description = [[
Attempts to enumerate network interfaces through SNMP.
This script can also be run during Nmap's pre-scanning phase and can
attempt to add the SNMP server's interface addresses to the target
list. The script argument snmp-interfaces.host
is
required to know what host to probe. To specify a port for the SNMP
server other than 161, use snmp-interfaces.port
. When
run in this way, the script's output tells how many new targets were
successfully added.
]]
---
-- @args snmp-interfaces.host Specifies the SNMP server to probe when
-- running in the "pre-scanning phase".
-- @args snmp-interfaces.port The optional port number corresponding
-- to the host script argument. Defaults to 161.
--
-- @output
-- | snmp-interfaces:
-- | eth0
-- | IP address: 192.168.221.128
-- | MAC address: 00:0c:29:01:e2:74 (VMware)
-- | Type: ethernetCsmacd Speed: 1 Gbps
-- |_ Traffic stats: 6.45 Mb sent, 15.01 Mb received
--
author = "Thomas Buchanan, Kris Katterjohn"
license = "Same as Nmap--See http://nmap.org/book/man-legal.html"
categories = {"default", "discovery", "safe"}
dependencies = {"snmp-brute"}
-- code borrowed heavily from Patrik Karlsson's excellent snmp scripts
-- Created 03/03/2010 - v0.1 - created by Thomas Buchanan
-- Revised 03/05/2010 - v0.2 - Reworked output slighty, moved iana_types to script scope. Suggested by David Fifield
-- Revised 04/11/2010 - v0.2 - moved snmp_walk to snmp library
-- Revised 08/10/2010 - v0.3 - prerule; add interface addresses to Nmap's target list (Kris Katterjohn)
require "stdnse"
require "shortport"
require "snmp"
require "datafiles"
require "target"
prerule = function()
if not stdnse.get_script_args({"snmp-interfaces.host", "host"}) then
stdnse.print_debug(3,
"Skipping '%s' %s, 'snmp-interfaces.host' argument is missing.",
SCRIPT_NAME, SCRIPT_TYPE)
return false
end
return true
end
portrule = shortport.portnumber(161, "udp", {"open", "open|filtered"})
-- List of IANA-assigned network interface types
-- Taken from IANAifType-MIB
-- Available at http://www.iana.org/assignments/ianaiftype-mib
-- REVISION "201002110000Z"
local iana_types = { "other", "regular1822", "hdh1822", "ddnX25", "rfc877x25", "ethernetCsmacd",
"iso88023Csmacd", "iso88024TokenBus", "iso88025TokenRing", "iso88026Man", "starLan",
"proteon10Mbit", "proteon80Mbit", "hyperchannel", "fddi", "lapb", "sdlc", "ds1", "e1",
"basicISDN", "primaryISDN", "propPointToPointSerial", "ppp", "softwareLoopback", "eon",
"ethernet3Mbit", "nsip", "slip", "ultra", "ds3", "sip", "frameRelay", "rs232", "para",
"arcnet", "arcnetPlus", "atm", "miox25", "sonet", "x25ple", "iso88022llc", "localTalk",
"smdsDxi", "frameRelayService", "v35", "hssi", "hippi", "modem", "aal5", "sonetPath",
"sonetVT", "smdsIcip", "propVirtual", "propMultiplexor", "ieee80212", "fibreChannel",
"hippiInterface", "frameRelayInterconnect", "aflane8023", "aflane8025", "cctEmul",
"fastEther", "isdn", "v11", "v36", "g703at64k", "g703at2mb", "qllc", "fastEtherFX",
"channel", "ieee80211", "ibm370parChan", "escon", "dlsw", "isdns", "isdnu", "lapd",
"ipSwitch", "rsrb", "atmLogical", "ds0", "ds0Bundle", "bsc", "async", "cnr",
"iso88025Dtr", "eplrs", "arap", "propCnls", "hostPad", "termPad", "frameRelayMPI",
"x213", "adsl", "radsl", "sdsl", "vdsl", "iso88025CRFPInt", "myrinet", "voiceEM",
"voiceFXO", "voiceFXS", "voiceEncap", "voiceOverIp", "atmDxi", "atmFuni", "atmIma",
"pppMultilinkBundle", "ipOverCdlc", "ipOverClaw", "stackToStack", "virtualIpAddress",
"mpc", "ipOverAtm", "iso88025Fiber", "tdlc", "gigabitEthernet", "hdlc", "lapf", "v37",
"x25mlp", "x25huntGroup", "trasnpHdlc", "interleave", "fast", "ip", "docsCableMaclayer",
"docsCableDownstream", "docsCableUpstream", "a12MppSwitch", "tunnel", "coffee", "ces",
"atmSubInterface", "l2vlan", "l3ipvlan", "l3ipxvlan", "digitalPowerlinev", "mediaMailOverIp",
"dtm", "dcn", "ipForward", "msdsl", "ieee1394", "if-gsn", "dvbRccMacLayer", "dvbRccDownstream",
"dvbRccUpstream", "atmVirtual", "mplsTunnel", "srp", "voiceOverAtm", "voiceOverFrameRelay",
"idsl", "compositeLink", "ss7SigLink", "propWirelessP2P", "frForward", "rfc1483", "usb",
"ieee8023adLag", "bgppolicyaccounting", "frf16MfrBundle", "h323Gatekeeper", "h323Proxy",
"mpls", "mfSigLink", "hdsl2", "shdsl", "ds1FDL", "pos", "dvbAsiIn", "dvbAsiOut", "plc",
"nfas", "tr008", "gr303RDT", "gr303IDT", "isup", "propDocsWirelessMaclayer",
"propDocsWirelessDownstream", "propDocsWirelessUpstream", "hiperlan2", "propBWAp2Mp",
"sonetOverheadChannel", "digitalWrapperOverheadChannel", "aal2", "radioMAC", "atmRadio",
"imt", "mvl", "reachDSL", "frDlciEndPt", "atmVciEndPt", "opticalChannel", "opticalTransport",
"propAtm", "voiceOverCable", "infiniband", "teLink", "q2931", "virtualTg", "sipTg", "sipSig",
"docsCableUpstreamChannel", "econet", "pon155", "pon622", "bridge", "linegroup", "voiceEMFGD",
"voiceFGDEANA", "voiceDID", "mpegTransport", "sixToFour", "gtp", "pdnEtherLoop1",
"pdnEtherLoop2", "opticalChannelGroup", "homepna", "gfp", "ciscoISLvlan", "actelisMetaLOOP",
"fcipLink", "rpr", "qam", "lmp", "cblVectaStar", "docsCableMCmtsDownstream", "adsl2",
"macSecControlledIF", "macSecUncontrolledIF", "aviciOpticalEther", "atmbond", "voiceFGDOS",
"mocaVersion1", "ieee80216WMAN", "adsl2plus", "dvbRcsMacLayer", "dvbTdm", "dvbRcsTdma",
"x86Laps", "wwanPP", "wwanPP2", "voiceEBS", "ifPwType", "ilan", "pip", "aluELP", "gpon",
"vdsl2", "capwapDot11Profile", "capwapDot11Bss", "capwapWtpVirtualRadio" }
--- Gets a value for the specified oid
--
-- @param tbl table containing oid
and value
-- @param oid string containing the object id for which the value should be extracted
-- @return value of relevant type or nil if oid was not found
function get_value_from_table( tbl, oid )
for _, v in ipairs( tbl ) do
if v.oid == oid then
return v.value
end
end
return nil
end
--- Gets the network interface type from a list of IANA approved types
--
-- @param iana integer interface type returned from snmp result
-- @return string description of interface type, or "Unknown" if type not found
function get_iana_type( iana )
-- 254 types are currently defined
-- if the requested type falls outside that range, reset to "other"
if iana > 254 or iana < 1 then
iana = 1
end
return iana_types[iana]
end
--- Calculates the speed of the interface based on the snmp value
--
-- @param speed value from IF-MIB::ifSpeed
-- @return string description of speed
function get_if_speed( speed )
local result
-- GigE or 10GigE speeds
if speed >= 1000000000 then
result = string.format( "%d Gbps", speed / 1000000000)
-- Common for 10 or 100 Mbit ethernet
elseif speed >= 1000000 then
result = string.format( "%d Mbps", speed / 1000000)
-- Anything slower report in Kbps
else
result = string.format( "%d Kbps", speed / 1000)
end
return result
end
--- Calculates the amount of traffic passed through an interface based on the snmp value
--
-- @param amount value from IF-MIB::ifInOctets or IF-MIB::ifOutOctets
-- @return string description of traffic amount
function get_traffic( amount )
local result
-- Gigabytes
if amount >= 1000000000 then
result = string.format( "%.2f Gb", amount / 1000000000)
-- Megabytes
elseif amount >= 1000000 then
result = string.format( "%.2f Mb", amount / 1000000)
-- Anything lower report in kb
else
result = string.format( "%.2f Kb", amount / 1000)
end
return result
end
--- Converts a 6 byte string into the familiar MAC address formatting
--
-- @param mac string containing the MAC address
-- @return formatted string suitable for printing
function get_mac_addr( mac )
local catch = function() return end
local try = nmap.new_try(catch)
-- Build the MAC prefix lookup table
if not nmap.registry.snmp_interfaces then
-- Create the table in the registry so we can share between script instances
nmap.registry.snmp_interfaces = {}
nmap.registry.snmp_interfaces.mac_prefixes = try(datafiles.parse_mac_prefixes())
end
if mac:len() ~= 6 then
return "Unknown"
else
local prefix = string.upper(string.format("%02x%02x%02x", mac:byte(1), mac:byte(2), mac:byte(3)))
local manuf = nmap.registry.snmp_interfaces.mac_prefixes[prefix] or "Unknown"
return string.format("%02x:%02x:%02x:%02x:%02x:%02x (%s)", mac:byte(1), mac:byte(2), mac:byte(3), mac:byte(4), mac:byte(5), mac:byte(6), manuf )
end
end
--- Processes the list of network interfaces
--
-- @param tbl table containing oid
and value
-- @return table with network interfaces described in key / value pairs
function process_interfaces( tbl )
-- Add the %. escape character to prevent matching the index on e.g. "1.3.6.1.2.1.2.2.1.10."
local if_index = "1.3.6.1.2.1.2.2.1.1%."
local if_descr = "1.3.6.1.2.1.2.2.1.2%."
local if_type = "1.3.6.1.2.1.2.2.1.3%."
local if_speed = "1.3.6.1.2.1.2.2.1.5%."
local if_phys_addr = "1.3.6.1.2.1.2.2.1.6%."
local if_status = "1.3.6.1.2.1.2.2.1.8%."
local if_in_octets = "1.3.6.1.2.1.2.2.1.10%."
local if_out_octets = "1.3.6.1.2.1.2.2.1.16%."
local new_tbl = {}
-- Some operating systems (such as MS Windows) don't list interfaces with consecutive indexes
-- Therefore we keep an index list so we can iterate over the indexes later on
new_tbl.index_list = {}
for _, v in ipairs( tbl ) do
if ( v.oid:match("^" .. if_index) ) then
local item = {}
item.index = get_value_from_table( tbl, v.oid )
local objid = v.oid:gsub( "^" .. if_index, if_descr)
local value = get_value_from_table( tbl, objid )
if value and value:len() > 0 then
item.descr = value
end
objid = v.oid:gsub( "^" .. if_index, if_type )
value = get_value_from_table( tbl, objid )
if value then
item.type = get_iana_type(value)
end
objid = v.oid:gsub( "^" .. if_index, if_speed )
value = get_value_from_table( tbl, objid )
if value then
item.speed = get_if_speed( value )
end
objid = v.oid:gsub( "^" .. if_index, if_phys_addr )
value = get_value_from_table( tbl, objid )
if value and value:len() > 0 then
item.phys_addr = get_mac_addr( value )
end
objid = v.oid:gsub( "^" .. if_index, if_status )
value = get_value_from_table( tbl, objid )
if value == 1 then
item.status = "up"
elseif value == 2 then
item.status = "down"
end
objid = v.oid:gsub( "^" .. if_index, if_in_octets )
value = get_value_from_table( tbl, objid )
if value then
item.received = get_traffic( value )
end
objid = v.oid:gsub( "^" .. if_index, if_out_octets )
value = get_value_from_table( tbl, objid )
if value then
item.sent = get_traffic( value )
end
new_tbl[item.index] = item
-- Add this interface index to our master list
table.insert( new_tbl.index_list, item.index )
end
end
return new_tbl
end
--- Processes the list of network interfaces and finds associated IP addresses
--
-- @param if_tbl table containing network interfaces
-- @param ip_tbl table containing oid
and value
pairs from IP::MIB
-- @return table with network interfaces described in key / value pairs
function process_ips( if_tbl, ip_tbl )
local ip_index = "1.3.6.1.2.1.4.20.1.2."
local ip_addr = "1.3.6.1.2.1.4.20.1.1."
local ip_netmask = "1.3.6.1.2.1.4.20.1.3."
local index
local item
for _, v in ipairs( ip_tbl ) do
if ( v.oid:match("^" .. ip_index) ) then
index = get_value_from_table( ip_tbl, v.oid )
item = if_tbl[index]
local objid = v.oid:gsub( "^" .. ip_index, ip_addr )
local value = get_value_from_table( ip_tbl, objid )
if value then
item.ip_addr = value
end
objid = v.oid:gsub( "^" .. ip_index, ip_netmask )
value = get_value_from_table( ip_tbl, objid )
if value then
item.netmask = value
end
end
end
return if_tbl
end
--- Creates a table of IP addresses from the table of network interfaces
--
-- @param tbl table containing network interfaces
-- @return table containing only IP addresses
function list_addrs( tbl )
local new_tbl = {}
for _, index in ipairs( tbl.index_list ) do
local interface = tbl[index]
if interface.ip_addr then
table.insert( new_tbl, interface.ip_addr )
end
end
return new_tbl
end
--- Process the table of network interfaces for reporting
--
-- @param tbl table containing network interfaces
-- @return table suitable for stdnse.format_output
function build_results( tbl )
local new_tbl = {}
local verbose = nmap.verbosity()
-- For each interface index previously discovered, format the relevant information for output
for _, index in ipairs( tbl.index_list ) do
local interface = tbl[index]
local item = {}
local status = interface.status
local if_type = interface.type
if interface.descr then
item.name = interface.descr
else
item.name = string.format("Interface %d", item.index)
end
if interface.ip_addr and interface.netmask then
table.insert( item, ("IP address: %s Netmask: %s"):format( interface.ip_addr, interface.netmask ) )
end
if interface.phys_addr then
table.insert( item, ("MAC address: %s"):format( interface.phys_addr ) )
end
if interface.type and interface.speed then
table.insert( item, ("Type: %s Speed: %s"):format( interface.type, interface.speed ) )
end
if ( verbose > 0 ) and interface.status then
table.insert( item, ("Status: %s"):format( interface.status ) )
end
if interface.sent and interface.received then
table.insert( item, ("Traffic stats: %s sent, %s received"):format( interface.sent, interface.received ) )
end
if ( verbose > 0 ) or status == "up" then
table.insert( new_tbl, item )
end
end
return new_tbl
end
action = function(host, port)
local socket = nmap.new_socket()
local catch = function() socket:close() end
local try = nmap.new_try(catch)
-- IF-MIB - used to look up network interfaces
local if_oid = "1.3.6.1.2.1.2.2.1"
-- IP-MIB - used to determine IP address information
local ip_oid = "1.3.6.1.2.1.4.20"
local interfaces = {}
local ips = {}
local status
local srvhost, srvport
if SCRIPT_TYPE == "prerule" then
srvhost = stdnse.get_script_args({"snmp-interfaces.host", "host"})
if not srvhost then
-- Shouldn't happen; checked in prerule.
return
end
srvport = stdnse.get_script_args({"snmp-interfaces.port", "port"})
if srvport then
srvport = tonumber(srvport)
else
srvport = 161
end
else
srvhost = host.ip
srvport = port.number
end
socket:set_timeout(5000)
try(socket:connect(srvhost, srvport, "udp"))
-- retreive network interface information from IF-MIB
status, interfaces = snmp.snmpWalk( socket, if_oid )
socket:close()
if (not(status)) or ( interfaces == nil ) or ( #interfaces == 0 ) then
return
end
stdnse.print_debug("SNMP walk of IF-MIB returned %d lines", #interfaces)
-- build a table of network interfaces from the IF-MIB table
interfaces = process_interfaces( interfaces )
-- retreive IP address information from IP-MIB
try(socket:connect(srvhost, srvport, "udp"))
status, ips = snmp.snmpWalk( socket, ip_oid )
-- associate that IP address information with the correct interface
if (not(status)) or ( ips ~= nil ) and ( #ips ~= 0 ) then
interfaces = process_ips( interfaces, ips )
end
local output = stdnse.format_output( true, build_results(interfaces) )
if SCRIPT_TYPE == "prerule" and target.ALLOW_NEW_TARGETS then
local sum = 0
ips = list_addrs(interfaces)
-- Could add all of the addresses at once, but count
-- successful additions instead for script output
for _, i in ipairs(ips) do
local st, err = target.add(i)
if st then
sum = sum + 1
else
stdnse.print_debug("Couldn't add target " .. i .. ": " .. err)
end
end
if sum ~= 0 then
output = output .. "\nSuccessfully added " .. tostring(sum) .. " new targets"
end
elseif SCRIPT_TYPE == "portrule" then
nmap.set_port_state(host, port, "open")
end
return output
end