csharp/src/ProtocolBuffers.Test/WireFormatTest.cs - third_party/github/protocolbuffers/protobuf - Git at Google

 #region Copyright notice and license

 // Protocol Buffers - Google's data interchange format
 // Copyright 2008 Google Inc.  All rights reserved.
 // http://github.com/jskeet/dotnet-protobufs/
 // Original C++/Java/Python code:
 // http://code.google.com/p/protobuf/
 //
 // 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.IO;
 using System.Reflection;
 using Google.ProtocolBuffers.Descriptors;
 using Google.ProtocolBuffers.TestProtos;
 using Microsoft.VisualStudio.TestTools.UnitTesting;

 namespace Google.ProtocolBuffers
 {
     [TestClass]
     public class WireFormatTest
     {
         /// <summary>
         /// Keeps the attributes on FieldType and the switch statement in WireFormat in sync.
         /// </summary>
         [TestMethod]
         public void FieldTypeToWireTypeMapping()
         {
             foreach (FieldInfo field in typeof(FieldType).GetFields(BindingFlags.Static | BindingFlags.Public))
             {
                 FieldType fieldType = (FieldType) field.GetValue(null);
                 FieldMappingAttribute mapping =
                     (FieldMappingAttribute) field.GetCustomAttributes(typeof(FieldMappingAttribute), false)[0];
                 Assert.AreEqual(mapping.WireType, WireFormat.GetWireType(fieldType));
             }
         }

         [TestMethod]
         public void Serialization()
         {
             TestAllTypes message = TestUtil.GetAllSet();

             ByteString rawBytes = message.ToByteString();
             Assert.AreEqual(rawBytes.Length, message.SerializedSize);

             TestAllTypes message2 = TestAllTypes.ParseFrom(rawBytes);

             TestUtil.AssertAllFieldsSet(message2);
         }

         [TestMethod]
         public void SerializationPacked()
         {
             TestPackedTypes message = TestUtil.GetPackedSet();
             ByteString rawBytes = message.ToByteString();
             Assert.AreEqual(rawBytes.Length, message.SerializedSize);
             TestPackedTypes message2 = TestPackedTypes.ParseFrom(rawBytes);
             TestUtil.AssertPackedFieldsSet(message2);
         }

         [TestMethod]
         public void SerializeExtensions()
         {
             // TestAllTypes and TestAllExtensions should have compatible wire formats,
             // so if we serialize a TestAllExtensions then parse it as TestAllTypes
             // it should work.
             TestAllExtensions message = TestUtil.GetAllExtensionsSet();
             ByteString rawBytes = message.ToByteString();
             Assert.AreEqual(rawBytes.Length, message.SerializedSize);

             TestAllTypes message2 = TestAllTypes.ParseFrom(rawBytes);

             TestUtil.AssertAllFieldsSet(message2);
         }

         [TestMethod]
         public void SerializePackedExtensions()
         {
             // TestPackedTypes and TestPackedExtensions should have compatible wire
             // formats; check that they serialize to the same string.
             TestPackedExtensions message = TestUtil.GetPackedExtensionsSet();
             ByteString rawBytes = message.ToByteString();

             TestPackedTypes message2 = TestUtil.GetPackedSet();
             ByteString rawBytes2 = message2.ToByteString();

             Assert.AreEqual(rawBytes, rawBytes2);
         }

         [TestMethod]
         public void SerializeDelimited()
         {
             MemoryStream stream = new MemoryStream();
             TestUtil.GetAllSet().WriteDelimitedTo(stream);
             stream.WriteByte(12);
             TestUtil.GetPackedSet().WriteDelimitedTo(stream);
             stream.WriteByte(34);

             stream.Position = 0;

             TestUtil.AssertAllFieldsSet(TestAllTypes.ParseDelimitedFrom(stream));
             Assert.AreEqual(12, stream.ReadByte());
             TestUtil.AssertPackedFieldsSet(TestPackedTypes.ParseDelimitedFrom(stream));
             Assert.AreEqual(34, stream.ReadByte());
             Assert.AreEqual(-1, stream.ReadByte());
         }

         [TestMethod]
         public void ParseExtensions()
         {
             // TestAllTypes and TestAllExtensions should have compatible wire formats,
             // so if we serealize a TestAllTypes then parse it as TestAllExtensions
             // it should work.

             TestAllTypes message = TestUtil.GetAllSet();
             ByteString rawBytes = message.ToByteString();

             ExtensionRegistry registry = ExtensionRegistry.CreateInstance();
             TestUtil.RegisterAllExtensions(registry);
             registry = registry.AsReadOnly();

             TestAllExtensions message2 = TestAllExtensions.ParseFrom(rawBytes, registry);

             TestUtil.AssertAllExtensionsSet(message2);
         }

         [TestMethod]
         public void ParsePackedExtensions()
         {
             // Ensure that packed extensions can be properly parsed.
             TestPackedExtensions message = TestUtil.GetPackedExtensionsSet();
             ByteString rawBytes = message.ToByteString();

             ExtensionRegistry registry = TestUtil.CreateExtensionRegistry();

             TestPackedExtensions message2 = TestPackedExtensions.ParseFrom(rawBytes, registry);
             TestUtil.AssertPackedExtensionsSet(message2);
         }

         [TestMethod]
         public void ExtensionsSerializedSize()
         {
             Assert.AreEqual(TestUtil.GetAllSet().SerializedSize, TestUtil.GetAllExtensionsSet().SerializedSize);
         }

         private static void AssertFieldsInOrder(ByteString data)
         {
             CodedInputStream input = data.CreateCodedInput();
             uint previousTag = 0;

             uint tag;
             string name;
             while (input.ReadTag(out tag, out name))
             {
                 Assert.IsTrue(tag > previousTag);
                 previousTag = tag;
                 input.SkipField();
             }
         }

         [TestMethod]
         public void InterleavedFieldsAndExtensions()
         {
             // Tests that fields are written in order even when extension ranges
             // are interleaved with field numbers.
             ByteString data =
                 TestFieldOrderings.CreateBuilder()
                     .SetMyInt(1)
                     .SetMyString("foo")
                     .SetMyFloat(1.0F)
                     .SetExtension(UnitTestProtoFile.MyExtensionInt, 23)
                     .SetExtension(UnitTestProtoFile.MyExtensionString, "bar")
                     .Build().ToByteString();
             AssertFieldsInOrder(data);

             MessageDescriptor descriptor = TestFieldOrderings.Descriptor;
             ByteString dynamic_data =
                 DynamicMessage.CreateBuilder(TestFieldOrderings.Descriptor)
                     .SetField(descriptor.FindDescriptor<FieldDescriptor>("my_int"), 1L)
                     .SetField(descriptor.FindDescriptor<FieldDescriptor>("my_string"), "foo")
                     .SetField(descriptor.FindDescriptor<FieldDescriptor>("my_float"), 1.0F)
                     .SetField(UnitTestProtoFile.MyExtensionInt.Descriptor, 23)
                     .SetField(UnitTestProtoFile.MyExtensionString.Descriptor, "bar")
                     .WeakBuild().ToByteString();
             AssertFieldsInOrder(dynamic_data);
         }

         private const int UnknownTypeId = 1550055;
         private static readonly int TypeId1 = TestMessageSetExtension1.Descriptor.Extensions[0].FieldNumber;
         private static readonly int TypeId2 = TestMessageSetExtension2.Descriptor.Extensions[0].FieldNumber;

         [TestMethod]
         public void SerializeMessageSet()
         {
             // Set up a TestMessageSet with two known messages and an unknown one.
             TestMessageSet messageSet =
                 TestMessageSet.CreateBuilder()
                     .SetExtension(
                         TestMessageSetExtension1.MessageSetExtension,
                         TestMessageSetExtension1.CreateBuilder().SetI(123).Build())
                     .SetExtension(
                         TestMessageSetExtension2.MessageSetExtension,
                         TestMessageSetExtension2.CreateBuilder().SetStr("foo").Build())
                     .SetUnknownFields(
                         UnknownFieldSet.CreateBuilder()
                             .AddField(UnknownTypeId,
                                       UnknownField.CreateBuilder()
                                           .AddLengthDelimited(ByteString.CopyFromUtf8("bar"))
                                           .Build())
                             .Build())
                     .Build();

             ByteString data = messageSet.ToByteString();

             // Parse back using RawMessageSet and check the contents.
             RawMessageSet raw = RawMessageSet.ParseFrom(data);

             Assert.AreEqual(0, raw.UnknownFields.FieldDictionary.Count);

             Assert.AreEqual(3, raw.ItemCount);
             Assert.AreEqual(TypeId1, raw.ItemList[0].TypeId);
             Assert.AreEqual(TypeId2, raw.ItemList[1].TypeId);
             Assert.AreEqual(UnknownTypeId, raw.ItemList[2].TypeId);

             TestMessageSetExtension1 message1 = TestMessageSetExtension1.ParseFrom(raw.GetItem(0).Message.ToByteArray());
             Assert.AreEqual(123, message1.I);

             TestMessageSetExtension2 message2 = TestMessageSetExtension2.ParseFrom(raw.GetItem(1).Message.ToByteArray());
             Assert.AreEqual("foo", message2.Str);

             Assert.AreEqual("bar", raw.GetItem(2).Message.ToStringUtf8());
         }

         [TestMethod]
         public void ParseMessageSet()
         {
             ExtensionRegistry extensionRegistry = ExtensionRegistry.CreateInstance();
             extensionRegistry.Add(TestMessageSetExtension1.MessageSetExtension);
             extensionRegistry.Add(TestMessageSetExtension2.MessageSetExtension);

             // Set up a RawMessageSet with two known messages and an unknown one.
             RawMessageSet raw =
                 RawMessageSet.CreateBuilder()
                     .AddItem(
                         RawMessageSet.Types.Item.CreateBuilder()
                             .SetTypeId(TypeId1)
                             .SetMessage(
                                 TestMessageSetExtension1.CreateBuilder()
                                     .SetI(123)
                                     .Build().ToByteString())
                             .Build())
                     .AddItem(
                         RawMessageSet.Types.Item.CreateBuilder()
                             .SetTypeId(TypeId2)
                             .SetMessage(
                                 TestMessageSetExtension2.CreateBuilder()
                                     .SetStr("foo")
                                     .Build().ToByteString())
                             .Build())
                     .AddItem(
                         RawMessageSet.Types.Item.CreateBuilder()
                             .SetTypeId(UnknownTypeId)
                             .SetMessage(ByteString.CopyFromUtf8("bar"))
                             .Build())
                     .Build();

             ByteString data = raw.ToByteString();

             // Parse as a TestMessageSet and check the contents.
             TestMessageSet messageSet =
                 TestMessageSet.ParseFrom(data, extensionRegistry);

             Assert.AreEqual(123, messageSet.GetExtension(TestMessageSetExtension1.MessageSetExtension).I);
             Assert.AreEqual("foo", messageSet.GetExtension(TestMessageSetExtension2.MessageSetExtension).Str);

             // Check for unknown field with type LENGTH_DELIMITED,
             //   number UNKNOWN_TYPE_ID, and contents "bar".
             UnknownFieldSet unknownFields = messageSet.UnknownFields;
             Assert.AreEqual(1, unknownFields.FieldDictionary.Count);
             Assert.IsTrue(unknownFields.HasField(UnknownTypeId));

             UnknownField field = unknownFields[UnknownTypeId];
             Assert.AreEqual(1, field.LengthDelimitedList.Count);
             Assert.AreEqual("bar", field.LengthDelimitedList[0].ToStringUtf8());
         }
     }
 }
	#region Copyright notice and license

	// Protocol Buffers - Google's data interchange format
	// Copyright 2008 Google Inc. All rights reserved.
	// http://github.com/jskeet/dotnet-protobufs/
	// Original C++/Java/Python code:
	// http://code.google.com/p/protobuf/
	//
	// 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.IO;
	using System.Reflection;
	using Google.ProtocolBuffers.Descriptors;
	using Google.ProtocolBuffers.TestProtos;
	using Microsoft.VisualStudio.TestTools.UnitTesting;

	namespace Google.ProtocolBuffers
	{
	[TestClass]
	public class WireFormatTest
	{
	/// <summary>
	/// Keeps the attributes on FieldType and the switch statement in WireFormat in sync.
	/// </summary>
	[TestMethod]
	public void FieldTypeToWireTypeMapping()
	{
	foreach (FieldInfo field in typeof(FieldType).GetFields(BindingFlags.Static \| BindingFlags.Public))
	{
	FieldType fieldType = (FieldType) field.GetValue(null);
	FieldMappingAttribute mapping =
	(FieldMappingAttribute) field.GetCustomAttributes(typeof(FieldMappingAttribute), false)[0];
	Assert.AreEqual(mapping.WireType, WireFormat.GetWireType(fieldType));
	}
	}

	[TestMethod]
	public void Serialization()
	{
	TestAllTypes message = TestUtil.GetAllSet();

	ByteString rawBytes = message.ToByteString();
	Assert.AreEqual(rawBytes.Length, message.SerializedSize);

	TestAllTypes message2 = TestAllTypes.ParseFrom(rawBytes);

	TestUtil.AssertAllFieldsSet(message2);
	}

	[TestMethod]
	public void SerializationPacked()
	{
	TestPackedTypes message = TestUtil.GetPackedSet();
	ByteString rawBytes = message.ToByteString();
	Assert.AreEqual(rawBytes.Length, message.SerializedSize);
	TestPackedTypes message2 = TestPackedTypes.ParseFrom(rawBytes);
	TestUtil.AssertPackedFieldsSet(message2);
	}

	[TestMethod]
	public void SerializeExtensions()
	{
	// TestAllTypes and TestAllExtensions should have compatible wire formats,
	// so if we serialize a TestAllExtensions then parse it as TestAllTypes
	// it should work.
	TestAllExtensions message = TestUtil.GetAllExtensionsSet();
	ByteString rawBytes = message.ToByteString();
	Assert.AreEqual(rawBytes.Length, message.SerializedSize);

	TestAllTypes message2 = TestAllTypes.ParseFrom(rawBytes);

	TestUtil.AssertAllFieldsSet(message2);
	}

	[TestMethod]
	public void SerializePackedExtensions()
	{
	// TestPackedTypes and TestPackedExtensions should have compatible wire
	// formats; check that they serialize to the same string.
	TestPackedExtensions message = TestUtil.GetPackedExtensionsSet();
	ByteString rawBytes = message.ToByteString();

	TestPackedTypes message2 = TestUtil.GetPackedSet();
	ByteString rawBytes2 = message2.ToByteString();

	Assert.AreEqual(rawBytes, rawBytes2);
	}

	[TestMethod]
	public void SerializeDelimited()
	{
	MemoryStream stream = new MemoryStream();
	TestUtil.GetAllSet().WriteDelimitedTo(stream);
	stream.WriteByte(12);
	TestUtil.GetPackedSet().WriteDelimitedTo(stream);
	stream.WriteByte(34);

	stream.Position = 0;

	TestUtil.AssertAllFieldsSet(TestAllTypes.ParseDelimitedFrom(stream));
	Assert.AreEqual(12, stream.ReadByte());
	TestUtil.AssertPackedFieldsSet(TestPackedTypes.ParseDelimitedFrom(stream));
	Assert.AreEqual(34, stream.ReadByte());
	Assert.AreEqual(-1, stream.ReadByte());
	}

	[TestMethod]
	public void ParseExtensions()
	{
	// TestAllTypes and TestAllExtensions should have compatible wire formats,
	// so if we serealize a TestAllTypes then parse it as TestAllExtensions
	// it should work.

	TestAllTypes message = TestUtil.GetAllSet();
	ByteString rawBytes = message.ToByteString();

	ExtensionRegistry registry = ExtensionRegistry.CreateInstance();
	TestUtil.RegisterAllExtensions(registry);
	registry = registry.AsReadOnly();

	TestAllExtensions message2 = TestAllExtensions.ParseFrom(rawBytes, registry);

	TestUtil.AssertAllExtensionsSet(message2);
	}

	[TestMethod]
	public void ParsePackedExtensions()
	{
	// Ensure that packed extensions can be properly parsed.
	TestPackedExtensions message = TestUtil.GetPackedExtensionsSet();
	ByteString rawBytes = message.ToByteString();

	ExtensionRegistry registry = TestUtil.CreateExtensionRegistry();

	TestPackedExtensions message2 = TestPackedExtensions.ParseFrom(rawBytes, registry);
	TestUtil.AssertPackedExtensionsSet(message2);
	}

	[TestMethod]
	public void ExtensionsSerializedSize()
	{
	Assert.AreEqual(TestUtil.GetAllSet().SerializedSize, TestUtil.GetAllExtensionsSet().SerializedSize);
	}

	private static void AssertFieldsInOrder(ByteString data)
	{
	CodedInputStream input = data.CreateCodedInput();
	uint previousTag = 0;

	uint tag;
	string name;
	while (input.ReadTag(out tag, out name))
	{
	Assert.IsTrue(tag > previousTag);
	previousTag = tag;
	input.SkipField();
	}
	}

	[TestMethod]
	public void InterleavedFieldsAndExtensions()
	{
	// Tests that fields are written in order even when extension ranges
	// are interleaved with field numbers.
	ByteString data =
	TestFieldOrderings.CreateBuilder()
	.SetMyInt(1)
	.SetMyString("foo")
	.SetMyFloat(1.0F)
	.SetExtension(UnitTestProtoFile.MyExtensionInt, 23)
	.SetExtension(UnitTestProtoFile.MyExtensionString, "bar")
	.Build().ToByteString();
	AssertFieldsInOrder(data);

	MessageDescriptor descriptor = TestFieldOrderings.Descriptor;
	ByteString dynamic_data =
	DynamicMessage.CreateBuilder(TestFieldOrderings.Descriptor)
	.SetField(descriptor.FindDescriptor<FieldDescriptor>("my_int"), 1L)
	.SetField(descriptor.FindDescriptor<FieldDescriptor>("my_string"), "foo")
	.SetField(descriptor.FindDescriptor<FieldDescriptor>("my_float"), 1.0F)
	.SetField(UnitTestProtoFile.MyExtensionInt.Descriptor, 23)
	.SetField(UnitTestProtoFile.MyExtensionString.Descriptor, "bar")
	.WeakBuild().ToByteString();
	AssertFieldsInOrder(dynamic_data);
	}

	private const int UnknownTypeId = 1550055;
	private static readonly int TypeId1 = TestMessageSetExtension1.Descriptor.Extensions[0].FieldNumber;
	private static readonly int TypeId2 = TestMessageSetExtension2.Descriptor.Extensions[0].FieldNumber;

	[TestMethod]
	public void SerializeMessageSet()
	{
	// Set up a TestMessageSet with two known messages and an unknown one.
	TestMessageSet messageSet =
	TestMessageSet.CreateBuilder()
	.SetExtension(
	TestMessageSetExtension1.MessageSetExtension,
	TestMessageSetExtension1.CreateBuilder().SetI(123).Build())
	.SetExtension(
	TestMessageSetExtension2.MessageSetExtension,
	TestMessageSetExtension2.CreateBuilder().SetStr("foo").Build())
	.SetUnknownFields(
	UnknownFieldSet.CreateBuilder()
	.AddField(UnknownTypeId,
	UnknownField.CreateBuilder()
	.AddLengthDelimited(ByteString.CopyFromUtf8("bar"))
	.Build())
	.Build())
	.Build();

	ByteString data = messageSet.ToByteString();

	// Parse back using RawMessageSet and check the contents.
	RawMessageSet raw = RawMessageSet.ParseFrom(data);

	Assert.AreEqual(0, raw.UnknownFields.FieldDictionary.Count);

	Assert.AreEqual(3, raw.ItemCount);
	Assert.AreEqual(TypeId1, raw.ItemList[0].TypeId);
	Assert.AreEqual(TypeId2, raw.ItemList[1].TypeId);
	Assert.AreEqual(UnknownTypeId, raw.ItemList[2].TypeId);

	TestMessageSetExtension1 message1 = TestMessageSetExtension1.ParseFrom(raw.GetItem(0).Message.ToByteArray());
	Assert.AreEqual(123, message1.I);

	TestMessageSetExtension2 message2 = TestMessageSetExtension2.ParseFrom(raw.GetItem(1).Message.ToByteArray());
	Assert.AreEqual("foo", message2.Str);

	Assert.AreEqual("bar", raw.GetItem(2).Message.ToStringUtf8());
	}

	[TestMethod]
	public void ParseMessageSet()
	{
	ExtensionRegistry extensionRegistry = ExtensionRegistry.CreateInstance();
	extensionRegistry.Add(TestMessageSetExtension1.MessageSetExtension);
	extensionRegistry.Add(TestMessageSetExtension2.MessageSetExtension);

	// Set up a RawMessageSet with two known messages and an unknown one.
	RawMessageSet raw =
	RawMessageSet.CreateBuilder()
	.AddItem(
	RawMessageSet.Types.Item.CreateBuilder()
	.SetTypeId(TypeId1)
	.SetMessage(
	TestMessageSetExtension1.CreateBuilder()
	.SetI(123)
	.Build().ToByteString())
	.Build())
	.AddItem(
	RawMessageSet.Types.Item.CreateBuilder()
	.SetTypeId(TypeId2)
	.SetMessage(
	TestMessageSetExtension2.CreateBuilder()
	.SetStr("foo")
	.Build().ToByteString())
	.Build())
	.AddItem(
	RawMessageSet.Types.Item.CreateBuilder()
	.SetTypeId(UnknownTypeId)
	.SetMessage(ByteString.CopyFromUtf8("bar"))
	.Build())
	.Build();

	ByteString data = raw.ToByteString();

	// Parse as a TestMessageSet and check the contents.
	TestMessageSet messageSet =
	TestMessageSet.ParseFrom(data, extensionRegistry);

	Assert.AreEqual(123, messageSet.GetExtension(TestMessageSetExtension1.MessageSetExtension).I);
	Assert.AreEqual("foo", messageSet.GetExtension(TestMessageSetExtension2.MessageSetExtension).Str);

	// Check for unknown field with type LENGTH_DELIMITED,
	// number UNKNOWN_TYPE_ID, and contents "bar".
	UnknownFieldSet unknownFields = messageSet.UnknownFields;
	Assert.AreEqual(1, unknownFields.FieldDictionary.Count);
	Assert.IsTrue(unknownFields.HasField(UnknownTypeId));

	UnknownField field = unknownFields[UnknownTypeId];
	Assert.AreEqual(1, field.LengthDelimitedList.Count);
	Assert.AreEqual("bar", field.LengthDelimitedList[0].ToStringUtf8());
	}
	}
	}