jmap's help message:
λ > jmap
jmap [option] <pid>
(to connect to running process)
jmap [option] <executable <core>
(to connect to a core file)
jmap [option] [server_id@]<remote server IP or hostname>
(to connect to remote debug server)
where <option> is one of:
<none> to print same info as Solaris pmap
-heap to print java heap summary
... stuff ...
-J<flag> to pass <flag> directly to the runtime system
So you see the
-J flag passes arguments directly to the JVM.
Look at the
jvm help message:
λ > java
Usage: java [-options] class [args...]
(to execute a class)
or java [-options] -jar jarfile [args...]
(to execute a jar file)
where options include:
-d32 use a 32-bit data model if available
-d64 use a 64-bit data model if available (implies -server, only for x86_64)
jmap -J-d64 is really telling
jmap to start
java -d64, using a 64-bit model instead of 32-bit.
If the process you're running
jmap on is not a 64-bit JVM, do not pass the
edit since I have done a lot of
jhat to troubleshoot
When you say corrupted, do you mean
jhat actually reports a corrupted heap dump? Or is it because your heap dump is too large to read?
jhat will attempt to load the entirety of the dump into memory, so you will need at least as much free memory as the size of the dump. You might need to specify
jhat, as well as
J-d64 to increase the heap space.
A much better alternative that I use is Eclipse Memory Analyzer Tool, which does selective loading of the heap dump rather than preload everything. It was much better on 6+ GB heap dumps than
jhat was for me.