// 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. #pragma warning disable IDE0066 // switch expression #pragma warning disable IDE0057 // substring #pragma warning disable CS1998 // no await in async method using System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Linq; using System.Net; using System.Reflection; using System.Security.Authentication; using System.Security.Cryptography.X509Certificates; using System.ServiceModel; using System.Text; using System.Threading; using System.Threading.Tasks; using Thrift; using Thrift.Collections; using Thrift.Protocol; using Thrift.Transport; using Thrift.Transport.Client; namespace ThriftTest { internal enum ProtocolChoice { Binary, Compact, Json } // it does not make much sense to use buffered when we already use framed internal enum LayeredChoice { None, Buffered, Framed } internal enum TransportChoice { Socket, TlsSocket, Http, NamedPipe } public class TestClient { private class TestParams { public int numIterations = 1; public string host = "localhost"; public int port = 9090; public int numThreads = 1; public string url = string.Empty; public string pipe = string.Empty; public LayeredChoice layered = LayeredChoice.None; public ProtocolChoice protocol = ProtocolChoice.Binary; public TransportChoice transport = TransportChoice.Socket; private readonly TConfiguration Configuration = new(); internal void Parse(List args) { for (var i = 0; i < args.Count; ++i) { if (args[i] == "-u") { url = args[++i]; transport = TransportChoice.Http; } else if (args[i] == "-n") { numIterations = Convert.ToInt32(args[++i]); } else if (args[i].StartsWith("--pipe=")) { pipe = args[i].Substring(args[i].IndexOf("=") + 1); transport = TransportChoice.NamedPipe; } else if (args[i].StartsWith("--host=")) { // check there for ipaddress host = args[i].Substring(args[i].IndexOf("=") + 1); if (transport != TransportChoice.TlsSocket) transport = TransportChoice.Socket; } else if (args[i].StartsWith("--port=")) { port = int.Parse(args[i].Substring(args[i].IndexOf("=") + 1)); if (transport != TransportChoice.TlsSocket) transport = TransportChoice.Socket; } else if (args[i] == "-b" || args[i] == "--buffered" || args[i] == "--transport=buffered") { layered = LayeredChoice.Buffered; } else if (args[i] == "-f" || args[i] == "--framed" || args[i] == "--transport=framed") { layered = LayeredChoice.Framed; } else if (args[i] == "-t") { numThreads = Convert.ToInt32(args[++i]); } else if (args[i] == "--binary" || args[i] == "--protocol=binary") { protocol = ProtocolChoice.Binary; } else if (args[i] == "--compact" || args[i] == "--protocol=compact") { protocol = ProtocolChoice.Compact; } else if (args[i] == "--json" || args[i] == "--protocol=json") { protocol = ProtocolChoice.Json; } else if (args[i] == "--ssl") { transport = TransportChoice.TlsSocket; } else if (args[i] == "--help") { PrintOptionsHelp(); return; } else { Console.WriteLine("Invalid argument: {0}", args[i]); PrintOptionsHelp(); return; } } switch (transport) { case TransportChoice.Socket: Console.WriteLine("Using socket transport"); break; case TransportChoice.TlsSocket: Console.WriteLine("Using encrypted transport"); break; case TransportChoice.Http: Console.WriteLine("Using HTTP transport"); break; case TransportChoice.NamedPipe: Console.WriteLine("Using named pipes transport"); break; default: // unhandled case Debug.Assert(false); break; } switch (layered) { case LayeredChoice.Framed: Console.WriteLine("Using framed transport"); break; case LayeredChoice.Buffered: Console.WriteLine("Using buffered transport"); break; default: // unhandled case? Debug.Assert(layered == LayeredChoice.None); break; } switch (protocol) { case ProtocolChoice.Binary: Console.WriteLine("Using binary protocol"); break; case ProtocolChoice.Compact: Console.WriteLine("Using compact protocol"); break; case ProtocolChoice.Json: Console.WriteLine("Using JSON protocol"); break; default: // unhandled case? Debug.Assert(false); break; } } private static X509Certificate2 GetClientCert() { var clientCertName = "client.p12"; var possiblePaths = new List { "../../../keys/", "../../keys/", "../keys/", "keys/", }; var existingPath = string.Empty; foreach (var possiblePath in possiblePaths) { var path = Path.GetFullPath(possiblePath + clientCertName); if (File.Exists(path)) { existingPath = path; break; } } if (string.IsNullOrEmpty(existingPath)) { throw new FileNotFoundException($"Cannot find file: {clientCertName}"); } var cert = new X509Certificate2(existingPath, "thrift"); return cert; } public TTransport CreateTransport() { // endpoint transport TTransport trans; switch (transport) { case TransportChoice.Http: Debug.Assert(url != null); trans = new THttpTransport(new Uri(url), Configuration); break; case TransportChoice.NamedPipe: Debug.Assert(pipe != null); trans = new TNamedPipeTransport(pipe,Configuration); break; case TransportChoice.TlsSocket: var cert = GetClientCert(); if (cert == null || !cert.HasPrivateKey) { throw new InvalidOperationException("Certificate doesn't contain private key"); } trans = new TTlsSocketTransport(host, port, Configuration, 0, cert, (sender, certificate, chain, errors) => true, null, SslProtocols.Tls | SslProtocols.Tls11 | SslProtocols.Tls12); break; case TransportChoice.Socket: default: trans = new TSocketTransport(host, port, Configuration); break; } // layered transport switch (layered) { case LayeredChoice.Buffered: trans = new TBufferedTransport(trans); break; case LayeredChoice.Framed: trans = new TFramedTransport(trans); break; default: Debug.Assert(layered == LayeredChoice.None); break; } return trans; } public TProtocol CreateProtocol(TTransport transport) { switch (protocol) { case ProtocolChoice.Compact: return new TCompactProtocol(transport); case ProtocolChoice.Json: return new TJsonProtocol(transport); case ProtocolChoice.Binary: default: return new TBinaryProtocol(transport); } } } private const int ErrorBaseTypes = 1; private const int ErrorStructs = 2; private const int ErrorContainers = 4; private const int ErrorExceptions = 8; private const int ErrorUnknown = 64; private class ClientTest { private readonly TTransport transport; private readonly ThriftTest.Client client; private readonly int numIterations; private bool done; public int ReturnCode { get; set; } public ClientTest(TestParams param) { transport = param.CreateTransport(); client = new ThriftTest.Client(param.CreateProtocol(transport)); numIterations = param.numIterations; } public async Task Execute() { if (done) { Console.WriteLine("Execute called more than once"); throw new InvalidOperationException(); } for (var i = 0; i < numIterations; i++) { try { if (!transport.IsOpen) await transport.OpenAsync(MakeTimeoutToken()); } catch (TTransportException ex) { Console.WriteLine("*** FAILED ***"); Console.WriteLine("Connect failed: " + ex.Message); ReturnCode |= ErrorUnknown; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); continue; } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); Console.WriteLine("Connect failed: " + ex.Message); ReturnCode |= ErrorUnknown; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); continue; } try { ReturnCode |= await ExecuteClientTest(client); } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); Console.WriteLine(ex.Message + "\n" + ex.StackTrace); ReturnCode |= ErrorUnknown; } } try { transport.Close(); } catch (Exception ex) { Console.WriteLine("Error while closing transport"); Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } done = true; } } internal static void PrintOptionsHelp() { Console.WriteLine("Client options:"); Console.WriteLine(" -u "); Console.WriteLine(" -t <# of threads to run> default = 1"); Console.WriteLine(" -n <# of iterations> per thread"); Console.WriteLine(" --pipe="); Console.WriteLine(" --host="); Console.WriteLine(" --port="); Console.WriteLine(" --transport= one of buffered,framed (defaults to none)"); Console.WriteLine(" --protocol= one of compact,json (defaults to binary)"); Console.WriteLine(" --ssl"); Console.WriteLine(); } public static async Task Execute(List args) { try { var param = new TestParams(); try { param.Parse(args); } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); Console.WriteLine("Error while parsing arguments"); Console.WriteLine("{0} {1}\nStack:\n{2}", ex.GetType().Name, ex.Message, ex.StackTrace); return ErrorUnknown; } //issue tests on separate threads simultaneously var nThreads = Math.Max(param.numThreads, 1); Console.Write("Starting {0} test thread(s) ", nThreads); var tasks = new Task[nThreads]; var start = DateTime.Now; var retcode = 0; for (var i = 0; i < tasks.Length; ++i) { Console.Write('.'); tasks[i] = Task.Run(async () => { var test = new ClientTest(param); await test.Execute(); lock (tasks) retcode |= test.ReturnCode; }); } Console.WriteLine(" OK"); Task.WaitAll(tasks); Console.WriteLine("Total time: " + (DateTime.Now - start)); Console.WriteLine(); return retcode; } catch (Exception outerEx) { Console.WriteLine("*** FAILED ***"); Console.WriteLine("Unexpected error"); Console.WriteLine(outerEx.Message + "\n" + outerEx.StackTrace); return ErrorUnknown; } } public static string BytesToHex(byte[] data) { return BitConverter.ToString(data).Replace("-", string.Empty); } public enum BinaryTestSize { Empty, // Edge case: the zero-length empty binary Normal, // Fairly small array of usual size (256 bytes) Large, // Large writes/reads may cause range check errors PipeWriteLimit, // Windows Limit: Pipe write operations across a network are limited to 65,535 bytes per write. FifteenMB // that's quite a bit of data }; public static byte[] PrepareTestData(bool randomDist, BinaryTestSize testcase) { int amount; switch (testcase) { case BinaryTestSize.Empty: amount = 0; break; case BinaryTestSize.Normal: amount = 0x100; break; case BinaryTestSize.Large: amount = 0x8000 + 128; break; case BinaryTestSize.PipeWriteLimit: amount = 0xFFFF + 128; break; case BinaryTestSize.FifteenMB: amount = 15 * 1024 * 1024; break; default: throw new ArgumentException("invalid argument",nameof(testcase)); } var retval = new byte[amount]; // linear distribution, unless random is requested if (!randomDist) { for (var i = 0; i < retval.Length; ++i) { retval[i] = (byte)i; } return retval; } // random distribution var rnd = new Random(); for (var i = 1; i < retval.Length; ++i) { retval[i] = (byte)rnd.Next(0x100); } return retval; } private static CancellationToken MakeTimeoutToken(int msec = 15_000) { var token = new CancellationTokenSource(msec); return token.Token; } public static async Task ExecuteClientTest(ThriftTest.Client client) { var returnCode = 0; Console.Write("testVoid()"); await client.testVoid(MakeTimeoutToken()); Console.WriteLine(" = void"); Console.Write("testString(\"Test\")"); var s = await client.testString("Test", MakeTimeoutToken()); Console.WriteLine(" = \"" + s + "\""); if ("Test" != s) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testBool(true)"); var t = await client.testBool((bool)true, MakeTimeoutToken()); Console.WriteLine(" = " + t); if (!t) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testBool(false)"); var f = await client.testBool((bool)false, MakeTimeoutToken()); Console.WriteLine(" = " + f); if (f) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testByte(1)"); var i8 = await client.testByte((sbyte)1, MakeTimeoutToken()); Console.WriteLine(" = " + i8); if (1 != i8) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testI32(-1)"); var i32 = await client.testI32(-1, MakeTimeoutToken()); Console.WriteLine(" = " + i32); if (-1 != i32) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testI64(-34359738368)"); var i64 = await client.testI64(-34359738368, MakeTimeoutToken()); Console.WriteLine(" = " + i64); if (-34359738368 != i64) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } // TODO: Validate received message Console.Write("testDouble(5.325098235)"); var dub = await client.testDouble(5.325098235, MakeTimeoutToken()); Console.WriteLine(" = " + dub); if (5.325098235 != dub) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("testDouble(-0.000341012439638598279)"); dub = await client.testDouble(-0.000341012439638598279, MakeTimeoutToken()); Console.WriteLine(" = " + dub); if (-0.000341012439638598279 != dub) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } // testUuid() var uuidOut = new Guid("{00112233-4455-6677-8899-AABBCCDDEEFF}"); Console.Write("testUuid({0})", uuidOut); try { var uuidIn = await client.testUuid(uuidOut, MakeTimeoutToken()); Console.WriteLine(" = {0}", uuidIn); if (!uuidIn.Equals(uuidOut)) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } } catch (Thrift.TApplicationException ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } // testBinary() foreach (BinaryTestSize binTestCase in Enum.GetValues(typeof(BinaryTestSize))) { var binOut = PrepareTestData(true, binTestCase); Console.Write("testBinary({0} bytes)", binOut.Length); try { var binIn = await client.testBinary(binOut, MakeTimeoutToken()); Console.WriteLine(" = {0} bytes", binIn.Length); if (binIn.Length != binOut.Length) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } for (var ofs = 0; ofs < Math.Min(binIn.Length, binOut.Length); ++ofs) { if (binIn[ofs] != binOut[ofs]) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } } } catch (Thrift.TApplicationException ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } } // CrazyNesting Console.WriteLine("Test CrazyNesting"); var one = new CrazyNesting(); var two = new CrazyNesting(); one.String_field = "crazy"; two.String_field = "crazy"; one.Binary_field = new byte[] { 0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0xFF }; two.Binary_field = new byte[10] { 0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0xFF }; if (typeof(CrazyNesting).GetMethod("Equals")?.DeclaringType == typeof(CrazyNesting)) { if (!one.Equals(two)) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorContainers; } } // TODO: Validate received message Console.Write("testStruct({\"Zero\", 1, -3, -5})"); var o = new Xtruct { String_thing = "Zero", Byte_thing = (sbyte)1, I32_thing = -3, I64_thing = -5 }; var i = await client.testStruct(o, MakeTimeoutToken()); Console.WriteLine(" = {\"" + i.String_thing + "\", " + i.Byte_thing + ", " + i.I32_thing + ", " + i.I64_thing + "}"); // TODO: Validate received message Console.Write("testNest({1, {\"Zero\", 1, -3, -5}, 5})"); var o2 = new Xtruct2 { Byte_thing = (sbyte)1, Struct_thing = o, I32_thing = 5 }; Xtruct2 i2 = await client.testNest(o2, MakeTimeoutToken()); i = i2.Struct_thing; Console.WriteLine(" = {" + i2.Byte_thing + ", {\"" + (i?.String_thing ?? "") + "\", " + (i?.Byte_thing ?? 0) + ", " + (i?.I32_thing ?? 0) + ", " + (i?.I64_thing ?? 0) + "}, " + i2.I32_thing + "}"); var mapout = new Dictionary(); for (var j = 0; j < 5; j++) { mapout[j] = j - 10; } Console.Write("testMap({"); Console.Write(string.Join(", ", mapout.Select((pair) => { return pair.Key + " => " + pair.Value; }))); Console.Write("})"); var mapin = await client.testMap(mapout, MakeTimeoutToken()); Console.Write(" = {"); Console.Write(string.Join(", ", mapin.Select((pair) => { return pair.Key + " => " + pair.Value; }))); Console.WriteLine("}"); // TODO: Validate received message var listout = new List(); for (var j = -2; j < 3; j++) { listout.Add(j); } Console.Write("testList({"); Console.Write(string.Join(", ", listout)); Console.Write("})"); var listin = await client.testList(listout, MakeTimeoutToken()); Console.Write(" = {"); Console.Write(string.Join(", ", listin)); Console.WriteLine("}"); //set // TODO: Validate received message var setout = new HashSet(); for (var j = -2; j < 3; j++) { setout.Add(j); } Console.Write("testSet({"); Console.Write(string.Join(", ", setout)); Console.Write("})"); var setin = await client.testSet(setout, MakeTimeoutToken()); Console.Write(" = {"); Console.Write(string.Join(", ", setin)); Console.WriteLine("}"); Console.Write("testEnum(ONE)"); var ret = await client.testEnum(Numberz.ONE, MakeTimeoutToken()); Console.WriteLine(" = " + ret); if (Numberz.ONE != ret) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } Console.Write("testEnum(TWO)"); ret = await client.testEnum(Numberz.TWO, MakeTimeoutToken()); Console.WriteLine(" = " + ret); if (Numberz.TWO != ret) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } Console.Write("testEnum(THREE)"); ret = await client.testEnum(Numberz.THREE, MakeTimeoutToken()); Console.WriteLine(" = " + ret); if (Numberz.THREE != ret) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } Console.Write("testEnum(FIVE)"); ret = await client.testEnum(Numberz.FIVE, MakeTimeoutToken()); Console.WriteLine(" = " + ret); if (Numberz.FIVE != ret) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } Console.Write("testEnum(EIGHT)"); ret = await client.testEnum(Numberz.EIGHT, MakeTimeoutToken()); Console.WriteLine(" = " + ret); if (Numberz.EIGHT != ret) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } Console.Write("testTypedef(309858235082523)"); var uid = await client.testTypedef(309858235082523L, MakeTimeoutToken()); Console.WriteLine(" = " + uid); if (309858235082523L != uid) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorStructs; } // TODO: Validate received message Console.Write("testMapMap(1)"); var mm = await client.testMapMap(1, MakeTimeoutToken()); Console.Write(" = {"); foreach (var key in mm.Keys) { Console.Write(key + " => {"); var m2 = mm[key]; foreach (var k2 in m2.Keys) { Console.Write(k2 + " => " + m2[k2] + ", "); } Console.Write("}, "); } Console.WriteLine("}"); // TODO: Validate received message var insane = new Insanity { UserMap = new Dictionary { [Numberz.FIVE] = 5000L } }; var truck = new Xtruct { String_thing = "Truck", Byte_thing = (sbyte)8, I32_thing = 8, I64_thing = 8 }; insane.Xtructs = new List { truck }; Console.Write("testInsanity()"); var whoa = await client.testInsanity(insane, MakeTimeoutToken()); Console.Write(" = {"); foreach (var key in whoa.Keys) { var val = whoa[key]; Console.Write(key + " => {"); foreach (var k2 in val.Keys) { var v2 = val[k2]; Console.Write(k2 + " => {"); var userMap = v2.UserMap; Console.Write("{"); if (userMap != null) { foreach (var k3 in userMap.Keys) { Console.Write(k3 + " => " + userMap[k3] + ", "); } } else { Console.Write("null"); } Console.Write("}, "); var xtructs = v2.Xtructs; Console.Write("{"); if (xtructs != null) { foreach (var x in xtructs) { Console.Write("{\"" + x.String_thing + "\", " + x.Byte_thing + ", " + x.I32_thing + ", " + x.I32_thing + "}, "); } } else { Console.Write("null"); } Console.Write("}"); Console.Write("}, "); } Console.Write("}, "); } Console.WriteLine("}"); sbyte arg0 = 1; var arg1 = 2; var arg2 = long.MaxValue; var multiDict = new Dictionary { [1] = "one" }; var tmpMultiDict = new List(); foreach (var pair in multiDict) tmpMultiDict.Add(pair.Key +" => "+ pair.Value); var arg4 = Numberz.FIVE; long arg5 = 5000000; Console.Write("Test Multi(" + arg0 + "," + arg1 + "," + arg2 + ",{" + string.Join(",", tmpMultiDict) + "}," + arg4 + "," + arg5 + ")"); var multiResponse = await client.testMulti(arg0, arg1, arg2, multiDict, arg4, arg5, MakeTimeoutToken()); Console.Write(" = Xtruct(byte_thing:" + multiResponse.Byte_thing + ",String_thing:" + multiResponse.String_thing + ",i32_thing:" + multiResponse.I32_thing + ",i64_thing:" + multiResponse.I64_thing + ")\n"); try { Console.WriteLine("testException(\"Xception\")"); await client.testException("Xception", MakeTimeoutToken()); Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } catch (Xception ex) { if (ex.ErrorCode != 1001 || ex.Message != "Xception") { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } try { Console.WriteLine("testException(\"TException\")"); await client.testException("TException", MakeTimeoutToken()); Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } catch (Thrift.TException) { // OK } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } try { Console.WriteLine("testException(\"ok\")"); await client.testException("ok", MakeTimeoutToken()); // OK } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } try { Console.WriteLine("testMultiException(\"Xception\", ...)"); await client.testMultiException("Xception", "ignore", MakeTimeoutToken()); Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } catch (Xception ex) { if (ex.ErrorCode != 1001 || ex.Message != "This is an Xception") { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } try { Console.WriteLine("testMultiException(\"Xception2\", ...)"); await client.testMultiException("Xception2", "ignore", MakeTimeoutToken()); Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } catch (Xception2 ex) { if (ex.ErrorCode != 2002 || ex.Struct_thing?.String_thing != "This is an Xception2") { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } try { Console.WriteLine("testMultiException(\"success\", \"OK\")"); if ("OK" != (await client.testMultiException("success", "OK", MakeTimeoutToken())).String_thing) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; } } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorExceptions; Console.WriteLine(ex.Message + "\n" + ex.StackTrace); } Console.WriteLine("Test Oneway(1)"); var sw = new Stopwatch(); sw.Start(); await client.testOneway(1, MakeTimeoutToken()); sw.Stop(); if (sw.ElapsedMilliseconds > 1000) { Console.WriteLine("*** FAILED ***"); returnCode |= ErrorBaseTypes; } Console.Write("Test Calltime()"); var times = 50; sw.Reset(); sw.Start(); var token = MakeTimeoutToken(20000); for (var k = 0; k < times; ++k) await client.testVoid(token); sw.Stop(); Console.WriteLine(" = {0} ms a testVoid() call", sw.ElapsedMilliseconds / times); return returnCode; } } }