I've got a binary installed on my system, and would like to look at the disassembly of a given function. Preferrably using objdump, but other solutions would be acceptable as well.

From this questions I've learned that I might be able to disassemble part of the code if I only know the boundary addresses. From this answer I've learned how to turn my split debug symbols back into a single file.

But even operating on that single file, and even disassembling all the code (i.e. without start or stop address, but plain -d parameter to objdump), I still don't see that symbol anywhere. Which makes sense insofar as the function in question is static, so it isn't exported. Nevertheless, valgrind will report the function name, so it has to be stored somewhere.

Looking at the details of the debug sections, I find that name mentioned in the .debug_str section, but I don't know a tool which can turn this into an address range.

  • A minor side note: If a function is marked static, it might be inlined by the compiler into its call sites. This may mean there may not actually be any function to disassemble, per se. If you can spot symbols for other functions, but not the function you are looking for, this is a strong hint that the function has been inlined. Valgrind may still reference the original pre-inlined function because the ELF file debugging information stores where each individual instruction originated from, even if the instructions are moved elsewhere. – davidg Apr 1 '14 at 3:01
  • @davidg: true, but since the answer by Tom worked in this case, this doesn't seem to be the case. Nevertheless, do you know of a way to e.g. annotate assembly code with that information of where each instruction came from? – MvG Apr 1 '14 at 6:06
  • 1
    Good to hear! addr2line will accept PCs/IPs from stdin and print out their corresponding source code lines. Similarly, objdump -l will mix the objdump with source lines; though for highly optimised code with heavy inlining, the results of either program are not always particularly helpful. – davidg Apr 1 '14 at 8:58
up vote 50 down vote accepted

I would suggest using gdb as the simplest approach. You can even do it as a one-liner, like:

gdb -batch -ex 'file /bin/ls' -ex 'disassemble main'
  • 3
    +1 undocumented feature! -ex 'command' isn't in man gdb!? But is in fact listed in gdb docs. Also for others, stuff like /bin/ls might be stripped, so if that exact command displays nothing, try another object! Can also specify file/object as bareword argument; e.g., gdb -batch -ex 'disassemble main' /bin/ls – hoc_age Oct 17 '14 at 15:01
  • 2
    The man page isn't definitive. For a long time it wasn't really maintained, but now I think it's generated from the main docs. Also "gdb --help" is more complete now too. – Tom Tromey Oct 18 '14 at 2:33
  • 2
    gdb /bin/ls -batch -ex 'disassemble main' works as well – stefanct Sep 21 '16 at 13:30
  • Can you intermingle with source code lines like objdump -S? – Ciro Santilli 新疆改造中心 六四事件 法轮功 Apr 20 at 23:40

awk workarounds

Print the paragraph as mentioned at: https://unix.stackexchange.com/questions/82944/how-to-grep-for-text-in-a-file-and-display-the-paragraph-that-has-the-text

objdump -d a.out | awk -v RS= '/^[[:xdigit:]].*<FUNCTION>/'

When using -S, I don't think there is a fail-proof way, as the code comments could contain any possible sequence... But the following works almost all the time:

objdump -S a.out | awk '/^[[:xdigit:]]+ <FUNCTION>:$/{flag=1;next}/^[[:xdigit:]]+ <.*>:$/{flag=0}flag'

adapted from: How to select lines between two marker patterns which may occur multiple times with awk/sed

Mailing list replies

There is a 2010 thread on the mailing list which says it is not possible: https://sourceware.org/ml/binutils/2010-04/msg00445.html

Besides the gdb workaround proposed by Tom, they also comment on another (worse) workaround of compiling with -ffunction-section which puts one function per section and then dumping the section.

Nicolas Clifton gave it a WONTFIX https://sourceware.org/ml/binutils/2015-07/msg00004.html , likely because the GDB workaround covers that use case.

This works just like the gdb solution (in that that it shifts the offsets towards zero) except that it's not laggy (gets the job done in about 5ms on my PC whereas the gdb solution takes about 150ms):

objdump_func:

#!/bin/sh
# $1 -- function name; rest -- object files
fn=$1; shift 1
exec objdump -d "$@" | 
awk " /^[[:xdigit:]].*<$fn>/,/^\$/ { print \$0 }" |
awk -F: -F' '  'NR==1 {  offset=strtonum("0x"$1); print $0; } 
                NR!=1 {  split($0,a,":"); rhs=a[2]; n=strtonum("0x"$1); $1=sprintf("%x", n-offset); printf "%4s:%s\n", $1,rhs }'
  • I can't test just now, but I'm looking forward to when I get round to this. Can you elaborate a bit on the “shifts offset towards zero” aspect? I didn't see this explicit in the gdb answers here, and I'd like to hear a bit more about what's actually going on there and why. – MvG Aug 7 '16 at 19:59
  • It basically makes it look as if the function you target (which is what the first awk does) was the only function in the object file, that is, even if the function starts at, say 0x2d, the second awk will shift it towards 0x00 (by subtracting 0x2d from the address of each instruction), which is useful because the assembly code often makes references relative to the start of the function and if the function starts at 0, you don't have to do the subtractions in your head. The awk code could be better but at least it does the job and is fairly efficient. – PSkocik Aug 7 '16 at 20:25

Disassemble One Single Function using Objdump

I have two solutions:

1. Commandline Based

This method works perfectly and is also very short. I use objdump with -d option and pipe it to awk. The disassembled output looks like

000000000000068a <main>:
68a:    55                      push   %rbp
68b:    48 89 e5                mov    %rsp,%rbp
68e:    48 83 ec 20             sub    $0x20,%rsp

A section or function is seperated by an empty line. Hence changing the FS (Field Seperator) to newline and the RS (Record Seperator) to twice newline let you easily search for your recommended function, since it is simply to find within the $1 field!

objdump -d name_of_your_obj_file | awk -F"\n" -v RS="\n\n" '$1 ~ /main/'

Of course you can change main to any function you want.

2. Bash Script

I have written a small bash script for this issue. Simply copy it and save it as e.g. dasm file.

#!/bin/bash
# Author: abu
# Description: puts disassembled objectfile to std-out

if [ $# = 2 ]; then
        sstrg="^[[:xdigit:]]{2,}+.*<$2>:$"
        objdump -d $1 | awk -v fun=$sstrg -F"\n" -v RS="\n\n" '$1 ~ /'"$sstrg"'/'
elif [ $# = 1 ]; then
        objdump -d $1 | awk -F"\n" -v RS="\n\n" '{ print $1 }'
else
    echo "You have to add argument(s)"
    echo "Usage:   "$0 " arg1 arg2"  
    echo "Description: print disassembled label to std-out"
    echo "             arg1: name of object file"
    echo "             arg2: name of function to be disassembled"
    echo "         "$0 " arg1    ... print labels and their rel. addresses" 
fi

Change the x-access and invoke it with e.g.:

chmod +x dasm
./dasm test main

This is much faster than invoking gdb with a script. Beside the way using objdump will not load the libraries into memory and is therefore safer!

To simplify the usage of awk for parsing objdump's output relative to other answers:

objdump -d filename | sed '/<functionName>:/,/^$/!d'

Bash completion for ./dasm (see answer above). Complete symbol names. (D lang version)

Files:

/etc/bash_completion.d/dasm

# bash completion for dasm
_dasm()
{
    local cur=${COMP_WORDS[COMP_CWORD]}

    if [[ $COMP_CWORD -eq 1 ]] ; then
    # files
    COMPREPLY=( $( command ls *.o -F 2>/dev/null | grep "^$cur" ) )

    elif [[ $COMP_CWORD -eq 2 ]] ; then
    # functions
    OBJFILE=${COMP_WORDS[COMP_CWORD-1]}

    COMPREPLY=( $( command nm --demangle=dlang $OBJFILE | grep " W " | cut -d " " -f 3 | tr "()" "  " | grep "$cur" ) )

    else
    COMPREPLY=($(compgen -W "" -- "$cur"));
    fi
}

complete -F _dasm dasm

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.