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I need to implement the class that should perform locking mechanism in our framework. We have several threads and they are numbered 0,1,2,3.... We have a static class called ResourceHandler, that should lock these threads on given objects. The requirement is that n Lock() invokes should be realeased by m Release() invokes, where n = [0..] and m = [0..]. So no matter how many locks was performed on single object, only one Release() call is enough to unlock all. Even further if o object is not locked, Release() call should perform nothing. Also we need to know what objects are locked on what threads.

I have this implementation:

public class ResourceHandler
{
    private readonly Dictionary<int, List<object>> _locks = new Dictionary<int, List<object>>();

    public static ResourceHandler Instance {/* Singleton */}

    public virtual void Lock(int threadNumber, object obj)
    {
        Monitor.Enter(obj);

        if (!_locks.ContainsKey(threadNumber)) {_locks.Add(new List<object>());}
        _locks[threadNumber].Add(obj);
    }

    public virtual void Release(int threadNumber, object obj)
    {
       // Check whether we have threadN in _lock and skip if not
       var count = _locks[threadNumber].Count(x => x == obj);
       _locks[threadNumber].RemoveAll(x => x == obj);

       for (int i=0; i<count; i++)
       {
           Monitor.Exit(obj);
       }
    }

    // .....
 }

Actually what I am worried here about is thread-safety. I'm actually not sure, is it thread-safe or not, and it's a real pain to fix that. Am I doing the task correctly and how can I ensure that this is thread-safe?

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I'm not sure I understand : one thread is supposed to stop another or is threadN the number of current thread? –  Kek Jul 4 '12 at 8:58
    
threadN is the number of the current thread. Lock and Release should lock and release thread as Monitor.Enter/Exit is doing that, but the rule about many locks - many releases should be satisfied. Also I need to count objects, that are locked and know their thread numbers (we have some clean-up for each thread, where we can release all the objects in finally block to ensure that all the locks are release when the application is halted) –  Archeg Jul 4 '12 at 9:02
    
I have changed threadN to threadNumber –  Archeg Jul 4 '12 at 9:03
    
Why are you writing your own locking class, is there somthing wrong with the built in ones? –  Jodrell Jul 4 '12 at 9:08
    
@Jodrell The built one doesn't support requirement "one release" releases "many locks" and release of not-locked object is doing nothing. It is a requirement of the customer, and even I'm not sure why do we need that, I need to do it. And also I need to count locked objects with their thread numbers –  Archeg Jul 4 '12 at 9:10

4 Answers 4

up vote 1 down vote accepted

Your Lock method locks on the target objects but the _locks dictionary can be accessed by any thread at any time. You may want to add a private lock object for accessing the dictionary (in both the Lock and Release methods).

Also keep in mind that by using such a ResourceHandler it is the responsibility of the rest of the code (the consuming threads) to release all used objects (a regular lock () block for instance covers that problem since whenever you leave the lock's scope, the object is released).

You also may want to use ReferenceEquals when counting the number of times an object is locked instead of ==.

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Placing a lock is a problem. For example I cannot place a lock() {} inside of the Lock() method, as there is already Monitor.Enter() and we will receive a deadlock. And about releasing - yes, that is one of the reasons why am I need to count all the locked objects and their thread numbers –  Archeg Jul 4 '12 at 9:18
    
You should not include the Monitor calls inside the lock, just the access to the dictionary. Deadlocks will occur when threads lock on more than one object at a time and not always in the same order. –  C.Evenhuis Jul 4 '12 at 9:42
    
In that case I have a problem with code like in my Release method. I have code that counts locks, and returns the count variable. And I need to perform as many releases as this count variable. I can wrap the dictionary usage into lock, but I still have this count variable unsafe –  Archeg Jul 4 '12 at 9:50
1  
The count variable is a local variable so it cannot be referenced by other threads. Since the object the count is for is still locked by the current thread, no other threads can lock it so no other threads can store the value into the dictionary during the count loop. –  C.Evenhuis Jul 4 '12 at 10:02
1  
If he does make a mistake, thread A could call Monitor.Exit for objects locked by thread B, causing thread B to not be able to release his locks anymore. –  C.Evenhuis Jul 4 '12 at 12:38

You can ensure this class is thread safe by using a ConcurrentDictionary but, it won't help you with all the problems you will get from trying to develop your own locking mechanism.

There are a number locking mechansims that are already part of the .Net Framework, you should use those.

It sounds like you are going to need to use a combination of these, including Wait Handles to achieve what you want.


EDIT

After reading more carefully, I think you might need an EventWaitHandle

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Can you suggest some that fit my requirement? –  Archeg Jul 4 '12 at 9:15
    
Still not sure how to do that with events. I've spend the whole yesterday trying to use them here. It looks quite complicated –  Archeg Jul 4 '12 at 9:42

What you have got conceptually looks dangerous; this is bacause calls to Monitor.Enter and Monitor.Exit for them to work as a Lock statement, are reccomended to be encapsulated in a try/finally block, that is to ensure they are executed sequetally. Calling Monitor.Exit before Monitor.Enter will throw an exception.

To avoid these problems (if an exception is thrown, the lock for a given thread may-or-may-not be taken, and if a lock is taken it will not be released, resulting in a leaked lock. I would recomend using one of the options provided in the other answers above. However, if you do want to progress with this mechanism, CLR 4.0 added the following overload to the Monitor.Enter method

public static void Enter (object, ref bool lockTaken);

lockTaken is false if and only if the Enter method throws an exception and the lock was not taken. So, using your two methods using a global bool lockTaken you can create something like (here the example is for a single locker - you will need a Dictionary of List<bool> corresponding to your threads - or event better a Tuple). So in your method Lock you would have something like

bool lockTaken = false;
Monitor.Enter(locker, ref lockTaken);

in the other method Release

if (lockTaken)
    Monitor.Exit(locker);

I hope this helps.

Edit: I don't think I fully appreciate your problem, but from what I can gather I would be using a Concurrent Collection. These are fully thead safe. Check out IProducerConsumerCollection<T> and ConcurrentBag<T>. These should facilitate what you want with all thread safter taken care of by the framework (note. a thread safe collection doesn't mean the code it executes is thread safe!). However, using a collection like this, is likely to be far slower than using locks.

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I can ensure that all the locks are released by enumerating my dictionary and releasing the locks at the end of the thread (actually every thread has finally block with that). This overload looks quite nice, and I was trying to use it, but still not sure how to achive full thread-safety here. I need to calculate how many times Lock method was called - that means that I have a dictionary or list that is not thread-safe. And even if I use ConcurrentDictionary, I still have some thread-unsafe code, like enumerating the dictionary and calling releases –  Archeg Jul 4 '12 at 9:47
    
I have added a small edit with come other concurrent collections to look at. With the above I am sayng that for each locker include a lockTaken in the Dictonary/Tuple, then you add to the tuple the count AND whether the lock is taken or not. This will ensure you are not releasing locks that have not been 'taken'. Good luck... –  Killercam Jul 4 '12 at 10:06

IMO you need to use atomic set of functions to make it safe.

http://msdn.microsoft.com/en-us/library/system.threading.mutex.aspx

Mutexes I guess will help u.

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I want to know all the hills and falls of this problem. I'm using Monitor now, isn't it an atomic operation? I do not need inter-process locking, so I guess Monitor should do the same as Mutex in my situation –  Archeg Jul 4 '12 at 9:07
    
Yes you right. Monitor is what you need. To make sure run extensive test over weekend with thousand threads under profiler. To make sure you implemented everything fine. Some stress testing. –  Boris Ivanov Jul 4 '12 at 9:14

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