We have started having some serious problems with our Java EE application. Specifically, the application runs up to 99% of old generation heap within minutes after start up. No OOMs are thrown, but effectively the JVM is unresponsive. The jstat shows that old generation does not decrease in size at all, no garbage collection is going on, and kill -3 says:

 PSYoungGen      total 682688K, used 506415K [0xc1840000, 0xf3840000, 0xf3840000)
  eden space 546176K, 92% used [0xc1840000,0xe06cd020,0xe2da0000)
  from space 136512K, 0% used [0xe2da0000,0xe2da0000,0xeb2f0000)
  to   space 136512K, 0% used [0xeb2f0000,0xeb2f0000,0xf3840000)
 PSOldGen        total 1536000K, used 1535999K [0x63c40000, 0xc1840000, 0xc1840000)
  object space 1536000K, 99% used [0x63c40000,0xc183fff8,0xc1840000)

The VM options are :

-Xmx2300m -Xms2300m -XX:NewSize=800m -XX:MaxNewSize=800m -XX:SurvivorRatio=4 -XX:PermSize=256m -XX:MaxPermSize=256m -XX:+UseParallelGC -XX:ParallelGCThreads=4 

(I changed it from having 2300m heap/1800m new gen, as an attempt to resolve the problem)

I took a heap dump of the JVM once it got to "out of memory" state (took forever) and ran Eclipse Memory Analyzer on it.

The results are quite funny. About 200Mb is occupied by objects of all kinds (there are some that own more than others), but the rest, 1.9Gb are all unreachable (may be noteworthy to say that majority is occupied by GSON objects, but I don't think it's an indication of anything, only says that we churn through a lot of GSON objects during server operation).

Any explanation as to why the VM is having so many unreachable objects, and is uncapable of collecting them at all?


$ /0/bin/java -version
java version "1.6.0_37"
Java(TM) SE Runtime Environment (build 1.6.0_37-b06)
Java HotSpot(TM) Server VM (build 20.12-b01, mixed mode)

When the system gets to this stall, here is what verbose GC keep printing out:

922.485: [GC [1 CMS-initial-mark: 511999K(512000K)] 1952308K(2048000K), 3.9069700 secs] [Times: user=3.91 sys=0.00, real=3.91 secs] 
926.392: [CMS-concurrent-mark-start]
927.401: [Full GC 927.401: [CMS927.779: [CMS-concurrent-mark: 1.215/1.386 secs] [Times: user=5.84 sys=0.13, real=1.38 secs] (concurrent mode failure): 511999K->511999K(512000K), 9.4827600 secs] 2047999K->1957315K(2048000K), [CMS Perm : 115315K->115301K(262144K)], 9.4829860 secs] [Times: user=9.78 sys=0.01, real=9.49 secs] 
937.746: [Full GC 937.746: [CMS: 512000K->511999K(512000K), 8.8891390 secs] 2047999K->1962252K(2048000K), [CMS Perm : 115302K->115302K(262144K)], 8.8893810 secs] [Times: user=8.89 sys=0.01, real=8.89 secs] 


As Paul Bellora suggested, this was caused by too large amount of objects created within the JVM, in too short period of a time. Debugging becomes quite tedious at this point. What I ended up doing, is, instrumenting the classes using custom JVM agent. The instrumentation would count method and constructor invocations. The counts were then examined. I found that an inconspicuous single operation would create about 2 million objects, and trigger certain individual methods about 1.5 million times (no, there were no loops). The operation itself was identified by being slow comparing to others. You can use any hotspot profiler as well (something like visualVM), but I had all kinds of troubles with those, so ended up writing my own.

I still think the behavior of the JVM is a mystery. It looks like the garbage collector comes to a stall, and will not clean any more memory, yet the memory allocator expects it to (and thus no OOMs are thrown). Instead, I would have expected it to clear out all that unreachable memory. But the application behavior wouldn't be much better off, as majority of the time would have been spent garbage collecting anyway.

The agent that I used for help can be found here : https://github.com/veselov/MethodCountAgent. It's far away from being a polished piece of software.

  • What does the GC log show? How are the minor collections doing? Any FullGCs? Also, you can try to collect a few histograms?
    – Aleš
    Commented Jan 17, 2013 at 1:31
  • 1
    The GC log will show you what is the promotion rate and live data set size, then you will see if there is a memory leak or if you need to change sizes of your Generations. SEe here on howto analyze GC issues : stackoverflow.com/q/6871213/772000
    – Aleš
    Commented Jan 17, 2013 at 1:56
  • 3
    This reminds me of an issue my team had to solve some time ago. We analyzed heap dumps but found no traditional memory leak. The only clue was that the vast majority of objects were unreachable. The culprit turned out to be twitter4j - paginated calls to the twitter API continued to return the same page of data, indefinitely spamming new json objects. I wonder if something similar could be happening here. Commented Jan 17, 2013 at 2:29
  • 1
    @KyleM I have not been blaming the VM, at least I didn't notice that I was. I'm trying to figure out where to even start digging. Commented Jan 17, 2013 at 23:08
  • 1
    @SachinSharma I've published the agent (mind you, haven't used it since then), and added the link to the question text above. Commented Dec 24, 2019 at 23:47

2 Answers 2


Any explanation as to why the VM is having so many unreachable objects, and is uncapable of collecting them at all?

(Based on our exchange in the comments) it sounds like this is not a traditional memory leak but some piece of logic that is continuously spamming new objects such that the GC struggles to keep up under the current architecture.

The culprit could be for example some API request that is being made many, many times, or else is "stuck" in some erroneous state like the infinite pagination scenario I described. What either situation boils down to is millions of response gson objects (which point to Strings (which point to char[]s)) being instantiated and then becoming eligible for GC.

As I said you should try and isolate problem request(s), then debug and take measurements to decide whether this is a bug or scalability issue on the part of your application or one of its libraries.

  • i would like to see some of the source code, especially loops
    – TecHunter
    Commented Jan 17, 2013 at 5:55
  • In my case, a set of APIs are getting called many many times and I am getting OOM error after some time. Upon debugging heap dump using MAT, it seems it is due to com.fasterxml.jackson.databind.deser.Deserializers[] as its objects occupy most of the Shallow heap. Any idea what could be done here to resolve this (besides reducing the traffic / increasing the server) ? Is there a way we can make sure that such objects are deleted from memory so that such issue does not occur ?
    – user
    Commented Nov 4, 2020 at 18:47
  • @user I think the best way to get help with that specific issue will be to open a new question Commented Nov 5, 2020 at 20:00

Based on your stats listed, I find it hard to believe you have 1.9G of unreachable data. It looks more like a GC Overhead Limit Reached.


937.746: [Full GC 937.746: [CMS: 512000K->511999K(512000K), 8.8891390 secs] 2047999K->1962252K(2048000K), [CMS Perm : 115302K->115302K(262144K)], 8.8893810 secs] [Times: user=8.89 sys=0.01, real=8.89 secs]

If this is true, then a Full GC releases 85K of data. If you did have 1.9G of unreachable code, you would see 2047999 -> ~300000.


object space 1536000K, 99% 

Implies something was created and stored to in such a way it escaped a method and is now living probably forever.

I would need to see more evidence that you have 1.9G of unreachable data other then simply being told.

  • 4
    I have a 2.5Gb heap dump file that says so :) Is there any analysis that I can do on that heap dump that would be reasonable? I'm as puzzled about this, but MAT says exactly that - 1.9Gb unreachable objects, and GC says what it's saying... Commented Jan 17, 2013 at 20:31
  • I do believe you have you have 2.5G heap dump, but based on the two GC logs then at that moment everything was reachable. Do you GC Overhead Limit reached in your output? When you load the heap dump through eclipse (default parsing) what numbers are shown to you at first? (Maybe a screen shot may help).
    – John Vint
    Commented Jan 17, 2013 at 22:33
  • I added the screen shots (I hope these the ones that you meant). I don't see "Overhead Limit reached" in the GC output. Commented Jan 17, 2013 at 22:45
  • And at no point it resolves itself? As you have already said everything looks fine. The heap was taken while it still had a 2G Old Gen space filled?
    – John Vint
    Commented Jan 17, 2013 at 23:13
  • The heap dump was taken when the VM was at that stall, with OldGen filled up. I did not ever see it resolve itself, but we never had a chance to wait until the load down enough to test so. The heap dumping itself took good 15 minutes, and had to be done with jmap -F. Commented Jan 17, 2013 at 23:17

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