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Diffstat (limited to '')
-rw-r--r-- | scripts/broadcast-listener.nse | 297 |
1 files changed, 297 insertions, 0 deletions
diff --git a/scripts/broadcast-listener.nse b/scripts/broadcast-listener.nse new file mode 100644 index 0000000..3d0cf38 --- /dev/null +++ b/scripts/broadcast-listener.nse @@ -0,0 +1,297 @@ +local _G = require "_G" +local coroutine = require "coroutine" +local nmap = require "nmap" +local packet = require "packet" +local stdnse = require "stdnse" +local table = require "table" + +description = [[ +Sniffs the network for incoming broadcast communication and +attempts to decode the received packets. It supports protocols like CDP, HSRP, +Spotify, DropBox, DHCP, ARP and a few more. See packetdecoders.lua for more +information. + +The script attempts to sniff all ethernet based interfaces with an IPv4 address +unless a specific interface was given using the -e argument to Nmap. +]] + +--- +-- @usage +-- nmap --script broadcast-listener +-- nmap --script broadcast-listener -e eth0 +-- +-- @output +-- | broadcast-listener: +-- | udp +-- | Netbios +-- | ip query +-- | 192.168.0.60 \x01\x02__MSBROWSE__\x02\x01 +-- | DHCP +-- | srv ip cli ip mask gw dns +-- | 192.168.0.1 192.168.0.5 255.255.255.0 192.168.0.1 192.168.0.18, 192.168.0.19 +-- | DropBox +-- | displayname ip port version host_int namespaces +-- | 39000860 192.168.0.107 17500 1.8 39000860 28814673, 29981099 +-- | HSRP +-- | ip version op state prio group secret virtual ip +-- | 192.168.0.254 0 Hello Active 110 1 cisco 192.168.0.253 +-- | ether +-- | CDP +-- | ip id platform version +-- | ? Router cisco 7206VXR 12.3(23) +-- | ARP Request +-- | sender ip sender mac target ip +-- | 192.168.0.101 00:04:30:26:DA:C8 192.168.0.60 +-- |_ 192.168.0.1 90:24:1D:C8:B9:AE 192.168.0.60 +-- +-- @args broadcast-listener.timeout specifies the amount of seconds to sniff +-- the network interface. (default 30s) +-- +-- The script attempts to discover all available ipv4 network interfaces, +-- unless the Nmap -e argument has been supplied, and then starts sniffing +-- packets on all of the discovered interfaces. It sets a BPF filter to exclude +-- all packets that have the interface address as source or destination in +-- order to capture broadcast traffic. +-- +-- Incoming packets can either be either layer 3 (usually UDP) or layer 2. +-- Depending on the layer the packet is matched against a packet decoder loaded +-- from the external nselib/data/packetdecoder.lua file. A more detailed +-- description on how the decoders work can be found in that file. +-- In short, there are two different types of decoders: udp and ether. +-- The udp decoders get triggered by the destination port number, while the +-- ether decoders are triggered by a pattern match. The port or pattern is used +-- as an index in a table containing functions to process packets and fetch +-- the decoded results. +-- + + +-- +-- Version 0.1 +-- Created 07/02/2011 - v0.1 - created by Patrik Karlsson <patrik@cqure.net> +-- Revised 07/25/2011 - v0.2 - +-- * added more documentation +-- * added getInterfaces code to detect available +-- interfaces. +-- * corrected bug that would fail to load +-- decoders if not in a relative directory. + + + +author = "Patrik Karlsson" +license = "Same as Nmap--See https://nmap.org/book/man-legal.html" +categories = {"broadcast", "safe"} + + + + +prerule = function() + if not nmap.is_privileged() then + stdnse.verbose1("not running for lack of privileges.") + return false + end + return true +end + +--- +-- loads the decoders from file +-- +-- @param fname string containing the name of the file +-- @return status true on success false on failure +-- @return decoders table of decoder functions on success +-- @return err string containing the error message on failure +loadDecoders = function(fname) + -- resolve the full, absolute, path + local abs_fname = nmap.fetchfile(fname) + + if ( not(abs_fname) ) then + return false, ("Failed to load decoder definition (%s)"):format(fname) + end + + local env = setmetatable({Decoders = {}}, {__index = _G}); + local file = loadfile(abs_fname, "t", env) + if(not(file)) then + stdnse.debug1("Couldn't load decoder file: %s", fname) + return false, "Couldn't load decoder file: " .. fname + end + + file() + + local d = env.Decoders + + if ( d ) then return true, d end + return false, "Failed to load decoders" +end + +--- +-- Starts sniffing the selected interface for packets with a destination that +-- is not explicitly ours (broadcast, multicast etc.) +-- +-- @param iface table containing <code>name</code> and <code>address</code> +-- @param Decoders the decoders class loaded externally +-- @param decodertab the "result" table to which all discovered items are +-- reported +sniffInterface = function(iface, Decoders, decodertab) + local condvar = nmap.condvar(decodertab) + local sock = nmap.new_socket() + local timeout = stdnse.parse_timespec(stdnse.get_script_args("broadcast-listener.timeout")) + + -- default to 30 seconds, if nothing else was set + timeout = (timeout or 30) * 1000 + + -- We want all packets that aren't explicitly for us + sock:pcap_open(iface.name, 1500, true, ("!host %s"):format(iface.address)) + + -- Set a short timeout so that we can timeout in time if needed + sock:set_timeout(100) + + local start_time = nmap.clock_ms() + while( nmap.clock_ms() - start_time < timeout ) do + local status, _, _, data = sock:pcap_receive() + + if ( status ) then + local p = packet.Packet:new( data, #data ) + + -- if we have an UDP-based broadcast, we should have a proper packet + if ( p and p.udp_dport and ( decodertab.udp[p.udp_dport] or Decoders.udp[p.udp_dport] ) ) then + local uport = p.udp_dport + if ( not(decodertab.udp[uport]) ) then + decodertab.udp[uport] = Decoders.udp[uport]:new() + end + stdnse.new_thread(decodertab.udp[uport].process, decodertab.udp[uport], data) + -- The packet was decoded successfully but we don't have a valid decoder + -- Report this + elseif ( p and p.udp_dport ) then + stdnse.debug2("No decoder for dst port %d", p.udp_dport) + -- we don't have a packet, so this is most likely something layer2 based + -- in that case, check the ether Decoder table for pattern matches + else + -- attempt to find a match for a pattern + local hex = stdnse.tohex(data) + local decoded = false + for match, _ in pairs(Decoders.ether) do + -- attempts to match the "raw" packet against a filter + -- supplied in each ethernet packet decoder + if ( hex:match(match) ) then + stdnse.debug1("Packet matched '%s'", match) + if ( not(decodertab.ether[match]) ) then + decodertab.ether[match] = Decoders.ether[match]:new() + end + -- start a new decoding thread. This way, if something gets foobared + -- the whole script doesn't break, only the packet decoding for that + -- specific packet. + stdnse.new_thread( decodertab.ether[match].process, decodertab.ether[match], data ) + decoded = true + end + end + -- no decoder was found for this layer2 packet + if ( not(decoded) and #data > 10 ) then + stdnse.debug1("No decoder for packet hex: %s", stdnse.tohex(data:sub(1,10))) + end + end + end + end + condvar "signal" +end + +--- +-- Gets a list of available interfaces based on link and up filters +-- Interfaces are only added if they've got an ipv4 address +-- +-- @param link string containing the link type to filter +-- @param up string containing the interface status to filter +-- @return result table containing tables of interfaces +-- each interface table has the following fields: +-- <code>name</code> containing the device name +-- <code>address</code> containing the device address +getInterfaces = function(link, up) + if( not(nmap.list_interfaces) ) then return end + local interfaces, err = nmap.list_interfaces() + local result = {} + if ( not(err) ) then + for _, iface in ipairs(interfaces) do + if ( iface.link == link and + iface.up == up and + iface.address ) then + + -- exclude ipv6 addresses for now + if ( not(iface.address:match(":")) ) then + table.insert(result, { name = iface.device, + address = iface.address } ) + end + end + end + end + return result +end + +local function fail (err) return stdnse.format_output(false, err) end + +action = function() + + local DECODERFILE = "nselib/data/packetdecoders.lua" + local iface = nmap.get_interface() + local interfaces = {} + + -- was an interface supplied using the -e argument? + if ( iface ) then + local iinfo, err = nmap.get_interface_info(iface) + + if ( not(iinfo.address) ) then + return fail("The IP address of the interface could not be determined") + end + + interfaces = { { name = iface, address = iinfo.address } } + else + -- no interface was supplied, attempt autodiscovery + interfaces = getInterfaces("ethernet", "up") + end + + -- make sure we have at least one interface to start sniffing + if ( #interfaces == 0 ) then + return fail("Could not determine any valid interfaces") + end + + -- load the decoders from file + local status, Decoders = loadDecoders(DECODERFILE) + if ( not(status) ) then return fail(Decoders) end + + -- create a local table to handle instantiated decoders + local decodertab = { udp = {}, ether = {} } + local condvar = nmap.condvar(decodertab) + local threads = {} + + -- start a thread for each interface to sniff + for _, iface in ipairs(interfaces) do + local co = stdnse.new_thread(sniffInterface, iface, Decoders, decodertab) + threads[co] = true + end + + -- wait for all threads to finish sniffing + repeat + for thread in pairs(threads) do + if coroutine.status(thread) == "dead" then + threads[thread] = nil + end + end + if ( next(threads) ) then + condvar "wait" + end + until next(threads) == nil + + local out_outer = {} + + -- create the results table + for proto, _ in pairs(decodertab) do + local out_inner = {} + for key, decoder in pairs(decodertab[proto]) do + table.insert( out_inner, decodertab[proto][key]:getResults() ) + end + if ( #out_inner > 0 ) then + table.insert( out_outer, { name = proto, out_inner } ) + end + end + + table.sort(out_outer, function(a, b) return a.name < b.name end) + return stdnse.format_output(true, out_outer) + +end |