/** * Serves the incoming connections. * * @throws IOException * @throws DirectoryException */ private void serveIncomingConnections() throws IOException, DirectoryException { int selectorState = selector.select(); // We can't rely on return value of select to determine if any keys // are ready. // see http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=4850373 for (Iterator<SelectionKey> iterator = selector.selectedKeys().iterator(); iterator.hasNext(); ) { SelectionKey key = iterator.next(); iterator.remove(); if (key.isAcceptable()) { // Accept the new client connection. ServerSocketChannel serverChannel = (ServerSocketChannel) key.channel(); SocketChannel clientChannel = serverChannel.accept(); if (clientChannel != null) { acceptConnection(clientChannel); } } if (selectorState == 0 && enabled && !shutdownRequested && logger.isTraceEnabled()) { // Selected keys was non empty but select() returned 0. // Log warning and hope it blocks on the next select() call. logger.trace( "Selector.select() returned 0. " + "Selected Keys: %d, Interest Ops: %d, Ready Ops: %d ", selector.selectedKeys().size(), key.interestOps(), key.readyOps()); } } }
public static void main(String[] argv) throws Exception { Pipe[] pipes = new Pipe[PIPES_COUNT]; Pipe pipe = Pipe.open(); Pipe.SinkChannel sink = pipe.sink(); Pipe.SourceChannel source = pipe.source(); Selector sel = Selector.open(); source.configureBlocking(false); source.register(sel, SelectionKey.OP_READ); for (int i = 0; i < PIPES_COUNT; i++) { pipes[i] = Pipe.open(); Pipe.SourceChannel sc = pipes[i].source(); sc.configureBlocking(false); sc.register(sel, SelectionKey.OP_READ); Pipe.SinkChannel sc2 = pipes[i].sink(); sc2.configureBlocking(false); sc2.register(sel, SelectionKey.OP_WRITE); } for (int i = 0; i < LOOPS; i++) { sink.write(ByteBuffer.allocate(BUF_SIZE)); int x = sel.selectNow(); sel.selectedKeys().clear(); source.read(ByteBuffer.allocate(BUF_SIZE)); } for (int i = 0; i < PIPES_COUNT; i++) { pipes[i].sink().close(); pipes[i].source().close(); } pipe.sink().close(); pipe.source().close(); sel.close(); }
/** Selects on sockets and informs their Communicator when there is something to do. */ public void communicate(int timeout) { try { selector.select(timeout); } catch (IOException e) { // Not really sure why/when this happens yet return; } Iterator<SelectionKey> keys = selector.selectedKeys().iterator(); while (keys.hasNext()) { SelectionKey key = keys.next(); keys.remove(); if (!key.isValid()) continue; // WHY Communicator communicator = (Communicator) key.attachment(); if (key.isReadable()) communicator.onReadable(); if (key.isWritable()) communicator.onWritable(); if (key.isAcceptable()) communicator.onAcceptable(); } // Go through the queue and handle each communicator while (!queue.isEmpty()) { Communicator c = queue.poll(); c.onMemo(); } }
private void dispatch() throws IOException { sel.select(); for (Iterator i = sel.selectedKeys().iterator(); i.hasNext(); ) { SelectionKey sk = (SelectionKey) i.next(); i.remove(); Handler h = (Handler) sk.attachment(); h.handle(sk); } }
static void test() throws Exception { ServerSocketChannel ssc = null; SocketChannel sc = null; SocketChannel peer = null; try { ssc = ServerSocketChannel.open().bind(new InetSocketAddress(0)); // loopback connection InetAddress lh = InetAddress.getLocalHost(); sc = SocketChannel.open(new InetSocketAddress(lh, ssc.socket().getLocalPort())); peer = ssc.accept(); // peer sends message so that "sc" will be readable int n = peer.write(ByteBuffer.wrap("Hello".getBytes())); assert n > 0; sc.configureBlocking(false); Selector selector = Selector.open(); SelectionKey key = sc.register(selector, SelectionKey.OP_READ | SelectionKey.OP_WRITE); boolean done = false; int failCount = 0; while (!done) { int nSelected = selector.select(); if (nSelected > 0) { if (nSelected > 1) throw new RuntimeException("More than one channel selected"); Set<SelectionKey> keys = selector.selectedKeys(); Iterator<SelectionKey> iterator = keys.iterator(); while (iterator.hasNext()) { key = iterator.next(); iterator.remove(); if (key.isWritable()) { failCount++; if (failCount > 10) throw new RuntimeException("Test failed"); Thread.sleep(250); } if (key.isReadable()) { done = true; } } } } } finally { if (peer != null) peer.close(); if (sc != null) sc.close(); if (ssc != null) ssc.close(); } }
void processIO() { Iterator<SelectionKey> it = mySelector.selectedKeys().iterator(); while (it.hasNext()) { SelectionKey k = it.next(); it.remove(); if (k.isConnectable()) isConnectable(k); else if (k.isAcceptable()) isAcceptable(k); else { if (k.isWritable()) isWritable(k); if (k.isReadable()) isReadable(k); } } }
public void frameProcess() throws IOException { Iterator<SelectionKey> iterator = selector.selectedKeys().iterator(); while (iterator.hasNext()) { SelectionKey selectionKey = iterator.next(); iterator.remove(); if (selectionKey.isAcceptable()) { SocketChannel socketChannel = serverSocketChannel.accept(); socketChannel.configureBlocking(false); socketChannel.register(selector, SelectionKey.OP_READ); } if (selectionKey.isReadable()) { SocketChannel socketChannel = (SocketChannel) selectionKey.channel(); onReadRequests(socketChannel); } } }
public void run() { try { SocketChannel sc = SocketChannel.open(); InetSocketAddress sinaAddr = new InetSocketAddress("sina.com", 80); sc.socket().connect(sinaAddr); // init a selector via helper class selector provider Selector aSel = SelectorProvider.provider().openSelector(); Socket soc = new Socket("host", 80); soc.getChannel().register(aSel, SelectionKey.OP_ACCEPT); // init a channel for server socket. method 1 ServerSocketChannel ssc = ServerSocketChannel.open(); ssc.configureBlocking(true); // method 2, get server socket first, then init its channel ServerSocket ss = new ServerSocket(); ServerSocketChannel ssc2 = ss.getChannel(); // set socket channel as non blocking. ssc.configureBlocking(false); InetSocketAddress isa = new InetSocketAddress("localhost", 9999); ssc.socket().bind(isa); SelectionKey acceptKey = ssc.register(aSel, SelectionKey.OP_ACCEPT); int keysAdded = 0; while ((keysAdded = aSel.select()) > 0) { Set readyKeys = aSel.selectedKeys(); Iterator i = readyKeys.iterator(); while (i.hasNext()) { SelectionKey sk = (SelectionKey) i.next(); i.remove(); ServerSocketChannel n = (ServerSocketChannel) sk.channel(); // now we got a new socket and its channel after accept in server Socket s = n.accept().socket(); SocketChannel socketChannel = s.getChannel(); socketChannel.register(aSel, SelectionKey.OP_READ); } } } catch (Exception e) { } }
public void processSelectedKeys() throws IOException { // 处理连接就绪事件 for (Iterator it = selector.selectedKeys().iterator(); it.hasNext(); ) { SelectionKey selectionKey = (SelectionKey) it.next(); it.remove(); Target target = (Target) selectionKey.attachment(); SocketChannel socketChannel = (SocketChannel) selectionKey.channel(); try { if (socketChannel.finishConnect()) { selectionKey.cancel(); target.connectFinish = System.currentTimeMillis(); socketChannel.close(); addFinishedTarget(target); } } catch (IOException x) { socketChannel.close(); target.failure = x; addFinishedTarget(target); } } }
void processSelectedKeys() throws IOException { for (Iterator i = sel.selectedKeys().iterator(); i.hasNext(); ) { SelectionKey sk = (SelectionKey) i.next(); i.remove(); Target t = (Target) sk.attachment(); SocketChannel sc = (SocketChannel) sk.channel(); try { if (sc.finishConnect()) { sk.cancel(); t.connectFinish = System.currentTimeMillis(); sc.close(); printer.add(t); } } catch (IOException x) { sc.close(); t.failure = x; printer.add(t); } } }
private void go() throws IOException { // Create a new selector Selector selector = Selector.open(); // Open a listener on each port, and register each one // with the selector for (int i = 0; i < ports.length; ++i) { ServerSocketChannel ssc = ServerSocketChannel.open(); ssc.configureBlocking(false); ServerSocket ss = ssc.socket(); InetSocketAddress address = new InetSocketAddress(ports[i]); ss.bind(address); SelectionKey key = ssc.register(selector, SelectionKey.OP_ACCEPT); System.out.println("Going to listen on " + ports[i]); } while (true) { int num = selector.select(); Set selectedKeys = selector.selectedKeys(); Iterator it = selectedKeys.iterator(); while (it.hasNext()) { SelectionKey key = (SelectionKey) it.next(); if ((key.readyOps() & SelectionKey.OP_ACCEPT) == SelectionKey.OP_ACCEPT) { // Accept the new connection ServerSocketChannel ssc = (ServerSocketChannel) key.channel(); SocketChannel sc = ssc.accept(); sc.configureBlocking(false); // Add the new connection to the selector SelectionKey newKey = sc.register(selector, SelectionKey.OP_READ); it.remove(); System.out.println("Got connection from " + sc); } else if ((key.readyOps() & SelectionKey.OP_READ) == SelectionKey.OP_READ) { // Read the data SocketChannel sc = (SocketChannel) key.channel(); // Echo data int bytesEchoed = 0; while (true) { echoBuffer.clear(); int r = sc.read(echoBuffer); if (r <= 0) { break; } echoBuffer.flip(); sc.write(echoBuffer); bytesEchoed += r; } System.out.println("Echoed " + bytesEchoed + " from " + sc); it.remove(); } } // System.out.println( "going to clear" ); // selectedKeys.clear(); // System.out.println( "cleared" ); } }
public void run() { // Here's where everything happens. The select method will // return when any operations registered above have occurred, the // thread has been interrupted, etc. try { while (!stop) { try { if (selector.select() > 0) { if (stop) { break; } // Someone is ready for I/O, get the ready keys Set readyKeys = selector.selectedKeys(); Iterator it = readyKeys.iterator(); // Walk through the ready keys collection and process date requests. while (it.hasNext()) { SelectionKey sk = (SelectionKey) it.next(); it.remove(); SocketChannel readChannel = null; TcpAddress incomingAddress = null; if (sk.isAcceptable()) { // The key indexes into the selector so you // can retrieve the socket that's ready for I/O ServerSocketChannel nextReady = (ServerSocketChannel) sk.channel(); // Accept the date request and send back the date string Socket s = nextReady.accept().socket(); readChannel = s.getChannel(); readChannel.configureBlocking(false); readChannel.register(selector, SelectionKey.OP_READ); incomingAddress = new TcpAddress(s.getInetAddress(), s.getPort()); SocketEntry entry = new SocketEntry(incomingAddress, s); sockets.put(incomingAddress, entry); timeoutSocket(entry); TransportStateEvent e = new TransportStateEvent( DefaultTcpTransportMapping.this, incomingAddress, TransportStateEvent.STATE_CONNECTED, null); fireConnectionStateChanged(e); } else if (sk.isReadable()) { readChannel = (SocketChannel) sk.channel(); incomingAddress = new TcpAddress( readChannel.socket().getInetAddress(), readChannel.socket().getPort()); } else if (sk.isWritable()) { try { SocketEntry entry = (SocketEntry) sk.attachment(); SocketChannel sc = (SocketChannel) sk.channel(); if (entry != null) { writeMessage(entry, sc); } } catch (IOException iox) { if (logger.isDebugEnabled()) { iox.printStackTrace(); } logger.warn(iox); TransportStateEvent e = new TransportStateEvent( DefaultTcpTransportMapping.this, incomingAddress, TransportStateEvent.STATE_DISCONNECTED_REMOTELY, iox); fireConnectionStateChanged(e); sk.cancel(); } } else if (sk.isConnectable()) { try { SocketEntry entry = (SocketEntry) sk.attachment(); SocketChannel sc = (SocketChannel) sk.channel(); if ((!sc.isConnected()) && (sc.finishConnect())) { sc.configureBlocking(false); logger.debug("Connected to " + entry.getPeerAddress()); // make sure conncetion is closed if not used for timeout // micro seconds timeoutSocket(entry); sc.register(selector, SelectionKey.OP_WRITE, entry); } TransportStateEvent e = new TransportStateEvent( DefaultTcpTransportMapping.this, incomingAddress, TransportStateEvent.STATE_CONNECTED, null); fireConnectionStateChanged(e); } catch (IOException iox) { if (logger.isDebugEnabled()) { iox.printStackTrace(); } logger.warn(iox); sk.cancel(); } } if (readChannel != null) { try { readMessage(sk, readChannel, incomingAddress); } catch (IOException iox) { // IO exception -> channel closed remotely if (logger.isDebugEnabled()) { iox.printStackTrace(); } logger.warn(iox); sk.cancel(); readChannel.close(); TransportStateEvent e = new TransportStateEvent( DefaultTcpTransportMapping.this, incomingAddress, TransportStateEvent.STATE_DISCONNECTED_REMOTELY, iox); fireConnectionStateChanged(e); } } } } } catch (NullPointerException npex) { // There seems to happen a NullPointerException within the select() npex.printStackTrace(); logger.warn("NullPointerException within select()?"); } processPending(); } if (ssc != null) { ssc.close(); } } catch (IOException iox) { logger.error(iox); lastError = iox; } if (!stop) { stop = true; synchronized (DefaultTcpTransportMapping.this) { server = null; } } }
public static void checkClients(List<SocketChannel> anonymousClients) { try { if (selector.selectNow() == 0) { return; } Set<SelectionKey> keys = selector.selectedKeys(); for (SelectionKey key : keys) { if ((key.readyOps() & SelectionKey.OP_ACCEPT) == SelectionKey.OP_ACCEPT) { SocketChannel clientSocket = serverSocket.accept(); if (clientSocket == null) { System.err.println("Error: can not accept"); continue; } anonymousClients.add(clientSocket); clientSocket.configureBlocking(false); clientSocket.register(selector, SelectionKey.OP_READ); } else if ((key.readyOps() & SelectionKey.OP_READ) == SelectionKey.OP_READ) { SocketChannel clientSocket = (SocketChannel) key.channel(); ByteBuffer bytes = ByteBuffer.allocate(4096); if (clientSocket.read(bytes) != -1) { byte[] message = bytes.array(); switch (message[0]) { case 1: { String nick = MessageUtils.parseMessage(message).first; if (!checkMessage(nick, "", clientSocket)) { continue; } if (clients.containsKey(nick) || nick.length() > 32) { if (nick.length() > 32) { sendMessage( clientSocket, MessageUtils.error("<server>: your nick is too long")); } else { sendMessage( clientSocket, MessageUtils.error("<server>: another user is using this nick")); } sendMessage(clientSocket, MessageUtils.bye()); anonymousClients.remove(clientSocket); Utils.tryClose(clientSocket); } else { System.out.println(nick + " enter this chatroom"); notifyAllClients(nick + " enter this chatroom"); sendMessage( clientSocket, MessageUtils.message("<server>", "Wellcome, your nick is " + nick)); anonymousClients.remove(clientSocket); clients.put(nick, clientSocket); } break; } case 2: { String nick = getNickFromSocket(clientSocket); if (nick == null) { Utils.printErrorAndExit("Error: it could not happen"); } Utils.Pair<String, String> pair = MessageUtils.parseMessage(message); if (!checkMessage(pair.first, pair.second, clientSocket)) { continue; } if (!pair.first.equals(nick)) { System.out.println("Cheater: " + nick); sendMessage(clientSocket, MessageUtils.message("<server>", "do not cheat")); } for (Entry<String, SocketChannel> client : clients.entrySet()) { if (!clientSocket.equals(client.getValue())) { sendMessage(client.getValue(), MessageUtils.message(nick, pair.second)); } } break; } case 3: disconnectClient(clientSocket); break; case 127: { String nick = getNickFromSocket(clientSocket); Utils.Pair<String, String> pair = MessageUtils.parseMessage(message); if (!checkMessage(pair.first, pair.second, clientSocket)) { continue; } if (!pair.first.equals(nick)) { System.out.println("Cheater: " + nick); sendMessage(clientSocket, MessageUtils.message("<server>", "do not cheat")); } System.out.println(nick + ": " + pair.second); break; } default: System.out.println("Bad message from " + getNickFromSocket(clientSocket)); sendMessage(clientSocket, MessageUtils.message("<server>", "bad message")); break; } } else { disconnectClient(clientSocket); } } } keys.clear(); } catch (Exception expt) { expt.printStackTrace(); Utils.printErrorAndExit(expt.getMessage()); } }
public void init() throws IOException { this._logger = LoggerFactory.getLogger(AcquirePort.class); selector = Selector.open(); // 通过open方法来打开一个未绑定的ServerSocketChannel实例 ServerSocketChannel server = ServerSocketChannel.open(); InetSocketAddress isa = new InetSocketAddress(_acquirePort); // 将该ServerSocketChannel绑定到指定IP地址 server.socket().bind(isa); // 设置ServerSocket以非阻塞方式工作 server.configureBlocking(false); // 将server注册到指定Selector对象 server.register(selector, SelectionKey.OP_ACCEPT); // 定义准备执行读取数据的ByteBuffer ByteBuffer buff = ByteBuffer.allocate(1024); while (selector.select() > 0) { // 依次处理selector上的每个已选择的SelectionKey Set<SelectionKey> sks = selector.selectedKeys(); Iterator keys = sks.iterator(); while (keys.hasNext()) { SelectionKey sk = (SelectionKey) keys.next(); // 从selector上的已选择Key集中删除正在处理的SelectionKey keys.remove(); // 如果sk对应的通道包含客户端的连接请求 if (sk.isAcceptable()) { // 调用accept方法接受连接,产生服务器端对应的SocketChannel SocketChannel sc = server.accept(); // 设置采用非阻塞模式 sc.configureBlocking(false); // 将该SocketChannel也注册到selector sc.register(selector, SelectionKey.OP_READ); } // 如果sk对应的通道有数据需要读取 if (sk.isReadable()) { // 获取该SelectionKey对应的Channel,该Channel中有可读的数据 SocketChannel sc = (SocketChannel) sk.channel(); // 开始读取数据 try { while (sc.read(buff) > 0) { buff.flip(); this._logger.info("content" + buff); sc.write(buff); if (buff.hasRemaining()) { buff.compact(); } else { buff.clear(); } } // 打印从该sk对应的Channel里读取到的数据 this._logger.info("accpect content" + buff); } // 如果捕捉到该sk对应的Channel出现了异常,即表明该Channel // 对应的Client出现了问题,所以从Selector中取消sk的注册 catch (IOException ex) { // 从Selector中删除指定的SelectionKey sk.cancel(); if (sk.channel() != null) { sk.channel().close(); } } } } } }