valitydev/thrift
14
0
Fork 0
mirror of https://github.com/valitydev/thrift.git synced 2024-11-07 10:48:51 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
feea47852c
thrift/test/netcore/ThriftTest/TestClient.cs
Volodymyr Gotra b587a12a11 THRIFT-3933 Microsoft .Net Core library port and generator for this library 
Client: .NET Core
Patch: Volodymyr Gotra <vgotra@gmail.com> PR #1088, with significant improvements by Jens Geyer <jensg@apache.org> PR #1149

This closes #1088
This closes #1149
2017-01-04 19:40:30 +01:00

893 lines
31 KiB
C#
Raw Blame History

// 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.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using System.Net;
using System.Reflection;
using System.Security.Authentication;
using System.Security.Cryptography.X509Certificates;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
using ThriftAsync.Test;
using Thrift.Collections;
using Thrift.Protocols;
using Thrift.Transports;
using Thrift.Transports.Client;
namespace Test
{
public class TestClient
{
private class TestParams
{
public int numIterations = 1;
public IPAddress host = IPAddress.Loopback;
public int port = 9090;
public int numThreads = 1;
public string url;
public string pipe;
public bool buffered;
public bool framed;
public string protocol;
public bool encrypted = false;
internal void Parse( List<string> args)
{
for (var i = 0; i < args.Count; ++i)
{
if (args[i] == "-u")
{
url = args[++i];
}
else if (args[i] == "-n")
{
numIterations = Convert.ToInt32(args[++i]);
}
else if (args[i].StartsWith("--pipe="))
{
pipe = args[i].Substring(args[i].IndexOf("=") + 1);
Console.WriteLine("Using named pipes transport");
}
else if (args[i].StartsWith("--host="))
{
// check there for ipaddress
host = new IPAddress(Encoding.Unicode.GetBytes(args[i].Substring(args[i].IndexOf("=") + 1)));
}
else if (args[i].StartsWith("--port="))
{
port = int.Parse(args[i].Substring(args[i].IndexOf("=") + 1));
}
else if (args[i] == "-b" || args[i] == "--buffered" || args[i] == "--transport=buffered")
{
buffered = true;
Console.WriteLine("Using buffered sockets");
}
else if (args[i] == "-f" || args[i] == "--framed" || args[i] == "--transport=framed")
{
framed = true;
Console.WriteLine("Using framed transport");
}
else if (args[i] == "-t")
{
numThreads = Convert.ToInt32(args[++i]);
}
else if (args[i] == "--compact" || args[i] == "--protocol=compact")
{
protocol = "compact";
Console.WriteLine("Using compact protocol");
}
else if (args[i] == "--json" || args[i] == "--protocol=json")
{
protocol = "json";
Console.WriteLine("Using JSON protocol");
}
else if (args[i] == "--ssl")
{
encrypted = true;
Console.WriteLine("Using encrypted transport");
}
else
{
throw new ArgumentException(args[i]);
}
}
}
public TClientTransport CreateTransport()
{
if (url == null)
{
// endpoint transport
TClientTransport trans = null;
if (pipe != null)
{
trans = new TNamedPipeClientTransport(pipe);
}
else
{
if (encrypted)
{
var certPath = "../../keys/client.p12";
var cert = new X509Certificate2(certPath, "thrift");
trans = new TTlsSocketClientTransport(host, port, 0, cert, (o, c, chain, errors) => true, null, SslProtocols.Tls);
}
else
{
trans = new TSocketClientTransport(host, port);
}
}
// layered transport
if (buffered)
{
trans = new TBufferedClientTransport(trans);
}
if (framed)
{
trans = new TFramedClientTransport(trans);
}
return trans;
}
return new THttpClientTransport(new Uri(url), null);
}
public TProtocol CreateProtocol(TClientTransport transport)
{
if (protocol == "compact")
{
return new TCompactProtocol(transport);
}
if (protocol == "json")
{
return new TJsonProtocol(transport);
}
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 TClientTransport transport;
private readonly ThriftAsync.Test.ThriftTest.Client client;
private readonly int numIterations;
private bool done;
public int ReturnCode { get; set; }
public ClientTest(TestParams param)
{
transport = param.CreateTransport();
client = new ThriftAsync.Test.ThriftTest.Client(param.CreateProtocol(transport));
numIterations = param.numIterations;
}
public void Execute()
{
var token = CancellationToken.None;
if (done)
{
Console.WriteLine("Execute called more than once");
throw new InvalidOperationException();
}
for (var i = 0; i < numIterations; i++)
{
try
{
if (!transport.IsOpen)
{
transport.OpenAsync(token).GetAwaiter().GetResult();
}
}
catch (TTransportException ex)
{
Console.WriteLine("*** FAILED ***");
Console.WriteLine("Connect failed: " + ex.Message);
ReturnCode |= ErrorUnknown;
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
continue;
}
try
{
ReturnCode |= ExecuteClientTestAsync(client).GetAwaiter().GetResult(); ;
}
catch (Exception ex)
{
Console.WriteLine("*** FAILED ***");
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
ReturnCode |= ErrorUnknown;
}
}
try
{
transport.Close();
}
catch (Exception ex)
{
Console.WriteLine("Error while closing transport");
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
}
done = true;
}
}
internal static void PrintOptionsHelp()
{
Console.WriteLine("Client options:");
Console.WriteLine(" -u <URL>");
Console.WriteLine(" -t <# of threads to run> default = 1");
Console.WriteLine(" -n <# of iterations> per thread");
Console.WriteLine(" --pipe=<pipe name>");
Console.WriteLine(" --host=<IP address>");
Console.WriteLine(" --port=<port number>");
Console.WriteLine(" --transport=<transport name> one of buffered,framed (defaults to none)");
Console.WriteLine(" --protocol=<protocol name> one of compact,json (defaults to binary)");
Console.WriteLine(" --ssl");
Console.WriteLine();
}
public static int Execute(List<string> args)
{
try
{
var param = new TestParams();
try
{
param.Parse(args);
}
catch (Exception ex)
{
Console.WriteLine("*** FAILED ***");
Console.WriteLine("Error while parsing arguments");
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
return ErrorUnknown;
}
var tests = Enumerable.Range(0, param.numThreads).Select(_ => new ClientTest(param)).ToArray();
//issue tests on separate threads simultaneously
var threads = tests.Select(test => new Thread(test.Execute)).ToArray();
var start = DateTime.Now;
foreach (var t in threads)
{
t.Start();
}
foreach (var t in threads)
{
t.Join();
}
Console.WriteLine("Total time: " + (DateTime.Now - start));
Console.WriteLine();
return tests.Select(t => t.ReturnCode).Aggregate((r1, r2) => r1 | r2);
}
catch (Exception outerEx)
{
Console.WriteLine("*** FAILED ***");
Console.WriteLine("Unexpected error");
Console.WriteLine(outerEx.Message + " ST: " + outerEx.StackTrace);
return ErrorUnknown;
}
}
public static string BytesToHex(byte[] data)
{
return BitConverter.ToString(data).Replace("-", string.Empty);
}
public static byte[] PrepareTestData(bool randomDist)
{
var retval = new byte[0x100];
var initLen = Math.Min(0x100, retval.Length);
// linear distribution, unless random is requested
if (!randomDist)
{
for (var i = 0; i < initLen; ++i)
{
retval[i] = (byte)i;
}
return retval;
}
// random distribution
for (var i = 0; i < initLen; ++i)
{
retval[i] = (byte)0;
}
var rnd = new Random();
for (var i = 1; i < initLen; ++i)
{
while (true)
{
var nextPos = rnd.Next() % initLen;
if (retval[nextPos] == 0)
{
retval[nextPos] = (byte)i;
break;
}
}
}
return retval;
}
public static async Task<int> ExecuteClientTestAsync(ThriftAsync.Test.ThriftTest.Client client)
{
var token = CancellationToken.None;
var returnCode = 0;
Console.Write("testVoid()");
await client.testVoidAsync(token);
Console.WriteLine(" = void");
Console.Write("testString(\"Test\")");
var s = await client.testStringAsync("Test", token);
Console.WriteLine(" = \"" + s + "\"");
if ("Test" != s)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testBool(true)");
var t = await client.testBoolAsync((bool)true, token);
Console.WriteLine(" = " + t);
if (!t)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testBool(false)");
var f = await client.testBoolAsync((bool)false, token);
Console.WriteLine(" = " + f);
if (f)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testByte(1)");
var i8 = await client.testByteAsync((sbyte)1, token);
Console.WriteLine(" = " + i8);
if (1 != i8)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testI32(-1)");
var i32 = await client.testI32Async(-1, token);
Console.WriteLine(" = " + i32);
if (-1 != i32)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testI64(-34359738368)");
var i64 = await client.testI64Async(-34359738368, token);
Console.WriteLine(" = " + i64);
if (-34359738368 != i64)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
// TODO: Validate received message
Console.Write("testDouble(5.325098235)");
var dub = await client.testDoubleAsync(5.325098235, token);
Console.WriteLine(" = " + dub);
if (5.325098235 != dub)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("testDouble(-0.000341012439638598279)");
dub = await client.testDoubleAsync(-0.000341012439638598279, token);
Console.WriteLine(" = " + dub);
if (-0.000341012439638598279 != dub)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
var binOut = PrepareTestData(true);
Console.Write("testBinary(" + BytesToHex(binOut) + ")");
try
{
var binIn = await client.testBinaryAsync(binOut, token);
Console.WriteLine(" = " + BytesToHex(binIn));
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 + " ST: " + ex.StackTrace);
}
// binary equals? only with hashcode option enabled ...
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;
throw new Exception("CrazyNesting.Equals failed");
}
}
// TODO: Validate received message
Console.Write("testStruct({\"Zero\", 1, -3, -5})");
var o = new Xtruct();
o.String_thing = "Zero";
o.Byte_thing = (sbyte)1;
o.I32_thing = -3;
o.I64_thing = -5;
var i = await client.testStructAsync(o, token);
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();
o2.Byte_thing = (sbyte)1;
o2.Struct_thing = o;
o2.I32_thing = 5;
var i2 = await client.testNestAsync(o2, token);
i = i2.Struct_thing;
Console.WriteLine(" = {" + i2.Byte_thing + ", {\"" + i.String_thing + "\", " + i.Byte_thing + ", " + i.I32_thing + ", " + i.I64_thing + "}, " + i2.I32_thing + "}");
var mapout = new Dictionary<int, int>();
for (var j = 0; j < 5; j++)
{
mapout[j] = j - 10;
}
Console.Write("testMap({");
var first = true;
foreach (var key in mapout.Keys)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(key + " => " + mapout[key]);
}
Console.Write("})");
var mapin = await client.testMapAsync(mapout, token);
Console.Write(" = {");
first = true;
foreach (var key in mapin.Keys)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(key + " => " + mapin[key]);
}
Console.WriteLine("}");
// TODO: Validate received message
var listout = new List<int>();
for (var j = -2; j < 3; j++)
{
listout.Add(j);
}
Console.Write("testList({");
first = true;
foreach (var j in listout)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(j);
}
Console.Write("})");
var listin = await client.testListAsync(listout, token);
Console.Write(" = {");
first = true;
foreach (var j in listin)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(j);
}
Console.WriteLine("}");
//set
// TODO: Validate received message
var setout = new THashSet<int>();
for (var j = -2; j < 3; j++)
{
setout.Add(j);
}
Console.Write("testSet({");
first = true;
foreach (int j in setout)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(j);
}
Console.Write("})");
var setin = await client.testSetAsync(setout, token);
Console.Write(" = {");
first = true;
foreach (int j in setin)
{
if (first)
{
first = false;
}
else
{
Console.Write(", ");
}
Console.Write(j);
}
Console.WriteLine("}");
Console.Write("testEnum(ONE)");
var ret = await client.testEnumAsync(Numberz.ONE, token);
Console.WriteLine(" = " + ret);
if (Numberz.ONE != ret)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
Console.Write("testEnum(TWO)");
ret = await client.testEnumAsync(Numberz.TWO, token);
Console.WriteLine(" = " + ret);
if (Numberz.TWO != ret)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
Console.Write("testEnum(THREE)");
ret = await client.testEnumAsync(Numberz.THREE, token);
Console.WriteLine(" = " + ret);
if (Numberz.THREE != ret)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
Console.Write("testEnum(FIVE)");
ret = await client.testEnumAsync(Numberz.FIVE, token);
Console.WriteLine(" = " + ret);
if (Numberz.FIVE != ret)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
Console.Write("testEnum(EIGHT)");
ret = await client.testEnumAsync(Numberz.EIGHT, token);
Console.WriteLine(" = " + ret);
if (Numberz.EIGHT != ret)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
Console.Write("testTypedef(309858235082523)");
var uid = await client.testTypedefAsync(309858235082523L, token);
Console.WriteLine(" = " + uid);
if (309858235082523L != uid)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorStructs;
}
// TODO: Validate received message
Console.Write("testMapMap(1)");
var mm = await client.testMapMapAsync(1, token);
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();
insane.UserMap = new Dictionary<Numberz, long>();
insane.UserMap[Numberz.FIVE] = 5000L;
var truck = new Xtruct();
truck.String_thing = "Truck";
truck.Byte_thing = (sbyte)8;
truck.I32_thing = 8;
truck.I64_thing = 8;
insane.Xtructs = new List<Xtruct>();
insane.Xtructs.Add(truck);
Console.Write("testInsanity()");
var whoa = await client.testInsanityAsync(insane, token);
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<short, string>();
multiDict[1] = "one";
var tmpMultiDict = new List<string>();
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.testMultiAsync(arg0, arg1, arg2, multiDict, arg4, arg5, token);
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.testExceptionAsync("Xception", token);
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 + " ST: " + ex.StackTrace);
}
try
{
Console.WriteLine("testException(\"TException\")");
await client.testExceptionAsync("TException", token);
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorExceptions;
}
catch (Thrift.TException)
{
// OK
}
catch (Exception ex)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorExceptions;
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
}
try
{
Console.WriteLine("testException(\"ok\")");
await client.testExceptionAsync("ok", token);
// OK
}
catch (Exception ex)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorExceptions;
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
}
try
{
Console.WriteLine("testMultiException(\"Xception\", ...)");
await client.testMultiExceptionAsync("Xception", "ignore", token);
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 + " ST: " + ex.StackTrace);
}
try
{
Console.WriteLine("testMultiException(\"Xception2\", ...)");
await client.testMultiExceptionAsync("Xception2", "ignore", token);
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 + " ST: " + ex.StackTrace);
}
try
{
Console.WriteLine("testMultiException(\"success\", \"OK\")");
if ("OK" != (await client.testMultiExceptionAsync("success", "OK", token)).String_thing)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorExceptions;
}
}
catch (Exception ex)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorExceptions;
Console.WriteLine(ex.Message + " ST: " + ex.StackTrace);
}
var sw = new Stopwatch();
sw.Start();
Console.WriteLine("Test Oneway(1)");
await client.testOnewayAsync(1, token);
sw.Stop();
if (sw.ElapsedMilliseconds > 1000)
{
Console.WriteLine("*** FAILED ***");
returnCode |= ErrorBaseTypes;
}
Console.Write("Test Calltime()");
var times = 50;
sw.Reset();
sw.Start();
for (var k = 0; k < times; ++k)
await client.testVoidAsync(token);
sw.Stop();
Console.WriteLine(" = {0} ms a testVoid() call", sw.ElapsedMilliseconds / times);
return returnCode;
}
}
}
Reference in New Issue View Git Blame Copy Permalink