| Current File : //proc/self/root/usr/share/nmap/nselib/ike.lua |
local _G = require "_G"
local bin = require "bin"
local nmap = require "nmap"
local stdnse = require "stdnse"
local string = require "string"
local table = require "table"
local math = require "math"
local io = require "io"
description = [[
A very basic IKE library.
The current funcionality includes:
1. Generating a Main or Aggressive Mode IKE request packet with a variable amount of transforms and a vpn group.
2. Sending a packet
3. Receiving the response
4. Parsing the response for VIDs
5. Searching for the VIDs in 'ike-fingerprints.lua'
6. returning a parsed info table
This library is meant for extension, which could include:
1. complete parsing of the response packet (might allow for better fingerprinting)
2. adding more options to the request packet
vendor field (might give better fingerprinting of services, e.g. Checkpoint)
3. backoff pattern analyses
...
An a implementation resembling 'ike-scan' could be built.
]]
_ENV = stdnse.module("ike", stdnse.seeall)
author = "Jesper Kueckelhahn"
license = "Same as Nmap--See http://nmap.org/book/man-legal.html"
categories = {"discovery", "safe"}
local ENC_METHODS = {
["des"] = 0x80010001,
["3des"] = 0x80010005,
["cast"] = 0x80010006,
["aes/128"] = { 0x80010007, 0x800E0080 },
["aes/192"] = { 0x80010007, 0x800E00C0 },
["aes/256"] = { 0x80010007, 0x800E0100 },
}
local AUTH_TYPES = {
["psk"] = 0x80030001,
["rsa"] = 0x80030003,
["ECDSA"] = 0x80030008,
["Hybrid"] = 0x8003FADD,
["XAUTH"] = 0x8003FDE9,
}
local HASH_ALGORITHM = {
["md5"] = 0x80020001,
["sha1"] = 0x80020002,
["sha2-256"] = 0x80020004,
["sha2-384"] = 0x80020005,
["sha2-512"] = 0x80020006,
}
local GROUP_DESCRIPTION = {
["768"] = 0x80040001,
["1024"] = 0x80040002,
["1536"] = 0x80040005,
["2048"] = 0x0004000E,
}
local EXCHANGE_MODE = {
["Main"] = 0x02,
["Aggressive"] = 0x04,
}
local PROTOCOL_IDS = {
["tcp"] = "06",
["udp"] = "11",
}
-- Response packet types
local EXCHANGE_TYPE = {
["02"] = "Main",
["04"] = "Aggressive",
["05"] = "Informational",
}
-- Payload names
local PAYLOADS = {
["00"] = "None",
["01"] = "SA",
["03"] = "Transform",
["04"] = "Key Exchange",
["05"] = "ID",
["08"] = "Hash",
["0A"] = "Nonce",
["0D"] = "VID",
}
-- Load the fingerprint file
-- (located in: nselib/data/ike-fingerprints.lua)
--
local function load_fingerprints()
local file, filename_full, fingerprints
-- Check if fingerprints are cached
if(nmap.registry.ike_fingerprints ~= nil) then
stdnse.print_debug(1, "ike: Loading cached fingerprints")
return nmap.registry.ike_fingerprints
end
-- Try and find the file
-- If it isn't in Nmap's directories, take it as a direct path
filename_full = nmap.fetchfile('nselib/data/ike-fingerprints.lua')
-- Load the file
stdnse.print_debug(1, "ike: Loading fingerprints: %s", filename_full)
local env = setmetatable({fingerprints = {}}, {__index = _G});
file = loadfile(filename_full, "t", env)
if( not(file) ) then
stdnse.print_debug(1, "ike: Couldn't load the file: %s", filename_full)
return false, "Couldn't load fingerprint file: " .. filename_full
end
file()
fingerprints = env.fingerprints
-- Check there are fingerprints to use
if(#fingerprints == 0 ) then
return false, "No fingerprints were loaded after processing ".. filename_full
end
return true, fingerprints
end
-- generate a random hex-string of length 'length'
--
local function generate_random(length)
local rnd = ""
for i=1, length do
rnd = rnd .. string.format("%.2X", math.random(255))
end
return rnd
end
-- convert a string to a hex-string (of the ASCII representation)
--
local function convert_to_hex(id)
local hex_str = ""
for c in string.gmatch(id, ".") do
hex_str = hex_str .. string.format("%X", c:byte())
end
return hex_str
end
-- Extract Payloads
local function extract_payloads(packet)
-- packet only contains HDR
if packet:len() < 61 then return {} end
local np = packet:sub(33,34) -- next payload
local index = 61 -- starting point for search
local ike_headers = {} -- ike headers
local payload = ''
-- loop over packet
while PAYLOADS[np] ~= "None" and index <= packet:len() do
local payload_length = tonumber("0x"..packet:sub(index, index+3)) * 2
payload = string.lower(packet:sub(index+4, index+payload_length-5))
-- debug
if PAYLOADS[np] == 'VID' then
stdnse.print_debug(2, 'IKE: Found IKE Header: %s: %s - %s', np, PAYLOADS[np], payload)
else
stdnse.print_debug(2, 'IKE: Found IKE Header: %s: %s', np, PAYLOADS[np])
end
-- Store payload
if ike_headers[PAYLOADS[np]] == nil then
ike_headers[PAYLOADS[np]] = {payload}
else
table.insert(ike_headers[PAYLOADS[np]], payload)
end
-- find the next payload type
np = packet:sub(index-4, index-3)
-- jump to the next payload
index = index + payload_length
end
return ike_headers
end
-- Search the fingerprint database for matches
-- This is a (currently) divided into two parts
-- 1) version detection based on single fingerprints
-- 2) version detection based on the order of all vendor ids
--
-- NOTE: the second step currently only has support for CISCO devices
--
-- Input is a table of collected vendor-ids, output is a table
-- with fields:
-- vendor, version, name, attributes (table), guess (table), os
local function lookup(vendor_ids)
if vendor_ids == {} or vendor_ids == nil then return {} end
-- concat all vids to one string
local all_vids = ''
for _,vid in pairs(vendor_ids) do all_vids = all_vids .. vid end
-- the results
local info = {
vendor = nil,
attribs = {},
}
local status, fingerprints
status, fingerprints = load_fingerprints()
if status then
-- loop over the vendor_ids returned in ike request
for _,vendor_id in pairs(vendor_ids) do
-- loop over the fingerprints found in database
for _,row in pairs(fingerprints) do
if vendor_id:find(row.fingerprint) then
-- if a match is found, check if it's a version detection or attribute
if row.category == 'vendor' then
local debug_string = ''
if row.vendor ~= nil then debug_string = debug_string .. row.vendor .. ' ' end
if row.version ~= nil then debug_string = debug_string .. row.version end
stdnse.print_debug(2, "IKE: Fingerprint: %s matches %s", vendor_id, debug_string)
-- Only store the first match
if info.vendor == nil then
-- the fingerprint contains information about the VID
info.vendor = row
end
elseif row.category == 'attribute' then
info.attribs[ #info.attribs + 1] = row
stdnse.print_debug(2, "IKE: Attribute: %s matches %s", vendor_id, row.text)
break
end
end
end
end
end
---------------------------------------------------
-- Search for the order of the vids
-- Uses category 'vid_ordering'
---
-- search in the 'vid_ordering' category
local debug_string = ''
for _,row in pairs(fingerprints) do
if row.category == 'vid_ordering' and all_vids:find(row.fingerprint) then
-- Use ordering information if there where no vendor matches from prevoius step
if info.vendor == nil then
info.vendor = row
-- Debugging info
debug_string = ''
if info.vendor.vendor ~= nil then debug_string = debug_string .. info.vendor.vendor .. ' ' end
if info.vendor.version ~= nil then debug_string = debug_string .. info.vendor.version .. ' ' end
if info.vendor.ostype ~= nil then debug_string = debug_string .. info.vendor.ostype end
stdnse.print_debug(2, 'IKE: No vendor match, but ordering match found: %s', debug_string)
return info
-- Update OS based on ordering
elseif info.vendor.vendor == row.vendor then
info.vendor.ostype = row.ostype
-- Debugging info
debug_string = ''
if info.vendor.vendor ~= nil then debug_string = debug_string .. info.vendor.vendor .. ' to ' end
if row.ostype ~= nil then debug_string = debug_string .. row.ostype end
stdnse.print_debug(2, 'IKE: Vendor and ordering match. OS updated: %s', debug_string)
return info
-- Only print debugging information if conflicting information is detected
else
-- Debugging info
debug_string = ''
if info.vendor.vendor ~= nil then debug_string = debug_string .. info.vendor.vendor .. ' vs ' end
if row.vendor ~= nil then debug_string = debug_string .. row.vendor end
stdnse.print_debug(2, 'IKE: Found an ordering match, but vendors do not match. %s', debug_string)
end
end
end
return info
end
-- Handle a response packet
-- A very limited response parser
-- Currently only the VIDs are extracted
-- This could be made more advanced to
-- allow for fingerprinting via the order
-- of the returned headers
---
function response(packet)
local resp = { ["mode"] = "", ["info"] = nil, ['vids']={}, ['success'] = false }
if packet:len() > 38 then
-- extract the return type
local resp_type = EXCHANGE_TYPE[packet:sub(37,38)]
local ike_headers = {}
-- simple check that the type is something other than 'Informational'
-- as this type does not include VIDs
if resp_type ~= "Informational" then
resp["mode"] = resp_type
ike_headers = extract_payloads(packet)
-- Extract the VIDs
resp['vids'] = ike_headers['VID']
-- search for fingerprints
resp["info"] = lookup(resp['vids'])
-- indicate that a packet 'useful' packet was returned
resp['success'] = true
end
end
return resp
end
-- Send a request
-- The 'packet' argument must be generated by the function 'request'
-- and is a hex string
--
function send_request( host, port, packet )
local socket = nmap.new_socket()
local s_status, r_status, data, i, hexstring, _
-- lock resource (port 500/udp)
local mutex = nmap.mutex("ike_port_500");
mutex "lock";
-- send the request packet
socket:set_timeout(1000)
socket:bind(nil, port.number)
socket:connect(host, port, "udp")
s_status,_ = socket:send(packet)
-- receive answer
if s_status then
r_status, data = socket:receive_lines(1)
if r_status then
i, hexstring = bin.unpack("H" .. data:len(), data)
socket:close()
-- release mutex
mutex "done";
return response(hexstring)
else
socket:close()
end
else
socket:close()
end
-- release mutex
mutex "done";
return {}
end
-- Create the aggressive part of a packet
-- Aggressive mode includes the user-id, so the
-- length of this has to be taken into account
--
local function generate_aggressive(port, protocol, id, diffie)
local hex_port = string.format("%.4X", port)
local hex_prot = PROTOCOL_IDS[protocol]
local id_len = string.format("%.4X", 8 + id:len())
-- get length of key data based on diffie
local key_length
if diffie == 1 then
key_length = 96
elseif diffie == 2 then
key_length = 128
elseif diffie == 5 then
key_length = 192
end
return bin.pack(">SHHSSHSHCHHH",
-- Key Exchange
0x0a00 , -- Next payload (Nonce)
string.format("%04X", key_length+4) , -- Length (132-bit)
generate_random(key_length) , -- Random key data
-- Nonce
0x0500 , -- Next payload (Identification)
0x0018 , -- Length (24)
generate_random(20) , -- Nonce data
-- Identification
0x0000 , -- Next Payload (None)
id_len , -- Payload length (id + 8)
0x03 , -- ID Type (USER_FQDN)
hex_prot , -- Protocol ID (UDP)
hex_port , -- Port (500)
convert_to_hex(id) -- Id Data (as hex)
)
end
-- Create the transform
-- AES encryption needs an extra value to define the key length
-- Currently only DES, 3DES and AES encryption is supported
--
local function generate_transform(auth, encryption, hash, group, number, total)
local key_length, trans_length, aes_enc, sep, enc
local next_payload, payload_number
-- handle special case of aes
if encryption:sub(1,3) == "aes" then
trans_length = 0x0028
enc = ENC_METHODS[encryption][1]
key_length = ENC_METHODS[encryption][2]
else
trans_length = 0x0024
enc = ENC_METHODS[encryption]
key_length = nil
end
-- check if there are more transforms
if number == total then
next_payload = 0x0000 -- none
else
next_payload = 0x0300 -- transform
end
-- set the payload number
payload_number = string.format("%.2X", number)
local trans = bin.pack(">SSHCSIIII",
next_payload , -- Next payload
trans_length , -- Transform length
payload_number , -- Transform number
0x01 , -- Transform ID (IKE)
0x0000 , -- spacers ?
enc , -- Encryption algorithm
HASH_ALGORITHM[hash] , -- Hash algorithm
AUTH_TYPES[auth] , -- Authentication method
GROUP_DESCRIPTION[group] -- Group Description
)
if key_length ~= nil then
trans = trans .. bin.pack(">I", key_length) -- only set for aes
end
trans = trans .. bin.pack(">IL",
0x800b0001 , -- Life type (seconds)
0x000c000400007080 -- Life duration (28800)
)
return trans
end
-- Generate multiple transforms
-- Input nust be a table of complete transforms
--
local function generate_transforms(transform_table)
local transforms = ''
for i,t in pairs(transform_table) do
transforms = transforms .. generate_transform(t.auth, t.encryption, t.hash, t.group, i, #transform_table)
end
return transforms
end
-- Create a request packet
-- Support for multiple transforms, which minimizes the
-- the amount of traffic/packets needed to be sendt
--
function request(port, proto, mode, transforms, diffie, id)
local payload_after_sa, str_aggressive, l, l_sa, l_pro
local number_transforms, transform_string
transform_string = generate_transforms(transforms)
number_transforms = string.format("%.2X", #transforms)
-- check for aggressive vs Main mode
if mode == "Aggressive" then
str_aggressive = generate_aggressive(port, proto, id, diffie)
payload_after_sa = 0x0400
else
str_aggressive = ""
payload_after_sa = 0x0000
end
-- calculate lengths
l = string.format("%.8X", 48 + transform_string:len() + str_aggressive:len())
l_sa = string.format("%.4X", 20 + transform_string:len())
l_pro = string.format("%.4X", 8 + transform_string:len())
-- Build the packet
local packet = bin.pack(">HLCCCCIHSHIISHCCCH",
generate_random(8) , -- Initiator cookie
0x0000000000000000 , -- Responder cookie
0x01 , -- Next payload (SA)
0x10 , -- Version
EXCHANGE_MODE[mode] , -- Exchange type
0x00 , -- Flags
0x00000000 , -- Message id
l , -- packet length
-- Security Association
payload_after_sa , -- Next payload (Key exchange, if aggressive mode)
l_sa , -- Length
0x00000001 , -- IPSEC
0x00000001 , -- Situation
--## Proposal
0x0000 , -- Next payload (None)
l_pro , -- Payload length
0x01 , -- Proposal number
0x01 , -- Protocol ID (ISAKMP)
0x00 , -- SPI Size
number_transforms -- Proposal transforms
)
packet = packet .. transform_string -- transform
if mode == 'Aggressive' then
packet = packet .. str_aggressive
end
return packet
end
return _ENV