local bin = require "bin" local coroutine = require "coroutine" local ipOps = require "ipOps" local nmap = require "nmap" local packet = require "packet" local stdnse = require "stdnse" local tab = require "tab" local table = require "table" local target = require "target" local openssl = stdnse.silent_require "openssl" description = [[ Sends broadcast pings on a selected interface using raw ethernet packets and outputs the responding hosts' IP and MAC addresses or (if requested) adds them as targets. Root privileges on UNIX are required to run this script since it uses raw sockets. Most operating systems don't respond to broadcast-ping probes, but they can be configured to do so. The interface on which is broadcasted can be specified using the -e Nmap option or the broadcast-ping.interface script-arg. If no interface is specified this script broadcasts on all ethernet interfaces which have an IPv4 address defined. The newtarget script-arg can be used so the script adds the discovered IPs as targets. The timeout of the ICMP probes can be specified using the timeout script-arg. The default timeout is 3000 ms. A higher number might be necessary when scanning across larger networks. The number of sent probes can be specified using the num-probes script-arg. The default number is 1. A higher value might get more results on larger networks. The ICMP probes sent comply with the --ttl and --data-length Nmap options, so you can use those to control the TTL(time to live) and ICMP payload length respectively. The default value for TTL is 64, and the length of the payload is 0. The payload is consisted of random bytes. ]] --- -- @usage -- nmap -e [--ttl ] [--data-length ] -- --script broadcast-ping [--script-args [broadcast-ping.timeout=],[num-probes=]] -- -- @args broadcast-ping.interface string specifying which interface to use for this script (default all interfaces) -- @args broadcast-ping.num_probes number specifying how many ICMP probes should be sent (default 1) -- @args broadcast-ping.timeout timespec specifying how long to wait for response (default 3s) -- -- @output -- | broadcast-ping: -- | IP: 192.168.1.1 MAC: 00:23:69:2a:b1:25 -- | IP: 192.168.1.106 MAC: 1c:65:9d:88:d8:36 -- |_ Use --script-args=newtargets to add the results as targets -- -- author = "Gorjan Petrovski" license = "Same as Nmap--See http://nmap.org/book/man-legal.html" categories = {"discovery","safe","broadcast"} prerule = function() if not nmap.is_privileged() then nmap.registry[SCRIPT_NAME] = nmap.registry[SCRIPT_NAME] or {} if not nmap.registry[SCRIPT_NAME].rootfail then stdnse.verbose1("not running for lack of privileges.") end nmap.registry[SCRIPT_NAME].rootfail = true return nil end if nmap.address_family() ~= 'inet' then stdnse.debug1("is IPv4 compatible only.") return false end return true end --- ICMP packet crafting -- -- @param srcIP string containing the source IP, IPv4 format -- @param dstIP string containing the destination IP, IPv4 format -- @param ttl number containing value for the TTL (time to live) field in IP header -- @param data_length number value of ICMP payload length local icmp_packet = function(srcIP, dstIP, ttl, data_length, mtu, seqNo, icmp_id) -- A couple of checks first assert((seqNo and seqNo>0 and seqNo<=0xffff),"ICMP Sequence number: Value out of range(1-65535).") assert((ttl and ttl>0 and ttl<0xff),"TTL(time-to-live): Value out of range(1-256).") -- MTU values should be considered here! assert((data_length and data_length>=0 and data_length0 then icmp_payload = openssl.rand_bytes(data_length) else icmp_payload = "" end -- Type=08; Code=00; Chksum=0000; ID=icmp_id; SeqNo=icmp_seqNo; Payload=icmp_payload(hex string); local icmp_msg = bin.pack(">CCSASA", 8, 0, 0, icmp_id, seqNo, icmp_payload) local icmp_checksum = packet.in_cksum(icmp_msg) icmp_msg = bin.pack(">CCSASA", 8, 0, icmp_checksum, icmp_id, seqNo, icmp_payload) --IP header local ip_bin = bin.pack(">ASSACCx10", -- x10 = checksum & addresses "\x45\x00", -- IPv4, no options, no DSCN, no ECN 20 + #icmp_msg, -- total length 0, -- IP ID "\x40\x00", -- DF ttl, 1 -- ICMP ) -- IP+ICMP; Addresses and checksum need to be filled local icmp_bin = ip_bin .. icmp_msg --Packet local icmp = packet.Packet:new(icmp_bin,#icmp_bin) assert(icmp,"Mistake during ICMP packet parsing") icmp:ip_set_bin_src(ipOps.ip_to_str(srcIP)) icmp:ip_set_bin_dst(ipOps.ip_to_str(dstIP)) icmp:ip_count_checksum() return icmp end local broadcast_if = function(if_table,icmp_responders) local condvar = nmap.condvar(icmp_responders) local num_probes = tonumber(stdnse.get_script_args(SCRIPT_NAME .. ".num-probes")) or 1 local timeout = stdnse.parse_timespec(stdnse.get_script_args(SCRIPT_NAME .. ".timeout")) timeout = (timeout or 3) * 1000 local ttl = nmap.get_ttl() local data_length = nmap.get_payload_length() local sequence_number = 1 local destination_IP = "255.255.255.255" -- raw IPv4 socket local dnet = nmap.new_dnet() local try = nmap.new_try() try = nmap.new_try(function() dnet:ethernet_close() end) -- raw sniffing socket (icmp echoreply style) local pcap = nmap.new_socket() pcap:set_timeout(timeout) local mtu = if_table.mtu or 256 -- 256 is minimal mtu pcap:pcap_open(if_table.device, 104, false, "dst host ".. if_table.address .. " and icmp[icmptype]==icmp-echoreply") try(dnet:ethernet_open(if_table.device)) local source_IP = if_table.address local icmp_ids = {} for i = 1, num_probes do -- ICMP packet local icmp_id = openssl.rand_bytes(2) icmp_ids[icmp_id]=true local icmp = icmp_packet( source_IP, destination_IP, ttl, data_length, mtu, sequence_number, icmp_id) local ethernet_icmp = ( "\xFF\xFF\xFF\xFF\xFF\xFF" -- dst mac .. if_table.mac -- src mac .. "\x08\x00" -- ethertype IPv4 .. icmp.buf -- data ) try( dnet:ethernet_send(ethernet_icmp) ) end while true do local status, plen, l2, l3data, _ = pcap:pcap_receive() if not status then break end -- Do stuff with packet local icmpreply = packet.Packet:new(l3data,plen,false) -- We check whether the packet is parsed ok, and whether the ICMP ID of the sent packet -- is the same with the ICMP ID of the received packet. We don't want ping probes interfering local icmp_id = icmpreply:raw(icmpreply.icmp_offset+4,2) if icmpreply:ip_parse() and icmp_ids[icmp_id] then if not icmp_responders[icmpreply.ip_src] then -- [key = IP]=MAC local mac_pretty = stdnse.format_mac(l2:sub(7,12)) icmp_responders[icmpreply.ip_src] = mac_pretty end else stdnse.debug1("Erroneous ICMP packet received; Cannot parse IP header.") end end pcap:close() dnet:ethernet_close() condvar "signal" end action = function() --get interface script-args, if any local interface_arg = stdnse.get_script_args(SCRIPT_NAME .. ".interface") local interface_opt = nmap.get_interface() -- interfaces list (decide which interfaces to broadcast on) local interfaces ={} if interface_opt or interface_arg then -- single interface defined local interface = interface_opt or interface_arg local if_table = nmap.get_interface_info(interface) if not if_table or not if_table.address or not if_table.link=="ethernet" then stdnse.debug1("Interface not supported or not properly configured.") return false end table.insert(interfaces, if_table) else local tmp_ifaces = nmap.list_interfaces() for _, if_table in ipairs(tmp_ifaces) do if if_table.address and if_table.link=="ethernet" and if_table.address:match("%d+%.%d+%.%d+%.%d+") then table.insert(interfaces, if_table) end end end if #interfaces == 0 then stdnse.debug1("No interfaces found.") return end local icmp_responders={} local threads ={} local condvar = nmap.condvar(icmp_responders) -- party time for _, if_table in ipairs(interfaces) do -- create a thread for each interface local co = stdnse.new_thread(broadcast_if, if_table, icmp_responders) threads[co]=true end 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 -- generate output local output = tab.new() for ip_addr, mac_addr in pairs(icmp_responders) do if target.ALLOW_NEW_TARGETS then target.add(ip_addr) end tab.addrow(output, "IP: " .. ip_addr, "MAC: " .. mac_addr) end if #output > 0 then output = { tab.dump(output) } if not target.ALLOW_NEW_TARGETS then output[#output + 1] = "Use --script-args=newtargets to add the results as targets" end return stdnse.format_output(true, output) end end