metasploit-framework/modules/auxiliary/scanner/discovery/sweep_udp.rb

341 lines
6.7 KiB
Ruby

##
# $Id$
##
##
# 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::Auxiliary
include Msf::Auxiliary::Report
include Msf::Auxiliary::Scanner
def initialize
super(
'Name' => 'UDP Service Sweeper',
'Version' => '$Revision$',
'Description' => 'Detect common UDP services',
'Author' => 'hdm',
'License' => MSF_LICENSE
)
register_options(
[
OptInt.new('BATCHSIZE', [true, 'The number of hosts to probe in each set', 256]),
], self.class)
# Intialize the probes array
@probes = []
# Add the UDP probe method names
@probes << 'probe_pkt_dns'
@probes << 'probe_pkt_netbios'
@probes << 'probe_pkt_portmap'
@probes << 'probe_pkt_mssql'
@probes << 'probe_pkt_ntp'
@probes << 'probe_pkt_snmp'
@probes << 'probe_pkt_sentinel'
end
# Define our batch size
def run_batch_size
datastore['BATCHSIZE'].to_i
end
# Fingerprint a single host
def run_batch(batch)
print_status("Sending #{@probes.length} probes to #{batch[0]}->#{batch[-1]} (#{batch.length} hosts)")
begin
udp_sock = nil
idx = 0
# Create an unbound UDP socket
udp_sock = Rex::Socket::Udp.create()
# Send each probe to each host
@probes.each do |probe|
batch.each do |ip|
begin
data, port = self.send(probe, ip)
udp_sock.sendto(data, ip, port, 0)
rescue ::Interrupt
raise $!
rescue ::Rex::HostUnreachable, ::Rex::ConnectionTimeout, ::Rex::ConnectionRefused
nil
end
if (idx % 30 == 0)
while (r = udp_sock.recvfrom(65535, 0.1) and r[1])
parse_reply(r)
end
end
idx += 1
end
end
while (r = udp_sock.recvfrom(65535, 3) and r[1])
parse_reply(r)
end
rescue ::Interrupt
raise $!
rescue ::Exception => e
print_status("Unknown error: #{e.class} #{e}")
end
end
#
# The response parsers
#
def parse_reply(pkt)
@results ||= {}
# Ignore "empty" packets
return if not pkt[1]
if(pkt[1] =~ /^::ffff:/)
pkt[1] = pkt[1].sub(/^::ffff:/, '')
end
# Ignore duplicates
hkey = "#{pkt[1]}:#{pkt[2]}"
return if @results[hkey]
app = 'unknown'
inf = ''
case pkt[2]
when 53
app = 'DNS'
ver = nil
if (not ver and pkt[0] =~ /([6789]\.[\w\.\-_\:\(\)\[\]\/\=\+\|\{\}]+)/i)
ver = 'BIND ' + $1
end
ver = 'Microsoft' if (not ver and pkt[0][2,4] == "\x81\x04\x00\x01")
ver = 'TinyDNS' if (not ver and pkt[0][2,4] == "\x81\x81\x00\x01")
ver = pkt[0].unpack('H*')[0] if not ver
inf = ver if ver
when 137
app = 'NetBIOS'
inf = pkt[0].unpack('H*')[0]
when 111
app = 'Portmap'
inf = pkt[0].unpack('H*')[0]
when 123
app = 'NTP'
ver = nil
ver = pkt[0].unpack('H*')[0]
ver = 'NTP v3' if (ver =~ /^1c06|^1c05/)
ver = 'NTP v4' if (ver =~ /^240304/)
ver = 'NTP v4 (unsynchronized)' if (ver =~ /^e40/)
ver = 'Microsoft NTP' if (ver =~ /^dc00|^dc0f/)
inf = ver if ver
when 1434
app = 'SQL Server'
mssql_ping_parse(pkt[0]).each_pair { |k,v|
inf += k+'='+v+' '
}
when 161
app = 'SNMP'
begin
asn = ASNData.new(pkt[0])
inf = asn.access("L0.L0.L0.L0.V1.value")
if (inf)
inf.gsub!(/\r|\n/, ' ')
inf.gsub!(/\s+/, ' ')
end
rescue ::Exception
end
when 5093
app = 'Sentinel'
end
print_status("Discovered #{app} on #{pkt[1]} (#{inf})")
end
#
# Parse a asn1 buffer into a hash tree
#
class ASNData < ::Hash
def initialize(data)
_parse_asn1(data, self)
end
def _parse_asn1(data, tree)
x = 0
while (data.length > 0)
t,l = data[0,2].unpack('CC')
i = 2
if (l > 0x7f)
lb = l - 0x80
l = (("\x00" * (4-lb)) + data[i, lb]).unpack('N')[0]
i += lb
end
buff = data[i, l]
tree[:v] ||= []
tree[:l] ||= []
case t
when 0x00...0x29
tree[:v] << [t, buff]
else
tree[:l][x] ||= ASNData.new(buff)
x += 1
end
data = data[i + l, data.length - l]
end
end
def access(desc)
path = desc.split('.')
node = self
path.each_index do |i|
case path[i]
when /^V(\d+)$/
if (node[:v] and node[:v][$1.to_i])
node = node[:v][$1.to_i]
next
else
return nil
end
when /^L(\d+)$/
if (node[:l] and node[:l][$1.to_i])
node = node[:l][$1.to_i]
next
else
return nil
end
when 'type'
return (node and node[0]) ? node[0] : nil
when 'value'
return (node and node[1]) ? node[1] : nil
else
return nil
end
end
return node
end
end
#
# Parse a 'ping' response and format as a hash
#
def mssql_ping_parse(data)
res = {}
var = nil
idx = data.index('ServerName')
return res if not idx
data[idx, data.length-idx].split(';').each do |d|
if (not var)
var = d
else
if (var.length > 0)
res[var] = d
var = nil
end
end
end
return res
end
#
# The probe definitions
#
def probe_pkt_dns(ip)
data = [rand(0xffff)].pack('n') +
"\x01\x00\x00\x01\x00\x00\x00\x00\x00\x00"+
"\x07"+ "VERSION"+
"\x04"+ "BIND"+
"\x00\x00\x10\x00\x03"
return [data, 53]
end
def probe_pkt_netbios(ip)
data =
[rand(0xffff)].pack('n')+
"\x00\x00\x00\x01\x00\x00\x00\x00"+
"\x00\x00\x20\x43\x4b\x41\x41\x41"+
"\x41\x41\x41\x41\x41\x41\x41\x41"+
"\x41\x41\x41\x41\x41\x41\x41\x41"+
"\x41\x41\x41\x41\x41\x41\x41\x41"+
"\x41\x41\x41\x00\x00\x21\x00\x01"
return [data, 137]
end
def probe_pkt_portmap(ip)
data =
[
rand(0xffffffff), # XID
0, # Type
2, # RPC Version
100000, # Program ID
2, # Program Version
4, # Procedure
0, 0, # Credentials
0, 0, # Verifier
].pack('N*')
return [data, 111]
end
def probe_pkt_mssql(ip)
return ["\x02", 1434]
end
def probe_pkt_ntp(ip)
data =
"\xe3\x00\x04\xfa\x00\x01\x00\x00\x00\x01\x00\x00\x00" +
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" +
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00" +
"\x00\xc5\x4f\x23\x4b\x71\xb1\x52\xf3"
return [data, 123]
end
def probe_pkt_snmp(ip)
data =
"\x30\x26" +
"\x02\x01\x01" +
"\x04\x06" + "public" +
"\xa1\x19" +
"\x02\x04" + [rand(0xffffffff)].pack('N') +
"\x02\x01\x00" +
"\x02\x01\x00" +
"\x30\x0b\x30\x09\x06\x05\x2b\x06\x01\x02\x01" +
"\x05\x00"
return [data, 161]
end
def probe_pkt_sentinel(ip)
return ["\x7a\x00\x00\x00\x00\x00", 5093]
end
end