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What is the difference between the "Total # of Contentions" and "Queue Length Peak" windows performance counters in the ".NET CLR LocksAndThreads" category? MSDN Documentation is available here: http://msdn.microsoft.com/en-us/library/zf749bat.aspx.

I think my confusion is about the difference between "the number of threads that tried to acquire a lock unsuccessfully" vs "the total number of threads that waited to acquire a managed lock since the application started." In essence, what is the difference between waiting to acquire a lock, which I interpret as meaning someone else is holding it when you try to acquire it, and trying to acquire a lock unsuccessfully?? The only thing I can think of would be related to how lock acquisition is attempted, e.g. Monitor.TryEnter vs. Monitor.Enter.

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I think they are measuring different things. Contentions is a count of incidents and Queue Length is a count of threads. Perhaps Contentions is the number of times a lock could not be acquired immediately and Queue Length is the number of threads that could not acquire a lock immediately. –  Luke Feb 2 '12 at 19:50
What I'm confused about is when a thread fails to acquire a lock immediately how it does not count towards both counts -- in other words, each failed lock acquisition is both an instance of a thread failing to acquire a lock immediately and an instance of a lock failing to be acquired immediately. The application in question has a "Queue Length Peak" value of 148,411, while the "Total # of Contentions" is only 255. –  user1185281 Feb 3 '12 at 13:36
I read that Monitor is implemented first as a spin lock, then after a certain amount of time it goes into a wait state. Perhaps one counter is the number of times the spin lock succeeded and the other is the number of times it failed. I've got no idea; the documentation is not clear. –  Luke Feb 3 '12 at 14:57
That's interesting, I hadn't considered an optimistic spin locking implementation. Do you happen to know and/or have a link to where you came across that information about the .NET monitor implementation? –  user1185281 Feb 3 '12 at 17:03
Here is one random blog entry I found. You could always disassemble the Monitor class and see for yourself what it is doing. –  Luke Feb 3 '12 at 19:55

1 Answer 1

I would think of 3 scenarios when trying to acquire lock:
a) resource no locked by other entity, acquired immediately
b) resource locked, but released on time, acquired with delay
c) resource locked, but not released on time, acquisition times out

Total # of Contentions - total of scenario (c)
Queue Length Peak - at any given time the most threads in state (b)

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