Exploit development can lead to serious headaches if you don't adequately account for factors that introduce non-determinism into the debugging process. In particular, the stack addresses in the debugger may not match the addresses during normal execution. This artifact occurs because the operating system loader places both environment variables and program arguments before the beginning of the stack:
Since your vulnerable program does not take any arguments, the environment variables are likely the culprit. Mare sure they are the same in both invocations, in the shell and in the debugger. To this end, you can wrap your invocation in
env - /path/to/stack
And with the debugger:
env - gdb /path/to/stack
($) show env
In the above example, there are two environment variables set by gdb, which you can further disable:
unset env LINES
unset env COLUMNS
show env should return an empty list. At this point, you can start the debugging process to find the absolute stack address you envision to jump to (e.g.,
0xbffffa8b), and hardcode it into your exploit.
One further subtle but important detail: there's a difference between calling
argv holds the program exactly how you invoked it, you need to ensure equal invocation strings. That's why I used
/path/to/stack in the above examples and not just
When learning to exploit with memory safety vulnerabilities, I recommend to use the wrapper program below, which does the heavy lifting and ensures equal stack offsets:
$ invoke stack # just call the executable
$ invoke -d stack # run the executable in GDB
Here is the script:
while getopts "dte:h?" opt ; do
case "$opt" in
printf "usage: %s -e KEY=VALUE prog [args...]\n" $(basename $0)
shift $(expr $OPTIND - 1)
prog=$(readlink -f $1)
if [ -n "$gdb" ] ; then
if [ -n "$tty" ]; then
exec env - $env TERM=screen PWD=$PWD gdb -tty /tmp/gdb-debug-pty --args $prog "$@"
exec env - $env TERM=screen PWD=$PWD gdb --args $prog "$@"
exec env - $env TERM=screen PWD=$PWD $prog "$@"