public Type Perform()
{
// Create the output Type.
Type[] aInterfaces = new Type[1];
aInterfaces[0] = m_InputType;
String strFullName = null;
String strNameSpace = NameSpaceExtractor.ExtractNameSpace(m_EventItfType.FullName);
if (strNameSpace != "")
{
strFullName = strNameSpace + ".";
}
strFullName += m_InputType.Name + GeneratedTypeNamePostfix;
TypeBuilder OutputTypeBuilder = TCEAdapterGenerator.DefineUniqueType(
strFullName,
TypeAttributes.Sealed | TypeAttributes.Public,
null,
aInterfaces,
m_OutputModule
);
// Hide the _SinkProvider interface
TCEAdapterGenerator.SetHiddenAttribute(OutputTypeBuilder);
// Set the class interface to none.
TCEAdapterGenerator.SetClassInterfaceTypeToNone(OutputTypeBuilder);
// Retrieve the property methods on the input interface and give them a dummy implementation.
MethodInfo[] pMethods = TCEAdapterGenerator.GetPropertyMethods(m_InputType);
foreach (MethodInfo method in pMethods)
{
DefineBlankMethod(OutputTypeBuilder, method);
}
// Retrieve the non-property methods on the input interface.
MethodInfo[] aMethods = TCEAdapterGenerator.GetNonPropertyMethods(m_InputType);
// Allocate an array to contain the delegate fields.
FieldBuilder[] afbDelegates = new FieldBuilder[aMethods.Length];
// Process all the methods on the input interface.
for (int cMethods = 0; cMethods < aMethods.Length; cMethods++)
{
if (m_InputType == aMethods[cMethods].DeclaringType)
{
// Retrieve the delegate type from the add_XXX method.
MethodInfo AddMeth = m_EventItfType.GetMethod("add_" + aMethods[cMethods].Name);
ParameterInfo[] aParams = AddMeth.GetParameters();
Debug.Assert(aParams.Length == 1, "All event interface methods must take a single delegate derived type and have a void return type");
Type DelegateCls = aParams[0].ParameterType;
// Define the delegate instance field.
afbDelegates[cMethods] = OutputTypeBuilder.DefineField(
"m_" + aMethods[cMethods].Name + "Delegate",
DelegateCls,
FieldAttributes.Public
);
// Define the event method itself.
DefineEventMethod(OutputTypeBuilder, aMethods[cMethods], DelegateCls, afbDelegates[cMethods]);
}
}
// Create the cookie field.
FieldBuilder fbCookie = OutputTypeBuilder.DefineField(
"m_dwCookie",
typeof(Int32),
FieldAttributes.Public
);
// Define the constructor.
DefineConstructor(OutputTypeBuilder, fbCookie, afbDelegates);
return(OutputTypeBuilder.CreateType());
}
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);
}
public AssemblyBuilder DoProcess(
Object typeLib,
string asmFilename,
TypeLibImporterFlags flags,
ITypeLibImporterNotifySink notifySink,
byte[] publicKey,
StrongNameKeyPair keyPair,
string asmNamespace,
Version asmVersion,
bool isVersion2,
bool isPreserveSig,
string ruleSetFileName)
{
m_resolver = notifySink;
TypeLib tlb = new TypeLib((TypeLibTypes.Interop.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 = 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;
RuleEngine.InitRuleEngine(new TlbImpActionManager(),
new TlbImpCategoryManager(),
new TlbImpConditionManager(),
new TlbImpOperatorManager());
if (ruleSetFileName != null)
{
try
{
RuleFileParser parser = new RuleFileParser(ruleSetFileName);
settings.m_ruleSet = parser.Parse();
}
catch (Exception ex)
{
Output.WriteWarning(Resource.FormatString("Wrn_LoadRuleFileFailed",
ruleSetFileName, ex.Message),
WarningCode.Wrn_LoadRuleFileFailed);
settings.m_ruleSet = null;
}
}
else
{
settings.m_ruleSet = null;
}
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
//
var coclassList = new List<TypeInfo>();
int nCount = tlb.GetTypeInfoCount();
for (int n = 0; n < nCount; ++n)
{
try
{
TypeInfo type = tlb.GetTypeInfo(n);
string strType = type.GetDocumentation();
using (TypeAttr attr = type.GetTypeAttr())
{
TypeLibTypes.Interop.TYPEKIND kind = attr.typekind;
TypeInfo typeToProcess;
TypeAttr attrToProcess;
if (kind == TypeLibTypes.Interop.TYPEKIND.TKIND_ALIAS)
{
ConvCommon.ResolveAlias(type, attr.tdescAlias, out typeToProcess, out attrToProcess);
if (attrToProcess.typekind == TypeLibTypes.Interop.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 TypeLibTypes.Interop.TYPEKIND.TKIND_COCLASS:
coclassList.Add(typeToProcess);
break;
case TypeLibTypes.Interop.TYPEKIND.TKIND_ENUM:
m_converterInfo.GetEnum(typeToProcess, attrToProcess);
break;
case TypeLibTypes.Interop.TYPEKIND.TKIND_DISPATCH:
case TypeLibTypes.Interop.TYPEKIND.TKIND_INTERFACE:
m_converterInfo.GetInterface(typeToProcess, attrToProcess);
break;
case TypeLibTypes.Interop.TYPEKIND.TKIND_MODULE:
m_converterInfo.GetModule(typeToProcess, attrToProcess);
break;
case TypeLibTypes.Interop.TYPEKIND.TKIND_RECORD:
m_converterInfo.GetStruct(typeToProcess, attrToProcess);
break;
case TypeLibTypes.Interop.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
//
var eventAdapterGenerator = new Event.TCEAdapterGenerator();
var eventItfList = new List<Event.EventItfInfo>();
foreach (IConvBase symbol in m_converterInfo.GetAllConvBase)
{
var convInterface = symbol as IConvInterface;
if (convInterface != null)
{
if (convInterface.EventInterface != null)
{
Debug.Assert(convInterface.EventInterface is ConvEventInterfaceLocal);
var 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;
}
public Type Perform()
{
// Create the event provider class.
TypeBuilder OutputTypeBuilder = m_OutputModule.DefineType(
m_strDestTypeName,
TypeAttributes.Sealed | TypeAttributes.NotPublic,
typeof(Object),
new Type[] { m_EventItfType, typeof(IDisposable) }
);
// Create the event source field.
FieldBuilder fbCPC = OutputTypeBuilder.DefineField(
"m_ConnectionPointContainer",
typeof(IConnectionPointContainer),
FieldAttributes.Private
);
// Create array of event sink helpers.
FieldBuilder fbSinkHelper = OutputTypeBuilder.DefineField(
"m_aEventSinkHelpers",
typeof(ArrayList),
FieldAttributes.Private
);
// Define the connection point field.
FieldBuilder fbEventCP = OutputTypeBuilder.DefineField(
"m_ConnectionPoint",
typeof(IConnectionPoint),
FieldAttributes.Private
);
// Define the InitXXX method.
MethodBuilder InitSrcItfMethodBuilder =
DefineInitSrcItfMethod(OutputTypeBuilder, m_SrcItfType, fbSinkHelper, fbEventCP, fbCPC);
// Process all the methods in the event interface.
MethodInfo[] aMethods = TCEAdapterGenerator.GetNonPropertyMethods(m_SrcItfType);
for (int cMethods = 0; cMethods < aMethods.Length; cMethods++)
{
if (m_SrcItfType == aMethods[cMethods].DeclaringType)
{
// Define the add_XXX method.
MethodBuilder AddEventMethodBuilder = DefineAddEventMethod(
OutputTypeBuilder, aMethods[cMethods], m_SinkHelperType, fbSinkHelper, fbEventCP, InitSrcItfMethodBuilder);
// Define the remove_XXX method.
MethodBuilder RemoveEventMethodBuilder = DefineRemoveEventMethod(
OutputTypeBuilder, aMethods[cMethods], m_SinkHelperType, fbSinkHelper, fbEventCP);
}
}
// Define the constructor.
DefineConstructor(OutputTypeBuilder, fbCPC);
// Define the finalize method.
MethodBuilder FinalizeMethod = DefineFinalizeMethod(OutputTypeBuilder, m_SinkHelperType, fbSinkHelper, fbEventCP);
// Define the Dispose method.
DefineDisposeMethod(OutputTypeBuilder, FinalizeMethod);
return(OutputTypeBuilder.CreateType());
}