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imagine the simplest DB access code with some in-memory caching -

if exists in cache  
    return object  
    get from DB  
    add to cache  
    return object  

Now, if the DB access takes a second and I have, say, 5 ASP.Net requests/threads hitting that same code within that second, how can I ensure only the first one does the DB call? I have a simple thread lock around it, but that simply queues them up in an orderly fashion, allowing each to call the DB in turn. My data repositories basically read in entire tables in one go, so we're not talking about Get by Id data requests.

Any ideas on how I can do this? Thread wait handles sound almost what I'm after but I can't figure out how to code it.

Surely this must be a common scenario?

Existing pseudocode:

lock (threadLock)  
    get collection of entities using Fluent NHib  
    add collection to cache  

Thanks, Col

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4 Answers

up vote 2 down vote accepted

You've basically answered your own question. The "lock()" is fine, it prevents the other threads proceeding into that code while any other thread is in there. Then, inside the lock perform your first pseudo-code. Check if it's cached already, if not, retrieve the value and cache it. The next thread will then come in, check the cache, find it's available and use that.

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thanks Roger. I've thought of that, but it's slightly more complicated in that I have also got a background cache refresh mechanism running which will pre-emptively refresh it. Hence if I were to check if it's in cache, when hit by the background cache-refresh thread, it will always appear to be in cache. Yes, I could add a boolean forceRefresh parameter (and I've already tried that) but it seems messy... –  Monty Jan 7 '11 at 16:44
If you want to get more complex you can use more advanced synchronisation objects such as a Mutex, which would allow only one thing to own the mutex at a time and allow you to control access to variables. You want to ensure that you hold locks for as short a time as possible as depending on how you implemented it the background refresh thread could block access to cached values. You could always have logic like, 1) Is in cache? If yes, get from cache, else 2) Lock, and check cache again to see if someone just put it there since last check, then either grab from cache or retrieve. –  Roger Perkins Jan 7 '11 at 17:11
Sorry, didn't properly read your scenario in your last comment. Yeah, you could use a "forceRefresh" flag if you want to skip cache checks in this code if the background thread needs to force update it, or you could just do the lock(threadLock) (which is very much like using the Mutex anyway) in a different function specifically to update the cache. –  Roger Perkins Jan 7 '11 at 17:23
What are you going to lock as "threadLock"? The whole instance? -> Poor design. Use a semaphore... –  Jaster Jan 7 '11 at 18:17
thanks Roger, Jaster, Joe and 9dan for your replies, and apologies for the slow reply. I ended up going with my original solution with the conditional re-checking of cache OR forceRefresh before performing the DB access. I had 2 or 3 other related bugs which I've now traced down, and they were the cause of my initial confusion. –  Monty Jan 11 '11 at 22:31
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Surely this must be a common scenario?

Not necessarily as common as you may think.

In many similar caching scenarios:

  • the race condition you describe doesn't happen frequently (it requires multiple requests to arrive when the cache is cold)

  • the data returned from the database is readonly, and data returned by multiple requests is essentially interchangeable.

  • the cost of retrieving the database is not so prohibitive that it matters.

But if in scenario you absolutely need to prevent this race condition, then use a lock as suggested by Roger Perkins.

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Well, explicit locking will be better. Otherwise you can easily saturate DB I/O at the prime time, effectively disabling whole web application at the moment. The cost of locking is not at all prohibitive, because as pointed this answer, it will not happen frequently. –  9dan Jan 7 '11 at 20:45
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I'd use Monitor/Mutext over lock. Using lock u need to specify a resource (may also use this-pointer, which is not recommended). try the following instead:

Mutext myMutex = new Mutex();
// if u want it systemwide use a named mutex
// Mutext myMutex = new Mutex("SomeUniqueName");

// or 
// //thread has access
// //thread has no access

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But you've also just created a new resource to do this (you could easily just create something of type "object" to use lock and you'll have a robust critical section - this isn't really the place to argue the difference between a Mutex and a Critical Section either). At least using lock() will take care of any exceptions thrown inside the lock (and automatically release it) where you'll need to be careful to handle it properly when doing it manually. –  Roger Perkins Jan 7 '11 at 19:13
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I don't know general solution or established algorithm is exist.

I personally use below code pattern to solve problem like this.

1) Define a integer variable that can be accessed by all thread.

int accessTicket = 0;  

2) Modify code block

int myTicket = accessTicket;

lock (threadLock)
    if (myTicket == accessTicket)
        //get collection of entities using Fluent NHib
        //add collection to cache


Purpose of this code is not prevent multiple DB access of duplicate caching. We can do it with normal thread lock.

By using the access ticket like this we can prevent other thread doing again already finished work.


LOOK THERE IS lock (threadLock)

Look before comment.

Look carefully before vote down.

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@9dan You assume both threads hit the lock at exactly the same time and therefore have the same value of myTicket. If the 2nd thread is slightly behind then it can get the updated value of accessTicket before it hits the lock. –  Roger Perkins Jan 7 '11 at 17:31
@9dan Seriously. It's not thread safe. Assume the DB query takes 5 seconds. That's 5 seconds from the point of incrementing accessTicket that any other thread that comes along will get the updated value and therefore pass the "myTicket == accessTicket" check. You query the value "outside" the lock(). It can be done by any other thread at "any" other time, even while the other thread is doing the DB query. –  Roger Perkins Jan 7 '11 at 17:36
@9dan Someone else please jump in and tell me I'm wrong? accessTicket stops a 2nd thread doing the work again "only" if it comes through at virtually the same time as the thread that ends up doing the work (and is assigned the same value for myTicket). At any other time we process this code, accessTicket has a bigger value, so myTicket does too, so the check passes and we query the DB again. I don't know how many ways to say it. –  Roger Perkins Jan 7 '11 at 17:46
come on... Threading with "lock flags"? Is this your first application? Its like using polling as an event stratagy. There is no need to discuss this, its just wrong. Either use a semaphore or stay away from threads! –  Jaster Jan 7 '11 at 18:15
Seems to me like the increment to accessTicket should be after the query instead of before, because the other threads are much more likely to hit this code during the first thread's query than in the instant between the first thread taking the lock and incrementing accessTicket. –  Justin Jan 7 '11 at 18:40
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