MemoryCache Strangeness

Question

I’m using the inbuilt MemoryCache in .net 4.0 in an app and trying to set the maximum size for the cache.

The MSDN documentation says that

CacheMemoryLimitMegabytes and physicalMemoryLimitPercentage

can be used to set the maximum size of the MemoryCache. I would have thought that one or the other of these properties should be used but the documentation does not mention this and I've seen several code samples using both.

I understand that these values are approximate and not hard limits as the thread that purges the cache is fired every x seconds and is also dependent on the polling interval and other undocumented variables. However even taking into account these variances, Im seeing wildly inconsistent cache sizes when the first item is being evicted from the cache after setting CacheMemoryLimitMegabytes and physicalMemoryLimitPercentage together or singularly in a test app. To be sure I ran each test 10 times and calculated the average figure.

Firstly what the MSDN documentation says regarding cacheMemoryLimitMegabytes

"The amount of maximum memory size, in megabytes. If the cache size exceeds the specified limit, the memory cache implementation removes cache entries"

And physicalMemoryLimitPercentage

"The percentage of physical memory that the cache can use, expressed as an integer value from 1 to 100. The default is zero, which indicates that MemoryCache instances manage their own memory based on the amount of memory that is installed on the computer." This is not entirely correct any value below 4 is ignored and replaced with 4

These are the results of the tests. Size of the cache is taken after the first call to CacheItemRemoved() on each test. (I am aware the actual size of cache will be larger than this)

CacheMemoryLimitMegabyte physicalMemoryLimitPercentage     AVG Cache MB on first expiry

1                   Not Defined             84
2               Not Defined             84
3                   Not Defined             84
6               Not Defined             84
Not Defined         1                   84
Not Defined         4                   84
Not Defined         10                      84
10              20                  81
10              30                  81
10              39                  82
10              40                  79
10              49                  146
10              50                  152
10              60                  212
10              70                  332
10              80                  429
10              100                 535

100             39                  81
500             39                  79
900             39                  83
1900            39                  84
900             41                  81
900             46                  84

900             49                  1.8 GB approx. in task manager no mem errros
200             49                  156
100             49                  153
2000            60                  214
5               60                  78
6               60                  76
7               100                 82
10              100                 541

Here is the test app

using System;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Linq;
using System.Runtime.Caching;
using System.Text;

namespace FinalCacheTest
{
    internal class Cache
    {
        private Object Statlock = new object();
        private int ItemCount;
        private long size;
        private MemoryCache MemCache;
        private CacheItemPolicy CIPOL = new CacheItemPolicy();

    public Cache(long CacheSize)
    {
        CIPOL.RemovedCallback = new CacheEntryRemovedCallback(CacheItemRemoved);
        NameValueCollection CacheSettings = new NameValueCollection(3);
        CacheSettings.Add("CacheMemoryLimitMegabytes", Convert.ToString(CacheSize)); 
        CacheSettings.Add("physicalMemoryLimitPercentage", Convert.ToString(49));  //set % here
        CacheSettings.Add("pollingInterval", Convert.ToString("00:00:10"));
        MemCache = new MemoryCache("TestCache", CacheSettings);
    }

    public void AddItem(string Name, string Value)
    {
        CacheItem CI = new CacheItem(Name, Value);
        MemCache.Add(CI, CIPOL);

        lock (Statlock)
        {
            ItemCount++;
            size = size + (Name.Length + Value.Length * 2);
        }

    }

    public void CacheItemRemoved(CacheEntryRemovedArguments Args)
    {
        Console.WriteLine("Cache contains {0} items. Size is {1} bytes", ItemCount, size);

        lock (Statlock)
        {
            ItemCount--;
            size = size - 108;
        }

        Console.ReadKey();
    }
}
}


using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;

namespace FinalCacheTest
{
    internal class Program
    {
        private static void Main(string[] args)
        {
            int MaxAdds = 5000000;
            Cache MyCache = new Cache(1); // set CacheMemoryLimitMegabytes

        for (int i = 0; i < MaxAdds; )
        {
            MyCache.AddItem(Guid.NewGuid().ToString(), Guid.NewGuid().ToString());
        }

        Console.WriteLine("Finished Adding Items to Cache");
    }
}
}

Tests where run on windows 7 32bit with 3GB Ram. How can the size of a MemoryCache be reliably set?

Answer 1

Wow, so I just spent entirely too much time digging around in the CLR with reflector, but I think I finally have a good handle on what's going on here.

The settings are being read in correctly, but there seems to be a deep-seated problem in the CLR itself that looks like it will render the memory limit setting essentially useless.

The following code is reflected out of the System.Runtime.Caching DLL, for the CacheMemoryMonitor class (there is a similar class that monitors physical memory and deals with the other setting, but this is the more important one):

protected override int GetCurrentPressure()
{
  int num = GC.CollectionCount(2);
  SRef ref2 = this._sizedRef;
  if ((num != this._gen2Count) && (ref2 != null))
  {
    this._gen2Count = num;
    this._idx ^= 1;
    this._cacheSizeSampleTimes[this._idx] = DateTime.UtcNow;
    this._cacheSizeSamples[this._idx] = ref2.ApproximateSize;
    IMemoryCacheManager manager = s_memoryCacheManager;
    if (manager != null)
    {
      manager.UpdateCacheSize(this._cacheSizeSamples[this._idx], this._memoryCache);
    }
  }
  if (this._memoryLimit <= 0L)
  {
    return 0;
  }
  long num2 = this._cacheSizeSamples[this._idx];
  if (num2 > this._memoryLimit)
  {
    num2 = this._memoryLimit;
  }
  return (int) ((num2 * 100L) / this._memoryLimit);
}

The first thing you might notice is that it doesn't even try to look at the size of the cache until after a Gen2 garbage collection, instead just falling back on the existing stored size value in cacheSizeSamples. So you won't ever be able to hit the target right on, but if the rest worked we would at least get a size measurement before we got in real trouble.

So assuming a Gen2 GC has occurred, we run into problem 2, which is that ref2.ApproximateSize does a horrible job of actually approximating the size of the cache. Slogging through CLR junk I found that this is a System.SizedReference, and this is what it's doing to get the value (IntPtr is a handle to the MemoryCache object itself):

[SecurityCritical]
[MethodImpl(MethodImplOptions.InternalCall)]
private static extern long GetApproximateSizeOfSizedRef(IntPtr h);

I'm assuming that extern declaration means that it goes diving into unmanaged windows land at this point, and I have no idea how to start finding out what it does there. From what I've observed though it does a horrible job of trying to approximate the size of the overall thing.

The third noticeable thing there is the call to manager.UpdateCacheSize which sounds like it should do something. Unfortunately in any normal sample of how this should work s_memoryCacheManager will always be null. The field is set from the public static member ObjectCache.Host. This is exposed for the user to mess with if he so chooses, and I was actually able to make this thing sort of work like it's supposed to by slopping together my own IMemoryCacheManager implementation, setting it to ObjectCache.Host, and then running the sample. At that point though, it seems like you might as well just make your own cache implementation and not even bother with all this stuff, especially since I have no idea if setting your own class to ObjectCache.Host (static, so it affects every one of these that might be out there in process) to measure the cache could mess up other things.

I have to believe that at least part of this (if not a couple parts) is just a straight up bug. It'd be nice to hear from someone at MS what the deal was with this thing.

TLDR version of this giant answer: Assume that CacheMemoryLimitMegabytes is completely busted at this point in time. You can set it to 10 MB, and then proceed to fill up the cache to ~2GB and blow an out of memory exception with no tripping of item removal.

Answer 2

I (thankfully) stumbled across this useful post yesterday when first attempting to use the MemoryCache. I thought it would be a simple case of setting values and using the classes but I encountered similar issues outlined above. To try and see what was going on I extracted the source using ILSpy and then set up a test and stepped through the code. My test code was very similar to the code above so I won't post it. From my tests I noticed that the measurement of the cache size was never particularly accurate (as mentioned above) and given the current implementation would never work reliably. However the physical measurement was fine and if the physical memory was measured at every poll then it seemed to me like the code would work reliably. So, I removed the gen 2 garbage collection check within MemoryCacheStatistics; under normal conditions no memory measurements will be taken unless there has been another gen 2 garbage collection since the last measurement.

In a test scenario this obviously makes a big difference as the cache is being hit constantly so objects never have the chance to get to gen 2. I think we are going to use the modified build of this dll on our project and use the official MS build when .net 4.5 comes out (which according to the connect article mentioned above should have the fix in it). Logically I can see why the gen 2 check has been put in place but in practise I'm not sure if it makes much sense. If the memory reaches 90% (or whatever limit it has been set to) then it should not matter if a gen 2 collection has occured or not, items should be evicted regardless.

I left my test code running for about 15 minutes with a the physicalMemoryLimitPercentage set to 65%. I saw the memory usage remain between 65-68% during the test and saw things getting evicted properly. In my test I set the pollingInterval to 5 seconds, physicalMemoryLimitPercentage to 65 and physicalMemoryLimitPercentage to 0 to default this.

Following the above advice; an implementation of IMemoryCacheManager could be made to evict things from the cache. It would however suffer from the gen 2 check issue mentioned. Although, depending on the scenario, this may not be a problem in production code and may work sufficiently for people.