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MySQL has a handy function:

SELECT GET_LOCK("SomeName")

This can be used to create simple, but very specific, name based locks for an application. However, it requires a database connection.

I have many situations like:

someMethod() {
    // do stuff to user A for their data for feature X
}

It doesn't make sense to simply synchronize this method, because, for example, if this method is called for user B in the meantime, user B does not need to wait for user A to finish before it starts, only operations for the user A and feature X combination need to wait.

With the MySql lock I could do something like:

someMethod() {
    executeQuery("SELECT GET_LOCK('userA-featureX')")
    // only locked for user A for their data for feature X
    executeQuery("SELECT RELEASE_LOCK('userA-featureX')")
}

Since Java locking is based on objects, it seems like I would need to create a new object to represent the situation for this lock and then put it in a static cache somewhere so all the threads can see it. Subsequent requests to lock for that situation would then locate the lock object in the cache and acquire its lock. I tried to create something like this, but then the lock cache itself needs synchronization. Also, it is difficult to detect when a lock object is no longer being used so that it can be removed from the cache.

I have looked at the Java concurrent packages, but nothing stands out as being able to handle something like this. Is there an easy way to implement this, or am I looking at this from the wrong perspective?

Edit:

To clarify, I am not looking to create a predefined pool of locks ahead of time, I would like to create them on demand. Some pseudo code for what I am thinking is:

LockManager.acquireLock(String name) {
    Lock lock;  

    synchronized (map) {
        lock = map.get(name);

        // doesn't exist yet - create and store
        if(lock == null) {
            lock = new Lock();
            map.put(name, lock);
        }
    }

    lock.lock();
}

LockManager.releaseLock(String name) {
    // unlock
    // if this was the last hold on the lock, remove it from the cache
}
share|improve this question
    
updated my answer - notify must be changed to notifyAll –  irreputable Apr 12 '11 at 21:01

14 Answers 14

up vote 5 down vote accepted

maybe this is useful for you: jkeylockmanager

Edit:

My initial response was probably a bit short. I am the author and was faced with this problem several times and could not find an existing solution. That's why I made this small library on Google Code.

share|improve this answer
3  
If you are the author of this tool/lib, it would be fair to mention it... –  Alexis Pigeon Oct 21 '12 at 15:26
// pool of names that are being locked
HashSet<String> pool = new HashSet<String>(); 

lock(name)
    synchronized(pool)
        while(pool.contains(name)) // already being locked
            pool.wait();           // wait for release
        pool.add(name);            // I lock it

unlock(name)
    synchronized(pool)
        pool.remove(name);
        pool.notifyAll();
share|improve this answer
    
This is a good base for a simple and clean solution, thanks. –  worpet Apr 12 '11 at 21:01
    
It's not a fault in the implementation, but I think that callers should note that this code doesn't allow reentrant synchronization. Misuse may result in deadlock. –  McDowell Apr 14 '11 at 12:48
1  
I think it'll cause a deadlock. Example, T1 locks on "a". T2 tries to lock on "a" too so it stops at pool.wait() and also hold synchronized(pool). then T1 call unlock but cannot enter in synchronized(pool) block so it's a deadlock. –  teerapap May 10 '11 at 12:33
3  
@teerapap A call to pool.wait() makes the thread lose the lock on pool. –  Bart van Heukelom Sep 27 '11 at 8:44
1  
synchronized has a low performance –  Pablo Moretti Nov 30 '13 at 22:38

Can you have a Map<String, java.util.concurrent.Lock>? Each time you require a lock, you basically call map.get(lockName).lock().

Here's an example using Google Guava:

Map<String, Lock> lockMap = new MapMaker().makeComputingMap(new Function<String, Lock>() {
  @Override public Lock apply(String input) {
    return new ReentrantLock();
  }
});

Then lockMap.get("anyOldString") will cause a new lock to be created if required and returned to you. You can then call lock() on that lock. makeComputingMap returns a Map that is thread-safe, so you can just share that with all your threads.

share|improve this answer
1  
This is close to what I am looking for, but I was hoping to create something with just the standard library and perhaps the apache commons library. This solves how to create the locks on demand, but I'm still not sure how to clean up old locks that aren't being used. There may be thousands of users, but only about a hundred at most would be active at one time. –  worpet Apr 12 '11 at 18:51
5  
I would argue you should consider Google Guava part of your standard library. It is incredibly useful and much higher quality than the Apache commons library. How do you know when a lock will no longer be used or is not already locked? You can ask MapMaker to expire entries that were created some time ago, but this can cause violations to the mutual exclusion rule you're trying to create (e.g. if somebody holds the lock for more than the expiration time). –  sjr Apr 12 '11 at 18:58
3  
@srj: Wouldn't simply using weakValues() do? If a thread holding the lock terminates (with or without releasing it), then it will be GC'ed. –  maaartinus Aug 20 '11 at 16:03
    
@sjr will I end up with one object in the map for every different String that I call a lock in? –  Joqus Dec 20 '13 at 19:05
1  
yes it will create a lock for each string key that you specify. As @maaartinus suggested you can use weakValues to make the map not hold a strong reference to the locks, just make sure you hold a reference to the lock while you have it open –  sjr Dec 21 '13 at 21:32

All those answers I see are way too complicated. Why not simply use:

public void executeInNamedLock(String lockName, Runnable runnable) {
  synchronized(lockName.intern()) {
    runnable.run();
  }
}

The key point is the method intern: it ensures that the String returned is a global unique object, and so it can be used as a vm-instance-wide mutex. All interned Strings are held in a global pool, so that's your static cache you were talking about in your original question. Don't worry about memleaks; those strings will be gc'ed if no other thread references it. Note however, that up to and including Java6 this pool is kept in PermGen space instead of the heap, so you might have to increase it.

There's a problem though if some other code in your vm locks on the same string for completely different reasons, but a) this is very unlikely, and b) you can get around it by introducing namespaces, e.g. executeInNamedLock(this.getClass().getName() + "_" + myLockName);

share|improve this answer
1  
This looks like a brilliant solution - but how safe is this? is this working under an assumption of how the JVM currently works, or is it true by spec that intern()'ed values are "==" ? –  Francisco Lozano Dec 29 '12 at 17:24
    
Yes, this is true by spec. See JavaDoc for String.intern(). –  dmoebius Jan 23 '13 at 15:21
3  
see this for why interning is a bad idea: stackoverflow.com/questions/133988/… –  emmby Mar 29 '13 at 20:59
    
In that thread, all concerns are about introducing unseen dependencies by the global state that String.intern() creates, which I overcome with the "namespace" pattern in the last paragraph. –  dmoebius Jun 8 '13 at 22:13
    

For locking on something like a user name, in-memory Locks in a map might be a bit leaky. As an alternative, you could look at using WeakReferences with WeakHashMap to create mutex objects that can be garbage collected when nothing refers to them. This avoids you having to do any manual reference counting to free up memory.

You can find an implementation here. Note that if you're doing frequent lookups on the map you may run into contention issues acquiring the mutex.

share|improve this answer
    
It is sufficient to prevent memory leaking in most cases if unlock code removes map entry and is enclosed in finally block. As maximum number of concurrently serviced users tend to be limited by number of active threads. See an example in my answer: stackoverflow.com/a/24329490/603516 –  Vadzim Jun 20 at 14:31
    
Weak references involve additional complexity due to link-death checks. –  Vadzim Jun 20 at 14:34

Maybe something like that:

public class ReentrantNamedLock {

private class RefCounterLock {

    public int counter;
    public ReentrantLock sem;

    public RefCounterLock() {
        counter = 0;
        sem = new ReentrantLock();
    }
}
private final ReentrantLock _lock = new ReentrantLock();
private final HashMap<String, RefCounterLock> _cache = new HashMap<String, RefCounterLock>();

public void lock(String key) {
    _lock.lock();
    RefCounterLock cur = null;
    try {
        if (!_cache.containsKey(key)) {
            cur = new RefCounterLock();
            _cache.put(key, cur);
        } else {
            cur = _cache.get(key);
        }
        cur.counter++;
    } finally {
        _lock.unlock();
    }
    cur.sem.lock();
}

public void unlock(String key) {
    _lock.lock();
    try {
        if (_cache.containsKey(key)) {
            RefCounterLock cur = _cache.get(key);
            cur.counter--;
            cur.sem.unlock();
            if (cur.counter == 0) { //last reference
                _cache.remove(key);
            }
            cur = null;
        }
    } finally {
        _lock.unlock();
    }
}}

I didn't test it though.

share|improve this answer

In response to the suggestion of using new MapMaker().makeComputingMap()...

MapMaker().makeComputingMap() is deprecated for safety reasons. The successor is CacheBuilder. With weak keys/values applied to CacheBuilder, we're soooo close to a solution.

The problem is a note in CacheBuilder.weakKeys():

when this method is used, the resulting cache will use identity (==) comparison to determine equality of keys. 

This makes it impossible to select an existing lock by string value. Erg.

share|improve this answer
1  
Is it not sufficient to just use weakValues(), and not weakKeys()? When a lock stops being (strongly) reachable, the cache entry becomes a candidate for removal from the cache. weakValues() doesn't change the equality test for keys. –  Matt R Mar 21 at 9:25

Based on the answer of McDowell and his class IdMutexProvider, I have written the generic class LockMap that uses WeakHashMap to store lock objects. LockMap.get() can be used to retrieve a lock object for a key, which can then be used with the Java synchronized (...) statement to apply a lock. Unused lock objects are automatically freed during garbage collection.

import java.lang.ref.WeakReference;
import java.util.WeakHashMap;

// A map that creates and stores lock objects for arbitrary keys values.
// Lock objects which are no longer referenced are automatically released during garbage collection.
// Author: Christian d'Heureuse, www.source-code.biz
// Based on IdMutexProvider by McDowell, http://illegalargumentexception.blogspot.ch/2008/04/java-synchronizing-on-transient-id.html
// See also http://stackoverflow.com/questions/5639870/simple-java-name-based-locks
public class LockMap<KEY> {

private WeakHashMap<KeyWrapper<KEY>,WeakReference<KeyWrapper<KEY>>> map;

public LockMap() {
   map = new WeakHashMap<KeyWrapper<KEY>,WeakReference<KeyWrapper<KEY>>>(); }

// Returns a lock object for the specified key.
public synchronized Object get (KEY key) {
   if (key == null) {
      throw new NullPointerException(); }
   KeyWrapper<KEY> newKeyWrapper = new KeyWrapper<KEY>(key);
   WeakReference<KeyWrapper<KEY>> ref = map.get(newKeyWrapper);
   KeyWrapper<KEY> oldKeyWrapper = (ref == null) ? null : ref.get();
   if (oldKeyWrapper != null) {
      return oldKeyWrapper; }
   map.put(newKeyWrapper, new WeakReference<KeyWrapper<KEY>>(newKeyWrapper));
   return newKeyWrapper; }

// Returns the number of used entries in the map.
public synchronized int size() {
   return map.size(); }

// KeyWrapper wraps a key value and is used in three ways:
// - as the key for the internal WeakHashMap
// - as the value for the internal WeakHashMap, additionally wrapped in a WeakReference
// - as the lock object associated to the key
private static class KeyWrapper<KEY> {
   private KEY key;
   private int hashCode;
   public KeyWrapper (KEY key) {
      this.key = key;
      hashCode = key.hashCode(); }
   public boolean equals (Object obj) {
      if (obj == this) {
         return true; }
      if (obj instanceof KeyWrapper) {
         return ((KeyWrapper)obj).key.equals(key); }
      return false; }
   public int hashCode() {
      return hashCode; }}

} // end class LockMap

Example of how to use the LockMap class:

private static LockMap<String> lockMap = new LockMap<String>();

synchronized (lockMap.get(name)) {
   ... 
}

A simple test program for the LockMap class:

public static Object lock1;
public static Object lock2;

public static void main (String[] args) throws Exception {
   System.out.println("TestLockMap Started");
   LockMap<Integer> map = new LockMap<Integer>();
   lock1 = map.get(1);
   lock2 = map.get(2);
   if (lock2 == lock1) {
      throw new Error(); }
   Object lock1b = map.get(1);
   if (lock1b != lock1) {
      throw new Error(); }
   if (map.size() != 2) {
      throw new Error(); }
   for (int i=0; i<10000000; i++) {
      map.get(i); }
   System.out.println("Size before gc: " + map.size());   // result varies, e.g. 4425760
   System.gc();
   Thread.sleep(1000);
   if (map.size() != 2) {
      System.out.println("Size after gc should be 2 but is " + map.size()); }
   System.out.println("TestLockMap completed"); }

If anyone knows a better way to automatically test the LockMap class, please write a comment.

share|improve this answer
    
synchronized has bad performance –  Pablo Moretti Dec 22 '13 at 20:47

A generic solution using java.util.concurrent

import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.locks.ReentrantLock;

public class LockByName<L> {

    ConcurrentHashMap<String, L> mapStringLock;

    public LockByName(){
        mapStringLock = new ConcurrentHashMap<String, L>();
    }

    public LockByName(ConcurrentHashMap<String, L> mapStringLock){
        this.mapStringLock = mapStringLock;
    }

    @SuppressWarnings("unchecked")
    public L getLock(String key) {
        L initValue = (L) createIntanceLock();
        L lock = mapStringLock.putIfAbsent(key, initValue);
        if (lock == null) {
            lock = initValue;
        }
        return lock;
    }

    protected Object createIntanceLock() {
        return new ReentrantLock();
    }

    public static void main(String[] args) {

        LockByName<ReentrantLock> reentrantLocker = new LockByName<ReentrantLock>();

        ReentrantLock reentrantLock1 = reentrantLocker.getLock("pepe");

        try {
            reentrantLock1.lock();
            //DO WORK

        }finally{
            reentrantLock1.unlock();

        }


    }

}
share|improve this answer

Your idea about a shared static repository of lock objects for each situation is correct.
You don't need the cache itself to be synchronized ... it can be as simple as a hash map.

Threads can simultaneously get a lock object from the map. The actual synchronization logic should be encapsulated within each such object separately (see the java.util.concurrent package for that - http://download.oracle.com/javase/6/docs/api/java/util/concurrent/locks/package-summary.html)

share|improve this answer

2 years later but I was looking for a simple named locker solution and came across this, was usefull but I needed a simpler answer, so below what I came up with.

Simple lock under some name and release again under that same name.

private void doTask(){
  locker.acquireLock(name);
  try{
    //do stuff locked under the name
  }finally{
    locker.releaseLock(name);
  }
}

Here is the code:

public class NamedLocker {
    private ConcurrentMap<String, Semaphore> synchSemaphores = new ConcurrentHashMap<String, Semaphore>();
    private int permits = 1;

    public NamedLocker(){
        this(1);
    }

    public NamedLocker(int permits){
        this.permits = permits;
    }

    public void acquireLock(String... key){
        Semaphore tempS = new Semaphore(permits, true);
        Semaphore s = synchSemaphores.putIfAbsent(Arrays.toString(key), tempS);
        if(s == null){
            s = tempS;
        }
        s.acquireUninterruptibly();
    }

    public void releaseLock(String... key){
        Semaphore s = synchSemaphores.get(Arrays.toString(key));
        if(s != null){
            s.release();
        }
    }
}
share|improve this answer

After some disappointment that there is no language level support or simple Guava/Commons class for named locks,

This is what I settled down to:

ConcurrentMap<String, Object> locks = new ConcurrentHashMap<>();

Object getLock(String name) {
    Object lock = locks.get(name);
    if (lock == null) {
        Object newLock = new Object();
        lock = locks.putIfAbsent(name, newLock);
        if (lock == null) {
            lock = newLock;
        }
    }
    return lock;
}

void somethingThatNeedsNamedLocks(String name) {
    synchronized(getLock(name)) {
        // some operations mutually exclusive per each name
    }
}

Here I achieved: little boilerplate code with no library dependency, atomically acquiring the lock object, not polluting the global interned string objects, no low-level notify/wait chaos and no try-catch-finally mess.

share|improve this answer

I'd like to notice that ConcurrentHashMap has built-in locking facility that is enough for simple exclusive multithread lock. No additional Lock objects needed.

Here is an example of such lock map used to enforce at most one active jms processing for single client.

private static final ConcurrentMap<String, Object> lockMap = new ConcurrentHashMap<String, Object>();
private static final Object DUMMY = new Object();

private boolean tryLock(String key) {
    if (lockMap.putIfAbsent(key, DUMMY) != null) {
        return false;
    }
    try {
        if (/* attempt cluster-wide db lock via select for update nowait */) {
            return true;
        } else {
            unlock(key);
            log.debug("DB is already locked");
            return false;
        }
    } catch (Throwable e) {
        unlock(key);
        log.debug("DB lock failed", e);
        return false;
    }
}

private void unlock(String key) {
    lockMap.remove(key);
}

@TransactionAttribute(TransactionAttributeType.REQUIRED)
public void onMessage(Message message) {
    String key = getClientKey(message);
    if (tryLock(key)) {
        try {
            // handle jms
        } finally {
            unlock(key);
        }
    } else {
        // key is locked, forcing redelivery
        messageDrivenContext.setRollbackOnly();
    }
}
share|improve this answer

TreeMap because in HashMap size of inner array can only increase

public class Locker<T> {
    private final Object lock = new Object();
    private final Map<T, Value> map = new TreeMap<T, Value>();

    public Value<T> lock(T id) {
        Value r;
        synchronized (lock) {
            if (!map.containsKey(id)) {
                Value value = new Value();
                value.id = id;
                value.count = 0;
                value.lock = new ReentrantLock();
                map.put(id, value);
            }
            r = map.get(id);
            r.count++;
        }
        r.lock.lock();
        return r;
    }

    public void unlock(Value<T> r) {
        r.lock.unlock();
        synchronized (lock) {
            r.count--;
            if (r.count == 0)
                map.remove(r.id);
        }
    }

    public static class Value<T> {

        private Lock lock;
        private long count;
        private T id;
    }
}
share|improve this answer
    
synchronized has bad performance –  Pablo Moretti Dec 22 '13 at 20:46

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