lib/netstd/Tests/Thrift.IntegrationTests/Protocols/ProtocolsOperationsTests.cs - packaging/sources/thrift - Gitiles

 // Licensed to the Apache Software Foundation(ASF) under one
 // or more contributor license agreements.See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License. You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing,
 // software distributed under the License is distributed on an
 // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 // KIND, either express or implied. See the License for the
 // specific language governing permissions and limitations
 // under the License.

 using System;
 using System.IO;
 using System.Text;
 using System.Threading.Tasks;
 using KellermanSoftware.CompareNetObjects;
 using Microsoft.VisualStudio.TestTools.UnitTesting;
 using Thrift.Protocol;
 using Thrift.Protocol.Entities;
 using Thrift.Transport.Client;

 namespace Thrift.IntegrationTests.Protocols
 {
     [TestClass]
     public class ProtocolsOperationsTests
     {
         private readonly CompareLogic _compareLogic = new CompareLogic();
         private static readonly TConfiguration Configuration = null;  // or new TConfiguration() if needed

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol), TMessageType.Call)]
         [DataRow(typeof(TBinaryProtocol), TMessageType.Exception)]
         [DataRow(typeof(TBinaryProtocol), TMessageType.Oneway)]
         [DataRow(typeof(TBinaryProtocol), TMessageType.Reply)]
         [DataRow(typeof(TCompactProtocol), TMessageType.Call)]
         [DataRow(typeof(TCompactProtocol), TMessageType.Exception)]
         [DataRow(typeof(TCompactProtocol), TMessageType.Oneway)]
         [DataRow(typeof(TCompactProtocol), TMessageType.Reply)]
         [DataRow(typeof(TJsonProtocol), TMessageType.Call)]
         [DataRow(typeof(TJsonProtocol), TMessageType.Exception)]
         [DataRow(typeof(TJsonProtocol), TMessageType.Oneway)]
         [DataRow(typeof(TJsonProtocol), TMessageType.Reply)]
         public async Task WriteReadMessage_Test(Type protocolType, TMessageType messageType)
         {
             var expected = new TMessage(nameof(TMessage), messageType, 1);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteMessageBeginAsync(expected, default);
                     await protocol.WriteMessageEndAsync(default);

                     stream.Seek(0, SeekOrigin.Begin);

                     var actualMessage = await protocol.ReadMessageBeginAsync(default);
                     await protocol.ReadMessageEndAsync(default);

                     var result = _compareLogic.Compare(expected, actualMessage);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         [ExpectedException(typeof(Exception))]
         public async Task WriteReadStruct_Test(Type protocolType)
         {
             var expected = new TStruct(nameof(TStruct));

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteStructBeginAsync(expected, default);
                     await protocol.WriteStructEndAsync(default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadStructBeginAsync(default);
                     await protocol.ReadStructEndAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }

             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         [ExpectedException(typeof(Exception))]
         public async Task WriteReadField_Test(Type protocolType)
         {
             var expected = new TField(nameof(TField), TType.String, 1);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteFieldBeginAsync(expected, default);
                     await protocol.WriteFieldEndAsync(default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadFieldBeginAsync(default);
                     await protocol.ReadFieldEndAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadMap_Test(Type protocolType)
         {
             var expected = new TMap(TType.String, TType.String, 1);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteMapBeginAsync(expected, default);
                     await protocol.WriteMapEndAsync(default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadMapBeginAsync(default);
                     await protocol.ReadMapEndAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }

         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadList_Test(Type protocolType)
         {
             var expected = new TList(TType.String, 1);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteListBeginAsync(expected, default);
                     await protocol.WriteListEndAsync(default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadListBeginAsync(default);
                     await protocol.ReadListEndAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadSet_Test(Type protocolType)
         {
             var expected = new TSet(TType.String, 1);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteSetBeginAsync(expected, default);
                     await protocol.WriteSetEndAsync(default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadSetBeginAsync(default);
                     await protocol.ReadSetEndAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadBool_Test(Type protocolType)
         {
             var expected = true;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteBoolAsync(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadBoolAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadByte_Test(Type protocolType)
         {
             var expected = sbyte.MaxValue;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteByteAsync(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadByteAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadI16_Test(Type protocolType)
         {
             var expected = short.MaxValue;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteI16Async(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadI16Async(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadI32_Test(Type protocolType)
         {
             var expected = int.MaxValue;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteI32Async(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadI32Async(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadI64_Test(Type protocolType)
         {
             var expected = long.MaxValue;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteI64Async(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadI64Async(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadDouble_Test(Type protocolType)
         {
             var expected = double.MaxValue;

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteDoubleAsync(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadDoubleAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadString_Test(Type protocolType)
         {
             var expected = nameof(String);

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteStringAsync(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadStringAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         [DataTestMethod]
         [DataRow(typeof(TBinaryProtocol))]
         [DataRow(typeof(TCompactProtocol))]
         [DataRow(typeof(TJsonProtocol))]
         public async Task WriteReadBinary_Test(Type protocolType)
         {
             var expected = Encoding.UTF8.GetBytes(nameof(String));

             try
             {
                 var tuple = GetProtocolInstance(protocolType);
                 using (var stream = tuple.Item1)
                 {
                     var protocol = tuple.Item2;

                     await protocol.WriteBinaryAsync(expected, default);

                     stream?.Seek(0, SeekOrigin.Begin);

                     var actual = await protocol.ReadBinaryAsync(default);

                     var result = _compareLogic.Compare(expected, actual);
                     Assert.IsTrue(result.AreEqual, result.DifferencesString);
                 }
             }
             catch (Exception e)
             {
                 throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
             }
         }

         private static Tuple<Stream, TProtocol> GetProtocolInstance(Type protocolType)
         {
             var memoryStream = new MemoryStream();
             var streamClientTransport = new TStreamTransport(memoryStream, memoryStream,Configuration);
             var protocol = (TProtocol) Activator.CreateInstance(protocolType, streamClientTransport);
             return new Tuple<Stream, TProtocol>(memoryStream, protocol);
         }
     }
 }
	// Licensed to the Apache Software Foundation(ASF) under one
	// or more contributor license agreements.See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership.The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing,
	// software distributed under the License is distributed on an
	// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	// KIND, either express or implied. See the License for the
	// specific language governing permissions and limitations
	// under the License.

	using System;
	using System.IO;
	using System.Text;
	using System.Threading.Tasks;
	using KellermanSoftware.CompareNetObjects;
	using Microsoft.VisualStudio.TestTools.UnitTesting;
	using Thrift.Protocol;
	using Thrift.Protocol.Entities;
	using Thrift.Transport.Client;

	namespace Thrift.IntegrationTests.Protocols
	{
	[TestClass]
	public class ProtocolsOperationsTests
	{
	private readonly CompareLogic _compareLogic = new CompareLogic();
	private static readonly TConfiguration Configuration = null; // or new TConfiguration() if needed

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol), TMessageType.Call)]
	[DataRow(typeof(TBinaryProtocol), TMessageType.Exception)]
	[DataRow(typeof(TBinaryProtocol), TMessageType.Oneway)]
	[DataRow(typeof(TBinaryProtocol), TMessageType.Reply)]
	[DataRow(typeof(TCompactProtocol), TMessageType.Call)]
	[DataRow(typeof(TCompactProtocol), TMessageType.Exception)]
	[DataRow(typeof(TCompactProtocol), TMessageType.Oneway)]
	[DataRow(typeof(TCompactProtocol), TMessageType.Reply)]
	[DataRow(typeof(TJsonProtocol), TMessageType.Call)]
	[DataRow(typeof(TJsonProtocol), TMessageType.Exception)]
	[DataRow(typeof(TJsonProtocol), TMessageType.Oneway)]
	[DataRow(typeof(TJsonProtocol), TMessageType.Reply)]
	public async Task WriteReadMessage_Test(Type protocolType, TMessageType messageType)
	{
	var expected = new TMessage(nameof(TMessage), messageType, 1);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteMessageBeginAsync(expected, default);
	await protocol.WriteMessageEndAsync(default);

	stream.Seek(0, SeekOrigin.Begin);

	var actualMessage = await protocol.ReadMessageBeginAsync(default);
	await protocol.ReadMessageEndAsync(default);

	var result = _compareLogic.Compare(expected, actualMessage);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	[ExpectedException(typeof(Exception))]
	public async Task WriteReadStruct_Test(Type protocolType)
	{
	var expected = new TStruct(nameof(TStruct));

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteStructBeginAsync(expected, default);
	await protocol.WriteStructEndAsync(default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadStructBeginAsync(default);
	await protocol.ReadStructEndAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}

	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	[ExpectedException(typeof(Exception))]
	public async Task WriteReadField_Test(Type protocolType)
	{
	var expected = new TField(nameof(TField), TType.String, 1);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteFieldBeginAsync(expected, default);
	await protocol.WriteFieldEndAsync(default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadFieldBeginAsync(default);
	await protocol.ReadFieldEndAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadMap_Test(Type protocolType)
	{
	var expected = new TMap(TType.String, TType.String, 1);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteMapBeginAsync(expected, default);
	await protocol.WriteMapEndAsync(default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadMapBeginAsync(default);
	await protocol.ReadMapEndAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}

	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadList_Test(Type protocolType)
	{
	var expected = new TList(TType.String, 1);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteListBeginAsync(expected, default);
	await protocol.WriteListEndAsync(default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadListBeginAsync(default);
	await protocol.ReadListEndAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadSet_Test(Type protocolType)
	{
	var expected = new TSet(TType.String, 1);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteSetBeginAsync(expected, default);
	await protocol.WriteSetEndAsync(default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadSetBeginAsync(default);
	await protocol.ReadSetEndAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadBool_Test(Type protocolType)
	{
	var expected = true;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteBoolAsync(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadBoolAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadByte_Test(Type protocolType)
	{
	var expected = sbyte.MaxValue;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteByteAsync(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadByteAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadI16_Test(Type protocolType)
	{
	var expected = short.MaxValue;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteI16Async(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadI16Async(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadI32_Test(Type protocolType)
	{
	var expected = int.MaxValue;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteI32Async(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadI32Async(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadI64_Test(Type protocolType)
	{
	var expected = long.MaxValue;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteI64Async(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadI64Async(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadDouble_Test(Type protocolType)
	{
	var expected = double.MaxValue;

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteDoubleAsync(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadDoubleAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadString_Test(Type protocolType)
	{
	var expected = nameof(String);

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteStringAsync(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadStringAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	[DataTestMethod]
	[DataRow(typeof(TBinaryProtocol))]
	[DataRow(typeof(TCompactProtocol))]
	[DataRow(typeof(TJsonProtocol))]
	public async Task WriteReadBinary_Test(Type protocolType)
	{
	var expected = Encoding.UTF8.GetBytes(nameof(String));

	try
	{
	var tuple = GetProtocolInstance(protocolType);
	using (var stream = tuple.Item1)
	{
	var protocol = tuple.Item2;

	await protocol.WriteBinaryAsync(expected, default);

	stream?.Seek(0, SeekOrigin.Begin);

	var actual = await protocol.ReadBinaryAsync(default);

	var result = _compareLogic.Compare(expected, actual);
	Assert.IsTrue(result.AreEqual, result.DifferencesString);
	}
	}
	catch (Exception e)
	{
	throw new Exception($"Exception during testing of protocol: {protocolType.FullName}", e);
	}
	}

	private static Tuple<Stream, TProtocol> GetProtocolInstance(Type protocolType)
	{
	var memoryStream = new MemoryStream();
	var streamClientTransport = new TStreamTransport(memoryStream, memoryStream,Configuration);
	var protocol = (TProtocol) Activator.CreateInstance(protocolType, streamClientTransport);
	return new Tuple<Stream, TProtocol>(memoryStream, protocol);
	}
	}
	}