#region Copyright notice and license // Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #endregion using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Linq; using System.Reflection; #if NET35 // Needed for ReadOnlyDictionary, which does not exist in .NET 3.5 using Google.Protobuf.Collections; #endif namespace Google.Protobuf.Reflection { /// /// Describes a message type. /// public sealed class MessageDescriptor : DescriptorBase { private static readonly HashSet WellKnownTypeNames = new HashSet { "google/protobuf/any.proto", "google/protobuf/api.proto", "google/protobuf/duration.proto", "google/protobuf/empty.proto", "google/protobuf/wrappers.proto", "google/protobuf/timestamp.proto", "google/protobuf/field_mask.proto", "google/protobuf/source_context.proto", "google/protobuf/struct.proto", "google/protobuf/type.proto", }; private readonly IList fieldsInDeclarationOrder; private readonly IList fieldsInNumberOrder; private readonly IDictionary jsonFieldMap; private Func extensionSetIsInitialized; internal MessageDescriptor(DescriptorProto proto, FileDescriptor file, MessageDescriptor parent, int typeIndex, GeneratedClrTypeInfo generatedCodeInfo) : base(file, file.ComputeFullName(parent, proto.Name), typeIndex) { Proto = proto; Parser = generatedCodeInfo?.Parser; ClrType = generatedCodeInfo?.ClrType; ContainingType = parent; // If generatedCodeInfo is null, we just won't generate an accessor for any fields. Oneofs = DescriptorUtil.ConvertAndMakeReadOnly( proto.OneofDecl, (oneof, index) => new OneofDescriptor(oneof, file, this, index, generatedCodeInfo?.OneofNames[index])); int syntheticOneofCount = 0; foreach (var oneof in Oneofs) { if (oneof.IsSynthetic) { syntheticOneofCount++; } else if (syntheticOneofCount != 0) { throw new ArgumentException("All synthetic oneofs should come after real oneofs"); } } RealOneofCount = Oneofs.Count - syntheticOneofCount; NestedTypes = DescriptorUtil.ConvertAndMakeReadOnly( proto.NestedType, (type, index) => new MessageDescriptor(type, file, this, index, generatedCodeInfo?.NestedTypes[index])); EnumTypes = DescriptorUtil.ConvertAndMakeReadOnly( proto.EnumType, (type, index) => new EnumDescriptor(type, file, this, index, generatedCodeInfo?.NestedEnums[index])); Extensions = new ExtensionCollection(this, generatedCodeInfo?.Extensions); fieldsInDeclarationOrder = DescriptorUtil.ConvertAndMakeReadOnly( proto.Field, (field, index) => new FieldDescriptor(field, file, this, index, generatedCodeInfo?.PropertyNames[index], null)); fieldsInNumberOrder = new ReadOnlyCollection(fieldsInDeclarationOrder.OrderBy(field => field.FieldNumber).ToArray()); // TODO: Use field => field.Proto.JsonName when we're confident it's appropriate. (And then use it in the formatter, too.) jsonFieldMap = CreateJsonFieldMap(fieldsInNumberOrder); file.DescriptorPool.AddSymbol(this); Fields = new FieldCollection(this); } private static ReadOnlyDictionary CreateJsonFieldMap(IList fields) { var map = new Dictionary(); foreach (var field in fields) { map[field.Name] = field; map[field.JsonName] = field; } return new ReadOnlyDictionary(map); } /// /// The brief name of the descriptor's target. /// public override string Name => Proto.Name; internal override IReadOnlyList GetNestedDescriptorListForField(int fieldNumber) { switch (fieldNumber) { case DescriptorProto.FieldFieldNumber: return (IReadOnlyList) fieldsInDeclarationOrder; case DescriptorProto.NestedTypeFieldNumber: return (IReadOnlyList) NestedTypes; case DescriptorProto.EnumTypeFieldNumber: return (IReadOnlyList) EnumTypes; default: return null; } } internal DescriptorProto Proto { get; } internal bool IsExtensionsInitialized(IMessage message) { if (Proto.ExtensionRange.Count == 0) { return true; } if (extensionSetIsInitialized == null) { extensionSetIsInitialized = ReflectionUtil.CreateIsInitializedCaller(ClrType); } return extensionSetIsInitialized(message); } /// /// The CLR type used to represent message instances from this descriptor. /// /// /// /// The value returned by this property will be non-null for all regular fields. However, /// if a message containing a map field is introspected, the list of nested messages will include /// an auto-generated nested key/value pair message for the field. This is not represented in any /// generated type, so this property will return null in such cases. /// /// /// For wrapper types ( and the like), the type returned here /// will be the generated message type, not the native type used by reflection for fields of those types. Code /// using reflection should call to determine whether a message descriptor represents /// a wrapper type, and handle the result appropriately. /// /// public Type ClrType { get; } /// /// A parser for this message type. /// /// /// /// As is not generic, this cannot be statically /// typed to the relevant type, but it should produce objects of a type compatible with . /// /// /// The value returned by this property will be non-null for all regular fields. However, /// if a message containing a map field is introspected, the list of nested messages will include /// an auto-generated nested key/value pair message for the field. No message parser object is created for /// such messages, so this property will return null in such cases. /// /// /// For wrapper types ( and the like), the parser returned here /// will be the generated message type, not the native type used by reflection for fields of those types. Code /// using reflection should call to determine whether a message descriptor represents /// a wrapper type, and handle the result appropriately. /// /// public MessageParser Parser { get; } /// /// Returns whether this message is one of the "well known types" which may have runtime/protoc support. /// internal bool IsWellKnownType => File.Package == "google.protobuf" && WellKnownTypeNames.Contains(File.Name); /// /// Returns whether this message is one of the "wrapper types" used for fields which represent primitive values /// with the addition of presence. /// internal bool IsWrapperType => File.Package == "google.protobuf" && File.Name == "google/protobuf/wrappers.proto"; /// /// If this is a nested type, get the outer descriptor, otherwise null. /// public MessageDescriptor ContainingType { get; } /// /// A collection of fields, which can be retrieved by name or field number. /// public FieldCollection Fields { get; } /// /// An unmodifiable list of extensions defined in this message's scope. /// Note that some extensions may be incomplete (FieldDescriptor.Extension may be null) /// if they are declared in a file generated using a version of protoc that did not fully /// support extensions in C#. /// public ExtensionCollection Extensions { get; } /// /// An unmodifiable list of this message type's nested types. /// public IList NestedTypes { get; } /// /// An unmodifiable list of this message type's enum types. /// public IList EnumTypes { get; } /// /// An unmodifiable list of the "oneof" field collections in this message type. /// All "real" oneofs (where returns false) /// come before synthetic ones. /// public IList Oneofs { get; } /// /// The number of real "oneof" descriptors in this message type. Every element in /// with an index less than this will have a property value /// of false; every element with an index greater than or equal to this will have a /// property value of true. /// public int RealOneofCount { get; } /// /// Finds a field by field name. /// /// The unqualified name of the field (e.g. "foo"). /// The field's descriptor, or null if not found. public FieldDescriptor FindFieldByName(String name) => File.DescriptorPool.FindSymbol(FullName + "." + name); /// /// Finds a field by field number. /// /// The field number within this message type. /// The field's descriptor, or null if not found. public FieldDescriptor FindFieldByNumber(int number) => File.DescriptorPool.FindFieldByNumber(this, number); /// /// Finds a nested descriptor by name. The is valid for fields, nested /// message types, oneofs and enums. /// /// The unqualified name of the descriptor, e.g. "Foo" /// The descriptor, or null if not found. public T FindDescriptor(string name) where T : class, IDescriptor => File.DescriptorPool.FindSymbol(FullName + "." + name); /// /// The (possibly empty) set of custom options for this message. /// [Obsolete("CustomOptions are obsolete. Use the GetOptions() method.")] public CustomOptions CustomOptions => new CustomOptions(Proto.Options?._extensions?.ValuesByNumber); /// /// The MessageOptions, defined in descriptor.proto. /// If the options message is not present (i.e. there are no options), null is returned. /// Custom options can be retrieved as extensions of the returned message. /// NOTE: A defensive copy is created each time this property is retrieved. /// public MessageOptions GetOptions() => Proto.Options?.Clone(); /// /// Gets a single value message option for this descriptor /// [Obsolete("GetOption is obsolete. Use the GetOptions() method.")] public T GetOption(Extension extension) { var value = Proto.Options.GetExtension(extension); return value is IDeepCloneable ? (value as IDeepCloneable).Clone() : value; } /// /// Gets a repeated value message option for this descriptor /// [Obsolete("GetOption is obsolete. Use the GetOptions() method.")] public Collections.RepeatedField GetOption(RepeatedExtension extension) { return Proto.Options.GetExtension(extension).Clone(); } /// /// Looks up and cross-links all fields and nested types. /// internal void CrossLink() { foreach (MessageDescriptor message in NestedTypes) { message.CrossLink(); } foreach (FieldDescriptor field in fieldsInDeclarationOrder) { field.CrossLink(); } foreach (OneofDescriptor oneof in Oneofs) { oneof.CrossLink(); } Extensions.CrossLink(); } /// /// A collection to simplify retrieving the field accessor for a particular field. /// public sealed class FieldCollection { private readonly MessageDescriptor messageDescriptor; internal FieldCollection(MessageDescriptor messageDescriptor) { this.messageDescriptor = messageDescriptor; } /// /// Returns the fields in the message as an immutable list, in the order in which they /// are declared in the source .proto file. /// public IList InDeclarationOrder() => messageDescriptor.fieldsInDeclarationOrder; /// /// Returns the fields in the message as an immutable list, in ascending field number /// order. Field numbers need not be contiguous, so there is no direct mapping from the /// index in the list to the field number; to retrieve a field by field number, it is better /// to use the indexer. /// public IList InFieldNumberOrder() => messageDescriptor.fieldsInNumberOrder; // TODO: consider making this public in the future. (Being conservative for now...) /// /// Returns a read-only dictionary mapping the field names in this message as they're available /// in the JSON representation to the field descriptors. For example, a field foo_bar /// in the message would result two entries, one with a key fooBar and one with a key /// foo_bar, both referring to the same field. /// internal IDictionary ByJsonName() => messageDescriptor.jsonFieldMap; /// /// Retrieves the descriptor for the field with the given number. /// /// Number of the field to retrieve the descriptor for /// The accessor for the given field /// The message descriptor does not contain a field /// with the given number public FieldDescriptor this[int number] { get { var fieldDescriptor = messageDescriptor.FindFieldByNumber(number); if (fieldDescriptor == null) { throw new KeyNotFoundException("No such field number"); } return fieldDescriptor; } } /// /// Retrieves the descriptor for the field with the given name. /// /// Name of the field to retrieve the descriptor for /// The descriptor for the given field /// The message descriptor does not contain a field /// with the given name public FieldDescriptor this[string name] { get { var fieldDescriptor = messageDescriptor.FindFieldByName(name); if (fieldDescriptor == null) { throw new KeyNotFoundException("No such field name"); } return fieldDescriptor; } } } } }