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Lets just say you have a simple operation that runs on a background thread. You want to provide a way to cancel this operation so you create a boolean flag that you set to true from the click event handler of a cancel button.

private bool _cancelled;

private void CancelButton_Click(Object sender ClickEventArgs e)
    _cancelled = true;

Now you're setting the cancel flag from the GUI thread, but you're reading it from the background thread. Do you need to lock before accessing the bool?

Would you need to do this (and obviously lock in the button click event handler too):

    // Do complex operation


Or is it acceptable to do this (with no lock):

while(!_cancelled & operationNotComplete)
    // Do complex operation

Or what about marking the _cancelled variable as volatile. Is that necessary?

[I know there is the BackgroundWorker class with it's inbuilt CancelAsync() method, but I'm interested in the semantics and use of locking and threaded variable access here, not the specific implementation, the code is just an example.]

There seems to be two theories.

1) Because it is a simple inbuilt type (and access to inbuilt types is atomic in .net) and because we are only writing to it in one place and only reading on the background thread there is no need to lock or mark as volatile.
2) You should mark it as volatile because if you don't the compiler may optimise out the read in the while loop because it thinks nothing it capable of modifying the value.

Which is the correct technique? (And why?)

[Edit: There seem to be two clearly defined and opposing schools of thought on this. I am looking for a definitive answer on this so please if possible post your reasons and cite your sources along with your answer.]

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Yes, you do need either volatile or lock (to act as a memory barrier): see… – Marc Gravell Aug 3 '09 at 13:02
Does this mean that Simon is going to be left red faced in the mass debate he has been having with EFraim (…) – ThePower Aug 3 '09 at 13:03
@Marc: Nice example, thanks. @ThePower: I'm happy to put my hands up when I'm not sure, so hopefully I'll escape only mildly pink faced =:) – Simon P Stevens Aug 3 '09 at 13:10
Joe Duffy's "Concurrent Programming on Windows" is getting added to my booklist! – Mitch Wheat Aug 3 '09 at 13:11
@Simon, respect – ThePower Aug 3 '09 at 13:13

5 Answers 5

up vote 26 down vote accepted

Firstly, threading is tricky ;-p

Yes, despite all the rumours to the contrary, it is required to either use lock or volatile (but not both) when accessing a bool from multiple threads.

For simple types and access such as an exit flag (bool), then volatile is sufficient - this ensures that threads don't cache the value in their registers (meaning: one of the threads never sees updates).

For larger values (where atomicity is an issue), or where you want to synchronize a sequence of operations (a typical example being "if not exists and add" dictionary access), a lock is more versatile. This acts as a memory-barrier, so still gives you the thread safety, but provides other features such as pulse/wait. Note that you shouldn't use a lock on a value-type or a string; nor Type or this; the best option is to have your own locking object as a field (readonly object syncLock = new object();) and lock on this.

For an example of how badly it breaks (i.e. looping forever) if you don't synchronize - see here.

To span multiple programs, an OS primitive like a Mutex or *ResetEvent may also be useful, but this is overkill for a single exe.

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I think this settles the issue. A reproducible example there of how it can go wrong if you don't use lock or volatile. – Simon P Stevens Aug 3 '09 at 13:47
@MarcGravell♦ are there any chances that 2 threads write to the volatile variable at the exact same time ? – onmyway133 Jul 9 '13 at 4:11
@entropy yes, there is nothing to stop that whatsoever. One of the values will win; it is not defined which. Note that the compiler only lets you use volatile with types that can be written atomically, so you won't end up with a torn value – Marc Gravell Jul 9 '13 at 6:41

_cancelled must be volatile. (if you don't choose to lock)

If one thread changes the value of _cancelled, other threads might not see the updated result.

Also, I think the read/write operations of _cancelled are atomic:

Section 12.6.6 of the CLI spec states: "A conforming CLI shall guarantee that read and write access to properly aligned memory locations no larger than the native word size is atomic when all the write accesses to a location are the same size."

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@Mitch: but in this case this means it can screw things up. – EFraim Aug 3 '09 at 13:05
Just as a point of correction, locking will have no effect upon whether a read or write to a variable is cached. Locking is NOT a replacement for a volatile variable. – Adam Robinson Aug 3 '09 at 13:08
atomicity has little to do with it... if the other thread is still chewing on its own registers then it makes zero difference whether you write the value in 1 chunk or in 26. – Marc Gravell Aug 3 '09 at 13:09
@Adam - the lock acts, I believe, as a memory barrier - serving the same purpose. – Marc Gravell Aug 3 '09 at 13:10
Using lock() yields the same guarantees as making a field volatile. – Daniel Brückner Aug 3 '09 at 13:20

Locking is not required because you have a single writer scenario and a boolean field is a simple structure with no risk of corrupting the state (while it was possible to get a boolean value that is neither false nor true). But you have to mark the field as volatile to prevent the compiler from doing some optimizations. Without the volatile modifier the compiler could cache the value in a register during the execution of your loop on your worker thread and in turn the loop would never recognize the changed value. This MSDN article (How to: Create and Terminate Threads (C# Programming Guide)) addresses this issue. While there is need for locking, a lock will have the same effect as marking the field volatile.

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That's right. Since you either read or set the value of this flag, all you need is a volatile attribute. – jpbochi Aug 3 '09 at 13:13
But in theory you could have a quite weired scenario if the update of the boolean field is not atomic and a partial update results in a value that is neither true nor false, but this would cause no problems in the given usage scenario. – Daniel Brückner Aug 3 '09 at 13:18
@Daniel - a bool update is guaranteed to be atomic by the spec. – Marc Gravell Aug 3 '09 at 13:28
ECMA334v4 §12.5 Atomicity of variable references Reads and writes of the following data types shall be atomic: bool, char, byte, sbyte, short, ushort, uint, int, float, and reference types. In addition, reads and writes of enum types with an underlying type in the previous list shall also be atomic. – Marc Gravell Aug 3 '09 at 13:29
Thanks for that. Just had a look at RFC 2119 and noticed that I tended to interpret "shall" like "should" because it similar to the German word for "should". – Daniel Brückner Aug 3 '09 at 13:42

For thread synchronization, it's recommended that you use one of the EventWaitHandle classes, such as ManualResetEvent. While it's marginally simpler to employ a simple boolean flag as you do here (and yes, you'd want to mark it as volatile), IMO it's better to get into the practice of using the threading tools. For your purposes, you'd do something like this...

private System.Threading.ManualResetEvent threadStop;

void StartThread()
    // do your setup

    // instantiate it unset
    threadStop = new System.Threading.ManualResetEvent(false); 

    // start the thread

In your thread..

while(!threadStop.WaitOne(0) && !operationComplete)
    // work

Then in the GUI to cancel...

share|improve this answer
An OS primitive is usually overkill for a single app, IMO. Most things can be done with just a Monitor. – Marc Gravell Aug 3 '09 at 13:26
@Marc: While a *ResetEvent may not be explicitly required here, I don't think I'd be willing to say that it's overkill for a single application. There are many instances where multiple threads within one application may need to use the functionality of a EventWaitHandle like ManualResetEvent. – Adam Robinson Aug 3 '09 at 13:47

Look up Interlocked.Exchange(). It does a very fast copy into a local variable which can be used for comparison. It is faster than lock().

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It's not the speed considerations; it's the correctness.... – Mitch Wheat Aug 3 '09 at 13:10
+1, not always the best but it is one of the three (lock/interlocked/volatile) possibilities. – Henk Holterman Aug 3 '09 at 13:21
Interlocked.Exchange() would not be my first choice for a variable used to control a loop. I'd use an Event/WaitHandle. If you need to get a single integer/boolean variable atomically, it is a good choice. – hughdbrown Aug 3 '09 at 13:33

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