9

So far I know that:

  • Objects are allocated in the eden space and if they survive a minor collection they get promoted to one of the survivor spaces
  • For further minor collections objects' that survive minor collections are swaped between the two survivor spaces. During this objects' individual ages are increasing with each minor collection.
  • Objects that reach a specific tenuring threshold are getting promoted to the tenured space (old generation).
  • You can set InitialTenuringThreshold (as it says it is 'initial' and not 'min') and MaxTenuringThreshold (MaxValue: 15). Yet the JVM adjusts the actual tenuring threshold (I think every time after a major collection) in respect to the actually used survivor space and desired survivor space.
  • The desired space can be altered using the 'TargetSurvivorRatio' JVM parameter and is by default 50% of the max survivor space.

My Questions are:

  • In respect to what exactly does the jvm adjusts the actual tenurig threshold.
  • What happens with all the object age queues after the jvm changes the actual tenuring threshold. As for example:
    • timeStamp1: current actual tenuring which was set by the jvm is 15. There are objects distributed in each age.
    • timeStamp2: the jvm has adjusted the actual tenuring threshold to 5. What happens now with all objects with an age of n > 5 from timeStamp1?

Haven't found any documentation on this.

1

I'm very far from an expert on the JDK's codebase but I believe most of your answers will be around the classes I mention. I'm wild guessing from a cursory read, and very glad to hear corrections.

Question 1:

According to http://hg.openjdk.java.net/jdk8/jdk8/hotspot/file/87ee5ee27509/src/share/vm/gc_implementation/shared/ageTable.cpp L81 and next (compute_tenuring_threshold) the JVM will iterate through each age and add up the size of objects with that age. As soon as it exceeds the desired_survivor_size it'll stop and assume the last age it got to as the candidate new threshold. The chosen new threshold is min(candidateAge, MaxTenuringThreshold)

compute_tenuring_threshold is called in G1 from http://hg.openjdk.java.net/jdk8/jdk8/hotspot/file/87ee5ee27509/src/share/vm/gc_implementation/shared/g1CollectorPolicy.cpp which choses a _max_survivor_regions based on ceil(_young_list_target_length / SurvivorRatio), then calls the compute_.. method above.

The young_list_target_length is updated in g1CollectorPolicy.hpp as explained:

587   // Update the young list target length either by setting it to the
588   // desired fixed value or by calculating it using G1's pause
589   // prediction model. If no rs_lengths parameter is passed, predict
590   // the RS lengths using the prediction model, otherwise use the
591   // given rs_lengths as the prediction.
592   void update_young_list_target_length(size_t rs_lengths = (size_t) -1);

I didn't look into the model, but I guess this would answer your question: threshold changes are triggered after a lower number of ages is enough to keep the desired_survivor_size (which AFAIK is explained here http://www.oracle.com/technetwork/java/javase/tech/vmoptions-jsp-140102.html). The new threshold is chosen based on given / predicted RS lengths.

Question 2:

Check this in g1CollectorPolicy.cpp, right at the start of a new collection pause:

839   // We only need to do this here as the policy will only be applied
840   // to the GC we're about to start. so, no point is calculating this
841   // every time we calculate / recalculate the target young length.
842   update_survivors_policy();

I understand that the threshold will thus be updated before the GC runs. If that's the case, as live objects in survivor regions are visited, all objects that have object.age > newAge will be tenured (including those that had age < threshold at timestamp1 but now exceed it).

I hope that makes a bit of sense.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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