6

We had a discussion at work regarding locking and what exactly happens. The code that triggered this discussion is:

        string name = (string)context.Cache[key];

        if (String.IsNullOrEmpty(name)){

            lock (typeof(string)){
                name = (string)context.Cache[key];
                //.. other code to get the name and then store in the cache
            }
        }

I see this as straight-forward: look for a value in the cache, if it's not there then get a lock so as nothing else interrupts whilst the code gets the name and stores it in the cache.

Our discussion focused on whether (typeof(string)) is the best way of doing things, and what exactly is does.

My question is what exactly does lock(typeof(string)) do? Does it create a local string to be used a lock or is it creating something with a wider scope and therefore potentially un-safe.

MSDN lock statement

  • 2
    No, it locks on the whole type - and it can be dangerous. If it just created a random string to lock on, how would other locks know to lock on the same instance of that string? I would recommend you just make a dummy object to lock on like private object _lockOnThis = new object(). – vcsjones Oct 30 '13 at 15:46
  • I think typeof(SomeType) will always return the same Type instance for the same type. So you would use a globally available instance as a lock which is not the best idea IMHO. – helb Oct 30 '13 at 15:50
  • @vcsjones I'm currently removing all instances of this way of locking but was interested in what exactly it did. – Daniel Hollinrake Oct 30 '13 at 16:07
2

If you lock on a Type it will mean that you have a mutual access exclusion based on that instance of the Type. The implications are that two threads in the application doing this will inadvertently block each other or cause unforeseen deadlocks.

Remember, typeof(someType) just returns a Type instance.

It is typically a best practice to dedicate an object to locking a complex process, such as declaring a readonly object in your class. If the lock just needs to go around some access to a private variable, say a collection, then locking that collection is quite fine.

  • This was the conclusion we eventually reached in our discussion. – Daniel Hollinrake Oct 30 '13 at 16:08
  • I wasn't certain whether to accept Jon Skeet's answer or Michael's since both are good answers. Mike's got less points so that swung it. – Daniel Hollinrake Oct 31 '13 at 10:44
8

My question is what exactly does lock(typeof(string)) do?

It locks on the Type object referred to by the reference that the typeof operator returns.

That means any code which does the same thing anywhere within the same process (or at least the same AppDomain) will share the same lock. Sounds like a bad idea to me.

I would suggest you create an object just for locking on:

private static readonly object CacheLock = new object();

...

lock (CacheLock)
{
    ...
}

That way you can easily see what's going to lock on that object.

  • What would the benefit of locking on a dedicated object be over locking on the principal shared resource? Say if this cache is just an object that is declared in the same fashion as your CacheLock. – Michael J. Gray Oct 30 '13 at 15:50
  • @MichaelJ.Gray: It means you can easily check what's locking on that object. Do you know whether any code within .NET itself locks on the cache? I don't. – Jon Skeet Oct 30 '13 at 15:52
  • I guess I am a little confused with your comment. How is it easier to check if something is locking on CacheLock rather than the cache you are going to be accessing (not typeof(Cache) mind you)? If I have a lock (this.cache) { .. } it should be more correct, I believe. I am uncertain as to why the trend has begun with making something like lock (this.cacheLocker) { .. } against single objects; I can understand the cacheLocker for complex processes where types are internally thread safe and expose public thread safe methods. – Michael J. Gray Oct 30 '13 at 15:53
  • @MichaelJ.Gray: CacheLock is private. I can easily see all the code which can see it at all. Lots of code could access the Cache - anything which can use context.Cache, for starters... – Jon Skeet Oct 30 '13 at 15:56
  • 1
    @MichaelJ.Gray: Well don't forget that if you do anything with the resource, that might lock on this, too. Personally I wish we didn't have the ability to lock on arbitrary objects... – Jon Skeet Oct 30 '13 at 16:03
1

As shown on the page you link to:

In general, avoid locking on a public type, or instances beyond your code's control. The common constructs lock (this), lock (typeof (MyType)), and lock ("myLock") violate this guideline:

lock (typeof (MyType)) is a problem if MyType is publicly accessible.

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