public void Test_Ops() { SocketWatcher w = new SocketWatcher(20); Address a = new Address("127.0.0.1", 7002); a.Resolve(); AsyncSocket one = w.CreateListenSocket(this, a); AsyncSocket two = null; AsyncSocket three = one; AsyncSocket four = two; Assert.IsTrue(one == three); Assert.IsTrue(two == four); Assert.IsTrue(one >= three); Assert.IsTrue(two >= four); Assert.IsTrue(one <= three); Assert.IsTrue(two <= four); Assert.IsTrue(one != two); Assert.IsTrue(two != one); Assert.IsTrue(one > two); Assert.IsTrue(one >= two); Assert.IsTrue(two < one); Assert.IsTrue(two <= one); two = w.CreateListenSocket(this, a); four = two; Assert.IsTrue(one == three); Assert.IsTrue(two == four); Assert.IsTrue(one >= three); Assert.IsTrue(two >= four); Assert.IsTrue(one <= three); Assert.IsTrue(two <= four); Assert.IsTrue(one != two); Assert.IsTrue(two != one); int c = ((IComparable)one).CompareTo(two); Assert.IsTrue(c != 0); if (c == -1) { // one less than two Assert.IsTrue(one < two); Assert.IsTrue(one <= two); Assert.IsTrue(two > one); Assert.IsTrue(two >= one); } else if (c == 1) { // one greater than two Assert.IsTrue(one > two); Assert.IsTrue(one >= two); Assert.IsTrue(two < one); Assert.IsTrue(two <= one); } else { Assert.IsTrue(false); } one.Close(); two.Close(); }
public void Test_Write() { SocketWatcher w = new SocketWatcher(20); Address a = new Address("127.0.0.1", 7001); a.Resolve(); AsyncSocket listen = w.CreateListenSocket(this, a); listen.RequestAccept(); AsyncSocket connect; lock (done) { connect = w.CreateConnectSocket(this, a); bool NoTimeout = Monitor.Wait(done, new TimeSpan(0, 0, 30)); Assert.IsTrue(NoTimeout, "The read command didn't complete in time."); Assert.IsTrue(succeeded, errorMessage); } Assert.AreEqual("5678901234", success); connect.Close(); listen.Close(); }
/// <summary> /// Create an outbound socket. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <param name="SSL">Do SSL3/TLS1 on startup</param> /// <param name="hostId">The logical name of the host to connect to, for SSL/TLS purposes.</param> /// <returns>Socket that is in the process of connecting</returns> public AsyncSocket CreateConnectSocket(ISocketEventListener listener, Address addr, bool SSL, string hostId) { AsyncSocket result; // Create the socket: result = new AsyncSocket(this, listener, SSL, m_synch); if (SSL) result.LocalCertificate = m_cert; // Start the connect process: result.Connect(addr, hostId); return result; }
/// <summary> /// Create an outbound socket. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <returns>Socket that is in the process of connecting</returns> public AsyncSocket CreateConnectSocket(ISocketEventListener listener, Address addr) { return CreateConnectSocket(listener, addr, false, null); }
/// <summary> /// Listens for an inbound connection. /// </summary> public override void Accept() { if (m_accept == null) { m_accept = new AsyncSocket(null, this, (bool)m_listener[Options.SSL], false); ((AsyncSocket)m_accept).LocalCertificate = m_listener[Options.LOCAL_CERTIFICATE] as X509Certificate2; Address addr = new Address((string)m_listener[Options.NETWORK_HOST], (int)m_listener[Options.PORT]); m_accept.Accept(addr); } m_accept.RequestAccept(); }
/// <summary> /// Address resolution finished. Try connecting. /// </summary> /// <param name="addr"></param> private void OnConnectResolved(Address addr) { // Debug.WriteLine("connectresolved: " + addr.ToString()); lock (this) { if (State != SocketState.Resolving) { // closed in the mean time. Probably not an error. return; } if ((addr == null) || (addr.IP == null) || (addr.Endpoint == null)) { FireError(new AsyncSocketConnectionException("Bad host: " + addr.Hostname)); return; } if (m_watcher != null) m_watcher.RegisterSocket(this); m_addr = addr; State = SocketState.Connecting; if (Socket.OSSupportsIPv6 && (m_addr.Endpoint.AddressFamily == AddressFamily.InterNetworkV6)) { // Debug.WriteLine("ipv6"); m_sock = new Socket(AddressFamily.InterNetworkV6, SocketType.Stream, ProtocolType.Tcp); } else { // Debug.WriteLine("ipv4"); m_sock = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp); } // well, of course this isn't right. m_sock.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.ReceiveBuffer, 4 * m_buf.Length); } if (m_synch) { try { m_sock.Connect(m_addr.Endpoint); } catch (SocketException ex) { FireError(ex); return; } if (m_sock.Connected) { // TODO: check to see if this Mono bug is still valid #if __MonoCS__ m_sock.Blocking = true; m_stream = new NetworkStream(m_sock); m_sock.Blocking = false; #else m_stream = new NetworkStream(m_sock); #endif if (m_secureProtocol != SslProtocols.None) StartTLS(); lock (this) { State = SocketState.Connected; } m_listener.OnConnect(this); } else { AsyncClose(); FireError(new AsyncSocketConnectionException("could not connect")); } } else { #if __MonoCS__ m_sock.Blocking = false; #endif m_sock.BeginConnect(m_addr.Endpoint, new AsyncCallback(ExecuteConnect), null); } }
/// <summary> /// Prepare to start accepting inbound requests. Call /// RequestAccept() to start the async process. /// </summary> /// <param name="addr">Address to listen on</param> /// <param name="backlog">The Maximum length of the queue of /// pending connections</param> public override void Accept(Address addr, int backlog) { lock (this) { m_addr = addr; m_sock = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp); // Always reuse address. m_sock.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.ReuseAddress, 1); m_sock.Bind(m_addr.Endpoint); m_sock.Listen(backlog); State = SocketState.Listening; if (m_watcher != null) m_watcher.RegisterSocket(this); } }
/// <summary> /// Accept a socket. Not implemented. /// </summary> /// <param name="addr"></param> /// <param name="backlog"></param> public override void Accept(Address addr, int backlog) { throw new NotImplementedException("HTTP binding server not implemented"); }
/// <summary> /// Not implemented. /// </summary> /// <param name="addr"></param> /// <param name="backlog"></param> public override void Accept(Address addr, int backlog) { throw new Exception("The method or operation is not implemented."); }
/// <summary> /// Generally should not be used. /// </summary> /// <param name="uri"></param> internal void Connect(Uri uri) { m_keepRunning = true; if (Connected) return; m_ssl = uri != null && uri.Scheme == "https"; m_host = uri.Host; if (m_proxyURI != null) { // TODO: add CONNECT support here. ShttpProxy? if (m_ssl) throw new InvalidOperationException("Can't do SSL through proxies yet."); uri = m_proxyURI; } m_addr = new Address(uri.Host, uri.Port); Connect(); }
/// <summary> /// Prepare to start accepting inbound requests. Call /// RequestAccept() to start the async process. /// </summary> /// <param name="addr">Address to listen on</param> /// <param name="backlog">The Maximum length of the queue of /// pending connections</param> public abstract void Accept(Address addr, int backlog);
/// <summary> /// Prepare to start accepting inbound requests. Call /// RequestAccept() to start the async process. /// Default the listen queue size to 5. /// </summary> /// <param name="addr">Address to listen on</param> public void Accept(Address addr) { Accept(addr, 5); }
/// <summary> /// Outbound connection. Eventually calls Listener.OnConnect() when /// the connection comes up. Don't forget to call RequestRead() in /// OnConnect()! /// </summary> /// <param name="addr"></param> public abstract void Connect(Address addr);
/// <summary> /// Outbound connection. Eventually calls Listener.OnConnect() when /// the connection comes up. Don't forget to call RequestRead() in /// OnConnect()! /// </summary> /// <param name="addr">Address/hostname to connect to</param> /// <param name="hostIdentity">Identity of the host we're /// connecting to. Used for SSL validation, this is the name /// of the SRV we looked up, for example.</param> public void Connect(Address addr, string hostIdentity) { m_hostid = hostIdentity; Connect(addr); }
/// <summary> /// Saves the address passed in, and really connects to m_host:m_port. /// </summary> /// <param name="addr"></param> public override void Connect(Bedrock.Net.Address addr) { m_remote_addr = addr; // save this till we are ready for it... Debug.Assert(m_host != null); Debug.Assert(m_port != 0); // connect to the proxy. Address proxy_addr = new Address(m_host, m_port); m_sock.Connect(proxy_addr, m_hostid); // we'll end up in OnConnected below. }
/// <summary> /// Start polling /// </summary> /// <param name="addr"></param> public override void Connect(Address addr) { Debug.Assert(m_url != null); m_running = true; m_curKey = -1; if (m_thread == null) { m_thread = new Thread(PollThread); m_thread.IsBackground = true; m_thread.Start(); } m_listener.OnConnect(this); }
/// <summary> /// Not implemented. /// </summary> /// <param name="addr"></param> public override void Connect(Address addr) { throw new Exception("The method or operation is not implemented."); }
/// <summary> /// Create a socket that is listening for inbound connections. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <param name="backlog">The maximum length of the queue of pending connections</param> /// <param name="SSL">Do SSL3/TLS1 on connect</param> /// <returns>A socket that is ready for calling RequestAccept()</returns> public AsyncSocket CreateListenSocket(ISocketEventListener listener, Address addr, int backlog, bool SSL) { //Debug.Assert(m_maxSocks > 1); AsyncSocket result = new AsyncSocket(this, listener, SSL, m_synch); if (SSL) { result.LocalCertificate = m_cert; result.RequireClientCert = m_requireClientCert; } result.Accept(addr, backlog); return result; }
/// <summary> /// Create a socket that is listening for inbound connections. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <param name="SSL">Do SSL3/TLS1 on connect</param> /// <returns>A socket that is ready for calling RequestAccept()</returns> public AsyncSocket CreateListenSocket(ISocketEventListener listener, Address addr, bool SSL) { return CreateListenSocket(listener, addr, 5, SSL); }
/// <summary> /// Start polling /// </summary> /// <param name="addr">Ignored in this case. Set URL.</param> public override void Connect(Address addr) { Debug.Assert(m_uri != null); m_rid = -1L; m_lastSock = null; m_running = false; // Create new ones each time, in case the URL has changed or something. m_sockA = new HttpSocket(this); m_sockB = new HttpSocket(this); m_sockA.Name = "A"; m_sockB.Name = "B"; m_sockA.ProxyURI = m_sockB.ProxyURI = m_proxyURI; m_sockA.ProxyCredentials = m_sockB.ProxyCredentials = m_proxyCredentials; m_sockA.Connect(m_uri); m_sockB.Connect(m_uri); }
/// <summary> /// Create a socket that is listening for inbound connections, with no SSL/TLS. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <returns>A socket that is ready for calling RequestAccept()</returns> public AsyncSocket CreateListenSocket(ISocketEventListener listener, Address addr) { return CreateListenSocket(listener, addr, 5, false); }
/// <summary> /// Outbound connection. Eventually calls Listener.OnConnect() when /// the connection comes up. Don't forget to call RequestRead() in /// OnConnect()! /// </summary> /// <param name="addr"></param> public override void Connect(Address addr) { // Debug.WriteLine("starting connect to " + addr.ToString()); State = SocketState.Resolving; if (m_synch) { addr.Resolve(); OnConnectResolved(addr); } else { addr.Resolve(new AddressResolved(OnConnectResolved)); } }
/// <summary> /// Create a socket that is listening for inbound connections, with no SSL/TLS. /// </summary> /// <param name="listener">Where to send notifications</param> /// <param name="addr">Address to connect to</param> /// <param name="backlog">The maximum length of the queue of pending connections</param> /// <returns>A socket that is ready for calling RequestAccept()</returns> public AsyncSocket CreateListenSocket(ISocketEventListener listener, Address addr, int backlog) { return CreateListenSocket(listener, addr, backlog, false); }
public void Test_Full_Response() { SocketWatcher watcher = new SocketWatcher(); Address a = new Address("127.0.0.1", 7002); a.Resolve(); ServerListener server = new ServerListener(); AsyncSocket server_sock = watcher.CreateListenSocket(server, a); server_sock.RequestAccept(); ResponseListener resp = new ResponseListener(); HttpSocket sock = new HttpSocket(resp); Uri u = new Uri("http://localhost:7002/"); byte[] buf = ENC.GetBytes("11111"); HttpSocket s = (HttpSocket)sock; s.Execute("GET", u, buf, 0, buf.Length, "text/plain"); resp.Event.WaitOne(); Assert.AreEqual("1234567890", resp.Last); resp.Last = null; buf = ENC.GetBytes("22222"); s.Execute("GET", u, buf, 0, buf.Length, "text/plain"); resp.Event.WaitOne(); Assert.AreEqual("1234567890", resp.Last); resp.Last = null; buf = ENC.GetBytes("33333"); s.Execute("GET", u, buf, 0, buf.Length, "text/plain"); resp.Event.WaitOne(); Assert.AreEqual("12345678901234567890", resp.Last); }
/// <summary> /// Connects to the XMPP server. /// </summary> public override void Connect() { m_elements = null; int port = (int)m_listener[Options.PORT]; Debug.Assert(port > 0); //m_sslOn = m_ssl; ProxySocket proxy = null; ProxyType pt = (ProxyType)m_listener[Options.PROXY_TYPE]; switch (pt) { case ProxyType.Socks4: proxy = new Socks4Proxy(this); break; case ProxyType.Socks5: proxy = new Socks5Proxy(this); break; case ProxyType.HTTP: proxy = new ShttpProxy(this); break; /* case ProxyType.HTTP_Polling: XEP25Socket j25s = new XEP25Socket(this); if (m_ProxyHost != null) { System.Net.WebProxy wp = new System.Net.WebProxy(); wp.Address = new Uri("http://" + m_ProxyHost + ":" + m_ProxyPort); if (m_ProxyUsername != null) { wp.Credentials = new System.Net.NetworkCredential(m_ProxyUsername, m_ProxyPassword); } j25s.Proxy = wp; } j25s.URL = m_server; m_sock = j25s; break; */ case ProxyType.None: m_sock = new AsyncSocket(null, this, (bool)m_listener[Options.SSL], false); ((AsyncSocket)m_sock).LocalCertificate = m_listener[Options.LOCAL_CERTIFICATE] as X509Certificate2; ((AsyncSocket)m_sock).CertificateGui = (bool)m_listener[Options.CERTIFICATE_GUI]; break; default: throw new ArgumentException("no handler for proxy type: " + pt, "ProxyType"); } if (proxy != null) { proxy.Socket = new AsyncSocket(null, proxy, (bool)m_listener[Options.SSL], false); ((AsyncSocket)proxy.Socket).LocalCertificate = m_listener[Options.LOCAL_CERTIFICATE] as X509Certificate2; proxy.Host = m_listener[Options.PROXY_HOST] as string; proxy.Port = (int)m_listener[Options.PROXY_PORT]; proxy.Username = m_listener[Options.PROXY_USER] as string; proxy.Password = m_listener[Options.PROXY_PW] as string; m_sock = proxy; } string to = (string)m_listener[Options.TO]; Debug.Assert(to != null); string host = (string)m_listener[Options.NETWORK_HOST]; if (String.IsNullOrEmpty(host)) { #if __MonoCS__ host = to; #else try { Address.LookupSRV((string)m_listener[Options.SRV_PREFIX], to, ref host, ref port); } catch { Debug.WriteLine("WARNING: netlib.Dns.dll missing"); host = to; } #endif } Address addr = new Address(host, port); m_sock.Connect(addr, (string)m_listener[Options.SERVER_ID]); }