/// <summary>
/// Gets the namespace for the type lib
/// </summary>
private string GetNamespaceForTypeLib(TypeInfo type, TypeLib typeLib)
{
using (TypeLibAttr attr = typeLib.GetLibAttr())
{
string tlbNamespace = GetCustomNamespaceForTypeLib(typeLib);
if (tlbNamespace != null)
{
return(tlbNamespace);
}
if (attr.guid == m_libid)
{
tlbNamespace = m_settings.m_namespace;
}
else
{
tlbNamespace = typeLib.GetDocumentation();
if (tlbNamespace.IndexOfAny(m_invalidChars) >= 0)
{
string tlbFilePath;
Guid tlbGuid = attr.guid;
int hr = TypeLib.QueryPathOfRegTypeLib(ref tlbGuid, (ushort)attr.wMajorVerNum, (ushort)attr.wMinorVerNum, (int)attr.lcid, out tlbFilePath);
ReportEvent(
WarningCode.Wrn_InvalidNamespace,
Resource.FormatString("Wrn_InvalidNamespace", tlbFilePath, tlbNamespace));
throw new TlbImpInvalidTypeConversionException(type);
}
}
return(tlbNamespace);
}
}
/// <summary>
/// The name represents a (TypeInfo, ConvType) pair and is unique to a type library. Used in SymbolTable
/// </summary>
private string GetInternalEncodedManagedName(TypeInfo typeInfo, ConvType convType)
{
using (TypeLibAttr typeLibAttr = typeInfo.GetContainingTypeLib().GetLibAttr())
{
return(typeInfo.GetDocumentation() + "[" + convType.ToString() + "," + typeLibAttr.guid + "]");
}
}
public AssemblyBuilder CreateAssemblyBuilder(AssemblyName name, TypeLib tlb, TypeLibImporterFlags flags)
{
using (TypeLibAttr attr = tlb.GetLibAttr())
{
// New assembly as well as loaded assembly should be all in a ReflectionOnly context as we don't need to run the code
AssemblyBuilder assemblyBuilder = Thread.GetDomain().DefineDynamicAssembly(name, AssemblyBuilderAccess.ReflectionOnly);
// Handle the type library name
assemblyBuilder.SetCustomAttribute(CustomAttributeHelper.GetBuilderForImportedFromTypeLib(tlb.GetDocumentation()));
// Handle the type library version
assemblyBuilder.SetCustomAttribute(CustomAttributeHelper.GetBuilderForTypeLibVersion(attr.wMajorVerNum, attr.wMinorVerNum));
// Handle the LIBID
assemblyBuilder.SetCustomAttribute(CustomAttributeHelper.GetBuilderForGuid(attr.guid));
// If we are generating a PIA, then set the PIA custom attribute.
if ((flags & TypeLibImporterFlags.PrimaryInteropAssembly) != 0)
{
assemblyBuilder.SetCustomAttribute(CustomAttributeHelper.GetBuilderForPrimaryInteropAssembly(attr.wMajorVerNum, attr.wMinorVerNum));
}
return(assemblyBuilder);
}
}
/// <summary>
/// Is this type a StdOle2.Guid? The test is done using the GUID of type library
/// </summary>
/// <param name="type">The type</param>
/// <returns>True if this type is a StdOle2.Guid</returns>
private bool _IsStdOleGuid(TypeInfo type)
{
TypeLib typeLib = type.GetContainingTypeLib();
using (TypeLibAttr typeLibAttr = typeLib.GetLibAttr())
{
if (type.GetDocumentation() == "GUID" &&
typeLibAttr.guid == WellKnownGuids.TYPELIBID_STDOLE2)
{
return(true);
}
}
return(false);
}
public ConverterInfo(ModuleBuilder moduleBuilder, TypeLib typeLib, System.Runtime.InteropServices.ITypeLibImporterNotifySink resolver, ConverterSettings settings)
{
m_moduleBuilder = moduleBuilder;
m_typeLib = typeLib;
m_resolver = resolver;
using (TypeLibAttr attr = m_typeLib.GetLibAttr())
{
m_libid = attr.guid;
}
m_typeLibMappingTable = new Dictionary <Guid, ConverterAssemblyInfo>();
m_symbolTable = new Dictionary <string, IConvBase>();
m_settings = settings;
m_memberTables = new Dictionary <string, MemberTable>();
m_typeTable = new Hashtable();
m_bTransformDispRetVal = (settings.m_flags & TypeLibImporterFlags.TransformDispRetVals) != 0;
m_defaultMemberTable = new Dictionary <TypeBuilder, bool>();
BuildGlobalNameTable();
}
protected override void OnDefineType()
{
string classInterfaceName = m_info.GetUniqueManagedName(m_coclassTypeInfo, ConvType.ClassInterface);
Type defaultInterfaceType = null;
Type defaultSourceInterfaceType = null;
m_convInterface = null;
m_convSourceInterface = null;
//
// Convert default interface
//
if (m_defaultInterfaceTypeInfo != null)
{
m_convInterface = (IConvInterface)m_info.GetTypeRef(ConvType.Interface, m_defaultInterfaceTypeInfo);
// Don't create the interface because we haven't associated the default interface with the class interface yet
// We don't want to create anything in the "Define" stage
//m_convInterface.Create();
defaultInterfaceType = m_convInterface.ManagedType;
}
//
// Convert default source interface
//
if (m_defaultSourceInterfaceTypeInfo != null)
{
m_convSourceInterface = (IConvInterface)m_info.GetTypeRef(ConvType.Interface, m_defaultSourceInterfaceTypeInfo);
// Don't create the interface because we haven't associated the default interface with the class interface yet
// We don't want to create anything in the "Define" stage
// m_convSourceInterface.Create();
Type sourceInterfaceType = m_convSourceInterface.RealManagedType;
IConvEventInterface convEventInterface = m_convSourceInterface.DefineEventInterface();
// Don't create the interface because we haven't associated the default interface with the class interface yet
// We don't want to create anything in the "Define" stage
// convEventInterface.Create();
defaultSourceInterfaceType = m_convSourceInterface.EventInterface.ManagedType;
}
//
// Prepare list of implemented interfaces
//
List <Type> implTypes = new List <Type>();
if (defaultInterfaceType != null)
{
implTypes.Add(defaultInterfaceType);
}
if (defaultSourceInterfaceType != null)
{
implTypes.Add(defaultSourceInterfaceType);
}
// Create the class interface
m_typeBuilder = m_info.ModuleBuilder.DefineType(
classInterfaceName,
TypeAttributes.Public | TypeAttributes.Interface | TypeAttributes.Abstract | TypeAttributes.Import,
null,
implTypes.ToArray());
// Link to it so that ManagedType will return the class interface while GetWrappedInterfaceType will return the
// real interface
// This must be done before creating the coclass because coclass needs this information
// Only do so when the default interface is exclusively belongs to one coclass
if (m_convInterface != null && m_isExclusive)
{
// Check if the default interface -> class interface relationship exists in the default
// interface's type lib. That means we only need to check if the default interface and
// the coclass are in the same type library.
TypeLib typeLib = m_convInterface.RefTypeInfo.GetContainingTypeLib();
Guid libIdOfDefaultInterface;
using (TypeLibAttr libAttr = typeLib.GetLibAttr())
{
libIdOfDefaultInterface = libAttr.guid;
}
Guid libIdOfCoclass;
TypeLib coclassTypeLib = m_coclassTypeInfo.GetContainingTypeLib();
using (TypeLibAttr libAttr = coclassTypeLib.GetLibAttr())
{
libIdOfCoclass = libAttr.guid;
}
if (libIdOfDefaultInterface.Equals(libIdOfCoclass))
{
m_convInterface.AssociateWithExclusiveClassInterface(this as IConvClassInterface);
}
}
// Emit GuidAttribute, which is the same as the default interface, if it exists
// If there is no default Interface here, and the coclass implements IDispatch or IUnknown as non-source
// interface, we use the IDispatch or IUnknown's guid.
if (defaultInterfaceType != null)
{
ConvCommon.DefineGuid(m_convInterface.RefTypeInfo, m_convInterface.RefNonAliasedTypeInfo, m_typeBuilder);
}
else
{
TypeInfo ImplementedIDispatchOrIUnknownTypeInfo = null;
using (TypeAttr attr = m_coclassTypeInfo.GetTypeAttr())
{
for (int m = 0; m < attr.cImplTypes; ++m)
{
TypeLibTypes.Interop.IMPLTYPEFLAGS flags = m_coclassTypeInfo.GetImplTypeFlags(m);
bool bDefault = (flags & TypeLibTypes.Interop.IMPLTYPEFLAGS.IMPLTYPEFLAG_FDEFAULT) != 0;
bool bSource = (flags & TypeLibTypes.Interop.IMPLTYPEFLAGS.IMPLTYPEFLAG_FSOURCE) != 0;
TypeInfo typeImpl = m_coclassTypeInfo.GetRefType(m);
using (TypeAttr attrImpl = typeImpl.GetTypeAttr())
{
if (attrImpl.Guid == WellKnownGuids.IID_IDispatch ||
attrImpl.Guid == WellKnownGuids.IID_IUnknown)
{
// If more than one IDispatch or IUnknown exist, we will pick the default one;
// If none of them is with the default flag, pick the first one.
if (!bSource && (bDefault || ImplementedIDispatchOrIUnknownTypeInfo == null))
{
ImplementedIDispatchOrIUnknownTypeInfo = typeImpl;
}
}
}
}
}
if (ImplementedIDispatchOrIUnknownTypeInfo != null)
{
ConvCommon.DefineGuid(ImplementedIDispatchOrIUnknownTypeInfo,
ImplementedIDispatchOrIUnknownTypeInfo, m_typeBuilder);
}
}
// Make sure we know about the class interface before we go to define the coclass in the next statement
m_info.RegisterType(m_typeBuilder, this);
m_info.AddToSymbolTable(m_coclassTypeInfo, ConvType.ClassInterface, this);
// Handle [CoClass(typeof(...))]
Type typeRefCoClass = m_info.GetTypeRef(ConvType.CoClass, m_coclassTypeInfo).ManagedType;
ConstructorInfo ctorCoClassAttribute = typeof(CoClassAttribute).GetConstructor(
new Type[] { typeof(Type) });
// For back compatibility, use full name to create CoClassAttribute, instead of assembly qualified name.
CustomAttributeBlobBuilder blobBuilder = new CustomAttributeBlobBuilder();
blobBuilder.AddFixedArg(typeRefCoClass.FullName);
m_typeBuilder.SetCustomAttribute(ctorCoClassAttribute, blobBuilder.GetBlob());
}
private bool ResolveInternal(TypeInfo type, ConvType convType, out IConvBase convBase)
{
IConvBase ret = null;
// See if it is already mapped
if (!m_symbolTable.TryGetValue(GetInternalEncodedManagedName(type, convType), out ret))
{
TypeLib typeLib = type.GetContainingTypeLib();
Guid libid;
using (TypeLibAttr libAttr = typeLib.GetLibAttr())
{
libid = libAttr.guid;
}
// See if this is defined in a different type library
if (libid != m_libid)
{
ConverterAssemblyInfo converterAssemblyInfo = null;
// See if we have not already imported this assembly
if (!m_typeLibMappingTable.TryGetValue(libid, out converterAssemblyInfo))
{
Assembly assembly = null;
string asmName = typeLib.GetCustData(CustomAttributeGuids.GUID_ExportedFromComPlus) as string;
if (asmName != null)
{
try
{
assembly = Assembly.ReflectionOnlyLoad(asmName);
}
catch (Exception)
{
}
}
if (assembly == null)
{
try
{
assembly = m_resolver.ResolveRef(typeLib.GetTypeLib());
}
catch (TlbImpResolveRefFailWrapperException)
{
// Avoid wrapping wrapper with wrapper exception
throw;
}
catch (Exception ex)
{
throw new TlbImpResolveRefFailWrapperException(ex);
}
}
if (assembly == null)
{
// null means that the resolver has failed and we should skip this failure and continue with the next type
throw new TlbImpInvalidTypeConversionException(type);
}
converterAssemblyInfo = new ConverterAssemblyInfo(this, assembly, typeLib);
m_typeLibMappingTable.Add(libid, converterAssemblyInfo);
}
string expectedName;
Type convertedType = converterAssemblyInfo.ResolveType(type, convType, out expectedName);
if (convertedType == null)
{
throw new TlbImpGeneralException(
Resource.FormatString("Err_CanotFindReferencedType", expectedName, converterAssemblyInfo.Assembly.FullName),
ErrorCode.Err_CanotFindReferencedType);
}
else
{
// Create external IConvBase instance
switch (convType)
{
case ConvType.Interface:
ret = new ConvInterfaceExternal(this, type, convertedType, converterAssemblyInfo);
break;
case ConvType.Enum:
ret = new ConvEnumExternal(this, type, convertedType);
break;
case ConvType.Struct:
ret = new ConvStructExternal(this, type, convertedType);
break;
case ConvType.Union:
ret = new ConvUnionExternal(this, type, convertedType);
break;
case ConvType.ClassInterface:
Debug.Assert(false, "Only ConvCoClassExternal can create ConvClassInterfaceExternal");
break;
case ConvType.EventInterface:
Debug.Assert(false, "We should not reference a external event interface!");
break;
case ConvType.CoClass:
ret = new ConvCoClassExternal(this, type, convertedType, converterAssemblyInfo);
break;
}
}
}
}
convBase = ret;
return(ret != null);
}
public AssemblyBuilder DoProcess(
Object typeLib,
string asmFilename,
TypeLibImporterFlags flags,
ITypeLibImporterNotifySink notifySink,
byte[] publicKey,
StrongNameKeyPair keyPair,
string asmNamespace,
Version asmVersion,
bool isVersion2,
bool isPreserveSig,
bool isRemoveEnumPrefix)
{
m_resolver = notifySink;
TypeLib tlb = new TypeLib((ITypeLib)typeLib);
if (asmNamespace == null)
{
asmNamespace = tlb.GetDocumentation();
string fileName = System.IO.Path.GetFileNameWithoutExtension(asmFilename);
if (fileName != asmNamespace)
{
asmNamespace = fileName;
}
//
// Support for GUID_ManagedName (for namespace)
//
string customManagedNamespace = tlb.GetCustData(CustomAttributeGuids.GUID_ManagedName) as string;
if (customManagedNamespace != null)
{
customManagedNamespace = customManagedNamespace.Trim();
if (customManagedNamespace.ToUpper().EndsWith(".DLL"))
{
customManagedNamespace = customManagedNamespace.Substring(0, customManagedNamespace.Length - 4);
}
else if (customManagedNamespace.ToUpper().EndsWith(".EXE"))
{
customManagedNamespace = customManagedNamespace.Substring(0, customManagedNamespace.Length - 4);
}
asmNamespace = customManagedNamespace;
}
}
//
// Check for GUID_ExportedFromComPlus
//
object value = tlb.GetCustData(CustomAttributeGuids.GUID_ExportedFromComPlus);
if (value != null)
{
// Make this a critical failure, instead of returning null which will be ignored.
throw new TlbImpGeneralException(Resource.FormatString("Err_CircularImport", asmNamespace), ErrorCode.Err_CircularImport);
}
string strModuleName = asmFilename;
if (asmFilename.Contains("\\"))
{
int nIndex;
for (nIndex = strModuleName.Length; strModuleName[nIndex - 1] != '\\'; --nIndex)
{
;
}
strModuleName = strModuleName.Substring(nIndex);
}
// If the version information was not specified, then retrieve it from the typelib.
if (asmVersion == null)
{
using (TypeLibAttr attr = tlb.GetLibAttr())
{
asmVersion = new Version(attr.wMajorVerNum, attr.wMinorVerNum, 0, 0);
}
}
// Assembly name should not have .DLL
// while module name must contain the .DLL
string strAsmName = String.Copy(strModuleName);
if (strAsmName.EndsWith(".DLL", StringComparison.InvariantCultureIgnoreCase))
{
strAsmName = strAsmName.Substring(0, strAsmName.Length - 4);
}
AssemblyName assemblyName = new AssemblyName();
assemblyName.Name = strAsmName;
assemblyName.SetPublicKey(publicKey);
assemblyName.Version = asmVersion;
assemblyName.KeyPair = keyPair;
m_assemblyBuilder = CreateAssemblyBuilder(assemblyName, tlb, flags);
m_moduleBuilder = CreateModuleBuilder(m_assemblyBuilder, strModuleName);
// Add a listener for the reflection load only resolve events.
AppDomain currentDomain = Thread.GetDomain();
ResolveEventHandler asmResolveHandler = new ResolveEventHandler(ReflectionOnlyResolveAsmEvent);
currentDomain.ReflectionOnlyAssemblyResolve += asmResolveHandler;
ConverterSettings settings;
settings.m_isGenerateClassInterfaces = true;
settings.m_namespace = asmNamespace;
settings.m_flags = flags;
settings.m_isVersion2 = isVersion2;
settings.m_isPreserveSig = isPreserveSig;
settings.m_isRemoveEnumPrefix = isRemoveEnumPrefix;
m_converterInfo = new ConverterInfo(m_moduleBuilder, tlb, m_resolver, settings);
//
// Generate class interfaces
// NOTE:
// We have to create class interface ahead of time because of the need to convert default interfaces to
// class interfafces. However, this creates another problem that the event interface is always named first
// before the other interfaces, because we need to create the type builder for the event interface first
// so that we can create a class interface that implement it. But in the previous version of TlbImp,
// it doesn't have to do that because it can directly create a typeref with the class interface name,
// without actually creating anything like the TypeBuilder. The result is that the name would be different
// with interop assemblies generated by old tlbimp in this case.
// Given the nature of reflection API, this cannot be easily workarounded unless we switch to metadata APIs.
// I believe this is acceptable because this only happens when:
// 1. People decide to migrate newer .NET framework
// 2. The event interface name conflicts with a normal interface
//
// In this case the problem can be easily fixed with a global refactoring, so I wouldn't worry about that
//
if (m_converterInfo.GenerateClassInterfaces)
{
CreateClassInterfaces();
}
//
// Generate the remaining types except coclass
// Because during creating coclass, we require every type, including all the referenced type to be created
// This is a restriction of reflection API that when you override a method in parent interface, the method info
// is needed so the type must be already created and loaded
//
List <TypeInfo> coclassList = new List <TypeInfo>();
int nCount = tlb.GetTypeInfoCount();
for (int n = 0; n < nCount; ++n)
{
TypeInfo type = null;
try
{
type = tlb.GetTypeInfo(n);
string strType = type.GetDocumentation();
TypeInfo typeToProcess;
TypeAttr attrToProcess;
using (TypeAttr attr = type.GetTypeAttr())
{
TYPEKIND kind = attr.typekind;
if (kind == TYPEKIND.TKIND_ALIAS)
{
ConvCommon.ResolveAlias(type, attr.tdescAlias, out typeToProcess, out attrToProcess);
if (attrToProcess.typekind == TYPEKIND.TKIND_ALIAS)
{
continue;
}
else
{
// We need to duplicate the definition of the user defined type in the name of the alias
kind = attrToProcess.typekind;
typeToProcess = type;
attrToProcess = attr;
}
}
else
{
typeToProcess = type;
attrToProcess = attr;
}
switch (kind)
{
// Process coclass later because of reflection API requirements
case TYPEKIND.TKIND_COCLASS:
coclassList.Add(typeToProcess);
break;
case TYPEKIND.TKIND_ENUM:
m_converterInfo.GetEnum(typeToProcess, attrToProcess);
break;
case TYPEKIND.TKIND_DISPATCH:
case TYPEKIND.TKIND_INTERFACE:
m_converterInfo.GetInterface(typeToProcess, attrToProcess);
break;
case TYPEKIND.TKIND_MODULE:
m_converterInfo.GetModule(typeToProcess, attrToProcess);
break;
case TYPEKIND.TKIND_RECORD:
m_converterInfo.GetStruct(typeToProcess, attrToProcess);
break;
case TYPEKIND.TKIND_UNION:
m_converterInfo.GetUnion(typeToProcess, attrToProcess);
break;
}
m_converterInfo.ReportEvent(
MessageCode.Msg_TypeInfoImported,
Resource.FormatString("Msg_TypeInfoImported", typeToProcess.GetDocumentation()));
}
}
catch (ReflectionTypeLoadException)
{
throw; // Fatal failure. Throw
}
catch (TlbImpResolveRefFailWrapperException)
{
throw; // Fatal failure. Throw
}
catch (TlbImpGeneralException)
{
throw; // Fatal failure. Throw
}
catch (TypeLoadException)
{
throw; // TypeLoadException is critical. Throw.
}
catch (Exception)
{
}
}
// Process coclass after processing all the other types
foreach (TypeInfo type in coclassList)
{
using (TypeAttr attr = type.GetTypeAttr())
{
try
{
m_converterInfo.GetCoClass(type, attr);
}
catch (ReflectionTypeLoadException)
{
throw; // Fatal failure. Throw
}
catch (TlbImpResolveRefFailWrapperException)
{
throw; // Fatal failure. Throw
}
catch (TlbImpGeneralException)
{
throw; // Fatal failure. Throw
}
catch (TypeLoadException)
{
throw; // TypeLoadException is critical. Throw.
}
catch (Exception)
{
}
}
}
//
// Build an array of EventItfInfo & generate event provider / event sink helpers
//
Event.TCEAdapterGenerator eventAdapterGenerator = new Event.TCEAdapterGenerator();
List <Event.EventItfInfo> eventItfList = new List <Event.EventItfInfo>();
foreach (IConvBase symbol in m_converterInfo.GetAllConvBase)
{
IConvInterface convInterface = symbol as IConvInterface;
if (convInterface != null)
{
if (convInterface.EventInterface != null)
{
Debug.Assert(convInterface.EventInterface is ConvEventInterfaceLocal);
ConvEventInterfaceLocal local = convInterface.EventInterface as ConvEventInterfaceLocal;
Type eventInterfaceType = convInterface.EventInterface.ManagedType;
// Build EventItfInfo and add to the list
Type sourceInterfaceType = convInterface.ManagedType;
string sourceInterfaceName = sourceInterfaceType.FullName;
Event.EventItfInfo eventItfInfo = new Event.EventItfInfo(
eventInterfaceType.FullName,
sourceInterfaceName,
local.EventProviderName,
eventInterfaceType,
convInterface.ManagedType);
eventItfList.Add(eventItfInfo);
}
}
}
eventAdapterGenerator.Process(m_moduleBuilder, eventItfList);
return(m_assemblyBuilder);
}