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Java Server Sockets

Java Server Sockets. ServerSocket : Object to listen for client connection requests Throws IOException accept() method to take the client connection. Returns Socket object. Client Socket used for I/O. import java.net.*; import java.io.*; public class KnockKnockServer {

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Java Server Sockets

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  1. Java Server Sockets • ServerSocket: Object to listen for client connection requests • Throws IOException • accept() method to take the client connection. Returns Socket object. • Client Socket used for I/O

  2. import java.net.*; import java.io.*; public class KnockKnockServer { public static void main(String[] args) throws IOException { ServerSocket serverSocket = null; try { serverSocket = new ServerSocket(4444); } catch (IOException e) { System.err.println("Could not listen on port: 4444."); System.exit(1); } Socket clientSocket = null; try { clientSocket = serverSocket.accept(); } catch (IOException e) { System.err.println("Accept failed."); System.exit(1); }

  3. PrintWriter out = new PrintWriter(clientSocket.getOutputStream(), true); BufferedReader in = new BufferedReader( new InputStreamReader(clientSocket.getInputStream())); String inputLine, outputLine; KnockKnockProtocol kkp = new KnockKnockProtocol(); outputLine = kkp.processInput(null); out.println(outputLine); while ((inputLine = in.readLine()) != null) { outputLine = kkp.processInput(inputLine); out.println(outputLine); if (outputLine.equals("Bye.")) break; } out.close(); in.close(); clientSocket.close(); serverSocket.close(); }}

  4. import java.io.*; import java.net.*; public class KnockKnockClient { public static void main(String[] args) throws IOException { Socket kkSocket = null; PrintWriter out = null; BufferedReader in = null; try { kkSocket = new Socket("taranis", 4444); out = new PrintWriter(kkSocket.getOutputStream(), true); in = new BufferedReader(new InputStreamReader(kkSocket.getInputStream())); } catch (UnknownHostException e) { System.err.println("Don't know about host: taranis."); System.exit(1); } catch (IOException e) { System.err.println("Couldn't get I/O for the connection to: taranis."); System.exit(1); }

  5. BufferedReader stdIn = new BufferedReader(new InputStreamReader(System.in)); String fromServer; String fromUser; while ((fromServer = in.readLine()) != null) { System.out.println("Server: " + fromServer); if (fromServer.equals("Bye.")) break; fromUser = stdIn.readLine(); if (fromUser != null) { System.out.println("Client: " + fromUser); out.println(fromUser); } } out.close(); in.close(); stdIn.close(); kkSocket.close(); }}

  6. import java.net.*; import java.io.*; public class KnockKnockProtocol { private static final int WAITING = 0; private static final int SENTKNOCKKNOCK = 1; private static final int SENTCLUE = 2; private static final int ANOTHER = 3; private static final int NUMJOKES = 5; private int state = WAITING; private int currentJoke = 0; private String[] clues = { "Turnip", "Little Old Lady", "Atch", "Who", "Who" }; private String[] answers = { "Turnip the heat, it's cold in here!", "I didn't know you could yodel!", "Bless you!", "Is there an owl in here?", "Is there an echo in here?" };

  7. public String processInput(String theInput) { String theOutput = null; if (state == WAITING) { theOutput = "Knock! Knock!"; state = SENTKNOCKKNOCK; } else if (state == SENTKNOCKKNOCK) { if (theInput.equalsIgnoreCase("Who's there?")) { theOutput = clues[currentJoke]; state = SENTCLUE; } else { theOutput = "You're supposed to say \"Who's there?\"! " + "Try again. Knock! Knock!"; } } else if (state == SENTCLUE) { if (theInput.equalsIgnoreCase(clues[currentJoke] + " who?")) { theOutput = answers[currentJoke] + " Want another? (y/n)"; state = ANOTHER; } else { theOutput = "You're supposed to say \"" + clues[currentJoke] + " who?\"" + "! Try again. Knock! Knock!"; state = SENTKNOCKKNOCK; }

  8. } else if (state == ANOTHER) { if (theInput.equalsIgnoreCase("y")) { theOutput = "Knock! Knock!"; if (currentJoke == (NUMJOKES - 1)) currentJoke = 0; else currentJoke++; state = SENTKNOCKKNOCK; } else { theOutput = "Bye."; state = WAITING; } } return theOutput; }}

  9. Multiple-Clients • One thread per client connection on the server • Modification of Knock-Knock Server to handle multiple clients • Logic: Server loops accepting connections and creating new threads to deal with each client

  10. Thread Pools • Instead of starting a new thread for every task to execute concurrently, the task can be passed to a thread pool. As soon as the pool has any idle threads the task is assigned to one of them and executed. • Internally the tasks are inserted into a BlockingQueue which the threads in the pool are dequeuing from. When a new task is inserted into the queue one of the idle threads will dequeue it successfully and execute it. The rest of the idle threads in the pool will be blocked waiting to dequeue tasks.

  11. Thread pools are often used in multi threaded servers. Each connection arriving at the server via the network is wrapped as a task and passed on to a thread pool. The threads in the thread pool will process the requests on the connections concurrently. • Java 5 comes with built in thread pools in the java.util.concurrent package, so you don't have to implement your own thread pool.

  12. public class ThreadPool { private BlockingQueue taskQueue = null; private List<PoolThread> threads = new ArrayList<PoolThread>(); private boolean isStopped = false; public ThreadPool(int noOfThreads, int maxNoOfTasks){ taskQueue = new BlockingQueue(maxNoOfTasks); for(int i=0; i<noOfThreads; i++){ threads.add(new PoolThread(taskQueue)); } for(PoolThread thread : threads){ thread.start(); } } public void synchronized execute(Runnable task){ if(this.isStopped) throw new IllegalStateException("ThreadPool is stopped"); this.taskQueue.enqueue(task); } public synchronized void stop(){ this.isStopped = true; for(PoolThread thread : threads){ thread.stop(); } } }

  13. public class PoolThread extends Thread { private BlockingQueue taskQueue = null; private boolean isStopped = false; public PoolThread(BlockingQueue queue){ taskQueue = queue; } public void run(){ while(!isStopped()){ try{ Runnable runnable = (Runnable) taskQueue.dequeue(); runnable.run(); } catch(Exception e){ //log or otherwise report exception, //but keep pool thread alive. } } } public synchronized void stop(){ isStopped = true; this.interrupt(); //break pool thread out of dequeue() call. } public synchronized void isStopped(){ return isStopped; } }

  14. while(! isStopped()){ Socket clientSocket = null; try { clientSocket = this.serverSocket.accept(); } catch (IOException e) { if(isStopped()) { System.out.println("Server Stopped.") ; return; } throw new RuntimeException( "Error accepting client connection", e); } this.threadPool.execute( new WorkerRunnable(clientSocket, "Thread Pooled Server")); }

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