public void Read(ClrModuleReader reader) { this.FieldDefinition = new FieldDefinition(); this.FieldDefinition.Attributes = (FieldAttributes)reader.Binary.ReadUInt16(); this.FieldDefinition.Name = reader.ReadString(); this.Signature = reader.ReadFieldSignature(); }
private static ModuleDefinition GetClrBasicsFor(string file, PEFile pe) { var stream = new MemoryStream(File.ReadAllBytes(file)); var reader = new BinaryStreamReader(stream, new byte[1024]); pe.ReadFrom(reader); var clrDirectory = pe.OptionalHeader.DataDirectories[(int)DataDirectoryKind.Clr]; var rvaStream = new RvaStream( stream, pe.SectionHeaders.Select( s => new RvaStream.Range { PhysicalAddress = s.PointerToRawData, Size = s.VirtualSize, VirtualAddress = s.VirtualAddress }) .ToArray()); rvaStream.Position = clrDirectory.VirtualAddress; var sectionReader = new BinaryStreamReader(rvaStream, new byte[32]); var clrmod = new ModuleDefinition(); ClrModuleReader.Read(sectionReader, clrmod); return(clrmod); }
public void Read(ClrModuleReader reader) { this.Offset = reader.Binary.ReadUInt32(); this.Flags = (ManifestResourceAttributes)reader.Binary.ReadUInt32(); this.Name = reader.ReadString(); this.Implementation = reader.ReadCodedIndex<Implementation>(); }
public void Read(ClrModuleReader reader) { this.Number = reader.Binary.ReadUInt16(); this.Flags = (GenericParamAttributes)reader.Binary.ReadUInt16(); this.Owner = reader.ReadCodedIndex<TypeOrMethodDef>(); this.Name = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.PropertyDefinition = new PropertyDefinition(); this.PropertyDefinition.Attributes = (PropertyAttributes)reader.Binary.ReadUInt16(); this.PropertyDefinition.Name = reader.ReadString(); this.Type = reader.ReadPropertySignature(); }
public void Read(ClrModuleReader reader) { this.MappingFlags = (PInvokeAttributes)reader.Binary.ReadUInt16(); this.MemberForwarded = reader.ReadCodedIndex<MemberForwarded>(); this.ImportName = reader.ReadString(); this.ImportScope = reader.ReadTableIndex(TableKind.ModuleRef); }
public void Read(ClrModuleReader reader) { this.Number = reader.Binary.ReadUInt16(); this.Flags = (GenericParamAttributes)reader.Binary.ReadUInt16(); this.Owner = reader.ReadCodedIndex <TypeOrMethodDef>(); this.Name = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.Type = (ElementType)reader.Binary.ReadByte(); byte padding = reader.Binary.ReadByte(); this.Parent = reader.ReadCodedIndex<HasConstant>(); this.Value = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.ParameterDefinition = new ParameterDefinition(); this.ParameterDefinition.Attributes = (ParamAttributes)reader.Binary.ReadUInt16(); this.Sequence = reader.Binary.ReadUInt16(); this.ParameterDefinition.Name = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.Offset = reader.Binary.ReadUInt32(); this.Flags = (ManifestResourceAttributes)reader.Binary.ReadUInt32(); this.Name = reader.ReadString(); this.Implementation = reader.ReadCodedIndex <Implementation>(); }
public void Read(ClrModuleReader reader) { this.MappingFlags = (PInvokeAttributes)reader.Binary.ReadUInt16(); this.MemberForwarded = reader.ReadCodedIndex <MemberForwarded>(); this.ImportName = reader.ReadString(); this.ImportScope = reader.ReadTableIndex(TableKind.ModuleRef); }
public void Read(ClrModuleReader reader) { this.TypeReference = new TypeReference.External(); this.ResolutionScope = reader.ReadCodedIndex <ResolutionScope>(); this.TypeReference.Name = reader.ReadString(); this.TypeReference.Namespace = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.Flags = (TypeAttributes)reader.Binary.ReadUInt32(); this.TypeDefId = reader.Binary.ReadUInt32(); this.TypeName = reader.ReadString(); this.TypeNamespace = reader.ReadString(); this.Implementation = reader.ReadCodedIndex<Implementation>(); }
public void Read(ClrModuleReader reader) { this.Type = (ElementType)reader.Binary.ReadByte(); byte padding = reader.Binary.ReadByte(); this.Parent = reader.ReadCodedIndex <HasConstant>(); this.Value = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.Flags = (TypeAttributes)reader.Binary.ReadUInt32(); this.TypeDefId = reader.Binary.ReadUInt32(); this.TypeName = reader.ReadString(); this.TypeNamespace = reader.ReadString(); this.Implementation = reader.ReadCodedIndex <Implementation>(); }
public void Read(ClrModuleReader reader) { this.Generation = reader.Binary.ReadUInt16(); this.Name = reader.ReadString(); this.Mvid = reader.ReadGuid(); this.EncId = reader.ReadGuid(); this.EncBaseId = reader.ReadGuid(); }
public void Read(ClrModuleReader reader) { this.TypeReference = new TypeReference.External(); this.ResolutionScope = reader.ReadCodedIndex<ResolutionScope>(); this.TypeReference.Name = reader.ReadString(); this.TypeReference.Namespace = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.HashAlgId = (AssemblyHashAlgorithm)reader.Binary.ReadUInt32(); this.Version = reader.ReadVersion(); this.Flags = (AssemblyFlags)reader.Binary.ReadUInt32(); this.PublicKey = reader.ReadBlob(); this.Name = reader.ReadString(); this.Culture = reader.ReadString(); }
public void Read(ClrModuleReader reader) { this.Version = reader.ReadVersion(); this.Flags = (AssemblyFlags)reader.Binary.ReadUInt32(); this.PublicKeyOrToken = reader.ReadBlob(); this.Name = reader.ReadString(); this.Culture = reader.ReadString(); this.HashValue = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.MethodDefinition = new MethodDefinition(); this.RVA = reader.Binary.ReadUInt32(); this.MethodDefinition.ImplAttributes = (MethodImplAttributes)reader.Binary.ReadUInt16(); this.MethodDefinition.Attributes = (MethodAttributes)reader.Binary.ReadUInt16(); this.MethodDefinition.Name = reader.ReadString(); this.Signature = reader.ReadMethodSignature(); this.ParamList = reader.ReadTableIndex(TableKind.Param); }
public void Read(ClrModuleReader reader) { this.TypeDefinition = new TypeDefinition(); this.TypeDefinition.Attributes = (TypeAttributes)reader.Binary.ReadUInt32(); this.TypeDefinition.Name = reader.ReadString(); this.TypeDefinition.Namespace = reader.ReadString(); this.Extends = reader.ReadCodedIndex <TypeDefOrRef>(); this.FieldList = reader.ReadTableIndex(TableKind.Field); this.MethodList = reader.ReadTableIndex(TableKind.MethodDef); }
public void Read(ClrModuleReader reader) { int tsReserved0 = reader.Binary.ReadInt32(); byte tsMajorVersion = reader.Binary.ReadByte(); byte tsMinorVersion = reader.Binary.ReadByte(); this.Version = new Version(tsMajorVersion, tsMinorVersion); byte heapSizes = reader.Binary.ReadByte(); byte reserved1 = reader.Binary.ReadByte(); ulong valid = reader.Binary.ReadUInt64(); ulong sorted = reader.Binary.ReadUInt64(); ReadAndInitializeRowCounts(reader.Binary, valid); ReadTables(reader); }
public void Read(ClrModuleReader reader) { this.Parent = reader.ReadCodedIndex <HasCustomAttribute>(); this.Type = reader.ReadCodedIndex <CustomAttributeType>(); this.Value = new CustomAttributeData(reader.ReadBlob()); }
public void Read(ClrModuleReader reader) { this.RVA = reader.Binary.ReadUInt32(); this.Field = reader.ReadTableIndex(TableKind.Field); }
public void Read(ClrModuleReader reader) { this.Flags = (FileAttributes)reader.Binary.ReadUInt32(); this.Name = reader.ReadString(); this.HashValue = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.Action = (SecurityAction)reader.Binary.ReadUInt16(); this.Parent = reader.ReadCodedIndex<HasDeclSecurity>(); this.PermissionSet = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.Processor = reader.Binary.ReadUInt32(); }
public void Read(ClrModuleReader reader) { this.Class = reader.ReadTableIndex(TableKind.TypeDef); this.Interface = reader.ReadCodedIndex <TypeDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.Parent = reader.ReadTableIndex(TableKind.TypeDef); this.PropertyList = reader.ReadTableIndex(TableKind.Property); }
public void Read(ClrModuleReader reader) { this.Owner = reader.ReadTableIndex(TableKind.GenericParam); this.Constraint = reader.ReadCodedIndex <TypeDefOrRef>(); }
private void ReadTables(ClrModuleReader reader) { var moduleTable = (ModuleEntry[])this.Tables[(int)TableKind.Module]; if (moduleTable != null) { for(int i = 0; i < moduleTable.Length; i++) { moduleTable[i].Read(reader); } } var typeRefTable = (TypeRefEntry[])this.Tables[(int)TableKind.TypeRef]; if (typeRefTable != null) { for(int i = 0; i < typeRefTable.Length; i++) { typeRefTable[i].Read(reader); } } var typeDefTable = (TypeDefEntry[])this.Tables[(int)TableKind.TypeDef]; if (typeDefTable != null) { for(int i = 0; i < typeDefTable.Length; i++) { typeDefTable[i].Read(reader); } } var fieldTable = (FieldEntry[])this.Tables[(int)TableKind.Field]; if (fieldTable != null) { for(int i = 0; i < fieldTable.Length; i++) { fieldTable[i].Read(reader); } } var methodDefTable = (MethodDefEntry[])this.Tables[(int)TableKind.MethodDef]; if (methodDefTable != null) { for(int i = 0; i < methodDefTable.Length; i++) { methodDefTable[i].Read(reader); } } var paramTable = (ParamEntry[])this.Tables[(int)TableKind.Param]; if (paramTable != null) { for(int i = 0; i < paramTable.Length; i++) { paramTable[i].Read(reader); } } var interfaceImplTable = (InterfaceImplEntry[])this.Tables[(int)TableKind.InterfaceImpl]; if (interfaceImplTable != null) { for(int i = 0; i < interfaceImplTable.Length; i++) { interfaceImplTable[i].Read(reader); } } var memberRefTable = (MemberRefEntry[])this.Tables[(int)TableKind.MemberRef]; if (memberRefTable != null) { for(int i = 0; i < memberRefTable.Length; i++) { memberRefTable[i].Read(reader); } } var constantTable = (ConstantEntry[])this.Tables[(int)TableKind.Constant]; if (constantTable != null) { for(int i = 0; i < constantTable.Length; i++) { constantTable[i].Read(reader); } } var customAttributeTable = (CustomAttributeEntry[])this.Tables[(int)TableKind.CustomAttribute]; if (customAttributeTable != null) { for(int i = 0; i < customAttributeTable.Length; i++) { customAttributeTable[i].Read(reader); } } var fieldMarshalTable = (FieldMarshalEntry[])this.Tables[(int)TableKind.FieldMarshal]; if (fieldMarshalTable != null) { for(int i = 0; i < fieldMarshalTable.Length; i++) { fieldMarshalTable[i].Read(reader); } } var declSecurityTable = (DeclSecurityEntry[])this.Tables[(int)TableKind.DeclSecurity]; if (declSecurityTable != null) { for(int i = 0; i < declSecurityTable.Length; i++) { declSecurityTable[i].Read(reader); } } var classLayoutTable = (ClassLayoutEntry[])this.Tables[(int)TableKind.ClassLayout]; if (classLayoutTable != null) { for(int i = 0; i < classLayoutTable.Length; i++) { classLayoutTable[i].Read(reader); } } var fieldLayoutTable = (FieldLayoutEntry[])this.Tables[(int)TableKind.FieldLayout]; if (fieldLayoutTable != null) { for(int i = 0; i < fieldLayoutTable.Length; i++) { fieldLayoutTable[i].Read(reader); } } var standAloneSigTable = (StandAloneSigEntry[])this.Tables[(int)TableKind.StandAloneSig]; if (standAloneSigTable != null) { for(int i = 0; i < standAloneSigTable.Length; i++) { standAloneSigTable[i].Read(reader); } } var eventMapTable = (EventMapEntry[])this.Tables[(int)TableKind.EventMap]; if (eventMapTable != null) { for(int i = 0; i < eventMapTable.Length; i++) { eventMapTable[i].Read(reader); } } var eventTable = (EventEntry[])this.Tables[(int)TableKind.Event]; if (eventTable != null) { for(int i = 0; i < eventTable.Length; i++) { eventTable[i].Read(reader); } } var propertyMapTable = (PropertyMapEntry[])this.Tables[(int)TableKind.PropertyMap]; if (propertyMapTable != null) { for(int i = 0; i < propertyMapTable.Length; i++) { propertyMapTable[i].Read(reader); } } var propertyTable = (PropertyEntry[])this.Tables[(int)TableKind.Property]; if (propertyTable != null) { for(int i = 0; i < propertyTable.Length; i++) { propertyTable[i].Read(reader); } } var methodSemanticsTable = (MethodSemanticsEntry[])this.Tables[(int)TableKind.MethodSemantics]; if (methodSemanticsTable != null) { for(int i = 0; i < methodSemanticsTable.Length; i++) { methodSemanticsTable[i].Read(reader); } } var methodImplTable = (MethodImplEntry[])this.Tables[(int)TableKind.MethodImpl]; if (methodImplTable != null) { for(int i = 0; i < methodImplTable.Length; i++) { methodImplTable[i].Read(reader); } } var moduleRefTable = (ModuleRefEntry[])this.Tables[(int)TableKind.ModuleRef]; if (moduleRefTable != null) { for(int i = 0; i < moduleRefTable.Length; i++) { moduleRefTable[i].Read(reader); } } var typeSpecTable = (TypeSpecEntry[])this.Tables[(int)TableKind.TypeSpec]; if (typeSpecTable != null) { for(int i = 0; i < typeSpecTable.Length; i++) { typeSpecTable[i].Read(reader); } } var implMapTable = (ImplMapEntry[])this.Tables[(int)TableKind.ImplMap]; if (implMapTable != null) { for(int i = 0; i < implMapTable.Length; i++) { implMapTable[i].Read(reader); } } var fieldRVATable = (FieldRVAEntry[])this.Tables[(int)TableKind.FieldRVA]; if (fieldRVATable != null) { for(int i = 0; i < fieldRVATable.Length; i++) { fieldRVATable[i].Read(reader); } } var assemblyTable = (AssemblyEntry[])this.Tables[(int)TableKind.Assembly]; if (assemblyTable != null) { for(int i = 0; i < assemblyTable.Length; i++) { assemblyTable[i].Read(reader); } } var assemblyProcessorTable = (AssemblyProcessorEntry[])this.Tables[(int)TableKind.AssemblyProcessor]; if (assemblyProcessorTable != null) { for(int i = 0; i < assemblyProcessorTable.Length; i++) { assemblyProcessorTable[i].Read(reader); } } var assemblyOSTable = (AssemblyOSEntry[])this.Tables[(int)TableKind.AssemblyOS]; if (assemblyOSTable != null) { for(int i = 0; i < assemblyOSTable.Length; i++) { assemblyOSTable[i].Read(reader); } } var assemblyRefTable = (AssemblyRefEntry[])this.Tables[(int)TableKind.AssemblyRef]; if (assemblyRefTable != null) { for(int i = 0; i < assemblyRefTable.Length; i++) { assemblyRefTable[i].Read(reader); } } var assemblyRefProcessorTable = (AssemblyRefProcessorEntry[])this.Tables[(int)TableKind.AssemblyRefProcessor]; if (assemblyRefProcessorTable != null) { for(int i = 0; i < assemblyRefProcessorTable.Length; i++) { assemblyRefProcessorTable[i].Read(reader); } } var assemblyRefOSTable = (AssemblyRefOSEntry[])this.Tables[(int)TableKind.AssemblyRefOS]; if (assemblyRefOSTable != null) { for(int i = 0; i < assemblyRefOSTable.Length; i++) { assemblyRefOSTable[i].Read(reader); } } var fileTable = (FileEntry[])this.Tables[(int)TableKind.File]; if (fileTable != null) { for(int i = 0; i < fileTable.Length; i++) { fileTable[i].Read(reader); } } var exportedTypeTable = (ExportedTypeEntry[])this.Tables[(int)TableKind.ExportedType]; if (exportedTypeTable != null) { for(int i = 0; i < exportedTypeTable.Length; i++) { exportedTypeTable[i].Read(reader); } } var manifestResourceTable = (ManifestResourceEntry[])this.Tables[(int)TableKind.ManifestResource]; if (manifestResourceTable != null) { for(int i = 0; i < manifestResourceTable.Length; i++) { manifestResourceTable[i].Read(reader); } } var nestedClassTable = (NestedClassEntry[])this.Tables[(int)TableKind.NestedClass]; if (nestedClassTable != null) { for(int i = 0; i < nestedClassTable.Length; i++) { nestedClassTable[i].Read(reader); } } var genericParamTable = (GenericParamEntry[])this.Tables[(int)TableKind.GenericParam]; if (genericParamTable != null) { for(int i = 0; i < genericParamTable.Length; i++) { genericParamTable[i].Read(reader); } } var methodSpecTable = (MethodSpecEntry[])this.Tables[(int)TableKind.MethodSpec]; if (methodSpecTable != null) { for(int i = 0; i < methodSpecTable.Length; i++) { methodSpecTable[i].Read(reader); } } var genericParamConstraintTable = (GenericParamConstraintEntry[])this.Tables[(int)TableKind.GenericParamConstraint]; if (genericParamConstraintTable != null) { for(int i = 0; i < genericParamConstraintTable.Length; i++) { genericParamConstraintTable[i].Read(reader); } } }
public void Read(ClrModuleReader reader) { this.PackingSize = reader.Binary.ReadUInt16(); this.ClassSize = reader.Binary.ReadUInt32(); this.Parent = reader.ReadTableIndex(TableKind.TypeDef); }
public void Read(ClrModuleReader reader) { this.Signature = reader.ReadTypeSpec(); }
public void Read(ClrModuleReader reader) { this.Class = reader.ReadCodedIndex<MemberRefParent>(); this.Name = reader.ReadString(); this.SignatureBlob = reader.ReadBlob(); }
public void Read(ClrModuleReader reader) { this.EventFlags = (EventAttributes)reader.Binary.ReadUInt16(); this.Name = reader.ReadString(); this.EventType = reader.ReadCodedIndex <TypeDefOrRef>(); }
private void ReadTables(ClrModuleReader reader) { var moduleTable = (ModuleEntry[])this.Tables[(int)TableKind.Module]; if (moduleTable != null) { for (int i = 0; i < moduleTable.Length; i++) { moduleTable[i].Read(reader); } } var typeRefTable = (TypeRefEntry[])this.Tables[(int)TableKind.TypeRef]; if (typeRefTable != null) { for (int i = 0; i < typeRefTable.Length; i++) { typeRefTable[i].Read(reader); } } var typeDefTable = (TypeDefEntry[])this.Tables[(int)TableKind.TypeDef]; if (typeDefTable != null) { for (int i = 0; i < typeDefTable.Length; i++) { typeDefTable[i].Read(reader); } } var fieldTable = (FieldEntry[])this.Tables[(int)TableKind.Field]; if (fieldTable != null) { for (int i = 0; i < fieldTable.Length; i++) { fieldTable[i].Read(reader); } } var methodDefTable = (MethodDefEntry[])this.Tables[(int)TableKind.MethodDef]; if (methodDefTable != null) { for (int i = 0; i < methodDefTable.Length; i++) { methodDefTable[i].Read(reader); } } var paramTable = (ParamEntry[])this.Tables[(int)TableKind.Param]; if (paramTable != null) { for (int i = 0; i < paramTable.Length; i++) { paramTable[i].Read(reader); } } var interfaceImplTable = (InterfaceImplEntry[])this.Tables[(int)TableKind.InterfaceImpl]; if (interfaceImplTable != null) { for (int i = 0; i < interfaceImplTable.Length; i++) { interfaceImplTable[i].Read(reader); } } var memberRefTable = (MemberRefEntry[])this.Tables[(int)TableKind.MemberRef]; if (memberRefTable != null) { for (int i = 0; i < memberRefTable.Length; i++) { memberRefTable[i].Read(reader); } } var constantTable = (ConstantEntry[])this.Tables[(int)TableKind.Constant]; if (constantTable != null) { for (int i = 0; i < constantTable.Length; i++) { constantTable[i].Read(reader); } } var customAttributeTable = (CustomAttributeEntry[])this.Tables[(int)TableKind.CustomAttribute]; if (customAttributeTable != null) { for (int i = 0; i < customAttributeTable.Length; i++) { customAttributeTable[i].Read(reader); } } var fieldMarshalTable = (FieldMarshalEntry[])this.Tables[(int)TableKind.FieldMarshal]; if (fieldMarshalTable != null) { for (int i = 0; i < fieldMarshalTable.Length; i++) { fieldMarshalTable[i].Read(reader); } } var declSecurityTable = (DeclSecurityEntry[])this.Tables[(int)TableKind.DeclSecurity]; if (declSecurityTable != null) { for (int i = 0; i < declSecurityTable.Length; i++) { declSecurityTable[i].Read(reader); } } var classLayoutTable = (ClassLayoutEntry[])this.Tables[(int)TableKind.ClassLayout]; if (classLayoutTable != null) { for (int i = 0; i < classLayoutTable.Length; i++) { classLayoutTable[i].Read(reader); } } var fieldLayoutTable = (FieldLayoutEntry[])this.Tables[(int)TableKind.FieldLayout]; if (fieldLayoutTable != null) { for (int i = 0; i < fieldLayoutTable.Length; i++) { fieldLayoutTable[i].Read(reader); } } var standAloneSigTable = (StandAloneSigEntry[])this.Tables[(int)TableKind.StandAloneSig]; if (standAloneSigTable != null) { for (int i = 0; i < standAloneSigTable.Length; i++) { standAloneSigTable[i].Read(reader); } } var eventMapTable = (EventMapEntry[])this.Tables[(int)TableKind.EventMap]; if (eventMapTable != null) { for (int i = 0; i < eventMapTable.Length; i++) { eventMapTable[i].Read(reader); } } var eventTable = (EventEntry[])this.Tables[(int)TableKind.Event]; if (eventTable != null) { for (int i = 0; i < eventTable.Length; i++) { eventTable[i].Read(reader); } } var propertyMapTable = (PropertyMapEntry[])this.Tables[(int)TableKind.PropertyMap]; if (propertyMapTable != null) { for (int i = 0; i < propertyMapTable.Length; i++) { propertyMapTable[i].Read(reader); } } var propertyTable = (PropertyEntry[])this.Tables[(int)TableKind.Property]; if (propertyTable != null) { for (int i = 0; i < propertyTable.Length; i++) { propertyTable[i].Read(reader); } } var methodSemanticsTable = (MethodSemanticsEntry[])this.Tables[(int)TableKind.MethodSemantics]; if (methodSemanticsTable != null) { for (int i = 0; i < methodSemanticsTable.Length; i++) { methodSemanticsTable[i].Read(reader); } } var methodImplTable = (MethodImplEntry[])this.Tables[(int)TableKind.MethodImpl]; if (methodImplTable != null) { for (int i = 0; i < methodImplTable.Length; i++) { methodImplTable[i].Read(reader); } } var moduleRefTable = (ModuleRefEntry[])this.Tables[(int)TableKind.ModuleRef]; if (moduleRefTable != null) { for (int i = 0; i < moduleRefTable.Length; i++) { moduleRefTable[i].Read(reader); } } var typeSpecTable = (TypeSpecEntry[])this.Tables[(int)TableKind.TypeSpec]; if (typeSpecTable != null) { for (int i = 0; i < typeSpecTable.Length; i++) { typeSpecTable[i].Read(reader); } } var implMapTable = (ImplMapEntry[])this.Tables[(int)TableKind.ImplMap]; if (implMapTable != null) { for (int i = 0; i < implMapTable.Length; i++) { implMapTable[i].Read(reader); } } var fieldRVATable = (FieldRVAEntry[])this.Tables[(int)TableKind.FieldRVA]; if (fieldRVATable != null) { for (int i = 0; i < fieldRVATable.Length; i++) { fieldRVATable[i].Read(reader); } } var assemblyTable = (AssemblyEntry[])this.Tables[(int)TableKind.Assembly]; if (assemblyTable != null) { for (int i = 0; i < assemblyTable.Length; i++) { assemblyTable[i].Read(reader); } } var assemblyProcessorTable = (AssemblyProcessorEntry[])this.Tables[(int)TableKind.AssemblyProcessor]; if (assemblyProcessorTable != null) { for (int i = 0; i < assemblyProcessorTable.Length; i++) { assemblyProcessorTable[i].Read(reader); } } var assemblyOSTable = (AssemblyOSEntry[])this.Tables[(int)TableKind.AssemblyOS]; if (assemblyOSTable != null) { for (int i = 0; i < assemblyOSTable.Length; i++) { assemblyOSTable[i].Read(reader); } } var assemblyRefTable = (AssemblyRefEntry[])this.Tables[(int)TableKind.AssemblyRef]; if (assemblyRefTable != null) { for (int i = 0; i < assemblyRefTable.Length; i++) { assemblyRefTable[i].Read(reader); } } var assemblyRefProcessorTable = (AssemblyRefProcessorEntry[])this.Tables[(int)TableKind.AssemblyRefProcessor]; if (assemblyRefProcessorTable != null) { for (int i = 0; i < assemblyRefProcessorTable.Length; i++) { assemblyRefProcessorTable[i].Read(reader); } } var assemblyRefOSTable = (AssemblyRefOSEntry[])this.Tables[(int)TableKind.AssemblyRefOS]; if (assemblyRefOSTable != null) { for (int i = 0; i < assemblyRefOSTable.Length; i++) { assemblyRefOSTable[i].Read(reader); } } var fileTable = (FileEntry[])this.Tables[(int)TableKind.File]; if (fileTable != null) { for (int i = 0; i < fileTable.Length; i++) { fileTable[i].Read(reader); } } var exportedTypeTable = (ExportedTypeEntry[])this.Tables[(int)TableKind.ExportedType]; if (exportedTypeTable != null) { for (int i = 0; i < exportedTypeTable.Length; i++) { exportedTypeTable[i].Read(reader); } } var manifestResourceTable = (ManifestResourceEntry[])this.Tables[(int)TableKind.ManifestResource]; if (manifestResourceTable != null) { for (int i = 0; i < manifestResourceTable.Length; i++) { manifestResourceTable[i].Read(reader); } } var nestedClassTable = (NestedClassEntry[])this.Tables[(int)TableKind.NestedClass]; if (nestedClassTable != null) { for (int i = 0; i < nestedClassTable.Length; i++) { nestedClassTable[i].Read(reader); } } var genericParamTable = (GenericParamEntry[])this.Tables[(int)TableKind.GenericParam]; if (genericParamTable != null) { for (int i = 0; i < genericParamTable.Length; i++) { genericParamTable[i].Read(reader); } } var methodSpecTable = (MethodSpecEntry[])this.Tables[(int)TableKind.MethodSpec]; if (methodSpecTable != null) { for (int i = 0; i < methodSpecTable.Length; i++) { methodSpecTable[i].Read(reader); } } var genericParamConstraintTable = (GenericParamConstraintEntry[])this.Tables[(int)TableKind.GenericParamConstraint]; if (genericParamConstraintTable != null) { for (int i = 0; i < genericParamConstraintTable.Length; i++) { genericParamConstraintTable[i].Read(reader); } } }
public void Read(ClrModuleReader reader) { this.Parent = reader.ReadTableIndex(TableKind.TypeDef); this.EventList = reader.ReadTableIndex(TableKind.Event); }
public void Read(ClrModuleReader reader) { this.Class = reader.ReadTableIndex(TableKind.TypeDef); this.MethodBody = reader.ReadCodedIndex <MethodDefOrRef>(); this.MethodDeclaration = reader.ReadCodedIndex <MethodDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.NestedClass = reader.ReadTableIndex(TableKind.TypeDef); this.EnclosingClass = reader.ReadTableIndex(TableKind.TypeDef); }
public void Read(ClrModuleReader reader) { this.Owner = reader.ReadTableIndex(TableKind.GenericParam); this.Constraint = reader.ReadCodedIndex<TypeDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.EventFlags = (EventAttributes)reader.Binary.ReadUInt16(); this.Name = reader.ReadString(); this.EventType = reader.ReadCodedIndex<TypeDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.Parent = reader.ReadCodedIndex<HasCustomAttribute>(); this.Type = reader.ReadCodedIndex<CustomAttributeType>(); this.Value = new CustomAttributeData(reader.ReadBlob()); }
public void Read(ClrModuleReader reader) { this.OSPlatformID = reader.Binary.ReadUInt32(); this.OSMajorVersion = reader.Binary.ReadUInt32(); this.OSMinorVersion = reader.Binary.ReadUInt32(); }
public void Read(ClrModuleReader reader) { this.Semantics = (MethodSemanticsAttributes)reader.Binary.ReadUInt16(); this.Method = reader.ReadTableIndex(TableKind.MethodDef); this.Association = reader.ReadCodedIndex <HasSemantics>(); }
public void Read(ClrModuleReader reader) { this.Class = reader.ReadTableIndex(TableKind.TypeDef); this.MethodBody = reader.ReadCodedIndex<MethodDefOrRef>(); this.MethodDeclaration = reader.ReadCodedIndex<MethodDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.Class = reader.ReadTableIndex(TableKind.TypeDef); this.Interface = reader.ReadCodedIndex<TypeDefOrRef>(); }
public void Read(ClrModuleReader reader) { this.Semantics = (MethodSemanticsAttributes)reader.Binary.ReadUInt16(); this.Method = reader.ReadTableIndex(TableKind.MethodDef); this.Association = reader.ReadCodedIndex<HasSemantics>(); }