void TestCanSendHandles(string pipename, IPEndPoint ipep) { int count = 0; Loop.Default.Run(async () => { var handles = new Stack<Handle>(); var pipelistener = new IPCPipeListener(); pipelistener.Bind(pipename); pipelistener.Connection += () => { var client = pipelistener.Accept(); client.Resume(); client.HandleData += (handle, data) => { handles.Push(handle); count++; if (count == 3) { foreach (var h in handles) { h.Close(); } pipelistener.Close(); } }; }; pipelistener.Listen(); var pipe = new IPCPipe(); await pipe.ConnectAsync(pipename); var tcplistener = new TcpListener(); tcplistener.Bind(ipep); tcplistener.Connection += () => { var client = tcplistener.Accept(); pipe.Write(client, new byte[1], (ex) => { client.Close(); tcplistener.Close(); }); }; tcplistener.Listen(); var tcp = new Tcp(); await tcp.ConnectAsync(ipep); tcp.Write("HELLO WORLD"); var udp = new Udp(); udp.Bind(ipep); pipe.Write(udp, Encoding.Default.GetBytes("UDP"), (ex) => udp.Close()); pipe.Write(pipe, Encoding.Default.GetBytes("pipe"), (ex) => pipe.Close()); }); Assert.Equal(3, count); }
public static Task WriteAsync(this IPCPipe pipe, Handle handle, ArraySegment <byte> data) { return(HelperFunctions.Wrap(handle, data, pipe.Write)); }
public static Task WriteAsync(this IPCPipe pipe, Handle handle, byte[] data, int offset) { return(HelperFunctions.Wrap(handle, data, offset, pipe.Write)); }
public static Task <int> WriteAsync(this IPCPipe pipe, Handle handle, string text) { return(HelperFunctions.Wrap <Handle, string, int>(handle, text, pipe.Write)); }