// // Author: // Jb Evain (jbevain@gmail.com) // // Copyright (c) 2008 - 2015 Jb Evain // Copyright (c) 2008 - 2011 Novell, Inc. // // Licensed under the MIT/X11 license. // using MonoFN.Cecil.Cil; using MonoFN.Cecil.Metadata; using MonoFN.Cecil.PE; using MonoFN.Collections.Generic; using System; using System.Collections.Generic; using System.IO; using System.IO.Compression; using System.Text; using BlobIndex = System.UInt32; using CodedRID = System.UInt32; using GuidIndex = System.UInt32; using RID = System.UInt32; using RVA = System.UInt32; using StringIndex = System.UInt32; namespace MonoFN.Cecil { using AssemblyRefRow = Row; using AssemblyRow = Row; using ClassLayoutRow = Row; using ConstantRow = Row; using CustomAttributeRow = Row; using CustomDebugInformationRow = Row; using DeclSecurityRow = Row; using DocumentRow = Row; using EventMapRow = Row; using EventRow = Row; using ExportedTypeRow = Row; using FieldLayoutRow = Row; using FieldMarshalRow = Row; using FieldRow = Row; using FieldRVARow = Row; using FileRow = Row; using GenericParamConstraintRow = Row; using GenericParamRow = Row; using ImplMapRow = Row; using ImportScopeRow = Row; using InterfaceImplRow = Row; using LocalConstantRow = Row; using LocalScopeRow = Row; using LocalVariableRow = Row; using ManifestResourceRow = Row; using MemberRefRow = Row; using MethodDebugInformationRow = Row; using MethodImplRow = Row; using MethodRow = Row; using MethodSemanticsRow = Row; using MethodSpecRow = Row; using ModuleRow = Row; using NestedClassRow = Row; using ParamRow = Row; using PropertyMapRow = Row; using PropertyRow = Row; using StateMachineMethodRow = Row; using TypeDefRow = Row; using TypeRefRow = Row; static class ModuleWriter { public static void WriteModule (ModuleDefinition module, Disposable stream, WriterParameters parameters) { using (stream) Write (module, stream, parameters); } static void Write (ModuleDefinition module, Disposable stream, WriterParameters parameters) { if ((module.Attributes & ModuleAttributes.ILOnly) == 0) throw new NotSupportedException ("Writing mixed-mode assemblies is not supported"); if (module.HasImage && module.ReadingMode == ReadingMode.Deferred) { var immediate_reader = new ImmediateModuleReader (module.Image); immediate_reader.ReadModule (module, resolve_attributes: false); immediate_reader.ReadSymbols (module); } module.MetadataSystem.Clear (); if (module.symbol_reader != null) module.symbol_reader.Dispose (); var name = module.assembly != null && module.kind != ModuleKind.NetModule ? module.assembly.Name : null; var fq_name = stream.value.GetFileName (); var timestamp = parameters.Timestamp ?? module.timestamp; var symbol_writer_provider = parameters.SymbolWriterProvider; if (symbol_writer_provider == null && parameters.WriteSymbols) symbol_writer_provider = new DefaultSymbolWriterProvider (); if (parameters.HasStrongNameKey && name != null) { name.PublicKey = CryptoService.GetPublicKey (parameters); module.Attributes |= ModuleAttributes.StrongNameSigned; } if (parameters.DeterministicMvid) module.Mvid = Guid.Empty; var metadata = new MetadataBuilder (module, fq_name, timestamp, symbol_writer_provider); try { module.metadata_builder = metadata; using (var symbol_writer = GetSymbolWriter (module, fq_name, symbol_writer_provider, parameters)) { metadata.SetSymbolWriter (symbol_writer); BuildMetadata (module, metadata); if (parameters.DeterministicMvid) metadata.ComputeDeterministicMvid (); var writer = ImageWriter.CreateWriter (module, metadata, stream); stream.value.SetLength (0); writer.WriteImage (); if (parameters.HasStrongNameKey) CryptoService.StrongName (stream.value, writer, parameters); } } finally { module.metadata_builder = null; } } static void BuildMetadata (ModuleDefinition module, MetadataBuilder metadata) { if (!module.HasImage) { metadata.BuildMetadata (); return; } module.Read (metadata, (builder, _) => { builder.BuildMetadata (); return builder; }); } static ISymbolWriter GetSymbolWriter (ModuleDefinition module, string fq_name, ISymbolWriterProvider symbol_writer_provider, WriterParameters parameters) { if (symbol_writer_provider == null) return null; if (parameters.SymbolStream != null) return symbol_writer_provider.GetSymbolWriter (module, parameters.SymbolStream); return symbol_writer_provider.GetSymbolWriter (module, fq_name); } } abstract class MetadataTable { public abstract int Length { get; } public bool IsLarge { get { return Length > ushort.MaxValue; } } public abstract void Write (TableHeapBuffer buffer); public abstract void Sort (); } abstract class OneRowTable : MetadataTable where TRow : struct { internal TRow row; public sealed override int Length { get { return 1; } } public sealed override void Sort () { } } abstract class MetadataTable : MetadataTable where TRow : struct { internal TRow [] rows = new TRow [2]; internal int length; public sealed override int Length { get { return length; } } public int AddRow (TRow row) { if (rows.Length == length) Grow (); rows [length++] = row; return length; } void Grow () { var rows = new TRow [this.rows.Length * 2]; Array.Copy (this.rows, rows, this.rows.Length); this.rows = rows; } public override void Sort () { } } abstract class SortedTable : MetadataTable, IComparer where TRow : struct { public sealed override void Sort () { MergeSort.Sort (rows, 0, this.length, this); } protected static int Compare (uint x, uint y) { return x == y ? 0 : x > y ? 1 : -1; } public abstract int Compare (TRow x, TRow y); } sealed class ModuleTable : OneRowTable { public override void Write (TableHeapBuffer buffer) { buffer.WriteUInt16 (0); // Generation buffer.WriteString (row.Col1); // Name buffer.WriteGuid (row.Col2); // Mvid buffer.WriteUInt16 (0); // EncId buffer.WriteUInt16 (0); // EncBaseId } } sealed class TypeRefTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID ( rows [i].Col1, CodedIndex.ResolutionScope); // Scope buffer.WriteString (rows [i].Col2); // Name buffer.WriteString (rows [i].Col3); // Namespace } } } sealed class TypeDefTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 ((uint)rows [i].Col1); // Attributes buffer.WriteString (rows [i].Col2); // Name buffer.WriteString (rows [i].Col3); // Namespace buffer.WriteCodedRID ( rows [i].Col4, CodedIndex.TypeDefOrRef); // Extends buffer.WriteRID (rows [i].Col5, Table.Field); // FieldList buffer.WriteRID (rows [i].Col6, Table.Method); // MethodList } } } sealed class FieldTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Attributes buffer.WriteString (rows [i].Col2); // Name buffer.WriteBlob (rows [i].Col3); // Signature } } } sealed class MethodTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 (rows [i].Col1); // RVA buffer.WriteUInt16 ((ushort)rows [i].Col2); // ImplFlags buffer.WriteUInt16 ((ushort)rows [i].Col3); // Flags buffer.WriteString (rows [i].Col4); // Name buffer.WriteBlob (rows [i].Col5); // Signature buffer.WriteRID (rows [i].Col6, Table.Param); // ParamList } } } sealed class ParamTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Attributes buffer.WriteUInt16 (rows [i].Col2); // Sequence buffer.WriteString (rows [i].Col3); // Name } } } sealed class InterfaceImplTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.TypeDef); // Class buffer.WriteCodedRID (rows [i].Col2, CodedIndex.TypeDefOrRef); // Interface } } /*public override int Compare (InterfaceImplRow x, InterfaceImplRow y) { return (int) (x.Col1 == y.Col1 ? y.Col2 - x.Col2 : x.Col1 - y.Col1); }*/ } sealed class MemberRefTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID (rows [i].Col1, CodedIndex.MemberRefParent); buffer.WriteString (rows [i].Col2); buffer.WriteBlob (rows [i].Col3); } } } sealed class ConstantTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); buffer.WriteCodedRID (rows [i].Col2, CodedIndex.HasConstant); buffer.WriteBlob (rows [i].Col3); } } public override int Compare (ConstantRow x, ConstantRow y) { return Compare (x.Col2, y.Col2); } } sealed class CustomAttributeTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID (rows [i].Col1, CodedIndex.HasCustomAttribute); // Parent buffer.WriteCodedRID (rows [i].Col2, CodedIndex.CustomAttributeType); // Type buffer.WriteBlob (rows [i].Col3); } } public override int Compare (CustomAttributeRow x, CustomAttributeRow y) { return Compare (x.Col1, y.Col1); } } sealed class FieldMarshalTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID (rows [i].Col1, CodedIndex.HasFieldMarshal); buffer.WriteBlob (rows [i].Col2); } } public override int Compare (FieldMarshalRow x, FieldMarshalRow y) { return Compare (x.Col1, y.Col1); } } sealed class DeclSecurityTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); buffer.WriteCodedRID (rows [i].Col2, CodedIndex.HasDeclSecurity); buffer.WriteBlob (rows [i].Col3); } } public override int Compare (DeclSecurityRow x, DeclSecurityRow y) { return Compare (x.Col2, y.Col2); } } sealed class ClassLayoutTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 (rows [i].Col1); // PackingSize buffer.WriteUInt32 (rows [i].Col2); // ClassSize buffer.WriteRID (rows [i].Col3, Table.TypeDef); // Parent } } public override int Compare (ClassLayoutRow x, ClassLayoutRow y) { return Compare (x.Col3, y.Col3); } } sealed class FieldLayoutTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 (rows [i].Col1); // Offset buffer.WriteRID (rows [i].Col2, Table.Field); // Parent } } public override int Compare (FieldLayoutRow x, FieldLayoutRow y) { return Compare (x.Col2, y.Col2); } } sealed class StandAloneSigTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) buffer.WriteBlob (rows [i]); } } sealed class EventMapTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.TypeDef); // Parent buffer.WriteRID (rows [i].Col2, Table.Event); // EventList } } } sealed class EventTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Flags buffer.WriteString (rows [i].Col2); // Name buffer.WriteCodedRID (rows [i].Col3, CodedIndex.TypeDefOrRef); // EventType } } } sealed class PropertyMapTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.TypeDef); // Parent buffer.WriteRID (rows [i].Col2, Table.Property); // PropertyList } } } sealed class PropertyTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Flags buffer.WriteString (rows [i].Col2); // Name buffer.WriteBlob (rows [i].Col3); // Type } } } sealed class MethodSemanticsTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Flags buffer.WriteRID (rows [i].Col2, Table.Method); // Method buffer.WriteCodedRID (rows [i].Col3, CodedIndex.HasSemantics); // Association } } public override int Compare (MethodSemanticsRow x, MethodSemanticsRow y) { return Compare (x.Col3, y.Col3); } } sealed class MethodImplTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.TypeDef); // Class buffer.WriteCodedRID (rows [i].Col2, CodedIndex.MethodDefOrRef); // MethodBody buffer.WriteCodedRID (rows [i].Col3, CodedIndex.MethodDefOrRef); // MethodDeclaration } } } sealed class ModuleRefTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) buffer.WriteString (rows [i]); // Name } } sealed class TypeSpecTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) buffer.WriteBlob (rows [i]); // Signature } } sealed class ImplMapTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Flags buffer.WriteCodedRID (rows [i].Col2, CodedIndex.MemberForwarded); // MemberForwarded buffer.WriteString (rows [i].Col3); // ImportName buffer.WriteRID (rows [i].Col4, Table.ModuleRef); // ImportScope } } public override int Compare (ImplMapRow x, ImplMapRow y) { return Compare (x.Col2, y.Col2); } } sealed class FieldRVATable : SortedTable { internal int position; public override void Write (TableHeapBuffer buffer) { position = buffer.position; for (int i = 0; i < length; i++) { buffer.WriteUInt32 (rows [i].Col1); // RVA buffer.WriteRID (rows [i].Col2, Table.Field); // Field } } public override int Compare (FieldRVARow x, FieldRVARow y) { return Compare (x.Col2, y.Col2); } } sealed class AssemblyTable : OneRowTable { public override void Write (TableHeapBuffer buffer) { buffer.WriteUInt32 ((uint)row.Col1); // AssemblyHashAlgorithm buffer.WriteUInt16 (row.Col2); // MajorVersion buffer.WriteUInt16 (row.Col3); // MinorVersion buffer.WriteUInt16 (row.Col4); // Build buffer.WriteUInt16 (row.Col5); // Revision buffer.WriteUInt32 ((uint)row.Col6); // Flags buffer.WriteBlob (row.Col7); // PublicKey buffer.WriteString (row.Col8); // Name buffer.WriteString (row.Col9); // Culture } } sealed class AssemblyRefTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 (rows [i].Col1); // MajorVersion buffer.WriteUInt16 (rows [i].Col2); // MinorVersion buffer.WriteUInt16 (rows [i].Col3); // Build buffer.WriteUInt16 (rows [i].Col4); // Revision buffer.WriteUInt32 ((uint)rows [i].Col5); // Flags buffer.WriteBlob (rows [i].Col6); // PublicKeyOrToken buffer.WriteString (rows [i].Col7); // Name buffer.WriteString (rows [i].Col8); // Culture buffer.WriteBlob (rows [i].Col9); // Hash } } } sealed class FileTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 ((uint)rows [i].Col1); buffer.WriteString (rows [i].Col2); buffer.WriteBlob (rows [i].Col3); } } } sealed class ExportedTypeTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 ((uint)rows [i].Col1); buffer.WriteUInt32 (rows [i].Col2); buffer.WriteString (rows [i].Col3); buffer.WriteString (rows [i].Col4); buffer.WriteCodedRID (rows [i].Col5, CodedIndex.Implementation); } } } sealed class ManifestResourceTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt32 (rows [i].Col1); buffer.WriteUInt32 ((uint)rows [i].Col2); buffer.WriteString (rows [i].Col3); buffer.WriteCodedRID (rows [i].Col4, CodedIndex.Implementation); } } } sealed class NestedClassTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.TypeDef); // NestedClass buffer.WriteRID (rows [i].Col2, Table.TypeDef); // EnclosingClass } } public override int Compare (NestedClassRow x, NestedClassRow y) { return Compare (x.Col1, y.Col1); } } sealed class GenericParamTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 (rows [i].Col1); // Number buffer.WriteUInt16 ((ushort)rows [i].Col2); // Flags buffer.WriteCodedRID (rows [i].Col3, CodedIndex.TypeOrMethodDef); // Owner buffer.WriteString (rows [i].Col4); // Name } } } sealed class MethodSpecTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID (rows [i].Col1, CodedIndex.MethodDefOrRef); // Method buffer.WriteBlob (rows [i].Col2); // Instantiation } } } sealed class GenericParamConstraintTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.GenericParam); // Owner buffer.WriteCodedRID (rows [i].Col2, CodedIndex.TypeDefOrRef); // Constraint } } } sealed class DocumentTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteBlob (rows [i].Col1); // Name buffer.WriteGuid (rows [i].Col2); // HashAlgorithm buffer.WriteBlob (rows [i].Col3); // Hash buffer.WriteGuid (rows [i].Col4); // Language } } } sealed class MethodDebugInformationTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.Document); // Document buffer.WriteBlob (rows [i].Col2); // SequencePoints } } } sealed class LocalScopeTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.Method); // Method buffer.WriteRID (rows [i].Col2, Table.ImportScope); // ImportScope buffer.WriteRID (rows [i].Col3, Table.LocalVariable); // VariableList buffer.WriteRID (rows [i].Col4, Table.LocalConstant); // ConstantList buffer.WriteUInt32 (rows [i].Col5); // StartOffset buffer.WriteUInt32 (rows [i].Col6); // Length } } } sealed class LocalVariableTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteUInt16 ((ushort)rows [i].Col1); // Attributes buffer.WriteUInt16 (rows [i].Col2); // Index buffer.WriteString (rows [i].Col3); // Name } } } sealed class LocalConstantTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteString (rows [i].Col1); // Name buffer.WriteBlob (rows [i].Col2); // Signature } } } sealed class ImportScopeTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.ImportScope); // Parent buffer.WriteBlob (rows [i].Col2); // Imports } } } sealed class StateMachineMethodTable : MetadataTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteRID (rows [i].Col1, Table.Method); // MoveNextMethod buffer.WriteRID (rows [i].Col2, Table.Method); // KickoffMethod } } } sealed class CustomDebugInformationTable : SortedTable { public override void Write (TableHeapBuffer buffer) { for (int i = 0; i < length; i++) { buffer.WriteCodedRID (rows [i].Col1, CodedIndex.HasCustomDebugInformation); // Parent buffer.WriteGuid (rows [i].Col2); // Kind buffer.WriteBlob (rows [i].Col3); // Value } } public override int Compare (CustomDebugInformationRow x, CustomDebugInformationRow y) { return Compare (x.Col1, y.Col1); } } sealed class MetadataBuilder { readonly internal ModuleDefinition module; readonly internal ISymbolWriterProvider symbol_writer_provider; internal ISymbolWriter symbol_writer; readonly internal TextMap text_map; readonly internal string fq_name; readonly internal uint timestamp; readonly Dictionary type_ref_map; readonly Dictionary type_spec_map; readonly Dictionary member_ref_map; readonly Dictionary method_spec_map; readonly Collection generic_parameters; readonly internal CodeWriter code; readonly internal DataBuffer data; readonly internal ResourceBuffer resources; readonly internal StringHeapBuffer string_heap; readonly internal GuidHeapBuffer guid_heap; readonly internal UserStringHeapBuffer user_string_heap; readonly internal BlobHeapBuffer blob_heap; readonly internal TableHeapBuffer table_heap; readonly internal PdbHeapBuffer pdb_heap; internal MetadataToken entry_point; internal RID type_rid = 1; internal RID field_rid = 1; internal RID method_rid = 1; internal RID param_rid = 1; internal RID property_rid = 1; internal RID event_rid = 1; internal RID local_variable_rid = 1; internal RID local_constant_rid = 1; readonly TypeRefTable type_ref_table; readonly TypeDefTable type_def_table; readonly FieldTable field_table; readonly MethodTable method_table; readonly ParamTable param_table; readonly InterfaceImplTable iface_impl_table; readonly MemberRefTable member_ref_table; readonly ConstantTable constant_table; readonly CustomAttributeTable custom_attribute_table; readonly DeclSecurityTable declsec_table; readonly StandAloneSigTable standalone_sig_table; readonly EventMapTable event_map_table; readonly EventTable event_table; readonly PropertyMapTable property_map_table; readonly PropertyTable property_table; readonly TypeSpecTable typespec_table; readonly MethodSpecTable method_spec_table; internal MetadataBuilder metadata_builder; readonly DocumentTable document_table; readonly MethodDebugInformationTable method_debug_information_table; readonly LocalScopeTable local_scope_table; readonly LocalVariableTable local_variable_table; readonly LocalConstantTable local_constant_table; readonly ImportScopeTable import_scope_table; readonly StateMachineMethodTable state_machine_method_table; readonly CustomDebugInformationTable custom_debug_information_table; readonly Dictionary import_scope_map; readonly Dictionary document_map; public MetadataBuilder (ModuleDefinition module, string fq_name, uint timestamp, ISymbolWriterProvider symbol_writer_provider) { this.module = module; this.text_map = CreateTextMap (); this.fq_name = fq_name; this.timestamp = timestamp; this.symbol_writer_provider = symbol_writer_provider; this.code = new CodeWriter (this); this.data = new DataBuffer (); this.resources = new ResourceBuffer (); this.string_heap = new StringHeapBuffer (); this.guid_heap = new GuidHeapBuffer (); this.user_string_heap = new UserStringHeapBuffer (); this.blob_heap = new BlobHeapBuffer (); this.table_heap = new TableHeapBuffer (module, this); this.type_ref_table = GetTable (Table.TypeRef); this.type_def_table = GetTable (Table.TypeDef); this.field_table = GetTable (Table.Field); this.method_table = GetTable (Table.Method); this.param_table = GetTable (Table.Param); this.iface_impl_table = GetTable (Table.InterfaceImpl); this.member_ref_table = GetTable (Table.MemberRef); this.constant_table = GetTable (Table.Constant); this.custom_attribute_table = GetTable (Table.CustomAttribute); this.declsec_table = GetTable (Table.DeclSecurity); this.standalone_sig_table = GetTable (Table.StandAloneSig); this.event_map_table = GetTable (Table.EventMap); this.event_table = GetTable (Table.Event); this.property_map_table = GetTable (Table.PropertyMap); this.property_table = GetTable (Table.Property); this.typespec_table = GetTable (Table.TypeSpec); this.method_spec_table = GetTable (Table.MethodSpec); var row_equality_comparer = new RowEqualityComparer (); type_ref_map = new Dictionary (row_equality_comparer); type_spec_map = new Dictionary (); member_ref_map = new Dictionary (row_equality_comparer); method_spec_map = new Dictionary (row_equality_comparer); generic_parameters = new Collection (); this.document_table = GetTable (Table.Document); this.method_debug_information_table = GetTable (Table.MethodDebugInformation); this.local_scope_table = GetTable (Table.LocalScope); this.local_variable_table = GetTable (Table.LocalVariable); this.local_constant_table = GetTable (Table.LocalConstant); this.import_scope_table = GetTable (Table.ImportScope); this.state_machine_method_table = GetTable (Table.StateMachineMethod); this.custom_debug_information_table = GetTable (Table.CustomDebugInformation); this.document_map = new Dictionary (StringComparer.Ordinal); this.import_scope_map = new Dictionary (row_equality_comparer); } public MetadataBuilder (ModuleDefinition module, PortablePdbWriterProvider writer_provider) { this.module = module; this.text_map = new TextMap (); this.symbol_writer_provider = writer_provider; this.string_heap = new StringHeapBuffer (); this.guid_heap = new GuidHeapBuffer (); this.user_string_heap = new UserStringHeapBuffer (); this.blob_heap = new BlobHeapBuffer (); this.table_heap = new TableHeapBuffer (module, this); this.pdb_heap = new PdbHeapBuffer (); this.document_table = GetTable (Table.Document); this.method_debug_information_table = GetTable (Table.MethodDebugInformation); this.local_scope_table = GetTable (Table.LocalScope); this.local_variable_table = GetTable (Table.LocalVariable); this.local_constant_table = GetTable (Table.LocalConstant); this.import_scope_table = GetTable (Table.ImportScope); this.state_machine_method_table = GetTable (Table.StateMachineMethod); this.custom_debug_information_table = GetTable (Table.CustomDebugInformation); var row_equality_comparer = new RowEqualityComparer (); this.document_map = new Dictionary (); this.import_scope_map = new Dictionary (row_equality_comparer); } public void SetSymbolWriter (ISymbolWriter writer) { symbol_writer = writer; if (symbol_writer == null && module.HasImage && module.Image.HasDebugTables ()) symbol_writer = new PortablePdbWriter (this, module); } TextMap CreateTextMap () { var map = new TextMap (); map.AddMap (TextSegment.ImportAddressTable, module.Architecture == TargetArchitecture.I386 ? 8 : 0); map.AddMap (TextSegment.CLIHeader, 0x48, 8); return map; } TTable GetTable (Table table) where TTable : MetadataTable, new() { return table_heap.GetTable (table); } uint GetStringIndex (string @string) { if (string.IsNullOrEmpty (@string)) return 0; return string_heap.GetStringIndex (@string); } uint GetGuidIndex (Guid guid) { return guid_heap.GetGuidIndex (guid); } uint GetBlobIndex (ByteBuffer blob) { if (blob.length == 0) return 0; return blob_heap.GetBlobIndex (blob); } uint GetBlobIndex (byte [] blob) { if (blob.IsNullOrEmpty ()) return 0; return GetBlobIndex (new ByteBuffer (blob)); } public void BuildMetadata () { BuildModule (); table_heap.string_offsets = string_heap.WriteStrings (); table_heap.ComputeTableInformations (); table_heap.WriteTableHeap (); } void BuildModule () { var table = GetTable (Table.Module); table.row.Col1 = GetStringIndex (module.Name); table.row.Col2 = GetGuidIndex (module.Mvid); var assembly = module.Assembly; if (module.kind != ModuleKind.NetModule && assembly != null) BuildAssembly (); if (module.HasAssemblyReferences) AddAssemblyReferences (); if (module.HasModuleReferences) AddModuleReferences (); if (module.HasResources) AddResources (); if (module.HasExportedTypes) AddExportedTypes (); BuildTypes (); if (module.kind != ModuleKind.NetModule && assembly != null) { if (assembly.HasCustomAttributes) AddCustomAttributes (assembly); if (assembly.HasSecurityDeclarations) AddSecurityDeclarations (assembly); } if (module.HasCustomAttributes) AddCustomAttributes (module); if (module.EntryPoint != null) entry_point = LookupToken (module.EntryPoint); } void BuildAssembly () { var assembly = module.Assembly; var name = assembly.Name; var table = GetTable (Table.Assembly); table.row = new AssemblyRow ( name.HashAlgorithm, (ushort)name.Version.Major, (ushort)name.Version.Minor, (ushort)name.Version.Build, (ushort)name.Version.Revision, name.Attributes, GetBlobIndex (name.PublicKey), GetStringIndex (name.Name), GetStringIndex (name.Culture)); if (assembly.Modules.Count > 1) BuildModules (); } void BuildModules () { var modules = this.module.Assembly.Modules; var table = GetTable (Table.File); for (int i = 0; i < modules.Count; i++) { var module = modules [i]; if (module.IsMain) continue; #if NET_CORE throw new NotSupportedException (); #else var parameters = new WriterParameters { SymbolWriterProvider = symbol_writer_provider, }; var file_name = GetModuleFileName (module.Name); module.Write (file_name, parameters); var hash = CryptoService.ComputeHash (file_name); table.AddRow (new FileRow ( FileAttributes.ContainsMetaData, GetStringIndex (module.Name), GetBlobIndex (hash))); #endif } } #if !NET_CORE string GetModuleFileName (string name) { if (string.IsNullOrEmpty (name)) throw new NotSupportedException (); var path = Path.GetDirectoryName (fq_name); return Path.Combine (path, name); } #endif void AddAssemblyReferences () { var references = module.AssemblyReferences; var table = GetTable (Table.AssemblyRef); if (module.IsWindowsMetadata ()) module.Projections.RemoveVirtualReferences (references); for (int i = 0; i < references.Count; i++) { var reference = references [i]; var key_or_token = reference.PublicKey.IsNullOrEmpty () ? reference.PublicKeyToken : reference.PublicKey; var version = reference.Version; var rid = table.AddRow (new AssemblyRefRow ( (ushort)version.Major, (ushort)version.Minor, (ushort)version.Build, (ushort)version.Revision, reference.Attributes, GetBlobIndex (key_or_token), GetStringIndex (reference.Name), GetStringIndex (reference.Culture), GetBlobIndex (reference.Hash))); reference.token = new MetadataToken (TokenType.AssemblyRef, rid); } if (module.IsWindowsMetadata ()) module.Projections.AddVirtualReferences (references); } void AddModuleReferences () { var references = module.ModuleReferences; var table = GetTable (Table.ModuleRef); for (int i = 0; i < references.Count; i++) { var reference = references [i]; reference.token = new MetadataToken ( TokenType.ModuleRef, table.AddRow (GetStringIndex (reference.Name))); } } void AddResources () { var resources = module.Resources; var table = GetTable (Table.ManifestResource); for (int i = 0; i < resources.Count; i++) { var resource = resources [i]; var row = new ManifestResourceRow ( 0, resource.Attributes, GetStringIndex (resource.Name), 0); switch (resource.ResourceType) { case ResourceType.Embedded: row.Col1 = AddEmbeddedResource ((EmbeddedResource)resource); break; case ResourceType.Linked: row.Col4 = CodedIndex.Implementation.CompressMetadataToken ( new MetadataToken ( TokenType.File, AddLinkedResource ((LinkedResource)resource))); break; case ResourceType.AssemblyLinked: row.Col4 = CodedIndex.Implementation.CompressMetadataToken ( ((AssemblyLinkedResource)resource).Assembly.MetadataToken); break; default: throw new NotSupportedException (); } table.AddRow (row); } } uint AddLinkedResource (LinkedResource resource) { var table = GetTable (Table.File); var hash = resource.Hash; if (hash.IsNullOrEmpty ()) hash = CryptoService.ComputeHash (resource.File); return (uint)table.AddRow (new FileRow ( FileAttributes.ContainsNoMetaData, GetStringIndex (resource.File), GetBlobIndex (hash))); } uint AddEmbeddedResource (EmbeddedResource resource) { return resources.AddResource (resource.GetResourceData ()); } void AddExportedTypes () { var exported_types = module.ExportedTypes; var table = GetTable (Table.ExportedType); for (int i = 0; i < exported_types.Count; i++) { var exported_type = exported_types [i]; var rid = table.AddRow (new ExportedTypeRow ( exported_type.Attributes, (uint)exported_type.Identifier, GetStringIndex (exported_type.Name), GetStringIndex (exported_type.Namespace), MakeCodedRID (GetExportedTypeScope (exported_type), CodedIndex.Implementation))); exported_type.token = new MetadataToken (TokenType.ExportedType, rid); } } MetadataToken GetExportedTypeScope (ExportedType exported_type) { if (exported_type.DeclaringType != null) return exported_type.DeclaringType.MetadataToken; var scope = exported_type.Scope; switch (scope.MetadataToken.TokenType) { case TokenType.AssemblyRef: return scope.MetadataToken; case TokenType.ModuleRef: var file_table = GetTable (Table.File); for (int i = 0; i < file_table.length; i++) if (file_table.rows [i].Col2 == GetStringIndex (scope.Name)) return new MetadataToken (TokenType.File, i + 1); break; } throw new NotSupportedException (); } void BuildTypes () { if (!module.HasTypes) return; AttachTokens (); AddTypes (); AddGenericParameters (); } void AttachTokens () { var types = module.Types; for (int i = 0; i < types.Count; i++) AttachTypeToken (types [i]); } void AttachTypeToken (TypeDefinition type) { var treatment = WindowsRuntimeProjections.RemoveProjection (type); type.token = new MetadataToken (TokenType.TypeDef, type_rid++); type.fields_range.Start = field_rid; type.methods_range.Start = method_rid; if (type.HasFields) AttachFieldsToken (type); if (type.HasMethods) AttachMethodsToken (type); if (type.HasNestedTypes) AttachNestedTypesToken (type); WindowsRuntimeProjections.ApplyProjection (type, treatment); } void AttachNestedTypesToken (TypeDefinition type) { var nested_types = type.NestedTypes; for (int i = 0; i < nested_types.Count; i++) AttachTypeToken (nested_types [i]); } void AttachFieldsToken (TypeDefinition type) { var fields = type.Fields; type.fields_range.Length = (uint)fields.Count; for (int i = 0; i < fields.Count; i++) fields [i].token = new MetadataToken (TokenType.Field, field_rid++); } void AttachMethodsToken (TypeDefinition type) { var methods = type.Methods; type.methods_range.Length = (uint)methods.Count; for (int i = 0; i < methods.Count; i++) methods [i].token = new MetadataToken (TokenType.Method, method_rid++); } MetadataToken GetTypeToken (TypeReference type) { if (type == null) return MetadataToken.Zero; if (type.IsDefinition) return type.token; if (type.IsTypeSpecification ()) return GetTypeSpecToken (type); return GetTypeRefToken (type); } MetadataToken GetTypeSpecToken (TypeReference type) { var row = GetBlobIndex (GetTypeSpecSignature (type)); MetadataToken token; if (type_spec_map.TryGetValue (row, out token)) return token; return AddTypeSpecification (type, row); } MetadataToken AddTypeSpecification (TypeReference type, uint row) { type.token = new MetadataToken (TokenType.TypeSpec, typespec_table.AddRow (row)); var token = type.token; type_spec_map.Add (row, token); return token; } MetadataToken GetTypeRefToken (TypeReference type) { var projection = WindowsRuntimeProjections.RemoveProjection (type); var row = CreateTypeRefRow (type); MetadataToken token; if (!type_ref_map.TryGetValue (row, out token)) token = AddTypeReference (type, row); WindowsRuntimeProjections.ApplyProjection (type, projection); return token; } TypeRefRow CreateTypeRefRow (TypeReference type) { var scope_token = GetScopeToken (type); return new TypeRefRow ( MakeCodedRID (scope_token, CodedIndex.ResolutionScope), GetStringIndex (type.Name), GetStringIndex (type.Namespace)); } MetadataToken GetScopeToken (TypeReference type) { if (type.IsNested) return GetTypeRefToken (type.DeclaringType); var scope = type.Scope; if (scope == null) return MetadataToken.Zero; return scope.MetadataToken; } static CodedRID MakeCodedRID (IMetadataTokenProvider provider, CodedIndex index) { return MakeCodedRID (provider.MetadataToken, index); } static CodedRID MakeCodedRID (MetadataToken token, CodedIndex index) { return index.CompressMetadataToken (token); } MetadataToken AddTypeReference (TypeReference type, TypeRefRow row) { type.token = new MetadataToken (TokenType.TypeRef, type_ref_table.AddRow (row)); var token = type.token; type_ref_map.Add (row, token); return token; } void AddTypes () { var types = module.Types; for (int i = 0; i < types.Count; i++) AddType (types [i]); } void AddType (TypeDefinition type) { var treatment = WindowsRuntimeProjections.RemoveProjection (type); type_def_table.AddRow (new TypeDefRow ( type.Attributes, GetStringIndex (type.Name), GetStringIndex (type.Namespace), MakeCodedRID (GetTypeToken (type.BaseType), CodedIndex.TypeDefOrRef), type.fields_range.Start, type.methods_range.Start)); if (type.HasGenericParameters) AddGenericParameters (type); if (type.HasInterfaces) AddInterfaces (type); if (type.HasLayoutInfo) AddLayoutInfo (type); if (type.HasFields) AddFields (type); if (type.HasMethods) AddMethods (type); if (type.HasProperties) AddProperties (type); if (type.HasEvents) AddEvents (type); if (type.HasCustomAttributes) AddCustomAttributes (type); if (type.HasSecurityDeclarations) AddSecurityDeclarations (type); if (type.HasNestedTypes) AddNestedTypes (type); WindowsRuntimeProjections.ApplyProjection (type, treatment); } void AddGenericParameters (IGenericParameterProvider owner) { var parameters = owner.GenericParameters; for (int i = 0; i < parameters.Count; i++) generic_parameters.Add (parameters [i]); } sealed class GenericParameterComparer : IComparer { public int Compare (GenericParameter a, GenericParameter b) { var a_owner = MakeCodedRID (a.Owner, CodedIndex.TypeOrMethodDef); var b_owner = MakeCodedRID (b.Owner, CodedIndex.TypeOrMethodDef); if (a_owner == b_owner) { var a_pos = a.Position; var b_pos = b.Position; return a_pos == b_pos ? 0 : a_pos > b_pos ? 1 : -1; } return a_owner > b_owner ? 1 : -1; } } void AddGenericParameters () { var items = this.generic_parameters.items; var size = this.generic_parameters.size; Array.Sort (items, 0, size, new GenericParameterComparer ()); var generic_param_table = GetTable (Table.GenericParam); var generic_param_constraint_table = GetTable (Table.GenericParamConstraint); for (int i = 0; i < size; i++) { var generic_parameter = items [i]; var rid = generic_param_table.AddRow (new GenericParamRow ( (ushort)generic_parameter.Position, generic_parameter.Attributes, MakeCodedRID (generic_parameter.Owner, CodedIndex.TypeOrMethodDef), GetStringIndex (generic_parameter.Name))); generic_parameter.token = new MetadataToken (TokenType.GenericParam, rid); if (generic_parameter.HasConstraints) AddConstraints (generic_parameter, generic_param_constraint_table); if (generic_parameter.HasCustomAttributes) AddCustomAttributes (generic_parameter); } } void AddConstraints (GenericParameter generic_parameter, GenericParamConstraintTable table) { var constraints = generic_parameter.Constraints; var gp_rid = generic_parameter.token.RID; for (int i = 0; i < constraints.Count; i++) { var constraint = constraints [i]; var rid = table.AddRow (new GenericParamConstraintRow ( gp_rid, MakeCodedRID (GetTypeToken (constraint.ConstraintType), CodedIndex.TypeDefOrRef))); constraint.token = new MetadataToken (TokenType.GenericParamConstraint, rid); if (constraint.HasCustomAttributes) AddCustomAttributes (constraint); } } void AddInterfaces (TypeDefinition type) { var interfaces = type.Interfaces; var type_rid = type.token.RID; for (int i = 0; i < interfaces.Count; i++) { var iface_impl = interfaces [i]; var rid = iface_impl_table.AddRow (new InterfaceImplRow ( type_rid, MakeCodedRID (GetTypeToken (iface_impl.InterfaceType), CodedIndex.TypeDefOrRef))); iface_impl.token = new MetadataToken (TokenType.InterfaceImpl, rid); if (iface_impl.HasCustomAttributes) AddCustomAttributes (iface_impl); } } void AddLayoutInfo (TypeDefinition type) { var table = GetTable (Table.ClassLayout); table.AddRow (new ClassLayoutRow ( (ushort)type.PackingSize, (uint)type.ClassSize, type.token.RID)); } void AddNestedTypes (TypeDefinition type) { var nested_types = type.NestedTypes; var nested_table = GetTable (Table.NestedClass); for (int i = 0; i < nested_types.Count; i++) { var nested = nested_types [i]; AddType (nested); nested_table.AddRow (new NestedClassRow (nested.token.RID, type.token.RID)); } } void AddFields (TypeDefinition type) { var fields = type.Fields; for (int i = 0; i < fields.Count; i++) AddField (fields [i]); } void AddField (FieldDefinition field) { var projection = WindowsRuntimeProjections.RemoveProjection (field); field_table.AddRow (new FieldRow ( field.Attributes, GetStringIndex (field.Name), GetBlobIndex (GetFieldSignature (field)))); if (!field.InitialValue.IsNullOrEmpty ()) AddFieldRVA (field); if (field.HasLayoutInfo) AddFieldLayout (field); if (field.HasCustomAttributes) AddCustomAttributes (field); if (field.HasConstant) AddConstant (field, field.FieldType); if (field.HasMarshalInfo) AddMarshalInfo (field); WindowsRuntimeProjections.ApplyProjection (field, projection); } void AddFieldRVA (FieldDefinition field) { var table = GetTable (Table.FieldRVA); table.AddRow (new FieldRVARow ( data.AddData (field.InitialValue), field.token.RID)); } void AddFieldLayout (FieldDefinition field) { var table = GetTable (Table.FieldLayout); table.AddRow (new FieldLayoutRow ((uint)field.Offset, field.token.RID)); } void AddMethods (TypeDefinition type) { var methods = type.Methods; for (int i = 0; i < methods.Count; i++) AddMethod (methods [i]); } void AddMethod (MethodDefinition method) { var projection = WindowsRuntimeProjections.RemoveProjection (method); method_table.AddRow (new MethodRow ( method.HasBody ? code.WriteMethodBody (method) : 0, method.ImplAttributes, method.Attributes, GetStringIndex (method.Name), GetBlobIndex (GetMethodSignature (method)), param_rid)); AddParameters (method); if (method.HasGenericParameters) AddGenericParameters (method); if (method.IsPInvokeImpl) AddPInvokeInfo (method); if (method.HasCustomAttributes) AddCustomAttributes (method); if (method.HasSecurityDeclarations) AddSecurityDeclarations (method); if (method.HasOverrides) AddOverrides (method); WindowsRuntimeProjections.ApplyProjection (method, projection); } void AddParameters (MethodDefinition method) { var return_parameter = method.MethodReturnType.parameter; if (return_parameter != null && RequiresParameterRow (return_parameter)) AddParameter (0, return_parameter, param_table); if (!method.HasParameters) return; var parameters = method.Parameters; for (int i = 0; i < parameters.Count; i++) { var parameter = parameters [i]; if (!RequiresParameterRow (parameter)) continue; AddParameter ((ushort)(i + 1), parameter, param_table); } } void AddPInvokeInfo (MethodDefinition method) { var pinvoke = method.PInvokeInfo; if (pinvoke == null) return; var table = GetTable (Table.ImplMap); table.AddRow (new ImplMapRow ( pinvoke.Attributes, MakeCodedRID (method, CodedIndex.MemberForwarded), GetStringIndex (pinvoke.EntryPoint), pinvoke.Module.MetadataToken.RID)); } void AddOverrides (MethodDefinition method) { var overrides = method.Overrides; var table = GetTable (Table.MethodImpl); for (int i = 0; i < overrides.Count; i++) { table.AddRow (new MethodImplRow ( method.DeclaringType.token.RID, MakeCodedRID (method, CodedIndex.MethodDefOrRef), MakeCodedRID (LookupToken (overrides [i]), CodedIndex.MethodDefOrRef))); } } static bool RequiresParameterRow (ParameterDefinition parameter) { return !string.IsNullOrEmpty (parameter.Name) || parameter.Attributes != ParameterAttributes.None || parameter.HasMarshalInfo || parameter.HasConstant || parameter.HasCustomAttributes; } void AddParameter (ushort sequence, ParameterDefinition parameter, ParamTable table) { table.AddRow (new ParamRow ( parameter.Attributes, sequence, GetStringIndex (parameter.Name))); parameter.token = new MetadataToken (TokenType.Param, param_rid++); if (parameter.HasCustomAttributes) AddCustomAttributes (parameter); if (parameter.HasConstant) AddConstant (parameter, parameter.ParameterType); if (parameter.HasMarshalInfo) AddMarshalInfo (parameter); } void AddMarshalInfo (IMarshalInfoProvider owner) { var table = GetTable (Table.FieldMarshal); table.AddRow (new FieldMarshalRow ( MakeCodedRID (owner, CodedIndex.HasFieldMarshal), GetBlobIndex (GetMarshalInfoSignature (owner)))); } void AddProperties (TypeDefinition type) { var properties = type.Properties; property_map_table.AddRow (new PropertyMapRow (type.token.RID, property_rid)); for (int i = 0; i < properties.Count; i++) AddProperty (properties [i]); } void AddProperty (PropertyDefinition property) { property_table.AddRow (new PropertyRow ( property.Attributes, GetStringIndex (property.Name), GetBlobIndex (GetPropertySignature (property)))); property.token = new MetadataToken (TokenType.Property, property_rid++); var method = property.GetMethod; if (method != null) AddSemantic (MethodSemanticsAttributes.Getter, property, method); method = property.SetMethod; if (method != null) AddSemantic (MethodSemanticsAttributes.Setter, property, method); if (property.HasOtherMethods) AddOtherSemantic (property, property.OtherMethods); if (property.HasCustomAttributes) AddCustomAttributes (property); if (property.HasConstant) AddConstant (property, property.PropertyType); } void AddOtherSemantic (IMetadataTokenProvider owner, Collection others) { for (int i = 0; i < others.Count; i++) AddSemantic (MethodSemanticsAttributes.Other, owner, others [i]); } void AddEvents (TypeDefinition type) { var events = type.Events; event_map_table.AddRow (new EventMapRow (type.token.RID, event_rid)); for (int i = 0; i < events.Count; i++) AddEvent (events [i]); } void AddEvent (EventDefinition @event) { event_table.AddRow (new EventRow ( @event.Attributes, GetStringIndex (@event.Name), MakeCodedRID (GetTypeToken (@event.EventType), CodedIndex.TypeDefOrRef))); @event.token = new MetadataToken (TokenType.Event, event_rid++); var method = @event.AddMethod; if (method != null) AddSemantic (MethodSemanticsAttributes.AddOn, @event, method); method = @event.InvokeMethod; if (method != null) AddSemantic (MethodSemanticsAttributes.Fire, @event, method); method = @event.RemoveMethod; if (method != null) AddSemantic (MethodSemanticsAttributes.RemoveOn, @event, method); if (@event.HasOtherMethods) AddOtherSemantic (@event, @event.OtherMethods); if (@event.HasCustomAttributes) AddCustomAttributes (@event); } void AddSemantic (MethodSemanticsAttributes semantics, IMetadataTokenProvider provider, MethodDefinition method) { method.SemanticsAttributes = semantics; var table = GetTable (Table.MethodSemantics); table.AddRow (new MethodSemanticsRow ( semantics, method.token.RID, MakeCodedRID (provider, CodedIndex.HasSemantics))); } void AddConstant (IConstantProvider owner, TypeReference type) { var constant = owner.Constant; var etype = GetConstantType (type, constant); constant_table.AddRow (new ConstantRow ( etype, MakeCodedRID (owner.MetadataToken, CodedIndex.HasConstant), GetBlobIndex (GetConstantSignature (etype, constant)))); } static ElementType GetConstantType (TypeReference constant_type, object constant) { if (constant == null) return ElementType.Class; var etype = constant_type.etype; switch (etype) { case ElementType.None: var type = constant_type.CheckedResolve (); if (type.IsEnum) return GetConstantType (type.GetEnumUnderlyingType (), constant); return ElementType.Class; case ElementType.String: return ElementType.String; case ElementType.Object: return GetConstantType (constant.GetType ()); case ElementType.Array: case ElementType.SzArray: case ElementType.MVar: case ElementType.Var: return ElementType.Class; case ElementType.GenericInst: var generic_instance = (GenericInstanceType)constant_type; if (generic_instance.ElementType.IsTypeOf ("System", "Nullable`1")) return GetConstantType (generic_instance.GenericArguments [0], constant); return GetConstantType (((TypeSpecification)constant_type).ElementType, constant); case ElementType.CModOpt: case ElementType.CModReqD: case ElementType.ByRef: case ElementType.Sentinel: return GetConstantType (((TypeSpecification)constant_type).ElementType, constant); case ElementType.Boolean: case ElementType.Char: case ElementType.I: case ElementType.I1: case ElementType.I2: case ElementType.I4: case ElementType.I8: case ElementType.U: case ElementType.U1: case ElementType.U2: case ElementType.U4: case ElementType.U8: case ElementType.R4: case ElementType.R8: return GetConstantType (constant.GetType ()); default: return etype; } } static ElementType GetConstantType (Type type) { switch (Type.GetTypeCode (type)) { case TypeCode.Boolean: return ElementType.Boolean; case TypeCode.Byte: return ElementType.U1; case TypeCode.SByte: return ElementType.I1; case TypeCode.Char: return ElementType.Char; case TypeCode.Int16: return ElementType.I2; case TypeCode.UInt16: return ElementType.U2; case TypeCode.Int32: return ElementType.I4; case TypeCode.UInt32: return ElementType.U4; case TypeCode.Int64: return ElementType.I8; case TypeCode.UInt64: return ElementType.U8; case TypeCode.Single: return ElementType.R4; case TypeCode.Double: return ElementType.R8; case TypeCode.String: return ElementType.String; default: throw new NotSupportedException (type.FullName); } } void AddCustomAttributes (ICustomAttributeProvider owner) { var custom_attributes = owner.CustomAttributes; for (int i = 0; i < custom_attributes.Count; i++) { var attribute = custom_attributes [i]; var projection = WindowsRuntimeProjections.RemoveProjection (attribute); custom_attribute_table.AddRow (new CustomAttributeRow ( MakeCodedRID (owner, CodedIndex.HasCustomAttribute), MakeCodedRID (LookupToken (attribute.Constructor), CodedIndex.CustomAttributeType), GetBlobIndex (GetCustomAttributeSignature (attribute)))); WindowsRuntimeProjections.ApplyProjection (attribute, projection); } } void AddSecurityDeclarations (ISecurityDeclarationProvider owner) { var declarations = owner.SecurityDeclarations; for (int i = 0; i < declarations.Count; i++) { var declaration = declarations [i]; declsec_table.AddRow (new DeclSecurityRow ( declaration.Action, MakeCodedRID (owner, CodedIndex.HasDeclSecurity), GetBlobIndex (GetSecurityDeclarationSignature (declaration)))); } } MetadataToken GetMemberRefToken (MemberReference member) { var row = CreateMemberRefRow (member); MetadataToken token; if (!member_ref_map.TryGetValue (row, out token)) token = AddMemberReference (member, row); return token; } MemberRefRow CreateMemberRefRow (MemberReference member) { return new MemberRefRow ( MakeCodedRID (GetTypeToken (member.DeclaringType), CodedIndex.MemberRefParent), GetStringIndex (member.Name), GetBlobIndex (GetMemberRefSignature (member))); } MetadataToken AddMemberReference (MemberReference member, MemberRefRow row) { member.token = new MetadataToken (TokenType.MemberRef, member_ref_table.AddRow (row)); var token = member.token; member_ref_map.Add (row, token); return token; } MetadataToken GetMethodSpecToken (MethodSpecification method_spec) { var row = CreateMethodSpecRow (method_spec); MetadataToken token; if (method_spec_map.TryGetValue (row, out token)) return token; AddMethodSpecification (method_spec, row); return method_spec.token; } void AddMethodSpecification (MethodSpecification method_spec, MethodSpecRow row) { method_spec.token = new MetadataToken (TokenType.MethodSpec, method_spec_table.AddRow (row)); method_spec_map.Add (row, method_spec.token); } MethodSpecRow CreateMethodSpecRow (MethodSpecification method_spec) { return new MethodSpecRow ( MakeCodedRID (LookupToken (method_spec.ElementMethod), CodedIndex.MethodDefOrRef), GetBlobIndex (GetMethodSpecSignature (method_spec))); } SignatureWriter CreateSignatureWriter () { return new SignatureWriter (this); } SignatureWriter GetMethodSpecSignature (MethodSpecification method_spec) { if (!method_spec.IsGenericInstance) throw new NotSupportedException (); var generic_instance = (GenericInstanceMethod)method_spec; var signature = CreateSignatureWriter (); signature.WriteByte (0x0a); signature.WriteGenericInstanceSignature (generic_instance); return signature; } public uint AddStandAloneSignature (uint signature) { return (uint)standalone_sig_table.AddRow (signature); } public uint GetLocalVariableBlobIndex (Collection variables) { return GetBlobIndex (GetVariablesSignature (variables)); } public uint GetCallSiteBlobIndex (CallSite call_site) { return GetBlobIndex (GetMethodSignature (call_site)); } public uint GetConstantTypeBlobIndex (TypeReference constant_type) { return GetBlobIndex (GetConstantTypeSignature (constant_type)); } SignatureWriter GetVariablesSignature (Collection variables) { var signature = CreateSignatureWriter (); signature.WriteByte (0x7); signature.WriteCompressedUInt32 ((uint)variables.Count); for (int i = 0; i < variables.Count; i++) signature.WriteTypeSignature (variables [i].VariableType); return signature; } SignatureWriter GetConstantTypeSignature (TypeReference constant_type) { var signature = CreateSignatureWriter (); signature.WriteByte (0x6); signature.WriteTypeSignature (constant_type); return signature; } SignatureWriter GetFieldSignature (FieldReference field) { var signature = CreateSignatureWriter (); signature.WriteByte (0x6); signature.WriteTypeSignature (field.FieldType); return signature; } SignatureWriter GetMethodSignature (IMethodSignature method) { var signature = CreateSignatureWriter (); signature.WriteMethodSignature (method); return signature; } SignatureWriter GetMemberRefSignature (MemberReference member) { var field = member as FieldReference; if (field != null) return GetFieldSignature (field); var method = member as MethodReference; if (method != null) return GetMethodSignature (method); throw new NotSupportedException (); } SignatureWriter GetPropertySignature (PropertyDefinition property) { var signature = CreateSignatureWriter (); byte calling_convention = 0x8; if (property.HasThis) calling_convention |= 0x20; uint param_count = 0; Collection parameters = null; if (property.HasParameters) { parameters = property.Parameters; param_count = (uint)parameters.Count; } signature.WriteByte (calling_convention); signature.WriteCompressedUInt32 (param_count); signature.WriteTypeSignature (property.PropertyType); if (param_count == 0) return signature; for (int i = 0; i < param_count; i++) signature.WriteTypeSignature (parameters [i].ParameterType); return signature; } SignatureWriter GetTypeSpecSignature (TypeReference type) { var signature = CreateSignatureWriter (); signature.WriteTypeSignature (type); return signature; } SignatureWriter GetConstantSignature (ElementType type, object value) { var signature = CreateSignatureWriter (); switch (type) { case ElementType.Array: case ElementType.SzArray: case ElementType.Class: case ElementType.Object: case ElementType.None: case ElementType.Var: case ElementType.MVar: signature.WriteInt32 (0); break; case ElementType.String: signature.WriteConstantString ((string)value); break; default: signature.WriteConstantPrimitive (value); break; } return signature; } SignatureWriter GetCustomAttributeSignature (CustomAttribute attribute) { var signature = CreateSignatureWriter (); if (!attribute.resolved) { signature.WriteBytes (attribute.GetBlob ()); return signature; } signature.WriteUInt16 (0x0001); signature.WriteCustomAttributeConstructorArguments (attribute); signature.WriteCustomAttributeNamedArguments (attribute); return signature; } SignatureWriter GetSecurityDeclarationSignature (SecurityDeclaration declaration) { var signature = CreateSignatureWriter (); if (!declaration.resolved) signature.WriteBytes (declaration.GetBlob ()); else if (module.Runtime < TargetRuntime.Net_2_0) signature.WriteXmlSecurityDeclaration (declaration); else signature.WriteSecurityDeclaration (declaration); return signature; } SignatureWriter GetMarshalInfoSignature (IMarshalInfoProvider owner) { var signature = CreateSignatureWriter (); signature.WriteMarshalInfo (owner.MarshalInfo); return signature; } static Exception CreateForeignMemberException (MemberReference member) { return new ArgumentException (string.Format ("Member '{0}' is declared in another module and needs to be imported", member)); } public MetadataToken LookupToken (IMetadataTokenProvider provider) { if (provider == null) throw new ArgumentNullException (); if (metadata_builder != null) return metadata_builder.LookupToken (provider); var member = provider as MemberReference; if (member == null || member.Module != module) throw CreateForeignMemberException (member); var token = provider.MetadataToken; switch (token.TokenType) { case TokenType.TypeDef: case TokenType.Method: case TokenType.Field: case TokenType.Event: case TokenType.Property: return token; case TokenType.TypeRef: case TokenType.TypeSpec: case TokenType.GenericParam: return GetTypeToken ((TypeReference)provider); case TokenType.MethodSpec: return GetMethodSpecToken ((MethodSpecification)provider); case TokenType.MemberRef: return GetMemberRefToken (member); default: throw new NotSupportedException (); } } public void AddMethodDebugInformation (MethodDebugInformation method_info) { if (method_info.HasSequencePoints) AddSequencePoints (method_info); if (method_info.Scope != null) AddLocalScope (method_info, method_info.Scope); if (method_info.StateMachineKickOffMethod != null) AddStateMachineMethod (method_info); AddCustomDebugInformations (method_info.Method); } void AddStateMachineMethod (MethodDebugInformation method_info) { state_machine_method_table.AddRow (new StateMachineMethodRow (method_info.Method.MetadataToken.RID, method_info.StateMachineKickOffMethod.MetadataToken.RID)); } void AddLocalScope (MethodDebugInformation method_info, ScopeDebugInformation scope) { var rid = local_scope_table.AddRow (new LocalScopeRow ( method_info.Method.MetadataToken.RID, scope.import != null ? AddImportScope (scope.import) : 0, local_variable_rid, local_constant_rid, (uint)scope.Start.Offset, (uint)((scope.End.IsEndOfMethod ? method_info.code_size : scope.End.Offset) - scope.Start.Offset))); scope.token = new MetadataToken (TokenType.LocalScope, rid); AddCustomDebugInformations (scope); if (scope.HasVariables) AddLocalVariables (scope); if (scope.HasConstants) AddLocalConstants (scope); for (int i = 0; i < scope.Scopes.Count; i++) AddLocalScope (method_info, scope.Scopes [i]); } void AddLocalVariables (ScopeDebugInformation scope) { for (int i = 0; i < scope.Variables.Count; i++) { var variable = scope.Variables [i]; local_variable_table.AddRow (new LocalVariableRow (variable.Attributes, (ushort)variable.Index, GetStringIndex (variable.Name))); variable.token = new MetadataToken (TokenType.LocalVariable, local_variable_rid); local_variable_rid++; AddCustomDebugInformations (variable); } } void AddLocalConstants (ScopeDebugInformation scope) { for (int i = 0; i < scope.Constants.Count; i++) { var constant = scope.Constants [i]; local_constant_table.AddRow (new LocalConstantRow (GetStringIndex (constant.Name), GetBlobIndex (GetConstantSignature (constant)))); constant.token = new MetadataToken (TokenType.LocalConstant, local_constant_rid); local_constant_rid++; } } SignatureWriter GetConstantSignature (ConstantDebugInformation constant) { var type = constant.ConstantType; var signature = CreateSignatureWriter (); signature.WriteTypeSignature (type); if (type.IsTypeOf ("System", "Decimal")) { var bits = decimal.GetBits ((decimal)constant.Value); var low = (uint)bits [0]; var mid = (uint)bits [1]; var high = (uint)bits [2]; var scale = (byte)(bits [3] >> 16); var negative = (bits [3] & 0x80000000) != 0; signature.WriteByte ((byte)(scale | (negative ? 0x80 : 0x00))); signature.WriteUInt32 (low); signature.WriteUInt32 (mid); signature.WriteUInt32 (high); return signature; } if (type.IsTypeOf ("System", "DateTime")) { var date = (DateTime)constant.Value; signature.WriteInt64 (date.Ticks); return signature; } signature.WriteBytes (GetConstantSignature (type.etype, constant.Value)); return signature; } public void AddCustomDebugInformations (ICustomDebugInformationProvider provider) { if (!provider.HasCustomDebugInformations) return; var custom_infos = provider.CustomDebugInformations; for (int i = 0; i < custom_infos.Count; i++) { var custom_info = custom_infos [i]; switch (custom_info.Kind) { case CustomDebugInformationKind.Binary: var binary_info = (BinaryCustomDebugInformation)custom_info; AddCustomDebugInformation (provider, binary_info, GetBlobIndex (binary_info.Data)); break; case CustomDebugInformationKind.AsyncMethodBody: AddAsyncMethodBodyDebugInformation (provider, (AsyncMethodBodyDebugInformation)custom_info); break; case CustomDebugInformationKind.StateMachineScope: AddStateMachineScopeDebugInformation (provider, (StateMachineScopeDebugInformation)custom_info); break; case CustomDebugInformationKind.EmbeddedSource: AddEmbeddedSourceDebugInformation (provider, (EmbeddedSourceDebugInformation)custom_info); break; case CustomDebugInformationKind.SourceLink: AddSourceLinkDebugInformation (provider, (SourceLinkDebugInformation)custom_info); break; default: throw new NotImplementedException (); } } } void AddStateMachineScopeDebugInformation (ICustomDebugInformationProvider provider, StateMachineScopeDebugInformation state_machine_scope) { var method_info = ((MethodDefinition)provider).DebugInformation; var signature = CreateSignatureWriter (); var scopes = state_machine_scope.Scopes; for (int i = 0; i < scopes.Count; i++) { var scope = scopes [i]; signature.WriteUInt32 ((uint)scope.Start.Offset); var end_offset = scope.End.IsEndOfMethod ? method_info.code_size : scope.End.Offset; signature.WriteUInt32 ((uint)(end_offset - scope.Start.Offset)); } AddCustomDebugInformation (provider, state_machine_scope, signature); } void AddAsyncMethodBodyDebugInformation (ICustomDebugInformationProvider provider, AsyncMethodBodyDebugInformation async_method) { var signature = CreateSignatureWriter (); signature.WriteUInt32 ((uint)async_method.catch_handler.Offset + 1); if (!async_method.yields.IsNullOrEmpty ()) { for (int i = 0; i < async_method.yields.Count; i++) { signature.WriteUInt32 ((uint)async_method.yields [i].Offset); signature.WriteUInt32 ((uint)async_method.resumes [i].Offset); signature.WriteCompressedUInt32 (async_method.resume_methods [i].MetadataToken.RID); } } AddCustomDebugInformation (provider, async_method, signature); } void AddEmbeddedSourceDebugInformation (ICustomDebugInformationProvider provider, EmbeddedSourceDebugInformation embedded_source) { var signature = CreateSignatureWriter (); if (!embedded_source.resolved) { signature.WriteBytes (embedded_source.ReadRawEmbeddedSourceDebugInformation ()); AddCustomDebugInformation (provider, embedded_source, signature); return; } var content = embedded_source.content ?? Empty.Array; if (embedded_source.compress) { signature.WriteInt32 (content.Length); var decompressed_stream = new MemoryStream (content); var content_stream = new MemoryStream (); using (var compress_stream = new DeflateStream (content_stream, CompressionMode.Compress, leaveOpen: true)) decompressed_stream.CopyTo (compress_stream); signature.WriteBytes (content_stream.ToArray ()); } else { signature.WriteInt32 (0); signature.WriteBytes (content); } AddCustomDebugInformation (provider, embedded_source, signature); } void AddSourceLinkDebugInformation (ICustomDebugInformationProvider provider, SourceLinkDebugInformation source_link) { var signature = CreateSignatureWriter (); signature.WriteBytes (Encoding.UTF8.GetBytes (source_link.content)); AddCustomDebugInformation (provider, source_link, signature); } void AddCustomDebugInformation (ICustomDebugInformationProvider provider, CustomDebugInformation custom_info, SignatureWriter signature) { AddCustomDebugInformation (provider, custom_info, GetBlobIndex (signature)); } void AddCustomDebugInformation (ICustomDebugInformationProvider provider, CustomDebugInformation custom_info, uint blob_index) { var rid = custom_debug_information_table.AddRow (new CustomDebugInformationRow ( MakeCodedRID (provider.MetadataToken, CodedIndex.HasCustomDebugInformation), GetGuidIndex (custom_info.Identifier), blob_index)); custom_info.token = new MetadataToken (TokenType.CustomDebugInformation, rid); } uint AddImportScope (ImportDebugInformation import) { uint parent = 0; if (import.Parent != null) parent = AddImportScope (import.Parent); uint targets_index = 0; if (import.HasTargets) { var signature = CreateSignatureWriter (); for (int i = 0; i < import.Targets.Count; i++) AddImportTarget (import.Targets [i], signature); targets_index = GetBlobIndex (signature); } var row = new ImportScopeRow (parent, targets_index); MetadataToken import_token; if (import_scope_map.TryGetValue (row, out import_token)) return import_token.RID; import_token = new MetadataToken (TokenType.ImportScope, import_scope_table.AddRow (row)); import_scope_map.Add (row, import_token); return import_token.RID; } void AddImportTarget (ImportTarget target, SignatureWriter signature) { signature.WriteCompressedUInt32 ((uint)target.kind); switch (target.kind) { case ImportTargetKind.ImportNamespace: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.@namespace)); break; case ImportTargetKind.ImportNamespaceInAssembly: signature.WriteCompressedUInt32 (target.reference.MetadataToken.RID); signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.@namespace)); break; case ImportTargetKind.ImportType: signature.WriteTypeToken (target.type); break; case ImportTargetKind.ImportXmlNamespaceWithAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.@namespace)); break; case ImportTargetKind.ImportAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); break; case ImportTargetKind.DefineAssemblyAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); signature.WriteCompressedUInt32 (target.reference.MetadataToken.RID); break; case ImportTargetKind.DefineNamespaceAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.@namespace)); break; case ImportTargetKind.DefineNamespaceInAssemblyAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); signature.WriteCompressedUInt32 (target.reference.MetadataToken.RID); signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.@namespace)); break; case ImportTargetKind.DefineTypeAlias: signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (target.alias)); signature.WriteTypeToken (target.type); break; } } uint GetUTF8StringBlobIndex (string s) { return GetBlobIndex (Encoding.UTF8.GetBytes (s)); } public MetadataToken GetDocumentToken (Document document) { MetadataToken token; if (document_map.TryGetValue (document.Url, out token)) return token; token = new MetadataToken (TokenType.Document, document_table.AddRow ( new DocumentRow (GetBlobIndex (GetDocumentNameSignature (document)), GetGuidIndex (document.HashAlgorithm.ToGuid ()), GetBlobIndex (document.Hash), GetGuidIndex (document.Language.ToGuid ())))); document.token = token; AddCustomDebugInformations (document); document_map.Add (document.Url, token); return token; } SignatureWriter GetDocumentNameSignature (Document document) { var name = document.Url; var signature = CreateSignatureWriter (); char separator; if (!TryGetDocumentNameSeparator (name, out separator)) { signature.WriteByte (0); signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (name)); return signature; } signature.WriteByte ((byte)separator); var parts = name.Split (new [] { separator }); for (int i = 0; i < parts.Length; i++) { if (parts [i] == String.Empty) signature.WriteCompressedUInt32 (0); else signature.WriteCompressedUInt32 (GetUTF8StringBlobIndex (parts [i])); } return signature; } static bool TryGetDocumentNameSeparator (string path, out char separator) { const char unix = '/'; const char win = '\\'; const char zero = (char)0; separator = zero; if (string.IsNullOrEmpty (path)) return false; int unix_count = 0; int win_count = 0; for (int i = 0; i < path.Length; i++) { if (path [i] == unix) unix_count++; else if (path [i] == win) win_count++; } if (unix_count == 0 && win_count == 0) return false; if (unix_count >= win_count) { separator = unix; return true; } separator = win; return true; } void AddSequencePoints (MethodDebugInformation info) { var rid = info.Method.MetadataToken.RID; Document document; if (info.TryGetUniqueDocument (out document)) method_debug_information_table.rows [rid - 1].Col1 = GetDocumentToken (document).RID; var signature = CreateSignatureWriter (); signature.WriteSequencePoints (info); method_debug_information_table.rows [rid - 1].Col2 = GetBlobIndex (signature); } public void ComputeDeterministicMvid () { var guid = CryptoService.ComputeGuid (CryptoService.ComputeHash ( data, resources, string_heap, user_string_heap, blob_heap, table_heap, code)); var position = guid_heap.position; guid_heap.position = 0; guid_heap.WriteBytes (guid.ToByteArray ()); guid_heap.position = position; module.Mvid = guid; } } sealed class SignatureWriter : ByteBuffer { readonly MetadataBuilder metadata; public SignatureWriter (MetadataBuilder metadata) : base (6) { this.metadata = metadata; } public void WriteElementType (ElementType element_type) { WriteByte ((byte)element_type); } public void WriteUTF8String (string @string) { if (@string == null) { WriteByte (0xff); return; } var bytes = Encoding.UTF8.GetBytes (@string); WriteCompressedUInt32 ((uint)bytes.Length); WriteBytes (bytes); } public void WriteMethodSignature (IMethodSignature method) { byte calling_convention = (byte)method.CallingConvention; if (method.HasThis) calling_convention |= 0x20; if (method.ExplicitThis) calling_convention |= 0x40; var generic_provider = method as IGenericParameterProvider; var generic_arity = generic_provider != null && generic_provider.HasGenericParameters ? generic_provider.GenericParameters.Count : 0; if (generic_arity > 0) calling_convention |= 0x10; var param_count = method.HasParameters ? method.Parameters.Count : 0; WriteByte (calling_convention); if (generic_arity > 0) WriteCompressedUInt32 ((uint)generic_arity); WriteCompressedUInt32 ((uint)param_count); WriteTypeSignature (method.ReturnType); if (param_count == 0) return; var parameters = method.Parameters; for (int i = 0; i < param_count; i++) WriteTypeSignature (parameters [i].ParameterType); } uint MakeTypeDefOrRefCodedRID (TypeReference type) { return CodedIndex.TypeDefOrRef.CompressMetadataToken (metadata.LookupToken (type)); } public void WriteTypeToken (TypeReference type) { WriteCompressedUInt32 (MakeTypeDefOrRefCodedRID (type)); } public void WriteTypeSignature (TypeReference type) { if (type == null) throw new ArgumentNullException (); var etype = type.etype; switch (etype) { case ElementType.MVar: case ElementType.Var: { var generic_parameter = (GenericParameter)type; WriteElementType (etype); var position = generic_parameter.Position; if (position == -1) throw new NotSupportedException (); WriteCompressedUInt32 ((uint)position); break; } case ElementType.GenericInst: { var generic_instance = (GenericInstanceType)type; WriteElementType (ElementType.GenericInst); WriteElementType (generic_instance.IsValueType ? ElementType.ValueType : ElementType.Class); WriteCompressedUInt32 (MakeTypeDefOrRefCodedRID (generic_instance.ElementType)); WriteGenericInstanceSignature (generic_instance); break; } case ElementType.Ptr: case ElementType.ByRef: case ElementType.Pinned: case ElementType.Sentinel: { var type_spec = (TypeSpecification)type; WriteElementType (etype); WriteTypeSignature (type_spec.ElementType); break; } case ElementType.FnPtr: { var fptr = (FunctionPointerType)type; WriteElementType (ElementType.FnPtr); WriteMethodSignature (fptr); break; } case ElementType.CModOpt: case ElementType.CModReqD: { var modifier = (IModifierType)type; WriteModifierSignature (etype, modifier); break; } case ElementType.Array: { var array = (ArrayType)type; if (!array.IsVector) { WriteArrayTypeSignature (array); break; } WriteElementType (ElementType.SzArray); WriteTypeSignature (array.ElementType); break; } case ElementType.None: { WriteElementType (type.IsValueType ? ElementType.ValueType : ElementType.Class); WriteCompressedUInt32 (MakeTypeDefOrRefCodedRID (type)); break; } default: if (!TryWriteElementType (type)) throw new NotSupportedException (); break; } } void WriteArrayTypeSignature (ArrayType array) { WriteElementType (ElementType.Array); WriteTypeSignature (array.ElementType); var dimensions = array.Dimensions; var rank = dimensions.Count; WriteCompressedUInt32 ((uint)rank); var sized = 0; var lbounds = 0; for (int i = 0; i < rank; i++) { var dimension = dimensions [i]; if (dimension.UpperBound.HasValue) { sized++; lbounds++; } else if (dimension.LowerBound.HasValue) lbounds++; } var sizes = new int [sized]; var low_bounds = new int [lbounds]; for (int i = 0; i < lbounds; i++) { var dimension = dimensions [i]; low_bounds [i] = dimension.LowerBound.GetValueOrDefault (); if (dimension.UpperBound.HasValue) sizes [i] = dimension.UpperBound.Value - low_bounds [i] + 1; } WriteCompressedUInt32 ((uint)sized); for (int i = 0; i < sized; i++) WriteCompressedUInt32 ((uint)sizes [i]); WriteCompressedUInt32 ((uint)lbounds); for (int i = 0; i < lbounds; i++) WriteCompressedInt32 (low_bounds [i]); } public void WriteGenericInstanceSignature (IGenericInstance instance) { var generic_arguments = instance.GenericArguments; var arity = generic_arguments.Count; WriteCompressedUInt32 ((uint)arity); for (int i = 0; i < arity; i++) WriteTypeSignature (generic_arguments [i]); } void WriteModifierSignature (ElementType element_type, IModifierType type) { WriteElementType (element_type); WriteCompressedUInt32 (MakeTypeDefOrRefCodedRID (type.ModifierType)); WriteTypeSignature (type.ElementType); } bool TryWriteElementType (TypeReference type) { var element = type.etype; if (element == ElementType.None) return false; WriteElementType (element); return true; } public void WriteConstantString (string value) { if (value != null) WriteBytes (Encoding.Unicode.GetBytes (value)); else WriteByte (0xff); } public void WriteConstantPrimitive (object value) { WritePrimitiveValue (value); } public void WriteCustomAttributeConstructorArguments (CustomAttribute attribute) { if (!attribute.HasConstructorArguments) return; var arguments = attribute.ConstructorArguments; var parameters = attribute.Constructor.Parameters; if (parameters.Count != arguments.Count) throw new InvalidOperationException (); for (int i = 0; i < arguments.Count; i++) WriteCustomAttributeFixedArgument (parameters [i].ParameterType, arguments [i]); } void WriteCustomAttributeFixedArgument (TypeReference type, CustomAttributeArgument argument) { if (type.IsArray) { WriteCustomAttributeFixedArrayArgument ((ArrayType)type, argument); return; } WriteCustomAttributeElement (type, argument); } void WriteCustomAttributeFixedArrayArgument (ArrayType type, CustomAttributeArgument argument) { var values = argument.Value as CustomAttributeArgument []; if (values == null) { WriteUInt32 (0xffffffff); return; } WriteInt32 (values.Length); if (values.Length == 0) return; var element_type = type.ElementType; for (int i = 0; i < values.Length; i++) WriteCustomAttributeElement (element_type, values [i]); } void WriteCustomAttributeElement (TypeReference type, CustomAttributeArgument argument) { if (type.IsArray) { WriteCustomAttributeFixedArrayArgument ((ArrayType)type, argument); return; } if (type.etype == ElementType.Object) { argument = (CustomAttributeArgument)argument.Value; type = argument.Type; WriteCustomAttributeFieldOrPropType (type); WriteCustomAttributeElement (type, argument); return; } WriteCustomAttributeValue (type, argument.Value); } void WriteCustomAttributeValue (TypeReference type, object value) { var etype = type.etype; switch (etype) { case ElementType.String: var @string = (string)value; if (@string == null) WriteByte (0xff); else WriteUTF8String (@string); break; case ElementType.None: if (type.IsTypeOf ("System", "Type")) WriteCustomAttributeTypeValue ((TypeReference)value); else WriteCustomAttributeEnumValue (type, value); break; default: WritePrimitiveValue (value); break; } } private void WriteCustomAttributeTypeValue (TypeReference value) { var typeDefinition = value as TypeDefinition; if (typeDefinition != null) { TypeDefinition outermostDeclaringType = typeDefinition; while (outermostDeclaringType.DeclaringType != null) outermostDeclaringType = outermostDeclaringType.DeclaringType; // In CLR .winmd files, custom attribute arguments reference unmangled type names (rather than Name) if (WindowsRuntimeProjections.IsClrImplementationType (outermostDeclaringType)) { WindowsRuntimeProjections.Project (outermostDeclaringType); WriteTypeReference (value); WindowsRuntimeProjections.RemoveProjection (outermostDeclaringType); return; } } WriteTypeReference (value); } void WritePrimitiveValue (object value) { if (value == null) throw new ArgumentNullException (); switch (Type.GetTypeCode (value.GetType ())) { case TypeCode.Boolean: WriteByte ((byte)(((bool)value) ? 1 : 0)); break; case TypeCode.Byte: WriteByte ((byte)value); break; case TypeCode.SByte: WriteSByte ((sbyte)value); break; case TypeCode.Int16: WriteInt16 ((short)value); break; case TypeCode.UInt16: WriteUInt16 ((ushort)value); break; case TypeCode.Char: WriteInt16 ((short)(char)value); break; case TypeCode.Int32: WriteInt32 ((int)value); break; case TypeCode.UInt32: WriteUInt32 ((uint)value); break; case TypeCode.Single: WriteSingle ((float)value); break; case TypeCode.Int64: WriteInt64 ((long)value); break; case TypeCode.UInt64: WriteUInt64 ((ulong)value); break; case TypeCode.Double: WriteDouble ((double)value); break; default: throw new NotSupportedException (value.GetType ().FullName); } } void WriteCustomAttributeEnumValue (TypeReference enum_type, object value) { var type = enum_type.CheckedResolve (); if (!type.IsEnum) throw new ArgumentException (); WriteCustomAttributeValue (type.GetEnumUnderlyingType (), value); } void WriteCustomAttributeFieldOrPropType (TypeReference type) { if (type.IsArray) { var array = (ArrayType)type; WriteElementType (ElementType.SzArray); WriteCustomAttributeFieldOrPropType (array.ElementType); return; } var etype = type.etype; switch (etype) { case ElementType.Object: WriteElementType (ElementType.Boxed); return; case ElementType.None: if (type.IsTypeOf ("System", "Type")) WriteElementType (ElementType.Type); else { WriteElementType (ElementType.Enum); WriteTypeReference (type); } return; default: WriteElementType (etype); return; } } public void WriteCustomAttributeNamedArguments (CustomAttribute attribute) { var count = GetNamedArgumentCount (attribute); WriteUInt16 ((ushort)count); if (count == 0) return; WriteICustomAttributeNamedArguments (attribute); } static int GetNamedArgumentCount (ICustomAttribute attribute) { int count = 0; if (attribute.HasFields) count += attribute.Fields.Count; if (attribute.HasProperties) count += attribute.Properties.Count; return count; } void WriteICustomAttributeNamedArguments (ICustomAttribute attribute) { if (attribute.HasFields) WriteCustomAttributeNamedArguments (0x53, attribute.Fields); if (attribute.HasProperties) WriteCustomAttributeNamedArguments (0x54, attribute.Properties); } void WriteCustomAttributeNamedArguments (byte kind, Collection named_arguments) { for (int i = 0; i < named_arguments.Count; i++) WriteCustomAttributeNamedArgument (kind, named_arguments [i]); } void WriteCustomAttributeNamedArgument (byte kind, CustomAttributeNamedArgument named_argument) { var argument = named_argument.Argument; WriteByte (kind); WriteCustomAttributeFieldOrPropType (argument.Type); WriteUTF8String (named_argument.Name); WriteCustomAttributeFixedArgument (argument.Type, argument); } void WriteSecurityAttribute (SecurityAttribute attribute) { WriteTypeReference (attribute.AttributeType); var count = GetNamedArgumentCount (attribute); if (count == 0) { WriteCompressedUInt32 (1); // length WriteCompressedUInt32 (0); // count return; } var buffer = new SignatureWriter (metadata); buffer.WriteCompressedUInt32 ((uint)count); buffer.WriteICustomAttributeNamedArguments (attribute); WriteCompressedUInt32 ((uint)buffer.length); WriteBytes (buffer); } public void WriteSecurityDeclaration (SecurityDeclaration declaration) { WriteByte ((byte)'.'); var attributes = declaration.security_attributes; if (attributes == null) throw new NotSupportedException (); WriteCompressedUInt32 ((uint)attributes.Count); for (int i = 0; i < attributes.Count; i++) WriteSecurityAttribute (attributes [i]); } public void WriteXmlSecurityDeclaration (SecurityDeclaration declaration) { var xml = GetXmlSecurityDeclaration (declaration); if (xml == null) throw new NotSupportedException (); WriteBytes (Encoding.Unicode.GetBytes (xml)); } static string GetXmlSecurityDeclaration (SecurityDeclaration declaration) { if (declaration.security_attributes == null || declaration.security_attributes.Count != 1) return null; var attribute = declaration.security_attributes [0]; if (!attribute.AttributeType.IsTypeOf ("System.Security.Permissions", "PermissionSetAttribute")) return null; if (attribute.properties == null || attribute.properties.Count != 1) return null; var property = attribute.properties [0]; if (property.Name != "XML") return null; return (string)property.Argument.Value; } void WriteTypeReference (TypeReference type) { WriteUTF8String (TypeParser.ToParseable (type, top_level: false)); } public void WriteMarshalInfo (MarshalInfo marshal_info) { WriteNativeType (marshal_info.native); switch (marshal_info.native) { case NativeType.Array: { var array = (ArrayMarshalInfo)marshal_info; if (array.element_type != NativeType.None) WriteNativeType (array.element_type); if (array.size_parameter_index > -1) WriteCompressedUInt32 ((uint)array.size_parameter_index); if (array.size > -1) WriteCompressedUInt32 ((uint)array.size); if (array.size_parameter_multiplier > -1) WriteCompressedUInt32 ((uint)array.size_parameter_multiplier); return; } case NativeType.SafeArray: { var array = (SafeArrayMarshalInfo)marshal_info; if (array.element_type != VariantType.None) WriteVariantType (array.element_type); return; } case NativeType.FixedArray: { var array = (FixedArrayMarshalInfo)marshal_info; if (array.size > -1) WriteCompressedUInt32 ((uint)array.size); if (array.element_type != NativeType.None) WriteNativeType (array.element_type); return; } case NativeType.FixedSysString: var sys_string = (FixedSysStringMarshalInfo)marshal_info; if (sys_string.size > -1) WriteCompressedUInt32 ((uint)sys_string.size); return; case NativeType.CustomMarshaler: var marshaler = (CustomMarshalInfo)marshal_info; WriteUTF8String (marshaler.guid != Guid.Empty ? marshaler.guid.ToString () : string.Empty); WriteUTF8String (marshaler.unmanaged_type); WriteTypeReference (marshaler.managed_type); WriteUTF8String (marshaler.cookie); return; } } void WriteNativeType (NativeType native) { WriteByte ((byte)native); } void WriteVariantType (VariantType variant) { WriteByte ((byte)variant); } public void WriteSequencePoints (MethodDebugInformation info) { var start_line = -1; var start_column = -1; WriteCompressedUInt32 (info.local_var_token.RID); Document previous_document; if (!info.TryGetUniqueDocument (out previous_document)) previous_document = null; for (int i = 0; i < info.SequencePoints.Count; i++) { var sequence_point = info.SequencePoints [i]; var document = sequence_point.Document; if (previous_document != document) { var document_token = metadata.GetDocumentToken (document); if (previous_document != null) WriteCompressedUInt32 (0); WriteCompressedUInt32 (document_token.RID); previous_document = document; } if (i > 0) WriteCompressedUInt32 ((uint)(sequence_point.Offset - info.SequencePoints [i - 1].Offset)); else WriteCompressedUInt32 ((uint)sequence_point.Offset); if (sequence_point.IsHidden) { WriteInt16 (0); continue; } var delta_lines = sequence_point.EndLine - sequence_point.StartLine; var delta_columns = sequence_point.EndColumn - sequence_point.StartColumn; WriteCompressedUInt32 ((uint)delta_lines); if (delta_lines == 0) WriteCompressedUInt32 ((uint)delta_columns); else WriteCompressedInt32 (delta_columns); if (start_line < 0) { WriteCompressedUInt32 ((uint)sequence_point.StartLine); WriteCompressedUInt32 ((uint)sequence_point.StartColumn); } else { WriteCompressedInt32 (sequence_point.StartLine - start_line); WriteCompressedInt32 (sequence_point.StartColumn - start_column); } start_line = sequence_point.StartLine; start_column = sequence_point.StartColumn; } } } static partial class Mixin { public static bool TryGetUniqueDocument (this MethodDebugInformation info, out Document document) { document = info.SequencePoints [0].Document; for (int i = 1; i < info.SequencePoints.Count; i++) { var sequence_point = info.SequencePoints [i]; if (sequence_point.Document != document) return false; } return true; } } }