Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

"There are only two hard problems in Computer Science: cache invalidation and naming things."

Phil Karlton

Is there a general solution or method to invalidating a cache; to know when an entry is stale, so you are guaranteed to always get fresh data?

For example, consider a function getData() that gets data from a file. It caches it based on the last modified time of the file, which it checks every time it's called.
Then you add a second function transformData() which transforms the data, and caches its result for next time the function is called. It has no knowledge of the file - how do you add the dependency that if the file is changed, this cache becomes invalid?

You could call getData() every time transformData() is called and compare it with the value that was used to build the cache, but that could end up being very costly.

share|improve this question
I believe he's something to do with writing X Windows – Greg Jul 27 '09 at 14:57
I think that title would be better as "Cache Invalidation -- Is there a General Solution?" as it refers to a specific class of caching problem. – RBarryYoung Jul 27 '09 at 15:06
No, he didn't know much computer science. I'm sure that his involvement in creating OpenGL, X11, and SSLv3 made him too busy to really study it much. :-) – Tim Lesher Oct 8 '09 at 15:37
There are only 2 hard problems in computer science: Cache invalidation. Naming things. And off-by-one errors. – The Dag May 7 '12 at 7:55
I once heard this as "The two hardest things in Computer Science are cache invalidation, naming things, and off-by-one errors." – Jonathon Reinhart May 19 '14 at 17:59
up vote 44 down vote accepted

What you are talking about is lifetime dependency chaining, that one thing is dependent on another which can be modified outside of it's control.

If you have an idempotent function from a, b to c where, if a and b are the same then c is the same but the cost of checking b is high then you either:

  1. accept that you sometime operate with out of date information and do not always check b
  2. do your level best to make checking b as fast as possible

You cannot have your cake and eat it...

If you can layer an additional cache based on a over the top then this affects the initial problem not one bit. If you chose 1 then you have whatever freedom you gave yourself and can thus cache more but must remember to consider the validity of the cached value of b. If you chose 2 you must still check b every time but can fall back on the cache for a if b checks out.

If you layer caches you must consider whether you have violated the 'rules' of the system as a result of the combined behaviour.

If you know that a always has validity if b does then you can arrange your cache like so (pseudocode):

private map<b,map<a,c>> cache // 
private func realFunction    // (a,b) -> c

get(a, b) 
    c result;
    map<a,c> endCache;
    if (cache[b] expired or not present)
        remove all b -> * entries in cache;   
        endCache = new map<a,c>();      
        add to cache b -> endCache;
        endCache = cache[b];     
    if (endCache[a] not present)     // important line
        result = realFunction(a,b); 
        endCache[a] = result;
        result = endCache[a];
   return result;

Obviously successive layering (say x) is trivial so long as, at each stage the validity of the newly added input matches the a:b relationship for x:b and x:a.

However it is quite possible that you could get three inputs whose validity was entirely independent (or was cyclic), so no layering would be possible. This would mean the line marked // important would have to change to

if (endCache[a] expired or not present)

share|improve this answer
or maybe, if the cost of checking b is high, you use pubsub so that when b changes it notifies c. The Observer pattern is common. – user1031420 May 30 '14 at 8:09

The problem in cache invalidation is that stuff changes without us knowing about it. So, in some cases, a solution is possible if there is some other thing that does know about it and can notify us. In the given example, the getData function could hook into the file system, which does know about all changes to files, regardless of what process changes the file, and this component in turn could notify the component that transforms the data.

I don't think there is any general magic fix to make the problem go away. But in many practical cases there may very well be opportunities to transform a "polling"-based approach into an "interrupt"-based one, which can make the problem simply go away.

share|improve this answer

I'm working on an approach right now based on PostSharp and memoizing functions. I've run it past my mentor, and he agrees that it's a good implementation of caching in a content-agnostic way.

Every function can be marked with an attribute that specifies its expiry period. Each function marked in this way is memoized and the result is stored into the cache, with a hash of the function call and parameters used as the key. I'm using Velocity for the backend, which handles distribution of the cache data.

share|improve this answer

If you're going to getData() every time you do the transform, then you've eliminated the entire benefit of the cache.

For your example, it seems like a solution would be for when you generate the transformed data, to also store the filename and last modified time of the file the data was generated from (you already stored this in whatever data structure was returned by getData(), so you just copy that record into the data structure returned by transformData()) and then when you call transformData() again, check the last modified time of the file.

share|improve this answer

Is there a general solution or method to creating a cache, to know when an entry is stale, so you are guaranteed to always get fresh data?

No, because all data is different. Some data may be "stale" after a minute, some after an hour, and some may be fine for days or months.

Regarding your specific example, the simplest solution is to have a 'cache checking' function for files, which you call from both getData and transformData.

share|improve this answer

There is no general solution but:

  • You cache can act as a proxy (pull). Assume your cache knows the last origin change's timestamp, when someone call getData(), the cache ask the origin for it's last change's timestamp, if the same, it returns the cache, otherwise it updates its content with the source one and return its content. (A variation is the client to directly send the timestamp on the request, the source would only return content if its timestamp is different.)

  • You can still use a notification process (push), the cache observe the source, if the source changes, it sends a notification to the cache which is then flagged as "dirty". If someone calls getData() the cache will first get updated to the source, remove the "dirty" flag; then return its content.

The choice generally speaking depends on:

  • The frequency: many calls on getData() would prefer a push so to avoid the source to be flooded by a getTimestamp function
  • Your access to the source: Are you owning the source model ? If not, chances are you cannot add any notification process.

Note: As using the timestamp is the traditional way http proxies are working, another approach is sharing a hash of the content stored. The only way I know for 2 entities to get updated together are either I call you (pull) or you call me… (push) that's all.

share|improve this answer

Perhaps cache-oblivious algorithms would be the most general (Or at least, less hardware configuration dependent), since they'll use the fastest cache first and move on from there. Here's a MIT lecture on it: Cache Oblivious Algorithms

share|improve this answer
I think that he's not talking about hardware caches - he's talking about his getData() code having a feature that "caches" the data he got from a file into memory. – Alex319 Jul 27 '09 at 14:56

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.