local nmap = require "nmap"
local shortport = require "shortport"
local sslcert = require "sslcert"
local stdnse = require "stdnse"
local string = require "string"
local table = require "table"
local tableaux = require "tableaux"
local tls = require "tls"
local listop = require "listop"
local vulns = require "vulns"
description = [[
Checks whether SSLv3 CBC ciphers are allowed (POODLE)
Run with -sV to use Nmap's service scan to detect SSL/TLS on non-standard
ports. Otherwise, ssl-poodle will only run on ports that are commonly used for
SSL.
POODLE is CVE-2014-3566. All implementations of SSLv3 that accept CBC
ciphersuites are vulnerable. For speed of detection, this script will stop
after the first CBC ciphersuite is discovered. If you want to enumerate all CBC
ciphersuites, you can use Nmap's own ssl-enum-ciphers to do a full audit of
your TLS ciphersuites.
]]
---
-- @usage
-- nmap -sV --version-light --script ssl-poodle -p 443 <host>
--
-- @output
-- PORT STATE SERVICE REASON
-- 443/tcp open https syn-ack
-- | ssl-poodle:
-- | VULNERABLE:
-- | SSL POODLE information leak
-- | State: VULNERABLE
-- | IDs: CVE:CVE-2014-3566 BID:70574
-- | The SSL protocol 3.0, as used in OpenSSL through 1.0.1i and
-- | other products, uses nondeterministic CBC padding, which makes it easier
-- | for man-in-the-middle attackers to obtain cleartext data via a
-- | padding-oracle attack, aka the "POODLE" issue.
-- | Disclosure date: 2014-10-14
-- | Check results:
-- | TLS_RSA_WITH_3DES_EDE_CBC_SHA
-- | References:
-- | https://www.imperialviolet.org/2014/10/14/poodle.html
-- | https://www.securityfocus.com/bid/70574
-- | https://cve.mitre.org/cgi-bin/cvename.cgi?name=CVE-2014-3566
-- |_ https://www.openssl.org/~bodo/ssl-poodle.pdf
--
-- @see ssl-enum-ciphers.nse
author = "Daniel Miller"
license = "Same as Nmap--See https://nmap.org/book/man-legal.html"
categories = {"vuln", "safe"}
dependencies = {"ssl-enum-ciphers", "https-redirect"}
-- Test this many ciphersuites at a time.
-- http://seclists.org/nmap-dev/2012/q3/156
-- http://seclists.org/nmap-dev/2010/q1/859
local CHUNK_SIZE = 64
-- Add additional context (protocol) to debug output
local function ctx_log(level, protocol, fmt, ...)
return stdnse.print_debug(level, "(%s) " .. fmt, protocol, ...)
end
local function try_params(host, port, t)
local timeout = ((host.times and host.times.timeout) or 5) * 1000 + 5000
-- Create socket.
local status, sock, err
local specialized = sslcert.getPrepareTLSWithoutReconnect(port)
if specialized then
status, sock = specialized(host, port)
if not status then
ctx_log(1, t.protocol, "Can't connect: %s", sock)
return nil
end
else
sock = nmap.new_socket()
sock:set_timeout(timeout)
status, err = sock:connect(host, port)
if not status then
ctx_log(1, t.protocol, "Can't connect: %s", err)
sock:close()
return nil
end
end
sock:set_timeout(timeout)
-- Send request.
local req = tls.client_hello(t)
status, err = sock:send(req)
if not status then
ctx_log(1, t.protocol, "Can't send: %s", err)
sock:close()
return nil
end
-- Read response.
local buffer = ""
local i = 1
while true do
status, buffer, err = tls.record_buffer(sock, buffer, i)
if not status then
ctx_log(1, t.protocol, "Couldn't read a TLS record: %s", err)
return nil
end
-- Parse response.
local record
i, record = tls.record_read(buffer, i)
if record and record.type == "alert" and record.body[1].level == "warning" then
ctx_log(1, t.protocol, "Ignoring warning: %s", record.body[1].description)
-- Try again.
elseif record then
sock:close()
return record
end
end
end
local function sorted_keys(t)
local ret = {}
for k, _ in pairs(t) do
ret[#ret+1] = k
end
table.sort(ret)
return ret
end
local function in_chunks(t, size)
local ret = {}
for i = 1, #t, size do
local chunk = {}
for j = i, i + size - 1 do
chunk[#chunk+1] = t[j]
end
ret[#ret+1] = chunk
end
return ret
end
local function remove(t, e)
for i, v in ipairs(t) do
if v == e then
table.remove(t, i)
return i
end
end
return nil
end
-- https://bugzilla.mozilla.org/show_bug.cgi?id=946147
local function remove_high_byte_ciphers(t)
local output = {}
for i, v in ipairs(t) do
if tls.CIPHERS[v] <= 255 then
output[#output+1] = v
end
end
return output
end
local function base_extensions(host)
local tlsname = tls.servername(host)
return {
-- Claim to support common elliptic curves
["elliptic_curves"] = tls.EXTENSION_HELPERS["elliptic_curves"](tls.DEFAULT_ELLIPTIC_CURVES),
-- Enable SNI if a server name is available
["server_name"] = tlsname and tls.EXTENSION_HELPERS["server_name"](tlsname),
}
end
-- Find which ciphers out of group are supported by the server.
local function find_ciphers_group(host, port, protocol, group)
local name, protocol_worked, record, results
results = {}
local t = {
["protocol"] = protocol,
["extensions"] = base_extensions(host),
}
-- This is a hacky sort of tristate variable. There are three conditions:
-- 1. false = either ciphers or protocol is bad. Keep trying with new ciphers
-- 2. nil = The protocol is bad. Abandon thread.
-- 3. true = Protocol works, at least some cipher must be supported.
protocol_worked = false
while (next(group)) do
t["ciphers"] = group
record = try_params(host, port, t)
if record == nil then
if protocol_worked then
ctx_log(2, protocol, "%d ciphers rejected. (No handshake)", #group)
else
ctx_log(1, protocol, "%d ciphers and/or protocol rejected. (No handshake)", #group)
end
break
elseif record["protocol"] ~= protocol or record["body"][1]["protocol"] and record.body[1].protocol ~= protocol then
ctx_log(1, protocol, "Protocol rejected.")
protocol_worked = nil
break
elseif record["type"] == "alert" and record["body"][1]["description"] == "handshake_failure" then
protocol_worked = true
ctx_log(2, protocol, "%d ciphers rejected.", #group)
break
elseif record["type"] ~= "handshake" or record["body"][1]["type"] ~= "server_hello" then
ctx_log(2, protocol, "Unexpected record received.")
break
else
protocol_worked = true
name = record["body"][1]["cipher"]
ctx_log(1, protocol, "Cipher %s chosen.", name)
if not remove(group, name) then
ctx_log(1, protocol, "chose cipher %s that was not offered.", name)
ctx_log(1, protocol, "removing high-byte ciphers and trying again.")
local size_before = #group
group = remove_high_byte_ciphers(group)
ctx_log(1, protocol, "removed %d high-byte ciphers.", size_before - #group)
if #group == size_before then
-- No changes... Server just doesn't like our offered ciphers.
break
end
else
-- Add cipher to the list of accepted ciphers.
table.insert(results, name)
-- POODLE check doesn't care about the rest of the ciphers
break
end
end
end
return results, protocol_worked
end
-- POODLE only affects CBC ciphers
local cbc_ciphers = listop.filter(
function(x) return string.find(x, "_CBC_",1,true) end,
sorted_keys(tls.CIPHERS)
)
-- move these to the top, more likely to be supported
for _, c in ipairs({
"TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA", --mandatory for TLSv1.0
"TLS_RSA_WITH_3DES_EDE_CBC_SHA", -- mandatory for TLSv1.1
"TLS_RSA_WITH_AES_128_CBC_SHA", -- mandatory fro TLSv1.2
}) do
remove(cbc_ciphers, c)
table.insert(cbc_ciphers, 1, c)
end
-- Break the cipher list into chunks of CHUNK_SIZE (for servers that can't
-- handle many client ciphers at once), and then call find_ciphers_group on
-- each chunk.
local function find_ciphers(host, port, protocol)
local name, protocol_worked, results, chunk
local ciphers = in_chunks(cbc_ciphers, CHUNK_SIZE)
results = {}
-- Try every cipher.
for _, group in ipairs(ciphers) do
chunk, protocol_worked = find_ciphers_group(host, port, protocol, group)
if protocol_worked == nil then return nil end
for _, name in ipairs(chunk) do
table.insert(results, name)
end
-- Another POODLE shortcut
if protocol_worked and next(results) then return results end
end
return results
end
-- check if draft-ietf-tls-downgrade-scsv-00 is implemented as a mitigation
local function check_fallback_scsv(host, port, protocol, ciphers)
local results = {}
local t = {
["protocol"] = protocol,
["extensions"] = base_extensions(host),
}
t["ciphers"] = tableaux.tcopy(ciphers)
t.ciphers[#t.ciphers+1] = "TLS_FALLBACK_SCSV"
-- TODO: remove this check after the next release.
-- Users are using this script without the necessary tls.lua changes
if not tls.TLS_ALERT_REGISTRY["inappropriate_fallback"] then
-- This could get dangerous if mixed with ssl-enum-ciphers
-- so we make this script dependent on ssl-enum-ciphers and hope for the best.
tls.CIPHERS["TLS_FALLBACK_SCSV"] = 0x5600
tls.TLS_ALERT_REGISTRY["inappropriate_fallback"] = 86
end
local record = try_params(host, port, t)
-- cleanup (also remove after next release)
tls.CIPHERS["TLS_FALLBACK_SCSV"] = nil
if record and record["type"] == "alert" and record["body"][1]["description"] == "inappropriate_fallback" then
ctx_log(2, protocol, "TLS_FALLBACK_SCSV rejected properly.")
return true
end
return false
end
portrule = function (host, port)
return port.protocol == "tcp" and (shortport.ssl(host, port) or sslcert.getPrepareTLSWithoutReconnect(port))
end
action = function(host, port)
local vuln_table = {
title = "SSL POODLE information leak",
description = [[
The SSL protocol 3.0, as used in OpenSSL through 1.0.1i and other
products, uses nondeterministic CBC padding, which makes it easier
for man-in-the-middle attackers to obtain cleartext data via a
padding-oracle attack, aka the "POODLE" issue.]],
state = vulns.STATE.NOT_VULN,
IDS = {
CVE = 'CVE-2014-3566',
BID = '70574'
},
SCORES = {
CVSSv2 = '4.3'
},
dates = {
disclosure = {
year = 2014, month = 10, day = 14
}
},
references = {
"https://www.openssl.org/~bodo/ssl-poodle.pdf",
"https://www.imperialviolet.org/2014/10/14/poodle.html"
}
}
local report = vulns.Report:new(SCRIPT_NAME, host, port)
local ciphers = find_ciphers(host, port, 'SSLv3')
if ciphers == nil then
vuln_table.check_results = { "SSLv3 not supported" }
elseif #ciphers == 0 then
vuln_table.check_results = { "No CBC ciphersuites found" }
else
vuln_table.check_results = ciphers
if check_fallback_scsv(host, port, 'SSLv3', ciphers) then
table.insert(vuln_table.check_results, "TLS_FALLBACK_SCSV properly implemented")
vuln_table.state = vulns.STATE.LIKELY_VULN
else
vuln_table.state = vulns.STATE.VULN
end
end
return report:make_output(vuln_table)
end