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After some serious googleing I found out that the RandomAccessFile-class is not thread-safe. Now I could use one semaphore to lock all reads and writes but I don't think that performs very well. In theory it should be possible to do multiple reads and one write at a time. How can I do this in Java? Is it possible at all?


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It depends on how you reading and writing from the file but synchronization primitives from java.util.concurrent perform very well on modern JVM. – Eugene Kuleshov May 21 '10 at 13:02
I understand if you are trying to use the same RandomAccessFile from different threads, but you really need to make multiple reads concurrently? I'm not an expert but on most cases the hardware won't be able to serve multiple reads at the same time (I don't know for high-end disk arrays). – Andrea Polci May 21 '10 at 14:01
It'll work with RAID-arrays. Also: when the data comes from cache, it can be retrieved in parallel. – Folkert van Heusden May 21 '10 at 15:24
if the data comes from cache I think that the access is so fast (compared to disk access) that don't make much difference. But if you really need that kind of parallelism I'm curious about your context. Can you give some more details? – Andrea Polci May 21 '10 at 15:49
I have a table on disk (hundreds of gigabytes) on which I seemingly randomly do reads and writes. Now I would like to have a seperate thread which copies the data. – Folkert van Heusden May 21 '10 at 17:54
up vote 1 down vote accepted

Partial locking of a file is a complex business which a lot of operating systems avoid doing. However if you insist on doing it, one way is to design your own locking mechanism object that records which parts of the file are locked. Essentially before reading or writing an object must request a lock for a specific byte range of the file. Locks are considered to clash if they overlap at all in byte range. Read and write locks are treated differently: a read can overlap with any number of read locks safely, but a write lock must overlap with no other locks, read or write. There are a lot of questions about whether to wait or abort if you can't get the lock, and whether to block reads while a write is waiting, but only you can answer them about your application.

Given the complexity of this it may be better to lock the entire file. Check to see if you get adequate performance - and don't forget you can allow multiple reads at once, as long as there are no writes.

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hmmm interesting idea. I have a readblock(int nr) and a writeblock(int nr). now I could have an array Semaphore [] locks = new Semaphore[10]; then in readblock/writeblock() I could do locks[nr % 10].acquireUninterruptibly() can't think of any problems with that. altough I still think that the underlying RandomAccessFile will fail with concurrent access – Folkert van Heusden May 21 '10 at 13:32
The point of making a locking object is to prevent there ever being a concurrent access. You have to code so that all threads have to get a lock from the locking object before accessing the file, and release it after they are done. – DJClayworth May 21 '10 at 20:45

I could use one semaphore to lock all reads and writes but I don't think that performs very well.

With respect to performance, NEVER think. ALWAYS measure.

That said, java.util.concurrent.locks.ReentrantReadWriteLock is what you are looking for.

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Yes, but then I'll be doing 2 or more concurrent reads, RandomAccessFile won't handle that. See: (the 'evaluation' part) – Folkert van Heusden May 21 '10 at 13:04
So then you can't use a read lock so you may as well use synchronization. – EJP May 22 '10 at 1:17

Consider this approach - it allows unlimited readers, and when a writer wants to write, it waits for current readers to finish to do its write.

class readWriteSemaphore() {
    private Object lock;
    List<Thread> readers;
    Thread writer;

    readWriteSemaphore() {
        readers = new LinkedList<Thread>(); // Linked list is inefficient for many threads, FYI
        writer = null;

    * Returns true if and only if you have acquired a read
    * maybe use while(!rws.acquireRead(Thread.currentThread())) Thread.sleep(50); // or something
    boolean acquireRead(Thread t) {
        synchronized(lock) {
            if(writer == null) {
                return true;
            return false; // yes this could go outside the synch block... oh well

    void releaseRead(Thread t) {
        synchronized(lock) {
            while(readers.remove(t)); // remove this thread completely

    boolean acquireWrite(Thread t) {
        synchronized(lock) {
            if(writer == null) return false;
            writer = t;
        while(readers.size() > 0) Thread.sleep(50); // give readers time to finish. 
        //They can't re-enter yet because we set the writer,
        // if you attempt to acquire a write, future reads will be false until you're done
        return true;

    void releaseWrite(Thread t) {
        synchronized(lock) {
            if(t != writer) throw new IllegalArgumentException("Only writer can release itself");
            writer = null;

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Looks like a java.util.concurrent.locks.ReentrantReadWriteLock implementation? But still: I need a way for multiple reads and/or writes to succeed. And RandomAccessFile doesn't allow multiple reads. – Folkert van Heusden May 21 '10 at 13:23
This allows for multiple reads. Just not multiple writes. – corsiKa May 21 '10 at 13:26
Yes, but RandomAccessFile doesn't allow multiple reads. I'm looking for some other class doing so. – Folkert van Heusden May 21 '10 at 13:40

If a simple mutex on the entire file is going to give you a performance bottleneck, and RandomAccessFile is not thread-safe without a mutex, then you need to look at alternatives to RandomAccessFile.

One alternative is to map the file into memory as a MappedBuffer and use slices of the buffer to allow different threads to access the file without interfering with each other. Single writer / multiple reader locking at the granularity of the entire would be easy to implement. You could also go further and implement concurrent reading and writing of non-overlapping sections of the file, but that would be more complicated.

I would not be surprised to hear that someone, somewhere has already implemented this as a reusable library.

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