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gdou_wzy:
在我的windowsXP上也出现了。
研究发现与搜狗输入法貌 ...
谁能告诉我JVM什么情况下崩溃会不产生hs_err_pid.log? -
ald:
???????
JetBrains IntelliJ IDEA 8.0 序列号 注册机 keygen -
huangyuanmu:
thx,终于找到了
JDK5 下载 -
fantasybei:
thx
JetBrains IntelliJ IDEA 8.0 序列号 注册机 keygen
http://blogs.sun.com/poonam/entry/understanding_cms_gc_logs
Understanding CMS GC Logs
CMS GC with -XX:+PrintGCDetails and -XX:+PrintGCTimeStamps prints a lot of information. Understanding this information can help in fine tuning various parameters of the application and CMS to achieve best performance.
Let's have a look at some of the CMS logs generated with 1.4.2_10:
39.910: [GC 39.910: [ParNew: 261760K->0K(261952K), 0.2314667 secs] 262017K->26386K(1048384K), 0.2318679 secs]
Young generation (ParNew) collection. Young generation capacity is 261952K and after the collection its occupancy drops down from 261760K to 0. This collection took 0.2318679 secs.
40.146: [GC [1 CMS-initial-mark: 26386K(786432K)] 26404K(1048384K), 0.0074495 secs]
Beginning of tenured generation collection with CMS collector. This is initial Marking phase of CMS where all the objects directly reachable from roots are marked and this is done with all the mutator threads stopped.
Capacity of tenured generation space is 786432K and CMS was triggered at the occupancy of 26386K.
40.154: [CMS-concurrent-mark-start]
Start of concurrent marking phase.
In Concurrent Marking phase, threads stopped in the first phase are
started again and all the objects transitively reachable from the
objects marked in first phase are marked here.
40.683: [CMS-concurrent-mark: 0.521/0.529 secs]
Concurrent marking took total 0.521 seconds cpu time and 0.529 seconds wall time that includes the yield to other threads also.
40.683: [CMS-concurrent-preclean-start]
Start of precleaning.
Precleaning is also a concurrent phase. Here in this phase we look at
the objects in CMS heap which got updated by promotions from young
generation or new allocations or got updated by mutators while we were
doing the concurrent marking in the previous concurrent marking phase.
By rescanning those objects concurrently, the precleaning phase helps
reduce the work in the next stop-the-world “remark” phase.
40.701: [CMS-concurrent-preclean: 0.017/0.018 secs]
Concurrent precleaning took 0.017 secs total cpu time and 0.018 wall time.
40.704: [GC40.704: [Rescan (parallel) , 0.1790103 secs]40.883: [weak refs processing, 0.0100966 secs] [1 CMS-remark: 26386K(786432K)] 52644K(1048384K), 0.1897792 secs]
Stop-the-world phase. This phase rescans any residual updated objects in CMS heap, retraces from the roots and also processes Reference objects. Here the rescanning work took 0.1790103 secs and weak reference objects processing took 0.0100966 secs. This phase took total 0.1897792 secs to complete.
40.894: [CMS-concurrent-sweep-start]
Start of sweeping of dead/non-marked objects. Sweeping is concurrent phase performed with all other threads running.
41.020: [CMS-concurrent-sweep: 0.126/0.126 secs]
Sweeping took 0.126 secs.
41.020: [CMS-concurrent-reset-start]
Start of reset.
41.147: [CMS-concurrent-reset: 0.127/0.127 secs]
In this phase, the CMS data structures are reinitialized so that a new cycle may begin at a later time. In this case, it took 0.127 secs.
This was how a normal CMS cycle runs. Now let us look at some other CMS log entries:
197.976: [GC 197.976: [ParNew: 260872K->260872K(261952K),
0.0000688 secs]197.976: [CMS197.981: [CMS-concurrent-sweep: 0.516/0.531
secs]
(concurrent mode failure): 402978K->248977K(786432K), 2.3728734 secs] 663850K->248977K(1048384K), 2.3733725 secs]
This shows that a ParNew collection was requested, but it was not attempted because it was estimated that there was not enough space in the CMS generation to promote the worst case surviving young generation objects. We name this failure as “full promotion guarantee failure”.
Due to this, Concurrent Mode of CMS is interrupted and a Full GC is invoked at 197.981. This mark-sweep-compact stop-the-world Full GC took 2.3733725 secs and the CMS generation space occupancy dropped from 402978K to 248977K.
The concurrent mode failure can either be avoided by increasing the tenured generation size or initiating the CMS collection at a lesser heap occupancy by setting CMSInitiatingOccupancyFraction to a lower value and setting UseCMSInitiatingOccupancyOnly to true. The value for CMSInitiatingOccupancyFraction should be chosen appropriately because setting it to a very low value will result in too frequent CMS collections.
Sometimes we see these promotion failures even when the logs show
that there is enough free space in tenured generation. The reason is
'fragmentation' - the free space available in tenured generation is not
contiguous, and promotions from young generation require a contiguous
free block to be available in tenured generation. CMS collector is a
non-compacting collector, so can cause fragmentation of space for some
type of applications. In his blog, Jon talks in detail on how to deal
with this fragmentation problem:
http://blogs.sun.com/roller/page/jonthecollector?entry=when_the_sum_of_the
Starting with 1.5, for the CMS collector, the promotion guarantee check is done differently. Instead of assuming that the promotions would be worst case i.e. all of the surviving young generation objects would get promoted into old gen, the expected promotion is estimated based on recent history of promotions. This estimation is usually much smaller than the worst case promotion and hence requires less free space to be available in old generation. And if the promotion in a scavenge attempt fails, then the young generation is left in a consistent state and a stop-the-world mark-compact collection is invoked. To get the same functionality with UseSerialGC you need to explicitly specify the switch -XX:+HandlePromotionFailure.
283.736: [Full GC 283.736: [ParNew: 261599K->261599K(261952K), 0.0000615 secs] 826554K->826554K(1048384K), 0.0003259 secs]
GC locker: Trying a full collection because scavenge failed
283.736: [Full GC 283.736: [ParNew: 261599K->261599K(261952K), 0.0000288 secs]
Stop-the-world GC happening when a JNI Critical section is released. Here again the young generation collection failed due to “full promotion guarantee failure” and then the Full GC is being invoked.
CMS can also be run in incremental mode (i-cms), enabled with -XX:+CMSIncrementalMode. In this mode, CMS collector does not hold the processor for the entire long concurrent phases but periodically stops them and yields the processor back to other threads in application. It divides the work to be done in concurrent phases in small chunks(called duty cycle) and schedules them between minor collections. This is very useful for applications that need low pause times and are run on machines with small number of processors.
Some logs showing the incremental CMS.
2803.125: [GC 2803.125: [ParNew: 408832K->0K(409216K),
0.5371950 secs] 611130K->206985K(1048192K) icms_dc=4 , 0.5373720
secs]
2824.209: [GC 2824.209: [ParNew: 408832K->0K(409216K), 0.6755540
secs] 615806K->211897K(1048192K) icms_dc=4 , 0.6757740 secs]
Here, the scavenges took respectively 537 ms and 675 ms. In between these two scavenges, iCMS ran for a brief period as indicated by the icms_dc value, which indicates a duty-cycle. In this case the duty cycle was 4%. A simple calculation shows that the iCMS incremental step lasted for 4/100 * (2824.209 - 2803.125 - 0.537) = 821 ms, i.e. 4% of the time between the two scavenges.
Starting with 1.5, CMS has one more phase – concurrent abortable preclean. Abortable preclean is run between a 'concurrent preclean' and 'remark' until we have the desired occupancy in eden. This phase is added to help schedule the 'remark' phase so as to avoid back-to-back pauses for a scavenge closely followed by a CMS remark pause. In order to maximally separate a scavenge from a CMS remark pause, we attempt to schedule the CMS remark pause roughly mid-way between scavenges.
There is a second reason why we do this. Immediately following a scavenge there are likely a large number of grey objects that need rescanning. The abortable preclean phase tries to deal with such newly grey objects thus reducing a subsequent CMS remark pause.
The scheduling of 'remark' phase can be controlled by two jvm options CMSScheduleRemarkEdenSizeThreshold and CMSScheduleRemarkEdenPenetration. The defaults for these are 2m and 50% respectively. The first parameter determines the Eden size below which no attempt is made to schedule the CMS remark pause because the pay off is expected to be minuscule. The second parameter indicates the Eden occupancy at which a CMS remark is attempted.
After 'concurrent preclean' if the Eden occupancy is above CMSScheduleRemarkEdenSizeThreshold, we start 'concurrent abortable preclean' and continue precleanig until we have CMSScheduleRemarkEdenPenetration percentage occupancy in eden, otherwise we schedule 'remark' phase immediately.
7688.150: [CMS-concurrent-preclean-start]
7688.186: [CMS-concurrent-preclean: 0.034/0.035 secs]
7688.186: [CMS-concurrent-abortable-preclean-start]
7688.465: [GC 7688.465: [ParNew: 1040940K->1464K(1044544K), 0.0165840 secs] 1343593K->304365K(2093120K), 0.0167509 secs]
7690.093: [CMS-concurrent-abortable-preclean: 1.012/1.907 secs]
7690.095: [GC[YG occupancy: 522484 K (1044544 K)]7690.095: [Rescan
(parallel) , 0.3665541 secs]7690.462: [weak refs processing, 0.0003850
secs] [1 CMS-remark: 302901K(1048576K)] 825385K(2093120K), 0.3670690
secs]
In the above log, after a preclean, 'abortable preclean' starts. After the young generation collection, the young gen occupancy drops down from 1040940K to 1464K. When young gen occupancy reaches 522484K which is 50% of the total capacity, precleaning is aborted and 'remark' phase is started.
Note that in 1.5, young generation occupancy also gets printed in the final remark phase.
For more detailed information and tips on GC tuning, please refer to the following documents:
http://java.sun.com/docs/hotspot/gc5.0/gc_tuning_5.html
http://java.sun.com/docs/hotspot/gc1.4.2/
发表评论
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谁能告诉我JVM什么情况下崩溃会不产生hs_err_pid.log?
2009-12-28 09:51 2326自己的服务已经出现过两次这种情况了,linux下的jvm进程悄 ... -
JProfiler 5.1 LicenseKey
2009-12-01 15:44 1845From http://serendipityspaces ... -
The most complete list of -XX options for Java 6 JVM
2009-11-19 11:43 1734http://www.cnblogs.com/totti198 ... -
Thread Management
2009-11-11 10:00 854From http://jikesrvm.org/Thread ... -
Tips About JDK5.0' Tool
2009-11-09 14:19 1287http://www.javaperformancetunin ... -
Quick Troubleshooting Tips on Solaris OS and Linux for Java SE 6
2009-11-09 13:46 1020From http://java.sun.com/jav ... -
JDK5 下载
2009-10-21 09:14 1929Sun上下个JDK5还得注册,真是啰嗦,从这个地址进入不用再注 ... -
Java Debian Tuning
2009-08-26 09:35 954From JavaDebianTuning Debia ... -
Java Optimize Reference
2009-08-26 09:33 711Java SE 6 HotSpot[tm] Virt ... -
Out Of Memory Errors Refernece
2009-08-26 09:28 1573From: confluence OutOfMemory ... -
idea resource
2009-07-15 19:49 727------------------------------- ... -
Process multimedia with the JMF API
2008-05-10 19:56 3040REF: http://www.builderau.com.a ...
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