Esempio n. 1
0
void QCALLTYPE COMDynamicWrite::TermCreateClass(QCall::ModuleHandle pModule, INT32 tk, QCall::ObjectHandleOnStack retType)
{
    QCALL_CONTRACT;
    
    TypeHandle typeHnd;

    BEGIN_QCALL;
    
    _ASSERTE(pModule->GetReflectionModule()->GetClassWriter()); 

    // Use the same service, regardless of whether we are generating a normal
    // class, or the special class for the module that holds global functions
    // & methods.
    pModule->GetReflectionModule()->AddClass(tk);

    // manually load the class if it is not the global type
    if (!IsNilToken(tk))
    {
        TypeKey typeKey(pModule, tk);
        typeHnd = pModule->GetClassLoader()->LoadTypeHandleForTypeKey(&typeKey, TypeHandle());
    }

    if (!typeHnd.IsNull())
    {
        GCX_COOP();
        retType.Set(typeHnd.GetManagedClassObject());
    }

    END_QCALL;

    return;
}
Esempio n. 2
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/*============================DefineProperty============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
INT32 QCALLTYPE COMDynamicWrite::DefineProperty(QCall::ModuleHandle pModule, INT32 tkParent, LPCWSTR wszName, INT32 attr, LPCBYTE pSignature, INT32 sigLength)
{
    QCALL_CONTRACT;
    
    mdProperty      pr = mdTokenNil; 
    
    BEGIN_QCALL;
    
    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Define the Property
    IfFailThrow(pRCW->GetEmitter()->DefineProperty(
            tkParent,                       // ParentTypeDef
            wszName,                        // Name of Member
            attr,                     // property Attributes (prDefaultProperty, etc);
            (PCCOR_SIGNATURE)pSignature,    // Blob value of a COM+ signature
            sigLength,                // Size of the signature blob
            ELEMENT_TYPE_VOID,              // don't specify the default value
            0,                              // no default value
            (ULONG) -1,                     // optional length
            mdMethodDefNil,                 // no setter
            mdMethodDefNil,                 // no getter
            NULL,                           // no other methods
            &pr));

    END_QCALL;

    return (INT32)pr;
}
Esempio n. 3
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INT32 QCALLTYPE COMDynamicWrite::DefineMethod(QCall::ModuleHandle pModule, INT32 tkParent, LPCWSTR wszName, LPCBYTE pSignature, INT32 sigLength, INT32 attributes)
{
    QCALL_CONTRACT;
    
    mdMethodDef memberE = mdTokenNil;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Define the Method    
    IfFailThrow( pRCW->GetEmitter()->DefineMethod(tkParent,        //ParentTypeDef
                                                  wszName,         //Name of Member
                                                  attributes,               //Member Attributes (public, etc);
                                                  (PCCOR_SIGNATURE)pSignature,  //Blob value of a COM+ signature
                                                  sigLength,            //Size of the signature blob
                                                  0,                        //Code RVA
                                                  miIL | miManaged,         //Implementation Flags is default to managed IL
                                                  &memberE) );              //[OUT]methodToken

    END_QCALL;

    return (INT32) memberE;
}
Esempio n. 4
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/*============================SetParamInfo============================
**Action: Helper to set parameter information
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
INT32 QCALLTYPE COMDynamicWrite::SetParamInfo(QCall::ModuleHandle pModule, UINT32 tkMethod, UINT32 iSequence, UINT32 iAttributes, LPCWSTR wszParamName)
{
    QCALL_CONTRACT;
    
    mdParamDef retVal = 0;

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Set the methodimpl flags
    IfFailThrow(pRCW->GetEmitter()->DefineParam(
            tkMethod,
            iSequence,            // sequence of the parameter
            wszParamName, 
            iAttributes,          // change the impl flags
            ELEMENT_TYPE_VOID,
            0,
            (ULONG) -1,
            &retVal));

    END_QCALL;

    return (INT32)retVal;
}
Esempio n. 5
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/*=============================GetArrayMethodToken==============================
**Action:
**Returns:
**Arguments: REFLECTMODULEBASEREF refThis
**           U1ARRAYREF     sig
**           STRINGREF      methodName
**           int            tkTypeSpec
**Exceptions:
==============================================================================*/
INT32 QCALLTYPE COMModule::GetArrayMethodToken(QCall::ModuleHandle pModule,
                                               INT32 tkTypeSpec,
                                               LPCWSTR wszMethodName,
                                               LPCBYTE pSignature,
                                               INT32 sigLength)
{
    QCALL_CONTRACT;

    mdMemberRef memberRefE = mdTokenNil; 

    BEGIN_QCALL;

    if (!wszMethodName)
        COMPlusThrow(kArgumentNullException, W("ArgumentNull_String"));
    if (!tkTypeSpec) 
        COMPlusThrow(kArgumentNullException, W("ArgumentNull_Type"));
    
    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 

    HRESULT hr = pRCW->GetEmitter()->DefineMemberRef(tkTypeSpec, wszMethodName, (PCCOR_SIGNATURE)pSignature, sigLength, &memberRefE); 
    if (FAILED(hr)) 
    {
        _ASSERTE(!"Failed on DefineMemberRef");
        COMPlusThrowHR(hr);
    }

    END_QCALL;

    return (INT32)memberRefE;
}
Esempio n. 6
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INT32 QCALLTYPE COMDynamicWrite::DefineType(QCall::ModuleHandle pModule,
                                            LPCWSTR wszFullName, 
                                            INT32 tkParent,                               
                                            INT32 attributes,
                                            INT32 tkEnclosingType,
                                            INT32 * pInterfaceTokens)
{
    QCALL_CONTRACT;

    mdTypeDef           classE = mdTokenNil; 

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW);

    HRESULT hr;

    if (RidFromToken(tkEnclosingType))
    {
        // defining nested type
        hr = pRCW->GetEmitter()->DefineNestedType(wszFullName, 
                                                  attributes, 
                                                  tkParent == 0 ? mdTypeRefNil : tkParent,
                                                  (mdToken *)pInterfaceTokens,
                                                  tkEnclosingType,
                                                  &classE);
    }
    else
    {
        // top level type
        hr = pRCW->GetEmitter()->DefineTypeDef(wszFullName,
                                               attributes,
                                               tkParent == 0 ? mdTypeRefNil : tkParent,
                                               (mdToken *)pInterfaceTokens,
                                               &classE);
    }

    if (hr == META_S_DUPLICATE) 
    {
        COMPlusThrow(kArgumentException, W("Argument_DuplicateTypeName"));
    } 

    if (FAILED(hr)) {
        _ASSERTE(hr == E_OUTOFMEMORY || !"DefineTypeDef Failed");
        COMPlusThrowHR(hr);    
    }

    AllocMemTracker amTracker;
    pModule->GetClassLoader()->AddAvailableClassDontHaveLock(pModule,
                                                    classE,
                                                    &amTracker);
    amTracker.SuppressRelease();

    END_QCALL;

    return (INT32)classE;
}
Esempio n. 7
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// This function will add another interface impl
void QCALLTYPE COMDynamicWrite::AddInterfaceImpl(QCall::ModuleHandle pModule, INT32 tdType, INT32 tkInterface)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    IfFailThrow( pRCW->GetEmitHelper()->AddInterfaceImpl(tdType, tkInterface) );

    END_QCALL;
}
Esempio n. 8
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// This function will reset the parent class in metadata
void QCALLTYPE COMDynamicWrite::SetParentType(QCall::ModuleHandle pModule, INT32 tdType, INT32 tkParent)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    IfFailThrow( pRCW->GetEmitHelper()->SetTypeParent(tdType, tkParent) );

    END_QCALL;
}
Esempio n. 9
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/*============================SetConstantValue============================
**Action: Helper to set constant value to field or parameter
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
void QCALLTYPE COMDynamicWrite::SetConstantValue(QCall::ModuleHandle pModule, UINT32 tk, DWORD valueCorType, LPVOID pValue)
{
    QCALL_CONTRACT;

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW);

    HRESULT hr;

    if (TypeFromToken(tk) == mdtFieldDef)
    {
        hr = pRCW->GetEmitter()->SetFieldProps( 
            tk,                         // [IN] The FieldDef.
            ULONG_MAX,                  // [IN] Field attributes.
            valueCorType,               // [IN] Flag for the value type, selected ELEMENT_TYPE_*
            pValue,                     // [IN] Constant value.
            (ULONG) -1);                // [IN] Optional length.
    }
    else if (TypeFromToken(tk) == mdtProperty)
    {
        hr = pRCW->GetEmitter()->SetPropertyProps( 
            tk,                         // [IN] The PropertyDef.
            ULONG_MAX,                  // [IN] Property attributes.
            valueCorType,               // [IN] Flag for the value type, selected ELEMENT_TYPE_*
            pValue,                     // [IN] Constant value.
            (ULONG) -1,                 // [IN] Optional length.
            mdMethodDefNil,             // [IN] Getter method.
            mdMethodDefNil,             // [IN] Setter method.
            NULL);                      // [IN] Other methods.
    }
    else
    {
        hr = pRCW->GetEmitter()->SetParamProps( 
            tk,                   // [IN] The ParamDef.
            NULL,
            ULONG_MAX,                  // [IN] Parameter attributes.
            valueCorType,               // [IN] Flag for the value type, selected ELEMENT_TYPE_*
            pValue,                     // [IN] Constant value.
            (ULONG) -1);                // [IN] Optional length.
    }
    if (FAILED(hr)) {   
        _ASSERTE(!"Set default value is failing"); 
        COMPlusThrow(kArgumentException, W("Argument_BadConstantValue"));    
    }   

    END_QCALL;
}
Esempio n. 10
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FCIMPLEND

//**************************************************
// LoadInMemoryTypeByName
// Explicitly loading an in memory type
// <TODO>@todo: this function is not dealing with nested type correctly yet.
// We will need to parse the full name by finding "+" for enclosing type, etc.</TODO>
//**************************************************
void QCALLTYPE COMModule::LoadInMemoryTypeByName(QCall::ModuleHandle pModule, LPCWSTR wszFullName)
{
    QCALL_CONTRACT;
    
    TypeHandle      typeHnd;

    BEGIN_QCALL;

    if (!pModule->IsReflection())  
        COMPlusThrow(kNotSupportedException, W("NotSupported_NonReflectedType"));   

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW);

    // it is ok to use public import API because this is a dynamic module anyway. We are also receiving Unicode full name as
    // parameter.
    IMetaDataImport * pImport = pRCW->GetRWImporter();

    if (wszFullName == NULL)
        IfFailThrow( E_FAIL );

    // look up the handle
    mdTypeDef  td;
    HRESULT hr = pImport->FindTypeDefByName(wszFullName, mdTokenNil, &td);
    if (FAILED(hr))
    {
        if (hr != CLDB_E_RECORD_NOTFOUND)
            COMPlusThrowHR(hr);

        // Get the UTF8 version of strFullName
        MAKE_UTF8PTR_FROMWIDE(szFullName, wszFullName);
        pModule->GetAssembly()->ThrowTypeLoadException(szFullName, IDS_CLASSLOAD_GENERAL);
    }

    TypeKey typeKey(pModule, td);
    typeHnd = pModule->GetClassLoader()->LoadTypeHandleForTypeKey(&typeKey, TypeHandle());

    END_QCALL;

    return;
}
Esempio n. 11
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/*============================SetMethodImpl============================
** To set a Method's Implementation flags
==============================================================================*/
void QCALLTYPE COMDynamicWrite::SetMethodImpl(QCall::ModuleHandle pModule, INT32 tkMethod, INT32 attr)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Set the methodimpl flags
    IfFailThrow(pRCW->GetEmitter()->SetMethodImplFlags(
            tkMethod,
            attr));                // change the impl flags

    END_QCALL;
}
Esempio n. 12
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/*============================SetFieldLayoutOffset============================
**Action: set fieldlayout of a field
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
void QCALLTYPE COMDynamicWrite::SetFieldLayoutOffset(QCall::ModuleHandle pModule, INT32 tkField, INT32 iOffset)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW); 
    
    // Set the field layout
    IfFailThrow(pRCW->GetEmitHelper()->SetFieldLayoutHelper(
            tkField,                  // field 
            iOffset));                // layout offset

    END_QCALL;
}
Esempio n. 13
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/*============================DefineMethodImpl============================
** Define a MethodImpl record
==============================================================================*/
void QCALLTYPE COMDynamicWrite::DefineMethodImpl(QCall::ModuleHandle pModule, UINT32 tkType, UINT32 tkBody, UINT32 tkDecl)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Set the methodimpl flags
    IfFailThrow(pRCW->GetEmitter()->DefineMethodImpl(
            tkType,
            tkBody,
            tkDecl));                  // change the impl flags

    END_QCALL;
}
Esempio n. 14
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/*============================DefineMethodSemantics============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
void QCALLTYPE COMDynamicWrite::DefineMethodSemantics(QCall::ModuleHandle pModule, INT32 tkAssociation, INT32 attr, INT32 tkMethod)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW); 
    
    // Define the MethodSemantics
    IfFailThrow(pRCW->GetEmitHelper()->DefineMethodSemanticsHelper(
            tkAssociation,
            attr,
            tkMethod));

    END_QCALL;
}
Esempio n. 15
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/*============================SetClassLayout============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
void QCALLTYPE COMDynamicWrite::SetClassLayout(QCall::ModuleHandle pModule, INT32 tk, INT32 iPackSize, UINT32 iTotalSize)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;

    RefClassWriter* pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Define the packing size and total size of a class
    IfFailThrow(pRCW->GetEmitter()->SetClassLayout(
            tk,                     // Typedef
            iPackSize,                // packing size
            NULL,                     // no field layout 
            iTotalSize));           // total size for the type

    END_QCALL;
}
Esempio n. 16
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// This function will create a method within the class
INT32 QCALLTYPE COMDynamicWrite::DefineMethodSpec(QCall::ModuleHandle pModule, INT32 tkParent, LPCBYTE pSignature, INT32 sigLength)
{
    QCALL_CONTRACT;
    
    mdMethodDef memberE = mdTokenNil;
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Define the Method    
    IfFailThrow( pRCW->GetEmitter()->DefineMethodSpec(tkParent,         //ParentTypeDef
                                                      (PCCOR_SIGNATURE)pSignature, //Blob value of a COM+ signature
                                                      sigLength,            //Size of the signature blob
                                                      &memberE) );              //[OUT]methodToken

    END_QCALL;

    return (INT32) memberE;
}
Esempio n. 17
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/*============================SetPInvokeData============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
void QCALLTYPE COMDynamicWrite::SetPInvokeData(QCall::ModuleHandle pModule, LPCWSTR wszDllName, LPCWSTR wszFunctionName, INT32 token, INT32 linkFlags)
{
    QCALL_CONTRACT;

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 

    mdModuleRef mrImportDll = mdTokenNil;
    IfFailThrow(pRCW->GetEmitter()->DefineModuleRef(wszDllName, &mrImportDll));

    IfFailThrow(pRCW->GetEmitter()->DefinePinvokeMap(
        token,                        // the method token 
        linkFlags,                      // the mapping flags
        wszFunctionName,                // function name
        mrImportDll));

    IfFailThrow(pRCW->GetEmitter()->SetMethodProps(token, (DWORD) -1, 0x0, miIL));

    END_QCALL;
}
Esempio n. 18
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/*================================DefineField=================================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
mdFieldDef QCALLTYPE COMDynamicWrite::DefineField(QCall::ModuleHandle pModule, INT32 tkParent, LPCWSTR wszName, LPCBYTE pSignature, INT32 sigLength, INT32 attr)
{
    QCALL_CONTRACT;
    
    mdFieldDef retVal = mdTokenNil;

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW);

    //Emit the field.
    IfFailThrow( pRCW->GetEmitter()->DefineField(tkParent, 
                                                 wszName, attr,
                                                 (PCCOR_SIGNATURE)pSignature, sigLength,
                                                 ELEMENT_TYPE_VOID, NULL,
                                                 (ULONG) -1, &retVal) );


    END_QCALL;

    return retVal;
}
Esempio n. 19
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//*************************************************************
// 
// Defining a type into metadata of this dynamic module
//
//*************************************************************
INT32 QCALLTYPE COMDynamicWrite::DefineGenericParam(QCall::ModuleHandle pModule,
                                                    LPCWSTR wszFullName, 
                                                    INT32 tkParent, 
                                                    INT32 attributes, 
                                                    INT32 position, 
                                                    INT32 * pConstraintTokens)
{
    QCALL_CONTRACT;
    
    mdTypeDef           classE = mdTokenNil; 
    
    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW);

    IfFailThrow(pRCW->GetEmitter()->DefineGenericParam(
        tkParent, position, attributes, wszFullName, 0, (mdToken *)pConstraintTokens, &classE));

    END_QCALL;

    return (INT32)classE;    
}
Esempio n. 20
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/*============================GetTokenFromSig============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
INT32 QCALLTYPE COMDynamicWrite::GetTokenFromSig(QCall::ModuleHandle pModule, LPCBYTE pSignature, INT32 sigLength)
{
    QCALL_CONTRACT;
    
    mdSignature retVal = 0;

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    _ASSERTE(pSignature);

    // Define the signature
    IfFailThrow(pRCW->GetEmitter()->GetTokenFromSig(
            pSignature,                     // Signature blob
            sigLength,                      // blob length
            &retVal));                      // returned token

    END_QCALL;

    return (INT32)retVal;
}
Esempio n. 21
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/*============================DefineEvent============================
**Action:
**Returns:
**Arguments:
**Exceptions:
==============================================================================*/
INT32 QCALLTYPE COMDynamicWrite::DefineEvent(QCall::ModuleHandle pModule, INT32 tkParent, LPCWSTR wszName, INT32 attr, INT32 tkEventType)
{
    QCALL_CONTRACT;
    
    mdProperty      ev = mdTokenNil; 

    BEGIN_QCALL;
    
    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE(pRCW); 
    
    // Define the Event
    IfFailThrow(pRCW->GetEmitHelper()->DefineEventHelper(
            tkParent,               // ParentTypeDef
            wszName,                // Name of Member
            attr,                       // property Attributes (prDefaultProperty, etc);
            tkEventType,            // the event type. Can be TypeDef or TypeRef
            &ev));

    END_QCALL;

    return (INT32)ev;
}
Esempio n. 22
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//******************************************************************************
//
// GetMemberRefToken
// This function will return a MemberRef token given a MethodDef token and the module where the MethodDef/FieldDef is defined.
//
//******************************************************************************
INT32 QCALLTYPE COMModule::GetMemberRef(QCall::ModuleHandle pModule, QCall::ModuleHandle pRefedModule, INT32 tr, INT32 token)
{
    QCALL_CONTRACT;
    
    mdMemberRef             memberRefE      = 0; 

    BEGIN_QCALL;

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter(); 
    _ASSERTE( pRCW );
    
    LPCUTF8         szName;
    ULONG           cbComSig;
    PCCOR_SIGNATURE pvComSig;
    
    if (TypeFromToken(token) == mdtMethodDef)
    {
        IfFailThrow(pRefedModule->GetMDImport()->GetNameOfMethodDef(token, &szName));
        IfFailThrow(pRefedModule->GetMDImport()->GetSigOfMethodDef(token, &cbComSig, &pvComSig));
    }
    else
    {
        IfFailThrow(pRefedModule->GetMDImport()->GetNameOfFieldDef(token, &szName));
        IfFailThrow(pRefedModule->GetMDImport()->GetSigOfFieldDef(token, &cbComSig, &pvComSig));
    }
    
    MAKE_WIDEPTR_FROMUTF8(wzName, szName);

    // Translate the method sig into this scope 
    //
    Assembly * pRefedAssembly = pRefedModule->GetAssembly();
    Assembly * pRefingAssembly = pModule->GetAssembly();

    if (pRefedAssembly->IsCollectible() && pRefedAssembly != pRefingAssembly)
    {
        if (pRefingAssembly->IsCollectible())
            pRefingAssembly->GetLoaderAllocator()->EnsureReference(pRefedAssembly->GetLoaderAllocator());
        else
            COMPlusThrow(kNotSupportedException, W("NotSupported_CollectibleBoundNonCollectible"));
    }

    SafeComHolderPreemp<IMetaDataAssemblyEmit> pAssemblyEmit;
    IfFailThrow( pRefingAssembly->GetManifestModule()->GetEmitter()->QueryInterface(IID_IMetaDataAssemblyEmit, (void **) &pAssemblyEmit) );

    CQuickBytes             qbNewSig; 
    ULONG                   cbNewSig;      

    IfFailThrow( pRefedModule->GetMDImport()->TranslateSigWithScope(
        pRefedAssembly->GetManifestImport(), 
        NULL, 0,        // hash value
        pvComSig, 
        cbComSig, 
        pAssemblyEmit,  // Emit assembly scope.
        pRCW->GetEmitter(), 
        &qbNewSig, 
        &cbNewSig) );  

    mdTypeRef               tref;

    if (TypeFromToken(tr) == mdtTypeDef)
    {
        // define a TypeRef using the TypeDef
        DefineTypeRefHelper(pRCW->GetEmitter(), tr, &tref);
    }
    else 
        tref = tr;

    // Define the memberRef
    IfFailThrow( pRCW->GetEmitter()->DefineMemberRef(tref, wzName, (PCCOR_SIGNATURE) qbNewSig.Ptr(), cbNewSig, &memberRefE) ); 

    END_QCALL;

    // assign output parameter
    return (INT32)memberRefE;
}
Esempio n. 23
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//**************************************************
// GetTypeRef
// This function will return the type token given full qual name. If the type
// is defined locally, we will return the TypeDef token. Or we will return a TypeRef token 
// with proper resolution scope calculated.
// wszFullName is escaped (TYPE_NAME_RESERVED_CHAR). It should not be byref or contain enclosing type name, 
// assembly name, and generic argument list.
//**************************************************
mdTypeRef QCALLTYPE COMModule::GetTypeRef(QCall::ModuleHandle pModule,
                                          LPCWSTR wszFullName,
                                          QCall::ModuleHandle pRefedModule,
                                          LPCWSTR wszRefedModuleFileName,
                                          INT32 tkResolutionArg)
{
    QCALL_CONTRACT;

    mdTypeRef tr = 0;

    BEGIN_QCALL;
        
    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW); 
    
    IMetaDataEmit * pEmit = pRCW->GetEmitter(); 
    IMetaDataImport * pImport = pRCW->GetRWImporter();

    if (wszFullName == NULL) {
        COMPlusThrow(kArgumentNullException, W("ArgumentNull_String"));
    }    

    InlineSString<128> ssNameUnescaped;
    LPCWSTR wszTemp = wszFullName;

    WCHAR c;
    while(0 != (c = *wszTemp++))
    {
        if ( c == W('\\') && 
             IsTypeNameReservedChar(*wszTemp) )
        {
            ssNameUnescaped.Append(*wszTemp++);
        }
        else
        {
            _ASSERTE( ! IsTypeNameReservedChar(c) );
            ssNameUnescaped.Append(c);
        }
    }

    LPCWSTR wszFullNameUnescaped = ssNameUnescaped.GetUnicode();

    Assembly * pThisAssembly = pModule->GetClassLoader()->GetAssembly();
    Assembly * pRefedAssembly = pRefedModule->GetClassLoader()->GetAssembly();

    if (pModule == pRefedModule)
    {
        // referenced type is from the same module so we must be able to find a TypeDef.
        IfFailThrow(pImport->FindTypeDefByName(
            wszFullNameUnescaped,
            RidFromToken(tkResolutionArg) ? tkResolutionArg : mdTypeDefNil,
            &tr)); 
    }
    else
    {
        mdToken tkResolution = mdTokenNil;
        if (RidFromToken(tkResolutionArg))
        {
            // reference to nested type
            tkResolution = tkResolutionArg;
        }
        else
        {
            // reference to top level type
            if ( pThisAssembly != pRefedAssembly )
            {
                SafeComHolderPreemp<IMetaDataAssemblyEmit> pAssemblyEmit;  

                // Generate AssemblyRef
                IfFailThrow( pEmit->QueryInterface(IID_IMetaDataAssemblyEmit, (void **) &pAssemblyEmit) );
                tkResolution = pThisAssembly->AddAssemblyRef(pRefedAssembly, pAssemblyEmit);

                // Add the assembly ref token and the manifest module it is referring to this module's rid map.
                // This is needed regardless of whether the dynamic assembly has run access. Even in Save-only
                // or Refleciton-only mode, CreateType() of the referencing type may still need the referenced 
                // type to be resolved and loaded, e.g. if the referencing type is a subclass of the referenced type.
                //
                // Don't cache if there is assembly associated with the token already. The assembly ref resolution
                // can be ambiguous because of reflection emit does not require unique assembly names.
                // We always let the first association win. Ideally, we would disallow this situation by throwing 
                // exception, but that would be a breaking change.
                if(pModule->LookupAssemblyRef(tkResolution) == NULL)
                {
                    pModule->ForceStoreAssemblyRef(tkResolution, pRefedAssembly);
                }
            }
            else
            {
                _ASSERTE(pModule != pRefedModule);                
                _ASSERTE(wszRefedModuleFileName != NULL);

                // Generate ModuleRef
                IfFailThrow(pEmit->DefineModuleRef(wszRefedModuleFileName, &tkResolution));
            }
        }

        IfFailThrow( pEmit->DefineTypeRefByName(tkResolution, wszFullNameUnescaped, &tr) );  
    }

    END_QCALL;

    return tr;
}
Esempio n. 24
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// SetMethodIL -- This function will create a method within the class
void QCALLTYPE COMDynamicWrite::SetMethodIL(QCall::ModuleHandle pModule,
                                            INT32 tk,
                                            BOOL fIsInitLocal,
                                            LPCBYTE pBody,
                                            INT32 cbBody,
                                            LPCBYTE pLocalSig,
                                            INT32 sigLength,
                                            UINT16 maxStackSize,                                        
                                            ExceptionInstance * pExceptions,
                                            INT32 numExceptions,
                                            INT32 * pTokenFixups,
                                            INT32 numTokenFixups)
{
    QCALL_CONTRACT;
    
    BEGIN_QCALL;    

    RefClassWriter * pRCW = pModule->GetReflectionModule()->GetClassWriter();
    _ASSERTE(pRCW);

    _ASSERTE(pLocalSig);

    PCCOR_SIGNATURE pcSig = (PCCOR_SIGNATURE)pLocalSig;
    _ASSERTE(*pcSig == IMAGE_CEE_CS_CALLCONV_LOCAL_SIG);

    mdSignature pmLocalSigToken;
    if (sigLength==2 && pcSig[0]==0 && pcSig[1]==0) 
    { 
        //This is an empty local variable sig
        pmLocalSigToken=0;
    } 
    else 
    {
        IfFailThrow(pRCW->GetEmitter()->GetTokenFromSig( pcSig, sigLength, &pmLocalSigToken));
    }

    COR_ILMETHOD_FAT fatHeader; 

    // set fatHeader.Flags to CorILMethod_InitLocals if user wants to zero init the stack frame.
    //
    fatHeader.SetFlags(fIsInitLocal ? CorILMethod_InitLocals : 0);
    fatHeader.SetMaxStack(maxStackSize);
    fatHeader.SetLocalVarSigTok(pmLocalSigToken);
    fatHeader.SetCodeSize(cbBody);  
    bool moreSections            = (numExceptions != 0);    

    unsigned codeSizeAligned     = fatHeader.GetCodeSize();  
    if (moreSections)   
        codeSizeAligned = AlignUp(codeSizeAligned, 4); // to insure EH section aligned 
    unsigned headerSize          = COR_ILMETHOD::Size(&fatHeader, numExceptions != 0);    

    //Create the exception handlers.
    CQuickArray<COR_ILMETHOD_SECT_EH_CLAUSE_FAT> clauses;
    if (numExceptions > 0) 
    {
        clauses.AllocThrows(numExceptions);

        for (int i = 0; i < numExceptions; i++)
        {
            clauses[i].SetFlags((CorExceptionFlag)(pExceptions[i].m_type));
            clauses[i].SetTryOffset(pExceptions[i].m_start);
            clauses[i].SetTryLength(pExceptions[i].m_end - pExceptions[i].m_start);
            clauses[i].SetHandlerOffset(pExceptions[i].m_handle);
            clauses[i].SetHandlerLength(pExceptions[i].m_handleEnd - pExceptions[i].m_handle);
            if (pExceptions[i].m_type == COR_ILEXCEPTION_CLAUSE_FILTER)
            {
                clauses[i].SetFilterOffset(pExceptions[i].m_filterOffset);
            }
            else if (pExceptions[i].m_type!=COR_ILEXCEPTION_CLAUSE_FINALLY)
            {
                clauses[i].SetClassToken(pExceptions[i].m_exceptionType);
            }
            else
            {
                clauses[i].SetClassToken(mdTypeRefNil);
            }
        }
    }
    
    unsigned ehSize          = ExceptionHandlingSize(numExceptions, clauses.Ptr());
    S_UINT32 totalSizeSafe   = S_UINT32(headerSize) + S_UINT32(codeSizeAligned) + S_UINT32(ehSize); 
    if (totalSizeSafe.IsOverflow())
        COMPlusThrowOM();
    UINT32 totalSize = totalSizeSafe.Value();
    ICeeGen* pGen = pRCW->GetCeeGen();
    BYTE* buf = NULL;
    ULONG methodRVA;
    pGen->AllocateMethodBuffer(totalSize, &buf, &methodRVA);    
    if (buf == NULL)
        COMPlusThrowOM();
        
    _ASSERTE(buf != NULL);
    _ASSERTE((((size_t) buf) & 3) == 0);   // header is dword aligned  

#ifdef _DEBUG
    BYTE* endbuf = &buf[totalSize];
#endif

    BYTE * startBuf = buf;

    // Emit the header  
    buf += COR_ILMETHOD::Emit(headerSize, &fatHeader, moreSections, buf);   

    //Emit the code    
    //The fatHeader.CodeSize is a workaround to see if we have an interface or an
    //abstract method.  Force enough verification in native to ensure that
    //this is true.
    if (fatHeader.GetCodeSize()!=0) {
        memcpy(buf, pBody, fatHeader.GetCodeSize());
    }
    buf += codeSizeAligned;
        
    // Emit the eh  
    CQuickArray<ULONG> ehTypeOffsets;
    if (numExceptions > 0)
    {
        // Allocate space for the the offsets to the TypeTokens in the Exception headers
        // in the IL stream.
        ehTypeOffsets.AllocThrows(numExceptions);

        // Emit the eh.  This will update the array ehTypeOffsets with offsets
        // to Exception type tokens.  The offsets are with reference to the
        // beginning of eh section.
        buf += COR_ILMETHOD_SECT_EH::Emit(ehSize, numExceptions, clauses.Ptr(),
                                          false, buf, ehTypeOffsets.Ptr());
    }   
    _ASSERTE(buf == endbuf);    

    //Get the IL Section.
    HCEESECTION ilSection;    
    IfFailThrow(pGen->GetIlSection(&ilSection));

    // Token Fixup data...
    ULONG ilOffset = methodRVA + headerSize;

    //Add all of the relocs based on the info which I saved from ILGenerator.

    //Add the Token Fixups
    for (int iTokenFixup=0; iTokenFixup<numTokenFixups; iTokenFixup++)
    {
        IfFailThrow(pGen->AddSectionReloc(ilSection, pTokenFixups[iTokenFixup] + ilOffset, ilSection, srRelocMapToken));
    }

    // Add token fixups for exception type tokens.
    for (int iException=0; iException < numExceptions; iException++)
    {
        if (ehTypeOffsets[iException] != (ULONG) -1)
        {
            IfFailThrow(pGen->AddSectionReloc(
                                             ilSection,
                                             ehTypeOffsets[iException] + codeSizeAligned + ilOffset,
                                             ilSection, srRelocMapToken));
        }
    }

    //nasty interface workaround.  What does this mean for abstract methods?
    if (fatHeader.GetCodeSize() != 0)
    {
        // add the starting address of the il blob to the il blob hash table
        // we need to find this information from out of process for debugger inspection
        // APIs so we have to store this information where we can get it later
        pModule->SetDynamicIL(mdToken(tk), TADDR(startBuf), FALSE);

        DWORD       dwImplFlags;

        //Set the RVA of the method.
        IfFailThrow(pRCW->GetMDImport()->GetMethodImplProps(tk, NULL, &dwImplFlags));
        dwImplFlags |= (miManaged | miIL);
        IfFailThrow(pRCW->GetEmitter()->SetMethodProps(tk, (DWORD) -1, methodRVA, dwImplFlags));
    }

    END_QCALL;
}