// 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: memberload.cpp // // // // ============================================================================ #include "common.h" #include "clsload.hpp" #include "method.hpp" #include "class.h" #include "object.h" #include "field.h" #include "util.hpp" #include "excep.h" #include "siginfo.hpp" #include "threads.h" #include "stublink.h" #include "ecall.h" #include "dllimport.h" #include "verifier.hpp" #include "jitinterface.h" #include "eeconfig.h" #include "log.h" #include "fieldmarshaler.h" #include "cgensys.h" #include "gcheaputilities.h" #include "security.h" #include "dbginterface.h" #include "comdelegate.h" #include "sigformat.h" #include "eeprofinterfaces.h" #include "dllimportcallback.h" #include "listlock.h" #include "methodimpl.h" #include "stackprobe.h" #include "encee.h" #include "comsynchronizable.h" #include "customattribute.h" #include "virtualcallstub.h" #include "eeconfig.h" #include "contractimpl.h" #include "listlock.inl" #include "generics.h" #include "instmethhash.h" #include "typestring.h" #ifndef DACCESS_COMPILE void DECLSPEC_NORETURN MemberLoader::ThrowMissingFieldException(MethodTable* pMT, LPCSTR szMember) { CONTRACTL { THROWS; GC_TRIGGERS; MODE_ANY; PRECONDITION(CheckPointer(pMT, NULL_OK)); PRECONDITION(CheckPointer(szMember,NULL_OK)); } CONTRACTL_END; LPCUTF8 szClassName; DefineFullyQualifiedNameForClass(); if (pMT) { szClassName = GetFullyQualifiedNameForClass(pMT); } else { szClassName = "?"; }; LPUTF8 szFullName; MAKE_FULLY_QUALIFIED_MEMBER_NAME(szFullName, NULL, szClassName, (szMember?szMember:"?"), ""); PREFIX_ASSUME(szFullName!=NULL); MAKE_WIDEPTR_FROMUTF8(szwFullName, szFullName); EX_THROW(EEMessageException, (kMissingFieldException, IDS_EE_MISSING_FIELD, szwFullName)); } void DECLSPEC_NORETURN MemberLoader::ThrowMissingMethodException(MethodTable* pMT, LPCSTR szMember, Module *pModule, PCCOR_SIGNATURE pSig,DWORD cSig,const SigTypeContext *pTypeContext) { CONTRACTL { THROWS; GC_TRIGGERS; MODE_ANY; PRECONDITION(CheckPointer(pMT,NULL_OK)); PRECONDITION(CheckPointer(szMember,NULL_OK)); PRECONDITION(CheckPointer(pSig,NULL_OK)); PRECONDITION(CheckPointer(pModule,NULL_OK)); PRECONDITION(CheckPointer(pTypeContext,NULL_OK)); } CONTRACTL_END; LPCUTF8 szClassName; DefineFullyQualifiedNameForClass(); if (pMT) { szClassName = GetFullyQualifiedNameForClass(pMT); } else { szClassName = "?"; }; if (pSig && cSig && pModule) { MetaSig tmp(pSig, cSig, pModule, pTypeContext); SigFormat sf(tmp, szMember ? szMember : "?", szClassName, NULL); MAKE_WIDEPTR_FROMUTF8(szwFullName, sf.GetCString()); EX_THROW(EEMessageException, (kMissingMethodException, IDS_EE_MISSING_METHOD, szwFullName)); } else { EX_THROW(EEMessageException, (kMissingMethodException, IDS_EE_MISSING_METHOD, W("?"))); } } //--------------------------------------------------------------------------------------- // void MemberLoader::GetDescFromMemberRef(Module * pModule, mdToken MemberRef, MethodDesc ** ppMD, FieldDesc ** ppFD, const SigTypeContext *pTypeContext, BOOL strictMetadataChecks, TypeHandle *ppTH, BOOL actualTypeRequired, PCCOR_SIGNATURE * ppTypeSig, ULONG * pcbTypeSig) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(MemberRef) == mdtMemberRef); PRECONDITION(ppMD != NULL && *ppMD == NULL); PRECONDITION(ppFD != NULL && *ppFD == NULL); PRECONDITION(ppTH != NULL && ppTH->IsNull()); PRECONDITION(!((ppTypeSig == NULL) ^ (pcbTypeSig == NULL))); } CONTRACTL_END; // In lookup table? BOOL fIsMethod; TADDR pDatum = pModule->LookupMemberRef(MemberRef, &fIsMethod); if (pDatum != NULL) { if (!fIsMethod) { FieldDesc * pFD = dac_cast(pDatum); *ppFD = pFD; // Fields are not inherited so we can always return the exact type right away. *ppTH = pFD->GetEnclosingMethodTable(); return; } else { MethodDesc * pMD = dac_cast(pDatum); pMD->CheckRestore(); *ppMD = pMD; // We are done if the caller is not interested in actual type. if (!actualTypeRequired) { *ppTH = pMD->GetMethodTable(); return; } } } // No, so do it the long way IMDInternalImport * pInternalImport = pModule->GetMDImport(); mdTypeRef parent; IfFailThrow(pInternalImport->GetParentOfMemberRef(MemberRef, &parent)); // If parent is a method def, then this is a varargs method and the // desc lives in the same module. if (TypeFromToken(parent) == mdtMethodDef) { // Return now if actualTypeRequired was set and the desc was cached if (pDatum != NULL) { *ppTH = dac_cast(pDatum)->GetMethodTable(); return; } MethodDesc *pMethodDef = pModule->LookupMethodDef(parent); if (!pMethodDef) { // There is no value for this def so we haven't yet loaded the class. mdTypeDef typeDef; IfFailThrow(pInternalImport->GetParentToken(parent, &typeDef)); // Make sure it is a typedef if (TypeFromToken(typeDef) != mdtTypeDef) { COMPlusThrowHR(COR_E_BADIMAGEFORMAT, BFA_METHODDEF_WO_TYPEDEF_PARENT); } // load the class TypeHandle th = ClassLoader::LoadTypeDefThrowing( pModule, typeDef, ClassLoader::ThrowIfNotFound, strictMetadataChecks ? ClassLoader::FailIfUninstDefOrRef : ClassLoader::PermitUninstDefOrRef); // the class has been loaded and the method should be in the rid map! pMethodDef = pModule->LookupMethodDef(parent); } LPCUTF8 szMember; PCCOR_SIGNATURE pSig; DWORD cSig; IfFailThrow(pInternalImport->GetNameAndSigOfMemberRef(MemberRef, &pSig, &cSig, &szMember)); BOOL fMissingMethod = FALSE; if (!pMethodDef) { fMissingMethod = TRUE; } else if (pMethodDef->HasClassOrMethodInstantiation()) { // A memberref to a varargs method must not find a MethodDesc that is generic (as varargs methods may not be implemented on generics) fMissingMethod = TRUE; } else { // Ensure the found method matches up correctly PCCOR_SIGNATURE pMethodSig; DWORD cMethodSig; pMethodDef->GetSig(&pMethodSig, &cMethodSig); if (!MetaSig::CompareMethodSigs(pSig, cSig, pModule, NULL, pMethodSig, cMethodSig, pModule, NULL)) { // If the signatures do not match, then the correct MethodDesc has not been found. fMissingMethod = TRUE; } } if (fMissingMethod) { ThrowMissingMethodException( (pMethodDef != NULL) ? pMethodDef->GetMethodTable() : NULL, szMember, pModule, pSig, cSig, pTypeContext); } pMethodDef->CheckRestore(); *ppMD = pMethodDef; *ppTH = pMethodDef->GetMethodTable(); pModule->StoreMemberRef(MemberRef, pMethodDef); return; } TypeHandle typeHnd; PCCOR_SIGNATURE pTypeSig = NULL; ULONG cTypeSig = 0; switch (TypeFromToken(parent)) { case mdtModuleRef: { DomainFile *pTargetModule = pModule->LoadModule(GetAppDomain(), parent, FALSE /* loadResources */); if (pTargetModule == NULL) COMPlusThrowHR(COR_E_BADIMAGEFORMAT); typeHnd = TypeHandle(pTargetModule->GetModule()->GetGlobalMethodTable()); if (typeHnd.IsNull()) COMPlusThrowHR(COR_E_BADIMAGEFORMAT); } break; case mdtTypeDef: case mdtTypeRef: typeHnd = ClassLoader::LoadTypeDefOrRefThrowing(pModule, parent, ClassLoader::ThrowIfNotFound, strictMetadataChecks ? ClassLoader::FailIfUninstDefOrRef : ClassLoader::PermitUninstDefOrRef); break; case mdtTypeSpec: { IfFailThrow(pInternalImport->GetTypeSpecFromToken(parent, &pTypeSig, &cTypeSig)); if (ppTypeSig != NULL) { *ppTypeSig = pTypeSig; *pcbTypeSig = cTypeSig; } SigPointer sigptr(pTypeSig, cTypeSig); typeHnd = sigptr.GetTypeHandleThrowing(pModule, pTypeContext); } break; default: COMPlusThrowHR(COR_E_BADIMAGEFORMAT); } // Return now if actualTypeRequired was set and the desc was cached if (pDatum != NULL) { *ppTH = typeHnd; return; } // Now load the parent of the method ref MethodTable * pMT = typeHnd.GetMethodTable(); // pMT will be null if typeHnd is a variable type if (pMT == NULL) { COMPlusThrowHR(COR_E_BADIMAGEFORMAT, BFA_METHODDEF_PARENT_NO_MEMBERS); } PREFIX_ASSUME(pMT != NULL); LPCUTF8 szMember; PCCOR_SIGNATURE pSig; DWORD cSig; IfFailThrow(pInternalImport->GetNameAndSigOfMemberRef(MemberRef, &pSig, &cSig, &szMember)); BOOL fIsField = isCallConv( MetaSig::GetCallingConvention(pModule, Signature(pSig, cSig)), IMAGE_CEE_CS_CALLCONV_FIELD); if (fIsField) { FieldDesc * pFD = MemberLoader::FindField(pMT, szMember, pSig, cSig, pModule); if (pFD == NULL) ThrowMissingFieldException(pMT, szMember); if (pFD->IsStatic() && pMT->HasGenericsStaticsInfo()) { // // this is duplicated logic GetFieldDescByIndex // INDEBUG(mdFieldDef token = pFD->GetMemberDef();) DWORD pos = static_cast(pFD - (pMT->GetApproxFieldDescListRaw() + pMT->GetNumIntroducedInstanceFields())); _ASSERTE(pos >= 0 && pos < pMT->GetNumStaticFields()); pFD = pMT->GetGenericsStaticFieldDescs() + pos; _ASSERTE(pFD->GetMemberDef() == token); _ASSERTE(!pFD->IsSharedByGenericInstantiations()); _ASSERTE(pFD->GetEnclosingMethodTable() == pMT); } *ppFD = pFD; *ppTH = typeHnd; //@GENERICS: don't store FieldDescs for instantiated types //or we'll get the wrong one for another instantiation! if (!pMT->HasInstantiation()) { pModule->StoreMemberRef(MemberRef, pFD); // Verify that the exact type returned here is same as exact type returned by the cached path _ASSERTE(TypeHandle(pFD->GetEnclosingMethodTable()) == *ppTH); } } else { // For array method signatures, the caller's signature contains "actual" types whereas the callee's signature has // formals (ELEMENT_TYPE_VAR 0 wherever the element type of the array occurs). So we need to pass in a substitution // built from the signature of the element type. Substitution sigSubst(pModule, SigPointer(), NULL); if (typeHnd.IsArray()) { _ASSERTE(pTypeSig != NULL && cTypeSig != 0); SigPointer sigptr = SigPointer(pTypeSig, cTypeSig); CorElementType type; IfFailThrow(sigptr.GetElemType(&type)); THROW_BAD_FORMAT_MAYBE( ((type == ELEMENT_TYPE_SZARRAY) || (type == ELEMENT_TYPE_ARRAY)), BFA_NOT_AN_ARRAY, pModule); sigSubst = Substitution(pModule, sigptr, NULL); } // Lookup the method in the class. MethodDesc * pMD = MemberLoader::FindMethod(pMT, szMember, pSig, cSig, pModule, MemberLoader::FM_Default, &sigSubst); if (pMD == NULL) { ThrowMissingMethodException(pMT, szMember, pModule, pSig, cSig, pTypeContext); } pMD->CheckRestore(); *ppMD = pMD; *ppTH = typeHnd; // Don't store MethodDescs for instantiated types or we'll get // the wrong one for another instantiation! // The same thing happens for arrays as the same MemberRef can be used for multiple array types // e.g. the member ref in // call void MyList[,]::Set(int32,int32,MyList) // could be used for the Set method in MyList[,] and MyList[,], etc. // use cache when memberref is closed (contains no free type parameters) as then it does identify // a method-desc uniquely if (!pMD->HasClassOrMethodInstantiation() && !typeHnd.IsArray()) { pModule->StoreMemberRef(MemberRef, pMD); // Return actual type only if caller asked for it if (!actualTypeRequired) *ppTH = pMD->GetMethodTable(); } } } //--------------------------------------------------------------------------------------- // MethodDesc * MemberLoader::GetMethodDescFromMemberRefAndType(Module * pModule, mdToken MemberRef, MethodTable * pMT) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(MemberRef) == mdtMemberRef); } CONTRACTL_END; // // Fraction of MemberLoader::GetDescFromMemberRef that we actually need here // IMDInternalImport * pInternalImport = pModule->GetMDImport(); LPCUTF8 szMember; PCCOR_SIGNATURE pSig; DWORD cSig; IfFailThrow(pInternalImport->GetNameAndSigOfMemberRef(MemberRef, &pSig, &cSig, &szMember)); _ASSERTE(!isCallConv(MetaSig::GetCallingConvention(pModule, Signature(pSig, cSig)), IMAGE_CEE_CS_CALLCONV_FIELD)); // For array method signatures, the caller's signature contains "actual" types whereas the callee's signature has // formals (ELEMENT_TYPE_VAR 0 wherever the element type of the array occurs). So we need to pass in a substitution // built from the signature of the element type. Substitution sigSubst(pModule, SigPointer(), NULL); if (pMT->IsArray()) { mdTypeRef parent; IfFailThrow(pInternalImport->GetParentOfMemberRef(MemberRef, &parent)); PCCOR_SIGNATURE pTypeSig = NULL; ULONG cTypeSig = 0; IfFailThrow(pInternalImport->GetTypeSpecFromToken(parent, &pTypeSig, &cTypeSig)); _ASSERTE(pTypeSig != NULL && cTypeSig != 0); SigPointer sigptr = SigPointer(pTypeSig, cTypeSig); CorElementType type; IfFailThrow(sigptr.GetElemType(&type)); _ASSERTE((type == ELEMENT_TYPE_SZARRAY) || (type == ELEMENT_TYPE_ARRAY)); sigSubst = Substitution(pModule, sigptr, NULL); } // Lookup the method in the class. MethodDesc * pMD = MemberLoader::FindMethod(pMT, szMember, pSig, cSig, pModule, MemberLoader::FM_Default, &sigSubst); if (pMD == NULL) { ThrowMissingMethodException(pMT, szMember, pModule, pSig, cSig, NULL); } pMD->CheckRestore(); return pMD; } //--------------------------------------------------------------------------------------- // FieldDesc * MemberLoader::GetFieldDescFromMemberRefAndType(Module * pModule, mdToken MemberRef, MethodTable * pMT) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(MemberRef) == mdtMemberRef); } CONTRACTL_END; // // Fraction of MemberLoader::GetDescFromMemberRef that we actually need here // IMDInternalImport * pInternalImport = pModule->GetMDImport(); LPCUTF8 szMember; PCCOR_SIGNATURE pSig; DWORD cSig; IfFailThrow(pInternalImport->GetNameAndSigOfMemberRef(MemberRef, &pSig, &cSig, &szMember)); _ASSERTE(isCallConv(MetaSig::GetCallingConvention(pModule, Signature(pSig, cSig)), IMAGE_CEE_CS_CALLCONV_FIELD)); FieldDesc * pFD = MemberLoader::FindField(pMT, szMember, pSig, cSig, pModule); if (pFD == NULL) ThrowMissingFieldException(pMT, szMember); if (pFD->IsStatic() && pMT->HasGenericsStaticsInfo()) { // // this is duplicated logic GetFieldDescByIndex // INDEBUG(mdFieldDef token = pFD->GetMemberDef();) DWORD pos = static_cast(pFD - (pMT->GetApproxFieldDescListRaw() + pMT->GetNumIntroducedInstanceFields())); _ASSERTE(pos >= 0 && pos < pMT->GetNumStaticFields()); pFD = pMT->GetGenericsStaticFieldDescs() + pos; _ASSERTE(pFD->GetMemberDef() == token); _ASSERTE(!pFD->IsSharedByGenericInstantiations()); _ASSERTE(pFD->GetEnclosingMethodTable() == pMT); } return pFD; } //--------------------------------------------------------------------------------------- // MethodDesc* MemberLoader::GetMethodDescFromMethodDef(Module *pModule, mdToken MethodDef, BOOL strictMetadataChecks) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(MethodDef) == mdtMethodDef); } CONTRACTL_END; // In lookup table? MethodDesc * pMD = pModule->LookupMethodDef(MethodDef); if (!pMD) { // No, so do it the long way // // Notes on methodDefs to generic things // // For internal purposes we wish to resolve MethodDef from generic classes or for generic methods to // the corresponding fully uninstantiated descriptor. For example, for // class C { void m(); } // then then MethodDef for m resolves to a method descriptor for C.m(). This is the // descriptor that gets stored in the RID map. // // Normal IL code that uses generic code cannot use MethodDefs in this way: all calls // to generic code must be emitted as MethodRefs and MethodSpecs. However, at other // points in tthe codebase we need to resolve MethodDefs to generic uninstantiated // method descriptors, and this is the best place to implement that. // mdTypeDef typeDef; IfFailThrow(pModule->GetMDImport()->GetParentToken(MethodDef, &typeDef)); TypeHandle th = ClassLoader::LoadTypeDefThrowing( pModule, typeDef, ClassLoader::ThrowIfNotFound, strictMetadataChecks ? ClassLoader::FailIfUninstDefOrRef : ClassLoader::PermitUninstDefOrRef); // The RID map should have been filled out if we fully loaded the class pMD = pModule->LookupMethodDef(MethodDef); if (pMD == NULL) { LPCUTF8 szMember; PCCOR_SIGNATURE pSig; DWORD cSig; IfFailThrow(pModule->GetMDImport()->GetSigOfMethodDef(MethodDef, &cSig, &pSig)); IfFailThrow(pModule->GetMDImport()->GetNameOfMethodDef(MethodDef, &szMember)); ThrowMissingMethodException( th.GetMethodTable(), szMember, pModule, pSig, cSig, NULL); } } pMD->CheckRestore(); #if 0 // Generics: enable this check after the findMethod call in the Zapper which passes // naked generic MethodDefs across the JIT interface is moved over into the EE if (strictMetadataChecks && pDatum->GetNumGenericClassArgs() != 0) { THROW_BAD_FORMAT_MAYBE(!"Methods inside generic classes must be referenced using MemberRefs or MethodSpecs, even in the same module as the class", 0, pModule); COMPlusThrowHR(COR_E_BADIMAGEFORMAT); } #endif return pMD; } //--------------------------------------------------------------------------------------- // FieldDesc* MemberLoader::GetFieldDescFromFieldDef(Module *pModule, mdToken FieldDef, BOOL strictMetadataChecks) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(FieldDef) == mdtFieldDef); } CONTRACTL_END; // In lookup table? FieldDesc * pFD = pModule->LookupFieldDef(FieldDef); if (!pFD) { // No, so do it the long way mdTypeDef typeDef; IfFailThrow(pModule->GetMDImport()->GetParentToken(FieldDef, &typeDef)); // Load the class - that should set the desc in the rid map // Field defs to generic things resolve to the formal instantiation // without taking the type context into account. They are only valid internally. // check that we rule out field defs to generic things in IL streams elsewhere TypeHandle th = ClassLoader::LoadTypeDefThrowing( pModule, typeDef, ClassLoader::ThrowIfNotFound, strictMetadataChecks ? ClassLoader::FailIfUninstDefOrRef : ClassLoader::PermitUninstDefOrRef); pFD = pModule->LookupFieldDef(FieldDef); if (pFD == NULL) { LPCUTF8 szMember; if (FAILED(pModule->GetMDImport()->GetNameOfFieldDef(FieldDef, &szMember))) { szMember = "Invalid FieldDef record"; } ThrowMissingFieldException(th.GetMethodTable(), szMember); } } pFD->GetApproxEnclosingMethodTable()->CheckRestore(); #ifdef EnC_SUPPORTED if (pModule->IsEditAndContinueEnabled() && pFD->IsEnCNew()) { EnCFieldDesc *pEnCFD = (EnCFieldDesc*)pFD; // we may not have the full FieldDesc info at applyEnC time becuase we don't // have a thread so can't do things like load classes (due to possible exceptions) if (pEnCFD->NeedsFixup()) { GCX_COOP(); pEnCFD->Fixup(FieldDef); } } #endif // EnC_SUPPORTED return pFD; } //--------------------------------------------------------------------------------------- // MethodDesc * MemberLoader::GetMethodDescFromMemberDefOrRefOrSpec( Module * pModule, mdMemberRef MemberRef, const SigTypeContext * pTypeContext, BOOL strictMetadataChecks, // Normally true - the zapper is one exception. Throw an exception if no generic method args // given for a generic method, otherwise return the 'generic' instantiation BOOL allowInstParam) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(CheckPointer(pModule)); } CONTRACTL_END; IMDInternalImport *pInternalImport = pModule->GetMDImport(); if(!pInternalImport->IsValidToken(MemberRef)) { // The exception type and message preserved for compatibility THROW_BAD_FORMAT(BFA_INVALID_METHOD_TOKEN, pModule); } MethodDesc * pMD = NULL; FieldDesc * pFD = NULL; TypeHandle th; switch (TypeFromToken(MemberRef)) { case mdtMethodDef: pMD = GetMethodDescFromMethodDef(pModule, MemberRef, strictMetadataChecks); th = pMD->GetMethodTable(); break; case mdtMemberRef: GetDescFromMemberRef(pModule, MemberRef, &pMD, &pFD, pTypeContext, strictMetadataChecks, &th); if (pMD == NULL) { // The exception type and message preserved for compatibility EX_THROW(EEMessageException, (kMissingMethodException, IDS_EE_MISSING_METHOD, W("?"))); } break; case mdtMethodSpec: return GetMethodDescFromMethodSpec(pModule, MemberRef, pTypeContext, strictMetadataChecks, allowInstParam, &th); default: COMPlusThrowHR(COR_E_BADIMAGEFORMAT); } // Apply the method instantiation if any. If not applying strictMetadataChecks we // generate the "generic" instantiation - this is used by FuncEval. // // For generic code this call will return an instantiating stub where needed. If the method // is a generic method then instantiate it with the given parameters. // For non-generic code this will just return pDatum return MethodDesc::FindOrCreateAssociatedMethodDesc( pMD, th.GetMethodTable(), FALSE /* don't get unboxing entry point */, strictMetadataChecks ? Instantiation() : pMD->LoadMethodInstantiation(), allowInstParam); } // MemberLoader::GetMethodDescFromMemberDefOrRefOrSpec //--------------------------------------------------------------------------------------- // MethodDesc * MemberLoader::GetMethodDescFromMethodSpec(Module * pModule, mdToken MethodSpec, const SigTypeContext *pTypeContext, BOOL strictMetadataChecks, BOOL allowInstParam, TypeHandle *ppTH, BOOL actualTypeRequired, PCCOR_SIGNATURE * ppTypeSig, ULONG * pcbTypeSig, PCCOR_SIGNATURE * ppMethodSig, ULONG * pcbMethodSig) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(TypeFromToken(MethodSpec) == mdtMethodSpec); PRECONDITION(ppTH != NULL && ppTH->IsNull()); PRECONDITION(!((ppTypeSig == NULL) ^ (pcbTypeSig == NULL))); PRECONDITION(!((ppMethodSig == NULL) ^ (pcbMethodSig == NULL))); } CONTRACTL_END; CQuickBytes qbGenericMethodArgs; mdMemberRef GenericMemberRef; PCCOR_SIGNATURE pSig; ULONG cSig; IMDInternalImport * pInternalImport = pModule->GetMDImport(); // Get the member def/ref and instantiation signature IfFailThrow(pInternalImport->GetMethodSpecProps(MethodSpec, &GenericMemberRef, &pSig, &cSig)); if (ppMethodSig != NULL) { *ppMethodSig = pSig; *pcbMethodSig = cSig; } SigPointer sp(pSig, cSig); BYTE etype; IfFailThrow(sp.GetByte(&etype)); // Load the generic method instantiation THROW_BAD_FORMAT_MAYBE(etype == (BYTE)IMAGE_CEE_CS_CALLCONV_GENERICINST, 0, pModule); DWORD nGenericMethodArgs = 0; IfFailThrow(sp.GetData(&nGenericMethodArgs)); DWORD cbAllocSize = 0; if (!ClrSafeInt::multiply(nGenericMethodArgs, sizeof(TypeHandle), cbAllocSize)) { COMPlusThrowHR(COR_E_OVERFLOW); } TypeHandle *genericMethodArgs = reinterpret_cast(qbGenericMethodArgs.AllocThrows(cbAllocSize)); for (DWORD i = 0; i < nGenericMethodArgs; i++) { genericMethodArgs[i] = sp.GetTypeHandleThrowing(pModule, pTypeContext); _ASSERTE (!genericMethodArgs[i].IsNull()); IfFailThrow(sp.SkipExactlyOne()); } MethodDesc * pMD = NULL; FieldDesc * pFD = NULL; switch (TypeFromToken(GenericMemberRef)) { case mdtMethodDef: pMD = GetMethodDescFromMethodDef(pModule, GenericMemberRef, strictMetadataChecks); *ppTH = pMD->GetMethodTable(); break; case mdtMemberRef: GetDescFromMemberRef(pModule, GenericMemberRef, &pMD, &pFD, pTypeContext, strictMetadataChecks, ppTH, actualTypeRequired, ppTypeSig, pcbTypeSig); if (pMD == NULL) { // The exception type and message preserved for compatibility EX_THROW(EEMessageException, (kMissingMethodException, IDS_EE_MISSING_METHOD, W("?"))); } break; default: // The exception type and message preserved for compatibility THROW_BAD_FORMAT( BFA_EXPECTED_METHODDEF_OR_MEMBERREF, pModule); } return MethodDesc::FindOrCreateAssociatedMethodDesc( pMD, ppTH->GetMethodTable(), FALSE /* don't get unboxing entry point */, Instantiation(genericMethodArgs, nGenericMethodArgs), allowInstParam); } //--------------------------------------------------------------------------------------- // MethodDesc * MemberLoader::GetMethodDescFromMethodDef( Module * pModule, mdMethodDef MethodDef, // MethodDef token Instantiation classInst, // Generic arguments for declaring class Instantiation methodInst, // Generic arguments for declaring method BOOL forceRemotable /* = FALSE */) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(CheckPointer(pModule)); PRECONDITION(TypeFromToken(MethodDef) == mdtMethodDef); } CONTRACTL_END; // Get the generic method definition. The functions above are guaranteed to // return the generic definition when given a MethodDef. MethodDesc* pDefMD = GetMethodDescFromMethodDef(pModule, MethodDef, FALSE); if (pDefMD->GetNumGenericMethodArgs() != methodInst.GetNumArgs()) { COMPlusThrowHR(COR_E_TARGETPARAMCOUNT); } // If the class isn't generic then LoadGenericInstantiation just checks that // we're not supplying type parameters and then returns us the class as a type handle MethodTable *pMT = ClassLoader::LoadGenericInstantiationThrowing( pModule, pDefMD->GetMethodTable()->GetCl(), classInst).AsMethodTable(); // Apply the instantiations (if any). MethodDesc *pMD = MethodDesc::FindOrCreateAssociatedMethodDesc(pDefMD, pMT, FALSE, /* don't get unboxing entry point */ methodInst, FALSE /* no allowInstParam */, forceRemotable); return pMD; } FieldDesc* MemberLoader::GetFieldDescFromMemberDefOrRef( Module *pModule, mdMemberRef MemberDefOrRef, const SigTypeContext *pTypeContext, BOOL strictMetadataChecks // Normally true - reflection is the one exception. Throw an exception if no generic method args given for a generic field, otherwise return the 'generic' instantiation ) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); } CONTRACTL_END; FieldDesc * pFD = NULL; MethodDesc * pMD = NULL; TypeHandle th; switch (TypeFromToken(MemberDefOrRef)) { case mdtFieldDef: pFD = GetFieldDescFromFieldDef(pModule, MemberDefOrRef, strictMetadataChecks); break; case mdtMemberRef: GetDescFromMemberRef( pModule, MemberDefOrRef, &pMD, &pFD, pTypeContext, strictMetadataChecks, &th); if (!pFD) { // The exception type and message preserved for compatibility COMPlusThrow(kMissingFieldException, W("Arg_MissingFieldException")); } break; default: COMPlusThrowHR(COR_E_BADIMAGEFORMAT); } return pFD; } //******************************************************************************* BOOL MemberLoader::FM_PossibleToSkipMethod(FM_Flags flags) { LIMITED_METHOD_CONTRACT; return ((flags & FM_SpecialVirtualMask) || (flags & FM_SpecialAccessMask)); } //******************************************************************************* BOOL MemberLoader::FM_ShouldSkipMethod(DWORD dwAttrs, FM_Flags flags) { LIMITED_METHOD_CONTRACT; BOOL retVal = FALSE; // If we have any special selection flags, then we need to check a little deeper. if (flags & FM_SpecialVirtualMask) { if (((flags & FM_ExcludeVirtual) && IsMdVirtual(dwAttrs)) || ((flags & FM_ExcludeNonVirtual) && !IsMdVirtual(dwAttrs))) { retVal = TRUE; } } // This makes for quick shifting in determining if an access mask bit matches static_assert_no_msg((FM_ExcludePrivateScope >> 0x4) == 0x1); if (flags & FM_SpecialAccessMask) { DWORD dwAccess = dwAttrs & mdMemberAccessMask; if ((1 << dwAccess) & ((DWORD)(flags & FM_SpecialAccessMask) >> 0x4)) { retVal = TRUE; } } // Ensure that this function is kept in sync with FM_PossibleToSkipMethod CONSISTENCY_CHECK(FM_PossibleToSkipMethod(flags) || !retVal); return retVal; } //******************************************************************************* // Given a signature, and a method declared on a class or on a parent of a class, // find out if the signature matches the method. // // In the normal non-generic case, we can simply perform a signature check, // but with generics, we need to have a properly set up Substitution, so that // we have a correct set of types to compare with. The idea is that either the current // EEClass matches up with the methoddesc, or a parent EEClass will match up. BOOL CompareMethodSigWithCorrectSubstitution( PCCOR_SIGNATURE pSignature, DWORD cSignature, Module* pModule, MethodDesc *pCurDeclMD, const Substitution *pDefSubst, MethodTable *pCurMT ) { CONTRACTL { THROWS; GC_TRIGGERS; MODE_ANY; INJECT_FAULT(COMPlusThrowOM()); } CONTRACTL_END MethodTable *pCurDeclMT = pCurDeclMD->GetMethodTable(); BOOL fNeedsSubstitutionUpdateDueToInstantiationDifferences = pCurDeclMT->HasInstantiation() && pCurDeclMT != pCurMT->GetCanonicalMethodTable(); if (!fNeedsSubstitutionUpdateDueToInstantiationDifferences) { PCCOR_SIGNATURE pCurMethodSig; DWORD cCurMethodSig; pCurDeclMD->GetSig(&pCurMethodSig, &cCurMethodSig); return MetaSig::CompareMethodSigs(pSignature, cSignature, pModule, NULL, pCurMethodSig, cCurMethodSig, pCurDeclMD->GetModule(), pDefSubst); } else { MethodTable *pParentMT = pCurMT->GetParentMethodTable(); if (pParentMT != NULL) { Substitution subst2 = pCurMT->GetSubstitutionForParent(pDefSubst); return CompareMethodSigWithCorrectSubstitution(pSignature, cSignature, pModule, pCurDeclMD, &subst2, pParentMT); } return FALSE; } } //******************************************************************************* // Finds a method by name and signature, where scope is the scope in which the // signature is defined. MethodDesc * MemberLoader::FindMethod( MethodTable * pMT, LPCUTF8 pszName, PCCOR_SIGNATURE pSignature, DWORD cSignature, Module* pModule, FM_Flags flags, // = FM_Default const Substitution *pDefSubst) // = NULL { CONTRACT (MethodDesc *) { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(!pMT->IsTransparentProxy()); MODE_ANY; } CONTRACT_END; // Retrieve the right comparition function to use. UTF8StringCompareFuncPtr StrCompFunc = FM_GetStrCompFunc(flags); SString targetName(SString::Utf8Literal, pszName); ULONG targetNameHash = targetName.HashCaseInsensitive(); // Statistically it's most likely for a method to be found in non-vtable portion of this class's members, then in the // vtable of this class's declared members, then in the inherited portion of the vtable, so we search backwards. // For value classes, if it's a value class method, we want to return the duplicated MethodDesc, not the one in the vtable // section. We'll find the one in the duplicate section before the one in the vtable section, so we're ok. // Search non-vtable portion of this class first MethodTable::MethodIterator it(pMT); // Move the iterator to the appropriate starting point. It is imporant to search from the end // because hide-by-sig methods found in child types must be matched before the methods they // may be hiding in parent types. it.MoveToEnd(); // Iterate through the methods of the current type searching for a match. for (; it.IsValid(); it.Prev()) { MethodDesc *pCurDeclMD = it.GetDeclMethodDesc(); #ifdef _DEBUG MethodTable *pCurDeclMT = pCurDeclMD->GetMethodTable(); CONSISTENCY_CHECK(!pMT->IsInterface() || pCurDeclMT == pMT->GetCanonicalMethodTable()); #endif if (FM_PossibleToSkipMethod(flags) && FM_ShouldSkipMethod(pCurDeclMD->GetAttrs(), flags)) { continue; } if ((flags & FM_IgnoreName) != 0 || (pCurDeclMD->MightHaveName(targetNameHash) // This is done last since it is the most expensive of the IF statement. && StrCompFunc(pszName, pCurDeclMD->GetName()) == 0) ) { if (CompareMethodSigWithCorrectSubstitution(pSignature, cSignature, pModule, pCurDeclMD, pDefSubst, pMT)) { RETURN pCurDeclMD; } } } // No inheritance on value types or interfaces if (pMT->IsValueType() || pMT->IsInterface()) { RETURN NULL; } // Recurse up the hierarchy if the method was not found. //@todo: This routine might be factored slightly to improve perf. CONSISTENCY_CHECK(pMT->CheckLoadLevel(CLASS_LOAD_APPROXPARENTS)); MethodTable *pParentMT = pMT->GetParentMethodTable(); if (pParentMT != NULL) { Substitution subst2 = pMT->GetSubstitutionForParent(pDefSubst); MethodDesc *md = MemberLoader::FindMethod(pParentMT, pszName, pSignature, cSignature, pModule, flags, &subst2); // Don't inherit constructors from parent classes. It is important to forbid this, // because the JIT needs to get the class handle from the memberRef, and when the // constructor is inherited, the JIT will get the class handle for the parent class // (and not allocate enough space, etc.). See bug #50035 for details. if (md) { if (IsMdInstanceInitializer(md->GetAttrs(), pszName)) { md = NULL; } } RETURN md; } RETURN NULL; } //******************************************************************************* // This will return the MethodDesc that implements the interface method . MethodDesc * MemberLoader::FindMethodForInterfaceSlot(MethodTable * pMT, MethodTable *pInterface, WORD slotNum) { CONTRACTL { THROWS; GC_TRIGGERS; PRECONDITION(CheckPointer(pInterface)); PRECONDITION(pInterface->IsInterface()); PRECONDITION(slotNum < pInterface->GetNumVirtuals()); } CONTRACTL_END; MethodDesc *pMDRet = NULL; DispatchSlot ds(pMT->FindDispatchSlot(pInterface->GetTypeID(), (UINT32)slotNum)); if (!ds.IsNull()) { pMDRet = ds.GetMethodDesc(); } CONSISTENCY_CHECK(CheckPointer(pMDRet)); return pMDRet; } //******************************************************************************* MethodDesc * MemberLoader::FindMethod(MethodTable * pMT, LPCUTF8 pwzName, LPHARDCODEDMETASIG pwzSignature, FM_Flags flags) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(!pMT->IsTransparentProxy()); MODE_ANY; } CONTRACTL_END; Signature sig = MscorlibBinder::GetSignature(pwzSignature); return FindMethod(pMT, pwzName, sig.GetRawSig(), sig.GetRawSigLen(), MscorlibBinder::GetModule(), flags); } //******************************************************************************* MethodDesc * MemberLoader::FindMethod(MethodTable * pMT, mdMethodDef mb) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(!pMT->IsTransparentProxy()); MODE_ANY; } CONTRACTL_END; // We have the EEClass (this) and so lets just look this up in the ridmap. MethodDesc *pMD = NULL; Module *pModule = pMT->GetModule(); PREFIX_ASSUME(pModule != NULL); if (TypeFromToken(mb) == mdtMemberRef) pMD = pModule->LookupMemberRefAsMethod(mb); else pMD = pModule->LookupMethodDef(mb); if (pMD != NULL) pMD->CheckRestore(); return pMD; } //******************************************************************************* MethodDesc * MemberLoader::FindMethodByName(MethodTable * pMT, LPCUTF8 pszName, FM_Flags flags) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); PRECONDITION(!pMT->IsTransparentProxy()); PRECONDITION(!pMT->IsArray()); MODE_ANY; } CONTRACTL_END; // Caching of MethodDescs (impl and decl) for MethodTable slots provided significant // performance gain in some reflection emit scenarios. MethodTable::AllowMethodDataCaching(); // Retrieve the right comparison function to use. UTF8StringCompareFuncPtr StrCompFunc = FM_GetStrCompFunc(flags); SString targetName(SString::Utf8, pszName); ULONG targetNameHash = targetName.HashCaseInsensitive(); // Scan all classes in the hierarchy, starting at the current class and // moving back up towards the base. while (pMT != NULL) { MethodDesc *pRetMD = NULL; // Iterate through the methods searching for a match. MethodTable::MethodIterator it(pMT); it.MoveToEnd(); for (; it.IsValid(); it.Prev()) { MethodDesc *pCurMD = it.GetDeclMethodDesc(); if (pCurMD != NULL) { // If we're working from the end of the vtable, we'll cover all the non-virtuals // first, and so if we're supposed to ignore virtuals (see setting of the flag // below) then we can just break out of the loop and go to the parent. if ((flags & FM_ExcludeVirtual) && pCurMD->IsVirtual()) { break; } if (FM_PossibleToSkipMethod(flags) && FM_ShouldSkipMethod(pCurMD->GetAttrs(), flags)) { continue; } if (pCurMD->MightHaveName(targetNameHash) && StrCompFunc(pszName, pCurMD->GetNameOnNonArrayClass()) == 0) { if (pRetMD != NULL) { _ASSERTE(flags & FM_Unique); // Found another method of this name but FM_Unique was given. return NULL; } pRetMD = it.GetMethodDesc(); pRetMD->CheckRestore(); // Let's always finish iterating through this MT for FM_Unique to reveal overloads, i.e. // methods with the same name. Returning the first/last method of the given name // may in some cases work but it depends on the vtable order which is something we // do not want. It can be easily broken by a seemingly unrelated change. if (!(flags & FM_Unique)) return pRetMD; } } } if (pRetMD != NULL) return pRetMD; // Check the parent type for a matching method. pMT = pMT->GetParentMethodTable(); // There is no need to check virtuals for parent types, since by definition they have the same name. // // Warning: This is not entirely true as virtuals can be overriden explicitly regardless of their name. // We should be fine though as long as we do not use this code to find arbitrary user-defined methods. flags = (FM_Flags)(flags | FM_ExcludeVirtual); } return NULL; } //******************************************************************************* MethodDesc * MemberLoader::FindPropertyMethod(MethodTable * pMT, LPCUTF8 pszName, EnumPropertyMethods Method, FM_Flags flags) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); MODE_ANY; PRECONDITION(Method < 2); } CONTRACTL_END; // The format strings for the getter and setter. These must stay in synch with the // EnumPropertyMethods enum defined in class.h static const LPCUTF8 aFormatStrings[] = { "get_%s", "set_%s" }; CQuickBytes qbMethName; size_t len = strlen(pszName) + strlen(aFormatStrings[Method]) + 1; LPUTF8 strMethName = (LPUTF8) qbMethName.AllocThrows(len); sprintf_s(strMethName, len, aFormatStrings[Method], pszName); return FindMethodByName(pMT, strMethName, flags); } //******************************************************************************* MethodDesc * MemberLoader::FindEventMethod(MethodTable * pMT, LPCUTF8 pszName, EnumEventMethods Method, FM_Flags flags) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); MODE_ANY; PRECONDITION(Method < 3); } CONTRACTL_END; // The format strings for the getter and setter. These must stay in synch with the // EnumPropertyMethods enum defined in class.h static const LPCUTF8 aFormatStrings[] = { "add_%s", "remove_%s", "raise_%s" }; CQuickBytes qbMethName; size_t len = strlen(pszName) + strlen(aFormatStrings[Method]) + 1; LPUTF8 strMethName = (LPUTF8) qbMethName.AllocThrows(len); sprintf_s(strMethName, len, aFormatStrings[Method], pszName); return FindMethodByName(pMT, strMethName, flags); } //******************************************************************************* MethodDesc * MemberLoader::FindConstructor(MethodTable * pMT, LPHARDCODEDMETASIG pwzSignature) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); MODE_ANY; } CONTRACTL_END Signature sig = MscorlibBinder::GetSignature(pwzSignature); return FindConstructor(pMT, sig.GetRawSig(), sig.GetRawSigLen(), MscorlibBinder::GetModule()); } //******************************************************************************* MethodDesc * MemberLoader::FindConstructor(MethodTable * pMT, PCCOR_SIGNATURE pSignature,DWORD cSignature, Module* pModule) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); MODE_ANY; } CONTRACTL_END // Array classes don't have metadata if (pMT->IsArray()) return NULL; MethodTable::MethodIterator it(pMT); for (it.MoveTo(it.GetNumVirtuals()); it.IsValid(); it.Next()) { _ASSERTE(!it.IsVirtual()); MethodDesc *pCurMethod = it.GetMethodDesc(); if (pCurMethod == NULL) { continue; } // Don't want class initializers. if (pCurMethod->IsStatic()) { continue; } DWORD dwCurMethodAttrs = pCurMethod->GetAttrs(); if (!IsMdRTSpecialName(dwCurMethodAttrs)) { continue; } // Find only the constructor for for this object _ASSERTE(pCurMethod->GetMethodTable() == pMT->GetCanonicalMethodTable()); PCCOR_SIGNATURE pCurMethodSig; DWORD cCurMethodSig; pCurMethod->GetSig(&pCurMethodSig, &cCurMethodSig); if (MetaSig::CompareMethodSigs(pSignature, cSignature, pModule, NULL, pCurMethodSig, cCurMethodSig, pCurMethod->GetModule(), NULL)) { return pCurMethod; } } return NULL; } #endif // DACCESS_COMPILE FieldDesc * MemberLoader::FindField(MethodTable * pMT, LPCUTF8 pszName, PCCOR_SIGNATURE pSignature, DWORD cSignature, Module* pModule, BOOL bCaseSensitive) { CONTRACTL { THROWS; GC_TRIGGERS; INJECT_FAULT(COMPlusThrowOM();); MODE_ANY; } CONTRACTL_END DWORD i; DWORD dwFieldDescsToScan; IMDInternalImport *pInternalImport = pMT->GetMDImport(); // All explicitly declared fields in this class will have the same scope CONSISTENCY_CHECK(pMT->CheckLoadLevel(CLASS_LOAD_APPROXPARENTS)); // Retrieve the right comparition function to use. UTF8StringCompareFuncPtr StrCompFunc = bCaseSensitive ? strcmp : stricmpUTF8; // The following assert is very important, but we need to special case it enough // to allow us access to the legitimate fields of a context proxy object. CONSISTENCY_CHECK(!pMT->IsTransparentProxy() || !strcmp(pszName, "actualObject") || !strcmp(pszName, "contextID") || !strcmp(pszName, "_rp") || !strcmp(pszName, "_stubData") || !strcmp(pszName, "_pMT") || !strcmp(pszName, "_pInterfaceMT") || !strcmp(pszName, "_stub")); // Array classes don't have fields, and don't have metadata if (pMT->IsArray()) return NULL; SString targetName(SString::Utf8Literal, pszName); ULONG targetNameHash = targetName.HashCaseInsensitive(); EEClass * pClass = pMT->GetClass(); MethodTable *pParentMT = pMT->GetParentMethodTable(); // Scan the FieldDescs of this class if (pParentMT != NULL) dwFieldDescsToScan = pClass->GetNumInstanceFields() - pParentMT->GetNumInstanceFields() + pClass->GetNumStaticFields(); else dwFieldDescsToScan = pClass->GetNumInstanceFields() + pClass->GetNumStaticFields(); PTR_FieldDesc pFieldDescList = pClass->GetFieldDescList(); for (i = 0; i < dwFieldDescsToScan; i++) { LPCUTF8 szMemberName; FieldDesc * pFD = &pFieldDescList[i]; PREFIX_ASSUME(pFD!=NULL); mdFieldDef mdField = pFD->GetMemberDef(); // Check is valid FieldDesc, and not some random memory INDEBUGIMPL(pFD->GetApproxEnclosingMethodTable()->SanityCheck()); if (!pFD->MightHaveName(targetNameHash)) { continue; } IfFailThrow(pInternalImport->GetNameOfFieldDef(mdField, &szMemberName)); if (StrCompFunc(szMemberName, pszName) != 0) { continue; } if (pSignature != NULL) { PCCOR_SIGNATURE pMemberSig; DWORD cMemberSig; IfFailThrow(pInternalImport->GetSigOfFieldDef(mdField, &cMemberSig, &pMemberSig)); if (!MetaSig::CompareFieldSigs( pMemberSig, cMemberSig, pMT->GetModule(), pSignature, cSignature, pModule)) { continue; } } return pFD; } return NULL; }