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More specifically, why/how does it? I am messing with buffer overflows on my Mac and I wrote a program genv to output the memory address of the environment variables. I ended up getting 3 different addresses (obviously these will change with each run - that's not what's happening here)

SHELLCODE ADDR 1) I run the program from commandline

ben:~/scripts$ genv SHELLCODE
SHELLCODE                           &0x7fff5c455d3d

SHELLCODE ADDR 2) I run the program through LLDB and inspect the registers after setting some breakpoints

ben:~/scripts$ lldb genv SHELLCODE
### intermediary steps
(lldb) x/2s $rsp+0x137
0x7fff5fbffd3f: "PROGRAM=Apple_Terminal"
0x7fff5fbffd56: "SHELLCODE=helloworld"

SHELLCODE ADDR 3) I continue from the breakpoint and let genv output to stdout

(lldb) c
Process 2748 resuming
SHELLCODE                           &0x7fff5fbffd60
Process 2748 exited with status = 0 (0x00000000) 

So 2) and 3) addresses for SHELLCODE differ by 10

ben:~$ python -c 'print hex(0x7fff5fbffd60 - 0x7fff5fbffd56)'

but 2) and 1) differ by a lot more

ben:~$ python -c 'print hex(0x7fff5fbffd60 - 0x7fff5c455d3d)'

Below I have my genv program

// genv.c
// print address in memory of environment vars
#include <stdio.h>
#include <stdlib.h>

int main(int argc, char* argv[])
   int i;
   if (argc == 1)
     printf("Improper Usage: No env args\n");
   for (i = 1; i < argc; i++)
   printf("%-36s%p\n", argv[i], getenv(argv[i])); // Format into columns w/ "%-36s"
   return 0;

Obviously genv's stack is being built somewhere different when it is run in LLDB and I guess that makes sense (is this to make it harder for buffer overflows and other memory-targeted hacks or something entirely different?). HOWEVER - why is there this offset of 10 between the register inspection and the actual printing to stdout in the same run?

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The difference between (2) and (1) of 0x37aa023 is almost certainly due to address space layout randomization‌​. –  Adam Rosenfield Aug 21 '14 at 2:13
OK, that's what I thought it might be. So how do I get around it? ;) –  Ben Kushigian Aug 21 '14 at 2:35
You can disable ASLR in executables you build yourself by passing the -no_pie option to the linker (or equivalently by passing -Wl,-no_pie to the compiler, which then passes that through to the linker), although that's generally not recommended except as an exercise for experimenting. Of course, if you're trying to exploit an executable compiled with ASLR, then it's much more difficult to get around. –  Adam Rosenfield Aug 21 '14 at 3:48
lol, I guess that would be the point. Thanks –  Ben Kushigian Aug 21 '14 at 15:31
By default lldb (and gdb before it) disables ASLR for programs run under the debugger on OS X. You can turn off disabling aslr in the debugger by "settings set target.disable-aslr false". But the default is to disable it. –  Jim Ingham Aug 25 '14 at 21:51

1 Answer 1

up vote 5 down vote accepted

The pointer in the environ array, with byte addresses.

0x7fff5fbffd56: "SHELLCODE=helloworld"

Note that the environ array includes the name of the environment variable (SHELLCODE) as well as its value (helloworld) separated by an =. The address of the value is 0x7fff5fbffd60. The difference between this and the address in the environ array is 10: the nine characters in SHELLCODE plus the =.

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Ahahaha, that is so obvious! I won't even take you down the side-roads I took trying to account for that. Thanks a bunch –  Ben Kushigian Aug 21 '14 at 2:28

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