using System; using System.Collections.Generic; using System.Collections.Immutable; using System.Linq; using System.Reflection; using SRM = System.Reflection.Metadata; using System.Reflection.Metadata; using System.Reflection.Metadata.Ecma335; using System.Reflection.PortableExecutable; using System.Security.Cryptography; using System.Text; using System.Threading.Tasks; using ICSharpCode.Decompiler.TypeSystem; using ICSharpCode.Decompiler.TypeSystem.Implementation; using ICSharpCode.Decompiler.Util; namespace ICSharpCode.Decompiler.Metadata { public static class MetadataExtensions { static HashAlgorithm GetHashAlgorithm(this MetadataReader reader) { switch (reader.GetAssemblyDefinition().HashAlgorithm) { case AssemblyHashAlgorithm.None: // only for multi-module assemblies? return SHA1.Create(); case AssemblyHashAlgorithm.MD5: return MD5.Create(); case AssemblyHashAlgorithm.Sha1: return SHA1.Create(); case AssemblyHashAlgorithm.Sha256: return SHA256.Create(); case AssemblyHashAlgorithm.Sha384: return SHA384.Create(); case AssemblyHashAlgorithm.Sha512: return SHA512.Create(); default: return SHA1.Create(); // default? } } static string CalculatePublicKeyToken(BlobHandle blob, MetadataReader reader) { // Calculate public key token: // 1. hash the public key using the appropriate algorithm. byte[] publicKeyTokenBytes = reader.GetHashAlgorithm().ComputeHash(reader.GetBlobBytes(blob)); // 2. take the last 8 bytes // 3. according to Cecil we need to reverse them, other sources did not mention this. return publicKeyTokenBytes.TakeLast(8).Reverse().ToHexString(8); } public static string GetFullAssemblyName(this MetadataReader reader) { if (!reader.IsAssembly) return string.Empty; var asm = reader.GetAssemblyDefinition(); string publicKey = "null"; if (!asm.PublicKey.IsNil) { // AssemblyFlags.PublicKey does not apply to assembly definitions publicKey = CalculatePublicKeyToken(asm.PublicKey, reader); } return $"{reader.GetString(asm.Name)}, " + $"Version={asm.Version}, " + $"Culture={(asm.Culture.IsNil ? "neutral" : reader.GetString(asm.Culture))}, " + $"PublicKeyToken={publicKey}"; } public static string GetFullAssemblyName(this SRM.AssemblyReference reference, MetadataReader reader) { string publicKey = "null"; if (!reference.PublicKeyOrToken.IsNil) { if ((reference.Flags & AssemblyFlags.PublicKey) != 0) { publicKey = CalculatePublicKeyToken(reference.PublicKeyOrToken, reader); } else { publicKey = reader.GetBlobBytes(reference.PublicKeyOrToken).ToHexString(8); } } string properties = ""; if ((reference.Flags & AssemblyFlags.Retargetable) != 0) properties = ", Retargetable=true"; return $"{reader.GetString(reference.Name)}, " + $"Version={reference.Version}, " + $"Culture={(reference.Culture.IsNil ? "neutral" : reader.GetString(reference.Culture))}, " + $"PublicKeyToken={publicKey}{properties}"; } static string ToHexString(this IEnumerable bytes, int estimatedLength) { StringBuilder sb = new StringBuilder(estimatedLength * 2); foreach (var b in bytes) sb.AppendFormat("{0:x2}", b); return sb.ToString(); } public static IEnumerable GetTopLevelTypeDefinitions(this MetadataReader reader) { foreach (var handle in reader.TypeDefinitions) { var td = reader.GetTypeDefinition(handle); if (td.GetDeclaringType().IsNil) yield return handle; } } public static string ToILNameString(this FullTypeName typeName) { string name; if (typeName.IsNested) { name = typeName.Name; int localTypeParameterCount = typeName.GetNestedTypeAdditionalTypeParameterCount(typeName.NestingLevel - 1); if (localTypeParameterCount > 0) name += "`" + localTypeParameterCount; name = Disassembler.DisassemblerHelpers.Escape(name); return $"{typeName.GetDeclaringType().ToILNameString()}/{name}"; } if (!string.IsNullOrEmpty(typeName.TopLevelTypeName.Namespace)) { name = $"{typeName.TopLevelTypeName.Namespace}.{typeName.Name}"; if (typeName.TypeParameterCount > 0) name += "`" + typeName.TypeParameterCount; } else { name = typeName.Name; if (typeName.TypeParameterCount > 0) name += "`" + typeName.TypeParameterCount; } return Disassembler.DisassemblerHelpers.Escape(name); } public static IModuleReference GetDeclaringModule(this TypeReferenceHandle handle, MetadataReader reader) { var tr = reader.GetTypeReference(handle); switch (tr.ResolutionScope.Kind) { case HandleKind.TypeReference: return ((TypeReferenceHandle)tr.ResolutionScope).GetDeclaringModule(reader); case HandleKind.AssemblyReference: var asmRef = reader.GetAssemblyReference((AssemblyReferenceHandle)tr.ResolutionScope); return new DefaultAssemblyReference(reader.GetString(asmRef.Name)); case HandleKind.ModuleReference: var modRef = reader.GetModuleReference((ModuleReferenceHandle)tr.ResolutionScope); return new DefaultAssemblyReference(reader.GetString(modRef.Name)); default: return DefaultAssemblyReference.CurrentAssembly; } } internal static readonly TypeProvider minimalCorlibTypeProvider = new TypeProvider(new SimpleCompilation(MinimalCorlib.Instance)); /// /// An attribute type provider that can be used to decode attribute signatures /// that only mention built-in types. /// public static ICustomAttributeTypeProvider MinimalAttributeTypeProvider { get => minimalCorlibTypeProvider; } public static PrimitiveTypeCode ToPrimitiveTypeCode(this KnownTypeCode typeCode) { switch (typeCode) { case KnownTypeCode.Object: return PrimitiveTypeCode.Object; case KnownTypeCode.Boolean: return PrimitiveTypeCode.Boolean; case KnownTypeCode.Char: return PrimitiveTypeCode.Char; case KnownTypeCode.SByte: return PrimitiveTypeCode.SByte; case KnownTypeCode.Byte: return PrimitiveTypeCode.Byte; case KnownTypeCode.Int16: return PrimitiveTypeCode.Int16; case KnownTypeCode.UInt16: return PrimitiveTypeCode.UInt16; case KnownTypeCode.Int32: return PrimitiveTypeCode.Int32; case KnownTypeCode.UInt32: return PrimitiveTypeCode.UInt32; case KnownTypeCode.Int64: return PrimitiveTypeCode.Int64; case KnownTypeCode.UInt64: return PrimitiveTypeCode.UInt64; case KnownTypeCode.Single: return PrimitiveTypeCode.Single; case KnownTypeCode.Double: return PrimitiveTypeCode.Double; case KnownTypeCode.String: return PrimitiveTypeCode.String; case KnownTypeCode.Void: return PrimitiveTypeCode.Void; case KnownTypeCode.TypedReference: return PrimitiveTypeCode.TypedReference; case KnownTypeCode.IntPtr: return PrimitiveTypeCode.IntPtr; case KnownTypeCode.UIntPtr: return PrimitiveTypeCode.UIntPtr; default: throw new ArgumentOutOfRangeException(); } } public static KnownTypeCode ToKnownTypeCode(this PrimitiveTypeCode typeCode) { switch (typeCode) { case PrimitiveTypeCode.Boolean: return KnownTypeCode.Boolean; case PrimitiveTypeCode.Byte: return KnownTypeCode.Byte; case PrimitiveTypeCode.SByte: return KnownTypeCode.SByte; case PrimitiveTypeCode.Char: return KnownTypeCode.Char; case PrimitiveTypeCode.Int16: return KnownTypeCode.Int16; case PrimitiveTypeCode.UInt16: return KnownTypeCode.UInt16; case PrimitiveTypeCode.Int32: return KnownTypeCode.Int32; case PrimitiveTypeCode.UInt32: return KnownTypeCode.UInt32; case PrimitiveTypeCode.Int64: return KnownTypeCode.Int64; case PrimitiveTypeCode.UInt64: return KnownTypeCode.UInt64; case PrimitiveTypeCode.Single: return KnownTypeCode.Single; case PrimitiveTypeCode.Double: return KnownTypeCode.Double; case PrimitiveTypeCode.IntPtr: return KnownTypeCode.IntPtr; case PrimitiveTypeCode.UIntPtr: return KnownTypeCode.UIntPtr; case PrimitiveTypeCode.Object: return KnownTypeCode.Object; case PrimitiveTypeCode.String: return KnownTypeCode.String; case PrimitiveTypeCode.TypedReference: return KnownTypeCode.TypedReference; case PrimitiveTypeCode.Void: return KnownTypeCode.Void; default: return KnownTypeCode.None; } } public static IEnumerable GetModuleReferences(this MetadataReader metadata) { var rowCount = metadata.GetTableRowCount(TableIndex.ModuleRef); for (int row = 1; row <= rowCount; row++) { yield return MetadataTokens.ModuleReferenceHandle(row); } } } }