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In a traditional blocking-thread server, I would do something like this

class ServerSideThread {

    ObjectInputStream in;
    ObjectOutputStream out;
    Engine engine;

    public ServerSideThread(Socket socket, Engine engine) {
        in = new ObjectInputStream(socket.getInputStream());
        out = new ObjectOutputStream(socket.getOutputStream());
        this.engine = engine;

    public void sendMessage(Message m) {

    public void run() {
        while(true) {
            Message m = (Message)in.readObject();
            engine.queueMessage(m,this); // give the engine a message with this as a callback

Now, the object can be expected to be quite large. In my nio loop, I can't simply wait for the object to come through, all my other connections (with much smaller workloads) will be waiting on me.

How can I only get notified that a connection has the entire object before it tells my nio channel it's ready?

share|improve this question
up vote 6 down vote accepted

You can write the object to a ByteArrayOutputStream allowing you to give the length before an object sent. On the receiving side, read the amount of data required before attempting to decode it.

However, you are likely to find it much simpler and more efficient to use blocking IO (rather than NIO) with Object*Stream

Edit something like this

public static void send(SocketChannel socket,  Serializable serializable) throws IOException {
    ByteArrayOutputStream baos = new ByteArrayOutputStream();
    for(int i=0;i<4;i++) baos.write(0);
    ObjectOutputStream oos = new ObjectOutputStream(baos);
    final ByteBuffer wrap = ByteBuffer.wrap(baos.toByteArray());
    wrap.putInt(0, baos.size()-4);

private final ByteBuffer lengthByteBuffer = ByteBuffer.wrap(new byte[4]);
private ByteBuffer dataByteBuffer = null;
private boolean readLength = true;

public Serializable recv(SocketChannel socket) throws IOException, ClassNotFoundException {
    if (readLength) {;
        if (lengthByteBuffer.remaining() == 0) {
            readLength = false;
            dataByteBuffer = ByteBuffer.allocate(lengthByteBuffer.getInt(0));
    } else {;
        if (dataByteBuffer.remaining() == 0) {
            ObjectInputStream ois = new ObjectInputStream(new ByteArrayInputStream(dataByteBuffer.array()));
            final Serializable ret = (Serializable) ois.readObject();
            // clean up
            dataByteBuffer = null;
            readLength = true;
            return ret;
    return null;
share|improve this answer
The blocking IO won't scale. Because the stack thread size is constant across the JVM, each connection thread is going to be the same stack size as my engine's thread (which is going to need to be quite large.) So with even only 3000 connections, this puts me at 384Mb just for connections. This doesn't leave much for system, heap, and database on a 1Gb box. The cpu demands will be small enough that I could easily handle over 10000 connections, barring the memory usage. – corsiKa May 2 '11 at 22:18
So where I send the amount of data to read first, how would I know how much data I have queued up until... I read it? – corsiKa May 2 '11 at 22:19
Use a new ObjectOutputStream(new ByteArrayOutputStream with every object (or group of objects) That way you have no data queued. You send the length of the byte array as an int followed by the byte array. On the reading side, you need to read 4-byte minimum which will give you the length of the rest for the data for the object. – Peter Lawrey May 2 '11 at 22:25
I understand that part. Let's say I read the 4 bytes and I get 1000. So I know I need to read 1000 bytes before I am able to read this object. How do I know when I can read those 1000 bytes without blocking? – corsiKa May 2 '11 at 22:26
@glowcoder, with NIO, you perform a read, and it tells you how many bytes were read. You then take those bytes, and put them in a separate buffer you maintain for each connection until the required number of bytes have been accumulated. I would recommend wrapping this functionality in your own pair of input and output streams. – Dilum Ranatunga May 2 '11 at 22:37

Inspired by the code above I've created a (GoogleCode project)

It includes a simple unit test:

SeriServer server = new SeriServer(6001, nthreads);
final SeriClient client[] = new SeriClient[nclients];

//write the data with multiple threads to flood the server

for (int cnt = 0; cnt < nclients; cnt++) {
    final int counterVal = cnt;
    client[cnt] = new SeriClient("localhost", 6001);
    Thread t = new Thread(new Runnable() {
         public void run() {
             try {
                for (int cnt2 = 0; cnt2 < nsends; cnt2++) {
                   String msg = "[" + counterVal + "]";                       
             } catch (IOException e) {

 HashMap<String, Integer> counts = new HashMap<String, Integer>();
   int nullCounts = 0;
   for (int cnt = 0; cnt < nsends * nclients;) {
       //read the data from a vector (that the server pool automatically fills
       SeriDataPackage data =;  
       if (data == null) {

       if (counts.containsKey(data.getObject())) {
              Integer c = counts.get(data.getObject());
              counts.put((String) data.getObject(), c + 1);
        } else {
              counts.put((String) data.getObject(), 1);
        System.out.println("Received: " + data.getObject());

   // asserts the results
   Collection<Integer> values = counts.values();
   for (Integer value : values) {
        int ivalue = value;
        assertEquals(nsends, ivalue);
   assertEquals(counts.size(), nclients);
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