Esempio n. 1
0
        // See the ECMA CLI spec, Partition II, section 23.2.1.
        private MiniParameterInfo[] ParseSig(byte[] sig)
        {
            PEFileReader peFile = _assembly.PEFileReader;

            peFile.InitMetaData();
            MDTables MetaData = peFile.MetaData;

            uint i = 0;

            // The first byte of the Signature holds bits for HASTHIS, EXPLICITTHIS
            // and calling convention (DEFAULT, VARARG, or GENERIC). These are OR'ed
            // together.
            i++;

            uint numParams = DecodeInteger(sig, ref i);

            // Skip over return type
            //   Skip custom modifiers.
            do
            {
                if (sig[i] == (byte)CorElementType.CModOpt)
                {
                    i++;
                }
                else if (sig[i] == (byte)CorElementType.CModReqd)
                {
                    i++;
                }
                else
                {
                    break;
                }
            } while (true);
            //   Skip return type.  Note that for constructors, it should be void.
            if (sig[i] == (byte)CorElementType.Void)
            {
                i++;
            }
            else if (sig[i] == (byte)CorElementType.TypedByRef)
            {
                i++;
            }
            else
            {
                if (sig[i] == (byte)CorElementType.ByRef)
                {
                    i++;
                }
                ParseType(sig, ref i, false, true);
            }

            MiniParameterInfo[] parameters = new MiniParameterInfo[numParams];
            for (uint paramNum = 0; paramNum < numParams; paramNum++)
            {
                parameters[paramNum] = ParseType(sig, ref i, false, false);
                //Console.WriteLine("Read a parameter: {0}", parameters[paramNum]);
            }
            return(parameters);
        }
Esempio n. 2
0
        // Return the attributes on this type of the given custom attribute type
        internal MiniCustomAttributeInfo[] GetCustomAttributeInfos(Type caReflectedType)
        {
            List <MiniCustomAttributeInfo> result = new List <MiniCustomAttributeInfo>();

            PEFileReader peFile = _assembly.PEFileReader;

            peFile.InitMetaData();
            MDTables metaData = peFile.MetaData;

            uint numRows = metaData.RowsInTable(MDTables.Tables.CustomAttribute);

            for (uint i = 0; i < numRows; i++)
            {
                metaData.SeekToRowOfTable(MDTables.Tables.CustomAttribute, i);

                // Format: Parent type token, CA type token (really the constructor method), value (index into blob heap)
                MetadataToken targetType = metaData.ReadMetadataToken(MDTables.Encodings.HasCustomAttribute);
                MetadataToken caType     = metaData.ReadMetadataToken(MDTables.Encodings.CustomAttributeType);
                byte[]        caBlob     = metaData.ReadBlob();

                if (targetType.Equals(this._mdToken))
                {
                    //Console.WriteLine("CA - Applied to: {0}  CA .ctor: {1}  Value: {2}", targetType, caType, value);
                    //Console.WriteLine("CA MD Tokens  Parent: {0}  Type: {1}", targetType.ToMDToken(), caType.ToMDToken());

                    // Ensure the custom attribute type is the type we expect
                    metaData.SeekToMDToken(caType);
                    String caTypeName = null, caNameSpace = null;
                    if (caType.Table != MDTables.Tables.MemberRef)
                    {
                        // Custom attribute was defined in the assembly we are currently inspecting?
                        // Ignore it.
                        System.Diagnostics.Contracts.Contract.Assert(caType.Table == MDTables.Tables.MethodDef);
                        continue;
                    }

                    MetadataToken customAttributeType = metaData.ReadMetadataToken(MDTables.Encodings.MemberRefParent);

                    //Console.WriteLine("   MemberRef: {0}  Type of MemberRef: {1}", caType.ToMDToken(), customAttributeType.ToMDToken());
                    metaData.SeekToMDToken(customAttributeType);
                    MetadataToken resolutionScope     = metaData.ReadMetadataToken(MDTables.Encodings.ResolutionScope);
                    caTypeName  = metaData.ReadString();
                    caNameSpace = metaData.ReadString();

                    if (caTypeName == caReflectedType.Name && caNameSpace == caReflectedType.Namespace)
                    {
                        MiniCustomAttributeInfo customAttributeInfo = ParseCustomAttribute(caBlob, caReflectedType);
                        result.Add(customAttributeInfo);
                    }
                }
            }
            return(result.ToArray());
        }
Esempio n. 3
0
        public bool Implements(TypeInfo ifaceType)
        {
            System.Diagnostics.Contracts.Contract.Requires(ifaceType != null);
            System.Diagnostics.Contracts.Contract.Assert(HasToken || HasReflectionType || HasTypeRef);

            if (HasReflectionType)
            {
                System.Diagnostics.Contracts.Contract.Assert(ifaceType.HasAssemblyQualifiedName);
                foreach (Type implementsIFace in _reflectionType.GetInterfaces())
                {
                    if (Utils.FullTypeNameDefEqualsDef(implementsIFace.AssemblyQualifiedName, ifaceType.AssemblyQualifiedName))
                    {
                        return(true);
                    }
                }
                return(false);
            }

            // This can be a typeref.  ---- the other assembly to parse this.
            // I need to support the HAV in assembly A, the HA in B, the specific contract
            // interface in assembly C, and IContract in assembly D.  I'm inspecting the HA,
            // and I'll get a typeref for C, and I need to make sure it implements IContract in D.

            PEFileReader peFile = _assembly.PEFileReader;

            peFile.InitMetaData();
            MDTables thisMetaData = peFile.MetaData;

            if (_mdToken.Table == MDTables.Tables.TypeRef)
            {
                TypeInfo def = TypeRefToTypeDef(_mdToken, true);
                return(def.ImplementsHelper(def._assembly.PEFileReader, def._mdToken, ifaceType));
            }
            else
            {
                System.Diagnostics.Contracts.Contract.Assert(_mdToken.Table == MDTables.Tables.TypeDef);
                throw new NotImplementedException();
            }
        }
Esempio n. 4
0
        internal TypeInfo TypeRefToTypeDef(MetadataToken typeRef, bool throwOnError)
        {
            System.Diagnostics.Contracts.Contract.Requires(typeRef.Table == MDTables.Tables.TypeRef);

            PEFileReader peFile = _assembly.PEFileReader;

            peFile.InitMetaData();
            MDTables thisMetaData = peFile.MetaData;

            thisMetaData.SeekToMDToken(_mdToken);
            MetadataToken resolutionScope = thisMetaData.ReadMetadataToken(MDTables.Encodings.ResolutionScope);
            String        refTypeName     = thisMetaData.ReadString(); // Name
            String        refNamespace    = thisMetaData.ReadString(); // Namespace

            System.Diagnostics.Contracts.Contract.Assert(resolutionScope.Table == MDTables.Tables.AssemblyRef);
            MiniAssembly definingAssembly = _assembly.ResolveAssemblyRef(resolutionScope, throwOnError);

            if (definingAssembly != null)
            {
                return(definingAssembly.FindTypeInfo(refTypeName, refNamespace));
            }
            return(null);
        }
Esempio n. 5
0
        public IList <TypeInfo> GetTypesWithAttributeInModule(Type customAttribute, bool includePrivate)
        {
            if (IsDisposed)
            {
                throw new ObjectDisposedException(null);
            }
            if (customAttribute == null)
            {
                throw new ArgumentNullException("customAttribute");
            }
            System.Diagnostics.Contracts.Contract.EndContractBlock();

            _peFile.InitMetaData();
            MDTables MetaData = _peFile.MetaData;

            List <TypeInfo> types              = new List <TypeInfo>();
            String          attributeName      = customAttribute.Name;
            String          attributeNameSpace = customAttribute.Namespace;

            IList <MetadataToken> genericTypeTokens = GetGenericTypes();

            uint numRows = MetaData.RowsInTable(MDTables.Tables.CustomAttribute);

            for (uint i = 0; i < numRows; i++)
            {
                MetaData.SeekToRowOfTable(MDTables.Tables.CustomAttribute, i);

                // Format: Parent type token, CA type token, value (index into blob heap)
                MetadataToken targetType = MetaData.ReadMetadataToken(MDTables.Encodings.HasCustomAttribute);
                MetadataToken caType     = MetaData.ReadMetadataToken(MDTables.Encodings.CustomAttributeType);
                //UInt32 value = MetaData.ReadBlobIndex();
                //Console.WriteLine("CA - Applied to: {0}  CA .ctor: {1}  Value: {2}", targetType, caType, value);
                //Console.WriteLine("CA MD Tokens  Parent: {0}  Type: {1}", targetType.ToMDToken(), caType.ToMDToken());

                // Ensure the custom attribute type is the type we expect
                MetaData.SeekToMDToken(caType);
                String caTypeName = null, caNameSpace = null;
                if (caType.Table != MDTables.Tables.MemberRef)
                {
                    // Custom attribute was defined in the assembly we are currently inspecting?
                    // Ignore it.
                    System.Diagnostics.Contracts.Contract.Assert(caType.Table == MDTables.Tables.MethodDef);
                    continue;
                }
                MetadataToken customAttributeType = MetaData.ReadMetadataToken(MDTables.Encodings.MemberRefParent);
                //Console.WriteLine("   MemberRef: {0}  Type of MemberRef: {1}", caType.ToMDToken(), customAttributeType.ToMDToken());
                MetaData.SeekToMDToken(customAttributeType);
                MetadataToken resolutionScope     = MetaData.ReadMetadataToken(MDTables.Encodings.ResolutionScope);
                // @
                caTypeName = MetaData.ReadString();
                if (!String.Equals(caTypeName, attributeName))
                {
                    continue;
                }
                caNameSpace = MetaData.ReadString();
                if (!String.Equals(caNameSpace, attributeNameSpace))
                {
                    continue;
                }

                // Get type name & namespace.
                switch (targetType.Table)
                {
                case MDTables.Tables.TypeDef:
                    MetaData.SeekToMDToken(targetType);
                    System.Reflection.TypeAttributes flags = (System.Reflection.TypeAttributes)_peFile.B.ReadUInt32();
                    System.Reflection.TypeAttributes vis   = flags & System.Reflection.TypeAttributes.VisibilityMask;
                    bool isPublic = vis == System.Reflection.TypeAttributes.Public;     // NestedPublic not supported
                    if (!includePrivate && !isPublic)
                    {
                        continue;
                    }
                    String   typeName  = MetaData.ReadString();
                    String   nameSpace = MetaData.ReadString();
                    bool     isGeneric = genericTypeTokens.Contains(targetType);
                    TypeInfo type      = new TypeInfo(targetType, _assembly, this, typeName, nameSpace, isGeneric);
                    types.Add(type);
                    break;

                default:
                    throw new NotImplementedException(String.Format(CultureInfo.CurrentCulture, Res.UnknownTokenType, targetType.Table, Assembly.FullName));
                }
            }
            return(types);
        }
Esempio n. 6
0
        public MiniConstructorInfo[] GetConstructors(bool includePrivate)
        {
            System.Diagnostics.Contracts.Contract.Assert(HasToken /* || HasReflectionType*/, "GetConstructors needs a token (or you should uncomment the support for Reflection types)");

            List <MiniConstructorInfo> ctors = new List <MiniConstructorInfo>();

            /*
             * if (HasReflectionType) {
             *  System.Reflection.BindingFlags visibility = System.Reflection.BindingFlags.Instance | System.Reflection.BindingFlags.Public;
             *  if (includePrivate)
             *      visibility |= System.Reflection.BindingFlags.NonPublic;
             *  foreach (System.Reflection.ConstructorInfo ctor in _reflectionType.GetConstructors(visibility))
             *      ctors.Add(new MiniConstructorInfo(ctor));
             *  return ctors.ToArray();
             * }
             */

            System.Diagnostics.Contracts.Contract.Assert(_mdToken.Table == MDTables.Tables.TypeDef);

            PEFileReader peFile = _assembly.PEFileReader;

            peFile.InitMetaData();
            MDTables MetaData = peFile.MetaData;

            MetaData.SeekToMDToken(_mdToken);
            System.Reflection.TypeAttributes flags = (System.Reflection.TypeAttributes)peFile.B.ReadUInt32();
            System.Reflection.TypeAttributes vis   = System.Reflection.TypeAttributes.VisibilityMask & flags;
            bool isPublic = (vis == System.Reflection.TypeAttributes.Public); // don't support NestedPublic

            if (!includePrivate && !isPublic)
            {
                return(new MiniConstructorInfo[0]);
            }
            MetaData.ReadStringIndex();                                                                   // typename
            MetaData.ReadStringIndex();                                                                   // namespace

            MetadataToken baseClass        = MetaData.ReadMetadataToken(MDTables.Encodings.TypeDefOrRef); // Base class
            uint          firstMemberIndex = MetaData.ReadRowIndex(MDTables.Tables.FieldDef);             // Field list
            uint          firstMethodIndex = MetaData.ReadRowIndex(MDTables.Tables.MethodDef);            // Method list
            uint          lastMethodIndex;

            // If this is the last entry in the TypeDef table, then all the rest of the methods in the MethodDef
            // table belong to this type.  Otherwise, look for the methods belonging to the next type.
            if (_mdToken.Index == MetaData.RowsInTable(MDTables.Tables.TypeDef))
            {
                lastMethodIndex = MetaData.RowsInTable(MDTables.Tables.MethodDef);
            }
            else
            {
                MetaData.SeekToRowOfTable(MDTables.Tables.TypeDef, _mdToken.Index);            // Seek to next type (not off by 1!)
                peFile.B.ReadUInt32();                                                         // Flags
                MetaData.ReadStringIndex();                                                    // type name
                MetaData.ReadStringIndex();                                                    // namespace
                MetaData.ReadMetadataToken(MDTables.Encodings.TypeDefOrRef);                   // Next type's base class
                MetaData.ReadRowIndex(MDTables.Tables.FieldDef);                               // field list;
                uint firstMethodOfNextType = MetaData.ReadRowIndex(MDTables.Tables.MethodDef); // method list
                lastMethodIndex = firstMethodOfNextType - 1;
            }

            // Now walk through list of methods, looking for ones w/ the name ".ctor".
            for (uint i = firstMethodIndex; i <= lastMethodIndex; i++)
            {
                MetadataToken method = new MetadataToken(MDTables.Tables.MethodDef, i);
                MetaData.SeekToMDToken(method);
                UInt32 rva       = peFile.B.ReadUInt32();
                UInt16 implFlags = peFile.B.ReadUInt16();                                                             // MethodImplAttributes
                System.Reflection.MethodAttributes attrs = (System.Reflection.MethodAttributes)peFile.B.ReadUInt16(); // Flags - MethodAttributes
                // Visibility check
                if (!includePrivate && (attrs & System.Reflection.MethodAttributes.Public) == 0)
                {
                    continue;
                }
                String methodName = MetaData.ReadString();  // Name
                // @
                if (!String.Equals(methodName, ".ctor"))
                {
                    continue;
                }

                byte[] sig = MetaData.ReadBlob();
                try
                {
                    MiniParameterInfo[] parameters = ParseSig(sig);
                    ctors.Add(new MiniConstructorInfo(parameters));
                }
                catch (GenericsNotImplementedException)
                {
                    // may be caused by a Generic contract.  The user will be warned elsewhere that generic contracts are not supported.

                    /*
                     * if (Warnings != null) {
                     *  lock (Warnings) {
                     *      Warnings.Add(String.Format(CultureInfo.CurrentCulture, Res.UnparsibleConstructorSignature, this.Name, e.GetType().Name, e.Message));
                     *  }
                     * }
                     */
                }
            } // for each .ctor
            return(ctors.ToArray());
        }