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I've got a Guava Cache (or rather, I am migrating from MapMaker to Cache) and the values represent long-running jobs. I'd like to add expireAfterAccess behavior to the cache, as it's the best way to clean it up; however, the job may still be running even though it hasn't been accessed via the cache in some time, and in that case I need to prevent it from being removed from the cache. I have three questions:

  1. Is it safe to reinsert the cache entry that's being removed during the RemovalListener callback?

  2. If so, is it threadsafe, such that there's no possible way the CacheLoader could produce a second value for that key while the RemovalListener callback is still happening in another thread?

  3. Is there a better way to achieve what I want? This isn't strictly/only a "cache" - it's critical that one and only one value is used for each key - but I also want to cache the entry for some time after the job it represents is complete. I was using MapMaker before and the behaviors I need are now deprecated in that class. Regularly pinging the map while the jobs are running is inelegant, and in my case, infeasible. Perhaps the right solution is to have two maps, one without eviction, and one with, and migrate them across as they complete.

I'll make a feature request too - this would solve the problem: allow individual entries to be locked to prevent eviction (and then subsequently unlocked).

[Edit to add some details]: The keys in this map refer to data files. The values are either a running write job, a completed write job, or - if no job is running - a read-only, produced-on-lookup object with information read from the file. It's important that there is exactly zero or one entry for each file. I could use separate maps for the two things, but there would have to be coordination on a per-key basis to make sure only one or the other is in existence at one time. Using a single map makes it simpler, in terms of getting the concurrency correct.

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I've got to admit that I'm leaning towards the two-map solution, except I'd use one map and one cache. Use the map for jobs still in progress, and perhaps use the cache's RemovalListener remove entries from the map? –  Louis Wasserman Jan 6 '12 at 21:01
Interesting idea @Louis. I 've been dubious about the two map solution because I don't want to have to look things up in two different maps, and deal with concurrency issues around that. If I have a Cache containing only completed jobs, I could instead use expireAfterWrite so I could keep them around for a little while, and the RemovalListener would remove them from the main map. And nothing would use that Cache. Though with that approach, there's really no point in using a Cache at all; all I really need is to schedule removal with a ScheduledThreadExecutor. –  David Noha Jan 6 '12 at 21:10
On second thought, I can't do that, because this cache actually is a cache - the majority of entries are not executing jobs, but simply read-only references that need to get expired after some time period. What I really need is the ability to lock some of them - my original question about reinsertion via RemovalListener is just a way of implementing that locking. –  David Noha Jan 6 '12 at 21:17
I'm really unclear under what conditions you'd be locking something and under which you shouldn't. –  Louis Wasserman Jan 7 '12 at 0:41
If the mapping represents running jobs on the local server, which may live in another thread, then would weak references provide the automatic clean-up that you require? There's not enough information to advise on the best strategy, imho. –  Ben Manes Jan 7 '12 at 4:38

3 Answers 3

up vote 1 down vote accepted

I am not completely clear on the exact problem but another solution would be to have a Cache with softValues() instead of a maximum size or expiry time. Every time you access the cache value (in your example, start the computation), you should maintain state somewhere else with a strong reference to this value. This will prevent the value from being GCed. Whenever the use of this value drops to zero (in your example, the computation ends and its OK for the value to go away), you could remove all strong references. For example, you could use the AtomicLongMap with the Cache value as the AtomicLongMap key and periodically call removeAllZeros() on the map.

Note that, as the Javadoc states, the use of softValues() does come with tradeoffs.

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That would work and is probably more elegant than what I did, since it doesn't involve timer threads, and also soft references are better for actual caches. I ended up using a secondary map with time-based expiration, and then deciding in the removal listener for that map whether to evict from the primary map or, if not, to reinsert into the secondary. Both solutions require a second collection, but are otherwise simple. –  David Noha Jan 19 '12 at 1:19

I looked at the Guava code and found that CustomConcurrentHashMap (which CacheBuilder uses as an underlying implementation) adds removal notifications to an internal queue and processes them later. Therefore, reinserting the entry into the map from the removal callback is technically "safe", but opens a window during which the entry is not in the map, and therefore an alternate entry could be produced by another thread via the CacheLoader.

I solved this problem using a suggestion from @Louis in his comment above. The primary map has no expiration at all, but each time I look something up in that map, I also add an entry to a secondary Cache that does have expireAfterAccess. In the removal listener for that secondary cache, I make some decisions about whether to remove the entry from the primary map. Nothing else uses the secondary cache. This seems to be an elegant solution for conditional eviction, and it's working. (I'm really still using the Guava r09 MapMaker for this solution, but it should work equally well for Guava 11.)

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It occurred to me yesterday as I upgraded to Guava 11 that there is a way to lock entries into the cache: use maximumWeight as the sole removal method, and have your Weigher return a 0 weight for entries that should stay locked into the cache. I haven't verified this by testing, but the documentation for CacheBuilder.weigher() states,

"When the weight of an entry is zero it will not be considered for size-based eviction (though it still may be evicted by other means)."

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