- 1 About
- 2 Getting Started
- 3 Concepts
- 4 Tasks
- 4.1 Getting a Heap Dump
- 4.1.1 HPROF dumps from Sun Virtual Machines
- 4.1.2 System Dumps and Heap Dumps from IBM Virtual Machines
- 4.1.3 What if the Heap Dump is NOT Written on OutOfMemoryError?
- 4.2 Finding Memory Leaks
- 4.3 Analyzing Java Collection Usage
- 4.4 Perm Space Issues
- 4.5 Instance Segmentation
- 4.6 Detect duplicated/conflicting libs/classes
- 4.1 Getting a Heap Dump
The Eclipse Memory Analyzer is a fast and feature-rich heap analyzer that helps you find memory leaks and high memory consumption issues.
A summary of the releases is available at MemoryAnalyzer/Releases
View the Webinar recorded on 29 May 2008. (It has lots of annoying sound drop-outs.)
Read the Eclipse Memory Analyzer Tutorial to see how to start the program.
Run the leak report to automatically detect memory leaks.
Analyze Eclipse: Finding a Leaking Workbench Window.
The MemoryAnalyzer/FAQ is under construction, but might help by problems.
Garbage Collection Roots
The Garbage Collector (GC) (Wikipedia) is responsible for removing objects that will never be accessed anymore. Objects cannot be accessed if they are not reachable through any reference chain. The starting point of this analysis are the Garbage Collection Roots, i.e. objects that are assumed to be reachable by the virtual machine itself. Objects that are reachable from the GC roots remain in memory, objects that are not reachable are garbage collected.
Common GC Roots are objects on the call stack of the current thread (e.g. method parameters and local variables), the thread itself, classes loaded by the system class loader and objects kept alive due to native code.
GC Roots are very important when determining why an object is still kept in memory: The reference chain from an arbitrary object to the GC roots (Path to GC Roots...) tells who is accidentally keeping a reference.
Getting a Heap Dump
HPROF dumps from Sun Virtual Machines
The Memory Analyzer can work with HPROF binary formatted heap dumps. Those heap dumps are written by Sun HotSpot and any VM derived from HotSpot. Depending on your scenario, your OS platform and your JDK version, you have different options to acquire a heap dump.
If you run your application with the VM flag -XX:+HeapDumpOnOutOfMemoryError a heap dump is written on the first Out Of Memory Error. There is no overhead involved unless a OOM actually occurs. This flag is a must for production systems as it is often the only way to further analyze the problem.
As a developer, you want to trigger a heap dump on demand. On Windows, use JDK 6 and JConsole. On Linux and Mac OS X, you can also use jmap that comes with JDK 5.
- tutorial here
Via Java VM parameters:
- -XX:+HeapDumpOnOutOfMemoryError writes heap dump on OutOfMemoryError (recommended)
- -XX:+HeapDumpOnCtrlBreak writes heap dump together with thread dump on CTRL+BREAK
- -agentlib:hprof=heap=dump,format=b combines the above two settings (old way; not recommended as the VM frequently dies after CTRL+BREAK with strange errors)
- Sun (Linux, Solaris; not on Windows) JMap Java 5: jmap -heap:format=b <pid>
- Sun (Linux, Solaris; Windows see link) JMap Java 6: jmap.exe -dump:format=b,file=HeapDump.hprof <pid>
- Sun (Linus, Solaris) JMap with Core Dump File: jmap -dump:format=b,file=HeapDump.hprof /path/to/bin/java core_dump_file
- Sun JConsole: Launch jconsole.exe and invoke operation dumpHeap() on HotSpotDiagnostic MBean
- SAP JVMMon: Launch jvmmon.exe and call menu for dumping the heap
Heap dump will be written to the working directory.
|Vendor / Release||VM Parameter||VM Tools|
|On OoM||On Ctrl+Break||Agent||JMap||JConsole|
|1.5.0_07||Yes||Yes (Since 1.5.0_15)||Yes||Yes (Only Solaris and Linux)|
|1.5.0_07||Yes||Yes||Yes||Yes (Only Solaris and Linux)|
System Dumps and Heap Dumps from IBM Virtual Machines
Memory Analyzer can also read memory-related information from IBM system dumps and from Portable Heap Dump (PHD) files. For this purpose one just has to install the IBM DTFJ feature into Memory Analyzer version 0.8 or later. Follow the IBM DTFJ feature installation instructions. If the DTFJ feature is successfully installed then 'File' 'Open Heap Dump' should give the following options for the file types:
- All known formats
- HPROF binary heap dumps
- IBM Javacore file
- IBM Portable Heap Dump
- IBM Portable Heap Dump (gzipped)
- IBM SDK for Java (J9) JExtract output XML
- IBM SDK for Java (J9) JExtracted system dump
- IBM SDK for Java (J9) system dump
- IBM SDK for Java (J9) JExtracted system dump
- IBM SDK for Java 1.4.2 JExtracted system dump
Minimum-required versions of IBM Virtual Machines to generate the dump are:
IBM JDK 1.4.2 SR12, 5.0 SR8a and 6.0 SR2
though previous versions may generate dumps usable with Memory Analyzer but with inaccurate root information.
The IBM Diagnostics Documentation contains details about how to trigger a system dump.
IBM Java 5.0 and Java 6 Virtual Machine dump options
A quick reference for IBM Java 5.0 and Java 6 Virtual Machine command line options:
- system - a system process dump. Process system dump files with jextract before loading them into Memory Analyzer. Do not give them a .sdff extension as that is only used for Java 1.4.2 system dumps
- heap - a Portable Heap Dump (PHD) file. Contains all objects and classes, but no thread details
- javacore - a readable file which contains information about class loaders and which can be used by Memory Analyzer when reading PHD files
- systhrow - when a system generated exception is thrown
- user - the user has typed control-break
- java/lang/OutOfMemoryError - the type of the systhrow exception
- exclusive Stop anything modifying the heap while generating the dump
- prepwalk Make sure the heap is safe to dump
- compact minimise the size of the heap
IBM Java 1.4.2 dump options
A quick reference for IBM Java 1.4.2 dump options
- export JAVA_DUMP_OPTS=ONOUTOFMEMORY(SYSDUMP,HEAPDUMP,JAVADUMP)
- set JAVA_DUMP_OPTS=ONOUTOFMEMORY(SYSDUMP,HEAPDUMP,JAVADUMP)
On non-z/OS systems process any system dump files with JExtract to give a .sdff file. On z/OS systems copy the SVC dump file in binary mode to your Eclipse Memory Analyzer system, giving it a .dmp file extension.
IBM Support Assistant
The latest version 4.1 of IBM Support Assistant has a technical preview of IBM Monitoring and Diagnostic Tools for Java - Memory Analyzer which contains version 0.8 of Eclipse Memory Analyzer together with the latest IBM DTFJ feature packaged for IBM Support Assistant.
Previous versions of Memory Analyzer
The previous version of Memory Analyzer, version 0.7, required both a DTFJ Adapter feature and a DTFJ feature. It is strongly recommended that you upgrade to Memory Analyzer version 0.8. If for some reason you cannot do this then follow the installation instructions for the old IBM DTFJ Adapter feature and back level IBM DTFJ feature. If you have DTFJ problems then there is an update for just the DTFJ feature. Follow the IBM DTFJ feature installation instructions for the latest level of DTFJ.
What if the Heap Dump is NOT Written on OutOfMemoryError?
Heap dumps are not written on OutOfMemoryError for the following reasons:
- Application creates and throws OutOfMemoryError on its own
- Another resource like threads per process is exhausted
- C heap is exhausted
As for the C heap, the best way to see that you won't get a heap dump is if it happens in C code (eArray.cpp in the example below):
# An unexpected error has been detected by SAP Java Virtual Machine: # java.lang.OutOfMemoryError: requested 2048000 bytes for eArray.cpp:80: GrET*. Out of swap space or heap resource limit exceeded (check with limits or ulimit)? # Internal Error (\\...\hotspot\src\share\vm\memory\allocation.inline.hpp, 26), pid=6000, tid=468
C heap problems may arise for different reasons, e.g. out of swap space situations, process limits exhaustion or just address space limitations, e.g. heavy fragmentation or just the depletion of it on machines with limited address space like 32 bit machines. The hs_err-file will help you with more information on this type of error. Java heap dumps wouldn't be of any help, anyways.
Also please note that a heap dump is written only on the first OutOfMemoryError. If the application chooses to catch it and continues to run, the next OutOfMemoryError will never cause a heap dump to be written!
Finding Memory Leaks
Start by running the leak report to automatically check for memory leaks.
This blog details How to Find a Leaking Workbench Window.
The Memory Analyzer grew up at SAP. Back then, Krum blogged about Finding Memory Leaks with SAP Memory Analyzer. The content is still relevant!
Analyzing Java Collection Usage
Check out Krum's blog about Analyzing Java Collections Usage with Memory Analyzer. Also, Memory for Nothing looks unused collections and the memory kept alive.
Perm Space Issues
A good starting point is the blog The Unknown Generation: Perm by Andreas.
Also, Vedran has blogged some hints how to address Perm Space Issues.
Often it is possible to spot problem by segmenting objects along different attributes. Elena has blogged about The Power of Aggregation: Making sense of the Objects in a Heap Dump.