#region Copyright notice and license // Protocol Buffers - Google's data interchange format // Copyright 2015 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.IO; using Google.Protobuf.TestProtos; using NUnit.Framework; using System.Collections; using System.Collections.Generic; using System.Linq; using Google.Protobuf.WellKnownTypes; namespace Google.Protobuf { /// <summary> /// Tests around the generated TestAllTypes message. /// </summary> public class GeneratedMessageTest { [Test] public void EmptyMessageFieldDistinctFromMissingMessageField() { // This demonstrates what we're really interested in... var message1 = new TestAllTypes { SingleForeignMessage = new ForeignMessage() }; var message2 = new TestAllTypes(); // SingleForeignMessage is null EqualityTester.AssertInequality(message1, message2); } [Test] public void DefaultValues() { // Single fields var message = new TestAllTypes(); Assert.AreEqual(false, message.SingleBool); Assert.AreEqual(ByteString.Empty, message.SingleBytes); Assert.AreEqual(0.0, message.SingleDouble); Assert.AreEqual(0, message.SingleFixed32); Assert.AreEqual(0L, message.SingleFixed64); Assert.AreEqual(0.0f, message.SingleFloat); Assert.AreEqual(ForeignEnum.ForeignUnspecified, message.SingleForeignEnum); Assert.IsNull(message.SingleForeignMessage); Assert.AreEqual(ImportEnum.Unspecified, message.SingleImportEnum); Assert.IsNull(message.SingleImportMessage); Assert.AreEqual(0, message.SingleInt32); Assert.AreEqual(0L, message.SingleInt64); Assert.AreEqual(TestAllTypes.Types.NestedEnum.Unspecified, message.SingleNestedEnum); Assert.IsNull(message.SingleNestedMessage); Assert.IsNull(message.SinglePublicImportMessage); Assert.AreEqual(0, message.SingleSfixed32); Assert.AreEqual(0L, message.SingleSfixed64); Assert.AreEqual(0, message.SingleSint32); Assert.AreEqual(0L, message.SingleSint64); Assert.AreEqual("", message.SingleString); Assert.AreEqual(0U, message.SingleUint32); Assert.AreEqual(0UL, message.SingleUint64); // Repeated fields Assert.AreEqual(0, message.RepeatedBool.Count); Assert.AreEqual(0, message.RepeatedBytes.Count); Assert.AreEqual(0, message.RepeatedDouble.Count); Assert.AreEqual(0, message.RepeatedFixed32.Count); Assert.AreEqual(0, message.RepeatedFixed64.Count); Assert.AreEqual(0, message.RepeatedFloat.Count); Assert.AreEqual(0, message.RepeatedForeignEnum.Count); Assert.AreEqual(0, message.RepeatedForeignMessage.Count); Assert.AreEqual(0, message.RepeatedImportEnum.Count); Assert.AreEqual(0, message.RepeatedImportMessage.Count); Assert.AreEqual(0, message.RepeatedNestedEnum.Count); Assert.AreEqual(0, message.RepeatedNestedMessage.Count); Assert.AreEqual(0, message.RepeatedPublicImportMessage.Count); Assert.AreEqual(0, message.RepeatedSfixed32.Count); Assert.AreEqual(0, message.RepeatedSfixed64.Count); Assert.AreEqual(0, message.RepeatedSint32.Count); Assert.AreEqual(0, message.RepeatedSint64.Count); Assert.AreEqual(0, message.RepeatedString.Count); Assert.AreEqual(0, message.RepeatedUint32.Count); Assert.AreEqual(0, message.RepeatedUint64.Count); // Oneof fields Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.None, message.OneofFieldCase); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual("", message.OneofString); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); } [Test] public void NullStringAndBytesRejected() { var message = new TestAllTypes(); Assert.Throws<ArgumentNullException>(() => message.SingleString = null); Assert.Throws<ArgumentNullException>(() => message.OneofString = null); Assert.Throws<ArgumentNullException>(() => message.SingleBytes = null); Assert.Throws<ArgumentNullException>(() => message.OneofBytes = null); } [Test] public void RoundTrip_Empty() { var message = new TestAllTypes(); // Without setting any values, there's nothing to write. byte[] bytes = message.ToByteArray(); Assert.AreEqual(0, bytes.Length); TestAllTypes parsed = TestAllTypes.Parser.ParseFrom(bytes); Assert.AreEqual(message, parsed); } [Test] public void RoundTrip_SingleValues() { var message = new TestAllTypes { SingleBool = true, SingleBytes = ByteString.CopyFrom(1, 2, 3, 4), SingleDouble = 23.5, SingleFixed32 = 23, SingleFixed64 = 1234567890123, SingleFloat = 12.25f, SingleForeignEnum = ForeignEnum.ForeignBar, SingleForeignMessage = new ForeignMessage { C = 10 }, SingleImportEnum = ImportEnum.ImportBaz, SingleImportMessage = new ImportMessage { D = 20 }, SingleInt32 = 100, SingleInt64 = 3210987654321, SingleNestedEnum = TestAllTypes.Types.NestedEnum.Foo, SingleNestedMessage = new TestAllTypes.Types.NestedMessage { Bb = 35 }, SinglePublicImportMessage = new PublicImportMessage { E = 54 }, SingleSfixed32 = -123, SingleSfixed64 = -12345678901234, SingleSint32 = -456, SingleSint64 = -12345678901235, SingleString = "test", SingleUint32 = uint.MaxValue, SingleUint64 = ulong.MaxValue }; byte[] bytes = message.ToByteArray(); TestAllTypes parsed = TestAllTypes.Parser.ParseFrom(bytes); Assert.AreEqual(message, parsed); } [Test] public void RoundTrip_RepeatedValues() { var message = new TestAllTypes { RepeatedBool = { true, false }, RepeatedBytes = { ByteString.CopyFrom(1, 2, 3, 4), ByteString.CopyFrom(5, 6) }, RepeatedDouble = { -12.25, 23.5 }, RepeatedFixed32 = { uint.MaxValue, 23 }, RepeatedFixed64 = { ulong.MaxValue, 1234567890123 }, RepeatedFloat = { 100f, 12.25f }, RepeatedForeignEnum = { ForeignEnum.ForeignFoo, ForeignEnum.ForeignBar }, RepeatedForeignMessage = { new ForeignMessage(), new ForeignMessage { C = 10 } }, RepeatedImportEnum = { ImportEnum.ImportBaz, ImportEnum.Unspecified }, RepeatedImportMessage = { new ImportMessage { D = 20 }, new ImportMessage { D = 25 } }, RepeatedInt32 = { 100, 200 }, RepeatedInt64 = { 3210987654321, long.MaxValue }, RepeatedNestedEnum = { TestAllTypes.Types.NestedEnum.Foo, TestAllTypes.Types.NestedEnum.Neg }, RepeatedNestedMessage = { new TestAllTypes.Types.NestedMessage { Bb = 35 }, new TestAllTypes.Types.NestedMessage { Bb = 10 } }, RepeatedPublicImportMessage = { new PublicImportMessage { E = 54 }, new PublicImportMessage { E = -1 } }, RepeatedSfixed32 = { -123, 123 }, RepeatedSfixed64 = { -12345678901234, 12345678901234 }, RepeatedSint32 = { -456, 100 }, RepeatedSint64 = { -12345678901235, 123 }, RepeatedString = { "foo", "bar" }, RepeatedUint32 = { uint.MaxValue, uint.MinValue }, RepeatedUint64 = { ulong.MaxValue, uint.MinValue } }; byte[] bytes = message.ToByteArray(); TestAllTypes parsed = TestAllTypes.Parser.ParseFrom(bytes); Assert.AreEqual(message, parsed); } // Note that not every map within map_unittest_proto3 is used. They all go through very // similar code paths. The fact that all maps are present is validation that we have codecs // for every type. [Test] public void RoundTrip_Maps() { var message = new TestMap { MapBoolBool = { { false, true }, { true, false } }, MapInt32Bytes = { { 5, ByteString.CopyFrom(6, 7, 8) }, { 25, ByteString.CopyFrom(1, 2, 3, 4, 5) }, { 10, ByteString.Empty } }, MapInt32ForeignMessage = { { 0, new ForeignMessage { C = 10 } }, { 5, new ForeignMessage() }, }, MapInt32Enum = { { 1, MapEnum.Bar }, { 2000, MapEnum.Foo } } }; byte[] bytes = message.ToByteArray(); TestMap parsed = TestMap.Parser.ParseFrom(bytes); Assert.AreEqual(message, parsed); } [Test] public void MapWithEmptyEntry() { var message = new TestMap { MapInt32Bytes = { { 0, ByteString.Empty } } }; byte[] bytes = message.ToByteArray(); Assert.AreEqual(2, bytes.Length); // Tag for field entry (1 byte), length of entry (0; 1 byte) var parsed = TestMap.Parser.ParseFrom(bytes); Assert.AreEqual(1, parsed.MapInt32Bytes.Count); Assert.AreEqual(ByteString.Empty, parsed.MapInt32Bytes[0]); } [Test] public void MapWithOnlyValue() { // Hand-craft the stream to contain a single entry with just a value. var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); output.WriteTag(TestMap.MapInt32ForeignMessageFieldNumber, WireFormat.WireType.LengthDelimited); var nestedMessage = new ForeignMessage { C = 20 }; // Size of the entry (tag, size written by WriteMessage, data written by WriteMessage) output.WriteLength(2 + nestedMessage.CalculateSize()); output.WriteTag(2, WireFormat.WireType.LengthDelimited); output.WriteMessage(nestedMessage); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(nestedMessage, parsed.MapInt32ForeignMessage[0]); } [Test] public void MapWithOnlyKey_PrimitiveValue() { // Hand-craft the stream to contain a single entry with just a key. var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); output.WriteTag(TestMap.MapInt32DoubleFieldNumber, WireFormat.WireType.LengthDelimited); int key = 10; output.WriteLength(1 + CodedOutputStream.ComputeInt32Size(key)); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(0.0, parsed.MapInt32Double[key]); } [Test] public void MapWithOnlyKey_MessageValue() { // Hand-craft the stream to contain a single entry with just a key. var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); output.WriteTag(TestMap.MapInt32ForeignMessageFieldNumber, WireFormat.WireType.LengthDelimited); int key = 10; output.WriteLength(1 + CodedOutputStream.ComputeInt32Size(key)); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(new ForeignMessage(), parsed.MapInt32ForeignMessage[key]); } [Test] public void MapIgnoresExtraFieldsWithinEntryMessages() { // Hand-craft the stream to contain a single entry with three fields var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); var key = 10; // Field 1 var value = 20; // Field 2 var extra = 30; // Field 3 // Each field can be represented in a single byte, with a single byte tag. // Total message size: 6 bytes. output.WriteLength(6); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value); output.WriteTag(3, WireFormat.WireType.Varint); output.WriteInt32(extra); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(value, parsed.MapInt32Int32[key]); } [Test] public void MapFieldOrderIsIrrelevant() { var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); var key = 10; var value = 20; // Each field can be represented in a single byte, with a single byte tag. // Total message size: 4 bytes. output.WriteLength(4); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(value, parsed.MapInt32Int32[key]); } [Test] public void MapNonContiguousEntries() { var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); // Message structure: // Entry for MapInt32Int32 // Entry for MapStringString // Entry for MapInt32Int32 // First entry var key1 = 10; var value1 = 20; output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); output.WriteLength(4); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key1); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value1); // Second entry var key2 = "a"; var value2 = "b"; output.WriteTag(TestMap.MapStringStringFieldNumber, WireFormat.WireType.LengthDelimited); output.WriteLength(6); // 3 bytes per entry: tag, size, character output.WriteTag(1, WireFormat.WireType.LengthDelimited); output.WriteString(key2); output.WriteTag(2, WireFormat.WireType.LengthDelimited); output.WriteString(value2); // Third entry var key3 = 15; var value3 = 25; output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); output.WriteLength(4); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key3); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value3); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); var expected = new TestMap { MapInt32Int32 = { { key1, value1 }, { key3, value3 } }, MapStringString = { { key2, value2 } } }; Assert.AreEqual(expected, parsed); } [Test] public void DuplicateKeys_LastEntryWins() { var memoryStream = new MemoryStream(); var output = new CodedOutputStream(memoryStream); var key = 10; var value1 = 20; var value2 = 30; // First entry output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); output.WriteLength(4); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value1); // Second entry - same key, different value output.WriteTag(TestMap.MapInt32Int32FieldNumber, WireFormat.WireType.LengthDelimited); output.WriteLength(4); output.WriteTag(1, WireFormat.WireType.Varint); output.WriteInt32(key); output.WriteTag(2, WireFormat.WireType.Varint); output.WriteInt32(value2); output.Flush(); var parsed = TestMap.Parser.ParseFrom(memoryStream.ToArray()); Assert.AreEqual(value2, parsed.MapInt32Int32[key]); } [Test] public void CloneSingleNonMessageValues() { var original = new TestAllTypes { SingleBool = true, SingleBytes = ByteString.CopyFrom(1, 2, 3, 4), SingleDouble = 23.5, SingleFixed32 = 23, SingleFixed64 = 1234567890123, SingleFloat = 12.25f, SingleInt32 = 100, SingleInt64 = 3210987654321, SingleNestedEnum = TestAllTypes.Types.NestedEnum.Foo, SingleSfixed32 = -123, SingleSfixed64 = -12345678901234, SingleSint32 = -456, SingleSint64 = -12345678901235, SingleString = "test", SingleUint32 = uint.MaxValue, SingleUint64 = ulong.MaxValue }; var clone = original.Clone(); Assert.AreNotSame(original, clone); Assert.AreEqual(original, clone); // Just as a single example clone.SingleInt32 = 150; Assert.AreNotEqual(original, clone); } [Test] public void CloneRepeatedNonMessageValues() { var original = new TestAllTypes { RepeatedBool = { true, false }, RepeatedBytes = { ByteString.CopyFrom(1, 2, 3, 4), ByteString.CopyFrom(5, 6) }, RepeatedDouble = { -12.25, 23.5 }, RepeatedFixed32 = { uint.MaxValue, 23 }, RepeatedFixed64 = { ulong.MaxValue, 1234567890123 }, RepeatedFloat = { 100f, 12.25f }, RepeatedInt32 = { 100, 200 }, RepeatedInt64 = { 3210987654321, long.MaxValue }, RepeatedNestedEnum = { TestAllTypes.Types.NestedEnum.Foo, TestAllTypes.Types.NestedEnum.Neg }, RepeatedSfixed32 = { -123, 123 }, RepeatedSfixed64 = { -12345678901234, 12345678901234 }, RepeatedSint32 = { -456, 100 }, RepeatedSint64 = { -12345678901235, 123 }, RepeatedString = { "foo", "bar" }, RepeatedUint32 = { uint.MaxValue, uint.MinValue }, RepeatedUint64 = { ulong.MaxValue, uint.MinValue } }; var clone = original.Clone(); Assert.AreNotSame(original, clone); Assert.AreEqual(original, clone); // Just as a single example clone.RepeatedDouble.Add(25.5); Assert.AreNotEqual(original, clone); } [Test] public void CloneSingleMessageField() { var original = new TestAllTypes { SingleNestedMessage = new TestAllTypes.Types.NestedMessage { Bb = 20 } }; var clone = original.Clone(); Assert.AreNotSame(original, clone); Assert.AreNotSame(original.SingleNestedMessage, clone.SingleNestedMessage); Assert.AreEqual(original, clone); clone.SingleNestedMessage.Bb = 30; Assert.AreNotEqual(original, clone); } [Test] public void CloneRepeatedMessageField() { var original = new TestAllTypes { RepeatedNestedMessage = { new TestAllTypes.Types.NestedMessage { Bb = 20 } } }; var clone = original.Clone(); Assert.AreNotSame(original, clone); Assert.AreNotSame(original.RepeatedNestedMessage, clone.RepeatedNestedMessage); Assert.AreNotSame(original.RepeatedNestedMessage[0], clone.RepeatedNestedMessage[0]); Assert.AreEqual(original, clone); clone.RepeatedNestedMessage[0].Bb = 30; Assert.AreNotEqual(original, clone); } [Test] public void CloneOneofField() { var original = new TestAllTypes { OneofNestedMessage = new TestAllTypes.Types.NestedMessage { Bb = 20 } }; var clone = original.Clone(); Assert.AreNotSame(original, clone); Assert.AreEqual(original, clone); // We should have cloned the message original.OneofNestedMessage.Bb = 30; Assert.AreNotEqual(original, clone); } [Test] public void OneofProperties() { // Switch the oneof case between each of the different options, and check everything behaves // as expected in each case. var message = new TestAllTypes(); Assert.AreEqual("", message.OneofString); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.None, message.OneofFieldCase); message.OneofString = "sample"; Assert.AreEqual("sample", message.OneofString); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofString, message.OneofFieldCase); var bytes = ByteString.CopyFrom(1, 2, 3); message.OneofBytes = bytes; Assert.AreEqual("", message.OneofString); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual(bytes, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofBytes, message.OneofFieldCase); message.OneofUint32 = 20; Assert.AreEqual("", message.OneofString); Assert.AreEqual(20, message.OneofUint32); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofUint32, message.OneofFieldCase); var nestedMessage = new TestAllTypes.Types.NestedMessage { Bb = 25 }; message.OneofNestedMessage = nestedMessage; Assert.AreEqual("", message.OneofString); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.AreEqual(nestedMessage, message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofNestedMessage, message.OneofFieldCase); message.ClearOneofField(); Assert.AreEqual("", message.OneofString); Assert.AreEqual(0, message.OneofUint32); Assert.AreEqual(ByteString.Empty, message.OneofBytes); Assert.IsNull(message.OneofNestedMessage); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.None, message.OneofFieldCase); } [Test] public void Oneof_DefaultValuesNotEqual() { var message1 = new TestAllTypes { OneofString = "" }; var message2 = new TestAllTypes { OneofUint32 = 0 }; Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofString, message1.OneofFieldCase); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofUint32, message2.OneofFieldCase); Assert.AreNotEqual(message1, message2); } [Test] public void OneofSerialization_NonDefaultValue() { var message = new TestAllTypes(); message.OneofString = "this would take a bit of space"; message.OneofUint32 = 10; var bytes = message.ToByteArray(); Assert.AreEqual(3, bytes.Length); // 2 bytes for the tag + 1 for the value - no string! var message2 = TestAllTypes.Parser.ParseFrom(bytes); Assert.AreEqual(message, message2); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofUint32, message2.OneofFieldCase); } [Test] public void OneofSerialization_DefaultValue() { var message = new TestAllTypes(); message.OneofString = "this would take a bit of space"; message.OneofUint32 = 0; // This is the default value for UInt32; normally wouldn't be serialized var bytes = message.ToByteArray(); Assert.AreEqual(3, bytes.Length); // 2 bytes for the tag + 1 for the value - it's still serialized var message2 = TestAllTypes.Parser.ParseFrom(bytes); Assert.AreEqual(message, message2); Assert.AreEqual(TestAllTypes.OneofFieldOneofCase.OneofUint32, message2.OneofFieldCase); } [Test] public void IgnoreUnknownFields_RealDataStillRead() { var message = SampleMessages.CreateFullTestAllTypes(); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); var unusedFieldNumber = 23456; Assert.IsFalse(TestAllTypes.Descriptor.Fields.InDeclarationOrder().Select(x => x.FieldNumber).Contains(unusedFieldNumber)); output.WriteTag(unusedFieldNumber, WireFormat.WireType.LengthDelimited); output.WriteString("ignore me"); message.WriteTo(output); output.Flush(); stream.Position = 0; var parsed = TestAllTypes.Parser.ParseFrom(stream); Assert.AreEqual(message, parsed); } [Test] public void IgnoreUnknownFields_AllTypes() { // Simple way of ensuring we can skip all kinds of fields. var data = SampleMessages.CreateFullTestAllTypes().ToByteArray(); var empty = Empty.Parser.ParseFrom(data); Assert.AreEqual(new Empty(), empty); } // This was originally seen as a conformance test failure. [Test] public void TruncatedMessageFieldThrows() { // 130, 3 is the message tag // 1 is the data length - but there's no data. var data = new byte[] { 130, 3, 1 }; Assert.Throws<InvalidProtocolBufferException>(() => TestAllTypes.Parser.ParseFrom(data)); } /// <summary> /// Demonstrates current behaviour with an extraneous end group tag - see issue 688 /// for details; we may want to change this. /// </summary> [Test] public void ExtraEndGroupThrows() { var message = SampleMessages.CreateFullTestAllTypes(); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); output.WriteTag(TestAllTypes.SingleFixed32FieldNumber, WireFormat.WireType.Fixed32); output.WriteFixed32(123); output.WriteTag(100, WireFormat.WireType.EndGroup); output.Flush(); stream.Position = 0; Assert.Throws<InvalidProtocolBufferException>(() => TestAllTypes.Parser.ParseFrom(stream)); } [Test] public void CustomDiagnosticMessage_DirectToStringCall() { var message = new ForeignMessage { C = 31 }; Assert.AreEqual("{ \"c\": 31, \"@cInHex\": \"1f\" }", message.ToString()); Assert.AreEqual("{ \"c\": 31 }", JsonFormatter.Default.Format(message)); } [Test] public void CustomDiagnosticMessage_Nested() { var message = new TestAllTypes { SingleForeignMessage = new ForeignMessage { C = 16 } }; Assert.AreEqual("{ \"singleForeignMessage\": { \"c\": 16, \"@cInHex\": \"10\" } }", message.ToString()); Assert.AreEqual("{ \"singleForeignMessage\": { \"c\": 16 } }", JsonFormatter.Default.Format(message)); } [Test] public void CustomDiagnosticMessage_DirectToTextWriterCall() { var message = new ForeignMessage { C = 31 }; var writer = new StringWriter(); JsonFormatter.Default.Format(message, writer); Assert.AreEqual("{ \"c\": 31 }", writer.ToString()); } } }