test/csharp/ThriftTest/TestServer.cs - thrift - Git at Google

 /*
  * 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.
  */

 // Distributed under the Thrift Software License
 //
 // See accompanying file LICENSE or visit the Thrift site at:
 // http://developers.facebook.com/thrift/
 using System;
 using System.Collections.Generic;
 using Thrift.Collections;
 using Thrift.Test; //generated code
 using Thrift.Transport;
 using Thrift.Protocol;
 using Thrift.Server;

 namespace Test
 {
 	public class TestServer
 	{
 		public class TestHandler : ThriftTest.Iface
 		{
 			public TServer server;

 			public TestHandler() { }

 			public void testVoid()
 			{
 				Console.WriteLine("testVoid()");
 			}

 			public string testString(string thing)
 			{
 				Console.WriteLine("teststring(\"" + thing + "\")");
 				return thing;
 			}

 			public byte testByte(byte thing)
 			{
 				Console.WriteLine("testByte(" + thing + ")");
 				return thing;
 			}

 			public int testI32(int thing)
 			{
 				Console.WriteLine("testI32(" + thing + ")");
 				return thing;
 			}

 			public long testI64(long thing)
 			{
 				Console.WriteLine("testI64(" + thing + ")");
 				return thing;
 			}

 			public double testDouble(double thing)
 			{
 				Console.WriteLine("testDouble(" + thing + ")");
 				return thing;
 			}

 			public Xtruct testStruct(Xtruct thing)
 			{
 				Console.WriteLine("testStruct({" +
 								 "\"" + thing.String_thing + "\", " +
 								 thing.Byte_thing + ", " +
 								 thing.I32_thing + ", " +
 								 thing.I64_thing + "})");
 				return thing;
 			}

 			public Xtruct2 testNest(Xtruct2 nest)
 			{
 				Xtruct thing = nest.Struct_thing;
 				Console.WriteLine("testNest({" +
 								 nest.Byte_thing + ", {" +
 								 "\"" + thing.String_thing + "\", " +
 								 thing.Byte_thing + ", " +
 								 thing.I32_thing + ", " +
 								 thing.I64_thing + "}, " +
 								 nest.I32_thing + "})");
 				return nest;
 			}

 			public Dictionary<int, int> testMap(Dictionary<int, int> thing)
 			{
 				Console.WriteLine("testMap({");
 				bool first = true;
 				foreach (int key in thing.Keys)
 				{
 					if (first)
 					{
 						first = false;
 					}
 					else
 					{
 						Console.WriteLine(", ");
 					}
 					Console.WriteLine(key + " => " + thing[key]);
 				}
 				Console.WriteLine("})");
 				return thing;
 			}

 			public THashSet<int> testSet(THashSet<int> thing)
 			{
 				Console.WriteLine("testSet({");
 				bool first = true;
 				foreach (int elem in thing)
 				{
 					if (first)
 					{
 						first = false;
 					}
 					else
 					{
 						Console.WriteLine(", ");
 					}
 					Console.WriteLine(elem);
 				}
 				Console.WriteLine("})");
 				return thing;
 			}

 			public List<int> testList(List<int> thing)
 			{
 				Console.WriteLine("testList({");
 				bool first = true;
 				foreach (int elem in thing)
 				{
 					if (first)
 					{
 						first = false;
 					}
 					else
 					{
 						Console.WriteLine(", ");
 					}
 					Console.WriteLine(elem);
 				}
 				Console.WriteLine("})");
 				return thing;
 			}

 			public Numberz testEnum(Numberz thing)
 			{
 				Console.WriteLine("testEnum(" + thing + ")");
 				return thing;
 			}

 			public long testTypedef(long thing)
 			{
 				Console.WriteLine("testTypedef(" + thing + ")");
 				return thing;
 			}

 			public Dictionary<int, Dictionary<int, int>> testMapMap(int hello)
 			{
 				Console.WriteLine("testMapMap(" + hello + ")");
 				Dictionary<int, Dictionary<int, int>> mapmap =
 				  new Dictionary<int, Dictionary<int, int>>();

 				Dictionary<int, int> pos = new Dictionary<int, int>();
 				Dictionary<int, int> neg = new Dictionary<int, int>();
 				for (int i = 1; i < 5; i++)
 				{
 					pos[i] = i;
 					neg[-i] = -i;
 				}

 				mapmap[4] = pos;
 				mapmap[-4] = neg;

 				return mapmap;
 			}

 			public Dictionary<long, Dictionary<Numberz, Insanity>> testInsanity(Insanity argument)
 			{
 				Console.WriteLine("testInsanity()");

 				Xtruct hello = new Xtruct();
 				hello.String_thing = "Hello2";
 				hello.Byte_thing = 2;
 				hello.I32_thing = 2;
 				hello.I64_thing = 2;

 				Xtruct goodbye = new Xtruct();
 				goodbye.String_thing = "Goodbye4";
 				goodbye.Byte_thing = (byte)4;
 				goodbye.I32_thing = 4;
 				goodbye.I64_thing = (long)4;

 				Insanity crazy = new Insanity();
 				crazy.UserMap = new Dictionary<Numberz, long>();
 				crazy.UserMap[Numberz.EIGHT] = (long)8;
 				crazy.Xtructs = new List<Xtruct>();
 				crazy.Xtructs.Add(goodbye);

 				Insanity looney = new Insanity();
 				crazy.UserMap[Numberz.FIVE] = (long)5;
 				crazy.Xtructs.Add(hello);

 				Dictionary<Numberz, Insanity> first_map = new Dictionary<Numberz, Insanity>();
 				Dictionary<Numberz, Insanity> second_map = new Dictionary<Numberz, Insanity>(); ;

 				first_map[Numberz.TWO] = crazy;
 				first_map[Numberz.THREE] = crazy;

 				second_map[Numberz.SIX] = looney;

 				Dictionary<long, Dictionary<Numberz, Insanity>> insane =
 				  new Dictionary<long, Dictionary<Numberz, Insanity>>();
 				insane[(long)1] = first_map;
 				insane[(long)2] = second_map;

 				return insane;
 			}

 			public Xtruct testMulti(byte arg0, int arg1, long arg2, Dictionary<short, string> arg3, Numberz arg4, long arg5)
 			{
 				Console.WriteLine("testMulti()");

 				Xtruct hello = new Xtruct(); ;
 				hello.String_thing = "Hello2";
 				hello.Byte_thing = arg0;
 				hello.I32_thing = arg1;
 				hello.I64_thing = arg2;
 				return hello;
 			}

 			public void testException(string arg)
 			{
 				Console.WriteLine("testException(" + arg + ")");
 				if (arg == "Xception")
 				{
 					Xception x = new Xception();
 					x.ErrorCode = 1001;
 					x.Message = "This is an Xception";
 					throw x;
 				}
 				return;
 			}

 			public Xtruct testMultiException(string arg0, string arg1)
 			{
 				Console.WriteLine("testMultiException(" + arg0 + ", " + arg1 + ")");
 				if (arg0 == "Xception")
 				{
 					Xception x = new Xception();
 					x.ErrorCode = 1001;
 					x.Message = "This is an Xception";
 					throw x;
 				}
 				else if (arg0 == "Xception2")
 				{
 					Xception2 x = new Xception2();
 					x.ErrorCode = 2002;
 					x.Struct_thing = new Xtruct();
 					x.Struct_thing.String_thing = "This is an Xception2";
 					throw x;
 				}

 				Xtruct result = new Xtruct();
 				result.String_thing = arg1;
 				return result;
 			}

 			public void testStop()
 			{
 				if (server != null)
 				{
 					server.Stop();
 				}
 			}

 			public void testOneway(int arg)
 			{
 				Console.WriteLine("testOneway(" + arg + "), sleeping...");
 				System.Threading.Thread.Sleep(arg * 1000);
 				Console.WriteLine("testOneway finished");
 			}

 		} // class TestHandler

 		public static void Execute(string[] args)
 		{
 			try
 			{
 				bool useBufferedSockets = false;
 				int port = 9090;
 				if (args.Length > 0)
 				{
 					port = int.Parse(args[0]);

 					if (args.Length > 1)
 					{
 						bool.TryParse(args[1], out useBufferedSockets);
 					}
 				}

 				// Processor
 				TestHandler testHandler = new TestHandler();
 				ThriftTest.Processor testProcessor = new ThriftTest.Processor(testHandler);

 				// Transport
 				TServerSocket tServerSocket = new TServerSocket(port, 0, useBufferedSockets);

 				TServer serverEngine;

 				// Simple Server
 				serverEngine = new TSimpleServer(testProcessor, tServerSocket);

 				// ThreadPool Server
 				// serverEngine = new TThreadPoolServer(testProcessor, tServerSocket);

 				// Threaded Server
 				// serverEngine = new TThreadedServer(testProcessor, tServerSocket);

 				testHandler.server = serverEngine;

 				// Run it
 				Console.WriteLine("Starting the server on port " + port + (useBufferedSockets ? " with buffered socket" : "") + "...");
 				serverEngine.Serve();

 			}
 			catch (Exception x)
 			{
 				Console.Error.Write(x);
 			}
 			Console.WriteLine("done.");
 		}
 	}
 }
	/*
	* 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.
	*/

	// Distributed under the Thrift Software License
	//
	// See accompanying file LICENSE or visit the Thrift site at:
	// http://developers.facebook.com/thrift/
	using System;
	using System.Collections.Generic;
	using Thrift.Collections;
	using Thrift.Test; //generated code
	using Thrift.Transport;
	using Thrift.Protocol;
	using Thrift.Server;

	namespace Test
	{
	public class TestServer
	{
	public class TestHandler : ThriftTest.Iface
	{
	public TServer server;

	public TestHandler() { }

	public void testVoid()
	{
	Console.WriteLine("testVoid()");
	}

	public string testString(string thing)
	{
	Console.WriteLine("teststring(\"" + thing + "\")");
	return thing;
	}

	public byte testByte(byte thing)
	{
	Console.WriteLine("testByte(" + thing + ")");
	return thing;
	}

	public int testI32(int thing)
	{
	Console.WriteLine("testI32(" + thing + ")");
	return thing;
	}

	public long testI64(long thing)
	{
	Console.WriteLine("testI64(" + thing + ")");
	return thing;
	}

	public double testDouble(double thing)
	{
	Console.WriteLine("testDouble(" + thing + ")");
	return thing;
	}

	public Xtruct testStruct(Xtruct thing)
	{
	Console.WriteLine("testStruct({" +
	"\"" + thing.String_thing + "\", " +
	thing.Byte_thing + ", " +
	thing.I32_thing + ", " +
	thing.I64_thing + "})");
	return thing;
	}

	public Xtruct2 testNest(Xtruct2 nest)
	{
	Xtruct thing = nest.Struct_thing;
	Console.WriteLine("testNest({" +
	nest.Byte_thing + ", {" +
	"\"" + thing.String_thing + "\", " +
	thing.Byte_thing + ", " +
	thing.I32_thing + ", " +
	thing.I64_thing + "}, " +
	nest.I32_thing + "})");
	return nest;
	}

	public Dictionary<int, int> testMap(Dictionary<int, int> thing)
	{
	Console.WriteLine("testMap({");
	bool first = true;
	foreach (int key in thing.Keys)
	{
	if (first)
	{
	first = false;
	}
	else
	{
	Console.WriteLine(", ");
	}
	Console.WriteLine(key + " => " + thing[key]);
	}
	Console.WriteLine("})");
	return thing;
	}

	public THashSet<int> testSet(THashSet<int> thing)
	{
	Console.WriteLine("testSet({");
	bool first = true;
	foreach (int elem in thing)
	{
	if (first)
	{
	first = false;
	}
	else
	{
	Console.WriteLine(", ");
	}
	Console.WriteLine(elem);
	}
	Console.WriteLine("})");
	return thing;
	}

	public List<int> testList(List<int> thing)
	{
	Console.WriteLine("testList({");
	bool first = true;
	foreach (int elem in thing)
	{
	if (first)
	{
	first = false;
	}
	else
	{
	Console.WriteLine(", ");
	}
	Console.WriteLine(elem);
	}
	Console.WriteLine("})");
	return thing;
	}

	public Numberz testEnum(Numberz thing)
	{
	Console.WriteLine("testEnum(" + thing + ")");
	return thing;
	}

	public long testTypedef(long thing)
	{
	Console.WriteLine("testTypedef(" + thing + ")");
	return thing;
	}

	public Dictionary<int, Dictionary<int, int>> testMapMap(int hello)
	{
	Console.WriteLine("testMapMap(" + hello + ")");
	Dictionary<int, Dictionary<int, int>> mapmap =
	new Dictionary<int, Dictionary<int, int>>();

	Dictionary<int, int> pos = new Dictionary<int, int>();
	Dictionary<int, int> neg = new Dictionary<int, int>();
	for (int i = 1; i < 5; i++)
	{
	pos[i] = i;
	neg[-i] = -i;
	}

	mapmap[4] = pos;
	mapmap[-4] = neg;

	return mapmap;
	}

	public Dictionary<long, Dictionary<Numberz, Insanity>> testInsanity(Insanity argument)
	{
	Console.WriteLine("testInsanity()");

	Xtruct hello = new Xtruct();
	hello.String_thing = "Hello2";
	hello.Byte_thing = 2;
	hello.I32_thing = 2;
	hello.I64_thing = 2;

	Xtruct goodbye = new Xtruct();
	goodbye.String_thing = "Goodbye4";
	goodbye.Byte_thing = (byte)4;
	goodbye.I32_thing = 4;
	goodbye.I64_thing = (long)4;

	Insanity crazy = new Insanity();
	crazy.UserMap = new Dictionary<Numberz, long>();
	crazy.UserMap[Numberz.EIGHT] = (long)8;
	crazy.Xtructs = new List<Xtruct>();
	crazy.Xtructs.Add(goodbye);

	Insanity looney = new Insanity();
	crazy.UserMap[Numberz.FIVE] = (long)5;
	crazy.Xtructs.Add(hello);

	Dictionary<Numberz, Insanity> first_map = new Dictionary<Numberz, Insanity>();
	Dictionary<Numberz, Insanity> second_map = new Dictionary<Numberz, Insanity>(); ;

	first_map[Numberz.TWO] = crazy;
	first_map[Numberz.THREE] = crazy;

	second_map[Numberz.SIX] = looney;

	Dictionary<long, Dictionary<Numberz, Insanity>> insane =
	new Dictionary<long, Dictionary<Numberz, Insanity>>();
	insane[(long)1] = first_map;
	insane[(long)2] = second_map;

	return insane;
	}

	public Xtruct testMulti(byte arg0, int arg1, long arg2, Dictionary<short, string> arg3, Numberz arg4, long arg5)
	{
	Console.WriteLine("testMulti()");

	Xtruct hello = new Xtruct(); ;
	hello.String_thing = "Hello2";
	hello.Byte_thing = arg0;
	hello.I32_thing = arg1;
	hello.I64_thing = arg2;
	return hello;
	}

	public void testException(string arg)
	{
	Console.WriteLine("testException(" + arg + ")");
	if (arg == "Xception")
	{
	Xception x = new Xception();
	x.ErrorCode = 1001;
	x.Message = "This is an Xception";
	throw x;
	}
	return;
	}

	public Xtruct testMultiException(string arg0, string arg1)
	{
	Console.WriteLine("testMultiException(" + arg0 + ", " + arg1 + ")");
	if (arg0 == "Xception")
	{
	Xception x = new Xception();
	x.ErrorCode = 1001;
	x.Message = "This is an Xception";
	throw x;
	}
	else if (arg0 == "Xception2")
	{
	Xception2 x = new Xception2();
	x.ErrorCode = 2002;
	x.Struct_thing = new Xtruct();
	x.Struct_thing.String_thing = "This is an Xception2";
	throw x;
	}

	Xtruct result = new Xtruct();
	result.String_thing = arg1;
	return result;
	}

	public void testStop()
	{
	if (server != null)
	{
	server.Stop();
	}
	}

	public void testOneway(int arg)
	{
	Console.WriteLine("testOneway(" + arg + "), sleeping...");
	System.Threading.Thread.Sleep(arg * 1000);
	Console.WriteLine("testOneway finished");
	}

	} // class TestHandler

	public static void Execute(string[] args)
	{
	try
	{
	bool useBufferedSockets = false;
	int port = 9090;
	if (args.Length > 0)
	{
	port = int.Parse(args[0]);

	if (args.Length > 1)
	{
	bool.TryParse(args[1], out useBufferedSockets);
	}
	}

	// Processor
	TestHandler testHandler = new TestHandler();
	ThriftTest.Processor testProcessor = new ThriftTest.Processor(testHandler);

	// Transport
	TServerSocket tServerSocket = new TServerSocket(port, 0, useBufferedSockets);

	TServer serverEngine;

	// Simple Server
	serverEngine = new TSimpleServer(testProcessor, tServerSocket);

	// ThreadPool Server
	// serverEngine = new TThreadPoolServer(testProcessor, tServerSocket);

	// Threaded Server
	// serverEngine = new TThreadedServer(testProcessor, tServerSocket);

	testHandler.server = serverEngine;

	// Run it
	Console.WriteLine("Starting the server on port " + port + (useBufferedSockets ? " with buffered socket" : "") + "...");
	serverEngine.Serve();

	}
	catch (Exception x)
	{
	Console.Error.Write(x);
	}
	Console.WriteLine("done.");
	}
	}
	}