While taking heap and thread dumps are one click away using modern JVM toolset, in many cases the deployment environment access restrictions render these options unusable. Hence, you might end up exposing these functionalities in certain ways like an internal REST interface. This implies a new nasty obstacle: You need to know how to programmatically take heap and thread dumps in a Java application. Unfortunately, there does not exist a standard interface to access these functionalities within the VM as of date. But if you are only concerned about HotSpot, then you are in luck!

Heap Dumps

For heap dumps, once you get your teeth into a HotSpotDiagnosticMXBean, you are safe to go. It already exposes a dumpHeap() method ready to be used.

import com.sun.management.HotSpotDiagnosticMXBean ; import javax.management.MBeanServer ; import java.io.File ; import java.io.IOException ; import java.lang.management.ManagementFactory ; public enum HotSpotHeapDumps {; private static final HotSpotDiagnosticMXBean HOT_SPOT_DIAGNOSTIC_MX_BEAN = getHotspotDiagnosticMxBean (); private static HotSpotDiagnosticMXBean getHotspotDiagnosticMxBean () { MBeanServer server = ManagementFactory . getPlatformMBeanServer (); try { return ManagementFactory . newPlatformMXBeanProxy ( server , HOT_SPOT_DIAGNOSTIC_MX_BEAN_NAME , HotSpotDiagnosticMXBean . class ); } catch ( IOException error ) { throw new RuntimeException ( "failed getting Hotspot Diagnostic MX bean" , error ); } } public void create ( File file , boolean live ) throws IOException { HOT_SPOT_DIAGNOSTIC_MX_BEAN . dumpHeap ( file . getAbsolutePath (), live ); } }

The second argument of dumpHeap denotes live objects, that is, objects that are reachable from others.

Note that many real-world Java applications occupy quite some memory. As a result of this, created heap dump generally end up consuming significant amount of disk space. You need to come up with your own custom clean up mechanism to tackle this problem. (For instance, in a JAX-RS resource, you can purpose a custom MessageBodyWriter to delete the file after writing the entire file to the output stream.)

Thread Dumps

When you think first about thread dumps, they just contain simple plain text data.

2016-08-12 18:40:46 Full thread dump OpenJDK 64-Bit Server VM (25.76-b198 mixed mode): "RMI TCP Connection(266)-127.0.0.1" #24884 daemon prio=9 os_prio=0 tid=0x00007f9474010000 nid=0x2cee runnable [0x00007f941571b000] java.lang.Thread.State: RUNNABLE at java.net.SocketInputStream.socketRead0(Native Method) at java.net.SocketInputStream.socketRead(SocketInputStream.java:116) at java.net.SocketInputStream.read(SocketInputStream.java:170) at java.net.SocketInputStream.read(SocketInputStream.java:141) at java.io.BufferedInputStream.fill(BufferedInputStream.java:246) at java.io.BufferedInputStream.read(BufferedInputStream.java:265) - locked <0x00000005c086e8b0> (a java.io.BufferedInputStream) at java.io.FilterInputStream.read(FilterInputStream.java:83) at sun.rmi.transport.tcp.TCPTransport.handleMessages(TCPTransport.java:550) at sun.rmi.transport.tcp.TCPTransport$ConnectionHandler.run0(TCPTransport.java:826) at sun.rmi.transport.tcp.TCPTransport$ConnectionHandler.lambda$run$0(TCPTransport.java:683) at sun.rmi.transport.tcp.TCPTransport$ConnectionHandler$$Lambda$83/628845041.run(Unknown Source) at java.security.AccessController.doPrivileged(Native Method) at sun.rmi.transport.tcp.TCPTransport$ConnectionHandler.run(TCPTransport.java:682) at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1142) at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:617) at java.lang.Thread.run(Thread.java:745) Locked ownable synchronizers: - <0x00000005c0489198> (a java.util.concurrent.ThreadPoolExecutor$Worker) "JobScheduler FJ pool 0/4" #24883 daemon prio=6 os_prio=0 tid=0x00007f946415d800 nid=0x2ced waiting on condition [0x00007f94093d2000] java.lang.Thread.State: TIMED_WAITING (parking) at sun.misc.Unsafe.park(Native Method) - parking to wait for <0x00000005d8a5f9e0> (a jsr166e.ForkJoinPool) at jsr166e.ForkJoinPool.awaitWork(ForkJoinPool.java:1756) at jsr166e.ForkJoinPool.scan(ForkJoinPool.java:1694) at jsr166e.ForkJoinPool.runWorker(ForkJoinPool.java:1642) at jsr166e.ForkJoinWorkerThread.run(ForkJoinWorkerThread.java:108) Locked ownable synchronizers: - None

Unfortunately, thread dumps do not have a standard syntax. While there are various ways to produce this output, thread dump analysis software does not play well with them. For instance, IBM Thread and Monitor Dump Analyzer for Java cannot parse thread dumps created by VisualVM using JMX. At the end of the day, I always needed to fall back to a HotSpot thread dump.

tools.jar shipped with JDKs (>=1.6) provide the magical HotSpotVirtualMachine class containing our saviour remoteDataDump() method. First add the following lines to your pom.xml :

<dependencyManagement> <dependencies> <dependency> <groupId> com.sun </groupId> <artifactId> tools </artifactId> <version> ${java.version} </version> <scope> system </scope> <systemPath> ${tools.jar} </systemPath> </dependency> </dependencies> </dependencyManagement> <profiles> <!-- tools.jar path for GNU/Linux and Windows --> <profile> <id> default-tools.jar </id> <activation> <file> <exists> ${java.home}/../lib/tools.jar </exists> </file> </activation> <properties> <tools.jar> ${java.home}/../lib/tools.jar </tools.jar> </properties> </profile> <!-- tools.jar path for OSX --> <profile> <id> default-tools.jar-mac </id> <activation> <file> <exists> ${java.home}/../Classes/classes.jar </exists> </file> </activation> <properties> <tools.jar> ${java.home}/../Classes/classes.jar </tools.jar> </properties> </profile> </profiles>

Then the rest is a matter of accessing to HotSpotVirtualMachine class:

import com.google.common.io.ByteStreams ; import com.sun.management.HotSpotDiagnosticMXBean ; import com.sun.tools.attach.AttachNotSupportedException ; import com.sun.tools.attach.VirtualMachine ; import sun.tools.attach.HotSpotVirtualMachine ; import java.io.IOException ; import java.io.InputStream ; import java.lang.management.ManagementFactory ; public enum HotSpotThreadDumps {; public String create () throws AttachNotSupportedException , IOException { // Get the PID of the current JVM process. String selfName = ManagementFactory . getRuntimeMXBean (). getName (); String selfPid = selfName . substring ( 0 , selfName . indexOf ( '@' )); // Attach to the VM. VirtualMachine vm = VirtualMachine . attach ( selfPid ); HotSpotVirtualMachine hotSpotVm = ( HotSpotVirtualMachine ) vm ; // Request a thread dump. try ( InputStream inputStream = hotSpotVm . remoteDataDump ()) { byte [] bytes = ByteStreams . toByteArray ( inputStream ); return new String ( bytes ); } } }

You finished writing this code, you clicked on the Run button of the IDE, and it worked like a charm. This get you so excited that you wanted to add this functionality to your JEE service! Or better: Turn this into a JAR and pass it to your client’s machine and watch them take their part in the joy of thread-dump-oriented debugging! And this is what you get in return:

java.lang.NoClassDefFoundError: com/sun/tools/attach/AttachNotSupportedException

Which indicates that you did not pay attention my words: tools.jar is shipped with JDKs. So neither your flashy JEE application server, nor your client’s machine has a JDK, but a JRE. Rings a bell? Yes, you indeed can add tools.jar into the final WAR/JAR of your project:

<build> <plugins> <!-- copy tools.jar from JAVA_HOME --> <plugin> <groupId> org.apache.maven.plugins </groupId> <artifactId> maven-dependency-plugin </artifactId> <executions> <execution> <id> copy-system-dependencies </id> <phase> prepare-package </phase> <goals> <goal> copy-dependencies </goal> </goals> <configuration> <outputDirectory> ${project.build.directory}/${project.build.finalName}/WEB-INF/lib </outputDirectory> <includeScope> system </includeScope> </configuration> </execution> </executions> </plugin> </plugins> </build>

Note that this approach incorporates a JDK-specific JAR into your application and assumes that the application will run on a HotSpot VM. But unfortunately this is the only way that I know of to produce a thread dump that works with thread dump analysis software. If you don’t have such a need and just want a crude JMX generated thread dump, check out JmxSupport.java shipped with VisualVM.