RFR(S) 8214388 CDS dumping fails with java heap fragmentation

Fri Nov 30 21:04:13 UTC 2018

Hi Ioi,

- src/hotspot/share/gc/g1/g1Arguments.cpp

You missed FLAG_SET_ERGO(bool, ExplicitGCInvokesConcurrent, false);

- src/hotspot/share/gc/g1/g1CollectedHeap.cpp

- src/hotspot/share/gc/shared/adaptiveSizePolicy.cpp

Above files have no change.

- src/hotspot/share/gc/g1/g1HeapVerifier.cpp

  320     log_warning(gc, verify)("All free regions should be at the top 
end of the heap, but "
  321                             " we found holes. This is probably 
caused by (unmovable) humongous"
  322                             " allocations, and may lead to 
fragmentation while"
  323                             " writing archive heap memory regions.");

This warning is not very clear and can be false alarming. The hole in 
the middle of the heap causes heap fragmentation, but not necessarily in 
the archived regions. I'd leave the warning out and let the existing 
code in FileMapInfo::write_archive_heap_regions to detect archive 
fragmentation and report error.

- src/hotspot/share/gc/shared/gcCause.cpp

I'd suggest renaming _cds_dump to _archive_time_gc. The word 'archive' 
has been adapted to be used in GC code.

- src/hotspot/share/memory/filemap.cpp

I see no change for line 686?

- src/hotspot/share/memory/heapShared.cpp

Please revert the renaming for 
HeapShared::check_closed_archive_heap_region_object. 
HeapShared::check_closed_archive_heap_region_object_class is not 
correct. We check the objects in the graph, not the classes. It's better 
to use a separate bug and changeset for the bug fix in this function. So 
it's not mixed with the change for 8214388 for better back-tracking.

- src/hotspot/share/memory/metaspaceShared.cpp

The G1 specific code needs to be wrapped with #if INCLUDE_G1GC.

391           log_warning(cds)("[line %d] extra interned string ignored; 
size too large: %d",
392                            reader.last_line_no(), utf8_length);

You can use cds+heap for object archiving related logging.

- 1718     if (UseG1GC && HeapShared::is_heap_object_archiving_allowed()) {

As Stefan also pointed out, you don't need UseG1GC check here. 
HeapShared::is_heap_object_archiving_allowed already includes it.

G1HeapVerifier::verify_ready_for_archiving() is called into two places. 
One is in HeapShared::archive_java_heap_objects and the other one is in 
HeapShared::archive_java_heap_objects. The duplication should be 
eliminated. I also have the question for the need for 
G1HeapVerifier::verify_ready_for_archiving(). As there is already more 
efficient check in FileMapInfo::write_archive_heap_regions to detect 
fragmented archive regions, verify_ready_for_archiving does not add 
additional values. It's also a more expensive check.

Thanks,
Jiangli

On 11/30/18 11:02 AM, Ioi Lam wrote:
> Hi Stefan,
>
> Thanks for the review. Here's an updated patch:
>
> http://cr.openjdk.java.net/~iklam/jdk12/8214388-dumptime-fragmentation.v02/ 
>
> http://cr.openjdk.java.net/~iklam/jdk12/8214388-dumptime-fragmentation.v02-delta/ 
>
>
> Please see responses to your comments below.
>
> I also added code to handle humongous strings that can be
> allocated during dump time, and make sure they are GC'ed (and thus
> no humongous regions) before we starting dumping the heap.
>
> I'll add one more test to test the handling of humongous regions
> that exist while the heap is being dumped, but that will require
> a little hacking with JVMTI. I'll post that later :-)
>
>
> On 11/30/18 3:17 AM, Stefan Johansson wrote:
>> Hi Ioi,
>>
>> I mostly looked at the GC interaction, some comments below.
>>
>> On 2018-11-30 02:07, Ioi Lam wrote:
>>> http://cr.openjdk.java.net/~iklam/jdk12/8214388-dumptime-fragmentation.v01/ 
>>>
>> src/hotspot/share/gc/g1/g1CollectedHeap.cpp
>> -------------------------------------------
>>  325 #if INCLUDE_CDS
>>  326   if (DumpSharedSpaces && 
>> HeapShared::is_heap_object_archiving_allowed()) {
>>  327     // See G1HeapVerifier::verify_ready_for_archiving()
>>  328     // This should not happen during normal operation of 
>> -Xshare:dump, so let's give a warning.
>>  329     log_warning(gc)("Avoid allocating humongous objects during 
>> -Xshare:dump (" SIZE_FORMAT
>>  330                     " bytes) - may cause fragmentation",
>>  331                     word_size * HeapWordSize);
>>  332   }
>>  333 #endif
>>
>> I think this warning should be left out, you still have output in the 
>> verification that tells the user what is problematic.
>>
>
> Removed.
>
>> /src/hotspot/share/gc/g1/g1HeapVerifier.cpp
>> -------------------------------------------
>> What do you think about extending the verification with one more 
>> state, maybe _fatal_hole. When iterating the regions you can then 
>> look for holes not caused by humongous. If such holes are found log 
>> an error and fail.
>>
>> You can then turn the current log_error into a log_warning letting 
>> the user know there has been humongous allocations which can cause 
>> problems during dump time.
>>
>>  314   // turn on the following assert only if we disallow humongous 
>> allocations during
>>  315   // dump time.
>>  316   //assert(!cl.has_holes(), "must not have holes");
>>
>> I think you should remove these lines.
>>
>
> I modified the verification loop as you suggested, and changed the 
> assert to check that all holes must be caused by humongous regions.
>
>> src/hotspot/share/gc/shared/adaptiveSizePolicy.cpp
>> --------------------------------------------------
>>  184 #if INCLUDE_CDS
>>  185   if (DumpSharedSpaces && 
>> HeapShared::is_heap_object_archiving_allowed()) {
>>  186     // See G1HeapVerifier::verify_ready_for_archiving()
>>  187     return 1;
>>  188   }
>>  189 #endif
>>  190
>>
>> I think this decision should be moved to the g1 argument parsing. In 
>> G1Arguments::initialize() you can add this after the initial setting 
>> of ParallelGCThreads.
>>
>>   // When dumping the CDS archive we want to reduce fragmentation by
>>   // triggering a full collection. To get as low fragmentation as
>>   // possible we only use one worker thread.
>>   if (DumpSharedSpaces) {
>>     FLAG_SET_ERGO(uint, ParallelGCThreads, 1);
>>     FLAG_SET_ERGO(bool, ExplicitGCInvokesConcurrent, false);
>>   }
>>
>
> Done.
>
>> As you see I also include setting ExplicitGCInvokesConcurrent to 
>> false, because if that flag is set a full gc will be turned into a 
>> concurrent one.
>>
>> src/hotspot/share/memory/metaspaceShared.cpp
>> --------------------------------------------
>> 1706 #if INCLUDE_CDS_JAVA_HEAP
>> 1707     if (UseG1GC && 
>> HeapShared::is_heap_object_archiving_allowed()) {
>> 1708       // Avoid fragmentation while archiving heap objects.
>> 1709 
>> Universe::heap()->soft_ref_policy()->set_should_clear_all_soft_refs(true);
>> 1710 Universe::heap()->collect(GCCause::_java_lang_system_gc);
>> 1711 
>> Universe::heap()->soft_ref_policy()->set_should_clear_all_soft_refs(false);
>> 1712       G1HeapVerifier::verify_ready_for_archiving();
>> 1713     }
>> 1714 #endif
>>
>> Do you need the #if here, is_heap_object_archiving_allowed() only 
>> returns true when INCLUDE_CDS_JAVA_HEAP is true. Also the check for 
>> UseG1GC is also done within is_heap_object_archiving_allowed().
>>
>> Regarding triggering the GC, the calls to the soft_ref_policy is not 
>> needed unless you care about clearing soft references.
>
> I removed the #if. I kept the clearing of soft refs -- soft refs are 
> not archived, so clearing them would give more free space for archiving.
>
>> An even nicer solution would be to add a new GCCause that is only 
>> used for CDS dumping, that way you can also get a better message in 
>> the GC log than "System.gc()" and you can also skip the setting of 
>> ExplicitGCInvokesConcurrent that I mentioned above. Since the new 
>> GCCause won't be affected by that flag.
>>
>
> I added GCCause::_cds_dump and skipped the setting of 
> ExplicitGCInvokesConcurrent
>
> Thanks
> - Ioi
>
>> Thanks,
>> Stefan
>>
>>> https://bugs.openjdk.java.net/browse/JDK-8214388
>>>
>>>
>>> Symptom:
>>> ========
>>>
>>> "java -Xshare:dump" would intermittently fail with
>>>
>>>     Unable to write archive heap ... due to fragmentation.
>>>
>>> This usually happens when you try to dump many classes (e.g. 10000) 
>>> with
>>> a relatively small heap (e.g., 1g) with a lot of GC threads (e.g., 24).
>>>
>>> (Example use case -- Eclipse IDE loads 15,000 classes with 512MB heap.)
>>>
>>> When GC happens during class loading, some old G1 regions  may be 
>>> placed
>>> at the top end of the heap (due to large number of GC threads).
>>>
>>> Later, when writing the archived heap, G1 tries to allocate contiguous
>>> regions from the top end of the heap. This would fail due to the 
>>> presence
>>> of those old regions.
>>>
>>>
>>> Fix:
>>> ====
>>>
>>> As suggested by Stefan Johansson, we run a full GC with a single GC
>>> thread. This guarantees that all old blocks will be moved to the bottom
>>> end of the heap.
>>>
>>> Because there's no API for specifying the number of GC threads 
>>> dynamically,
>>> and CDS dump time doesn't allocates lots of objects, I have 
>>> statically forced
>>> the number of threads to 1 in 
>>> AdaptiveSizePolicy::calc_active_workers during
>>> CDS dump time.
>>>
>>> (This seems like a more direct way than assigning ParallelGCThreads 
>>> ...)
>>>
>>>
>>> Notes:
>>> ======
>>>
>>> 1. Humongous regions cannot move. However, currently we don't do 
>>> humongous
>>>     allocations during CDS dump, so we should be fine. I have added 
>>> diagnostics
>>>     warnings so if fragmentation does happen in the future, the user 
>>> can
>>>     find out why.
>>>
>>> 2. Fixed a minor bug in 
>>> HeapShared::check_closed_archive_heap_region_object_class
>>>
>>> 3. Fixed a bug in MetaspaceShared::read_extra_data, where the 
>>> symbol/strings
>>>     would be lost due to GC.
>>>
>>> 4. Added stress test to successfully archive about 18MB of objects 
>>> with -Xmx64m.
>>>     This used to fail even with -Xmx512m on a Solaris box.
>>>
>>> 5. With default CDS archive generation during JDK build time, 
>>> -Xmx128m is used.
>>>     Before this fix, the EDEN region lives at the top of the heap 
>>> during CDS dump
>>>     time, and we end up with a 2MB gap between the archive regions 
>>> and the top
>>>     of the heap. Because the archive regions cannot move, at run 
>>> time, using CDS
>>>     would reduce the max humongous allocation by 2MB.
>>>
>>>     With this fix, the archive regions are now placed at the very 
>>> top of the heap,
>>>     so the gap no longer exists.
>>>
>>>
>>> Tests:
>>> ======
>>>
>>> Running hs-tiers{1-6} for sanity.
>>>
>>> Thanks
>>> - Ioi
>>>
>>>
>