We have a fairly big application running on a JBoss 7 application server. In the past, we were using ParallelGC but it was giving us trouble in some servers where the heap was large (5 GB or more) and usually nearly filled up, we would get very long GC pauses frequently.

Recently, we made improvements to our application's memory usage and in a few cases added more RAM to some of the servers where the application runs, but we also started switching to G1 in the hopes of making these pauses less frequent and/or shorter. Things seem to have improved but we are seeing a strange behaviour which did not happen before (with ParallelGC): the Perm Gen seems to fill up pretty quickly and once it reaches the max value a Full GC is triggered, which usually causes a long pause in the application threads (in some cases, over 1 minute).

We have been using 512 MB of max perm size for a few months and during our analysis the perm size would usually stop growing at around 390 MB with ParallelGC. After we switched to G1, however, the behaviour above started happening. I tried increasing the max perm size to 1 GB and even 1,5 GB, but still the Full GCs are happening (they are just less frequent).

In this link you can see some screenshots of the profiling tool we are using (YourKit Java Profiler). Notice how when the Full GC is triggered the Eden and the Old Gen have a lot of free space, but the Perm size is at the maximum. The Perm size and the number of loaded classes decrease drastically after the Full GC, but they start rising again and the cycle is repeated. The code cache is fine, never rises above 38 MB (it's 35 MB in this case).

Here is a segment of the GC log:

2013-11-28T11:15:57.774-0300: 64445.415: [Full GC 2126M->670M(5120M), 23.6325510 secs] [Eden: 4096.0K(234.0M)->0.0B(256.0M) Survivors: 22.0M->0.0B Heap: 2126.1M(5120.0M)->670.6M(5120.0M)] [Times: user=10.16 sys=0.59, real=23.64 secs]

You can see the full log here (from the moment we started up the server, up to a few minutes after the full GC).

Here's some environment info:

java version "1.7.0_45"

Java(TM) SE Runtime Environment (build 1.7.0_45-b18)

Java HotSpot(TM) 64-Bit Server VM (build 24.45-b08, mixed mode)

Startup options: -Xms5g -Xmx5g -Xss256k -XX:PermSize=1500M -XX:MaxPermSize=1500M -XX:+UseG1GC -XX:+PrintGCDetails -XX:+PrintGCDateStamps -XX:+PrintGCTimeStamps -XX:+PrintAdaptiveSizePolicy -Xloggc:gc.log

So here are my questions:

  • Is this the expected behaviour with G1? I found another post on the web of someone questioning something very similar and saying that G1 should perform incremental collections on the Perm Gen, but there was no answer...

  • Is there something I can improve/corrrect in our startup parameters? The server has 8 GB of RAM, but it doesn't seem we are lacking hardware, performance of the application is fine until a full GC is triggered, that's when users experience big lags and start complaining.

  • Here's the link of someone else asking for help on a very similar issue: mail.openjdk.java.net/pipermail/hotspot-gc-use/2013-October/… – Jose Otavio Nov 28 '13 at 20:35
  • I would try adding -verbose:gc to see more detail, also I might consider trying Chronon DVR. – Elliott Frisch Nov 28 '13 at 20:36
  • I'll add that option and leave the server running for a while with it to see if I get more information, but it's very clear to me what is causing the full GCs to run, I just don't understand if this is the correct behaviour of G1... – Jose Otavio Nov 28 '13 at 20:38
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    very interresting blog post: mechanical-sympathy.blogspot.nl/2013/07/…, too long in total but the last paragraph sums it nicely: "If latency spikes are due to GC then invest in tuning CMS or G1 to see if your latency targets can be meet. Sometimes this may not be possible because of high allocation and promotion rates combined with low-latency requirements. GC tuning can become a highly skilled exercise that often requires application changes to reduce object allocation rates or object lifetimes." – smeaggie Dec 3 '13 at 20:54
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    Joshua Wilson's post captures some nice things about the G1GC vs CMS, but the anwser to the question about why this happens may be in an older email conversation, the interesting part actually starting here: mail.openjdk.java.net/pipermail/hotspot-gc-use/2010-July/…. They discuss the possibility certain regions may never be collected, and as such forcing full GC's. There are some very interesting pointers throughout the whole discussion, but unfortunatly I couldn't find a definitive answer there. Maybe you find some pointers based on your experience with your own code. – smeaggie Dec 6 '13 at 9:01

Causes of growing Perm Gen

  • Lots of classes, especially JSPs.
  • Lots of static variables.
  • There is a classloader leak.

For those that don't know, here is a simple way to think about how the PremGen fills up. The Young Gen doesn't get enough time to let things expire and so they get moved up to Old Gen space. The Perm Gen holds the classes for the objects in the Young and Old Gen. When the objects in the Young or Old Gen get collected and the class is no longer being referenced then it gets 'unloaded' from the Perm Gen. If the Young and Old Gen don't get GC'd then neither does the Perm Gen and once it fills up it needs a Full stop-the-world GC. For more info see Presenting the Permanent Generation.

Switching to CMS

I know you are using G1 but if you do switch to the Concurrent Mark Sweep (CMS) low pause collector -XX:+UseConcMarkSweepGC, try enabling class unloading and permanent generation collections by adding -XX:+CMSClassUnloadingEnabled.

The Hidden Gotcha'

If you are using JBoss, RMI/DGC has the gcInterval set to 1 min. The RMI subsystem forces a full garbage collection once per minute. This in turn forces promotion instead of letting it get collected in the Young Generation.

You should change this to at least 1 hr if not 24 hrs, in order for the the GC to do proper collections.

-Dsun.rmi.dgc.client.gcInterval=3600000 -Dsun.rmi.dgc.server.gcInterval=3600000

List of every JVM option

To see all the options, run this from the cmd line.

java -XX:+UnlockDiagnosticVMOptions -XX:+PrintFlagsFinal -version

If you want to see what JBoss is using then you need to add the following to your standalone.xml. You will get a list of every JVM option and what it is set to. NOTE: it must be in the JVM that you want to look at to use it. If you run it external you won't see what is happening in the JVM that JBoss is running on.

set "JAVA_OPTS= -XX:+UnlockDiagnosticVMOptions -XX:+PrintFlagsFinal %JAVA_OPTS%"

There is a shortcut to use when we are only interested in the modified flags.



Use jmap to determine what classes are consuming permanent generation space. Output will show

  • class loader
  • # of classes
  • bytes
  • parent loader
  • alive/dead
  • type
  • totals

    jmap -permstat JBOSS_PID  >& permstat.out

JVM Options

These settings worked for me but depending how your system is set up and what your application is doing will determine if they are right for you.

  • -XX:SurvivorRatio=8 – Sets survivor space ratio to 1:8, resulting in larger survivor spaces (the smaller the ratio, the larger the space). The SurvivorRatio is the size of the Eden space compared to one survivor space. Larger survivor spaces allow short lived objects a longer time period to die in the young generation.

  • -XX:TargetSurvivorRatio=90 – Allows 90% of the survivor spaces to be occupied instead of the default 50%, allowing better utilization of the survivor space memory.

  • -XX:MaxTenuringThreshold=31 – To prevent premature promotion from the young to the old generation . Allows short lived objects a longer time period to die in the young generation (and hence, avoid promotion). A consequence of this setting is that minor GC times can increase due to additional objects to copy. This value and survivor space sizes may need to be adjusted so as to balance overheads of copying between survivor spaces versus tenuring objects that are going to live for a long time. The default settings for CMS are SurvivorRatio=1024 and MaxTenuringThreshold=0 which cause all survivors of a scavenge to be promoted. This can place a lot of pressure on the single concurrent thread collecting the tenured generation. Note: when used with -XX:+UseBiasedLocking, this setting should be 15.

  • -XX:NewSize=768m – allow specification of the initial young generation sizes

  • -XX:MaxNewSize=768m – allow specification of the maximum young generation sizes

Here is a more extensive JVM options list.

  • We do use the RMI GC Interval setting, I even tried removing it but it makes no difference. The FullGCs are clearly being triggered when the Perm Gen fills up. That being said, I'm not sure changing the Eden size or the tenuring threshold will help, in the GC log I see no promotion failures (or "to-space overflow") at all, the Old Gen is not even half full when the Full GC is triggered. I'll keep experimenting with different parameters, but I think this behaviour with G1 is very weird. It might be a problem with our application, but ParallelGC didn't have this problem (but had other problems) – Jose Otavio Dec 4 '13 at 11:47
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    We actually did try G1 but then went back to UseConcMarkSweepGC and made these changes. To be clear these aren't random JVM settings, these are what we used. The NOTE at the bottom is meant to make it clear that you use 1 option or the other, not both, because they do the same thing. Also, the problem we had was not promotion failure but the fact that promotions were happening to often. That was pushing things into the Perm space when they shouldn't have ever gotten there. – Joshua Wilson Dec 6 '13 at 1:58
  • I updated the post, please let me know if this helps or if you have more questions. cc @ElliottFrisch – Joshua Wilson Dec 6 '13 at 2:56
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    The additional information you provided helps. After much reading here and in other places, it really seems we were looking at the issue from the wrong angle: G1 was not the cause of the problem, it only helped expose it. We'll first tackle the problem of having so many classes being loaded (one of the causes being the fact that our application has many calls to remote EJBs which don't need to be remote at all), and at the same time experiment with different collectors and different parameters to see what works best. – Jose Otavio Dec 6 '13 at 13:28
  • I'll try the configuration you suggested, since the profiling tool we are using (which is very good, BTW) shows what you mentioned: promotions are happening too often and sometimes prematurely, which makes the Old Gen and Perm Gen fill up quicker, which results in more full GCs. – Jose Otavio Dec 6 '13 at 13:30

Is this the expected behaviour with G1?

I don't find it surprising. The base assumption is that stuff put into permgen almost never becomes garbage. So you'd expect that permgen GC would be a "last resort"; i.e. something the JVM would only do if its was forced into a full GC. (OK, this argument is nowhere near a proof ... but its consistent with the following.)

I've seen lots of evidence that other collectors have the same behaviour; e.g.

I found another post on the web of someone questioning something very similar and saying that G1 should perform incremental collections on the Perm Gen, but there was no answer...

I think I found the same post. But someone's opinion that it ought to be possible is not really instructive.

Is there something I can improve/corrrect in our startup parameters?

I doubt it. My understanding is that this is inherent in the permgen GC strategy.

I suggest that you either track down and fix what is using so much permgen in the first place ... or switch to Java 8 in which there isn't a permgen heap anymore: see PermGen elimination in JDK 8

While a permgen leak is one possible explanation, there are others; e.g.

  • overuse of String.intern(),
  • application code that is doing a lot of dynamic class generation; e.g. using DynamicProxy,
  • a huge codebase ... though that wouldn't cause permgen churn as you seem to be observing.
  • Thanks for the info. This is really the way we are thinking of going on right now: find out what is making so many classes get loaded, then tuning our GC configuration. As I said in another comment, G1 is definetely not the cause of the problem, but it helped expose it. – Jose Otavio Dec 6 '13 at 13:32

I would first try to find the root cause for the PermGen getting larger before randomly trying JVM options.

  • You could enable classloading logging (-verbose:class, -XX:+TraceClassLoading -XX:+TraceClassUnloading, ...) and chek out the output
  • In your test environment, you could try monitoring (over JMX) when classes get loaded (java.lang:type=ClassLoading LoadedClassCount). This might help you find out which part of your application is responsible.
  • You could also try listing all the classes using the JVM tools (sorry but I still mostly use jrockit and there you would do it with jrcmd. Hope Oracle have migrated those helpful features to Hotspot...)

In summary, find out what generates so many classes and then think how to reduce that / tune the gc.

Cheers, Dimo

  • I think you're right, maybe it's our best alternative right now. I'm beginning to think that maybe this didn't happen with ParallelGC before because the major collections were more frequent, which prevented the Perm Gen to grow too much. – Jose Otavio Dec 4 '13 at 12:55
  • We were looking at the problem from the wrong angle, as G1 was not the cause, it only helped expose it. We are investigating the problem and already found that one of the main causes is the fact that our application has a lot of remote EJBs being called, so we are tackling that first. At the same time, we'll just have to experiment with different GC configurations until we find what works best for us. – Jose Otavio Dec 6 '13 at 13:49

I agree with the answer above in that you should really try to find what is actually filling your permgen, and I'd heavily suspect it's about some classloader leak that you want to find a root cause for.

There's this thread in the JBoss forums that goes through couple of such diagnozed cases and how they were fixed. this answer and this article discusses the issue in general as well. In that article there's a mention of possibly the easiest test you can do:


This will happen only if you redeploy your application without restarting the application server. The JBoss 4.0.x series suffered from just such a classloader leak. As a result I could not redeploy our application more than twice before the JVM would run out of PermGen memory and crash.


To identify such a leak, un-deploy your application and then trigger a full heap dump (make sure to trigger a GC before that). Then check if you can find any of your application objects in the dump. If so, follow their references to their root, and you will find the cause of your classloader leak. In the case of JBoss 4.0 the only solution was to restart for every redeploy.

This is what I'd try first, IF you think that redeployment might be related. This blog post is an earlier one, doing the same thing but discussing the details as well. Based on the posting it might be though that you're not actually redeploying anything, but permgen is just filling up by itself. In that case, examination of classes + anything else added to permgen might be the way (as has been already mentioned in previous answer).

If that doesn't give more insight, my next step would be trying out plumbr tool. They have a sort of guarantee on finding the leak for you, as well.

  • We don't usually redeploy our application without restarting JBoss, I really think now that the fact that the Perm Gen is getting filled up so quickly is because of how our application is implemented, G1 actually only helped to expose this problem to us. – Jose Otavio Dec 6 '13 at 13:34

You should be starting your server.bat with java command with -verbose:gc

  • I already added that to our configuration, but it didn't really help... – Jose Otavio Dec 4 '13 at 11:51
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    You dont need -verbose:gc if you use -Xloggc and -XX:+PrintGCDetails (it is a legacy synonym). – eckes Jan 3 '14 at 22:27

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