List of usage examples for java.nio.channels ServerSocketChannel register
public final SelectionKey register(Selector sel, int ops) throws ClosedChannelException
From source file:oz.hadoop.yarn.api.net.ApplicationContainerServerImpl.java
/** * /*from www. j ava 2 s . c o m*/ */ @Override void init() throws IOException { ServerSocketChannel channel = (ServerSocketChannel) this.rootChannel; channel.configureBlocking(false); channel.socket().bind(this.address); channel.register(this.selector, SelectionKey.OP_ACCEPT); if (logger.isInfoEnabled()) { logger.info("Bound to " + channel.getLocalAddress()); } }
From source file:com.l2jfree.network.mmocore.AcceptorThread.java
public void openServerSocket(InetAddress address, int port) throws IOException { ServerSocketChannel selectable = ServerSocketChannel.open(); selectable.configureBlocking(false); ServerSocket ss = selectable.socket(); ss.setReuseAddress(true);/*from ww w . ja v a2 s . co m*/ ss.setReceiveBufferSize(getBufferSize()); if (address == null) { ss.bind(new InetSocketAddress(port)); } else { ss.bind(new InetSocketAddress(address, port)); } selectable.register(getSelector(), SelectionKey.OP_ACCEPT); }
From source file:org.reunionemu.jreunion.server.Network.java
public boolean register(InetSocketAddress address) { try {// w ww . j av a 2s .c o m ServerSocketChannel serverChannel = ServerSocketChannel.open(); ServerSocket serverSocket = serverChannel.socket(); serverSocket.bind(address); serverChannel.configureBlocking(false); synchronized (this) { selector.wakeup(); serverChannel.register(selector, SelectionKey.OP_ACCEPT); } } catch (Exception e) { if (e instanceof BindException) { LoggerFactory.getLogger(Network.class) .error("Port " + address.getPort() + " not available. Is the server already running?", e); return false; } } return true; }
From source file:com.sun.grizzly.http.jk.common.ChannelNioSocket.java
/** * jmx:managed-operation/* w ww . j a va 2s . c o m*/ */ @Override public void init() throws IOException { // Find a port. if (startPort == 0) { port = 0; LoggerUtils.getLogger().info("JK: ajp13 disabling channelNioSocket"); running = true; return; } if (maxPort < startPort) { maxPort = startPort; } ServerSocketChannel ssc = ServerSocketChannel.open(); ssc.configureBlocking(false); for (int i = startPort; i <= maxPort; i++) { try { InetSocketAddress iddr = null; if (inet == null) { iddr = new InetSocketAddress(i); } else { iddr = new InetSocketAddress(inet, i); } sSocket = ssc.socket(); sSocket.bind(iddr); port = i; break; } catch (IOException ex) { LoggerUtils.getLogger().info("Port busy " + i + " " + ex.toString()); sSocket = null; } } if (sSocket == null) { LoggerUtils.getLogger().log(Level.SEVERE, "Can't find free port " + startPort + " " + maxPort); return; } LoggerUtils.getLogger().info("JK: ajp13 listening on " + getAddress() + ":" + port); selector = Utils.openSelector(); ssc.register(selector, SelectionKey.OP_ACCEPT); // If this is not the base port and we are the 'main' channleSocket and // SHM didn't already set the localId - we'll set the instance id if ("channelNioSocket".equals(name) && port != startPort && (wEnv.getLocalId() == 0)) { wEnv.setLocalId(port - startPort); } // XXX Reverse it -> this is a notification generator !! if (next == null && wEnv != null) { if (nextName != null) { setNext(wEnv.getHandler(nextName)); } if (next == null) { next = wEnv.getHandler("dispatch"); } if (next == null) { next = wEnv.getHandler("request"); } } JMXRequestNote = wEnv.getNoteId(WorkerEnv.ENDPOINT_NOTE, "requestNote"); running = true; // Run a thread that will accept connections. // XXX Try to find a thread first - not sure how... if (this.domain != null) { try { tpOName = new ObjectName(domain + ":type=ThreadPool,name=" + getChannelName()); Registry.getRegistry(null, null).registerComponent(tp, tpOName, null); rgOName = new ObjectName(domain + ":type=GlobalRequestProcessor,name=" + getChannelName()); Registry.getRegistry(null, null).registerComponent(global, rgOName, null); } catch (Exception e) { LoggerUtils.getLogger().log(Level.SEVERE, "Can't register threadpool"); } } tp.start(); Poller pollAjp = new Poller(); tp.runIt(pollAjp); }
From source file:com.app.services.ExecutorServiceThread.java
public void run() { // create a selector that will by used for multiplexing. The selector // registers the socketserverchannel as // well as all socketchannels that are created String CLIENTCHANNELNAME = "clientChannel"; String SERVERCHANNELNAME = "serverChannel"; String channelType = "channelType"; ConcurrentHashMap<SelectionKey, Object> resultMap = new ConcurrentHashMap<SelectionKey, Object>(); ClassLoader classLoader = null; ByteArrayOutputStream bstr;//w w w .ja v a 2 s .c o m ByteBuffer buffer = null; ByteBuffer lengthBuffer = ByteBuffer.allocate(4); int bytesRead; InputStream bais; ObjectInputStream ois; Object object; ExecutorServiceInfo executorServiceInfo = null; Random random = new Random(System.currentTimeMillis()); // register the serversocketchannel with the selector. The OP_ACCEPT // option marks // a selection key as ready when the channel accepts a new connection. // When the // socket server accepts a connection this key is added to the list of // selected keys of the selector. // when asked for the selected keys, this key is returned and hence we // know that a new connection has been accepted. try { Selector selector = Selector.open(); SelectionKey socketServerSelectionKey = serverSocketChannel.register(selector, SelectionKey.OP_ACCEPT); // SelectionKey socketServerSelectionKey1 = // channel.register(selector1, // SelectionKey.OP_ACCEPT); // set property in the key that identifies the channel Map<String, String> properties = new ConcurrentHashMap<String, String>(); properties.put(channelType, SERVERCHANNELNAME); socketServerSelectionKey.attach(properties); // wait for the selected keys SelectionKey key = null; Set<SelectionKey> selectedKeys; // logger.info("Instance Number"+instanceNumber); Iterator<SelectionKey> iterator = null; SocketChannel clientChannel = null; while (true) { try { // the select method is a blocking method which returns when // atleast // one of the registered // channel is selected. In this example, when the socket // accepts // a // new connection, this method // will return. Once a socketclient is added to the list of // registered channels, then this method // would also return when one of the clients has data to be // read // or // written. It is also possible to perform a nonblocking // select // using the selectNow() function. // We can also specify the maximum time for which a select // function // can be blocked using the select(long timeout) function. if (selector.select() >= 0) { selectedKeys = selector.selectedKeys(); iterator = selectedKeys.iterator(); } while (iterator.hasNext()) { try { key = iterator.next(); // the selection key could either by the // socketserver // informing // that a new connection has been made, or // a socket client that is ready for read/write // we use the properties object attached to the // channel // to // find // out the type of channel. if (((Map) key.attachment()).get(channelType).equals(SERVERCHANNELNAME)) { // a new connection has been obtained. This // channel // is // therefore a socket server. ServerSocketChannel serverSocketChannel = (ServerSocketChannel) key.channel(); // accept the new connection on the server // socket. // Since // the // server socket channel is marked as non // blocking // this channel will return null if no client is // connected. SocketChannel clientSocketChannel = serverSocketChannel.accept(); if (clientSocketChannel != null) { // set the client connection to be non // blocking clientSocketChannel.configureBlocking(false); SelectionKey clientKey = clientSocketChannel.register(selector, SelectionKey.OP_READ, SelectionKey.OP_WRITE); Map<String, String> clientproperties = new ConcurrentHashMap<String, String>(); clientproperties.put(channelType, CLIENTCHANNELNAME); clientKey.attach(clientproperties); clientKey.interestOps(SelectionKey.OP_READ); // clientSocketChannel.close(); // write something to the new created client /* * CharBuffer buffer = * CharBuffer.wrap("Hello client"); while * (buffer.hasRemaining()) { * clientSocketChannel.write * (Charset.defaultCharset() * .encode(buffer)); } * clientSocketChannel.close(); * buffer.clear(); */ } } else { // data is available for read // buffer for reading clientChannel = (SocketChannel) key.channel(); if (key.isReadable()) { // the channel is non blocking so keep it // open // till // the // count is >=0 clientChannel = (SocketChannel) key.channel(); if (resultMap.get(key) == null) { //log.info(key); bstr = new ByteArrayOutputStream(); object = null; clientChannel.read(lengthBuffer); int length = lengthBuffer.getInt(0); lengthBuffer.clear(); //log.info(length); buffer = ByteBuffer.allocate(length); if ((bytesRead = clientChannel.read(buffer)) > 0) { // buffer.flip(); // System.out // .println(bytesRead); bstr.write(buffer.array(), 0, bytesRead); buffer.clear(); } buffer.clear(); //log.info("Message1"+new String(bstr // .toByteArray())); bais = new ByteArrayInputStream(bstr.toByteArray()); ois = new ObjectInputStream(bais); // Offending // line. // Produces // the // StreamCorruptedException. //log.info("In read obect"); object = ois.readObject(); //log.info("Class Cast"); //log.info("Class Cast1"); ois.close(); byte[] params = bstr.toByteArray(); bstr.close(); //log.info("readObject"); //log.info("After readObject"); if (object instanceof CloseSocket) { resultMap.remove(key); clientChannel.close(); key.cancel(); } // clientChannel.close(); String serviceurl = (String) object; String[] serviceRegistry = serviceurl.split("/"); //log.info("classLoaderMap" // + urlClassLoaderMap); //log.info(deployDirectory // + "/" + serviceRegistry[0]); int servicenameIndex; //log.info(earServicesDirectory // + "/" + serviceRegistry[0] // + "/" + serviceRegistry[1]); if (serviceRegistry[0].endsWith(".ear")) { classLoader = (VFSClassLoader) urlClassLoaderMap.get(deployDirectory + "/" + serviceRegistry[0] + "/" + serviceRegistry[1]); servicenameIndex = 2; } else if (serviceRegistry[0].endsWith(".jar")) { classLoader = (WebClassLoader) urlClassLoaderMap .get(deployDirectory + "/" + serviceRegistry[0]); servicenameIndex = 1; } else { classLoader = (WebClassLoader) urlClassLoaderMap .get(deployDirectory + "/" + serviceRegistry[0]); servicenameIndex = 1; } String serviceName = serviceRegistry[servicenameIndex]; // log.info("servicename:"+serviceName);; synchronized (executorServiceMap) { executorServiceInfo = (ExecutorServiceInfo) executorServiceMap .get(serviceName.trim()); } ExecutorServiceInfoClassLoader classLoaderExecutorServiceInfo = new ExecutorServiceInfoClassLoader(); classLoaderExecutorServiceInfo.setClassLoader(classLoader); classLoaderExecutorServiceInfo.setExecutorServiceInfo(executorServiceInfo); resultMap.put(key, classLoaderExecutorServiceInfo); // key.interestOps(SelectionKey.OP_READ); // log.info("Key interested Ops"); // continue; } //Thread.sleep(100); /* * if (classLoader == null) throw new * Exception( * "Could able to obtain deployed class loader" * ); */ /* * log.info( * "current context classloader" + * classLoader); */ //log.info("In rad object"); bstr = new ByteArrayOutputStream(); lengthBuffer.clear(); int numberofDataRead = clientChannel.read(lengthBuffer); //log.info("numberofDataRead" // + numberofDataRead); int length = lengthBuffer.getInt(0); if (length <= 0) { iterator.remove(); continue; } lengthBuffer.clear(); //log.info(length); buffer = ByteBuffer.allocate(length); buffer.clear(); if ((bytesRead = clientChannel.read(buffer)) > 0) { // buffer.flip(); // System.out // .println(bytesRead); bstr.write(buffer.array(), 0, bytesRead); buffer.clear(); } if (bytesRead <= 0 || bytesRead < length) { //log.info("bytesRead<length"); iterator.remove(); continue; } //log.info(new String(bstr // .toByteArray())); bais = new ByteArrayInputStream(bstr.toByteArray()); ExecutorServiceInfoClassLoader classLoaderExecutorServiceInfo = (ExecutorServiceInfoClassLoader) resultMap .get(key); ois = new ClassLoaderObjectInputStream( (ClassLoader) classLoaderExecutorServiceInfo.getClassLoader(), bais); // Offending // line. // Produces // the // StreamCorruptedException. object = ois.readObject(); ois.close(); bstr.close(); executorServiceInfo = classLoaderExecutorServiceInfo.getExecutorServiceInfo(); //System.out // .println("inputStream Read Object"); //log.info("Object=" // + object.getClass()); // Thread.currentThread().setContextClassLoader(currentContextLoader); if (object instanceof ExecutorParams) { ExecutorParams exeParams = (ExecutorParams) object; Object returnValue = null; //log.info("test socket1"); String ataKey; ATAConfig ataConfig; ConcurrentHashMap ataServicesMap; Enumeration<NodeResourceInfo> noderesourceInfos = addressmap.elements(); NodeResourceInfo noderesourceinfo = null; String ip = ""; int port = 1000; long memavailable = 0; long memcurr = 0; if (noderesourceInfos.hasMoreElements()) { noderesourceinfo = noderesourceInfos.nextElement(); if (noderesourceinfo.getMax() != null) { ip = noderesourceinfo.getHost(); port = Integer.parseInt(noderesourceinfo.getPort()); memavailable = Long.parseLong(noderesourceinfo.getMax()) - Long.parseLong(noderesourceinfo.getUsed()); ; } } while (noderesourceInfos.hasMoreElements()) { noderesourceinfo = noderesourceInfos.nextElement(); if (noderesourceinfo.getMax() != null) { memcurr = Long.parseLong(noderesourceinfo.getMax()) - Long.parseLong(noderesourceinfo.getUsed()); if (memavailable <= memcurr) { ip = noderesourceinfo.getHost(); port = Integer.parseInt(noderesourceinfo.getPort()); memavailable = memcurr; } } } ATAExecutorServiceInfo servicesAvailable; Socket sock1 = new Socket(ip, port); OutputStream outputStr = sock1.getOutputStream(); ObjectOutputStream objOutputStream = new ObjectOutputStream(outputStr); NodeInfo nodeInfo = new NodeInfo(); nodeInfo.setClassNameWithPackage( executorServiceInfo.getExecutorServicesClass().getName()); nodeInfo.setMethodName(executorServiceInfo.getMethod().getName()); nodeInfo.setWebclassLoaderURLS(((WebClassLoader) classLoader).geturlS()); NodeInfoMethodParam nodeInfoMethodParam = new NodeInfoMethodParam(); nodeInfoMethodParam.setMethodParams(exeParams.getParams()); nodeInfoMethodParam .setMethodParamTypes(executorServiceInfo.getMethodParams()); //log.info("Serializable socket="+sock); //nodeInfo.setSock(sock); //nodeInfo.setOstream(sock.getOutputStream()); objOutputStream.writeObject(nodeInfo); objOutputStream = new ObjectOutputStream(outputStr); objOutputStream.writeObject(nodeInfoMethodParam); ObjectInputStream objInputStream1 = new ObjectInputStream( sock1.getInputStream()); returnValue = objInputStream1.readObject(); objOutputStream.close(); objInputStream1.close(); sock1.close(); /*returnValue = executorServiceInfo .getMethod() .invoke(executorServiceInfo .getExecutorServicesClass() .newInstance(), exeParams.getParams());*/ // Thread.currentThread().setContextClassLoader(oldCL); // log.info("Written Value=" // + returnValue.toString()); resultMap.put(key, returnValue); } key.interestOps(SelectionKey.OP_WRITE); //log.info("Key interested Ops1"); } else if (key.isWritable()) { // the channel is non blocking so keep it // open // till the // count is >=0 //log.info("In write"); ByteArrayOutputStream baos = new ByteArrayOutputStream(); // make // a // BAOS // stream ObjectOutputStream oos = new ObjectOutputStream(baos); // wrap and OOS around the // stream Object result = resultMap.get(key); oos.writeObject(result); // write an object // to // the stream oos.flush(); oos.close(); byte[] objData = baos.toByteArray(); // get // the // byte // array baos.close(); buffer = ByteBuffer.wrap(objData); // wrap // around // the // data buffer.rewind(); // buffer.flip(); //prep for writing //log.info(new String(objData)); //while (buffer.hasRemaining()) clientChannel.write(buffer); // write resultMap.remove(key); buffer.clear(); key.cancel(); clientChannel.close(); //log.info("In write1"); numberOfServicesRequests++; //log.info("Key interested Ops2"); } } iterator.remove(); } catch (Exception ex) { log.error("Error in executing the executor services thread", ex); //ex.printStackTrace(); key.cancel(); clientChannel.close(); resultMap.remove(key); //ex.printStackTrace(); } } } catch (Exception ex) { log.error("Error in executing the executor services thread", ex); //ex.printStackTrace(); } } } catch (Exception ex) { log.error("Error in executing the executor services thread", ex); } }
From source file:com.web.services.ExecutorServiceThread.java
public void run() { // create a selector that will by used for multiplexing. The selector // registers the socketserverchannel as // well as all socketchannels that are created String CLIENTCHANNELNAME = "clientChannel"; String SERVERCHANNELNAME = "serverChannel"; String channelType = "channelType"; ConcurrentHashMap<SelectionKey, Object> resultMap = new ConcurrentHashMap<SelectionKey, Object>(); ClassLoader classLoader = null; ByteArrayOutputStream bstr;/*from w w w . ja va 2 s . c o m*/ ByteBuffer buffer = null; ByteBuffer lengthBuffer = ByteBuffer.allocate(4); int bytesRead; InputStream bais; ObjectInputStream ois; Object object; ExecutorServiceInfo executorServiceInfo = null; Random random = new Random(System.currentTimeMillis()); // register the serversocketchannel with the selector. The OP_ACCEPT // option marks // a selection key as ready when the channel accepts a new connection. // When the // socket server accepts a connection this key is added to the list of // selected keys of the selector. // when asked for the selected keys, this key is returned and hence we // know that a new connection has been accepted. try { Selector selector = Selector.open(); SelectionKey socketServerSelectionKey = serverSocketChannel.register(selector, SelectionKey.OP_ACCEPT); // SelectionKey socketServerSelectionKey1 = // channel.register(selector1, // SelectionKey.OP_ACCEPT); // set property in the key that identifies the channel Map<String, String> properties = new ConcurrentHashMap<String, String>(); properties.put(channelType, SERVERCHANNELNAME); socketServerSelectionKey.attach(properties); // wait for the selected keys SelectionKey key = null; Set<SelectionKey> selectedKeys; // logger.info("Instance Number"+instanceNumber); Iterator<SelectionKey> iterator = null; SocketChannel clientChannel = null; while (true) { try { // the select method is a blocking method which returns when // atleast // one of the registered // channel is selected. In this example, when the socket // accepts // a // new connection, this method // will return. Once a socketclient is added to the list of // registered channels, then this method // would also return when one of the clients has data to be // read // or // written. It is also possible to perform a nonblocking // select // using the selectNow() function. // We can also specify the maximum time for which a select // function // can be blocked using the select(long timeout) function. if (selector.select() >= 0) { selectedKeys = selector.selectedKeys(); iterator = selectedKeys.iterator(); } while (iterator.hasNext()) { try { key = iterator.next(); // the selection key could either by the // socketserver // informing // that a new connection has been made, or // a socket client that is ready for read/write // we use the properties object attached to the // channel // to // find // out the type of channel. if (((Map) key.attachment()).get(channelType).equals(SERVERCHANNELNAME)) { // a new connection has been obtained. This // channel // is // therefore a socket server. ServerSocketChannel serverSocketChannel = (ServerSocketChannel) key.channel(); // accept the new connection on the server // socket. // Since // the // server socket channel is marked as non // blocking // this channel will return null if no client is // connected. SocketChannel clientSocketChannel = serverSocketChannel.accept(); if (clientSocketChannel != null) { // set the client connection to be non // blocking clientSocketChannel.configureBlocking(false); SelectionKey clientKey = clientSocketChannel.register(selector, SelectionKey.OP_READ, SelectionKey.OP_WRITE); Map<String, String> clientproperties = new ConcurrentHashMap<String, String>(); clientproperties.put(channelType, CLIENTCHANNELNAME); clientKey.attach(clientproperties); clientKey.interestOps(SelectionKey.OP_READ); // clientSocketChannel.close(); // write something to the new created client /* * CharBuffer buffer = * CharBuffer.wrap("Hello client"); while * (buffer.hasRemaining()) { * clientSocketChannel.write * (Charset.defaultCharset() * .encode(buffer)); } * clientSocketChannel.close(); * buffer.clear(); */ } } else { // data is available for read // buffer for reading clientChannel = (SocketChannel) key.channel(); if (key.isReadable()) { // the channel is non blocking so keep it // open // till // the // count is >=0 clientChannel = (SocketChannel) key.channel(); if (resultMap.get(key) == null) { //System.out.println(key); bstr = new ByteArrayOutputStream(); object = null; clientChannel.read(lengthBuffer); int length = lengthBuffer.getInt(0); lengthBuffer.clear(); //System.out.println(length); buffer = ByteBuffer.allocate(length); if ((bytesRead = clientChannel.read(buffer)) > 0) { // buffer.flip(); // System.out // .println(bytesRead); bstr.write(buffer.array(), 0, bytesRead); buffer.clear(); } buffer.clear(); //System.out.println("Message1"+new String(bstr // .toByteArray())); bais = new ByteArrayInputStream(bstr.toByteArray()); ois = new ObjectInputStream(bais); // Offending // line. // Produces // the // StreamCorruptedException. //System.out.println("In read obect"); object = ois.readObject(); //System.out.println("Class Cast"); //System.out.println("Class Cast1"); ois.close(); byte[] params = bstr.toByteArray(); bstr.close(); //System.out.println("readObject"); //System.out.println("After readObject"); if (object instanceof CloseSocket) { resultMap.remove(key); clientChannel.close(); key.cancel(); } // clientChannel.close(); String serviceurl = (String) object; String[] serviceRegistry = serviceurl.split("/"); //System.out.println("classLoaderMap" // + urlClassLoaderMap); //System.out.println(deployDirectory // + "/" + serviceRegistry[0]); int servicenameIndex; //System.out.println(earServicesDirectory // + "/" + serviceRegistry[0] // + "/" + serviceRegistry[1]); if (serviceRegistry[0].endsWith(".ear")) { classLoader = (VFSClassLoader) urlClassLoaderMap .get(earServicesDirectory + "/" + serviceRegistry[0] + "/" + serviceRegistry[1]); servicenameIndex = 2; } else if (serviceRegistry[0].endsWith(".jar")) { classLoader = (WebClassLoader) urlClassLoaderMap .get(jarservicesDirectory + "/" + serviceRegistry[0]); servicenameIndex = 1; } else { classLoader = (WebClassLoader) urlClassLoaderMap .get(deployDirectory + "/" + serviceRegistry[0]); servicenameIndex = 1; } String serviceName = serviceRegistry[servicenameIndex]; // System.out.println("servicename:"+serviceName);; synchronized (executorServiceMap) { executorServiceInfo = (ExecutorServiceInfo) executorServiceMap .get(serviceName.trim()); } ExecutorServiceInfoClassLoader classLoaderExecutorServiceInfo = new ExecutorServiceInfoClassLoader(); classLoaderExecutorServiceInfo.setClassLoader(classLoader); classLoaderExecutorServiceInfo.setExecutorServiceInfo(executorServiceInfo); resultMap.put(key, classLoaderExecutorServiceInfo); // key.interestOps(SelectionKey.OP_READ); // System.out.println("Key interested Ops"); // continue; } //Thread.sleep(100); /* * if (classLoader == null) throw new * Exception( * "Could able to obtain deployed class loader" * ); */ /* * System.out.println( * "current context classloader" + * classLoader); */ //System.out.println("In rad object"); bstr = new ByteArrayOutputStream(); lengthBuffer.clear(); int numberofDataRead = clientChannel.read(lengthBuffer); //System.out.println("numberofDataRead" // + numberofDataRead); int length = lengthBuffer.getInt(0); if (length <= 0) { iterator.remove(); continue; } lengthBuffer.clear(); //System.out.println(length); buffer = ByteBuffer.allocate(length); buffer.clear(); if ((bytesRead = clientChannel.read(buffer)) > 0) { // buffer.flip(); // System.out // .println(bytesRead); bstr.write(buffer.array(), 0, bytesRead); buffer.clear(); } if (bytesRead <= 0 || bytesRead < length) { //System.out.println("bytesRead<length"); iterator.remove(); continue; } //System.out.println(new String(bstr // .toByteArray())); bais = new ByteArrayInputStream(bstr.toByteArray()); ExecutorServiceInfoClassLoader classLoaderExecutorServiceInfo = (ExecutorServiceInfoClassLoader) resultMap .get(key); ois = new ClassLoaderObjectInputStream( (ClassLoader) classLoaderExecutorServiceInfo.getClassLoader(), bais); // Offending // line. // Produces // the // StreamCorruptedException. object = ois.readObject(); ois.close(); bstr.close(); executorServiceInfo = classLoaderExecutorServiceInfo.getExecutorServiceInfo(); //System.out // .println("inputStream Read Object"); //System.out.println("Object=" // + object.getClass()); // Thread.currentThread().setContextClassLoader(currentContextLoader); if (object instanceof ExecutorParams) { ExecutorParams exeParams = (ExecutorParams) object; Object returnValue = null; //System.out.println("test socket1"); String ataKey; ATAConfig ataConfig; ConcurrentHashMap ataServicesMap; ATAExecutorServiceInfo servicesAvailable; Socket sock1 = new Socket("0.0.0.0", Integer.parseInt(nodesport[random.nextInt(nodesport.length)])); OutputStream outputStr = sock1.getOutputStream(); ObjectOutputStream objOutputStream = new ObjectOutputStream(outputStr); NodeInfo nodeInfo = new NodeInfo(); nodeInfo.setClassNameWithPackage( executorServiceInfo.getExecutorServicesClass().getName()); nodeInfo.setMethodName(executorServiceInfo.getMethod().getName()); nodeInfo.setWebclassLoaderURLS(((WebClassLoader) classLoader).geturlS()); NodeInfoMethodParam nodeInfoMethodParam = new NodeInfoMethodParam(); nodeInfoMethodParam.setMethodParams(exeParams.getParams()); nodeInfoMethodParam .setMethodParamTypes(executorServiceInfo.getMethodParams()); //System.out.println("Serializable socket="+sock); //nodeInfo.setSock(sock); //nodeInfo.setOstream(sock.getOutputStream()); objOutputStream.writeObject(nodeInfo); objOutputStream = new ObjectOutputStream(outputStr); objOutputStream.writeObject(nodeInfoMethodParam); ObjectInputStream objInputStream1 = new ObjectInputStream( sock1.getInputStream()); returnValue = objInputStream1.readObject(); objOutputStream.close(); objInputStream1.close(); sock1.close(); /*returnValue = executorServiceInfo .getMethod() .invoke(executorServiceInfo .getExecutorServicesClass() .newInstance(), exeParams.getParams());*/ // Thread.currentThread().setContextClassLoader(oldCL); // System.out.println("Written Value=" // + returnValue.toString()); resultMap.put(key, returnValue); } key.interestOps(SelectionKey.OP_WRITE); //System.out.println("Key interested Ops1"); } else if (key.isWritable()) { // the channel is non blocking so keep it // open // till the // count is >=0 //System.out.println("In write"); ByteArrayOutputStream baos = new ByteArrayOutputStream(); // make // a // BAOS // stream ObjectOutputStream oos = new ObjectOutputStream(baos); // wrap and OOS around the // stream Object result = resultMap.get(key); oos.writeObject(result); // write an object // to // the stream oos.flush(); oos.close(); byte[] objData = baos.toByteArray(); // get // the // byte // array baos.close(); buffer = ByteBuffer.wrap(objData); // wrap // around // the // data buffer.rewind(); // buffer.flip(); //prep for writing //System.out.println(new String(objData)); //while (buffer.hasRemaining()) clientChannel.write(buffer); // write resultMap.remove(key); buffer.clear(); key.cancel(); clientChannel.close(); //System.out.println("In write1"); numberOfServicesRequests++; //System.out.println("Key interested Ops2"); } } iterator.remove(); } catch (Exception ex) { ex.printStackTrace(); key.cancel(); clientChannel.close(); resultMap.remove(key); //ex.printStackTrace(); } } } catch (Exception ex) { //ex.printStackTrace(); } } } catch (Exception ex) { //ex.printStackTrace(); } }
From source file:org.apache.catalina.cluster.tcp.ReplicationListener.java
public void listen() throws Exception { doListen = true;/*from w ww.jav a 2 s .c o m*/ // allocate an unbound server socket channel ServerSocketChannel serverChannel = ServerSocketChannel.open(); // Get the associated ServerSocket to bind it with ServerSocket serverSocket = serverChannel.socket(); // create a new Selector for use below Selector selector = Selector.open(); // set the port the server channel will listen to serverSocket.bind(new InetSocketAddress(bind, port)); // set non-blocking mode for the listening socket serverChannel.configureBlocking(false); // register the ServerSocketChannel with the Selector serverChannel.register(selector, SelectionKey.OP_ACCEPT); while (doListen) { // this may block for a long time, upon return the // selected set contains keys of the ready channels try { //System.out.println("Selecting with timeout="+timeout); int n = selector.select(timeout); //System.out.println("select returned="+n); if (n == 0) { continue; // nothing to do } // get an iterator over the set of selected keys Iterator it = selector.selectedKeys().iterator(); // look at each key in the selected set while (it.hasNext()) { SelectionKey key = (SelectionKey) it.next(); // Is a new connection coming in? if (key.isAcceptable()) { ServerSocketChannel server = (ServerSocketChannel) key.channel(); SocketChannel channel = server.accept(); registerChannel(selector, channel, SelectionKey.OP_READ, new ObjectReader(channel, selector, callback)); } // is there data to read on this channel? //System.out.println("key readable="+key.isReadable()); if (key.isReadable()) { readDataFromSocket(key); } else { //System.out.println("This shouldn't get called"); key.interestOps(key.interestOps() & (~key.OP_WRITE)); } // remove key from selected set, it's been handled it.remove(); } //System.out.println("Done with loop"); } catch (java.nio.channels.CancelledKeyException nx) { log.warn("Replication client disconnected, error when polling key. Ignoring client."); } catch (Exception x) { log.error("Unable to process request in ReplicationListener", x); } } //while serverChannel.close(); selector.close(); }
From source file:org.apache.nifi.io.nio.ChannelListener.java
/** * Adds a server socket channel for listening to connections. * * @param nicIPAddress - if null binds to wildcard address * @param port - port to bind to/*from w ww .ja v a 2s.c o m*/ * @param receiveBufferSize - size of OS receive buffer to request. If less * than 0 then will not be set and OS default will win. * @throws IOException if unable to add socket */ public void addServerSocket(final InetAddress nicIPAddress, final int port, final int receiveBufferSize) throws IOException { final ServerSocketChannel ssChannel = ServerSocketChannel.open(); ssChannel.configureBlocking(false); if (receiveBufferSize > 0) { ssChannel.setOption(StandardSocketOptions.SO_RCVBUF, receiveBufferSize); final int actualReceiveBufSize = ssChannel.getOption(StandardSocketOptions.SO_RCVBUF); if (actualReceiveBufSize < receiveBufferSize) { LOGGER.warn(this + " attempted to set TCP Receive Buffer Size to " + receiveBufferSize + " bytes but could only set to " + actualReceiveBufSize + "bytes. You may want to consider changing the Operating System's " + "maximum receive buffer"); } } ssChannel.setOption(StandardSocketOptions.SO_REUSEADDR, true); ssChannel.bind(new InetSocketAddress(nicIPAddress, port)); ssChannel.register(serverSocketSelector, SelectionKey.OP_ACCEPT); }
From source file:org.apache.nifi.processor.util.listen.dispatcher.SocketChannelDispatcher.java
@Override public void open(final InetAddress nicAddress, final int port, final int maxBufferSize) throws IOException { stopped = false;//from w w w . j a va2 s .c om executor = Executors.newFixedThreadPool(maxConnections); final ServerSocketChannel serverSocketChannel = ServerSocketChannel.open(); serverSocketChannel.configureBlocking(false); if (maxBufferSize > 0) { serverSocketChannel.setOption(StandardSocketOptions.SO_RCVBUF, maxBufferSize); final int actualReceiveBufSize = serverSocketChannel.getOption(StandardSocketOptions.SO_RCVBUF); if (actualReceiveBufSize < maxBufferSize) { logger.warn("Attempted to set Socket Buffer Size to " + maxBufferSize + " bytes but could only set to " + actualReceiveBufSize + "bytes. You may want to consider changing the Operating System's " + "maximum receive buffer"); } } serverSocketChannel.socket().bind(new InetSocketAddress(nicAddress, port)); selector = Selector.open(); serverSocketChannel.register(selector, SelectionKey.OP_ACCEPT); }
From source file:org.cryptomator.ui.util.SingleInstanceManager.java
/** * Creates a server socket on a free port and saves the port in * {@link Preferences#userNodeForPackage(Class)} for {@link Main} under the * given applicationKey./* w ww . j a v a 2 s.c o m*/ * * @param applicationKey * key used to save the port and identify upon connection. * @param exec * the task which is submitted is interruptable. * @return * @throws IOException */ public static LocalInstance startLocalInstance(String applicationKey, ExecutorService exec) throws IOException { final ServerSocketChannel channel = ServerSocketChannel.open(); channel.configureBlocking(false); channel.bind(new InetSocketAddress(InetAddress.getLoopbackAddress(), 0)); final int port = ((InetSocketAddress) channel.getLocalAddress()).getPort(); Preferences.userNodeForPackage(Main.class).putInt(applicationKey, port); LOG.info("InstanceManager bound to port {}", port); Selector selector = Selector.open(); channel.register(selector, SelectionKey.OP_ACCEPT); LocalInstance instance = new LocalInstance(applicationKey, channel, selector); exec.submit(() -> { try { instance.port = ((InetSocketAddress) channel.getLocalAddress()).getPort(); } catch (IOException e) { } instance.selectionLoop(); }); return instance; }