Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Does the .NET framework provide an ability to implement access to a shared resource in a manner such that some Writers trying to access that resource will have priority over others?

My problem has the following constraints:
1. Only 1 concurrent write request to the resource can be granted
2. There are many Writers waiting for access to this resource, but some Writers have precedence over others (starvation of low-priority Writers is okay).
3. Thread affinity is a NON-requirement. One thread can set the lock, but another may reset it.
4. All Writer threads are from the same process.

In short, I need a primitive that exposes its wait-queue and allows modify access to it. If there isn't any such thing, any tips on how I can proceed on building one for myself, using the already available classes, such as Semaphore?

share|improve this question
What resource? Some kind of Stream? – Will Hughes Jan 15 '11 at 16:01
how about having the Writer trying to lock and if i can't throw itself in a prioritized queue. When the Write with the lock is about to release the lock, it could check the queue and grab the next Writer. – kenny Jan 15 '11 at 16:06
@Will - The resource is a COM dll which disallows concurrent access to any method or property exposed by it. It throws a "object is not yet ready" COMException in case concurrent accesses occur. @kenny - Let me think if I can use your idea, I'll reply tomorrow (it is late night here). – Satyajit Jan 15 '11 at 16:18
Have you looked at ReaderWriterLockSlim?… – zebrabox Jan 16 '11 at 12:57

2 Answers 2

up vote 0 down vote accepted

Use priority queue to keep list of pending requests. See here: Priority queue in .Net. Use stanadrd Monitor functionality to lock and signal what and when to do, as proposed by kenny.

share|improve this answer
That can work, I will try doing that. It also seems that in .NET framework 4, there's a new class called System.Threading.CountdownEvent, I was able to use it to created a mechanism of my own. I will do some perf runs to see which implementation (priority queue + mutex/monitor, or my class) is less resource intensive. – Satyajit Jan 16 '11 at 12:35

Here is some quick'n'dirty code I could come up with. I will refine this, but as a POC this works...

public class PrioritisedLock
    private List<CountdownEvent> waitQueue; //wait queue for the shared resource
    private Semaphore waitQueueSemaphore; //ensure safe access to wait queue itself

    public PrioritisedLock()
        waitQueue = new List<CountdownEvent>();
        waitQueueSemaphore = new Semaphore(1, 1);

    public bool WaitOne(int position = 0)
        //CountdownEvent needs to have a initial count of 1
        //otherwise it is created in signaled state
        bool containsGrantedRequest = false; //flag to check if wait queue still contains object which owns the lock

        CountdownEvent thisRequest = position<1 ? new CountdownEvent(1) : new CountdownEvent(position);
        int leastPositionMagnitude=Int32.MaxValue;

        //insert the request at the appropriate position
        foreach (CountdownEvent cdEvent in waitQueue)
            if (cdEvent.CurrentCount > position)
            else if (cdEvent.CurrentCount == position)

            if (cdEvent.CurrentCount == 0)
                containsGrantedRequest = true;


        foreach (CountdownEvent cdEvent in waitQueue)
            if (cdEvent.CurrentCount < leastPositionMagnitude)
                leastPositionMagnitude = cdEvent.CurrentCount;

        //If nobody holds the lock, grant the lock to the current request
        if (containsGrantedRequest==false && thisRequest.CurrentCount == leastPositionMagnitude)


        //now do the actual wait for this request; if it is already signaled, it ends immediately

        return true;

    public int Release()
        int waitingCount = 0, i = 0, positionLeastMagnitude=Int32.MaxValue;
        int grantedIndex = -1;


        foreach(CountdownEvent cdEvent in waitQueue)
            if (cdEvent.CurrentCount <= 0)
                grantedIndex = i;

        //remove the request which is already fulfilled
        if (grantedIndex != -1)

        //find the wait count of the first element in the queue
        foreach (CountdownEvent cdEvent in waitQueue)
            if (cdEvent.CurrentCount < positionLeastMagnitude)
                positionLeastMagnitude = cdEvent.CurrentCount;

        //decrement the wait counter for each waiting object, such that the first object in the queue is now signaled
        foreach (CountdownEvent cdEvent in waitQueue)

        return waitingCount;


share|improve this answer
I would also appreciate comments on how I can optimise this a little. – Satyajit Jan 16 '11 at 13:41

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.