Jcmd: One Jdk Command-Line Tool to Rule Them All
Jcmd is a comprehensive JDK tool. Learn why it may be the definitive command-line tool in this great overview.
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Join For FreeI have referenced the handy JDK tool jcmd in several posts in the past but focus exclusively on its usefulness here like I have previously done for jps. The jcmd tool was introduced with Oracle's Java 7 and is particularly useful in troubleshooting issues with JVM applications by using it to identify Java processes' IDs (akin to jps), acquiring heap dumps (akin to jmap), acquiring thread dumps (akin to jstack), viewing virtual machine characteristics such as system properties and command-line flags (akin to jinfo), and acquiring garbage collection statistics (akin to jstat). The jcmd tool has been called "a swiss-army knife for investigating and resolving issues with your JVM application" and a "hidden gem."
When using most JDK command-line tools (including jcmd
), it's often important to identify the process ID (pid) of the Java process for which we want to use the command-line tool. This is easily accomplished with jcmd
by simply running the command without any arguments as shown in the next screen snapshot.
Running jcmd
without arguments in the example above shows two Java processes running (jcmd
itself with a pid of 324 and another Java process with a pid of 7268). Note that although jcmd
works very much like jps
when it comes to listing Java processes, jcmd
lists more information than jps
does without arguments -lm
.
Running jcmd -h
shows help and usage information for jcmd
as demonstrated in the next screen snapshot.
The help explains, as was just shown, that jcmd
"lists Java processes" when "no options are given." The help also states that this is behavior similar to running jcmd -p
, but I think it means to say running jcmd
without options is equivalent to running jcmd -l
, which is shown in the next screen snapshot.
As when jcmd
was run without any options, jcmd -l
lists Java processes and their respective pids. The pids are different in this example because it's a different execution of jcmd
and I have a different Java process running this time.
Running jcmd -h
showed relatively few options. To see help on the many capabilities that jcmd
supports, one needs to ask jcmd
which capabilities are supported for a particular Java process. The next screen snapshot illustrates this. I first run jcmd
without options to discover the pid of the Java process of interest (6320 in this case). Then, I am able to run jcmd 6320 help
to see which commands jcmd
supports.
The previous screen snapshot demonstrates the commands jcmd
supports for the particular Java VM identified by the pid. Specifically, it states, "The following commands are available:" and then lists them:
- JFR.stop
- JFR.start
- JFR.dump
- JFR.check
- VM.native_memory
- VM.check_commercial_features
- VM.unlock_commercial_features
- ManagementAgent.stop
- ManagementAgent.start_local
- ManagementAgent.start
- GC.rotate_log
- GC.class_stats
- GC.class_histogram
- GC.heap_dump
- GC.run_finalization
- GC.run
- Thread.print
- VM.uptime
- VM.flags
- VM.system_properties
- VM.command_line
- VM.version
- help
When jcmd <pid> help
is run against a pid for a different Java VM process, it's possible to get a different list of available commands. This is illustrated in the next screen snapshot when jcmd 1216 help
is executed against that process with pid of 1216.
By comparing the last two screen snapshots, it becomes clear that jcmd
supports different commands for different Java VM instances. This is why the supported commands for a particular VM are listed by specifying the pid in the help
command. Some of the commands available against the second VM (pid 1216 in this case) that were not listed for the originally checked VM include the following:
- VM.log
- ManagementAgent.status
- Compiler.directives_clear
- Compiler.directives_remove
- Compiler.directives_add
- Compiler.directives_print
- VM.print_touched_methods
- Compiler.codecache
- Compiler.codelist
- Compiler.queue
- VM.classloader_stats
- JVMTI.data_dump
- VM.stringtable
- VM.symboltable
- VM.class_hierarchy
- GC.finalizer_info
- GC.heap_info
- VM.info
- VM.dynlibs
- VM.set_flag
This "help" also advises, "For more information about a specific command use 'help <command>'." Doing this is illustrated in the next screen snapshot specifically for jcmd
's Thread.print
While on the subject of jcmd
Thread.print
command, it's a good time to illustrate using this to see thread stacks of Java processes. The next screen snapshot shows the beginning of the much lengthier results seen when jcmd <pid> Thread.print
is executed (in this case for the Java process with pid 6320).
There are several VM.*
commands supported by jcmd
: VM.version
, VM.uptime
, VM.command_line
, VM.flags
, VM.system_properties
, VM.native_memory
, and VM.classloader_stats
. The next screen snapshot illustrates the use of jcmd <pid> VM.version
and jcmd <pid> VM.uptime
for the Java process with pid 6320.
The next screen snapshot demonstrates execution of jcmd <pid> VM.command_line
against process with pid 6320.
From this screen snapshot which shows the top portion of the output from running jcmd 6320 VM.command_line
, we can see from the JVM command-line arguments that were provided to this process that it's a NetBeans-related process. Running the command jcmd <pid> VM.flags
against Java process with pid 6320 shows the HotSpot options passed to that process.
The system properties used by a Java process can be listed using jcmd <pid> VM.system_properties
and this is illustrated in the next screen snapshot.
When one attempts to run jcmd <pid> VM.native_memory
against a Java process that hasn't had Native Memory Tracking (NMT) enabled, the error message "Native Memory Tracking is not enabled" is printed as shown in the next screen snapshot.
To use the command jcmd <pid> VM.native_memory
, the JVM (java process) to be measured should be started with either the -XX:NativeMemoryTracking=summary
or -XX:NativeMemoryTracking=detail
options. Once the VM has been started with either of those options, the commands jcmd <pid> VM.native_memory baseline
and then jcmd <pid> VM.native_memory detail.diff
can be executed against that JVM process.
The command jcmd <pid> VM.classloader_stats
provides insight into the classloader. This is shown in the next screen snapshot against Java process with pid 1216:
jcmd <pid> VM.class_hierarchy
is an interesting command that prints the hierarchy of the classes loaded in the targeted Java VM process.
jcmd <pid> VM.dynlibs
can be used to view dynamic libraries information. This is demonstrated in the next screen snapshot when executed against Java process with pid 1216.
The jcmd <pid> VM.info
lists a lot of information regarding the targeted Java VM process including a VM summary and information about the process, garbage collection events, dynamic libraries, arguments provided to the VM, and some of the characteristics of the host machine. Just a small part of the beginning of the output of this is demonstrated in the next screen snapshot for jcmd 1216 VM.info
:
The next screen snapshot demonstrates use of jcmd <pid> VM.stringtable
and jcmd <pid> VM.symboltable
:
Use of jcmd <pid> Compiler.directives_print
is demonstrated in the next screen snapshot.
Several commands supported by jcmd
support managing and monitoring garbage collection. Two of these are jcmd <pid> GC.run
[similar to System.gc()] and jcmd <pid> GC.run_finalization
[similar to System.runFinalization()]. The two of these are demonstrated in the next screen snapshot.
The command jcmd <pid> GC.class_histogram
provides a handy way to view an object histogram as shown in the next screen snapshot.
jcmd
can be used to generate a heap dump against a running Java VM with jcmd <pid> GC.heap_dump <filename>
and this is demonstrated in the next screen snapshot.
The jhat command can now be used to process the heap dump generated by jcmd
as shown in the next two screen snapshots.
There are some jcmd
commands that only work against Java VMs that were started using the -XX:+UnlockDiagnosticVMOptions
JVM flag. The next screen snapshot demonstrates what happens when I try to run jcmd <pid> GC.class_stats
against a Java VM that wasn't started with the flag -XX:+UnlockDiagnosticVMOptions
.
When the targeted VM is started with -XX:+UnlockDiagnosticVMOptions
, jcmd <pid> GC.class_stats
displays "statistics about Java class metadata."
This post has covered several of the commands provided by jcmd
, but has not covered the functionality related to Java Flight Recorder [JFR] (commands with names starting with JFR.*
), to checking and enabling commercial features (jcmd <pid> VM.check_commercial_features
and jcmd <pid> VM.unlock_commercial_features
).
In one command-line tool, jcmd brings together the functionality of several command-line JDK tools. This post has demonstrated several of the functions provided by jcmd
.
Published at DZone with permission of Dustin Marx, DZone MVB. See the original article here.
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