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The documentation of ConcurrentDictionary doesn't explicit it, so I guess we cannot expect that delegates valueFactory and updateValueFactory have their execution sinchronized (from GetOrAdd() and AddOrUpdate() operations respectively).

So, I think we cannot implement use of resources inside them which need concurrent control without manually implementing our own concurrent control, maybe just using [MethodImpl(MethodImplOptions.Synchronized)] over the delegates.

Am I right ? Or the fact that ConcurrentDictionary is thread-safe we can expect that calls to these delegates are automatically sinchronized (thread-safe too) ?

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up vote 25 down vote accepted

Yes, you are right, the user delegates are not synchronized by ConcurrentDictionary. If you need those synchronized it is your responsibility.

The MSDN itself says:

Also, although all methods of ConcurrentDictionary are thread-safe, not all methods are atomic, specifically GetOrAdd and AddOrUpdate. The user delegate that is passed to these methods is invoked outside of the dictionary's internal lock. (This is done to prevent unknown code from blocking all threads.)

See "How to: Add and Remove Items from a ConcurrentDictionary

This is because the ConcurrentDictionary has no idea what the delegate you provide will do or its performance, so if it attempted lock around them, it could really impact performance negatively and ruin the value of the ConcurrentDictionary.

Thus, it is the user's responsibility to synchronize their delegate if that is necessary. The MSDN link above actually has a good example of the guarantees it does and does not make.

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Not only are these delegates not synchronized, but they are not even guaranteed to happen only once. They can, in fact, be executed multiple times per call to AddOrUpdate.

For example, the algorithm for AddOrUpdate looks something like this.

TValue value;
do
{
  if (!TryGetValue(...))
  {
    value = addValueFactory(key);
    if (!TryAddInternal(...))
    {
      continue;
    }
    return value;
  }
  value = updateValueFactory(key);
} 
while (!TryUpdate(...))
return value;

Note two things here.

  • There is no effort to synchronize execution of the delegates.
  • The delegates may get executed more than once since they are invoked inside the loop.

So you need to make sure you do two things.

  • Provide your own synchronization for the delegates.
  • Make sure your delegates do not have any side effects that depend on the number of times they are executed.
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3  
@Luciano: I just checked and GetOrAdd appears to call ValueFactory a single time. So it is only AddOrUpdate that has the potential to call the delegates multiple times. That may be a bug on Microsoft's part...not sure. I discovered this a long time while answering a similar question. – Brian Gideon May 8 '12 at 17:33
    
@BrianGideon: Off course, sorry I haven't noticed you were talking about AddOrUpdate rather than GetOrAdd. Thanks for answering. – Luciano May 9 '12 at 13:09
    
Has this behaviour changed in any way so far? – Sebastian Godelet Nov 28 '13 at 20:06
    
@SebastianGodelet: I'm not sure. It does seem more like a bug so it is possible that this behavior gets "fixed" eventually. – Brian Gideon Nov 29 '13 at 22:40
1  
I understand the Ms point of view "don't call our support for this" or "be safe, stay home" which drives this implementation. It's a 0% risk point of view. But it so implied by the "concurrency" adjective that we now all have non-working code ! It may at least be opt-in with a warning in the doc... I'm lucky i found out something's going strange and dig it ... Otherwise non-working code would have been released to lots of customers. – Softlion Aug 23 '15 at 6:39

Because of this question I started experimented with this and created some test method that demonstrates the pitfall you should be aware of when using the value factories:

Code

class Program
{
    static void DoTest()
    {
        var random = new Random();
        var start = new ManualResetEvent(false);
        var dict = new ConcurrentDictionary<string, int>();
        var results = new int[100];
        var threads = Enumerable.Range(0, 100).Select(i => new Thread(() =>
        {
            start.WaitOne(Timeout.Infinite, false);
            lock (results) results[i] = dict.GetOrAdd("key", x => i);
        }));
        threads.ToList().ForEach(x => x.Start());
        Thread.Sleep(100);
        start.Set();
        Thread.Sleep(100);
        var uniqueValues = results.Distinct().Select(x => x.ToString());
        Console.WriteLine("Unique values ({0}): {1}", uniqueValues.Count(), string.Join("/", uniqueValues));
    }

    static void Main(string[] args)
    {
        while (!Console.KeyAvailable)
        {
            DoTest();
        }

        Console.ReadKey();
    }
}

Sample output

Unique values (1): 96
Unique values (2): 0/95
Unique values (1): 95
Unique values (1): 96
Unique values (1): 97
Unique values (2): 0/97
Unique values (1): 96
Unique values (1): 96
Unique values (1): 97
Unique values (2): 0/98

Each time you see two values, it means that 2 threads received a different value for "key".

I came across this issue when using MemoryCache (which has a similar approach as ConcurrentDictionary for adding values) to cache the result of an expensive operation which I certainly didn't want to run twice. I also didn't want to lock the whole dictionary while fetching the result of a single key. I ended up with a per-key/per-item locking mechanism. See Synchronize threads on per-item base

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