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By lock helpers I am referring to disposable objects with which locking can be implemented via using statements. For example, consider a typical usage of the SyncLock class from Jon Skeet's MiscUtil:

public class Example
{
    private readonly SyncLock _padlock;

    public Example()
    {
        _padlock = new SyncLock();
    }

    public void ConcurrentMethod()
    {
        using (_padlock.Lock())
        {
            // Now own the padlock - do concurrent stuff
        }
    }
}

Now, consider the following usage:

var example = new Example();
new Thread(example.ConcurrentMethod).Start();

My question is this - since example is created on one thread and ConcurrentMethod is called on another, couldn't ConcurrentMethod's thread be oblivious to _padock's assignment in the constructor (due to thread caching / read-write reordering), and thus throw a NullReferenceException (on _padLock itself) ?

I know that locking with Monitor/lock has the benefit of memory barriers, but when using lock helpers such as these I can't see why such barriers are guaranteed. In that case, as far as I understand, the constructor would have to be modified:

public Example()
{
    _padlock = new SyncLock();
    Thread.MemoryBarrier();
}

Source: Understanding the Impact of Low-Lock Techniques in Multithreaded Apps

EDIT Hans Passant suggests that the creation of a thread implies a memory barrier. So how about:

var example = new Example();
ThreadPool.QueueUserWorkItem(s => example.ConcurrentMethod());

Now a thread is not necessarily created...

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1  
At what point in time do you think it might have a cached null floating around? –  Marc Gravell Jul 4 '11 at 18:14
    
In addition to Marc: the _padLock ref doesn't change so caching is irrelevant. The first read will happen after it is set. Your question would have more merit if it was create-on-demand or something. –  Henk Holterman Jul 4 '11 at 18:21
1  
Starting a thread is in itself enough to force caches to be updated. You'll have to come up with a better example. –  Hans Passant Jul 4 '11 at 18:29
    
@Marc, Henk - the ctor's thread can assign the synclock into its cache, not showing up in the main memory, which ConcurrentMethod's thread may then read –  Ohad Schneider Jul 4 '11 at 18:40
2  
It is no different. Waking up a tp thread still involves an internal synchronization that syncs the caches. So does any thread context switch. –  Hans Passant Jul 4 '11 at 19:04

1 Answer 1

up vote 10 down vote accepted

No, you do not need to do anything special to guarentee that memory barriers are created. This is because almost any mechanism used to get a method executing on another thread produces a release-fence barrier on the calling thread and an aquire-fence barrier on the worker thread (actually they may be full fence barriers). So either QueueUserWorkItem or Thread.Start will automatically insert the necessary barriers. Your code is safe.

Also, as a matter of tangential interest Thread.Sleep also generates a memory barrier. This is interesting because some people naively use Thread.Sleep to simulate thread interleaving. If this strategy were used to troubleshoot low-lock code then it could very well mask the problem you were trying to find.

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4  
+1 for 'Thread.Sleep also generates a memory barrier' - extremely interesting notion, if it is indeed true –  Daniel Mošmondor Jul 4 '11 at 22:10
    
Very interesting indeed. So in most cases, I wouldn't need memory barriers in the ctor, since the thread that created the object would usually be the one working on it (or dispatching other threads to work on it, which will incur a memory barrier). Is that about right ? –  Ohad Schneider Jul 5 '11 at 8:47
    
@ohadsc: Yep, that is correct! –  Brian Gideon Jul 5 '11 at 14:37
    
@Brian Great, thanks ! –  Ohad Schneider Jul 5 '11 at 14:42

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