public static int Execute(List <string> args) { var loggerFactory = new LoggerFactory();//.AddConsole().AddDebug(); var logger = new LoggerFactory().CreateLogger("Test"); try { var param = new ServerParam(); try { param.Parse(args); } catch (Exception ex) { Console.WriteLine("*** FAILED ***"); Console.WriteLine("Error while parsing arguments"); Console.WriteLine(ex.Message + " ST: " + ex.StackTrace); return(1); } TTransportFactory transFactory = null; // Transport TServerTransport trans; switch (param.transport) { case TransportChoice.NamedPipe: Debug.Assert(param.pipe != null); trans = new TNamedPipeServerTransport(param.pipe); break; case TransportChoice.TlsSocket: var cert = GetServerCert(); if (cert == null || !cert.HasPrivateKey) { throw new InvalidOperationException("Certificate doesn't contain private key"); } transFactory = new TTransportFactory(); // framed/buffered is built into socket transports trans = new TTlsServerSocketTransport(param.port, cert, param.buffering, (sender, certificate, chain, errors) => true, null, SslProtocols.Tls | SslProtocols.Tls11 | SslProtocols.Tls12); break; case TransportChoice.Socket: default: transFactory = new TTransportFactory(); // framed/buffered is built into socket transports trans = new TServerSocketTransport(param.port, 0, param.buffering); break; } // add layered transport, if not already set above if (transFactory == null) { switch (param.buffering) { case Buffering.FramedTransport: transFactory = new TFramedTransport.Factory(); break; case Buffering.BufferedTransport: transFactory = new TBufferedTransport.Factory(); break; } } // Protocol ITProtocolFactory proto; switch (param.protocol) { case ProtocolChoice.Compact: proto = new TCompactProtocol.Factory(); break; case ProtocolChoice.Json: proto = new TJsonProtocol.Factory(); break; case ProtocolChoice.Binary: default: proto = new TBinaryProtocol.Factory(); break; } // Processor var testHandler = new TestHandlerAsync(); var testProcessor = new ThriftTest.AsyncProcessor(testHandler); var processorFactory = new TSingletonProcessorFactory(testProcessor); TServer serverEngine = new TSimpleAsyncServer(processorFactory, trans, transFactory, transFactory, proto, proto, logger); //Server event handler var serverEvents = new MyServerEventHandler(); serverEngine.SetEventHandler(serverEvents); // Run it var where = (!string.IsNullOrEmpty(param.pipe)) ? "on pipe " + param.pipe : "on port " + param.port; Console.WriteLine("Starting the AsyncBaseServer " + where + " with processor TPrototypeProcessorFactory prototype factory " + (param.buffering == Buffering.BufferedTransport ? " with buffered transport" : "") + (param.buffering == Buffering.FramedTransport ? " with framed transport" : "") + (param.transport == TransportChoice.TlsSocket ? " with encryption" : "") + (param.protocol == ProtocolChoice.Compact ? " with compact protocol" : "") + (param.protocol == ProtocolChoice.Json ? " with json protocol" : "") + "..."); serverEngine.ServeAsync(CancellationToken.None).GetAwaiter().GetResult(); Console.ReadLine(); } catch (Exception x) { Console.Error.Write(x); return(1); } Console.WriteLine("done."); return(0); }
/** * 点击事件 **/ public static void InputEvent(Int32 port, MouseEventType type) { TSocket socket = new TSocket("127.0.0.1", port, 1000); TFramedTransport.Factory factory = new TFramedTransport.Factory(); TTransport transport = factory.GetTransport(socket); TBinaryProtocol.Factory factory1 = new TBinaryProtocol.Factory(); TProtocol protocol = factory1.GetProtocol(transport); TMultiplexedProtocol impl1 = new TMultiplexedProtocol(protocol, "ScreenService"); ScreenService.Client client = new ScreenService.Client(impl1); try { socket.Open(); bool r = client.InputEvent(type); } catch (Exception x) { Console.WriteLine(x.StackTrace); } finally { transport.Close(); } }
static void Execute(int port) { try { // create protocol factory, default to BinaryProtocol TProtocolFactory ProtocolFactory = new TBinaryProtocol.Factory(true, true); TServerTransport servertrans = new TServerSocket(port, 0, false); TTransportFactory TransportFactory = new TFramedTransport.Factory(); BenchmarkService.Iface benchHandler = new BenchmarkServiceImpl(); TProcessor benchProcessor = new BenchmarkService.Processor(benchHandler); Aggr.Iface aggrHandler = new AggrServiceImpl(); TProcessor aggrProcessor = new Aggr.Processor(aggrHandler); TMultiplexedProcessor multiplex = new TMultiplexedProcessor(); multiplex.RegisterProcessor(Constants.NAME_BENCHMARKSERVICE, benchProcessor); multiplex.RegisterProcessor(Constants.NAME_AGGR, aggrProcessor); TServer ServerEngine = new TSimpleServer(multiplex, servertrans, TransportFactory, ProtocolFactory); Console.WriteLine("Starting the server ..."); ServerEngine.Serve(); } catch (Exception e) { Console.WriteLine(e.Message); } }
/** * 获取手机屏幕分辨率 **/ public static String sendPoint(Int32 port, Int32 x, Int32 y) { TSocket socket = new TSocket("127.0.0.1", port, 1000); TFramedTransport.Factory factory = new TFramedTransport.Factory(); TTransport transport = factory.GetTransport(socket); TBinaryProtocol.Factory factory1 = new TBinaryProtocol.Factory(); TProtocol protocol = factory1.GetProtocol(transport); TMultiplexedProtocol impl1 = new TMultiplexedProtocol(protocol, "ScreenService"); ScreenService.Client client = new ScreenService.Client(impl1); try { socket.Open(); return(client.sendPoint(x, y)); } catch (Exception e) { Console.WriteLine(e.StackTrace); } finally { transport.Close(); } return(""); }
public static string RemoveProcess(Int32 port, String lineNumber) { TSocket socket = new TSocket("127.0.0.1", port, 3000); TFramedTransport.Factory factory = new TFramedTransport.Factory(); TTransport transport = factory.GetTransport(socket); TBinaryProtocol.Factory factory1 = new TBinaryProtocol.Factory(); TProtocol protocol = factory1.GetProtocol(transport); TMultiplexedProtocol impl1 = new TMultiplexedProtocol(protocol, "NodeService"); NodeService.Client client = new NodeService.Client(impl1); try { socket.Open(); return(client.RemoveProcess(lineNumber)); } catch (Exception x) { Console.WriteLine(x.StackTrace); } finally { transport.Close(); } return(""); }
static internal void Run(int port) { // check whether the port is free TServerTransport serverTransport = new TServerSocket(port); serverTransport.Listen(); serverTransport.Close(); serverTransport = new TServerSocket(port); // one processor to rule them all var multiplexProcessor = new TMultiplexedProcessor(); // create protocol factory, default to "framed binary" TProtocolFactory protocolFactory = new TBinaryProtocol.Factory(true, true); TTransportFactory transportFactory = new TFramedTransport.Factory(); // create handler/processor for the public service Handler handler = new Handler(); Pizzeria.Processor pizzeria = new Pizzeria.Processor(handler); multiplexProcessor.RegisterProcessor(typeof(Pizzeria).Name, pizzeria); // create handler/processor for the internal service // handler = same PizzeriaCallback.Processor callback = new PizzeriaCallback.Processor(handler); multiplexProcessor.RegisterProcessor(typeof(PizzeriaCallback).Name, callback); // create handler/processor for the diagnostics service // handler = same Diagnostics.Diagnostics.Processor diagnose = new Diagnostics.Diagnostics.Processor(handler); multiplexProcessor.RegisterProcessor(typeof(Diagnostics.Diagnostics).Name, diagnose); // more processors as needed ... // complete internal setup Console.Title = Environment.MachineName + "-" + port.ToString(); ReadinessHttpServer.Start(PizzaConfig.ReadinessPorts.Pizzeria); try { // return the server instance //var server = new TThreadPoolServer(multiplexProcessor, serverTransport, transportFactory, protocolFactory); var server = new TThreadedServer(multiplexProcessor, serverTransport, transportFactory, protocolFactory); //var server = new TSimpleServer(multiplexProcessor, serverTransport, transportFactory, protocolFactory); ReadinessHttpServer.Status = Readiness.AliveAndReady; server.Serve(); } finally { ReadinessHttpServer.Stop(); } }
public static void StartServer() { SearchServiceHandler handler = new SearchServiceHandler(); SearchService.Processor processor = new SearchService.Processor(handler); TMultiplexedProcessor multiProcessor = new TMultiplexedProcessor(); multiProcessor.RegisterProcessor("search_service", processor); TServerTransport serverTransport = new TServerSocket(9090); var a = new TFramedTransport.Factory(); TServer server = new TThreadPoolServer(multiProcessor, serverTransport, new TFramedTransport.Factory(), new TBinaryProtocol.Factory()); serverTask = Task.Factory.StartNew(server.Serve); }
static void Main() { //TServerSocket serverTransport = new TServerSocket(new System.Net.Sockets.TcpListener(IPAddress.Parse("192.168.43.1"), 25000)); TServerSocket serverTransport = new TServerSocket(25001, 0, false); //异步IO,需要使用TFramedTransport,它将分块缓存读取 var tfactory = new TFramedTransport.Factory(); //使用高密度二进制协议 var pfactory = new TCompactProtocol.Factory(); TMultiplexedProcessor processor = new TMultiplexedProcessor(); com.msunsoft.service.calculator.Processor calcProcessor = new com.msunsoft.service.calculator.Processor(new Server()); processor.RegisterProcessor("test-server-rpc$com.msunsoft.service.calculator$2.0", calcProcessor); TThreadedServer server = new TThreadedServer(processor, serverTransport, tfactory, pfactory); Console.WriteLine("Starting server on port 25001 ..."); server.Serve(); }
private static async Task RunSelectedConfigurationAsync(Transport transport, Buffering buffering, Protocol protocol, CancellationToken cancellationToken) { var handler = new CalculatorAsyncHandler(); TServerTransport serverTransport = null; switch (transport) { case Transport.Tcp: serverTransport = new TServerSocketTransport(9090); break; case Transport.NamedPipe: serverTransport = new TNamedPipeServerTransport(".test"); break; case Transport.TcpTls: serverTransport = new TTlsServerSocketTransport(9090, GetCertificate(), ClientCertValidator, LocalCertificateSelectionCallback); break; } TTransportFactory inputTransportFactory = null; TTransportFactory outputTransportFactory = null; switch (buffering) { case Buffering.Buffered: inputTransportFactory = new TBufferedTransport.Factory(); outputTransportFactory = new TBufferedTransport.Factory(); break; case Buffering.Framed: inputTransportFactory = new TFramedTransport.Factory(); outputTransportFactory = new TFramedTransport.Factory(); break; default: // layered transport(s) are optional Debug.Assert(buffering == Buffering.None, "unhandled case"); break; } TProtocolFactory inputProtocolFactory = null; TProtocolFactory outputProtocolFactory = null; ITAsyncProcessor processor = null; switch (protocol) { case Protocol.Binary: inputProtocolFactory = new TBinaryProtocol.Factory(); outputProtocolFactory = new TBinaryProtocol.Factory(); processor = new Calculator.AsyncProcessor(handler); break; case Protocol.Compact: inputProtocolFactory = new TCompactProtocol.Factory(); outputProtocolFactory = new TCompactProtocol.Factory(); processor = new Calculator.AsyncProcessor(handler); break; case Protocol.Json: inputProtocolFactory = new TJsonProtocol.Factory(); outputProtocolFactory = new TJsonProtocol.Factory(); processor = new Calculator.AsyncProcessor(handler); break; case Protocol.Multiplexed: inputProtocolFactory = new TBinaryProtocol.Factory(); outputProtocolFactory = new TBinaryProtocol.Factory(); var calcHandler = new CalculatorAsyncHandler(); var calcProcessor = new Calculator.AsyncProcessor(calcHandler); var sharedServiceHandler = new SharedServiceAsyncHandler(); var sharedServiceProcessor = new SharedService.AsyncProcessor(sharedServiceHandler); var multiplexedProcessor = new TMultiplexedProcessor(); multiplexedProcessor.RegisterProcessor(nameof(Calculator), calcProcessor); multiplexedProcessor.RegisterProcessor(nameof(SharedService), sharedServiceProcessor); processor = multiplexedProcessor; break; default: throw new ArgumentOutOfRangeException(nameof(protocol), protocol, null); } try { Logger.LogInformation( $"Selected TAsyncServer with {serverTransport} transport, {processor} processor and {inputProtocolFactory} protocol factories"); var loggerFactory = ServiceCollection.BuildServiceProvider().GetService <ILoggerFactory>(); var server = new TSimpleAsyncServer( itProcessorFactory: new TSingletonProcessorFactory(processor), serverTransport: serverTransport, inputTransportFactory: inputTransportFactory, outputTransportFactory: outputTransportFactory, inputProtocolFactory: inputProtocolFactory, outputProtocolFactory: outputProtocolFactory, logger: loggerFactory.CreateLogger <TSimpleAsyncServer>()); Logger.LogInformation("Starting the server..."); await server.ServeAsync(cancellationToken); } catch (Exception x) { Logger.LogInformation(x.ToString()); } }
public static bool Execute(string[] args) { try { bool useBufferedSockets = false, useFramed = false, useEncryption = false, compact = false, json = false; ServerType serverType = ServerType.TSimpleServer; ProcessorFactoryType processorFactoryType = ProcessorFactoryType.TSingletonProcessorFactory; int port = 9090; string pipe = null; for (int i = 0; i < args.Length; i++) { if (args[i] == "-pipe") // -pipe name { pipe = args[++i]; } else if (args[i].Contains("--port=")) { port = int.Parse(args[i].Substring(args[i].IndexOf("=") + 1)); } else if (args[i] == "-b" || args[i] == "--buffered" || args[i] == "--transport=buffered") { useBufferedSockets = true; } else if (args[i] == "-f" || args[i] == "--framed" || args[i] == "--transport=framed") { useFramed = true; } else if (args[i] == "--compact" || args[i] == "--protocol=compact") { compact = true; } else if (args[i] == "--json" || args[i] == "--protocol=json") { json = true; } else if (args[i] == "--threaded" || args[i] == "--server-type=threaded") { serverType = ServerType.TThreadedServer; } else if (args[i] == "--threadpool" || args[i] == "--server-type=threadpool") { serverType = ServerType.TThreadPoolServer; } else if (args[i] == "--prototype" || args[i] == "--processor=prototype") { processorFactoryType = ProcessorFactoryType.TPrototypeProcessorFactory; } else if (args[i] == "--ssl") { useEncryption = true; } } // Transport TServerTransport trans; if (pipe != null) { trans = new TNamedPipeServerTransport(pipe); } else { if (useEncryption) { string certPath = "../keys/server.p12"; trans = new TTLSServerSocket(port, 0, useBufferedSockets, new X509Certificate2(certPath, "thrift"), null, null, SslProtocols.Tls); } else { trans = new TServerSocket(port, 0, useBufferedSockets); } } TProtocolFactory proto; if (compact) { proto = new TCompactProtocol.Factory(); } else if (json) { proto = new TJSONProtocol.Factory(); } else { proto = new TBinaryProtocol.Factory(); } TProcessorFactory processorFactory; if (processorFactoryType == ProcessorFactoryType.TPrototypeProcessorFactory) { processorFactory = new TPrototypeProcessorFactory <ThriftTest.Processor, TestHandler>(); } else { // Processor TestHandler testHandler = new TestHandler(); ThriftTest.Processor testProcessor = new ThriftTest.Processor(testHandler); processorFactory = new TSingletonProcessorFactory(testProcessor); } TTransportFactory transFactory; if (useFramed) { transFactory = new TFramedTransport.Factory(); } else { transFactory = new TTransportFactory(); } TServer serverEngine; switch (serverType) { case ServerType.TThreadPoolServer: serverEngine = new TThreadPoolServer(processorFactory, trans, transFactory, proto); break; case ServerType.TThreadedServer: serverEngine = new TThreadedServer(processorFactory, trans, transFactory, proto); break; default: serverEngine = new TSimpleServer(processorFactory, trans, transFactory, proto); break; } //Server event handler TradeServerEventHandler serverEvents = new TradeServerEventHandler(); serverEngine.setEventHandler(serverEvents); // Run it string where = (pipe != null ? "on pipe " + pipe : "on port " + port); Console.WriteLine("Starting the " + serverType.ToString() + " " + where + (processorFactoryType == ProcessorFactoryType.TPrototypeProcessorFactory ? " with processor prototype factory " : "") + (useBufferedSockets ? " with buffered socket" : "") + (useFramed ? " with framed transport" : "") + (useEncryption ? " with encryption" : "") + (compact ? " with compact protocol" : "") + (json ? " with json protocol" : "") + "..."); serverEngine.Serve(); } catch (Exception x) { Console.Error.Write(x); return(false); } Console.WriteLine("done."); return(true); }