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Is there some way to see the native code produces by the JIT in a JVM?

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Are you sure you want to see the JIT-compiled (native) code, or just the byte-code? I ask because asking this question here leads to some doubts if you really want to see native code... And, sorry, I don't know such a tool either. –  gimpf Oct 1 '09 at 11:49
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I want to see exaclty JIT-compiled native code. Of course it is not something that I need to get job done, rather kind of experiments and investigating things. –  alsor.net Oct 1 '09 at 12:03

7 Answers 7

up vote 29 down vote accepted

Assuming you're using the Sun Hotspot JVM. Add the flag

-XX:+PrintOptoAssembly

To whatever you're running. This will only print the assembly for code that has been JIT'd (i.e. you don't get to see assembly for non JIT'd stuff) but I think that's what you want. If you want to see what everything would like if it were JIT'd you could probably tweak the JIT threshold via:

-XX:CompileThreshold=#

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Is this option only present in debug builds or anything? Because my JVM ("Java(TM) SE Runtime Environment (build 1.6.0_16-b01") doesn't recognize it even though source on the web indicate this feature being available in Sun Java 6 and OpenJDK. –  Joachim Sauer Oct 1 '09 at 13:27
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Yes, DEBUG binaries needed. blogs.warwick.ac.uk/richardwarburton/entry/… –  alsor.net Oct 1 '09 at 13:41
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Shouldn't that be (nowadays) -XX:+PrintAssembly, at least nowadays? Tested on my machine, and matches what is said here: wikis.sun.com/display/HotSpotInternals/PrintAssembly You need -XX:+UnlockDiagnosticVMOptions before this option and a disassembler plugin. –  Blaisorblade Nov 22 '11 at 13:40
    
@Blaisorblade I am getting: Improperly specified VM option 'PrintAssembly' Error: Could not create the Java Virtual Machine. Error: A fatal exception has occurred. Program will exit. –  Koray Tugay Jan 24 at 12:42
    
@KorayTugay See other answers — the updated link is wikis.oracle.com/display/HotSpotInternals/PrintAssembly, as given in stackoverflow.com/a/15146962/53974 or stackoverflow.com/a/4149878/53974. If following instructions doesn't work, please ask with details at some appropriate place (not sure whether it should another question for your case, referencing this one). –  Blaisorblade Feb 13 at 19:21

I believe WinDbg would be helpful if you are running it on windows machine. I have just run one jar.

  • Then I attached to the java process through Windbg
  • Examined threads by ~ command; There were 11 threads, 0 thread was main worker thread
  • Switched to 0-thread - ~0s
  • Looked through unmanmaged callstack by kb there was:

    0008fba8 7c90e9c0 ntdll!KiFastSystemCallRet
    0008fbac 7c8025cb ntdll!ZwWaitForSingleObject+0xc
    0008fc10 7c802532 kernel32!WaitForSingleObjectEx+0xa8
    0008fc24 00403a13 kernel32!WaitForSingleObject+0x12
    0008fc40 00402f68 java+0x3a13
    0008fee4 004087b8 java+0x2f68
    0008ffc0 7c816fd7 java+0x87b8

    0008fff0 00000000 kernel32!BaseProcessStart+0x23

Highlighted lines is direct running JIT-ed code on JVM.

  • Then we can look for method address:
    java+0x2f68 is 00402f68

  • On WinDBG:
    Click View --> Disassembly.
    Click Edit --> Go to Address.
    Put 00402f68 there
    and got

    00402f68 55 push ebp
    00402f69 8bec mov ebp,esp
    00402f6b 81ec80020000 sub esp,280h
    00402f71 53 push ebx
    00402f72 56 push esi
    00402f73 57 push edi
    ... and so on

For additional info here is the Example how to trace back JIT-ed code from memory dumps using process explorer and WinDbg.

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Another way to see machine code and some performance data is to use AMD's CodeAnalyst or OProfile, which have a Java plugin to visualize executing Java code as machine code.

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For the HotSpot (was Sun) JVM, even in product modes:

http://wikis.oracle.com/display/HotSpotInternals/PrintAssembly

Some assembly required: it needs a plugin.

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General usage

As explained by other answers, you can run with the following JVM options:

-XX:+UnlockDiagnosticVMOptions -XX:+PrintAssembly

Filter on a specific method

You can also filter on a specific method with the following syntax:

-XX:+UnlockDiagnosticVMOptions -XX:CompileCommand=print,*MyClass.myMethod

Notes:

  • you might need to put the second argument within quotes depending on OS etc.
  • if the method gets inlined, you could miss some optimisations

How to: Install the required libraries on Windows

If you are running Windows, this page has instructions on how to build and install hsdis-amd64.dll and hsdis-i386.dll which are required to make it work. We copy below and extend the content of that page* for reference:


How to build hsdis-amd64.dll and hsdis-i386.dll on Windows

This version of the guide was prepared on Windows 8.1 64bit using 64-bit Cygwin and producing hsdis-amd64.dll

  1. Install Cygwin. At the Select Packages screen, add the following packages (by expanding the Devel category, then clicking once on the Skip label next to each package name):

    • make
    • mingw64-x86_64-gcc-core (only needed for hsdis-amd64.dll)
    • mingw64-i686-gcc-core (only needed for hsdis-i386.dll)
    • diffutils (in Utils category)
  2. Run the Cygwin Terminal. This can be done using the Desktop or Start Menu icon created by the installer, and will create your Cygwin home directory (C:\cygwin\home\<username>\ or C:\cygwin64\home\<username>\ by default).

  3. Download the latest GNU binutils source package and extract its contents to your Cygwin home directory. At the time of writing, the latest package is binutils-2.25.tar.bz2. This should result in a directory named binutils-2.25 (or whatever the latest version is) in your Cygwin home directory.
  4. Download the OpenJDK source by going to the JDK 8 Updates repository, selecting the tag corresponding to your installed JRE version, and clicking bz2. Extract the hsdis directory (found in src\share\tools) to your Cygwin home directory.
  5. In the Cygwin Terminal, enter cd ~/hsdis.
  6. To build hsdis-amd64.dll, enter

    make OS=Linux MINGW=x86_64-w64-mingw32 'AR=$(MINGW)-ar' BINUTILS=~/binutils-2.25

    To build hsdis-i386.dll, enter

    make OS=Linux MINGW=i686-w64-mingw32 'AR=$(MINGW)-ar' BINUTILS=~/binutils-2.25

    In either case, replace 2.25 with the binutils version you downloaded. OS=Linux is necessary because, although Cygwin is a Linux-like environment, the hsdis makefile fails to recognize it as such.

  7. The build will fail with messages ./chew: No such file or directory and gcc: command not found. Edit <Cygwin home directory>\hsdis\build\Linux-amd64\bfd\Makefile in a text editor like Wordpad or Notepad++ to change SUBDIRS = doc po (line 342, if using binutils 2.25) to SUBDIRS = po. Re-run the previous command.

The DLL can now be installed by copying it from hsdis\build\Linux-amd64 or hsdis\build\Linux-i586 to your JRE's bin\server or bin\client directory. You can find all such directories on your system by searching for java.dll.

Bonus tip: if you prefer Intel ASM syntax to AT&T, specify -XX:PrintAssemblyOptions=intel alongside any other PrintAssembly options you use.

*page license is Creative Commons

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1  
Pre-built binaries for other platforms - kenai.com/projects/base-hsdis/downloads –  Ashwin Jayaprakash Oct 28 '13 at 17:23
    
@AshwinJayaprakash Where am I supposed to put these files in Mac OS? –  Koray Tugay Jan 24 at 12:53
    
@KorayTugay put them in /usr/lib/ –  Jean-François Savard Apr 11 at 15:41
    
I've updated the answer by copying from the latest version of the linked-to page, but this highlights the reason we generally link to external resources rather than copy them verbatim. –  Aleksandr Dubinsky May 23 at 19:39
    
@AleksandrDubinsky Thanks for the update. I copied it on purpose: if that site is brought down my answer will still be self contained... –  assylias May 23 at 19:43

You can also use hsdis plugin based on FCML library.

It can be compiled for UNIX-like systems as well as for the Windows, but in case of Windows system instead of building your own binaries (as far as I know you are obligated to do so in case of binutils based projects due to license incompatibilities), you can use pre-built libraries available in the download section:

http://sourceforge.net/projects/fcml/files/

To install:

  • Extract the dll. In version 1.1.0, it is named hsdis.dll and you will have to rename it to the correct hsdis-amd64.dll or hsdis-i386.dll.
  • Copy the dll to wherever exists java.dll (use Windows search). On my system, I found it at two locations:
    • C:\Program Files\Java\jre1.8.0_45\bin\server
    • C:\Program Files\Java\jdk1.8.0_45\jre\bin\server

How to run it:

java -XX:+UnlockDiagnosticVMOptions -XX:+PrintAssembly 
-XX:+LogCompilation -XX:PrintAssemblyOptions=intel,mpad=10,cpad=10,code 
-jar fcml-test.jar

Additional configuration parameters:

code Print machine code before the mnemonic.
intel Use the Intel syntax.
gas Use the AT&T assembler syntax (GNU assembler compatible).
dec Prints IMM and displacement as decimal values.
mpad=XX Padding for the mnemonic part of the instruction.
cpad=XX Padding for the machine code.
seg Shows the default segment registers.
zeros Show leading zeros in case of HEX literals.

The Intel syntax is a default one in case of Windows, whereas the AT&T one is a default for the GNU/Linux.

For more details see: http://fcml-lib.com/manual.html#examples-hsdis

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The dll seems to work when running the sample command from the command-line, but throws an EXCEPTION_ACCESS_VIOLATON at frame C [hsdis-amd64.dll+0x366e] when I'm running JMH using the WinPerfAsmProfiler. –  Aleksandr Dubinsky May 23 at 18:42
    
Hi, I've tired to reproduce the problem, but with no success. Everything seems to work as expected in my case using JVM 1.7.0_25 and JMH 1.9.3 with WinPerfAsmProfiler profiler added. I will be grateful if you can provide me more information like JVM version etc. I've also prepared debug version of hsdis-amd64.dll/hsdis-i386.dll for you (hsdis-debug-win32-1.1.0.zip - SF/Files). Try to run your benchmark using one of them and send me a frame or backtrace where it crashes. It should help me a lot. Btw. please open an issue on github. It will be a lot more convenient to continue with the problem. –  swojtasiak May 24 at 18:33
    
I've created the issue on GitHub: github.com/swojtasiak/fcml-lib/issues/1 Why are you using such an old JVM? –  Aleksandr Dubinsky May 24 at 21:11
    
Mostly, because I'm using Windows only to compile this project lately, so I haven't had any occasion to update JVM there. Thanks for reporting the issue I will take a look at it as soon as possible. –  swojtasiak May 24 at 22:21

JMH will display the disassembly of your hotspots as part of benchmarking if you configure a perfasm profiler (such as LinuxPerfAsmProfiler or WinPerfAsmProfiler). JMH does require an installed disassembly plugin (hdism library), so you will need to follow the advice in the other answers.

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