Fixes #788 by (finally!) committing Daniele's IPv6 link-local IPv6 scanner. Note that the timing can be a little touchy for this module (as well as for the IPv4 ARP scanner) but seems to be reliable enough on normal networks when scanning a /24.

Sorry for the delay!


git-svn-id: file:///home/svn/framework3/trunk@10700 4d416f70-5f16-0410-b530-b9f4589650da
unstable
Tod Beardsley 2010-10-15 22:48:18 +00:00
parent 4f40459498
commit 97ebcd30a9
1 changed files with 223 additions and 0 deletions

View File

@ -0,0 +1,223 @@
##
# $Id$
##
##
# 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/projects/Framework/
##
require 'msf/core'
class Metasploit3 < Msf::Auxiliary
include Msf::Exploit::Remote::Capture
include Msf::Auxiliary::Report
include Msf::Auxiliary::Scanner
def initialize
super(
'Name' => 'IPv6 Local Neighbor Discovery',
'Version' => '$Revision$',
'Description' => %q{
Enumerate local IPv6 hosts which respond to Neighbor Solicitations with a link-local address.
Note, that like ARP scanning, this usually cannot be performed beyond the local
broadcast network.
},
'Author' => 'belch',
'License' => MSF_LICENSE
)
register_options(
[
OptString.new('SHOST', [true, "Source IP Address"]),
OptString.new('SMAC', [true, "Source MAC Address"]),
], self.class)
deregister_options('SNAPLEN', 'FILTER')
end
def run_batch_size
datastore['BATCHSIZE'] || 256
end
def run_batch(hosts)
print_status("IPv4 Hosts Discovery")
shost = datastore['SHOST']
smac = datastore['SMAC']
addrs = []
open_pcap({'SNAPLEN' => 68, 'FILTER' => "arp[6:2] == 0x0002"})
begin
hosts.each do |dhost|
probe = buildprobe(datastore['SHOST'], datastore['SMAC'], dhost)
capture.inject(probe)
while(reply = getreply())
next if not reply[:arp]
print_status("#{reply[:arp].spa} is alive.")
addrs << [reply[:arp].spa, reply[:arp].sha]
report_host(:host => reply[:arp].spa, :mac=>reply[:arp].sha)
end
end
etime = Time.now.to_f + (hosts.length * 0.05)
while (Time.now.to_f < etime)
while(reply = getreply())
next if not reply[:arp]
print_status("#{reply[:arp].spa} is alive.")
addrs << [reply[:arp].spa, reply[:arp].sha]
end
Kernel.select(nil, nil, nil, 0.50)
end
ensure
close_pcap()
end
neighbor_discovery(addrs)
end
def map_neighbor(nodes, adv)
nodes.each do |node|
ipv4_addr, mac_addr = node
next if not adv[:eth].src_mac.eql? mac_addr
ipv6_addr = Racket::L3::Misc.long2ipv6(adv[:ipv6].src_ip)
return {:eth => mac_addr, :ipv4 => ipv4_addr, :ipv6 => ipv6_addr}
end
nil
end
def neighbor_discovery(neighs)
print_status("IPv6 Neighbor Discovery")
smac = datastore['SMAC']
open_pcap({'SNAPLEN' => 68, 'FILTER' => "icmp6"})
begin
neighs.each do |neigh|
host, dmac = neigh
shost = Racket::L3::Misc.linklocaladdr(smac)
neigh = Racket::L3::Misc.linklocaladdr(dmac)
probe = buildsolicitation(smac, shost, neigh)
capture.inject(probe)
while(adv = getadvertisement())
next if not adv[:icmpv6]
addr = map_neighbor(neighs, adv)
next if not addr
print_status("#{addr[:ipv4]} maps to IPv6 link local address #{addr[:ipv6]}")
end
end
etime = Time.now.to_f + (neighs.length * 0.5)
while (Time.now.to_f < etime)
while(adv = getadvertisement())
next if not adv[:icmpv6]
addr = map_neighbor(neighs, adv)
next if not addr
print_status("#{addr[:ipv4]} maps to IPv6 link local address #{addr[:ipv6]}")
end
Kernel.select(nil, nil, nil, 0.50)
end
ensure
close_pcap()
end
end
def buildprobe(shost, smac, dhost)
n = Racket::Racket.new
n.l2 = Racket::L2::Ethernet.new(Racket::Misc.randstring(14))
n.l2.src_mac = smac
n.l2.dst_mac = 'ff:ff:ff:ff:ff:ff'
n.l2.ethertype = 0x0806
n.l3 = Racket::L3::ARP.new
n.l3.opcode = Racket::L3::ARP::ARPOP_REQUEST
n.l3.sha = n.l2.src_mac
n.l3.tha = n.l2.dst_mac
n.l3.spa = shost
n.l3.tpa = dhost
n.pack
end
def getreply
pkt = capture.next
return if not pkt
eth = Racket::L2::Ethernet.new(pkt)
return if not eth.ethertype == 0x0806
arp = Racket::L3::ARP.new(eth.payload)
return if not arp.opcode == Racket::L3::ARP::ARPOP_REPLY
{:raw => pkt, :eth => eth, :arp => arp}
end
def buildsolicitation(smac, shost, neigh)
dmac = Racket::L3::Misc.soll_mcast_mac(neigh)
dhost = Racket::L3::Misc.soll_mcast_addr6(neigh)
n = Racket::Racket.new
n.l2 = Racket::L2::Ethernet.new(Racket::Misc.randstring(14))
n.l2.src_mac = smac
n.l2.dst_mac = dmac
n.l2.ethertype = 0x86dd
n.l3 = Racket::L3::IPv6.new
n.l3.src_ip = Racket::L3::Misc.ipv62long(shost)
n.l3.dst_ip = Racket::L3::Misc.ipv62long(dhost)
n.l3.nhead = 0x3a
n.l3.ttl = 0xff
n.l4 = Racket::L4::ICMPv6NeighborSolicitation.new
n.l4.address = Racket::L3::Misc.ipv62long(neigh)
n.l4.slla = smac
n.l4.fix!(n.l3.src_ip, n.l3.dst_ip)
n.pack
end
def getadvertisement
pkt = capture.next
return if not pkt
eth = Racket::L2::Ethernet.new(pkt)
return if not eth.ethertype == 0x86dd
ipv6 = Racket::L3::IPv6.new(eth.payload)
return if not ipv6.nhead == 0x3a
icmpv6 = Racket::L4::ICMPv6.new(ipv6.payload)
return if not icmpv6.type == Racket::L4::ICMPv6::ICMPv6_TYPE_NEIGHBOR_ADVERTISEMENT
icmpv6 = Racket::L4::ICMPv6NeighborAdvertisement.new(ipv6.payload)
{:raw => pkt, :eth => eth, :ipv6 => ipv6, :icmpv6 => icmpv6}
end
end