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I have about 50 web-sites, load-balanced across 5 web-servers. They all use Enterprise Library Caching, and access the same Caching database. The items in the Caching database are refreshed every few hours, using an ICacheItemRefreshAction implementation.

I want to guarantee that only one web-site ever refreshes the cache, by putting the refresh code in a critical section.

  • If the web-sites were running in a single app-pool on a single server, I could use a lock()

  • If the web-sites were running in separate app-pools on a single server, I could use a Mutex.

However, these will not ensure the critical section across multiple web-servers.

Currently, I am creating a new key in the caching database to act as a mutex. This will generally work, but I can see a slim chance that 2 processes could enter the critical section.

public class TakeLongTimeToRefresh : ICacheItemRefreshAction
    #region ICacheItemRefreshAction Members

    public void Refresh(string removedKey, object expiredValue, CacheItemRemovedReason removalReason)
        string lockKey = "lockKey";
        ICacheManager cm = CacheFactory.GetCacheManager();

        if (!cm.Contains(lockKey))
            Debug.WriteLine("Entering critical section");
            // Add a lock-key which will never expire for synchronisation.
            // I can see a small window of opportunity for another process to enter
            // the critical section here...
            cm.Add(lockKey, lockKey, 
                   CacheItemPriority.NotRemovable, null, 
                   new NeverExpired());

            object newValue = SomeLengthyWebserviceCall();
            Utilities.AddToCache(removedKey, newValue);


Is there a way of having a guaranteed critical section to ensure I don't call the web-service twice?

EDIT I should add that I can't use a shared file, as the deployment policies will prevent it.

StackOverflow references:

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Maybe some kind of Token ring system? –  jp2code Mar 18 '11 at 15:53

2 Answers 2

up vote 4 down vote accepted

You have to involve some external lock acquisiton common to all. For example, a table t in SQL with one row and one lock field where you will acquire a lock with:

set transaction isolation serializable;
update t set lock = 1 where lock = 0;

check rows affected and if its 1 you have the lock, release it by updating lock to 0. This essentially piggybacks on SQLServer's row lock, if two start at the same time only one will gain U lock after S lock, the other one will block and subsequently return 0 rows affected (since the first transaction flipped it to 1).

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I think this is the right approach. If EL Caching threw an exception if you added an existing key, than that would have the same effect. However, as it doesn't, I need to implement it myself in SQL. Thanks :) –  RB. Mar 18 '11 at 15:57
Just keep in mind that this locking is not durable, if your process faults after acquiring but before releasing the lock, it will stay permanently locked. A good way to wiggle out of that is to enforce timeouts, meaning if lock is not released in set time a requester can obtain it even if lock=1, something like set lock=1, locktime=getdate() where lock = 0 or datediff(m, locktime, getdate()) > 15 for 15min –  mmix Mar 18 '11 at 22:57
@mmix Thanks for your suggestion. I'm using it. The only problem is that I think the datepart "m" is for months and not minutes. Minutes would be "mi". Reference: msdn.microsoft.com/en-us/library/ms189794.aspx –  Augusto Barreto Jul 30 at 0:39

I suggest you move the logic for creating/returning a lock handle to database and combine them and this will guarantee it is always one process having the lock.

So the database could have a stored procedure which you ask for a lock, and either it will return empty result (unsuccessful) or will create a record and return it.

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