Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

How do you design a read and write loop which operates on a single socket (which supports parallel read and write operations)? Do I have to use multiple threads? Is my (java) solution any good? What about that sleep command? How do you use that within such a loop?

I'm trying to use 2 Threads:


public void run() {
    InputStream           clientInput;
    ByteArrayOutputStream byteBuffer;
    BufferedInputStream   bufferedInputStream;
    byte[]                data;
    String                dataString;
    int                   lastByte;

    try {
        clientInput         = clientSocket.getInputStream();
        byteBuffer          = new ByteArrayOutputStream();
        bufferedInputStream = new BufferedInputStream(clientInput);

        while(isRunning) {  

            while ((lastByte = bufferedInputStream.read()) > 0) {
                data       = byteBuffer.toByteArray();  
                dataString = new String(data);

    } catch (IOException e) {


public void run() {
    OutputStream clientOutput;
    byte[]       data;
    String       dataString;

    try {
        clientOutput = clientSocket.getOutputStream();

        while(isOpen) { 

            if(!commandQueue.isEmpty()) {
                dataString = commandQueue.poll();
                data       = dataString.getBytes();
    catch (IOException e) {
    catch (InterruptedException e) {

Read fails to deliver a proper result, since there is no -1 sent. How do I solve this issue?

Is this sleep / write loop a good solution?

share|improve this question
Is this Java? Please tag the language –  Bali C Apr 25 '12 at 8:19
this is java, but this is more of a design question and does not relate to any java feature itself –  Schifty Apr 25 '12 at 8:28
True, but it makes the question more specific –  Bali C Apr 25 '12 at 8:46

2 Answers 2

up vote 4 down vote accepted

There are basically three ways to do network I/O:

  1. Blocking. In this mode reads and writes will block until they can be fulfilled, so if you want to do both simultaneously you need separate threads for each.

  2. Non-blocking. In this mode reads and writes will return zero (Java) or in some languages (C) a status indication (return == -1, errno=EAGAIN/EWOULDBLOCK) when they cannot be fulfilled, so you don't need separate threads, but you do need a third API that tells you when the operations can be fulfilled. This is the purpose of the select() API.

  3. Asynchronous I/O, in which you schedule the transfer and are given back some kind of a handle via which you can interrogate the status of the transfer, or, in more advanced APIs, a callback.

You should certainly never use the while (in.available() > 0)/sleep() style you are using here. InputStream.available() has few correct uses and this isn't one of them, and the sleep is literally a waste of time. The data can arrive within the sleep time, and a normal read() would wake up immediately.

share|improve this answer
Would you mind to compare your 1st and 2nd solution - how do you chose your approach? my example looks like your 2nd approach - how would you rate my solution? –  Schifty Apr 25 '12 at 10:02
@Schifty It comes down to how many connections you need to handle at once. The select() function was developed prior to threads, when another connection meant another process instead. Threads are lightweight processes, so there is an argument that says you never need to use select() at all these days, and another argument that says that using select() means that you are transforming the operating system's thread-scheduling overhead into in-process loops. At this moment in history I would use threads up to at least 10,000 connections, maybe 100,000, depending on the platform. –  EJP Apr 25 '12 at 10:13

You should rather use a boolean variable instead of while(true) to properly close your thread when you will want to. Also yes, you should create multiple thread, one per client connected, as the thread will block itself until a new data is received (with DataInputStream().read() for example). And no, this is not really a design question, each library/Framework or languages have its own way to listen from a socket, for example to listen from a socket in Qt you should use what is called "signals and slots", not an infinite loop.

share|improve this answer
DataInputStream().read() does not block because .available > 0 –  Schifty Apr 25 '12 at 10:04
@Schifty But you aren't calling available(), and you shouldn't. –  EJP May 12 '12 at 11:59

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.