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I'm using the new MemoryCache in .Net 4, with a max cache size limit in MB (I've tested it set between 10 and 200MB, on systems with between 1.75 and 8GB of memory). I don't set any time based expiration on the objects, as I'm using the cache simply as a high performance drive, and as long as there is space, I want it used. To my surprise, the cache refused to evict any objects, to the point that I would get SystemOutOfMemory exceptions.

I fired up perfmon, wired up my application to .Net CLR Memory\#Bytes In All Heaps, .Net Memory Cache 4.0, and Process\Private Bytes -- indeed, the memory consumption was out of control, and no cache trims were being registered.

Did some googling and stackoverflowing, downloaded and attached the CLRProfiler, and wham: evictions everywhere! The memory stayed within reasonable bounds based upon the memory size limit I had set. Ran it in debug mode again, no evictions. CLRProfiler again, evictions.

I finally noticed that the profiler forced the application to run without concurrent garbage collection (also see useful SO Concurrent Garbage Collection Question). I turned it off in my app.config, and, sure enough, evictions!

This seems like at best an outrageous lack of documentation to not say: this only works with non-concurrent garbage collection -- though I image since its ported from ASP.NET, they may not have had to worry about concurrent garbage collection.

So has anyone else seen this? I'd love to get some other experiences out there, and maybe some more educated insights.


Update 1

I've reproduced the issue within a single method: it seems that the cache must be written to in parallel for the cache evictions not to fire (in concurrent garbage collection mode). If there is some interest, I'll upload the test code to a public repo. I'm definitely getting toward the deep end of the the CLR/GC/MemoryCache pool, and I think I forgot my floaties...


Update 2

I published test code on CodePlex to reproduce the issue. Also, possibly of interest, the original production code runs in Azure, as a Worker Role. Interesting, changing the GC concurrency setting in the role's app.config has no effect. Possibly Azure overrides GC settings much like ASP.NET? Further, running the test code under WPF vs a Console application will produce slightly different eviction results.

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6  
Take this to connect.microsoft.com –  Hans Passant Apr 14 '11 at 0:21
    
Definitely on my todo -- in fact, I had a half filled out ticket, but then couldn't reproduce it in a single method. Now that I can, I'll get it posted. –  David Faivre Apr 14 '11 at 0:51
4  
Microsoft Connect issue is now filed here: connect.microsoft.com/VisualStudio/feedback/details/661340/…. –  David Faivre Apr 14 '11 at 15:27
    
To correct myself on the MemoryCache ASP.NET porting: ASP.NET seems to run under gcServer mode garbage collection, which behaves, in the MemoryCache case, close to gcConcurrent. –  David Faivre Apr 14 '11 at 15:39

3 Answers 3

up vote 5 down vote accepted

You can "force" a garbage collection right after the problematic method and see if the problem reproduces executing:

System.Threading.Thread.Sleep(200);
GC.Collect();
GC.WaitForPendingFinalizers();

right at the end of the method (make sure that you free any handles to reference objects and null them out). If this prevents memory leakage, and then yes, there may be a runtime bug.

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1  
Great snippet of code. I added it to my test method and the "leak" goes away under any garbage collection setting. In my production code, I now track the "size" of cache inputs, and call this GC code when the size has become bigger than the MemoryCache size limit settings. A bit of a hack, but it seems to work. –  David Faivre Apr 14 '11 at 15:29

I found this entry while searching for a similiar topic and I'm focusing on your Out of Memory exception.

If you put an object in the cache then it still may be referencing other objects and therefore these objects would not be garbage collected -- hence the out of memory exception and probably a CPU being pegged out due to Gen 2 garbage collection.

Are you putting "used" objects on the cache or clones of "used" objects on the cache? If you put a clone on the cache then the "used" object that possible references other objects could be garbage collected.

If you shut off your caching mechanism does your program still run out of memory? If it doesn't run out of memory then that would prove that the objects you would otherwise be putting on the cache are still holding references to other objects hindering garbage collection.

Forcing garbage collection is not a best practice and shouldn't have to be done. In this scenario forcing a garbage collection wouldn't dispose of referenced objects anyway.

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Stop-the-world garbage collection is based on determining whether a strong live reference to an object exists at the moment the world is stopped. Concurrent garbage collection usually determines whether a strong live reference to an object has existed since some particular time in the past. My conjecture would be that many strong references to objects held in WeakReferences are being individually created and discarded. If a stop-the-world garbage collector fires between the time a particular object is created and the time it's discarded, that particular object will be kept alive, but previously-discarded objects will not. By contrast, a concurrent garbage collector may not detect that all strong references an object have been discarded until a certain amount of time goes by without any strong references to that object being created.

I've sometimes wished that .net would offer something between a strong reference and a weak one, which would prevent an object from being wiped from memory, but would not protect it from being finalized or having weak WeakReferences to it invalidated. Such references would slightly complicate the GC process, requiring every object to have separate flags indicating whether strong and quasi-weak references exist to it, and whether it has been scanned for both strong and quasi-weak references, but such a feature could be helpful in many "weak event" scenarios.

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