193 lines
4.1 KiB
Ruby
193 lines
4.1 KiB
Ruby
##
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# This module requires Metasploit: http://metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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require 'msf/core'
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require 'timeout'
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class MetasploitModule < Msf::Auxiliary
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include Msf::Exploit::Capture
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include Msf::Auxiliary::Scanner
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include Msf::Auxiliary::Report
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def initialize
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super(
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'Name' => 'IPID Sequence Scanner',
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'Description' => %q{
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This module will probe hosts' IPID sequences and classify
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them using the same method Nmap uses when it's performing
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its IPID Idle Scan (-sI) and OS Detection (-O).
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Nmap's probes are SYN/ACKs while this module's are SYNs.
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While this does not change the underlying functionality,
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it does change the chance of whether or not the probe
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will be stopped by a firewall.
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Nmap's Idle Scan can use hosts whose IPID sequences are
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classified as "Incremental" or "Broken little-endian incremental".
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},
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'Author' => 'kris katterjohn',
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'License' => MSF_LICENSE
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)
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register_options([
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Opt::RPORT(80),
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OptInt.new('TIMEOUT', [true, "The reply read timeout in milliseconds", 500]),
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OptString.new('INTERFACE', [false, 'The name of the interface'])
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])
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register_advanced_options([
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OptInt.new('SAMPLES', [true, "The IPID sample size", 6])
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])
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deregister_options('FILTER','PCAPFILE')
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end
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def rport
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datastore['RPORT'].to_i
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end
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def run_host(ip)
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open_pcap
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raise "SAMPLES option must be >= 2" if datastore['SAMPLES'] < 2
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pcap = self.capture
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shost = Rex::Socket.source_address(ip)
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to = (datastore['TIMEOUT'] || 500).to_f / 1000.0
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ipids = []
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pcap.setfilter(getfilter(shost, ip, rport))
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datastore['SAMPLES'].times do
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sport = rand(0xffff - 1025) + 1025
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probe = buildprobe(shost, sport, ip, rport)
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next unless capture_sendto(probe, ip)
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reply = probereply(pcap, to)
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next if not reply
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ipids << reply.ip_id
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end
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close_pcap
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return if ipids.empty?
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print_status("#{ip}'s IPID sequence class: #{analyze(ipids)}")
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#Add Report
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report_note(
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:host => ip,
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:proto => 'ip',
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:type => 'IPID sequence',
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:data => "IPID sequence class: #{analyze(ipids)}"
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)
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end
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# Based on Nmap's get_ipid_sequence() in osscan2.cc
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def analyze(ipids)
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allzeros = true
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allsame = true
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mul256 = true
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inc = true
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# ipids.each do |ipid|
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# print_status("Got IPID ##{ipid}")
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# end
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return "Unknown" if ipids.size < 2
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diffs = []
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i = 1
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while i < ipids.size
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p = ipids[i - 1]
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c = ipids[i]
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if p != 0 or c != 0
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allzeros = false
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end
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if p <= c
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diffs[i - 1] = c - p
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else
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diffs[i - 1] = c - p + 65536
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end
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if ipids.size > 2 and diffs[i - 1] > 20000
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return "Randomized"
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end
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i += 1
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end
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return "All zeros" if allzeros
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diffs.each do |diff|
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if diff > 1000 and ((diff % 256) != 0 or ((diff % 256) == 0 and diff >= 25600))
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return "Random positive increments"
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end
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allsame = false if diff != 0
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mul256 = false if diff > 5120 or (diff % 256) != 0
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inc = false if diff >= 10
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end
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return "Constant" if allsame
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return "Broken little-endian incremental!" if mul256
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return "Incremental!" if inc
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"Unknown"
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end
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def getfilter(shost, dhost, dport)
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"tcp and src host #{dhost} and src port #{dport} and " +
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"dst host #{shost}"
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end
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# This gets set via the usual capture_sendto interface
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def buildprobe(shost, sport, dhost, dport)
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p = PacketFu::TCPPacket.new
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p.ip_saddr = shost
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p.ip_daddr = dhost
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p.tcp_sport = sport
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p.tcp_dport = dport
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p.tcp_flags.syn = 1
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p.recalc
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p
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end
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def probereply(pcap, to)
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reply = nil
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begin
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Timeout.timeout(to) do
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pcap.each do |r|
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pkt = PacketFu::Packet.parse(r)
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next unless pkt.is_tcp?
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next unless pkt.tcp_flags.syn == 1 || pkt.tcp_flags.rst == 1
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reply = pkt
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break
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end
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end
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rescue Timeout::Error
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end
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return reply
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end
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end
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