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Specifically, the problem is to write a method like this:

int maybeRead(InputStream in, long timeout)

where the return value is the same as in.read() if data is available within 'timeout' milliseconds, and -2 otherwise. Before the method returns, any spawned threads must exit.

To avoid arguments, the subject here java.io.InputStream, as documented by Sun (any Java version). Please note this is not as simple as it looks. Below are some facts which are supported directly by Sun's documentation.

  1. The in.read() method may be non-interruptible.

  2. Wrapping the InputStream in a Reader or InterruptibleChannel doesn't help, because all those classes can do is call methods of the InputStream. If it were possible to use those classes, it would be possible to write a solution that just executes the same logic directly on the InputStream.

  3. It is always acceptable for in.available() to return 0.

  4. The in.close() method may block or do nothing.

  5. There is no general way to kill another thread.

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7 Answers 7

Assuming your stream is not backed by a socket (so you can't use Socket.setSoTimeout()), I think the standard way of solving this type of problem is to use a Future.

Suppose I have the following executor and streams:

    ExecutorService executor = Executors.newFixedThreadPool(2);
    final PipedOutputStream outputStream = new PipedOutputStream();
    final PipedInputStream inputStream = new PipedInputStream(outputStream);

I have writer that writes some data then waits for 5 seconds before writing the last piece of data and closing the stream:

    Runnable writeTask = new Runnable() {
        public void run() {
            try {
            } catch (Exception e) {

The normal way of reading this is as follows. The read will block indefinitely for data and so this completes in 5s:

    long start = currentTimeMillis();
    int readByte = 1;
    // Read data without timeout
    while (readByte >= 0) {
        readByte = inputStream.read();
        if (readByte >= 0)
            System.out.println("Read: " + readByte);
    System.out.println("Complete in " + (currentTimeMillis() - start) + "ms");

which outputs:

Read: 1
Read: 2
Read: 3
Complete in 5001ms

If there was a more fundamental problem, like the writer not responding, the reader would block for ever. If I wrap the read in a future, I can then control the timeout as follows:

    int readByte = 1;
    // Read data with timeout
    Callable<Integer> readTask = new Callable<Integer>() {
        public Integer call() throws Exception {
            return inputStream.read();
    while (readByte >= 0) {
        Future<Integer> future = executor.submit(readTask);
        readByte = future.get(1000, TimeUnit.MILLISECONDS);
        if (readByte >= 0)
            System.out.println("Read: " + readByte);

which outputs:

Read: 1
Read: 2
Exception in thread "main" java.util.concurrent.TimeoutException
    at java.util.concurrent.FutureTask$Sync.innerGet(FutureTask.java:228)
    at java.util.concurrent.FutureTask.get(FutureTask.java:91)
    at test.InputStreamWithTimeoutTest.main(InputStreamWithTimeoutTest.java:74)

I can catch the TimeoutException and do whatever cleanup I want.

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+1 for telling me about how to use a Java Future! –  Christoffer Soop Apr 8 '12 at 20:44
But what about the blocking thread ?! Will it stay in the memory till the application terminates ? If I'm correct, this may produce endless threads the application is heavy loaded and even more, block further threads from using your pool which has it's threads occupied and blocked. Please correct me if I'm wrong. Thank you. –  Muhammad Gelbana Sep 25 '12 at 19:37
Muhammad Gelbana, you are right: the blocking read() thread stays running and that is not OK. I have found a way to prevent this though: when the timeout hits, close from the calling thread the input stream (in my case I close the android bluetooth socket from which the input stream comes). When you do that, the read() call will return immediately.. Well in my case I use the int read(byte[]) overload, and that one returns immediately. Maybe the int read() overload would throw an IOException since I don't know what it would return... To my mind that is the proper solution. –  Emmanuel Touzery Nov 8 '12 at 11:09
-1 as the threads reading stay blocked until the application terminates. –  Ortwin Angermeier Aug 22 '13 at 8:26
@ortang That's kind of what I meant by "catch the TimeoutException and do whatever cleanup..." For example I might want to kill the reading thread: ... catch (TimeoutException e) { executor.shutdownNow(); } –  Ian Jones Aug 27 '13 at 9:05

I would question the problem statement rather than just accept it blindly. You only need timeouts from the console or over the network. If the latter you have Socket.setSoTimeout() and HttpURLConnection.setReadTimeout() which both do exactly what is required, as long as you set them up correctly when you construct/acquire them. Leaving it to an arbitrary point later in the application when all you have is the InputStream is poor design leading to a very awkward implementation.

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There are other situations where a read could potentially block for a significant time; e.g. when reading from a tape drive, from a remotely mounted network drive or from an HFS with a tape robot at the back end. (But the main thrust of your answer is right.) –  Stephen C Oct 24 '11 at 6:20
@StephenC +1 for your comment and examples. To add more your example, a simple case could be where socket connections was made correctly but read attempt was blocked as the data was to be fetched from DB but it somehow didn't happen (lets' say DB was not responding to and query went in Locked state). In this scenario you need to have a way to explicitly timeout the read operation on socket. –  sactiw May 13 '13 at 10:30
@sactiw That case is already covered by my answer. –  EJP Mar 12 at 11:22

Using inputStream.available()

It is always acceptable for System.in.available() to return 0.

I've found the opposite - it always returns the best value for the number of bytes available. Javadoc for InputStream.available():

Returns an estimate of the number of bytes that can be read (or skipped over) 
from this input stream without blocking by the next invocation of a method for 
this input stream.

An estimate is unavoidable due to timing/staleness. The figure can be a one-off underestimate because new data are constantly arriving. However it always "catches up" on the next call - it should account for all arrived data, bar that arriving just at the moment of the new call. Permanently returning 0 when there are data fails the condition above.

First Caveat: Concrete subclasses of InputStream are responsible for available()

InputStream is an abstract class. It has no data source. It's meaningless for it to have available data. Hence, javadoc for available() also states:

The available method for class InputStream always returns 0.

This method should be overridden by subclasses.

And indeed, the concrete input stream classes do override available(), providing meaningful values, not constant 0s.

Second Caveat: Ensure you use carriage-return when typing input in Windows.

If using System.in, your program only receives input when your command shell hands it over. If you're using file redirection/pipes (e.g. somefile > java myJavaApp or somecommand | java myJavaApp ), then input data are usually handed over immediately. However, if you manually type input, then data handover can be delayed. E.g. With windows cmd.exe shell, the data are buffered within cmd.exe shell. Data are only passed to the executing java program following carriage-return (control-m or <enter>). That's a limitation of the execution environment. Of course, InputStream.available() will return 0 for as long as the shell buffers the data - that's correct behaviour; there are no available data at that point. As soon as the data are available from the shell, the method returns a value > 0. NB: Cygwin uses cmd.exe too.

Simplest solution (no blocking, so no timeout required)

Just use this:

    byte[] inputData = new byte[1024];
    int result = is.read(inputData, 0, is.available());  
    // result will indicate number of bytes read; -1 for EOF with no data read.

OR equivalently,

    BufferedReader br = new BufferedReader(new InputStreamReader(System.in, Charset.forName("ISO-8859-1")),1024);
    // ...
         // inside some iteration / processing logic:
         if (br.ready()) {
             int readCount = br.read(inputData, bufferOffset, inputData.length-bufferOffset);

Richer Solution (maximally fills buffer within timeout period)

Declare this:

public static int readInputStreamWithTimeout(InputStream is, byte[] b, int timeoutMillis)
     throws IOException  {
     int bufferOffset = 0;
     long maxTimeMillis = System.currentTimeMillis() + timeoutMillis;
     while (System.currentTimeMillis() < maxTimeMillis && bufferOffset < b.length) {
         int readLength = java.lang.Math.min(is.available(),b.length-bufferOffset);
         // can alternatively use bufferedReader, guarded by isReady():
         int readResult = is.read(b, bufferOffset, readLength);
         if (readResult == -1) break;
         bufferOffset += readResult;
     return bufferOffset;

Then use this:

    byte[] inputData = new byte[1024];
    int readCount = readInputStreamWithTimeout(System.in, inputData, 6000);  // 6 second timeout
    // readCount will indicate number of bytes read; -1 for EOF with no data read.
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I liked this answer –  GabrielBB Dec 13 '13 at 17:39
+1, Much better answer than the accepted one. –  Marko Topolnik yesterday

Here is a way to get a NIO FileChannel from System.in and check for availability of data using a timeout, which is a special case of the problem described in the question. Run it at the console, don't type any input, and wait for the results. It was tested successfully under Java 6 on Windows and Linux.

import java.io.FileInputStream;
import java.io.FilterInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.lang.reflect.Field;
import java.nio.ByteBuffer;
import java.nio.channels.ClosedByInterruptException;

public class Main {

    static final ByteBuffer buf = ByteBuffer.allocate(4096);

    public static void main(String[] args) {

        long timeout = 1000 * 5;

        try {
            InputStream in = extract(System.in);
            if (! (in instanceof FileInputStream))
                throw new RuntimeException(
                        "Could not extract a FileInputStream from STDIN.");

            try {
                int ret = maybeAvailable((FileInputStream)in, timeout);
                        Integer.toString(ret) + " bytes were read.");

            } finally {

        } catch (Exception e) {
            throw new RuntimeException(e);


    /* unravels all layers of FilterInputStream wrappers to get to the
     * core InputStream
    public static InputStream extract(InputStream in)
            throws NoSuchFieldException, IllegalAccessException {

        Field f = FilterInputStream.class.getDeclaredField("in");

        while( in instanceof FilterInputStream )
            in = (InputStream)f.get((FilterInputStream)in);

        return in;

    /* Returns the number of bytes which could be read from the stream,
     * timing out after the specified number of milliseconds.
     * Returns 0 on timeout (because no bytes could be read)
     * and -1 for end of stream.
    public static int maybeAvailable(final FileInputStream in, long timeout)
            throws IOException, InterruptedException {

        final int[] dataReady = {0};
        final IOException[] maybeException = {null};
        final Thread reader = new Thread() {
            public void run() {                
                try {
                    dataReady[0] = in.getChannel().read(buf);
                } catch (ClosedByInterruptException e) {
                    System.err.println("Reader interrupted.");
                } catch (IOException e) {
                    maybeException[0] = e;

        Thread interruptor = new Thread() {
            public void run() {

        for(;;) {

            if (!reader.isAlive())

            if (!reader.isAlive())

            System.err.println("We're hung");

        if ( maybeException[0] != null )
            throw maybeException[0];

        return dataReady[0];

Interestingly, when running the program inside NetBeans 6.5 rather than at the console, the timeout doesn't work at all, and the call to System.exit() is actually necessary to kill the zombie threads. What happens is that the interruptor thread blocks (!) on the call to reader.interrupt(). Another test program (not shown here) additionally tries to close the channel, but that doesn't work either.

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doesn't work on mac os, neither with JDK 1.6 nor with JDK 1.7. The interrupt is only recognized after pressing return during the read. –  Cookie Monster Mar 9 '12 at 0:35

I have not used the classes from the Java NIO package, but it seems they might be of some help here. Specifically, java.nio.channels.Channels and java.nio.channels.InterruptibleChannel.

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+1: I don't believe that there is a reliable way to do what the OP is asking for with InputStream alone. However, nio was created for this purpose, among others. –  Eddie Apr 30 '09 at 2:19
OP has already basically ruled this out. InputStreams are inherently blocking and may be non-interruptible. –  EJP Jun 27 '12 at 12:43

If your InputStream is backed by a Socket, you can set a Socket timeout (in milliseconds) using setSoTimeout. If the read() call doesn't unblock within the timeout specified, it will throw a SocketTimeoutException.

Just make sure that you call setSoTimeout on the Socket before making the read() call.

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As jt said, NIO is the best (and correct) solution. If you really are stuck with an InputStream though, you could either

  1. Spawn a thread who's exclusive job is to read from the InputStream and put the result into a buffer which can be read from your original thread without blocking. This should work well if you only ever have one instance of the stream. Otherwise you may be able to kill the thread using the deprecated methods in the Thread class, though this may cause resource leaks.

  2. Rely on isAvailable to indicate data that can be read without blocking. However in some cases (such as with Sockets) it can take a potentially blocking read for isAvailable to report something other than 0.

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Socket.setSoTimeout() is an equally correct and much simpler solution. Or HttpURLConnection.setReadTimeout(). –  EJP Oct 19 '11 at 23:08
@EJP - these are only "equally correct" under certain circumstances; e.g. if the input stream is a socket stream / HTTP connection stream. –  Stephen C Oct 24 '11 at 6:16
@Stephen C NIO is only non-blocking and selectable under the same circumstances. There is no non-blocking file I/O for example. –  EJP Oct 24 '11 at 7:02
@EJP but there's non-blocking pipe IO (System.in), non-blocking I/O for files (on local disk) is nonsense –  woky Jan 9 '12 at 11:53
@woky More timewasting. (1) and (2): socket channels and terminals can indeed be put into non-blocking mode , and (1) can be done in Java: as I never said otherwise, your point eludes me. (3) 'Stephen C NIO' contains part of Stephen C's name, the poster I was responding to. The point of your (4) also escapes me as it doesn't contradict anything I have said. As for the rest, you still need to stop confusing the inherited Unix fd=0, an FD, with System.in, an InputStream, which cannot be put into non-blocking mode. Period. Line 264 of the code you cite uses an FD not an InputStream. –  EJP Feb 13 '12 at 9:37

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