                                {
                                    regKinds[i] = RT_Object;
                                }
                                else if (eeClass->GetEightByteClassification(i) == SystemVClassificationTypeIntegerByRef)
                                {
                                    regKinds[i] = RT_ByRef;
                                }
                                else
                                {
                                    regKinds[i] = RT_Scalar;
                                }
                            }
                            ReturnKind structReturnKind = GetStructReturnKind(regKinds[0], regKinds[1]);
                            return structReturnKind;
                        }
#endif // UNIX_AMD64_ABI

                        if (pReturnTypeMT->ContainsPointers() || pReturnTypeMT->IsByRefLike())
                        {
                            if (pReturnTypeMT->GetNumInstanceFields() == 1)
                            {
                                _ASSERTE(pReturnTypeMT->GetNumInstanceFieldBytes() == sizeof(void*));
                                // Note: we can't distinguish RT_Object from RT_ByRef, the caller has to tolerate that. 
                                return RT_Object;
                            }
                            else
                            {
                                // Multi reg return case with pointers, can't restore the actual kind.
                                return RT_Illegal;
                            }
                        }
                    }
                }
            }
            break;
#endif // ENREGISTERED_RETURNTYPE_INTEGER_MAXSIZE

#ifdef _DEBUG
        case ELEMENT_TYPE_VOID:
            // String constructors return objects.  We should not have any ecall string
            // constructors, except when called from gc coverage codes (which is only
            // done under debug).  We will therefore optimize the retail version of this
            // method to not support string constructors.
            if (IsCtor() && GetMethodTable()->HasComponentSize())
            {
                _ASSERTE(supportStringConstructors);
                return RT_Object;
            }
            break;
#endif // _DEBUG

        case ELEMENT_TYPE_BYREF:
            return RT_ByRef;

        default:
            break;
    }

    return RT_Scalar;
}

ReturnKind MethodDesc::GetReturnKind(INDEBUG(bool supportStringConstructors))
{
#ifdef _WIN64
    // For simplicity, we don't hijack in funclets, but if you ever change that, 
    // be sure to choose the OnHijack... callback type to match that of the FUNCLET
    // not the main method (it would probably be Scalar).
#endif // _WIN64

    ENABLE_FORBID_GC_LOADER_USE_IN_THIS_SCOPE();
    // Mark that we are performing a stackwalker like operation on the current thread.
    // This is necessary to allow the signature parsing functions to work without triggering any loads
    ClrFlsValueSwitch threadStackWalking(TlsIdx_StackWalkerWalkingThread, GetThread());

#ifdef _TARGET_X86_
    MetaSig msig(this);
    if (msig.HasFPReturn())
    {
        // Figuring out whether the function returns FP or not is hard to do
        // on-the-fly, so we use a different callback helper on x86 where this
        // piece of information is needed in order to perform the right save &
        // restore of the return value around the call to OnHijackScalarWorker.
        return RT_Float;
    }
#endif // _TARGET_X86_
    
    return ParseReturnKindFromSig(INDEBUG(supportStringConstructors));
}

#ifdef FEATURE_COMINTEROP

#ifndef DACCESS_COMPILE

//*******************************************************************************
LONG MethodDesc::GetComDispid()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END

    ULONG dispid = -1;
    HRESULT hr = GetMDImport()->GetDispIdOfMemberDef(
                                    GetMemberDef(),   // The member for which to get props.
                                    &dispid // return dispid.
                                    );
    if (FAILED(hr))
        return -1;

    return (LONG)dispid;
}

//*******************************************************************************
WORD MethodDesc::GetComSlot()
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        FORBID_FAULT;
        PRECONDITION(IsRestored_NoLogging());
    }
    CONTRACTL_END

    MethodTable * pMT = GetMethodTable();

    _ASSERTE(pMT->IsInterface());

    // COM slots are biased from MethodTable slots depending on interface type
    WORD numExtraSlots = ComMethodTable::GetNumExtraSlots(pMT->GetComInterfaceType());

    // Normal interfaces are layed out the same way as in the MethodTable, while
    // sparse interfaces need to go through an extra layer of mapping.
    WORD slot;
    
    if (pMT->IsSparseForCOMInterop())
        slot = numExtraSlots + pMT->GetClass()->GetSparseCOMInteropVTableMap()->LookupVTSlot(GetSlot());
    else
        slot = numExtraSlots + GetSlot();

    return slot;
}

#endif // !DACCESS_COMPILE

#endif // FEATURE_COMINTEROP

//*******************************************************************************
DWORD MethodDesc::GetAttrs() const
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END
    
    if (IsArray())
        return dac_cast<PTR_ArrayMethodDesc>(this)->GetAttrs();
    else if (IsNoMetadata())
        return dac_cast<PTR_DynamicMethodDesc>(this)->GetAttrs();;
    
    DWORD dwAttributes;
    if (FAILED(GetMDImport()->GetMethodDefProps(GetMemberDef(), &dwAttributes)))
    {   // Class loader already asked for attributes, so this should always succeed (unless there's a 
        // bug or a new code path)
        _ASSERTE(!"If this ever fires, then this method should return HRESULT");
        return 0;
    }
    return dwAttributes;
}

//*******************************************************************************
DWORD MethodDesc::GetImplAttrs()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END

    DWORD props;
    if (FAILED(GetMDImport()->GetMethodImplProps(GetMemberDef(), NULL, &props)))
    {   // Class loader already asked for MethodImpls, so this should always succeed (unless there's a 
        // bug or a new code path)
        _ASSERTE(!"If this ever fires, then this method should return HRESULT");
        return 0;
    }
    return props;
}

//*******************************************************************************
Module* MethodDesc::GetZapModule()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        SUPPORTS_DAC;
    }
    CONTRACTL_END

#ifdef FEATURE_PREJIT
    if (!IsZapped())
    {
        return NULL;
    }
    else
    if (!IsTightlyBoundToMethodTable())
    {
        return ExecutionManager::FindZapModule(dac_cast<TADDR>(this));
    }
    else
    {
        return GetMethodTable()->GetLoaderModule();
    }
#else
    return NULL;
#endif
}

//*******************************************************************************
Module* MethodDesc::GetLoaderModule()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    if (IsZapped())
    {
        return GetZapModule();
    }
    else
    if (HasMethodInstantiation() && !IsGenericMethodDefinition())
    {
        Module *retVal = ClassLoader::ComputeLoaderModule(GetMethodTable(),
                                                GetMemberDef(),
                                                GetMethodInstantiation());
        return retVal;
    }
    else
    {
        return GetMethodTable()->GetLoaderModule();
    }
}

//*******************************************************************************
Module *MethodDesc::GetModule() const
{
    STATIC_CONTRACT_NOTHROW;
    STATIC_CONTRACT_GC_NOTRIGGER;
    STATIC_CONTRACT_FORBID_FAULT;
    SUPPORTS_DAC;

    g_IBCLogger.LogMethodDescAccess(this);
    Module *pModule = GetModule_NoLogging();

    return pModule;
}

//*******************************************************************************
Module *MethodDesc::GetModule_NoLogging() const
{
    STATIC_CONTRACT_NOTHROW;
    STATIC_CONTRACT_GC_NOTRIGGER;
    STATIC_CONTRACT_FORBID_FAULT;
    SUPPORTS_DAC;

    MethodTable* pMT = GetMethodDescChunk()->GetMethodTable();
    return pMT->GetModule();
}

//*******************************************************************************
// Is this an instantiating stub for generics?  This does not include those
// BoxedEntryPointStubs which call an instantiating stub.
BOOL MethodDesc::IsInstantiatingStub()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;

    return
        (GetClassification() == mcInstantiated)
         && !IsUnboxingStub()
         && AsInstantiatedMethodDesc()->IMD_IsWrapperStubWithInstantiations();
}

//*******************************************************************************
BOOL MethodDesc::IsWrapperStub()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;

    return (IsUnboxingStub() || IsInstantiatingStub());
}

#ifndef DACCESS_COMPILE
//*******************************************************************************

MethodDesc *MethodDesc::GetWrappedMethodDesc()
{
    WRAPPER_NO_CONTRACT;
    
    _ASSERTE(IsWrapperStub());
    
    if (IsUnboxingStub())
    {
        return this->GetMethodTable()->GetUnboxedEntryPointMD(this);
    }

    if (IsInstantiatingStub())
    {
        MethodDesc *pRet = AsInstantiatedMethodDesc()->IMD_GetWrappedMethodDesc();
#ifdef _DEBUG
        MethodDesc *pAltMD  =
               MethodDesc::FindOrCreateAssociatedMethodDesc(this,
                                                            this->GetMethodTable(),
                                                            FALSE, /* no unboxing entrypoint */
                                                            this->GetMethodInstantiation(),
                                                            TRUE /* get shared code */ );
        _ASSERTE(pAltMD == pRet);
#endif // _DEBUG
        return pRet;
    }
    return NULL;
}


MethodDesc *MethodDesc::GetExistingWrappedMethodDesc()
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;
    
    _ASSERTE(IsWrapperStub());
    
    if (IsUnboxingStub())
    {
        return this->GetMethodTable()->GetExistingUnboxedEntryPointMD(this);
    }

    if (IsInstantiatingStub())
    {
        MethodDesc *pRet = AsInstantiatedMethodDesc()->IMD_GetWrappedMethodDesc();
        return pRet;
    }
    return NULL;
}



#endif // !DACCESS_COMPILE

//*******************************************************************************
BOOL MethodDesc::IsSharedByGenericInstantiations()
{
    LIMITED_METHOD_DAC_CONTRACT;

    if (IsWrapperStub())
        return FALSE;
    else if (GetMethodTable()->IsSharedByGenericInstantiations())
        return TRUE;
    else return IsSharedByGenericMethodInstantiations();
}

//*******************************************************************************
BOOL MethodDesc::IsSharedByGenericMethodInstantiations()
{
    LIMITED_METHOD_DAC_CONTRACT;

    if (GetClassification() == mcInstantiated)
        return AsInstantiatedMethodDesc()->IMD_IsSharedByGenericMethodInstantiations();
    else return FALSE;
}

//*******************************************************************************
// Does this method require an extra MethodTable argument for instantiation information?
// This is the case for
// * per-inst static methods in shared-code instantiated generic classes (e.g. static void MyClass<string>::m())
//     - there is no this pointer providing generic dictionary info
// * shared-code instance methods in instantiated generic structs (e.g. void MyValueType<string>::m())
//     - unboxed 'this' pointer in value-type instance methods don't have MethodTable pointer by definition
// * shared instance and default interface methods called via interface dispatch (e. g. IFoo<string>.Foo calling into IFoo<object>::Foo())
//     - this pointer is ambiguous as it can implement more than one IFoo<T>
BOOL MethodDesc::RequiresInstMethodTableArg() 
{
    LIMITED_METHOD_DAC_CONTRACT;

    return
        IsSharedByGenericInstantiations() &&
        !HasMethodInstantiation() &&
        (IsStatic() || GetMethodTable()->IsValueType() || (GetMethodTable()->IsInterface() && !IsAbstract()));

}

//*******************************************************************************
// Does this method require an extra InstantiatedMethodDesc argument for instantiation information?
// This is the case for
// * shared-code instantiated generic methods
BOOL MethodDesc::RequiresInstMethodDescArg()
{
    LIMITED_METHOD_DAC_CONTRACT;

    return IsSharedByGenericInstantiations() &&
        HasMethodInstantiation();
}

//*******************************************************************************
// Does this method require any kind of extra argument for instantiation information?
BOOL MethodDesc::RequiresInstArg()
{
    LIMITED_METHOD_DAC_CONTRACT;

    BOOL fRet = IsSharedByGenericInstantiations() &&
        (HasMethodInstantiation() || IsStatic() || GetMethodTable()->IsValueType() || (GetMethodTable()->IsInterface() && !IsAbstract()));

    _ASSERT(fRet == (RequiresInstMethodTableArg() || RequiresInstMethodDescArg()));
    return fRet;
}

//*******************************************************************************
BOOL MethodDesc::IsRuntimeMethodHandle()
{
    WRAPPER_NO_CONTRACT;

    // <TODO> Refine this check further for BoxedEntryPointStubs </TODO>
    return (!HasMethodInstantiation() || !IsSharedByGenericMethodInstantiations());
}

//*******************************************************************************
// Strip off method and class instantiation if present e.g.
// C1<int>.m1<string> -> C1.m1
// C1<int>.m2 -> C1.m2
// C2.m2<int> -> C2.m2
// C2.m2 -> C2.m2
MethodDesc* MethodDesc::LoadTypicalMethodDefinition()
{
    CONTRACT(MethodDesc*)
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM(););
        POSTCONDITION(CheckPointer(RETVAL));
        POSTCONDITION(RETVAL->IsTypicalMethodDefinition());
    }
    CONTRACT_END

#ifndef DACCESS_COMPILE
    if (HasClassOrMethodInstantiation())
    {
        MethodTable *pMT = GetMethodTable();
        if (!pMT->IsTypicalTypeDefinition())
            pMT = ClassLoader::LoadTypeDefThrowing(pMT->GetModule(), 
                                                   pMT->GetCl(),
                                                   ClassLoader::ThrowIfNotFound,
                                                   ClassLoader::PermitUninstDefOrRef).GetMethodTable();
        CONSISTENCY_CHECK(TypeHandle(pMT).CheckFullyLoaded());
        MethodDesc *resultMD = pMT->GetParallelMethodDesc(this);
        PREFIX_ASSUME(resultMD != NULL);
        resultMD->CheckRestore();
        RETURN (resultMD);
    }
    else
#endif // !DACCESS_COMPILE
        RETURN(this);
}

//*******************************************************************************
BOOL MethodDesc::IsTypicalMethodDefinition() const
{
    LIMITED_METHOD_CONTRACT;

    if (HasMethodInstantiation() && !IsGenericMethodDefinition())
        return FALSE;

    if (HasClassInstantiation() && !GetMethodTable()->IsGenericTypeDefinition())
        return FALSE;

    return TRUE;
}

//*******************************************************************************
BOOL MethodDesc::AcquiresInstMethodTableFromThis() {
    LIMITED_METHOD_CONTRACT;
    SUPPORTS_DAC;

    return
        IsSharedByGenericInstantiations()  &&
        !HasMethodInstantiation() &&
        !IsStatic() &&
        !GetMethodTable()->IsValueType() &&
        !(GetMethodTable()->IsInterface() && !IsAbstract());
}

//*******************************************************************************
UINT MethodDesc::SizeOfArgStack()
{
    WRAPPER_NO_CONTRACT;
    MetaSig msig(this);
    ArgIterator argit(&msig);
    return argit.SizeOfArgStack();
}


UINT MethodDesc::SizeOfNativeArgStack()
{
#ifndef UNIX_AMD64_ABI
    return SizeOfArgStack();
#else
    WRAPPER_NO_CONTRACT;
    MetaSig msig(this);
    PInvokeArgIterator argit(&msig);
    return argit.SizeOfArgStack();
#endif
}

#ifdef _TARGET_X86_
//*******************************************************************************
UINT MethodDesc::CbStackPop()
{
    WRAPPER_NO_CONTRACT;
    SUPPORTS_DAC;
    MetaSig msig(this);
    ArgIterator argit(&msig);
    return argit.CbStackPop();
}
#endif // _TARGET_X86_

#ifndef DACCESS_COMPILE

//*******************************************************************************
// Strip off the method instantiation (if present) e.g.
// C<int>.m<string> -> C<int>.m
// D.m<string> -> D.m
// Note that this also canonicalizes the owning method table
// @todo check uses and clean this up
MethodDesc* MethodDesc::StripMethodInstantiation()
{
    CONTRACT(MethodDesc*)
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        POSTCONDITION(CheckPointer(RETVAL));
    }
    CONTRACT_END

    if (!HasClassOrMethodInstantiation())
        RETURN(this);

    MethodTable *pMT = GetMethodTable()->GetCanonicalMethodTable();
    MethodDesc *resultMD = pMT->GetParallelMethodDesc(this);
    _ASSERTE(resultMD->IsGenericMethodDefinition() || !resultMD->HasMethodInstantiation());
    RETURN(resultMD);
}

//*******************************************************************************
MethodDescChunk *MethodDescChunk::CreateChunk(LoaderHeap *pHeap, DWORD methodDescCount, 
    DWORD classification, BOOL fNonVtableSlot, BOOL fNativeCodeSlot, BOOL fComPlusCallInfo, MethodTable *pInitialMT, AllocMemTracker *pamTracker)
{
    CONTRACT(MethodDescChunk *)
    {
        THROWS;
        GC_NOTRIGGER;
        INJECT_FAULT(ThrowOutOfMemory());

        PRECONDITION(CheckPointer(pHeap));
        PRECONDITION(CheckPointer(pInitialMT));
        PRECONDITION(CheckPointer(pamTracker));

        POSTCONDITION(CheckPointer(RETVAL));
    }
    CONTRACT_END;

    SIZE_T oneSize = MethodDesc::GetBaseSize(classification);

    if (fNonVtableSlot)
        oneSize += sizeof(MethodDesc::NonVtableSlot);

    if (fNativeCodeSlot)
        oneSize += sizeof(MethodDesc::NativeCodeSlot);

#ifdef FEATURE_COMINTEROP
    if (fComPlusCallInfo)
        oneSize += sizeof(ComPlusCallInfo);
#else // FEATURE_COMINTEROP
    _ASSERTE(!fComPlusCallInfo);
#endif // FEATURE_COMINTEROP

    _ASSERTE((oneSize & MethodDesc::ALIGNMENT_MASK) == 0);

    DWORD maxMethodDescsPerChunk = MethodDescChunk::MaxSizeOfMethodDescs / oneSize;

    if (methodDescCount == 0)
        methodDescCount = maxMethodDescsPerChunk;

    MethodDescChunk * pFirstChunk = NULL;

    do
    {
        DWORD count = min(methodDescCount, maxMethodDescsPerChunk);

        void * pMem = pamTracker->Track(
                pHeap->AllocMem(S_SIZE_T(sizeof(TADDR) + sizeof(MethodDescChunk) + oneSize * count)));

        // Skip pointer to temporary entrypoints
        MethodDescChunk * pChunk = (MethodDescChunk *)((BYTE*)pMem + sizeof(TADDR));

        pChunk->SetSizeAndCount(oneSize * count, count);
        pChunk->SetMethodTable(pInitialMT);

        MethodDesc * pMD = pChunk->GetFirstMethodDesc();
        for (DWORD i = 0; i < count; i++)
        {
            pMD->SetChunkIndex(pChunk);

            pMD->SetClassification(classification);
            if (fNonVtableSlot)
                pMD->SetHasNonVtableSlot();
            if (fNativeCodeSlot)
                pMD->SetHasNativeCodeSlot();
#ifdef FEATURE_COMINTEROP
            if (fComPlusCallInfo)
                pMD->SetupGenericComPlusCall();
#endif // FEATURE_COMINTEROP

            _ASSERTE(pMD->SizeOf() == oneSize);

            pMD = (MethodDesc *)((BYTE *)pMD + oneSize);
        }

        pChunk->m_next.SetValueMaybeNull(pFirstChunk);
        pFirstChunk = pChunk;

        methodDescCount -= count;
    }
    while (methodDescCount > 0);

    RETURN pFirstChunk;
}

#ifndef CROSSGEN_COMPILE
//--------------------------------------------------------------------
// Virtual Resolution on Objects
//
// Given a MethodDesc and an Object, return the target address
// and/or the target MethodDesc and/or make a call.
//
// Some of the implementation of this logic is in
// MethodTable::GetMethodDescForInterfaceMethodAndServer.
// Those functions should really be moved here.
//--------------------------------------------------------------------

//*******************************************************************************
// The following resolve virtual dispatch for the given method on the given
// object down to an actual address to call, including any
// handling of context proxies and other thunking layers.
MethodDesc* MethodDesc::ResolveGenericVirtualMethod(OBJECTREF *orThis)
{
    CONTRACT(MethodDesc *)
    {
        THROWS;
        GC_TRIGGERS;

        PRECONDITION(IsVtableMethod());
        PRECONDITION(IsRestored_NoLogging());
        PRECONDITION(HasMethodInstantiation());
        PRECONDITION(!ContainsGenericVariables());
        POSTCONDITION(CheckPointer(RETVAL));
        POSTCONDITION(RETVAL->HasMethodInstantiation());
    }
    CONTRACT_END;

    // Method table of target (might be instantiated)
    MethodTable *pObjMT = (*orThis)->GetMethodTable();

    // This is the static method descriptor describing the call.
    // It is not the destination of the call, which we must compute.
    MethodDesc* pStaticMD = this;

    // Strip off the method instantiation if present
    MethodDesc* pStaticMDWithoutGenericMethodArgs = pStaticMD->StripMethodInstantiation();

    // Compute the target, though we have not yet applied the type arguments.
    MethodDesc *pTargetMDBeforeGenericMethodArgs =
        pStaticMD->IsInterface()
        ? MethodTable::GetMethodDescForInterfaceMethodAndServer(TypeHandle(pStaticMD->GetMethodTable()),
                                                                pStaticMDWithoutGenericMethodArgs,orThis)
        : pObjMT->GetMethodDescForSlot(pStaticMDWithoutGenericMethodArgs->GetSlot());

    pTargetMDBeforeGenericMethodArgs->CheckRestore();

    // The actual destination may lie anywhere in the inheritance hierarchy.
    // between the static descriptor and the target object.
    // So now compute where we are really going!  This may be an instantiated
    // class type if the generic virtual lies in a generic class.
    MethodTable *pTargetMT = pTargetMDBeforeGenericMethodArgs->GetMethodTable();

    // No need to find/create a new generic instantiation if the target is the
    // same as the static, i.e. the virtual method has not been overriden.
    if (!pTargetMT->IsSharedByGenericInstantiations() && !pTargetMT->IsValueType() &&
        pTargetMDBeforeGenericMethodArgs == pStaticMDWithoutGenericMethodArgs)
        RETURN(pStaticMD);

    if (pTargetMT->IsSharedByGenericInstantiations())
    {
        pTargetMT = ClassLoader::LoadGenericInstantiationThrowing(pTargetMT->GetModule(),
                                                                  pTargetMT->GetCl(),
                                                                  pTargetMDBeforeGenericMethodArgs->GetExactClassInstantiation(TypeHandle(pObjMT))).GetMethodTable();
    }

    RETURN(MethodDesc::FindOrCreateAssociatedMethodDesc(
        pTargetMDBeforeGenericMethodArgs,
        pTargetMT,
        (pTargetMT->IsValueType()), /* get unboxing entry point if a struct*/
        pStaticMD->GetMethodInstantiation(),
        FALSE /* no allowInstParam */ ));
}

//*******************************************************************************
PCODE MethodDesc::GetSingleCallableAddrOfVirtualizedCode(OBJECTREF *orThis, TypeHandle staticTH)
{
    WRAPPER_NO_CONTRACT;
    PRECONDITION(IsVtableMethod());

    MethodTable *pObjMT = (*orThis)->GetMethodTable();

    if (HasMethodInstantiation())
    {
        CheckRestore();
        MethodDesc *pResultMD = ResolveGenericVirtualMethod(orThis);

        // If we're remoting this call we can't call directly on the returned
        // method desc, we need to go through a stub that guarantees we end up
        // in the remoting handler. The stub we use below is normally just for
        // non-virtual calls on virtual methods (that have the same problem
        // where we could end up bypassing the remoting system), but it serves
        // our purpose here (basically pushes our correctly instantiated,
        // resolved method desc on the stack and calls the remoting code).

        return pResultMD->GetSingleCallableAddrOfCode();
    }

    if (IsInterface())
    {
        MethodDesc * pTargetMD = MethodTable::GetMethodDescForInterfaceMethodAndServer(staticTH,this,orThis);
        return pTargetMD->GetSingleCallableAddrOfCode();
    }

    return pObjMT->GetRestoredSlot(GetSlot());
}

//*******************************************************************************
// The following resolve virtual dispatch for the given method on the given
// object down to an actual address to call, including any
// handling of context proxies and other thunking layers.
PCODE MethodDesc::GetMultiCallableAddrOfVirtualizedCode(OBJECTREF *orThis, TypeHandle staticTH)
{
    CONTRACT(PCODE)
    {
        THROWS;
        GC_TRIGGERS;

        PRECONDITION(IsRestored_NoLogging());
        PRECONDITION(IsVtableMethod());
        POSTCONDITION(RETVAL != NULL);
    }
    CONTRACT_END;

    // Method table of target (might be instantiated)
    MethodTable *pObjMT = (*orThis)->GetMethodTable();

    // This is the static method descriptor describing the call.
    // It is not the destination of the call, which we must compute.
    MethodDesc* pStaticMD = this;
    MethodDesc *pTargetMD;

    if (pStaticMD->HasMethodInstantiation())
    {
        CheckRestore();
        pTargetMD = ResolveGenericVirtualMethod(orThis);

        // If we're remoting this call we can't call directly on the returned
        // method desc, we need to go through a stub that guarantees we end up
        // in the remoting handler. The stub we use below is normally just for
        // non-virtual calls on virtual methods (that have the same problem
        // where we could end up bypassing the remoting system), but it serves
        // our purpose here (basically pushes our correctly instantiated,
        // resolved method desc on the stack and calls the remoting code).

        RETURN(pTargetMD->GetMultiCallableAddrOfCode());
    }

    if (pStaticMD->IsInterface())
    {
        pTargetMD = MethodTable::GetMethodDescForInterfaceMethodAndServer(staticTH,pStaticMD,orThis);
        RETURN(pTargetMD->GetMultiCallableAddrOfCode());
    }


    pTargetMD = pObjMT->GetMethodDescForSlot(pStaticMD->GetSlot());

    RETURN (pTargetMD->GetMultiCallableAddrOfCode());
}

//*******************************************************************************
PCODE MethodDesc::GetMultiCallableAddrOfCode(CORINFO_ACCESS_FLAGS accessFlags /*=CORINFO_ACCESS_LDFTN*/)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM());
    }
    CONTRACTL_END

    PCODE ret = TryGetMultiCallableAddrOfCode(accessFlags);

    if (ret == NULL)
    {
        GCX_COOP();

        // We have to allocate funcptr stub
        ret = GetLoaderAllocator()->GetFuncPtrStubs()->GetFuncPtrStub(this);
    }

    return ret;
}

//*******************************************************************************
//
// Returns a callable entry point for a function.
// Multiple entry points could be used for a single function.
// ie. this function is not idempotent
//

// We must ensure that GetMultiCallableAddrOfCode works
// correctly for all of the following cases:
// 1.   shared generic method instantiations
// 2.   unshared generic method instantiations
// 3.   instance methods in shared generic classes
// 4.   instance methods in unshared generic classes
// 5.   static methods in shared generic classes.
// 6.   static methods in unshared generic classes.
//
// For case 1 and 5 the methods are implemented using
// an instantiating stub (i.e. IsInstantiatingStub()
// should be true).  These stubs pass on to
// shared-generic-code-which-requires-an-extra-type-context-parameter.
// So whenever we use LDFTN on these we need to give out
// the address of an instantiating stub.
//
// For cases 2, 3, 4 and 6 we can just use the standard technique for LdFtn:
// (for 2 we give out the address of the fake "slot" in InstantiatedMethodDescs)
// (for 3 it doesn't matter if the code is shared between instantiations
// because the instantiation context is picked up from the "this" parameter.)

PCODE MethodDesc::TryGetMultiCallableAddrOfCode(CORINFO_ACCESS_FLAGS accessFlags)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM());
    }
    CONTRACTL_END

    // Record this method desc if required
    g_IBCLogger.LogMethodDescAccess(this);

    if (IsGenericMethodDefinition())
    {
        _ASSERTE(!"Cannot take the address of an uninstantiated generic method.");
        COMPlusThrow(kInvalidProgramException);
    }

    if (accessFlags & CORINFO_ACCESS_LDFTN)
    {
        // Whenever we use LDFTN on shared-generic-code-which-requires-an-extra-parameter
        // we need to give out the address of an instantiating stub.  This is why we give
        // out GetStableEntryPoint() for the IsInstantiatingStub() case: this is
        // safe.  But first we assert that we only use GetMultiCallableAddrOfCode on
        // the instantiating stubs and not on the shared code itself.
        _ASSERTE(!RequiresInstArg());
        _ASSERTE(!IsSharedByGenericMethodInstantiations());

        // No other access flags are valid with CORINFO_ACCESS_LDFTN
        _ASSERTE((accessFlags & ~CORINFO_ACCESS_LDFTN) == 0);
    }

    // We create stable entrypoints for these upfront
    if (IsWrapperStub() || IsEnCAddedMethod())
        return GetStableEntryPoint();


    // For EnC always just return the stable entrypoint so we can update the code
    if (IsEnCMethod())
        return GetStableEntryPoint();

    // If the method has already been jitted, we can give out the direct address
    // Note that we may have previously created a FuncPtrStubEntry, but
    // GetMultiCallableAddrOfCode() does not need to be idempotent.

    if (IsFCall())
    {
        // Call FCalls directly when possible
        if (!IsInterface() && !GetMethodTable()->ContainsGenericVariables())
        {
            BOOL fSharedOrDynamicFCallImpl;
            PCODE pFCallImpl = ECall::GetFCallImpl(this, &fSharedOrDynamicFCallImpl);

            if (!fSharedOrDynamicFCallImpl)
                return pFCallImpl;

            // Fake ctors share one implementation that has to be wrapped by prestub
            GetOrCreatePrecode();
        }
    }
    else
    {
        if (IsPointingToStableNativeCode())
            return GetNativeCode();
    }

    if (HasStableEntryPoint())
        return GetStableEntryPoint();

    if (IsVersionableWithVtableSlotBackpatch())
    {
        // Caller has to call via slot or allocate funcptr stub
        return NULL;
    }

    // Force the creation of the precode if we would eventually got one anyway
    if (MayHavePrecode())
        return GetOrCreatePrecode()->GetEntryPoint();

#ifdef HAS_COMPACT_ENTRYPOINTS
    // Caller has to call via slot or allocate funcptr stub
    return NULL;
#else // HAS_COMPACT_ENTRYPOINTS
    //
    // Embed call to the temporary entrypoint into the code. It will be patched 
    // to point to the actual code later.
    //
    return GetTemporaryEntryPoint();
#endif // HAS_COMPACT_ENTRYPOINTS
}

//*******************************************************************************
PCODE MethodDesc::GetCallTarget(OBJECTREF* pThisObj, TypeHandle ownerType)
{
    CONTRACTL
    {
        THROWS;                 // Resolving a generic virtual method can throw
        GC_TRIGGERS;            
        MODE_COOPERATIVE;
    }
    CONTRACTL_END

    PCODE pTarget;

    if (IsVtableMethod() && !GetMethodTable()->IsValueType())
    {
        CONSISTENCY_CHECK(NULL != pThisObj);
        if (ownerType.IsNull())
            ownerType = GetMethodTable();
        pTarget = GetSingleCallableAddrOfVirtualizedCode(pThisObj, ownerType);
    }
    else
    {
        pTarget = GetSingleCallableAddrOfCode();
    }

    return pTarget;
}

//*******************************************************************************
// convert an entry point into a method desc
MethodDesc* Entry2MethodDesc(PCODE entryPoint, MethodTable *pMT)
{
    CONTRACT(MethodDesc*)
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
        POSTCONDITION(RETVAL->SanityCheck());
    }
    CONTRACT_END

    MethodDesc * pMD;

    RangeSection * pRS = ExecutionManager::FindCodeRange(entryPoint, ExecutionManager::GetScanFlags());
    if (pRS != NULL)
    {
        if (pRS->pjit->JitCodeToMethodInfo(pRS, entryPoint, &pMD, NULL))
            RETURN(pMD);

        if (pRS->pjit->GetStubCodeBlockKind(pRS, entryPoint) == STUB_CODE_BLOCK_PRECODE)
            RETURN(MethodDesc::GetMethodDescFromStubAddr(entryPoint));

        // We should never get here
        _ASSERTE(!"Entry2MethodDesc failed for RangeSection");
        RETURN (NULL);
    }

    pMD = VirtualCallStubManagerManager::Entry2MethodDesc(entryPoint, pMT);
    if (pMD != NULL)
        RETURN(pMD);


    // Is it an FCALL?
    pMD = ECall::MapTargetBackToMethod(entryPoint);
    if (pMD != NULL)
        RETURN(pMD);

    // We should never get here
    _ASSERTE(!"Entry2MethodDesc failed");
    RETURN (NULL);
}
#endif // CROSSGEN_COMPILE

//*******************************************************************************
BOOL MethodDesc::IsFCallOrIntrinsic()
{
    WRAPPER_NO_CONTRACT;

    if (IsFCall() || IsArray())
        return TRUE;

    // Intrinsic methods on ByReference<T>, Span<T>, or ReadOnlySpan<T>
    MethodTable * pMT = GetMethodTable();
    if (pMT->IsByRefLike() && pMT->GetModule()->IsSystem())
        return TRUE;

    return FALSE;
}

//*******************************************************************************
BOOL MethodDesc::IsPointingToPrestub()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    if (!HasStableEntryPoint())
    {
        if (IsVersionableWithVtableSlotBackpatch())
        {
            return !IsRestored() || GetMethodEntryPoint() == GetTemporaryEntryPoint();
        }
        return TRUE;
    }

    if (!HasPrecode())
        return FALSE;

    if (!IsRestored())
        return TRUE;

    return GetPrecode()->IsPointingToPrestub();
}

//*******************************************************************************
void MethodDesc::Reset()
{
    WRAPPER_NO_CONTRACT;

    // This method is not thread-safe since we are updating
    // different pieces of data non-atomically.
    // Use this only if you can guarantee thread-safety somehow.

    _ASSERTE(IsEnCMethod() || // The process is frozen by the debugger
             IsDynamicMethod() || // These are used in a very restricted way
             GetLoaderModule()->IsReflection()); // Rental methods 

    // Reset any flags relevant to the old code
    ClearFlagsOnUpdate();

    if (HasPrecode())
    {
        GetPrecode()->Reset();
    }
    else
    {
        // We should go here only for the rental methods
        _ASSERTE(GetLoaderModule()->IsReflection());

        InterlockedUpdateFlags2(enum_flag2_HasStableEntryPoint | enum_flag2_HasPrecode, FALSE);

        TADDR slot = GetAddrOfSlot();
        if (IsVtableSlot())
        {
            ((MethodTable::VTableIndir2_t *) slot)->SetValue(GetTemporaryEntryPoint());
        }
        else
        {
            *((PCODE *) slot) = GetTemporaryEntryPoint();
        }
    }

    if (HasNativeCodeSlot())
    {
        RelativePointer<TADDR> *pRelPtr = (RelativePointer<TADDR> *)GetAddrOfNativeCodeSlot();
        pRelPtr->SetValueMaybeNull(NULL);
    }
    _ASSERTE(!HasNativeCode());
}

//*******************************************************************************
Dictionary* MethodDesc::GetMethodDictionary()
{
    WRAPPER_NO_CONTRACT;

    return
        (GetClassification() == mcInstantiated)
        ? (Dictionary*) (AsInstantiatedMethodDesc()->IMD_GetMethodDictionary())
        : NULL;
}

//*******************************************************************************
DictionaryLayout* MethodDesc::GetDictionaryLayout()
{
    WRAPPER_NO_CONTRACT;

    return
        ((GetClassification() == mcInstantiated) && !IsUnboxingStub())
        ? AsInstantiatedMethodDesc()->IMD_GetDictionaryLayout()
        : NULL;
}

#endif // !DACCESS_COMPILE

//*******************************************************************************
MethodImpl *MethodDesc::GetMethodImpl()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        FORBID_FAULT;
        PRECONDITION(HasMethodImplSlot());
        SUPPORTS_DAC;
    }
    CONTRACTL_END

    SIZE_T size = s_ClassificationSizeTable[m_wFlags & (mdcClassification | mdcHasNonVtableSlot)];

    return PTR_MethodImpl(dac_cast<TADDR>(this) + size);
}

#ifndef DACCESS_COMPILE

//*******************************************************************************
BOOL MethodDesc::RequiresMethodDescCallingConvention(BOOL fEstimateForChunk /*=FALSE*/)
{
    LIMITED_METHOD_CONTRACT;

    // Interop marshaling is implemented using shared stubs
    if (IsNDirect() || IsComPlusCall() || IsGenericComPlusCall())
        return TRUE;


    return FALSE;
}

//*******************************************************************************
BOOL MethodDesc::RequiresStableEntryPoint(BOOL fEstimateForChunk /*=FALSE*/)
{
    LIMITED_METHOD_CONTRACT;
    
    // Create precodes for versionable methods
    if (IsVersionableWithPrecode())
        return TRUE;
    
    // Create precodes for edit and continue to make methods updateable
    if (IsEnCMethod() || IsEnCAddedMethod())
        return TRUE;

    // Precreate precodes for LCG methods so we do not leak memory when the method descs are recycled
    if (IsLCGMethod())
        return TRUE;

    if (fEstimateForChunk)
    {
        // Make a best guess based on the method table of the chunk.
        if (IsInterface())
            return TRUE;
    }
    else
    {
        // Wrapper stubs are stored in generic dictionary that's not backpatched
        if (IsWrapperStub())
            return TRUE;

        // TODO: Can we avoid early allocation of precodes for interfaces and cominterop?
        if ((IsInterface() && !IsStatic() && IsVirtual()) || IsComPlusCall())
            return TRUE;
    }

    return FALSE;
}

#endif // !DACCESS_COMPILE

//*******************************************************************************
BOOL MethodDesc::MayHaveNativeCode()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
        PRECONDITION(IsRestored_NoLogging());
    }
    CONTRACTL_END

    // This code flow of this method should roughly match the code flow of MethodDesc::DoPrestub.

    switch (GetClassification())
    {
    case mcIL:              // IsIL() case. Handled below.
        break;
    case mcFCall:           // FCalls do not have real native code.
        return FALSE;
    case mcNDirect:         // NDirect never have native code (note that the NDirect method
        return FALSE;       //  does not appear as having a native code even for stubs as IL)
    case mcEEImpl:          // Runtime provided implementation. No native code.
        return FALSE;
    case mcArray:           // Runtime provided implementation. No native code.
        return FALSE;
    case mcInstantiated:    // IsIL() case. Handled below.
        break;     
#ifdef FEATURE_COMINTEROP 
    case mcComInterop:      // Generated stub. No native code.
        return FALSE;       
#endif // FEATURE_COMINTEROP
    case mcDynamic:         // LCG or stub-as-il.
        return TRUE; 
    default:
        _ASSERTE(!"Unknown classification");
    }

    _ASSERTE(IsIL());

    if ((IsInterface() && !IsStatic() && IsVirtual() && IsAbstract()) || IsWrapperStub() || ContainsGenericVariables() || IsAbstract())
    {
        return FALSE;
    }

    return TRUE;
}

#ifndef DACCESS_COMPILE

#ifdef FEATURE_NATIVE_IMAGE_GENERATION
//*******************************************************************************
void MethodDesc::Save(DataImage *image)
{
    STANDARD_VM_CONTRACT;

    // Initialize the DoesNotHaveEquivalentValuetypeParameters flag.
    // If we fail to determine whether there is a type-equivalent struct parameter (eg. because there is a struct parameter
    // defined in a missing dependency), then just continue. The reason we run this method is to initialize a flag that is
    // only an optimization in any case, so it doesn't really matter if it fails.
    EX_TRY
    {
        HasTypeEquivalentStructParameters();
    }
    EX_CATCH
    {
    }
    EX_END_CATCH(RethrowTerminalExceptions);

    _ASSERTE(image->GetModule()->GetAssembly() ==
             GetAppDomain()->ToCompilationDomain()->GetTargetAssembly());

#ifdef _DEBUG
    SString s;
    if (LoggingOn(LF_ZAP, LL_INFO10000))
    {
        TypeString::AppendMethodDebug(s, this);
        LOG((LF_ZAP, LL_INFO10000, "  MethodDesc::Save %S (%p)\n", s.GetUnicode(), this));
    }

    if (m_pszDebugMethodName && !image->IsStored((void*) m_pszDebugMethodName))
        image->StoreStructure((void *) m_pszDebugMethodName,
                                        (ULONG)(strlen(m_pszDebugMethodName) + 1),
                                        DataImage::ITEM_DEBUG,
                                        1);
    if (m_pszDebugClassName && !image->IsStored(m_pszDebugClassName))
        image->StoreStructure((void *) m_pszDebugClassName,
                                        (ULONG)(strlen(m_pszDebugClassName) + 1),
                                        DataImage::ITEM_DEBUG,
                                        1);
    if (m_pszDebugMethodSignature && !image->IsStored(m_pszDebugMethodSignature))
        image->StoreStructure((void *) m_pszDebugMethodSignature,
                                        (ULONG)(strlen(m_pszDebugMethodSignature) + 1),
                                        DataImage::ITEM_DEBUG,
                                        1);
#endif // _DEBUG

    if (IsMethodImpl())
    {
        MethodImpl *pImpl = GetMethodImpl();

        pImpl->Save(image);
    }

    if (IsNDirect())
    {
        EX_TRY
        {
            PInvokeStaticSigInfo sigInfo;
            NDirect::PopulateNDirectMethodDesc((NDirectMethodDesc*)this, &sigInfo);
        }
        EX_CATCH
        {
        }
        EX_END_CATCH(RethrowTerminalExceptions);
    }

    if (HasStoredSig())
    {
        StoredSigMethodDesc *pNewSMD = (StoredSigMethodDesc*) this;

        if (pNewSMD->HasStoredMethodSig())
        {
            if (!image->IsStored((void *) pNewSMD->m_pSig.GetValueMaybeNull()))
            {
                // Store signatures that doesn't need restore into a read only section.
                DataImage::ItemKind sigItemKind = DataImage::ITEM_STORED_METHOD_SIG_READONLY;
                // Place the signatures for stubs-as-il into hot/cold or writeable section
                // here since Module::Arrange won't place them for us.
                if (IsILStub())
                {
                    PTR_DynamicMethodDesc pDynamicMD = AsDynamicMethodDesc();
                    // Forward PInvoke never touches the signature at runtime, only reverse pinvoke does.
                    if (pDynamicMD->IsReverseStub())
                    {
                        sigItemKind = DataImage::ITEM_STORED_METHOD_SIG_READONLY_WARM;
                    }

                    if (FixupSignatureContainingInternalTypes(image, 
                        (PCCOR_SIGNATURE) pNewSMD->m_pSig.GetValueMaybeNull(),
                        pNewSMD->m_cSig, 
                        true /*checkOnly if we will need to restore the signature without doing fixup*/))
                    {
                        sigItemKind = DataImage::ITEM_STORED_METHOD_SIG;
                    }
                }

                image->StoreInternedStructure((void *) pNewSMD->m_pSig.GetValueMaybeNull(),
                                         pNewSMD->m_cSig,
                                         sigItemKind,
                                         1);
            }
        }
    }
    
    if (GetMethodDictionary())
    {
        DWORD cBytes = DictionaryLayout::GetFirstDictionaryBucketSize(GetNumGenericMethodArgs(), GetDictionaryLayout());
        void* pBytes = GetMethodDictionary()->AsPtr();

        LOG((LF_ZAP, LL_INFO10000, "    MethodDesc::Save dictionary size %d\n", cBytes));
        image->StoreStructure(pBytes, cBytes,
                            DataImage::ITEM_DICTIONARY_WRITEABLE);
    }

    if (HasMethodInstantiation())
    {
        InstantiatedMethodDesc* pIMD = AsInstantiatedMethodDesc();
        if (pIMD->IMD_IsSharedByGenericMethodInstantiations() && !pIMD->m_pDictLayout.IsNull())
        {
            pIMD->m_pDictLayout.GetValue()->Save(image);
        }
    }
    if (IsNDirect())
    {
        NDirectMethodDesc *pNMD = (NDirectMethodDesc *)this;

        // Make sure that the marshaling required flag is computed
        pNMD->MarshalingRequired();
        
        if (!pNMD->IsQCall())
        {
            //Cache DefaultImportDllImportSearchPaths attribute.
            pNMD->HasDefaultDllImportSearchPathsAttribute();
        }

        image->StoreStructure(pNMD->GetWriteableData(),
                                sizeof(NDirectWriteableData),
                                DataImage::ITEM_METHOD_DESC_COLD_WRITEABLE);

#ifdef HAS_NDIRECT_IMPORT_PRECODE
        if (!pNMD->MarshalingRequired())
        {
            // import thunk is only needed if the P/Invoke is inlinable
#if defined(_TARGET_X86_) || defined(_TARGET_AMD64_)  
            image->SavePrecode(pNMD->GetNDirectImportThunkGlue(), pNMD, PRECODE_NDIRECT_IMPORT, DataImage::ITEM_METHOD_PRECODE_COLD);
#else
            image->StoreStructure(pNMD->GetNDirectImportThunkGlue(), sizeof(NDirectImportThunkGlue), DataImage::ITEM_METHOD_PRECODE_COLD);
#endif
        }
#endif

        if (pNMD->IsQCall())
        {
            // Make sure QCall id is cached
            ECall::GetQCallImpl(this);
            _ASSERTE(pNMD->GetECallID() != 0);    
        }
        else
        {
            LPCUTF8 pszLibName = pNMD->GetLibName();
            if (pszLibName && !image->IsStored(pszLibName))
            {
                image->StoreStructure(pszLibName,
                                      (ULONG)strlen(pszLibName) + 1,
                                      DataImage::ITEM_STORED_METHOD_NAME,
                                      1);
            }

            LPCUTF8 pszEntrypointName = pNMD->GetEntrypointName();
            if (pszEntrypointName != NULL && !image->IsStored(pszEntrypointName))
            {
                image->StoreStructure(pszEntrypointName,
                                      (ULONG)strlen(pszEntrypointName) + 1,
                                      DataImage::ITEM_STORED_METHOD_NAME,
                                      1);
            }
        }
    }

    // ContainsGenericVariables() check is required to support generic FCalls 
    // (only instance methods on generic types constrained to "class" are allowed)
    if(!IsUnboxingStub() && IsFCall() && !GetMethodTable()->ContainsGenericVariables())
    {
        // Make sure that ECall::GetFCallImpl is called for all methods. It has the
        // side effect of adding the methoddesc to the reverse fcall hash table.
        // MethodDesc::Save would eventually return to Module::Save which is where
        // we would save the reverse fcall table also. Thus this call is effectively populating
        // that reverse fcall table.

        ECall::GetFCallImpl(this);
    }

    if (IsDynamicMethod())
    {
        DynamicMethodDesc *pDynMeth = AsDynamicMethodDesc();
        if (!pDynMeth->m_pszMethodName.IsNull()
            && !image->IsStored(pDynMeth->m_pszMethodName.GetValue()))
            image->StoreStructure((void *) pDynMeth->m_pszMethodName.GetValue(),
                                  (ULONG)(strlen(pDynMeth->m_pszMethodName.GetValue()) + 1),
                                  DataImage::ITEM_STORED_METHOD_NAME,
                                  1);
    }

#ifdef FEATURE_COMINTEROP
    if (IsComPlusCall())
    {
        ComPlusCallMethodDesc *pCMD = (ComPlusCallMethodDesc *)this;
        ComPlusCallInfo *pComInfo = pCMD->m_pComPlusCallInfo;

        if (pComInfo != NULL && pComInfo->ShouldSave(image))
        {
            image->StoreStructure(pCMD->m_pComPlusCallInfo,
                                  sizeof(ComPlusCallInfo),
                                  DataImage::ITEM_METHOD_DESC_COLD_WRITEABLE);
        }
    }
#endif // FEATURE_COMINTEROP

    LOG((LF_ZAP, LL_INFO10000, "  MethodDesc::Save %S (%p) complete\n", s.GetUnicode(), this));

}

//*******************************************************************************
bool MethodDesc::CanSkipDoPrestub (
        MethodDesc *   callerMD,
        CorInfoIndirectCallReason *pReason,
        CORINFO_ACCESS_FLAGS    accessFlags/*=CORINFO_ACCESS_ANY*/)
{
    STANDARD_VM_CONTRACT;

    CorInfoIndirectCallReason dummy;
    if (pReason == NULL)
        pReason = &dummy;
    *pReason = CORINFO_INDIRECT_CALL_UNKNOWN;

    // Only IL can be called directly
    if (!IsIL())
    {
        // Pretend that IL stubs can be called directly. It allows us to not have
        // useless precode for IL stubs
        if (IsILStub())
            return true;

        if (IsNDirect())
        {
            *pReason = CORINFO_INDIRECT_CALL_PINVOKE;
            return false;
        }

        *pReason = CORINFO_INDIRECT_CALL_EXOTIC;
        return false;
    }

    // @todo generics: Until we fix the RVA map in zapper.cpp to be instantiation-aware, this must remain
    CheckRestore();

    // The wrapper stubs cannot be called directly (like any other stubs)
    if (IsWrapperStub())
    {
        *pReason = CORINFO_INDIRECT_CALL_STUB;
        return false;
    }


    // Check whether our methoddesc needs restore
    if (NeedsRestore(GetAppDomain()->ToCompilationDomain()->GetTargetImage(), TRUE))
    {
        // The speculative method instantiations are restored by the time we call them via indirection.
        if (!IsTightlyBoundToMethodTable() &&
            GetLoaderModule() != Module::GetPreferredZapModuleForMethodDesc(this))
        {
            // We should only take this codepath to determine whether method needs prestub.
            // Cross module calls should be filtered out by CanEmbedMethodHandle earlier.
            _ASSERTE(GetLoaderModule() == GetAppDomain()->ToCompilationDomain()->GetTargetModule());

            return true;
        }

        *pReason = CORINFO_INDIRECT_CALL_RESTORE_METHOD;
        return false;
    }

    /////////////////////////////////////////////////////////////////////////////////
    // The method looks OK. Check class restore.
    MethodTable * calleeMT = GetMethodTable();

    // If no need for restore, we can call direct.
    if (!calleeMT->NeedsRestore(GetAppDomain()->ToCompilationDomain()->GetTargetImage()))
        return true;

    // We will override this with more specific reason if we find one
    *pReason = CORINFO_INDIRECT_CALL_RESTORE;

    /////////////////////////////////////////////////////////////////////////////////
    // Try to prove that we have done the restore already.

    // If we're calling the same class, we can assume already initialized.
    if (callerMD != NULL)
    {
        MethodTable * callerMT = callerMD->GetMethodTable();
        if (calleeMT == callerMT)
            return true;
    }

    // If we are called on non-NULL this pointer, we can assume that class is initialized.
    if (accessFlags & CORINFO_ACCESS_NONNULL)
    {
        // Static methods may be first time call on the class
        if (IsStatic())
        {
            *pReason = CORINFO_INDIRECT_CALL_RESTORE_FIRST_CALL;
        }
        else
        // In some cases, instance value type methods may be called before an instance initializer
        if (calleeMT->IsValueType())
        {
            *pReason = CORINFO_INDIRECT_CALL_RESTORE_VALUE_TYPE;
        }
        else
        {
            // Otherwise, we conclude that there must have been at least one call on the class already.
            return true;
        }
    }

    // If child calls its parent class, we can assume already restored.
    if (callerMD != NULL)
    {
        MethodTable * parentMT = callerMD->GetMethodTable()->GetParentMethodTable();
        while (parentMT != NULL)
        {
            if (calleeMT == parentMT)
                return true;
            parentMT = parentMT->GetParentMethodTable();
        }
    }

    // The speculative method table instantiations are restored by the time we call methods on them via indirection.
    if (IsTightlyBoundToMethodTable() &&
        calleeMT->GetLoaderModule() != Module::GetPreferredZapModuleForMethodTable(calleeMT))
    {
        // We should only take this codepath to determine whether method needs prestub.
        // Cross module calls should be filtered out by CanEmbedMethodHandle earlier.
        _ASSERTE(calleeMT->GetLoaderModule() == GetAppDomain()->ToCompilationDomain()->GetTargetModule());

        return true;
    }

    // Note: Reason for restore has been initialized earlier
    return false;
}

//*******************************************************************************
BOOL MethodDesc::ComputeNeedsRestore(DataImage *image, TypeHandleList *pVisited, BOOL fAssumeMethodTableRestored/*=FALSE*/)
{
    STATIC_STANDARD_VM_CONTRACT;

    _ASSERTE(GetAppDomain()->IsCompilationDomain());

    MethodTable * pMT = GetMethodTable();

    if (!IsTightlyBoundToMethodTable())
    {
        if (!image->CanEagerBindToMethodTable(pMT))                
            return TRUE;
    }

    if (!fAssumeMethodTableRestored)
    {
        if (pMT->ComputeNeedsRestore(image, pVisited))
            return TRUE;
    }

    if (GetClassification() == mcInstantiated)
    {
        InstantiatedMethodDesc* pIMD = AsInstantiatedMethodDesc();

        if (pIMD->IMD_IsWrapperStubWithInstantiations())
        {
            if (!image->CanPrerestoreEagerBindToMethodDesc(pIMD->m_pWrappedMethodDesc.GetValue(), pVisited))
                return TRUE;

            if (!image->CanHardBindToZapModule(pIMD->m_pWrappedMethodDesc.GetValue()->GetLoaderModule()))
                return TRUE;
        }

        if (GetMethodDictionary())
        {
            if (GetMethodDictionary()->ComputeNeedsRestore(image, pVisited, GetNumGenericMethodArgs()))
                return TRUE;
        }
    }

    return FALSE;
}


//---------------------------------------------------------------------------------------
// 
// Fixes up ET_INTERNAL TypeHandles in an IL stub signature. If at least one type is fixed up
// marks the signature as "needs restore".  Also handles probing through generic instantiations
// to find ET_INTERNAL TypeHandles used as the generic type or its parameters.
// 
// This function will parse one type and expects psig to be pointing to the element type.  If
// the type is a generic instantiation, we will recursively parse it.
//
bool 
FixupSignatureContainingInternalTypesParseType(
    DataImage *     image, 
    PCCOR_SIGNATURE pOriginalSig,
    SigPointer &    psig, 
    bool checkOnly)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    SigPointer sigOrig = psig;

    CorElementType eType;
    IfFailThrow(psig.GetElemType(&eType));

    switch (eType)
    {
    case ELEMENT_TYPE_INTERNAL:
        {
            TypeHandle * pTypeHandle = (TypeHandle *)psig.GetPtr();

            void * ptr;
            IfFailThrow(psig.GetPointer(&ptr));

            if (!checkOnly)
            {
                // Always force creation of fixup to avoid unaligned relocation entries. Unaligned
                // relocations entries are perf hit for ASLR, and they even disable ASLR on ARM.
                image->FixupTypeHandlePointerInPlace((BYTE *)pOriginalSig, (BYTE *)pTypeHandle - (BYTE *)pOriginalSig, TRUE);

                // mark the signature so we know we'll need to restore it
                BYTE *pImageSig = (BYTE *)image->GetImagePointer((PVOID)pOriginalSig);
                *pImageSig |= IMAGE_CEE_CS_CALLCONV_NEEDSRESTORE;
            }
        }
        return true;

    case ELEMENT_TYPE_GENERICINST:
        {
            bool needsRestore = FixupSignatureContainingInternalTypesParseType(image, pOriginalSig, psig, checkOnly);
            
            // Get generic arg count
            ULONG nArgs;
            IfFailThrow(psig.GetData(&nArgs));
            
            for (ULONG i = 0; i < nArgs; i++)
            {
                if (FixupSignatureContainingInternalTypesParseType(image, pOriginalSig, psig, checkOnly))
                {
                    needsRestore = true;
                }
            }

            // Return.  We don't want to call psig.SkipExactlyOne in this case since we've manually
            // parsed through the generic inst type.
            return needsRestore;
        }

    case ELEMENT_TYPE_BYREF:
    case ELEMENT_TYPE_PTR:
    case ELEMENT_TYPE_PINNED:
    case ELEMENT_TYPE_SZARRAY:
        // Call recursively
        return FixupSignatureContainingInternalTypesParseType(image, pOriginalSig, psig, checkOnly);

    default:
        IfFailThrow(sigOrig.SkipExactlyOne());
        psig = sigOrig;
        break;
    }

    return false;
}

//---------------------------------------------------------------------------------------
// 
// Fixes up ET_INTERNAL TypeHandles in an IL stub signature. If at least one type is fixed up
// marks the signature as "needs restore".
// 
bool 
FixupSignatureContainingInternalTypes(
    DataImage *     image, 
    PCCOR_SIGNATURE pSig, 
    DWORD           cSig, 
    bool checkOnly)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;
    
    ULONG nArgs;
    bool needsRestore = false;

    SigPointer psig(pSig, cSig);

    // Skip calling convention
    BYTE uCallConv;
    IfFailThrow(psig.GetByte(&uCallConv));

    if ((uCallConv & IMAGE_CEE_CS_CALLCONV_MASK) == IMAGE_CEE_CS_CALLCONV_FIELD)
    {
        ThrowHR(META_E_BAD_SIGNATURE);
    }

    // Skip type parameter count
    if (uCallConv & IMAGE_CEE_CS_CALLCONV_GENERIC)
    {
        IfFailThrow(psig.GetData(NULL));
    }

    // Get arg count
    IfFailThrow(psig.GetData(&nArgs));

    nArgs++;  // be sure to handle the return type

    for (ULONG i = 0; i < nArgs; i++)
    {
        if (FixupSignatureContainingInternalTypesParseType(image, pSig, psig, checkOnly))
        {
            needsRestore = true;
        }
    }
    return needsRestore;
} // FixupSignatureContainingInternalTypes
#endif // FEATURE_NATIVE_IMAGE_GENERATION

#ifdef FEATURE_PREJIT
//---------------------------------------------------------------------------------------
// 
// Restores ET_INTERNAL TypeHandles in an IL stub signature.
// This function will parse one type and expects psig to be pointing to the element type.  If
// the type is a generic instantiation, we will recursively parse it.
// 
void
RestoreSignatureContainingInternalTypesParseType(
    SigPointer &    psig)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    SigPointer sigOrig = psig;

    CorElementType eType;
    IfFailThrow(psig.GetElemType(&eType));

    switch (eType)
    {
    case ELEMENT_TYPE_INTERNAL:
        {
            TypeHandle * pTypeHandle = (TypeHandle *)psig.GetPtr();

            void * ptr;
            IfFailThrow(psig.GetPointer(&ptr));

            Module::RestoreTypeHandlePointerRaw(pTypeHandle);
        }
        break;

    case ELEMENT_TYPE_GENERICINST:
        {
            RestoreSignatureContainingInternalTypesParseType(psig);
            
            // Get generic arg count
            ULONG nArgs;
            IfFailThrow(psig.GetData(&nArgs));
            
            for (ULONG i = 0; i < nArgs; i++)
            {
                RestoreSignatureContainingInternalTypesParseType(psig);
            }
        }
        break;

    case ELEMENT_TYPE_BYREF:
    case ELEMENT_TYPE_PTR:
    case ELEMENT_TYPE_PINNED:
    case ELEMENT_TYPE_SZARRAY:
        // Call recursively
        RestoreSignatureContainingInternalTypesParseType(psig);
        break;

    default:
        IfFailThrow(sigOrig.SkipExactlyOne());
        psig = sigOrig;
        break;
    }
}

//---------------------------------------------------------------------------------------
// 
// Restores ET_INTERNAL TypeHandles in an IL stub signature.
// 
static
void
RestoreSignatureContainingInternalTypes(
    PCCOR_SIGNATURE pSig, 
    DWORD           cSig)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    Volatile<BYTE> * pVolatileSig = (Volatile<BYTE> *)pSig;
    if (*pVolatileSig & IMAGE_CEE_CS_CALLCONV_NEEDSRESTORE)
    {
        EnsureWritablePages(dac_cast<void*>(pSig), cSig);

        ULONG nArgs;
        SigPointer psig(pSig, cSig);

        // Skip calling convention
        BYTE uCallConv;
        IfFailThrow(psig.GetByte(&uCallConv));

        if ((uCallConv & IMAGE_CEE_CS_CALLCONV_MASK) == IMAGE_CEE_CS_CALLCONV_FIELD)
        {
            ThrowHR(META_E_BAD_SIGNATURE);
        }

        // Skip type parameter count
        if (uCallConv & IMAGE_CEE_CS_CALLCONV_GENERIC)
        {
            IfFailThrow(psig.GetData(NULL));
        }

        // Get arg count
        IfFailThrow(psig.GetData(&nArgs));

        nArgs++;  // be sure to handle the return type

        for (ULONG i = 0; i < nArgs; i++)
        {
            RestoreSignatureContainingInternalTypesParseType(psig);
        }

        // clear the needs-restore bit
        *pVolatileSig &= (BYTE)~IMAGE_CEE_CS_CALLCONV_NEEDSRESTORE;
    }
} // RestoreSignatureContainingInternalTypes

void DynamicMethodDesc::Restore()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    if (IsSignatureNeedsRestore())
    {
        _ASSERTE(IsILStub());

        DWORD cSigLen;
        PCCOR_SIGNATURE pSig = GetStoredMethodSig(&cSigLen);

        RestoreSignatureContainingInternalTypes(pSig, cSigLen);
    }
}
#else // FEATURE_PREJIT
void DynamicMethodDesc::Restore()
{
}
#endif // FEATURE_PREJIT

#ifdef FEATURE_NATIVE_IMAGE_GENERATION
void DynamicMethodDesc::Fixup(DataImage* image)
{
    STANDARD_VM_CONTRACT;
    
    DWORD cSigLen;
    PCCOR_SIGNATURE pSig = GetStoredMethodSig(&cSigLen);

    bool needsRestore = FixupSignatureContainingInternalTypes(image, pSig, cSigLen);

    DynamicMethodDesc* pDynamicImageMD = (DynamicMethodDesc*)image->GetImagePointer(this);
    pDynamicImageMD->SetSignatureNeedsRestore(needsRestore);
}

//---------------------------------------------------------------------------------------
// 
void 
MethodDesc::Fixup(
    DataImage * image)
{
    STANDARD_VM_CONTRACT;

#ifdef _DEBUG
    SString s;
    if (LoggingOn(LF_ZAP, LL_INFO10000))
    {
        TypeString::AppendMethodDebug(s, this);
        LOG((LF_ZAP, LL_INFO10000, "  MethodDesc::Fixup %S (%p)\n", s.GetUnicode(), this));
    }
#endif // _DEBUG

#ifdef HAVE_GCCOVER
    image->ZeroPointerField(this, offsetof(MethodDesc, m_GcCover));
#endif // HAVE_GCCOVER

#if _DEBUG
    image->ZeroPointerField(this, offsetof(MethodDesc, m_pszDebugMethodName));
    image->FixupPointerField(this, offsetof(MethodDesc, m_pszDebugMethodName));
    image->FixupPointerField(this, offsetof(MethodDesc, m_pszDebugClassName));
    image->FixupPointerField(this, offsetof(MethodDesc, m_pszDebugMethodSignature));
    if (IsTightlyBoundToMethodTable())
    {
        image->FixupPointerField(this, offsetof(MethodDesc, m_pDebugMethodTable));
    }
    else
    {
        image->FixupMethodTablePointer(this, &m_pDebugMethodTable);
    }
#endif // _DEBUG

    MethodDesc *pNewMD = (MethodDesc*) image->GetImagePointer(this);
    PREFIX_ASSUME(pNewMD != NULL);

    // Fixup the chunk header as part of the first MethodDesc in the chunk
    if (pNewMD->m_chunkIndex == 0)
    {
        MethodDescChunk * pNewChunk = pNewMD->GetMethodDescChunk();

        // For most MethodDescs we can always directly bind to the method table, because
        // the MT is guaranteed to be in the same image.  In other words the MethodDescs and the
        // MethodTable are guaranteed to be "tightly-bound", i.e. if one is present in
        // an NGEN image then then other will be, and if one is used at runtime then
        // the other will be too.  In these cases we always want to hardbind the pointer.
        //
        // However for generic method instantiations and other funky MDs managed by the InstMethHashTable
        // the method table might be saved another module.  Whether these get "used" at runtime
        // is a decision taken by the MethodDesc loading code in genmeth.cpp (FindOrCreateAssociatedMethodDesc),
        // and is independent of the decision of whether the method table gets used.

        if (IsTightlyBoundToMethodTable())
        {
            image->FixupRelativePointerField(pNewChunk, offsetof(MethodDescChunk, m_methodTable));
        }
        else
        {
            image->FixupMethodTablePointer(pNewChunk, &pNewChunk->m_methodTable);
        }

        if (!pNewChunk->m_next.IsNull())
        {
            image->FixupRelativePointerField(pNewChunk, offsetof(MethodDescChunk, m_next));
        }
    }

    if (pNewMD->HasPrecode())
    {
        Precode* pPrecode = GetSavedPrecode(image);

        // Fixup the precode if we have stored it
        pPrecode->Fixup(image, this);
    }

    if (IsDynamicMethod())
    {
        image->ZeroPointerField(this, offsetof(DynamicMethodDesc, m_pResolver));
        image->FixupRelativePointerField(this, offsetof(DynamicMethodDesc, m_pszMethodName));
    }

    if (GetClassification() == mcInstantiated)
    {
        InstantiatedMethodDesc* pIMD = AsInstantiatedMethodDesc();
        BOOL needsRestore = NeedsRestore(image);

        if (pIMD->IMD_IsWrapperStubWithInstantiations())
        {
            image->FixupMethodDescPointer(pIMD, &pIMD->m_pWrappedMethodDesc);
        }
        else
        {
            if (pIMD->IMD_IsSharedByGenericMethodInstantiations())
            {
                pIMD->m_pDictLayout.GetValue()->Fixup(image, TRUE);
                image->FixupRelativePointerField(this, offsetof(InstantiatedMethodDesc, m_pDictLayout));
            }
        }

        image->FixupPlainOrRelativePointerField((InstantiatedMethodDesc*) this, &InstantiatedMethodDesc::m_pPerInstInfo);

        // Generic methods are dealt with specially to avoid encoding the formal method type parameters
        if (IsTypicalMethodDefinition())
        {
            Instantiation inst = GetMethodInstantiation();
            FixupPointer<TypeHandle> * pInst = inst.GetRawArgs();
            for (DWORD j = 0; j < inst.GetNumArgs(); j++)
            {
                image->FixupTypeHandlePointer(pInst, &pInst[j]);
            }
        }
        else if (GetMethodDictionary())
        {
            LOG((LF_JIT, LL_INFO10000, "GENERICS: Fixup dictionary for MD %s\n",
                m_pszDebugMethodName ? m_pszDebugMethodName : "<no-name>"));
            BOOL canSaveInstantiation = TRUE;
            if (IsGenericMethodDefinition() && !IsTypicalMethodDefinition())
            {
                if (GetMethodDictionary()->ComputeNeedsRestore(image, NULL, GetNumGenericMethodArgs()))
                {
                    _ASSERTE(needsRestore);
                    canSaveInstantiation = FALSE;
                }
                else
                {
                    Instantiation inst = GetMethodInstantiation();
                    FixupPointer<TypeHandle> * pInst = inst.GetRawArgs();
                    for (DWORD j = 0; j < inst.GetNumArgs(); j++)
                    {
                        TypeHandle th = pInst[j].GetValue();
                        if (!th.IsNull())
                        {
                            if (!(image->CanEagerBindToTypeHandle(th) && image->CanHardBindToZapModule(th.GetLoaderModule())))
                            {
                                canSaveInstantiation = FALSE;
                                needsRestore = TRUE;
                                break;
                            }
                        }
                    }                    
                }
            }
            // We can only save the (non-instantiation) slots of
            // the dictionary if we are compiling against a known and fixed
            // dictionary layout.  That will only be the case if we can hardbind
            // to the shared method desc (which owns the dictionary layout).
            // If we are not a wrapper stub then
            // there won't be any (non-instantiation) slots in the dictionary.
            BOOL canSaveSlots =
                pIMD->IMD_IsWrapperStubWithInstantiations() &&
                image->CanEagerBindToMethodDesc(pIMD->IMD_GetWrappedMethodDesc());

            GetMethodDictionary()->Fixup(image,
                                         canSaveInstantiation,
                                         canSaveSlots,
                                         GetNumGenericMethodArgs(), 
                                         GetModule(),
                                         GetDictionaryLayout());
        }

        if (needsRestore)
        {
            InstantiatedMethodDesc* pNewIMD = (InstantiatedMethodDesc *) image->GetImagePointer(this);
            if (pNewIMD == NULL)
                COMPlusThrowHR(E_POINTER);

            pNewIMD->m_wFlags2 |= InstantiatedMethodDesc::Unrestored;
        }
    }

    if (IsNDirect())
    {
        //
        // For now, set method desc back into its pristine uninitialized state.
        //

        NDirectMethodDesc *pNMD = (NDirectMethodDesc *)this;

        image->FixupPlainOrRelativePointerField(pNMD, &NDirectMethodDesc::ndirect, &decltype(NDirectMethodDesc::ndirect)::m_pWriteableData);

        NDirectWriteableData *pWriteableData = pNMD->GetWriteableData();
        NDirectImportThunkGlue *pImportThunkGlue = pNMD->GetNDirectImportThunkGlue();

#ifdef HAS_NDIRECT_IMPORT_PRECODE
        if (!pNMD->MarshalingRequired())
        {
            image->FixupField(pWriteableData, offsetof(NDirectWriteableData, m_pNDirectTarget),
                pImportThunkGlue, Precode::GetEntryPointOffset());
        }
        else
        {
            image->ZeroPointerField(pWriteableData, offsetof(NDirectWriteableData, m_pNDirectTarget));
        }
#else // HAS_NDIRECT_IMPORT_PRECODE
        PORTABILITY_WARNING("NDirectImportThunkGlue");
#endif // HAS_NDIRECT_IMPORT_PRECODE

        image->ZeroPointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pNativeNDirectTarget));

#ifdef HAS_NDIRECT_IMPORT_PRECODE
        if (!pNMD->MarshalingRequired())
        {
            // import thunk is only needed if the P/Invoke is inlinable
            image->FixupRelativePointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pImportThunkGlue));
            ((Precode*)pImportThunkGlue)->Fixup(image, this);
        }
        else
        {
            image->ZeroPointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pImportThunkGlue));
        }
#else // HAS_NDIRECT_IMPORT_PRECODE
        PORTABILITY_WARNING("NDirectImportThunkGlue");
#endif // HAS_NDIRECT_IMPORT_PRECODE

        if (!IsQCall())
        {
            image->FixupRelativePointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pszLibName));
            image->FixupRelativePointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pszEntrypointName));
        }
        
        if (image->IsStored(pNMD->ndirect.m_pStubMD.GetValueMaybeNull()))
            image->FixupRelativePointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pStubMD));
        else
            image->ZeroPointerField(this, offsetof(NDirectMethodDesc, ndirect.m_pStubMD));
    }

    if (HasStoredSig())
    {
        image->FixupRelativePointerField(this, offsetof(StoredSigMethodDesc, m_pSig));

        // The DynamicMethodDescs used for IL stubs may have a signature that refers to
        // runtime types using ELEMENT_TYPE_INTERNAL.  We need to fixup these types here.
        if (IsILStub())
        {
            PTR_DynamicMethodDesc pDynamicMD = AsDynamicMethodDesc();
            pDynamicMD->Fixup(image);
        }
    }

#ifdef FEATURE_COMINTEROP
    if (IsComPlusCall())
    {
        ComPlusCallMethodDesc *pComPlusMD = (ComPlusCallMethodDesc*)this;
        ComPlusCallInfo *pComInfo = pComPlusMD->m_pComPlusCallInfo;

        if (image->IsStored(pComInfo))
        {
            image->FixupPointerField(pComPlusMD, offsetof(ComPlusCallMethodDesc, m_pComPlusCallInfo));
            pComInfo->Fixup(image);
        }
        else
        {
            image->ZeroPointerField(pComPlusMD, offsetof(ComPlusCallMethodDesc, m_pComPlusCallInfo));
        }
    }
    else if (IsGenericComPlusCall())
    {
        ComPlusCallInfo *pComInfo = AsInstantiatedMethodDesc()->IMD_GetComPlusCallInfo();
        pComInfo->Fixup(image);
    }
#endif // FEATURE_COMINTEROP

    SIZE_T currentSize = GetBaseSize();

    //
    // Save all optional members
    //

    if (HasNonVtableSlot())
    {
        FixupSlot(image, this, currentSize, IMAGE_REL_BASED_RelativePointer);

        currentSize += sizeof(NonVtableSlot);
    }

    if (IsMethodImpl())
    {
        MethodImpl *pImpl = GetMethodImpl();

        pImpl->Fixup(image, this, currentSize);

        currentSize += sizeof(MethodImpl);
    }

    if (pNewMD->HasNativeCodeSlot())
    {
        ZapNode * pCodeNode = image->GetCodeAddress(this);
        ZapNode * pFixupList = image->GetFixupList(this);

        if (pCodeNode != NULL)
            image->FixupFieldToNode(this, currentSize, pCodeNode, (pFixupList != NULL) ? 1 : 0, IMAGE_REL_BASED_RelativePointer);
        currentSize += sizeof(NativeCodeSlot);

        if (pFixupList != NULL)
        {
            image->FixupFieldToNode(this, currentSize, pFixupList, 0, IMAGE_REL_BASED_RelativePointer);
            currentSize += sizeof(FixupListSlot);
        }
    }
} // MethodDesc::Fixup

//*******************************************************************************
Precode* MethodDesc::GetSavedPrecode(DataImage *image)
{
    STANDARD_VM_CONTRACT;

    Precode * pPrecode = (Precode *)image->LookupSurrogate(this);
    _ASSERTE(pPrecode != NULL);
    _ASSERTE(pPrecode->IsCorrectMethodDesc(this));

    return pPrecode;
}

Precode* MethodDesc::GetSavedPrecodeOrNull(DataImage *image)
{
    STANDARD_VM_CONTRACT;

    Precode * pPrecode = (Precode *)image->LookupSurrogate(this);
    if (pPrecode == NULL)
    {
        return NULL;
    }

    _ASSERTE(pPrecode->IsCorrectMethodDesc(this));

    return pPrecode;
}

//*******************************************************************************
void MethodDesc::FixupSlot(DataImage *image, PVOID p, SSIZE_T offset, ZapRelocationType type)
{
    STANDARD_VM_CONTRACT;


    Precode* pPrecode = GetSavedPrecodeOrNull(image);
    if (pPrecode != NULL)
    {
        // Use the precode if we have decided to store it
        image->FixupField(p, offset, pPrecode, Precode::GetEntryPointOffset(), type);
    }
    else
    {
        _ASSERTE(MayHaveNativeCode());
        ZapNode *code = image->GetCodeAddress(this);
        _ASSERTE(code != 0);
        image->FixupFieldToNode(p, offset, code, Precode::GetEntryPointOffset(), type);
    }
}

//*******************************************************************************
SIZE_T MethodDesc::SaveChunk::GetSavedMethodDescSize(MethodInfo * pMethodInfo)
{
    LIMITED_METHOD_CONTRACT;
    MethodDesc * pMD = pMethodInfo->m_pMD;

    SIZE_T size = pMD->GetBaseSize();

    if (pMD->HasNonVtableSlot())
        size += sizeof(NonVtableSlot);

    if (pMD->IsMethodImpl())
        size += sizeof(MethodImpl);

    if (pMethodInfo->m_fHasNativeCodeSlot)
    {
        size += sizeof(NativeCodeSlot);

        if (pMethodInfo->m_fHasFixupList)
            size += sizeof(FixupListSlot);
    }

#ifdef FEATURE_COMINTEROP
    if (pMD->IsGenericComPlusCall())
        size += sizeof(ComPlusCallInfo);
#endif // FEATURE_COMINTEROP

    _ASSERTE(size % MethodDesc::ALIGNMENT == 0);

    return size;
}

//*******************************************************************************
void MethodDesc::SaveChunk::SaveOneChunk(COUNT_T start, COUNT_T count, ULONG sizeOfMethodDescs, DWORD priority)
{
    STANDARD_VM_CONTRACT;
    DataImage::ItemKind kind;

    switch (priority)
    {
    case HotMethodDesc:
        kind = DataImage::ITEM_METHOD_DESC_HOT;
        break;
    case WriteableMethodDesc:
        kind = DataImage::ITEM_METHOD_DESC_HOT_WRITEABLE;
        break;
    case ColdMethodDesc:
        kind = DataImage::ITEM_METHOD_DESC_COLD;
        break;
    case ColdWriteableMethodDesc:
        kind = DataImage::ITEM_METHOD_DESC_COLD_WRITEABLE;
        break;
    default:
        UNREACHABLE();
    }

    ULONG size = sizeOfMethodDescs + sizeof(MethodDescChunk);
    ZapStoredStructure * pNode = m_pImage->StoreStructure(NULL, size, kind);

    BYTE * pData = (BYTE *)m_pImage->GetImagePointer(pNode);

    MethodDescChunk * pNewChunk = (MethodDescChunk *)pData;

    // Bind the image space so we can use the regular fixup helpers
    m_pImage->BindPointer(pNewChunk, pNode, 0);

    pNewChunk->SetMethodTable(m_methodInfos[start].m_pMD->GetMethodTable());

    pNewChunk->SetIsZapped();
    pNewChunk->SetTokenRange(GetTokenRange(m_methodInfos[start].m_pMD->GetMemberDef()));

    pNewChunk->SetSizeAndCount(sizeOfMethodDescs, count);

    Precode::SaveChunk precodeSaveChunk; // Helper for saving precodes in chunks

    ULONG offset = sizeof(MethodDescChunk);
    for (COUNT_T i = 0; i < count; i++)
    {
        MethodInfo * pMethodInfo = &(m_methodInfos[start + i]);
        MethodDesc * pMD = pMethodInfo->m_pMD;

        m_pImage->BindPointer(pMD, pNode, offset);

        pMD->Save(m_pImage);

        MethodDesc * pNewMD = (MethodDesc *)(pData + offset);

        CopyMemory(pNewMD, pMD, pMD->GetBaseSize());

        if (pMD->IsMethodImpl())
            CopyMemory(pNewMD->GetMethodImpl(), pMD->GetMethodImpl(), sizeof(MethodImpl));
        else
            pNewMD->m_wFlags &= ~mdcMethodImpl;

        pNewMD->m_chunkIndex = (BYTE) ((offset - sizeof(MethodDescChunk)) / MethodDesc::ALIGNMENT);
        _ASSERTE(pNewMD->GetMethodDescChunk() == pNewChunk);

        pNewMD->m_bFlags2 |= enum_flag2_HasStableEntryPoint;
        if (pMethodInfo->m_fHasPrecode)
        {
            precodeSaveChunk.Save(m_pImage, pMD);
            pNewMD->m_bFlags2 |= enum_flag2_HasPrecode;
        }
        else
        {
            pNewMD->m_bFlags2 &= ~enum_flag2_HasPrecode;
        }

        if (pMethodInfo->m_fHasNativeCodeSlot)
        {
            pNewMD->m_bFlags2 |= enum_flag2_HasNativeCodeSlot;
        }
        else
        {
            pNewMD->m_bFlags2 &= ~enum_flag2_HasNativeCodeSlot;
        }

#ifdef FEATURE_COMINTEROP
        if (pMD->IsGenericComPlusCall())
        {
            ComPlusCallInfo *pComInfo = pMD->AsInstantiatedMethodDesc()->IMD_GetComPlusCallInfo();

            CopyMemory(pNewMD->AsInstantiatedMethodDesc()->IMD_GetComPlusCallInfo(), pComInfo, sizeof(ComPlusCallInfo));

            m_pImage->BindPointer(pComInfo, pNode, offset + ((BYTE *)pComInfo - (BYTE *)pMD));
        }
#endif // FEATURE_COMINTEROP

        pNewMD->PrecomputeNameHash();

        offset += GetSavedMethodDescSize(pMethodInfo);
    }
    _ASSERTE(offset == sizeOfMethodDescs + sizeof(MethodDescChunk));

    precodeSaveChunk.Flush(m_pImage);

    if (m_methodInfos[start].m_pMD->IsTightlyBoundToMethodTable())
    {
        if (m_pLastChunk != NULL)
        {
            m_pLastChunk->m_next.SetValue(pNewChunk);
        }
        else
        {
            _ASSERTE(m_pFirstNode == NULL);
            m_pFirstNode = pNode;
        }
        m_pLastChunk = pNewChunk;
    }
}

//*******************************************************************************
void MethodDesc::SaveChunk::Append(MethodDesc * pMD)
{
    STANDARD_VM_CONTRACT;
#ifdef _DEBUG
    if (!m_methodInfos.IsEmpty())
    {
        // Verify that all MethodDescs in the chunk are alike
        MethodDesc * pFirstMD = m_methodInfos[0].m_pMD;

        _ASSERTE(pFirstMD->GetMethodTable() == pMD->GetMethodTable());
        _ASSERTE(pFirstMD->IsTightlyBoundToMethodTable() == pMD->IsTightlyBoundToMethodTable());
    }
    _ASSERTE(!m_pImage->IsStored(pMD));
#endif

    MethodInfo method;
    method.m_pMD = pMD;

    BYTE priority = HotMethodDesc;

    // We only write into mcInstantiated methoddescs to mark them as restored
    if (pMD->NeedsRestore(m_pImage, TRUE) && pMD->GetClassification() == mcInstantiated)
        priority |= WriteableMethodDesc; // writeable

    //
    // Determines whether the method desc should be considered hot, based
    // on a bitmap that contains entries for hot method descs.  At this
    // point the only cold method descs are those not in the bitmap.
    //
    if ((m_pImage->GetMethodProfilingFlags(pMD) & (1 << ReadMethodDesc)) == 0)
        priority |= ColdMethodDesc; // cold

    // We can have more priorities here in the future to scale well 
    // for many IBC training scenarios.

    method.m_priority = priority;

    // Save the precode if we have no directly callable code
    method.m_fHasPrecode = !m_pImage->CanDirectCall(pMD);

    // Determine optional slots that are going to be saved
    if (method.m_fHasPrecode)
    {
        method.m_fHasNativeCodeSlot = pMD->MayHaveNativeCode();

        if (method.m_fHasNativeCodeSlot)
        {
            method.m_fHasFixupList = (m_pImage->GetFixupList(pMD) != NULL);
        }
        else
        {
            _ASSERTE(m_pImage->GetFixupList(pMD) == NULL);
            method.m_fHasFixupList = FALSE;
        }
    }
    else
    {
        method.m_fHasNativeCodeSlot = FALSE;

        _ASSERTE(m_pImage->GetFixupList(pMD) == NULL);
        method.m_fHasFixupList = FALSE;
    }

    m_methodInfos.Append(method);
}

//*******************************************************************************
int __cdecl MethodDesc::SaveChunk::MethodInfoCmp(const void* a_, const void* b_)
{
    LIMITED_METHOD_CONTRACT;
    // Sort by priority as primary key and token as secondary key
    MethodInfo * a = (MethodInfo *)a_;
    MethodInfo * b = (MethodInfo *)b_;

    int priorityDiff = (int)(a->m_priority - b->m_priority);
    if (priorityDiff != 0)
        return priorityDiff;

    int tokenDiff = (int)(a->m_pMD->GetMemberDef_NoLogging() - b->m_pMD->GetMemberDef_NoLogging());
    if (tokenDiff != 0)
        return tokenDiff;

    // Place unboxing stubs first, code:MethodDesc::FindOrCreateAssociatedMethodDesc depends on this invariant
    int unboxingDiff = (int)(b->m_pMD->IsUnboxingStub() - a->m_pMD->IsUnboxingStub());
    return unboxingDiff;
}

//*******************************************************************************
ZapStoredStructure * MethodDesc::SaveChunk::Save()
{
    // Sort by priority as primary key and token as secondary key
    qsort (&m_methodInfos[0],           // start of array
           m_methodInfos.GetCount(),    // array size in elements
           sizeof(MethodInfo),          // element size in bytes
           MethodInfoCmp);              // comparer function

    DWORD currentPriority = NoFlags;
    int currentTokenRange = -1;
    int nextStart = 0;
    SIZE_T sizeOfMethodDescs = 0;

    //
    // Go over all MethodDescs and create smallest number of chunks possible
    //

    for (COUNT_T i = 0; i < m_methodInfos.GetCount(); i++)
    {
        MethodInfo * pMethodInfo = &(m_methodInfos[i]);
        MethodDesc * pMD = pMethodInfo->m_pMD;

        DWORD priority = pMethodInfo->m_priority;
        int tokenRange = GetTokenRange(pMD->GetMemberDef());

        SIZE_T size = GetSavedMethodDescSize(pMethodInfo);

        // Bundle that has to be in same chunk
        SIZE_T bundleSize = size;

        if (pMD->IsUnboxingStub() && pMD->IsTightlyBoundToMethodTable())
        {
            // Wrapped method desc has to immediately follow unboxing stub, and both has to be in one chunk
            _ASSERTE(m_methodInfos[i+1].m_pMD->GetMemberDef() == m_methodInfos[i].m_pMD->GetMemberDef());

            // Make sure that both wrapped method desc and unboxing stub will fit into same chunk
            bundleSize += GetSavedMethodDescSize(&m_methodInfos[i+1]);
        }

        if (priority != currentPriority || 
            tokenRange != currentTokenRange ||
            sizeOfMethodDescs + bundleSize > MethodDescChunk::MaxSizeOfMethodDescs)
        {
            if (sizeOfMethodDescs != 0)
            {
                SaveOneChunk(nextStart, i - nextStart, sizeOfMethodDescs, currentPriority);
                nextStart = i;
            }

            currentPriority = priority;
            currentTokenRange = tokenRange;
            sizeOfMethodDescs = 0;
        }

        sizeOfMethodDescs += size;
    }

    if (sizeOfMethodDescs != 0)
        SaveOneChunk(nextStart, m_methodInfos.GetCount() - nextStart, sizeOfMethodDescs, currentPriority);

    return m_pFirstNode;
}

#ifdef FEATURE_COMINTEROP
BOOL ComPlusCallInfo::ShouldSave(DataImage *image)
{
    STANDARD_VM_CONTRACT;

    MethodDesc * pStubMD = m_pStubMD.GetValueMaybeNull();

    // Note that pStubMD can be regular IL methods desc for stubs implemented by IL
    return (pStubMD != NULL) && image->CanEagerBindToMethodDesc(pStubMD) && image->CanHardBindToZapModule(pStubMD->GetLoaderModule());
}

void ComPlusCallInfo::Fixup(DataImage *image)
{
    STANDARD_VM_CONTRACT;

    // It is not worth the complexity to do full pre-initialization for WinRT delegates
    if (m_pInterfaceMT != NULL && m_pInterfaceMT->IsDelegate())
    {
        if (!m_pStubMD.IsNull())
        {
            image->FixupRelativePointerField(this, offsetof(ComPlusCallInfo, m_pStubMD));
        }
        else
        {
            image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pStubMD));
        }

        image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pInterfaceMT));
        image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pILStub));
        return;
    }

    if (m_pInterfaceMT != NULL)
    {
        if (image->CanEagerBindToTypeHandle(m_pInterfaceMT) && image->CanHardBindToZapModule(m_pInterfaceMT->GetLoaderModule()))
        {
           image->FixupPointerField(this, offsetof(ComPlusCallInfo, m_pInterfaceMT));
        }
        else
        {
           image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pInterfaceMT));
        }
    }

    if (!m_pStubMD.IsNull())
    {
        image->FixupRelativePointerField(this, offsetof(ComPlusCallInfo, m_pStubMD));

        MethodDesc * pStubMD = m_pStubMD.GetValue();
        ZapNode * pCode = pStubMD->IsDynamicMethod() ? image->GetCodeAddress(pStubMD) : NULL;
        if (pCode != NULL)
        {
            image->FixupFieldToNode(this, offsetof(ComPlusCallInfo, m_pILStub), pCode ARM_ARG(THUMB_CODE));
        }
        else
        {
            image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pILStub));
        }
    }
    else
    {
        image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pStubMD));

        image->ZeroPointerField(this, offsetof(ComPlusCallInfo, m_pILStub));
    }
}
#endif // FEATURE_COMINTEROP

#endif // FEATURE_NATIVE_IMAGE_GENERATION

#endif // !DACCESS_COMPILE

//*******************************************************************************
void MethodDesc::CheckRestore(ClassLoadLevel level)
{
    STATIC_CONTRACT_THROWS;
    STATIC_CONTRACT_GC_TRIGGERS;
    STATIC_CONTRACT_FAULT;

    if (!IsRestored() || !GetMethodTable()->IsFullyLoaded())
    {
        g_IBCLogger.LogMethodDescAccess(this);

        if (GetClassification() == mcInstantiated)
        {
#ifndef DACCESS_COMPILE
            InstantiatedMethodDesc *pIMD = AsInstantiatedMethodDesc();
            EnsureWritablePages(pIMD);

            // First restore method table pointer in singleton chunk;
            // it might be out-of-module
#ifdef FEATURE_PREJIT
            GetMethodDescChunk()->RestoreMTPointer(level);
#ifdef _DEBUG
            Module::RestoreMethodTablePointer(&m_pDebugMethodTable, NULL, level);
#endif
            // Now restore wrapped method desc if present; we need this for the dictionary layout too
            if (pIMD->IMD_IsWrapperStubWithInstantiations())
                Module::RestoreMethodDescPointer(&pIMD->m_pWrappedMethodDesc);

            // Finally restore the dictionary itself (including instantiation)
            if (GetMethodDictionary())
            {
                GetMethodDictionary()->Restore(GetNumGenericMethodArgs(), level);
            }
#else
            ClassLoader::EnsureLoaded(TypeHandle(GetMethodTable()), level);
#endif

            g_IBCLogger.LogMethodDescWriteAccess(this);

            // If this function had already been requested for rejit, then give the rejit
            // manager a chance to jump-stamp the code we are restoring. This ensures the
            // first thread entering the function will jump to the prestub and trigger the
            // rejit. Note that the PublishMethodHolder may take a lock to avoid a rejit race.
            // See code:ReJitManager::PublishMethodHolder::PublishMethodHolder#PublishCode
            // for details on the race.
            // 
            {
                PublishMethodHolder publishWorker(this, GetNativeCode());
                pIMD->m_wFlags2 = pIMD->m_wFlags2 & ~InstantiatedMethodDesc::Unrestored;
            }

            if (ETW_PROVIDER_ENABLED(MICROSOFT_WINDOWS_DOTNETRUNTIME_PROVIDER))
            {
                ETW::MethodLog::MethodRestored(this);
            }

#else // DACCESS_COMPILE
            DacNotImpl();
#endif // DACCESS_COMPILE
        }
        else if (IsILStub()) // the only stored-sig MD type that uses ET_INTERNAL
        {
            ClassLoader::EnsureLoaded(TypeHandle(GetMethodTable()), level);

#ifndef DACCESS_COMPILE
            PTR_DynamicMethodDesc pDynamicMD = AsDynamicMethodDesc();
            pDynamicMD->Restore();

            if (ETW_PROVIDER_ENABLED(MICROSOFT_WINDOWS_DOTNETRUNTIME_PROVIDER))
            {
                ETW::MethodLog::MethodRestored(this);
            }
#else // DACCESS_COMPILE
            DacNotImpl();
#endif // DACCESS_COMPILE
        }
        else
        {
            ClassLoader::EnsureLoaded(TypeHandle(GetMethodTable()), level);
        }
    }
}

// static
MethodDesc* MethodDesc::GetMethodDescFromStubAddr(PCODE addr, BOOL fSpeculative /*=FALSE*/)
{
    CONTRACT(MethodDesc *)
    {
        GC_NOTRIGGER;
        NOTHROW;
    }
    CONTRACT_END;

    MethodDesc *  pMD = NULL;

#ifdef HAS_COMPACT_ENTRYPOINTS
    if (MethodDescChunk::IsCompactEntryPointAtAddress(addr))
    {
        pMD = MethodDescChunk::GetMethodDescFromCompactEntryPoint(addr, fSpeculative);
        RETURN(pMD);
    }
#endif // HAS_COMPACT_ENTRYPOINTS

    // Otherwise this must be some kind of precode
    //
    Precode* pPrecode = Precode::GetPrecodeFromEntryPoint(addr, fSpeculative);
    PREFIX_ASSUME(fSpeculative || (pPrecode != NULL));
    if (pPrecode != NULL)
    {
        pMD = pPrecode->GetMethodDesc(fSpeculative);
        RETURN(pMD);
    }

    RETURN(NULL); // Not found
}

#ifdef FEATURE_PREJIT
//*******************************************************************************
TADDR MethodDesc::GetFixupList()
{
    LIMITED_METHOD_CONTRACT;

    if (HasNativeCodeSlot())
    {
        TADDR pSlot = GetAddrOfNativeCodeSlot();
        if (*dac_cast<PTR_TADDR>(pSlot) & FIXUP_LIST_MASK)
            return FixupListSlot::GetValueAtPtr(pSlot + sizeof(NativeCodeSlot));
    }

    return NULL;
}

//*******************************************************************************
BOOL MethodDesc::IsRestored_NoLogging()
{
    STATIC_CONTRACT_NOTHROW;
    STATIC_CONTRACT_GC_NOTRIGGER;
    STATIC_CONTRACT_FORBID_FAULT;
    STATIC_CONTRACT_SUPPORTS_DAC;

    DPTR(RelativeFixupPointer<PTR_MethodTable>) ppMT = GetMethodTablePtr();

    if (ppMT->IsTagged(dac_cast<TADDR>(ppMT)))
        return FALSE;

    if (!ppMT->GetValue(dac_cast<TADDR>(ppMT))->IsRestored_NoLogging())
        return FALSE;

    if (GetClassification() == mcInstantiated)
    {
        InstantiatedMethodDesc *pIMD = AsInstantiatedMethodDesc();
        return (pIMD->m_wFlags2 & InstantiatedMethodDesc::Unrestored) == 0;
    }

    if (IsILStub()) // the only stored-sig MD type that uses ET_INTERNAL
    {
        PTR_DynamicMethodDesc pDynamicMD = AsDynamicMethodDesc();
        return pDynamicMD->IsRestored();
    }

    return TRUE;
}

BOOL MethodDesc::IsRestored()
{
    STATIC_CONTRACT_NOTHROW;
    STATIC_CONTRACT_GC_NOTRIGGER;
    STATIC_CONTRACT_FORBID_FAULT;
    STATIC_CONTRACT_SUPPORTS_DAC;

#ifdef DACCESS_COMPILE

    return IsRestored_NoLogging();

#else // not DACCESS_COMPILE

    DPTR(RelativeFixupPointer<PTR_MethodTable>) ppMT = GetMethodTablePtr();

    if (ppMT->IsTagged(dac_cast<TADDR>(ppMT)))
        return FALSE;

    if (!ppMT->GetValue(dac_cast<TADDR>(ppMT))->IsRestored())
        return FALSE;

    if (GetClassification() == mcInstantiated)
    {
        InstantiatedMethodDesc *pIMD = AsInstantiatedMethodDesc();
        return (pIMD->m_wFlags2 & InstantiatedMethodDesc::Unrestored) == 0;
    }

    if (IsILStub()) // the only stored-sig MD type that uses ET_INTERNAL
    {
        PTR_DynamicMethodDesc pDynamicMD = AsDynamicMethodDesc();
        return pDynamicMD->IsRestored();
    }

    return TRUE;

#endif // DACCESS_COMPILE

}

#else // !FEATURE_PREJIT
//*******************************************************************************
BOOL MethodDesc::IsRestored_NoLogging()
{
    LIMITED_METHOD_CONTRACT;
    return TRUE;
}
//*******************************************************************************
BOOL MethodDesc::IsRestored()
{
    LIMITED_METHOD_CONTRACT;
    SUPPORTS_DAC;
    return TRUE;
}
#endif // !FEATURE_PREJIT

#ifdef HAS_COMPACT_ENTRYPOINTS

#if defined(_TARGET_X86_)

#include <pshpack1.h>
static const struct CentralJumpCode {
    BYTE m_movzxEAX[3];
    BYTE m_shlEAX[3];
    BYTE m_addEAX[1];
    MethodDesc* m_pBaseMD;
    BYTE m_jmp[1];
    INT32 m_rel32;

    inline void Setup(MethodDesc* pMD, PCODE target, LoaderAllocator *pLoaderAllocator) {
        WRAPPER_NO_CONTRACT;
        m_pBaseMD = pMD;
        m_rel32 = rel32UsingJumpStub(&m_rel32, target, pMD, pLoaderAllocator);
    }

    inline BOOL CheckTarget(TADDR target) {
        LIMITED_METHOD_CONTRACT;
        TADDR addr = rel32Decode(PTR_HOST_MEMBER_TADDR(CentralJumpCode, this, m_rel32));
        return (addr == target);
    }
}
c_CentralJumpCode = { 
    { 0x0F, 0xB6, 0xC0 },                         //   movzx eax,al
    { 0xC1, 0xE0, MethodDesc::ALIGNMENT_SHIFT },  //   shl   eax, MethodDesc::ALIGNMENT_SHIFT
    { 0x05 }, NULL,                               //   add   eax, pBaseMD
    { 0xE9 }, 0                                   //   jmp   PreStub
};
#include <poppack.h>

#elif defined(_TARGET_AMD64_)

#include <pshpack1.h>
static const struct CentralJumpCode {
    BYTE m_movzxRAX[4];
    BYTE m_shlEAX[4];
    BYTE m_movRAX[2];
    MethodDesc* m_pBaseMD;
    BYTE m_addR10RAX[3];
    BYTE m_jmp[1];
    INT32 m_rel32;

    inline void Setup(MethodDesc* pMD, PCODE target, LoaderAllocator *pLoaderAllocator) {
        WRAPPER_NO_CONTRACT;
        m_pBaseMD = pMD;
        m_rel32 = rel32UsingJumpStub(&m_rel32, target, pMD, pLoaderAllocator);
    }

    inline BOOL CheckTarget(TADDR target) {
        WRAPPER_NO_CONTRACT;
        TADDR addr = rel32Decode(PTR_HOST_MEMBER_TADDR(CentralJumpCode, this, m_rel32));
        if (*PTR_BYTE(addr) == 0x48 &&
            *PTR_BYTE(addr+1) == 0xB8 &&
            *PTR_BYTE(addr+10) == 0xFF &&
            *PTR_BYTE(addr+11) == 0xE0)
        {
            addr = *PTR_TADDR(addr+2);
        }
        return (addr == target);
    }
}
c_CentralJumpCode = { 
    { 0x48, 0x0F, 0xB6, 0xC0 },                         //   movzx rax,al
    { 0x48, 0xC1, 0xE0, MethodDesc::ALIGNMENT_SHIFT },  //   shl   rax, MethodDesc::ALIGNMENT_SHIFT
    { 0x49, 0xBA }, NULL,                               //   mov   r10, pBaseMD
    { 0x4C, 0x03, 0xD0 },                               //   add   r10,rax
    { 0xE9 }, 0                     // jmp PreStub
};
#include <poppack.h>

#elif defined(_TARGET_ARM_)

#include <pshpack1.h>
struct CentralJumpCode {
    BYTE m_ldrPC[4];
    BYTE m_short[2];
    MethodDescChunk *m_pChunk;
    PCODE m_target;

    inline void Setup(PCODE target, MethodDescChunk *pChunk) {
        WRAPPER_NO_CONTRACT;

        m_target = target;
        m_pChunk = pChunk;
    }

    inline BOOL CheckTarget(TADDR target) {
        WRAPPER_NO_CONTRACT;
        return ((TADDR)m_target == target);
    }
}
c_CentralJumpCode = {
    { 0xDF, 0xF8, 0x08, 0xF0 },                         //   ldr pc, =pTarget
    { 0x00, 0x00 },                                     //   short offset for alignment
    0,                                                  //   pChunk
    0                                                   //   pTarget
};
#include <poppack.h>

#else
#error Unsupported platform
#endif

typedef DPTR(struct CentralJumpCode) PTR_CentralJumpCode;
#define TEP_CENTRAL_JUMP_SIZE   sizeof(c_CentralJumpCode)
static_assert_no_msg((TEP_CENTRAL_JUMP_SIZE & 1) == 0);

#define TEP_ENTRY_SIZE          4

#ifdef _TARGET_ARM_

#define TEP_HALF_ENTRY_SIZE (TEP_ENTRY_SIZE / 2)

// Compact entry point on arm consists of two thumb instructions:
//   mov r12, pc
//   b CentralJumpCode

// First instruction 0x46fc
#define TEP_ENTRY_INSTR1_BYTE1 0xFC
#define TEP_ENTRY_INSTR1_BYTE2 0x46

// Mask for unconditional branch opcode
#define TEP_ENTRY_INSTR2_MASK1 0xE0

// Mask for opcode
#define TEP_ENTRY_INSTR2_MASK2 0xF8

// Bit used for ARM to identify compact entry points
#define COMPACT_ENTRY_ARM_CODE 0x2

/* static */ int MethodDescChunk::GetCompactEntryPointMaxCount ()
{
    LIMITED_METHOD_DAC_CONTRACT;

    return MAX_OFFSET_UNCONDITIONAL_BRANCH_THUMB / TEP_ENTRY_SIZE;
}

// Get offset from the start of current compact entry point to the CentralJumpCode
static uint16_t DecodeOffsetFromBranchToCentralJump (uint16_t instr)
{
    int16_t offset = decodeUnconditionalBranchThumb ((LPBYTE) &instr);

    offset += PC_REG_RELATIVE_OFFSET + TEP_HALF_ENTRY_SIZE;

    _ASSERTE (offset >= TEP_ENTRY_SIZE && (offset % TEP_ENTRY_SIZE == 0));

    return (uint16_t) offset;
}

#ifndef DACCESS_COMPILE

// Encode branch instruction to central jump for current compact entry point
static uint16_t EncodeBranchToCentralJump (int16_t offset)
{
    _ASSERTE (offset >= 0 && (offset % TEP_ENTRY_SIZE == 0));

    offset += TEP_HALF_ENTRY_SIZE - PC_REG_RELATIVE_OFFSET;

    uint16_t instr;
    emitUnconditionalBranchThumb ((LPBYTE) &instr, offset);

    return instr;
}

#endif // DACCESS_COMPILE

#else // _TARGET_ARM_

#define TEP_MAX_BEFORE_INDEX    (1 + (127 / TEP_ENTRY_SIZE))
#define TEP_MAX_BLOCK_INDEX     (TEP_MAX_BEFORE_INDEX + (128 - TEP_CENTRAL_JUMP_SIZE) / TEP_ENTRY_SIZE)
#define TEP_FULL_BLOCK_SIZE     (TEP_MAX_BLOCK_INDEX * TEP_ENTRY_SIZE + TEP_CENTRAL_JUMP_SIZE)

#endif // _TARGET_ARM_

BOOL MethodDescChunk::IsCompactEntryPointAtAddress(PCODE addr)
{
    LIMITED_METHOD_DAC_CONTRACT;

#if defined(_TARGET_X86_) || defined(_TARGET_AMD64_)

    // Compact entrypoints start at odd addresses
    return (addr & 1) != 0;

#elif defined(_TARGET_ARM_)

    // Compact entrypoints start at odd addresses (thumb) with second bit set to 1
    uint8_t compactEntryPointMask = THUMB_CODE | COMPACT_ENTRY_ARM_CODE;
    return (addr & compactEntryPointMask) == compactEntryPointMask;

#else
    #error Unsupported platform
#endif
}

//*******************************************************************************
/* static */ MethodDesc* MethodDescChunk::GetMethodDescFromCompactEntryPoint(PCODE addr, BOOL fSpeculative /*=FALSE*/)
{
    LIMITED_METHOD_CONTRACT;

#ifdef DACCESS_COMPILE
    // Always use speculative checks with DAC
    fSpeculative = TRUE;
#endif

    // Always do consistency check in debug
    if (fSpeculative INDEBUG(|| TRUE))
    {
#ifdef _TARGET_ARM_
        TADDR instrCodeAddr = PCODEToPINSTR(addr);
        if (!IsCompactEntryPointAtAddress(addr) ||
            *PTR_BYTE(instrCodeAddr) != TEP_ENTRY_INSTR1_BYTE1 ||
            *PTR_BYTE(instrCodeAddr+1) != TEP_ENTRY_INSTR1_BYTE2)
#else // _TARGET_ARM_
        if ((addr & 3) != 1 ||
            *PTR_BYTE(addr) != X86_INSTR_MOV_AL ||
            *PTR_BYTE(addr+2) != X86_INSTR_JMP_REL8)
#endif // _TARGET_ARM_
        {
            if (fSpeculative) return NULL;
            _ASSERTE(!"Unexpected code in temporary entrypoint");
        }
    }

#ifdef _TARGET_ARM_

    // On ARM compact entry points are thumb
    _ASSERTE ((addr & THUMB_CODE) != 0);
    addr = addr - THUMB_CODE;

    // Get offset for CentralJumpCode from current compact entry point
    PTR_UINT16 pBranchInstr = (PTR_UINT16(addr)) + 1;
    uint16_t offset = DecodeOffsetFromBranchToCentralJump (*pBranchInstr);

    TADDR centralJump = addr + offset;
    int index = (centralJump - addr - TEP_ENTRY_SIZE) / TEP_ENTRY_SIZE;

#else // _TARGET_ARM_

    int index = *PTR_BYTE(addr+1);
    TADDR centralJump = addr + 4 + *PTR_SBYTE(addr+3);

#endif // _TARGET_ARM_

    CentralJumpCode* pCentralJumpCode = PTR_CentralJumpCode(centralJump);

    // Always do consistency check in debug
    if (fSpeculative INDEBUG(|| TRUE))
    {
        SIZE_T i;
        for (i = 0; i < TEP_CENTRAL_JUMP_SIZE; i++)
        {
            BYTE b = ((BYTE*)&c_CentralJumpCode)[i];
            if (b != 0 && b != *PTR_BYTE(centralJump+i))
            {
                if (fSpeculative) return NULL;
                _ASSERTE(!"Unexpected code in temporary entrypoint");
            }
        }

#ifdef _TARGET_ARM_

        _ASSERTE_IMPL(pCentralJumpCode->CheckTarget(GetPreStubCompactARMEntryPoint()));

#else // _TARGET_ARM_

        _ASSERTE_IMPL(pCentralJumpCode->CheckTarget(GetPreStubEntryPoint()));

#endif // _TARGET_ARM_
    }

#ifdef _TARGET_ARM_
    // Go through all MethodDesc in MethodDescChunk and find the one with the required index
    PTR_MethodDescChunk pChunk = *((DPTR(PTR_MethodDescChunk))(centralJump + offsetof(CentralJumpCode, m_pChunk)));
    TADDR pMD = PTR_HOST_TO_TADDR (pChunk->GetFirstMethodDesc ());

    _ASSERTE (index >= 0 && index < ((int) pChunk->GetCount ()));

    index = ((int) pChunk->GetCount ()) - 1 - index;

    SIZE_T totalSize = 0;
    int curIndex = 0;

    while (index != curIndex)
    {
        SIZE_T sizeCur = (PTR_MethodDesc (pMD))->SizeOf ();
        totalSize += sizeCur;

        pMD += sizeCur;
        ++curIndex;
    }

    return PTR_MethodDesc (pMD);
#else // _TARGET_ARM_
    return PTR_MethodDesc((TADDR)pCentralJumpCode->m_pBaseMD + index * MethodDesc::ALIGNMENT);
#endif // _TARGET_ARM_
}

//*******************************************************************************
SIZE_T MethodDescChunk::SizeOfCompactEntryPoints(int count)
{
    LIMITED_METHOD_DAC_CONTRACT;

#ifdef _TARGET_ARM_

    return COMPACT_ENTRY_ARM_CODE + count * TEP_ENTRY_SIZE + TEP_CENTRAL_JUMP_SIZE;

#else // _TARGET_ARM_

    int fullBlocks = count / TEP_MAX_BLOCK_INDEX;
    int remainder = count % TEP_MAX_BLOCK_INDEX;

    return 1 + (fullBlocks * TEP_FULL_BLOCK_SIZE) +
        (remainder * TEP_ENTRY_SIZE) + ((remainder != 0) ? TEP_CENTRAL_JUMP_SIZE : 0);

#endif // _TARGET_ARM_
}

#ifndef DACCESS_COMPILE
TADDR MethodDescChunk::AllocateCompactEntryPoints(LoaderAllocator *pLoaderAllocator, AllocMemTracker *pamTracker)
{
    CONTRACTL {
        THROWS;
        GC_NOTRIGGER;
    } CONTRACTL_END;

    int count = GetCount();

    SIZE_T size = SizeOfCompactEntryPoints(count);

    TADDR temporaryEntryPoints = (TADDR)pamTracker->Track(pLoaderAllocator->GetPrecodeHeap()->AllocAlignedMem(size, sizeof(TADDR)));

#ifdef _TARGET_ARM_
    BYTE* p = (BYTE*)temporaryEntryPoints + COMPACT_ENTRY_ARM_CODE;
    int relOffset        = count * TEP_ENTRY_SIZE - TEP_ENTRY_SIZE; // relative offset for the short jump

    _ASSERTE (relOffset < MAX_OFFSET_UNCONDITIONAL_BRANCH_THUMB);
#else // _TARGET_ARM_
    // make the temporary entrypoints unaligned, so they are easy to identify
    BYTE* p = (BYTE*)temporaryEntryPoints + 1;
    int indexInBlock     = TEP_MAX_BLOCK_INDEX;         // recompute relOffset in first iteration
    int relOffset        = 0;                           // relative offset for the short jump
#endif // _TARGET_ARM_

    MethodDesc * pBaseMD = 0;                   // index of the start of the block

    MethodDesc * pMD = GetFirstMethodDesc();
    for (int index = 0; index < count; index++)
    {
#ifdef _TARGET_ARM_

        uint8_t *pMovInstrByte1 = (uint8_t *)p;
        uint8_t *pMovInstrByte2 = (uint8_t *)p+1;
        uint16_t *pBranchInstr = ((uint16_t *)p)+1;

        *pMovInstrByte1 = TEP_ENTRY_INSTR1_BYTE1;
        *pMovInstrByte2 = TEP_ENTRY_INSTR1_BYTE2;
        *pBranchInstr = EncodeBranchToCentralJump ((int16_t) relOffset);

        p += TEP_ENTRY_SIZE;

#else // _TARGET_ARM_

        if (indexInBlock == TEP_MAX_BLOCK_INDEX)
        {
            relOffset = (min(count - index, TEP_MAX_BEFORE_INDEX) - 1) * TEP_ENTRY_SIZE;
            indexInBlock = 0;
            pBaseMD = pMD;
        }

        *(p+0) = X86_INSTR_MOV_AL;
        int methodDescIndex = pMD->GetMethodDescIndex() - pBaseMD->GetMethodDescIndex();
        _ASSERTE(FitsInU1(methodDescIndex));
        *(p+1) = (BYTE)methodDescIndex;

        *(p+2) = X86_INSTR_JMP_REL8;
        _ASSERTE(FitsInI1(relOffset));
        *(p+3) = (BYTE)relOffset;

        p += TEP_ENTRY_SIZE; static_assert_no_msg(TEP_ENTRY_SIZE == 4);

        if (relOffset == 0)
        {
            CentralJumpCode* pCode = (CentralJumpCode*)p;

            memcpy(pCode, &c_CentralJumpCode, TEP_CENTRAL_JUMP_SIZE);

            pCode->Setup(pBaseMD, GetPreStubEntryPoint(), pLoaderAllocator);

            p += TEP_CENTRAL_JUMP_SIZE;

            relOffset -= TEP_CENTRAL_JUMP_SIZE;
        }

        indexInBlock++;

#endif // _TARGET_ARM_

        relOffset -= TEP_ENTRY_SIZE;
        pMD = (MethodDesc *)((BYTE *)pMD + pMD->SizeOf());
    }

#ifdef _TARGET_ARM_

    CentralJumpCode* pCode = (CentralJumpCode*)p;
    memcpy(pCode, &c_CentralJumpCode, TEP_CENTRAL_JUMP_SIZE);
    pCode->Setup (GetPreStubCompactARMEntryPoint(), this);

    _ASSERTE(p + TEP_CENTRAL_JUMP_SIZE == (BYTE*)temporaryEntryPoints + size);

#else // _TARGET_ARM_

    _ASSERTE(p == (BYTE*)temporaryEntryPoints + size);

#endif // _TARGET_ARM_

    ClrFlushInstructionCache((LPVOID)temporaryEntryPoints, size);

    SetHasCompactEntryPoints();
    return temporaryEntryPoints;
}
#endif // !DACCESS_COMPILE

#endif // HAS_COMPACT_ENTRYPOINTS

//*******************************************************************************
PCODE MethodDescChunk::GetTemporaryEntryPoint(int index)
{
    LIMITED_METHOD_CONTRACT;

    _ASSERTE(HasTemporaryEntryPoints());

#ifdef HAS_COMPACT_ENTRYPOINTS
    if (HasCompactEntryPoints())
    {
#ifdef _TARGET_ARM_

        return GetTemporaryEntryPoints() + COMPACT_ENTRY_ARM_CODE + THUMB_CODE + index * TEP_ENTRY_SIZE;

#else // _TARGET_ARM_

        int fullBlocks = index / TEP_MAX_BLOCK_INDEX;
        int remainder = index % TEP_MAX_BLOCK_INDEX;

        return GetTemporaryEntryPoints() + 1 + (fullBlocks * TEP_FULL_BLOCK_SIZE) +
            (remainder * TEP_ENTRY_SIZE) + ((remainder >= TEP_MAX_BEFORE_INDEX) ? TEP_CENTRAL_JUMP_SIZE : 0);

#endif // _TARGET_ARM_
    }
#endif // HAS_COMPACT_ENTRYPOINTS

    return Precode::GetPrecodeForTemporaryEntryPoint(GetTemporaryEntryPoints(), index)->GetEntryPoint();
}

PCODE MethodDesc::GetTemporaryEntryPoint()
{
    CONTRACTL
    {
        NOTHROW;
        GC_NOTRIGGER;
        MODE_ANY;
    }
    CONTRACTL_END;

    MethodDescChunk* pChunk = GetMethodDescChunk();
    _ASSERTE(pChunk->HasTemporaryEntryPoints());
   
    int lo = 0, hi = pChunk->GetCount() - 1;

    // Find the temporary entrypoint in the chunk by binary search
    while (lo < hi)
    {
        int mid = (lo + hi) / 2;

        TADDR pEntryPoint = pChunk->GetTemporaryEntryPoint(mid);

        MethodDesc * pMD = MethodDesc::GetMethodDescFromStubAddr(pEntryPoint);
        if (PTR_HOST_TO_TADDR(this) == PTR_HOST_TO_TADDR(pMD))
            return pEntryPoint;

        if (PTR_HOST_TO_TADDR(this) > PTR_HOST_TO_TADDR(pMD))
            lo = mid + 1;
        else
            hi = mid - 1;
    }

    _ASSERTE(lo == hi);

    TADDR pEntryPoint = pChunk->GetTemporaryEntryPoint(lo);

#ifdef _DEBUG
    MethodDesc * pMD = MethodDesc::GetMethodDescFromStubAddr(pEntryPoint);
    _ASSERTE(PTR_HOST_TO_TADDR(this) == PTR_HOST_TO_TADDR(pMD));
#endif

    return pEntryPoint;
}

#ifndef DACCESS_COMPILE
//*******************************************************************************
void MethodDesc::SetTemporaryEntryPoint(LoaderAllocator *pLoaderAllocator, AllocMemTracker *pamTracker)
{
    WRAPPER_NO_CONTRACT;

    GetMethodDescChunk()->EnsureTemporaryEntryPointsCreated(pLoaderAllocator, pamTracker);

    TADDR slot = GetAddrOfSlot();
    if (IsVtableSlot())
    {
        MethodTable::VTableIndir2_t *slotPtr = ((MethodTable::VTableIndir2_t *) slot);
        _ASSERTE(slotPtr->IsNull());
        slotPtr->SetValue(GetTemporaryEntryPoint());
    }
    else
    {
        PCODE *slotPtr = (PCODE *) slot;
        _ASSERTE(*slotPtr == NULL);
        *slotPtr = GetTemporaryEntryPoint();
    }

    if (RequiresStableEntryPoint())
    {
        // The rest of the system assumes that certain methods always have stable entrypoints.
        // Create them now.
        GetOrCreatePrecode();
    }
}

//*******************************************************************************
void MethodDescChunk::CreateTemporaryEntryPoints(LoaderAllocator *pLoaderAllocator, AllocMemTracker *pamTracker)
{
    WRAPPER_NO_CONTRACT;

    _ASSERTE(GetTemporaryEntryPoints() == NULL);

    TADDR temporaryEntryPoints = Precode::AllocateTemporaryEntryPoints(this, pLoaderAllocator, pamTracker);

#ifdef HAS_COMPACT_ENTRYPOINTS
    // Precodes allocated only if they provide more compact representation or if it is required
    if (temporaryEntryPoints == NULL)
    {
        temporaryEntryPoints = AllocateCompactEntryPoints(pLoaderAllocator, pamTracker);
    }
#endif // HAS_COMPACT_ENTRYPOINTS

    *(((TADDR *)this)-1) = temporaryEntryPoints;

    _ASSERTE(GetTemporaryEntryPoints() != NULL);
}

//*******************************************************************************
void MethodDesc::InterlockedUpdateFlags2(BYTE bMask, BOOL fSet)
{
    WRAPPER_NO_CONTRACT;

    ULONG* pLong = (ULONG*)(&m_bFlags2 - 3);
    static_assert_no_msg(offsetof(MethodDesc, m_bFlags2) % sizeof(LONG) == 3);

#if BIGENDIAN
    if (fSet)
        FastInterlockOr(pLong, (ULONG)bMask);
    else
        FastInterlockAnd(pLong, ~(ULONG)bMask);
#else // !BIGENDIAN
    if (fSet)
        FastInterlockOr(pLong, (ULONG)bMask << (3 * 8));
    else
        FastInterlockAnd(pLong, ~((ULONG)bMask << (3 * 8)));
#endif // !BIGENDIAN
}

//*******************************************************************************
Precode* MethodDesc::GetOrCreatePrecode()
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(!IsVersionableWithVtableSlotBackpatch());

    if (HasPrecode())
    {
        return GetPrecode();
    }

    TADDR pSlot = GetAddrOfSlot();
    PCODE tempEntry = GetTemporaryEntryPoint();

    PrecodeType requiredType = GetPrecodeType();
    PrecodeType availableType = PRECODE_INVALID;

    if (!GetMethodDescChunk()->HasCompactEntryPoints())
    {
        availableType = Precode::GetPrecodeFromEntryPoint(tempEntry)->GetType();
    }

    // Allocate the precode if necessary
    if (requiredType != availableType)
    {
        // code:Precode::AllocateTemporaryEntryPoints should always create precode of the right type for dynamic methods.
        // If we took this path for dynamic methods, the precode may leak since we may allocate it in domain-neutral loader heap.
        _ASSERTE(!IsLCGMethod());

        AllocMemTracker amt;
        Precode* pPrecode = Precode::Allocate(requiredType, this, GetLoaderAllocator(), &amt);
        PCODE newVal;
        PCODE oldVal;
        TADDR *slotAddr;

        if (IsVtableSlot())
        {
            newVal = MethodTable::VTableIndir2_t::GetRelative(pSlot, pPrecode->GetEntryPoint());
            oldVal = MethodTable::VTableIndir2_t::GetRelative(pSlot, tempEntry);
            slotAddr = (TADDR *) EnsureWritablePages((MethodTable::VTableIndir2_t *) pSlot);
        }
        else
        {
            newVal = pPrecode->GetEntryPoint();
            oldVal = tempEntry;
            slotAddr = (TADDR *) EnsureWritablePages((PCODE *) pSlot);
        }

        if (FastInterlockCompareExchangePointer(slotAddr, (TADDR) newVal, (TADDR) oldVal) == oldVal)
            amt.SuppressRelease();
    }

    // Set the flags atomically
    InterlockedUpdateFlags2(enum_flag2_HasStableEntryPoint | enum_flag2_HasPrecode, TRUE);

    PCODE addr;
    if (IsVtableSlot())
    {
        addr = ((MethodTable::VTableIndir2_t *)pSlot)->GetValue();
    }
    else
    {
        addr = *((PCODE *)pSlot);
    }
    return Precode::GetPrecodeFromEntryPoint(addr);
}

bool MethodDesc::DetermineAndSetIsEligibleForTieredCompilation()
{
    WRAPPER_NO_CONTRACT;

#ifdef FEATURE_TIERED_COMPILATION
#ifndef FEATURE_CODE_VERSIONING
    #error Tiered compilation requires code versioning
#endif

    // Keep in-sync with MethodTableBuilder::NeedsNativeCodeSlot(bmtMDMethod * pMDMethod)
    // to ensure native slots are available where needed.
    if (
        // Policy
        g_pConfig->TieredCompilation() &&

        // Functional requirement - NGEN images embed direct calls that we would be unable to detect and redirect
        !IsZapped() &&

        // Functional requirement - The NativeCodeSlot is required to hold the code pointer for the default code version because
        // the method's entry point slot will point to a precode or to the current code entry point
        HasNativeCodeSlot() &&

        // Functional requirement - These methods have no IL that could be optimized
        !IsWrapperStub() &&

        // Functional requirement
        CodeVersionManager::IsMethodSupported(this) &&

        // Policy - If QuickJit is disabled and the module does not have any pregenerated code, the method would effectively not
        // be tiered currently, so make the method ineligible for tiering to avoid some unnecessary overhead
        (g_pConfig->TieredCompilation_QuickJit() || GetModule()->HasNativeOrReadyToRunImage()) &&

        // Policy - Generating optimized code is not disabled
        !IsJitOptimizationDisabled() &&

        // Policy - Tiered compilation is not disabled by the profiler
        !CORProfilerDisableTieredCompilation())
    {
        m_bFlags2 |= enum_flag2_IsEligibleForTieredCompilation;
        _ASSERTE(IsVersionableWithoutJumpStamp());
        return true;
    }
#endif

    return false;
}

#endif // !DACCESS_COMPILE

#ifndef CROSSGEN_COMPILE
bool MethodDesc::IsJitOptimizationDisabled()
{
    WRAPPER_NO_CONTRACT;

    return
        g_pConfig->JitMinOpts() ||
#ifdef _DEBUG
        g_pConfig->GenDebuggableCode() ||
#endif
        CORDisableJITOptimizations(GetModule()->GetDebuggerInfoBits()) ||
        (!IsNoMetadata() && IsMiNoOptimization(GetImplAttrs()));
}
#endif

#ifndef DACCESS_COMPILE
#ifndef CROSSGEN_COMPILE

void MethodDesc::RecordAndBackpatchEntryPointSlot(
    LoaderAllocator *slotLoaderAllocator, // the loader allocator from which the slot's memory is allocated
    TADDR slot,
    EntryPointSlots::SlotType slotType)
{
    WRAPPER_NO_CONTRACT;

    LoaderAllocator *mdLoaderAllocator = GetLoaderAllocator();
    MethodDescBackpatchInfoTracker::ConditionalLockHolder lockHolder;

    RecordAndBackpatchEntryPointSlot_Locked(
        mdLoaderAllocator,
        slotLoaderAllocator,
        slot,
        slotType,
        GetEntryPointToBackpatch_Locked());
}

// This function tries to record a slot that would contain an entry point for the method, and backpatches the slot to contain
// method's current entry point. Once recorded, changes to the entry point due to tiering will cause the slot to be backpatched
// as necessary.
void MethodDesc::RecordAndBackpatchEntryPointSlot_Locked(
    LoaderAllocator *mdLoaderAllocator,
    LoaderAllocator *slotLoaderAllocator, // the loader allocator from which the slot's memory is allocated
    TADDR slot,
    EntryPointSlots::SlotType slotType,
    PCODE currentEntryPoint)
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(MethodDescBackpatchInfoTracker::IsLockedByCurrentThread());
    _ASSERTE(mdLoaderAllocator != nullptr);
    _ASSERTE(mdLoaderAllocator == GetLoaderAllocator());
    _ASSERTE(slotLoaderAllocator != nullptr);
    _ASSERTE(slot != NULL);
    _ASSERTE(slotType < EntryPointSlots::SlotType_Count);
    _ASSERTE(MayHaveEntryPointSlotsToBackpatch());

    // The specified current entry point must actually be *current* in the sense that it must have been retrieved inside the
    // lock, such that a recorded slot is guaranteed to point to the entry point at the time at which it was recorded, in order
    // to synchronize with backpatching in MethodDesc::BackpatchEntryPointSlots(). If a slot pointing to an older entry point
    // were to be recorded due to concurrency issues, it would not get backpatched to point to the more recent, actually
    // current, entry point until another entry point change, which may never happen.
    _ASSERTE(currentEntryPoint == GetEntryPointToBackpatch_Locked());

    MethodDescBackpatchInfoTracker *backpatchTracker = mdLoaderAllocator->GetMethodDescBackpatchInfoTracker();
    backpatchTracker->AddSlotAndPatch_Locked(this, slotLoaderAllocator, slot, slotType, currentEntryPoint);
}

void MethodDesc::BackpatchEntryPointSlots(PCODE entryPoint, bool isPrestubEntryPoint)
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(entryPoint != NULL);
    _ASSERTE(MayHaveEntryPointSlotsToBackpatch());
    _ASSERTE(isPrestubEntryPoint == (entryPoint == GetPrestubEntryPointToBackpatch()));
    _ASSERTE(MethodDescBackpatchInfoTracker::IsLockedByCurrentThread());

    LoaderAllocator *mdLoaderAllocator = GetLoaderAllocator();
    MethodDescBackpatchInfoTracker *backpatchInfoTracker = mdLoaderAllocator->GetMethodDescBackpatchInfoTracker();

    // Get the entry point to backpatch inside the lock to synchronize with backpatching in MethodDesc::DoBackpatch()
    if (GetEntryPointToBackpatch_Locked() == entryPoint)
    {
        return;
    }

    if (IsVersionableWithVtableSlotBackpatch())
    {
        // Backpatch the func ptr stub if it was created
        FuncPtrStubs *funcPtrStubs = mdLoaderAllocator->GetFuncPtrStubsNoCreate();
        if (funcPtrStubs != nullptr)
        {
            Precode *funcPtrPrecode = funcPtrStubs->Lookup(this);
            if (funcPtrPrecode != nullptr)
            {
                if (isPrestubEntryPoint)
                {
                    funcPtrPrecode->ResetTargetInterlocked();
                }
                else
                {
                    funcPtrPrecode->SetTargetInterlocked(entryPoint, FALSE /* fOnlyRedirectFromPrestub */);
                }
            }
        }
    }

    backpatchInfoTracker->Backpatch_Locked(this, entryPoint);

    // Set the entry point to backpatch inside the lock to synchronize with backpatching in MethodDesc::DoBackpatch(), and set
    // it last in case there are exceptions above, as setting the entry point indicates that all recorded slots have been
    // backpatched
    SetEntryPointToBackpatch_Locked(entryPoint);
}

void MethodDesc::SetCodeEntryPoint(PCODE entryPoint)
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(entryPoint != NULL);

    if (MayHaveEntryPointSlotsToBackpatch())
    {
        BackpatchEntryPointSlots(entryPoint);
    }
    else if (IsVersionableWithoutJumpStamp())
    {
        _ASSERTE(IsVersionableWithPrecode());
        GetOrCreatePrecode()->SetTargetInterlocked(entryPoint, FALSE /* fOnlyRedirectFromPrestub */);

        // SetTargetInterlocked() would return false if it lost the race with another thread. That is fine, this thread
        // can continue assuming it was successful, similarly to it successfully updating the target and another thread
        // updating the target again shortly afterwards.
    }
    else if (HasPrecode())
    {
        GetPrecode()->SetTargetInterlocked(entryPoint);
    }
    else if (!HasStableEntryPoint())
    {
        SetStableEntryPointInterlocked(entryPoint);
    }
}

void MethodDesc::ResetCodeEntryPoint()
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(IsVersionableWithoutJumpStamp());

    if (MayHaveEntryPointSlotsToBackpatch())
    {
        BackpatchToResetEntryPointSlots();
        return;
    }

    _ASSERTE(IsVersionableWithPrecode());
    GetPrecode()->ResetTargetInterlocked();
}

#endif // !CROSSGEN_COMPILE

//*******************************************************************************
BOOL MethodDesc::SetNativeCodeInterlocked(PCODE addr, PCODE pExpected /*=NULL*/)
{
    CONTRACTL {
        THROWS;
        GC_NOTRIGGER;
    } CONTRACTL_END;

    if (HasNativeCodeSlot())
    {
#ifdef _TARGET_ARM_
        _ASSERTE(IsThumbCode(addr) || (addr==NULL));
        addr &= ~THUMB_CODE;

        if (pExpected != NULL)
        {
            _ASSERTE(IsThumbCode(pExpected));
            pExpected &= ~THUMB_CODE;
        }
#endif

        TADDR pSlot = GetAddrOfNativeCodeSlot();
        NativeCodeSlot value, expected;

        value.SetValueMaybeNull(pSlot, addr | (*dac_cast<PTR_TADDR>(pSlot) & FIXUP_LIST_MASK));
        expected.SetValueMaybeNull(pSlot, pExpected | (*dac_cast<PTR_TADDR>(pSlot) & FIXUP_LIST_MASK));

        return FastInterlockCompareExchangePointer(EnsureWritablePages(reinterpret_cast<TADDR*>(pSlot)),
            (TADDR&)value, (TADDR&)expected) == (TADDR&)expected;
    }
    
    if (IsDefaultInterfaceMethod() && HasPrecode())
    {        
        return GetPrecode()->SetTargetInterlocked(addr);
    }

    _ASSERTE(pExpected == NULL);
    return SetStableEntryPointInterlocked(addr);
}

#ifndef CROSSGEN_COMPILE

//*******************************************************************************
void MethodDesc::SetMethodEntryPoint(PCODE addr)
{
    WRAPPER_NO_CONTRACT;
    _ASSERTE(addr != NULL);

    // Similarly to GetMethodEntryPoint(), it is up to the caller to ensure that calls to this function are appropriately
    // synchronized. Currently, the only caller synchronizes with the following lock.
    _ASSERTE(MethodDescBackpatchInfoTracker::IsLockedByCurrentThread());

    TADDR pSlot = GetAddrOfSlot();

    TADDR *slotAddr;
    PCODE newVal;

    if (IsVtableSlot())
    {
        newVal = MethodTable::VTableIndir2_t::GetRelative(pSlot, addr);
        slotAddr = (TADDR *) EnsureWritablePages((MethodTable::VTableIndir2_t *) pSlot);
    }
    else
    {
        newVal = addr;
        slotAddr = (TADDR *) EnsureWritablePages((PCODE *) pSlot);
    }

    *(TADDR *)slotAddr = newVal;
}

#endif // CROSSGEN_COMPILE

//*******************************************************************************
BOOL MethodDesc::SetStableEntryPointInterlocked(PCODE addr)
{
    CONTRACTL {
        THROWS;
        GC_NOTRIGGER;
    } CONTRACTL_END;

    _ASSERTE(!HasPrecode());
    _ASSERTE(!IsVersionableWithoutJumpStamp());

    PCODE pExpected = GetTemporaryEntryPoint();
    TADDR pSlot = GetAddrOfSlot();

    BOOL fResult;

    TADDR *slotAddr;
    PCODE newVal;
    PCODE oldVal;

    if (IsVtableSlot())
    {
        newVal = MethodTable::VTableIndir2_t::GetRelative(pSlot, addr);
        oldVal = MethodTable::VTableIndir2_t::GetRelative(pSlot, pExpected);
        slotAddr = (TADDR *) EnsureWritablePages((MethodTable::VTableIndir2_t *) pSlot);
    }
    else
    {
        newVal = addr;
        oldVal = pExpected;
        slotAddr = (TADDR *) EnsureWritablePages((PCODE *) pSlot);
    }

    fResult = FastInterlockCompareExchangePointer(slotAddr, (TADDR) newVal, (TADDR) oldVal) == oldVal;

    InterlockedUpdateFlags2(enum_flag2_HasStableEntryPoint, TRUE);

    return fResult;
}

//*******************************************************************************
void NDirectMethodDesc::InterlockedSetNDirectFlags(WORD wFlags)
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
    }
    CONTRACTL_END

    // Since InterlockedCompareExchange only works on ULONGs, 
    // we'll have to operate on the entire ULONG. Ugh.

    WORD *pFlags = &ndirect.m_wFlags;

    EnsureWritablePages(pFlags);
    
    // Make sure that m_flags is aligned on a 4 byte boundry
    _ASSERTE( ( ((size_t) pFlags) & (sizeof(ULONG)-1) ) == 0);

    // Ensure we won't be reading or writing outside the bounds of the NDirectMethodDesc.
    _ASSERTE((BYTE*)pFlags >= (BYTE*)this);
    _ASSERTE((BYTE*)pFlags+sizeof(ULONG) <= (BYTE*)(this+1));

    DWORD dwMask = 0;

    // Set the flags in the mask
    ((WORD*)&dwMask)[0] |= wFlags;

    // Now, slam all 32 bits atomically.
    FastInterlockOr((DWORD*)pFlags, dwMask);
}

#ifndef CROSSGEN_COMPILE
FARPROC NDirectMethodDesc::FindEntryPointWithMangling(NATIVE_LIBRARY_HANDLE hMod, PTR_CUTF8 entryPointName) const
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
    }
    CONTRACTL_END;

#ifndef FEATURE_PAL
    FARPROC pFunc = GetProcAddress(hMod, entryPointName);
#else
    FARPROC pFunc = PAL_GetProcAddressDirect(hMod, entryPointName);
#endif

#if defined(_TARGET_X86_)

    if (pFunc)
    {
        return pFunc;
    }

    if (IsStdCall())
    {
        if (GetModule()->IsReadyToRun())
        {
            // Computing if marshalling is required also computes the required stack size. We need the stack size to correctly form the
            // name of the import pinvoke function on x86
            ((NDirectMethodDesc*)this)->MarshalingRequired();
        }

        DWORD probedEntrypointNameLength = (DWORD)(strlen(entryPointName) + 1); // 1 for null terminator
        int dstbufsize = (int)(sizeof(char) * (probedEntrypointNameLength + 10)); // 10 for stdcall mangling
        LPSTR szProbedEntrypointName = ((LPSTR)_alloca(dstbufsize + 1));
        szProbedEntrypointName[0] = '_';
        strcpy_s(szProbedEntrypointName + 1, dstbufsize, entryPointName);
        szProbedEntrypointName[probedEntrypointNameLength] = '\0'; // Add an extra '\0'.

        UINT16 numParamBytesMangle = GetStackArgumentSize();
            
        if (IsStdCallWithRetBuf())
        {
            _ASSERTE(numParamBytesMangle >= sizeof(LPVOID));
            numParamBytesMangle -= (UINT16)sizeof(LPVOID);
        }

        sprintf_s(szProbedEntrypointName + probedEntrypointNameLength, dstbufsize - probedEntrypointNameLength + 1, "@%lu", (ULONG)numParamBytesMangle);
        pFunc = GetProcAddress(hMod, szProbedEntrypointName);
    }

#endif

    return pFunc;
}

//*******************************************************************************
LPVOID NDirectMethodDesc::FindEntryPoint(NATIVE_LIBRARY_HANDLE hMod) const
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
    }
    CONTRACTL_END;

    char const * funcName = GetEntrypointName();
    
    FARPROC pFunc = NULL;

#ifndef FEATURE_PAL
    // Handle ordinals.
    if (funcName[0] == '#')
    {
        long ordinal = atol(funcName + 1);
        return reinterpret_cast<LPVOID>(GetProcAddress(hMod, (LPCSTR)(size_t)((UINT16)ordinal)));
    }
#endif

    // Just look for the user-provided name without charset suffixes.  If it is unicode fcn, we are going
    // to need to check for the 'W' API because it takes precedence over the
    // unmangled one (on NT some APIs have unmangled ANSI exports).
    pFunc = FindEntryPointWithMangling(hMod, funcName);
    if ((pFunc != NULL && IsNativeAnsi()) || IsNativeNoMangled())
    {
        return reinterpret_cast<LPVOID>(pFunc);
    }

    DWORD probedEntrypointNameLength = (DWORD)(strlen(funcName) + 1); // +1 for charset decorations

    // Allocate space for a copy of the entry point name.
    int dstbufsize = (int)(sizeof(char) * (probedEntrypointNameLength + 1)); // +1 for the null terminator

    LPSTR szProbedEntrypointName = ((LPSTR)_alloca(dstbufsize));

    // Copy the name so we can mangle it.
    strcpy_s(szProbedEntrypointName, dstbufsize, funcName);
    szProbedEntrypointName[probedEntrypointNameLength] = '\0'; // Add an extra '\0'.

    if(!IsNativeNoMangled())
    {
        szProbedEntrypointName[probedEntrypointNameLength - 1] = IsNativeAnsi() ? 'A' : 'W';

        FARPROC pProbedFunc = FindEntryPointWithMangling(hMod, szProbedEntrypointName);

        if(pProbedFunc != NULL)
        {
            pFunc = pProbedFunc;
        }

        probedEntrypointNameLength++;
    }

    return reinterpret_cast<LPVOID>(pFunc);
}
#endif // CROSSGEN_COMPILE

#if !defined(CROSSGEN_COMPILE)
//*******************************************************************************
void NDirectMethodDesc::InitEarlyBoundNDirectTarget()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM(););
    }
    CONTRACTL_END

    _ASSERTE(IsEarlyBound());

    if (IsClassConstructorTriggeredAtLinkTime())
    {
        GetMethodTable()->CheckRunClassInitThrowing();
    }

    const void *target = GetModule()->GetInternalPInvokeTarget(GetRVA());
    _ASSERTE(target != 0);

    if (HeuristicDoesThisLookLikeAGetLastErrorCall((LPBYTE)target))
        target = (BYTE*)FalseGetLastError;

    // As long as we've set the NDirect target field we don't need to backpatch the import thunk glue.
    // All NDirect calls all through the NDirect target, so if it's updated, then we won't go into
    // NDirectImportThunk().  In fact, backpatching the import thunk glue leads to race conditions.
    SetNDirectTarget((LPVOID)target);
}
#endif // !CROSSGEN_COMPILE

//*******************************************************************************
void MethodDesc::ComputeSuppressUnmanagedCodeAccessAttr(IMDInternalImport *pImport)
{
    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        FORBID_FAULT;
    }
    CONTRACTL_END;

}

//*******************************************************************************
BOOL MethodDesc::HasNativeCallableAttribute()
{

    CONTRACTL
    {
        THROWS;
        GC_NOTRIGGER;
        FORBID_FAULT;
    }
    CONTRACTL_END;

    HRESULT hr = GetModule()->GetCustomAttribute(GetMemberDef(),
        WellKnownAttribute::NativeCallable,
        NULL,
        NULL);
    if (hr == S_OK)
    {
        return TRUE;
    }

    return FALSE;
}

#ifdef FEATURE_COMINTEROP
//*******************************************************************************
void ComPlusCallMethodDesc::InitComEventCallInfo()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM());
    }
    CONTRACTL_END

    MethodTable *pItfMT = GetInterfaceMethodTable();
    MethodDesc *pItfMD = this;
    MethodTable *pSrcItfClass = NULL;
    MethodTable *pEvProvClass = NULL;

    // Retrieve the event provider class.
    WORD cbExtraSlots = ComMethodTable::GetNumExtraSlots(pItfMT->GetComInterfaceType());
    WORD itfSlotNum = (WORD) m_pComPlusCallInfo->m_cachedComSlot - cbExtraSlots;
    pItfMT->GetEventInterfaceInfo(&pSrcItfClass, &pEvProvClass);
    m_pComPlusCallInfo->m_pEventProviderMD = MemberLoader::FindMethodForInterfaceSlot(pEvProvClass, pItfMT, itfSlotNum);

    // If we could not find the method, then the event provider does not support
    // this event. This is a fatal error.
    if (!m_pComPlusCallInfo->m_pEventProviderMD)
    {
        // Init the interface MD for error reporting.
        pItfMD = (ComPlusCallMethodDesc*)pItfMT->GetMethodDescForSlot(itfSlotNum);

        // Retrieve the event provider class name.
        StackSString ssEvProvClassName;
        pEvProvClass->_GetFullyQualifiedNameForClass(ssEvProvClassName);

        // Retrieve the COM event interface class name.
        StackSString ssEvItfName;
        pItfMT->_GetFullyQualifiedNameForClass(ssEvItfName);

        // Convert the method name to unicode.
        StackSString ssMethodName(SString::Utf8, pItfMD->GetName());

        // Throw the exception.
        COMPlusThrow(kTypeLoadException, IDS_EE_METHOD_NOT_FOUND_ON_EV_PROV,
                     ssMethodName.GetUnicode(), ssEvItfName.GetUnicode(), ssEvProvClassName.GetUnicode());
    }
}
#endif // FEATURE_COMINTEROP

#endif // !DACCESS_COMPILE


#ifdef DACCESS_COMPILE

//*******************************************************************************
void
MethodDesc::EnumMemoryRegions(CLRDataEnumMemoryFlags flags)
{
    SUPPORTS_DAC;

    if (DacHasMethodDescBeenEnumerated(this))
    {
        return;
    }
    
    // Save away the whole MethodDescChunk as in many
    // places RecoverChunk is called on a method desc so
    // the whole chunk must be available.  This also
    // automatically picks up any prestubs and such.
    GetMethodDescChunk()->EnumMemoryRegions(flags);

    if (HasPrecode())
    {
        GetPrecode()->EnumMemoryRegions(flags);
    }

    // Need to save the Debug-Info for this method so that we can see it in a debugger later.
    DebugInfoManager::EnumMemoryRegionsForMethodDebugInfo(flags, this);

    if (!IsNoMetadata() ||IsILStub())
    {
        // The assembling of the string below implicitly dumps the memory we need.
        
        StackSString str;
        TypeString::AppendMethodInternal(str, this, TypeString::FormatSignature|TypeString::FormatNamespace|TypeString::FormatFullInst);

#ifdef FEATURE_MINIMETADATA_IN_TRIAGEDUMPS
        if (flags == CLRDATA_ENUM_MEM_MINI || flags == CLRDATA_ENUM_MEM_TRIAGE)
        {
            // we want to save just the method name, so truncate at the open paranthesis
            SString::Iterator it = str.Begin();
            if (str.Find(it, W('(')))
            {
                // ensure the symbol ends in "()" to minimize regressions
                // in !analyze assuming the existence of the argument list
                str.Truncate(++it);
                str.Append(W(')'));
            }

            DacMdCacheAddEEName(dac_cast<TADDR>(this), str);
        }
#endif // FEATURE_MINIMETADATA_IN_TRIAGEDUMPS

        // The module path is used in the output of !clrstack and !pe if the  
        // module is not available when the minidump is inspected. By retrieving
        // the path here, the required memory is implicitly dumped.
        Module* pModule = GetModule();
        if (pModule)
        {
            pModule->GetPath();
        }
    }

#ifdef FEATURE_CODE_VERSIONING
    // Make sure the active IL and native code version are in triage dumps.
    GetCodeVersionManager()->GetActiveILCodeVersion(dac_cast<PTR_MethodDesc>(this)).GetActiveNativeCodeVersion(dac_cast<PTR_MethodDesc>(this));
#endif

    // Also, call DacValidateMD to dump the memory it needs. !clrstack calls 
    // DacValidateMD before it retrieves the method name. We don't expect 
    // DacValidateMD to fail, but if it does, ignore the failure and try to assemble the 
    // string anyway so that clients that don't validate the MD still work.

    DacValidateMD(this);

    DacSetMethodDescEnumerated(this);
    
}

//*******************************************************************************
void
StoredSigMethodDesc::EnumMemoryRegions(CLRDataEnumMemoryFlags flags)
{
    SUPPORTS_DAC;
    // 'this' already done, see below.
    DacEnumMemoryRegion(GetSigRVA(), m_cSig);
}

//*******************************************************************************
void
MethodDescChunk::EnumMemoryRegions(CLRDataEnumMemoryFlags flags)
{
    SUPPORTS_DAC;

    DAC_CHECK_ENUM_THIS();
    EMEM_OUT(("MEM: %p MethodDescChunk\n", dac_cast<TADDR>(this)));

    DacEnumMemoryRegion(dac_cast<TADDR>(this), SizeOf());

    PTR_MethodTable pMT = GetMethodTable();

    if (pMT.IsValid())
    {
        pMT->EnumMemoryRegions(flags);
    }

    if (HasTemporaryEntryPoints())
    {
        SIZE_T size;

#ifdef HAS_COMPACT_ENTRYPOINTS
        if (HasCompactEntryPoints())
        {
            size = SizeOfCompactEntryPoints(GetCount());
        }
        else
#endif // HAS_COMPACT_ENTRYPOINTS
        {
            size = Precode::SizeOfTemporaryEntryPoints(GetTemporaryEntryPoints(), GetCount());
        }

        DacEnumMemoryRegion(GetTemporaryEntryPoints(), size);
    }

    MethodDesc * pMD = GetFirstMethodDesc();
    MethodDesc * pOldMD = NULL;
    while (pMD != NULL && pMD != pOldMD)
    {
        pOldMD = pMD;
        EX_TRY
        {
            if (pMD->IsMethodImpl())
            {
                pMD->GetMethodImpl()->EnumMemoryRegions(flags);
            }
        }
        EX_CATCH_RETHROW_ONLY_COR_E_OPERATIONCANCELLED

        EX_TRY
        {
            if (pMD->HasStoredSig())
            {
                dac_cast<PTR_StoredSigMethodDesc>(pMD)->EnumMemoryRegions(flags);
            }

            // Check whether the next MethodDesc is within the bounds of the current chunks
            TADDR pNext = dac_cast<TADDR>(pMD) + pMD->SizeOf();
            TADDR pEnd = dac_cast<TADDR>(this) + this->SizeOf();

            pMD = (pNext < pEnd) ? PTR_MethodDesc(pNext) : NULL;
        }
        EX_CATCH_RETHROW_ONLY_COR_E_OPERATIONCANCELLED
    }
}

#endif // DACCESS_COMPILE

#ifndef DACCESS_COMPILE
//*******************************************************************************
MethodDesc *MethodDesc::GetInterfaceMD()
{
    CONTRACT (MethodDesc*) {
        THROWS;
        GC_TRIGGERS;
        INSTANCE_CHECK;
        PRECONDITION(!IsInterface());
        POSTCONDITION(CheckPointer(RETVAL, NULL_OK));
    } CONTRACT_END;
    MethodTable *pMT = GetMethodTable();
    RETURN(pMT->ReverseInterfaceMDLookup(GetSlot()));
}
#endif // !DACCESS_COMPILE

PTR_LoaderAllocator MethodDesc::GetLoaderAllocator()
{
    WRAPPER_NO_CONTRACT;
    return GetLoaderModule()->GetLoaderAllocator();
}

#if !defined(DACCESS_COMPILE) && !defined(CROSSGEN_COMPILE)
REFLECTMETHODREF MethodDesc::GetStubMethodInfo()
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        INJECT_FAULT(COMPlusThrowOM());
        MODE_COOPERATIVE;
    }
    CONTRACTL_END;

    REFLECTMETHODREF retVal;
    REFLECTMETHODREF methodRef = (REFLECTMETHODREF)AllocateObject(MscorlibBinder::GetClass(CLASS__STUBMETHODINFO));
    GCPROTECT_BEGIN(methodRef);

    methodRef->SetMethod(this);
    LoaderAllocator *pLoaderAllocatorOfMethod = this->GetLoaderAllocator();
    if (pLoaderAllocatorOfMethod->IsCollectible())
        methodRef->SetKeepAlive(pLoaderAllocatorOfMethod->GetExposedObject());

    retVal = methodRef;
    GCPROTECT_END();

    return retVal;
}
#endif // !DACCESS_COMPILE && CROSSGEN_COMPILE

#ifndef DACCESS_COMPILE
typedef void (*WalkValueTypeParameterFnPtr)(Module *pModule, mdToken token, Module *pDefModule, mdToken tkDefToken, SigPointer *ptr, SigTypeContext *pTypeContext, void *pData);

void MethodDesc::WalkValueTypeParameters(MethodTable *pMT, WalkValueTypeParameterFnPtr function, void *pData)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    ULONG numArgs = 0;
    Module *pModule = this->GetModule();
    SigPointer ptr = this->GetSigPointer();

    // skip over calling convention.
    ULONG         callConv = 0;
    IfFailThrowBF(ptr.GetCallingConvInfo(&callConv), BFA_BAD_SIGNATURE, pModule);

    // If calling convention is generic, skip GenParamCount
    if (callConv & IMAGE_CEE_CS_CALLCONV_GENERIC)
    {
        IfFailThrowBF(ptr.GetData(NULL), BFA_BAD_SIGNATURE, pModule);
    }

    IfFailThrowBF(ptr.GetData(&numArgs), BFA_BAD_SIGNATURE, pModule);

    SigTypeContext typeContext(this, TypeHandle(pMT));

    // iterate over the return type and parameters
    for (DWORD j = 0; j <= numArgs; j++)
    {
        CorElementType type = ptr.PeekElemTypeClosed(pModule, &typeContext);
        if (type != ELEMENT_TYPE_VALUETYPE)
            goto moveToNextToken;

        mdToken token;
        Module *pTokenModule;
        token = ptr.PeekValueTypeTokenClosed(pModule, &typeContext, &pTokenModule);

        if (token == mdTokenNil) 
            goto moveToNextToken;

        DWORD dwAttrType;
        Module *pDefModule;
        mdToken defToken;

        dwAttrType = 0;
        if (ClassLoader::ResolveTokenToTypeDefThrowing(pTokenModule, token, &pDefModule, &defToken))
        {
            if (function != NULL)
                function(pModule, token, pDefModule, defToken, &ptr, &typeContext, pData);
        }

moveToNextToken:
        // move to next argument token
        IfFailThrowBF(ptr.SkipExactlyOne(), BFA_BAD_SIGNATURE, pModule);
    }

    if (!IsZapped() && !IsCompilationProcess() && !HaveValueTypeParametersBeenWalked())
    {
        SetValueTypeParametersWalked();
    }
}


#ifdef FEATURE_TYPEEQUIVALENCE
static void CheckForEquivalenceAndLoadType(Module *pModule, mdToken token, Module *pDefModule, mdToken defToken, const SigParser *ptr, SigTypeContext *pTypeContext, void *pData)
{
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
    }
    CONTRACTL_END;

    BOOL *pHasEquivalentParam = (BOOL *)pData;

    if (IsTypeDefEquivalent(defToken, pDefModule))
    {
        *pHasEquivalentParam = TRUE;
        SigPointer sigPtr(*ptr);
        TypeHandle th = sigPtr.GetTypeHandleThrowing(pModule, pTypeContext);
    }
}
#endif // FEATURE_TYPEEQUIVALENCE

BOOL MethodDesc::HasTypeEquivalentStructParameters()
{
#ifdef FEATURE_TYPEEQUIVALENCE
    CONTRACTL
    {
        THROWS;
        GC_TRIGGERS;
        MODE_ANY;
    }
    CONTRACTL_END;

    BOOL fHasTypeEquivalentStructParameters = FALSE;
    if (DoesNotHaveEquivalentValuetypeParameters())
        return FALSE;

    WalkValueTypeParameters(this->GetMethodTable(), CheckForEquivalenceAndLoadType, &fHasTypeEquivalentStructParameters);

    if (!fHasTypeEquivalentStructParameters && !IsZapped())
        SetDoesNotHaveEquivalentValuetypeParameters();

    return fHasTypeEquivalentStructParameters;

#else
    LIMITED_METHOD_CONTRACT;
    return FALSE;

#endif // FEATURE_TYPEEQUIVALENCE
}


PrecodeType MethodDesc::GetPrecodeType()
{
    LIMITED_METHOD_CONTRACT;
    
    PrecodeType precodeType = PRECODE_INVALID;

#ifdef HAS_FIXUP_PRECODE
    if (!RequiresMethodDescCallingConvention())
    {
        // Use the more efficient fixup precode if possible
#ifdef HAS_RELATIVE_FIXUP_PRECODE
        if (IsZapped())
        {
            precodeType = PRECODE_RELATIVE_FIXUP;
        }
        else
#endif // HAS_RELATIVE_FIXUP_PRECODE
        {
            precodeType = PRECODE_FIXUP;
        }
    }
    else
#endif // HAS_FIXUP_PRECODE
    {
#ifdef HAS_RELATIVE_STUB_PRECODE
        if (IsZapped())
        {
            precodeType = PRECODE_RELATIVE_STUB;
        }
        else
#endif // HAS_RELATIVE_STUB_PRECODE
        {
            precodeType = PRECODE_STUB;
        }
    }
    
    return precodeType;
}

#endif // !DACCESS_COMPILE

#ifdef FEATURE_COMINTEROP 
#ifndef DACCESS_COMPILE
void ComPlusCallMethodDesc::InitRetThunk()
{
    WRAPPER_NO_CONTRACT;

#ifdef _TARGET_X86_
    if (m_pComPlusCallInfo->m_pRetThunk != NULL)
        return;

    // Record the fact that we are writting into the ComPlusCallMethodDesc
    g_IBCLogger.LogMethodDescAccess(this);

    UINT numStackBytes = CbStackPop();

    LPVOID pRetThunk = ComPlusCall::GetRetThunk(numStackBytes);

    FastInterlockCompareExchangePointer<void *>(&m_pComPlusCallInfo->m_pRetThunk, pRetThunk, NULL);
#endif // _TARGET_X86_
}
#endif //!DACCESS_COMPILE
#endif // FEATURE_COMINTEROP

#ifndef DACCESS_COMPILE
void MethodDesc::PrepareForUseAsADependencyOfANativeImageWorker()
{
    STANDARD_VM_CONTRACT;

    // This function ensures that a method is ready for use as a dependency of a native image
    // The current requirement is only that valuetypes can be resolved to their type defs as much 
    // as is possible. (If the method is actually called, then this will not throw, but there
    // are cases where we call this method and we are unaware if this method will actually be called
    // or accessed as a native image dependency. This explains the contract (STANDARD_VM_CONTRACT) 
    //  - This method should be callable only when general purpose VM code can be called
    // , as well as the TRY/CATCH. 
    //  - This function should not introduce failures

    EX_TRY
    {
        WalkValueTypeParameters(this->GetMethodTable(), NULL, NULL);
    }
    EX_CATCH
    {
    }
    EX_END_CATCH(RethrowTerminalExceptions);
    _ASSERTE(IsZapped() || HaveValueTypeParametersBeenWalked());
}
#endif //!DACCESS_COMPILE

#ifdef _MSC_VER
#pragma warning(pop)
#endif // _MSC_VER: warning C4244