local bin = require "bin"
local packet = require "packet"
local stdnse = require "stdnse"
local tab = require "tab"
local table = require "table"
local target = require "target"
--- The following file contains a list of decoders used by the
-- broadcast-listener script. A decoder can be either "ethernet" based or IP
-- based. As we're only monitoring broadcast traffic (ie. traffic not
-- explicitly addressed to us) we're mainly dealing with:
-- o UDP broadcast or multicast traffic
-- o ethernet broadcast traffic
--
-- Hence, the Decoder table defines two sub tables ether and udp.
-- In order to match an incoming UDP packet the destination port number is
-- used, therefore each function is indexed based on their destination port
-- for the udp based decoders. For the ether table each decoder function is
-- indexed according to a pattern that the decoding engine attempts to match.
--
-- Each decoder defines three functions:
-- o new
- creates a new instance of the decoder
-- o process
- process a packet passed through the
-- data
argument.
-- o getResults
- retrieve any discovered results
--
-- The discovery engine creates an instance of each decoder once it's needed.
-- Then discovery engine stores this instance in a decoder table for reference
-- once the next packet of the same type comes in. This allows the engine to
-- discard duplicate packets and to request the collected results at the end
-- of the session.
--
-- Currently, the packet decoder decodes the following protocols:
-- o Ether
-- x ARP requests (IPv4)
-- x CDP - Cisco Discovery Protocol
-- x EIGRP - Cisco Enhanced Interior Gateway Routing Protocol
-- x OSPF - Open Shortest Path First
--
-- o UDP
-- x DHCP
-- x Netbios
-- x SSDP
-- x HSRP
-- x DropBox
-- x Logitech SqueezeBox Discovery
-- x Multicast DNS/Bonjour/ZeroConf
-- x Spotify
--
--
-- @author "Patrik Karlsson "
-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html
-- Version 0.2
-- Created 07/25/2011 - v0.1 - created by Patrik Karlsson
-- 02/12/2012 - v0.2 - added support for EIGRP - Tom Sellers
-- 07/13/2012 - v0.3 - added support for OSPF - Hani Benhabiles
local bin = require 'bin'
local target = require 'target'
local tab = require 'tab'
local packet = require 'packet'
Decoders = {
ether = {
-- ARP IPv4
['^00..08000604'] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, data)
local ipOps = require("ipOps")
local pos, hw, proto, hwsize, protosize, opcode = bin.unpack(">SSCCS", data)
-- this shouldn't ever happen, given our filter
if ( hwsize ~= 6 ) then return end
local sender, target = {}, {}
-- if this isn't an ARP request, abort
if ( opcode ~= 1 ) then return end
pos, sender.mac,
sender.ip,
target.mac,
target.ip = bin.unpack("I", data)
for i=1, count do
pos, proto_type, proto_len = bin.unpack(">CC", data, pos)
pos, addr_proto = bin.unpack(">H" .. proto_len, data, pos)
if ( addr_proto == 'CC' ) then
-- IPv4 address, extract it
pos, addr_len = bin.unpack(">S", data, pos)
pos, dev_addr = bin.unpack("CCS", data, 9)
if ( ver ~= 2 ) then return end
if ( not(self.results) ) then
self.results = tab.new(5)
tab.addrow( self.results, 'ip', 'id', 'platform', 'version', 'notes' )
end
local result_part = {}
result_part.notes = ''
while ( pos < #data ) do
local typ, len, typdata
pos, typ, len = bin.unpack(">SS", data, pos)
pos, typdata = bin.unpack("A" .. len - 4, data, pos)
-- Device ID
if ( typ == 1 ) then
result_part.id = typdata
-- Version
elseif ( typ == 5 ) then
result_part.version = typdata:match(", Version (.-),")
-- Platform
elseif ( typ == 6 ) then
result_part.platform = typdata
-- Address
elseif ( typ == 2 ) then
result_part.ip = self.getAddresses(typdata)
elseif ( typ == 10) then
local _, mgmt_vlan = bin.unpack(">S", data,pos - 2)
result_part.notes = result_part.notes .. 'native vlan:' .. mgmt_vlan .. ' '
-- Management Address
elseif ( typ == 22 ) then
result_part.notes = result_part.notes .. 'mgmt ip:' .. self.getAddresses(typdata) .. ' '
-- TODO: add more decoding of types here ...
end
end
-- TODO: add code for dups check
if ( not(self.dups[result_part.ip]) ) then
self.dups[result_part.ip] = true
tab.addrow( self.results, result_part.ip, result_part.id, result_part.platform, result_part.version, result_part.notes )
end
end,
getResults = function(self) return { name = "CDP", (self.results and tab.dump(self.results) or "") } end,
},
-- EIGRP Update
['0201....0000'] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
-- EIGRP is IP protocol 88 (0x58), so verify this
if ( p.ip_p ~= 88 ) then return end
local data = layer3:sub(p.ip_data_offset + 1)
local eigrp = require("eigrp")
local route_type, proto_name
-- Extract the EIGRP header
local response = eigrp.EIGRP.parse(data)
if response then
-- Iterate over tlv tables
for _, tlv in pairs(response.tlvs) do
if eigrp.EIGRP.isRoutingTLV(tlv.type) then
if ( not(self.results) ) then
self.results = tab.new(7)
tab.addrow(self.results, 'Sender IP', 'AS#', 'Route Type', 'Destination', 'Next hop', 'Ext Protocol', 'Orig Router ID')
end
if tlv.type == 0x102 then
route_type = "Internal"
elseif tlv.type == 0x103 then
route_type = "External"
for name, value in pairs(eigrp.EXT_PROTO) do
if value == tlv.eproto then
proto_name = name
break
end
end
end
if ( not(self.dups[("%s:%s:s:%s"):format(p.ip_src, response.as, tlv.type, tlv.dst)]) ) then
if ( target.ALLOW_NEW_TARGETS ) then target.add(p.ip_src) end
self.dups[("%s:%s:%s:%s"):format(p.ip_src, response.as, tlv.type, tlv.dst)] = true
tab.addrow( self.results, p.ip_src, response.as, route_type, tlv.dst, tlv.nexth, proto_name or 'X', tlv.orouterid or 'X')
end
end
end
end
end,
getResults = function(self) return { name = "EIGRP Update", (self.results and tab.dump(self.results) or "") } end,
},
['0205....0000'] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
-- EIGRP is IP protocol 88 (0x58), so verify this
if ( p.ip_p ~= 88 ) then return end
local data = layer3:sub(p.ip_data_offset + 1)
local eigrp = require("eigrp")
-- Extract the EIGRP header
local response = eigrp.EIGRP.parse(data)
-- See if Software version TLV is included
local swvertlv
for num, tlv in pairs(response.tlvs) do
if tlv.type == eigrp.TLV.SWVER then
swvertlv = num
end
end
if swvertlv then
if ( not(self.results) ) then
self.results = tab.new(5)
tab.addrow(self.results, 'Sender IP', 'AS number', 'EIGRP version', 'IOS version')
end
if ( not(self.dups[("%s:%s"):format(p.ip_src,response.as)]) ) then
if ( target.ALLOW_NEW_TARGETS ) then target.add(p.ip_src) end
self.dups[("%s:%s"):format(p.ip_src,response.as)] = true
tab.addrow( self.results, p.ip_src, response.as, response.tlvs[swvertlv].majv .. '.' .. response.tlvs[swvertlv].minv, response.tlvs[swvertlv].majtlv .. '.' .. response.tlvs[swvertlv].mintlv)
end
end
end,
getResults = function(self) return { name = "EIGRP Hello", (self.results and tab.dump(self.results) or "") } end,
},
-- OSPF
['02010'] = { -- OSPFv2 Hello packet
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
-- IP Protocol is 89 for OSPF
if p.ip_p ~= 89 then return end
local ospf = require("ospf")
local data = layer3:sub(p.ip_data_offset + 1)
local header = ospf.OSPF.Header.parse(data)
if header then
if not(self.results) then
self.results = tab.new(5)
tab.addrow(self.results, 'Source IP', 'Router ID', 'Area ID', 'Auth Type', 'Password')
end
local srcip = p.ip_src
local areaid = header.area_id
local routerid = header.router_id
local authtype = header.auth_type
local authdata
-- Format authentication type and data
if header.auth_type == 0 then
authtype = "None"
authdata = ''
elseif header.auth_type == 1 then
authtype = "Password"
authdata = header.auth_data.password
elseif header.auth_type == 2 then
authtype = "OSPF MD5"
authdata = "" -- Not really helpful, as the MD5
-- is applied to the whole packet+password
else
-- Error
stdnse.debug1("Unknown OSPF auth type %d", header.auth_type)
return
end
if ( not(self.dups[("%s:%s"):format(routerid,areaid)]) ) then
if ( target.ALLOW_NEW_TARGETS ) then target.add(routerid) end
self.dups[("%s:%s"):format(routerid,areaid)] = true
tab.addrow( self.results, srcip, routerid, areaid, authtype, authdata)
end
else
return nil
end
end,
getResults = function(self) return { name = "OSPF Hello", (self.results and tab.dump(self.results)) } end,
},
},
udp = {
-- DHCP
[68] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
getOption = function(options, name)
for _, v in ipairs(options) do
if ( v.name == name ) then
if ( type(v.value) == "table" ) then
return stdnse.strjoin(", ", v.value)
else
return v.value
end
end
end
end,
process = function(self, layer3)
local dhcp = require("dhcp")
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
-- the dhcp.parse function isn't optimal for doing
-- this, but it will do for now. First, we need to
-- extract the xid as the parse function checks that it
-- was the same as in the request, which we didn't do.
local pos, msgtype, _, _, _, xid = bin.unpack(" 1) then
table.insert(result, { name = "Registrations", tab.dump(self.reg_result) })
end
if ( #self.query_result > 1 ) then
table.insert(result, { name = "Query", tab.dump(self.query_result) })
end
return result
end,
},
-- BROWSER
[138] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local bin = require('bin')
local netbios = require('netbios')
local tab = require('tab')
local ipOps = require("ipOps")
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
local pos, ip, _, src, dst = 5
pos, ip, _, _, _, src, dst = bin.unpack(" 0 and result or nil )
end
local results = split(data)
local uri = ( #results > 3 and results[3]:match('[^%"]+') )
local loc = ( #results > 4 and results[4]:match('[^%"]+') or "")
local info = ( #results > 5 and results[5]:match('[^%"]+') or "")
local model = ( #results > 6 and results[6]:match('[^%"]+') or "")
if ( not(self.results) ) then
self.results = tab.new(4)
tab.addrow(self.results, 'ip', 'uri', 'loc', 'model')
end
stdnse.debug1("Decoded CUPS: %s, %s, %s, %s", p.ip_src, uri, loc, model)
if ( not(self.dups[p.ip_src]) or not(self.dups[p.ip_src][uri]) ) then
tab.addrow(self.results, p.ip_src, uri, loc, model)
self.dups[p.ip_src] = self.dups[p.ip_src] or {}
self.dups[p.ip_src][uri] = self.dups[p.ip_src][uri] or true
end
end,
getResults = function(self) return { name = "CUPS", (self.results and tab.dump(self.results)) } end,
},
-- SSDP
[1900] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
local headers = stdnse.strsplit("\r\n", data)
for _, h in ipairs(headers) do
local st = ""
if ( h:match("^ST:.*") ) then
st = h:match("^ST:(.*)")
if ( not(self.results) ) then
self.results = tab.new(1)
tab.addrow( self.results, 'ip', 'uri' )
end
if ( not(self.dups[("%s:%s"):format(p.ip_src,st)]) ) then
if ( target.ALLOW_NEW_TARGETS ) then target.add(p.ip_src) end
tab.addrow( self.results, p.ip_src, st )
self.dups[("%s:%s"):format(p.ip_src,st)] = true
end
end
end
end,
getResults = function(self) return { name = "SSDP", (self.results and tab.dump(self.results)) } end,
},
--- HSRP
[1985] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
local ipOps = require("ipOps")
local State = {
[0] = "Initial",
[1] = "Learn",
[2] = "Listen",
[4] = "Speak",
[8] = "Standby",
[16] = "Active"
}
local Op = {
[0] = "Hello",
[1] = "Coup",
[2] = "Resign",
}
local pos, version, op, state, _, _, prio, group, _, secret = bin.unpack("CCCCCCCCz", data)
if ( version ~= 0 ) then return end
pos = pos + ( 7 - #secret )
local virtip
pos, virtip = bin.unpack(" 0 ) then
name = dresp.questions[1].dname
elseif ( dresp.answers and #dresp.answers > 0 ) then
-- Identify MacBooks
local macbook, model, ip, ipv6
if ( p.ip_src:match(":") ) then
ipv6 = p.ip_src
else
ip = p.ip_src
end
for i in ipairs(dresp.answers) do
if ( dresp.answers[i]['data'] ) then
local _, data = bin.unpack("p", dresp.answers[i]['data'])
if ( data ) then
model = data:match("^model=(.*)")
if ( model ) then
macbook = dresp.answers[i]['dname']:match("^(.-)%._")
end
end
elseif ( dresp.answers[i]['ip'] ) then
ip = dresp.answers[i]['ip']
elseif ( dresp.answers[i]['ipv6'] ) then
ipv6 = dresp.answers[i]['ipv6']
elseif ( not(macbook) and dresp.answers[i]['domain'] ) then
macbook = dresp.answers[i]['domain']
end
end
if ( macbook and model ) then
self.macbooks[macbook] = self.macbooks[macbook] or {}
self.macbooks[macbook]['macbook'] = self.macbooks[macbook]['macbook'] or macbook
self.macbooks[macbook]['model'] = self.macbooks[macbook]['model'] or model
self.macbooks[macbook]['ip'] = self.macbooks[macbook]['ip'] or ip
self.macbooks[macbook]['ipv6'] = self.macbooks[macbook]['ipv6'] or ipv6
stdnse.debug1("Decoded MDNS(MacBook): %s, %s, %s, %s",
(self.macbooks[macbook]['ip'] or ""), (self.macbooks[macbook]['ipv6'] or ""),
self.macbooks[macbook]['model'], self.macbooks[macbook]['macbook'])
else
name = dresp.answers[1].dname
if ( not(name) ) then return end
self.generic[name] = self.generic[name] or {}
self.generic[name]['name'] = self.generic[name]['name'] or name
if ( p.ip_src:match(":") ) then
self.generic[name]['ipv6'] = p.ip_src
else
self.generic[name]['ip'] = p.ip_src
end
stdnse.debug1("Decoded MDNS(Generic): %s, %s", name, p.ip_src)
end
end
end,
getResults = function(self)
local tab = require('tab')
local result = { name = "MDNS" }
-- build a macbooks table
local macbooks, generic
if ( next(self.generic) ) then
table.sort(self.generic)
generic = tab.new(3)
tab.addrow(generic, 'ip', 'ipv6', 'name')
for name, v in pairs(self.generic) do
tab.addrow(generic, (v.ip or ""), (v.ipv6 or ""), name)
end
table.insert(result, { name = 'Generic', tab.dump(generic) } )
end
if ( next(self.macbooks) ) then
table.sort(self.macbooks)
macbooks = tab.new(4)
tab.addrow(macbooks, 'ip', 'ipv6', 'name', 'model')
for _, v in pairs(self.macbooks) do
tab.addrow(macbooks, (v.ip or ""), (v.ipv6 or ""), v.macbook, v.model)
end
table.insert(result, { name = 'Macbooks', tab.dump(macbooks) } )
end
return result
end,
},
[5355] = { -- LLMNR
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local tab = require('tab')
local dns = require('dns')
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
local resp = dns.decode(data)
if ( not(self.results) ) then
self.results = tab.new(2)
tab.addrow(self.results, 'ip', 'query')
end
local name = (( resp.questions and #resp.questions > 0 ) and resp.questions[1].dname )
if ( not(name) ) then return end
stdnse.debug1("Decoded LLMNR: %s, %s", p.ip_src, name)
if ( not(self.dups[("%s:%s"):format(p.ip_src, name)]) ) then
self.dups[("%s:%s"):format(p.ip_src, name)] = true
tab.addrow(self.results, p.ip_src, name)
end
end,
getResults = function(self) return { name = "LLMNR", (self.results and tab.dump(self.results)) } end,
},
--- Spotify
[57621] = {
new = function(self)
local o = { dups = {} }
setmetatable(o, self)
self.__index = self
return o
end,
process = function(self, layer3)
local p = packet.Packet:new( layer3, #layer3 )
local data = layer3:sub(p.udp_offset + 9)
if ( data:match("^SpotUdp") ) then
if ( not(self.results) ) then
self.results = tab.new(1)
tab.addrow( self.results, 'ip' )
end
if ( not(self.dups[p.ip_src]) ) then
tab.addrow( self.results, p.ip_src )
self.dups[p.ip_src] = true
if ( target.ALLOW_NEW_TARGETS ) then target.add(p.ip_src) end
end
end
end,
getResults = function(self) return { name = "Spotify", (self.results and tab.dump(self.results)) } end,
}
}
}