local comm = require "comm" local coroutine = require "coroutine" local math = require "math" 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 tls = require "tls" description = [[ This script repeatedly initiates SSLv3/TLS connections, each time trying a new cipher or compressor while recording whether a host accepts or rejects it. The end result is a list of all the ciphersuites and compressors that a server accepts. Each ciphersuite is shown with a letter grade (A through F) indicating the strength of the connection. The grade is based on the cryptographic strength of the key exchange and of the stream cipher. The message integrity (hash) algorithm choice is not a factor. The output line beginning with Least strength shows the strength of the weakest cipher offered. SSLv3/TLSv1 requires more effort to determine which ciphers and compression methods a server supports than SSLv2. A client lists the ciphers and compressors that it is capable of supporting, and the server will respond with a single cipher and compressor chosen, or a rejection notice. Some servers use the client's ciphersuite ordering: they choose the first of the client's offered suites that they also support. Other servers prefer their own ordering: they choose their most preferred suite from among those the client offers. In the case of server ordering, the script makes extra probes to discover the server's sorted preference list. Otherwise, the list is sorted alphabetically. The script will warn about certain SSL misconfigurations such as MD5-signed certificates, low-quality ephemeral DH parameters, and the POODLE vulnerability. This script is intrusive since it must initiate many connections to a server, and therefore is quite noisy. ]] --- -- @usage -- nmap --script ssl-enum-ciphers -p 443 -- -- @output -- PORT STATE SERVICE REASON -- 443/tcp open https syn-ack -- | ssl-enum-ciphers: -- | SSLv3: -- | ciphers: -- | TLS_RSA_WITH_RC4_128_MD5 (rsa 2048) - A -- | TLS_RSA_WITH_RC4_128_SHA (rsa 2048) - A -- | TLS_RSA_WITH_3DES_EDE_CBC_SHA (rsa 2048) - C -- | compressors: -- | NULL -- | cipher preference: server -- | TLSv1.0: -- | ciphers: -- | TLS_RSA_WITH_RC4_128_MD5 (rsa 2048) - A -- | TLS_RSA_WITH_RC4_128_SHA (rsa 2048) - A -- | TLS_RSA_WITH_3DES_EDE_CBC_SHA (rsa 2048) - C -- | TLS_DHE_RSA_WITH_AES_256_CBC_SHA (dh 256) - A -- | TLS_DHE_RSA_WITH_AES_128_CBC_SHA (dh 256) - A -- | compressors: -- | NULL -- | cipher preference: server -- |_ least strength: C -- -- @xmloutput -- --
--
-- TLS_RSA_WITH_RC4_128_MD5 -- A -- rsa 2048 --
-- -- TLS_RSA_WITH_RC4_128_SHA -- A -- rsa 2048 --
-- -- TLS_RSA_WITH_3DES_EDE_CBC_SHA -- C -- rsa 2048 --
-- -- -- NULL --
-- server -- -- --
--
-- TLS_RSA_WITH_RC4_128_MD5 -- A -- rsa 2048 --
-- -- TLS_RSA_WITH_RC4_128_SHA -- A -- rsa 2048 --
-- -- TLS_RSA_WITH_3DES_EDE_CBC_SHA -- C -- rsa 2048 --
-- -- TLS_DHE_RSA_WITH_AES_256_CBC_SHA -- A -- dh 256 --
-- -- TLS_DHE_RSA_WITH_AES_128_CBC_SHA -- A -- dh 256 --
-- -- -- NULL --
-- server -- -- C author = "Mak Kolybabi , Gabriel Lawrence" license = "Same as Nmap--See http://nmap.org/book/man-legal.html" categories = {"discovery", "intrusive"} -- Test at most 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.debug(level, "(%s) " .. fmt, protocol, ...) end -- returns a function that yields a new tls record each time it is called local function get_record_iter(sock) local buffer = "" local i = 1 return function () local record i, record = tls.record_read(buffer, i) if record == nil then local status, err status, buffer, err = tls.record_buffer(sock, buffer, i) if not status then return nil, err end i, record = tls.record_read(buffer, i) if record == nil then return nil, "done" end end return record end end local function try_params(host, port, t) -- Use Nmap's own discovered timeout plus 5 seconds for host processing -- Default to 10 seconds total. 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 get_next_record = get_record_iter(sock) local records = {} while true do local record record, err = get_next_record() if not record then ctx_log(1, t.protocol, "Couldn't read a TLS record: %s", err) sock:close() return records end -- Collect message bodies into one record per type records[record.type] = records[record.type] or record local done = false for j = 1, #record.body do -- no ipairs because we append below local b = record.body[j] done = ((record.type == "alert" and b.level == "fatal") or (record.type == "handshake" and b.type == "server_hello_done")) table.insert(records[record.type].body, b) end if done then sock:close() return records 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) size = math.floor(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 local function slice(t, i, j) local output = {} while i <= j do output[#output+1] = t[i] i = i + 1 end return output end local function merge(a, b, cmp) local output = {} local i = 1 local j = 1 while i <= #a and j <= #b do local winner, err = cmp(a[i], b[j]) if not winner then return nil, err end if winner == a[i] then output[#output+1] = a[i] i = i + 1 else output[#output+1] = b[j] j = j + 1 end end while i <= #a do output[#output+1] = a[i] i = i + 1 end while j <= #b do output[#output+1] = b[j] j = j + 1 end return output end local function merge_recursive(chunks, cmp) if #chunks == 0 then return {} elseif #chunks == 1 then return chunks[1] else local m = math.floor(#chunks / 2) local a, b = slice(chunks, 1, m), slice(chunks, m+1, #chunks) local am, err = merge_recursive(a, cmp) if not am then return nil, err end local bm, err = merge_recursive(b, cmp) if not bm then return nil, err end return merge(am, bm, cmp) end 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 -- Claim to support every elliptic curve and EC point format local base_extensions = { -- Claim to support every elliptic curve ["elliptic_curves"] = tls.EXTENSION_HELPERS["elliptic_curves"](sorted_keys(tls.ELLIPTIC_CURVES)), -- Claim to support every EC point format ["ec_point_formats"] = tls.EXTENSION_HELPERS["ec_point_formats"](sorted_keys(tls.EC_POINT_FORMATS)), } -- Recursively copy a table. -- Only recurs when a value is a table, other values are copied by assignment. local function tcopy (t) local tc = {}; for k,v in pairs(t) do if type(v) == "table" then tc[k] = tcopy(v); else tc[k] = v; end end return tc; end -- Get a message body from a record which has the specified property set to value local function get_body(record, property, value) for i, b in ipairs(record.body) do if b[property] == value then return b end end return nil end -- Score a ciphersuite implementation (including key exchange info) local function score_cipher (kex_strength, cipher_info) local kex_score, cipher_score if not kex_strength or not cipher_info.size then return "unknown" end if kex_strength == 0 then return 0 elseif kex_strength < 512 then kex_score = 0.2 elseif kex_strength < 1024 then kex_score = 0.4 elseif kex_strength < 2048 then kex_score = 0.8 elseif kex_strength < 4096 then kex_score = 0.9 else kex_score = 1.0 end if cipher_info.size == 0 then return 0 elseif cipher_info.size < 128 then cipher_score = 0.2 elseif cipher_info.size < 256 then cipher_score = 0.8 else cipher_score = 1.0 end -- Based on SSL Labs' 30-30-40 rating without the first 30% (protocol support) return 0.43 * kex_score + 0.57 * cipher_score end local function letter_grade (score) if not tonumber(score) then return "unknown" end if score >= 0.80 then return "A" elseif score >= 0.65 then return "B" elseif score >= 0.50 then return "C" elseif score >= 0.35 then return "D" elseif score >= 0.20 then return "E" else return "F" end end -- Find which ciphers out of group are supported by the server. local function find_ciphers_group(host, port, protocol, group, scores) local results = {} local t = { ["protocol"] = protocol, ["extensions"] = tcopy(base_extensions), } if host.targetname then t["extensions"]["server_name"] = tls.EXTENSION_HELPERS["server_name"](host.targetname) end -- 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. local protocol_worked = false while (next(group)) do t["ciphers"] = group local records = try_params(host, port, t) local handshake = records.handshake if handshake == nil then local alert = records.alert if alert then ctx_log(2, protocol, "Got alert: %s", alert.body[1].description) if alert["protocol"] ~= protocol then ctx_log(1, protocol, "Protocol rejected.") protocol_worked = nil break elseif get_body(alert, "description", "handshake_failure") then protocol_worked = true ctx_log(2, protocol, "%d ciphers rejected.", #group) break end elseif 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 else local server_hello = get_body(handshake, "type", "server_hello") if not server_hello then ctx_log(2, protocol, "Unexpected record received.") break end if server_hello.protocol ~= protocol then ctx_log(1, protocol, "Protocol rejected. cipher: %s", server_hello.cipher) protocol_worked = (protocol_worked == nil) and nil or false break else protocol_worked = true local name = server_hello.cipher ctx_log(2, 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) if scores then local info = tls.cipher_info(name) -- Some warnings: if info.hash and info.hash == "MD5" then scores.warnings["Ciphersuite uses MD5 for message integrity"] = true end if protocol == "SSLv3" and info.mode and info.mode == "CBC" then scores.warnings["CBC-mode cipher in SSLv3 (CVE-2014-3566)"] = true elseif info.cipher == "RC4" and tls.PROTOCOLS[protocol] >= 0x0302 then scores.warnings["Weak cipher RC4 in TLSv1.1 or newer not needed for BEAST mitigation"] = true end local kex = tls.KEX_ALGORITHMS[info.kex] local extra, kex_strength if kex.anon then kex_strength = 0 elseif kex.export then if info.kex:find("1024$") then kex_strength = 1024 else kex_strength = 512 end else if kex.pubkey then local certs = get_body(handshake, "type", "certificate") -- Assume RFC compliance: -- "The sender's certificate MUST come first in the list." -- This may not always be the case, so -- TODO: reorder certificates and validate entire chain -- TODO: certificate validation (date, self-signed, etc) -- TODO: Handle this gracefully when OpenSSL is not compiled in -- (throws error otherwise) local c = sslcert.parse_ssl_certificate(certs.certificates[1]) if c.pubkey.type == kex.pubkey then local sigalg = c.sig_algorithm:match("([mM][dD][245])") if sigalg then -- MD2 and MD5 are broken kex_strength = 0 scores.warnings["Insecure certificate signature: " .. string.upper(sigalg)] = true else sigalg = c.sig_algorithm:match("([sS][hH][aA]1)") if sigalg then -- TODO: Update this when SHA-1 is deprecated in 2016 -- kex_strength = 0 scores.warnings["Weak certificate signature: SHA1"] = true end kex_strength = tls.rsa_equiv(kex.pubkey, c.pubkey.bits) extra = string.format("%s %d", kex.pubkey, c.pubkey.bits) end end end local ske = get_body(handshake, "type", "server_key_exchange") if kex.server_key_exchange and ske then local kex_info = kex.server_key_exchange(ske.data) if kex_info.strength then local rsa_bits = tls.rsa_equiv(kex.type, kex_info.strength) if kex_strength and kex_strength > rsa_bits then kex_strength = rsa_bits scores.warnings["Key exchange parameters of lower strength than certificate key"] = true end kex_strength = kex_strength or rsa_bits extra = string.format("%s %d", kex.type, kex_info.strength) end end end scores[name] = { cipher_strength=info.size, kex_strength = kex_strength, extra = extra, letter_grade = letter_grade(score_cipher(kex_strength, info)) } end end end end end return results, protocol_worked end local function get_chunk_size(host, protocol) -- Try to make sure we don't send too big of a handshake -- https://github.com/ssllabs/research/wiki/Long-Handshake-Intolerance local len_t = { protocol = protocol, ciphers = {}, extensions = tcopy(base_extensions), } if host.targetname then len_t.extensions.server_name = tls.EXTENSION_HELPERS.server_name(host.targetname) end local cipher_len_remaining = 255 - #tls.client_hello(len_t) -- if we're over 255 anyway, just go for it. -- Each cipher adds 2 bytes local max_chunks = cipher_len_remaining > 0 and cipher_len_remaining / 2 or CHUNK_SIZE -- otherwise, use the min return max_chunks < CHUNK_SIZE and max_chunks or CHUNK_SIZE 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 ciphers = in_chunks(sorted_keys(tls.CIPHERS), get_chunk_size(host, protocol)) local results = {} local scores = {warnings={}} -- Try every cipher. for _, group in ipairs(ciphers) do local chunk, protocol_worked = find_ciphers_group(host, port, protocol, group, scores) if protocol_worked == nil then return nil end for _, name in ipairs(chunk) do table.insert(results, name) end end if not next(results) then return nil end return results, scores end local function find_compressors(host, port, protocol, good_ciphers) local compressors = sorted_keys(tls.COMPRESSORS) local t = { ["protocol"] = protocol, ["ciphers"] = good_ciphers, ["extensions"] = tcopy(base_extensions), } if host.targetname then t["extensions"]["server_name"] = tls.EXTENSION_HELPERS["server_name"](host.targetname) end local results = {} -- Try every compressor. local protocol_worked = false while (next(compressors)) do -- Create structure. t["compressors"] = compressors -- Try connecting with compressor. local records = try_params(host, port, t) local handshake = records.handshake if handshake == nil then local alert = records.alert if alert then ctx_log(2, protocol, "Got alert: %s", alert.body[1].description) if alert["protocol"] ~= protocol then ctx_log(1, protocol, "Protocol rejected.") protocol_worked = nil break elseif get_body(alert, "description", "handshake_failure") then protocol_worked = true ctx_log(2, protocol, "%d compressors rejected.", #compressors) -- Should never get here, because NULL should be good enough. -- The server may just not be able to handle multiple compressors. if #compressors > 1 then -- Make extra-sure it's not crazily rejecting the NULL compressor compressors[1] = "NULL" for i = 2, #compressors, 1 do compressors[i] = nil end -- try again. else break end end elseif protocol_worked then ctx_log(2, protocol, "%d compressors rejected. (No handshake)", #compressors) else ctx_log(1, protocol, "%d compressors and/or protocol rejected. (No handshake)", #compressors) end break else local server_hello = get_body(handshake, "type", "server_hello") if not server_hello then ctx_log(2, protocol, "Unexpected record received.") break end if server_hello.protocol ~= protocol then ctx_log(1, protocol, "Protocol rejected.") protocol_worked = (protocol_worked == nil) and nil or false break else protocol_worked = true local name = server_hello.compressor ctx_log(2, protocol, "Compressor %s chosen.", name) remove(compressors, name) -- Add compressor to the list of accepted compressors. table.insert(results, name) if name == "NULL" then break -- NULL is always last choice, and must be included end end end end return results end -- Offer two ciphers and return the one chosen by the server. Returns nil and -- an error message in case of a server error. local function compare_ciphers(host, port, protocol, cipher_a, cipher_b) local t = { ["protocol"] = protocol, ["ciphers"] = {cipher_a, cipher_b}, ["extensions"] = tcopy(base_extensions), } if host.targetname then t["extensions"]["server_name"] = tls.EXTENSION_HELPERS["server_name"](host.targetname) end local records = try_params(host, port, t) local server_hello = records.handshake and get_body(records.handshake, "type", "server_hello") if server_hello then ctx_log(2, protocol, "compare %s %s -> %s", cipher_a, cipher_b, server_hello.cipher) return server_hello.cipher else ctx_log(2, protocol, "compare %s %s -> error", cipher_a, cipher_b) return nil, string.format("Error when comparing %s and %s", cipher_a, cipher_b) end end -- Try to find whether the server prefers its own ciphersuite order or that of -- the client. -- -- The return value is (preference, err). preference is a string: -- "server": the server prefers its own order. In this case ciphers is non-nil. -- "client": the server follows the client preference. ciphers is nil. -- "indeterminate": returned when there are only 0 or 1 ciphers. ciphers is nil. -- nil: an error ocurred during the test. err is non-nil. -- err is an error message string that is non-nil when preference is nil or -- indeterminate. -- -- The algorithm tries offering two ciphersuites in two different orders. If -- the server makes a different choice each time, "client" preference is -- assumed. Otherwise, "server" preference is assumed. local function find_cipher_preference(host, port, protocol, ciphers) -- Too few ciphers to make a decision? if #ciphers < 2 then return "indeterminate", "Too few ciphers supported" end -- Do a comparison in both directions to see if server ordering is consistent. local cipher_a, cipher_b = ciphers[1], ciphers[2] ctx_log(1, protocol, "Comparing %s to %s", cipher_a, cipher_b) local winner_forwards, err = compare_ciphers(host, port, protocol, cipher_a, cipher_b) if not winner_forwards then return nil, err end local winner_backward, err = compare_ciphers(host, port, protocol, cipher_b, cipher_a) if not winner_backward then return nil, err end if winner_forwards ~= winner_backward then return "client", nil end return "server", nil end -- Sort ciphers according to server preference with a modified merge sort local function sort_ciphers(host, port, protocol, ciphers) local chunks = {} for _, group in ipairs(in_chunks(ciphers, get_chunk_size(host, protocol))) do local size = #group local chunk = find_ciphers_group(host, port, protocol, group) if not chunk then return nil, "Network error" end if #chunk ~= size then ctx_log(1, protocol, "warning: %d ciphers offered but only %d accepted", size, #chunk) end table.insert(chunks, chunk) end -- The comparison operator for the merge is a 2-cipher ClientHello. local function cmp(cipher_a, cipher_b) return compare_ciphers(host, port, protocol, cipher_a, cipher_b) end local sorted, err = merge_recursive(chunks, cmp) if not sorted then return nil, err end return sorted end local function try_protocol(host, port, protocol, upresults) local condvar = nmap.condvar(upresults) local results = stdnse.output_table() -- Find all valid ciphers. local ciphers, scores = find_ciphers(host, port, protocol) if ciphers == nil then condvar "signal" return nil end if #ciphers == 0 then results = {ciphers={},compressors={}} setmetatable(results,{ __tostring=function(t) return "No supported ciphers found" end }) upresults[protocol] = results condvar "signal" return nil end -- Find all valid compression methods. local compressors -- Reduce chunk size by 1 to allow extra room for the extra compressors (2 bytes) for _, c in ipairs(in_chunks(ciphers, get_chunk_size(host, protocol) - 1)) do compressors = find_compressors(host, port, protocol, c) -- I observed a weird interaction between ECDSA ciphers and DEFLATE compression. -- Some servers would reject the handshake if no non-ECDSA ciphers were available. -- Sending 64 ciphers at a time should be sufficient, but we'll try them all if necessary. if compressors and #compressors ~= 0 then break end end -- Note the server's cipher preference algorithm. local cipher_pref, cipher_pref_err = find_cipher_preference(host, port, protocol, ciphers) -- Order ciphers according to server preference, if possible if cipher_pref == "server" then local sorted, err = sort_ciphers(host, port, protocol, ciphers) if sorted then ciphers = sorted else -- Can't sort, fall back to alphabetical order table.sort(ciphers) cipher_pref_err = err end else -- fall back to alphabetical order table.sort(ciphers) end -- Add rankings to ciphers local cipherstr for i, name in ipairs(ciphers) do local outcipher = {name=name, kex_info=scores[name].extra, strength=scores[name].letter_grade} setmetatable(outcipher,{ __tostring=function(t) if t.kex_info then return string.format("%s (%s) - %s", t.name, t.kex_info, t.strength) else return string.format("%s - %s", t.name, t.strength) end end }) ciphers[i]=outcipher end results["ciphers"] = ciphers -- Format the compressor table. table.sort(compressors) results["compressors"] = compressors results["cipher preference"] = cipher_pref results["cipher preference error"] = cipher_pref_err if next(scores.warnings) then results["warnings"] = sorted_keys(scores.warnings) end upresults[protocol] = results condvar "signal" return nil end portrule = function (host, port) if shortport.ssl(host, port) or sslcert.getPrepareTLSWithoutReconnect(port) then return true end -- selected by name and we didn't detect something *not* SSL if (port.version.name_confidence <= 3 and nmap.version_intensity() == 9) then -- check whether it's an SSL service local is_ssl = false -- probes from nmap-service-probes for _, probe in ipairs({ --TLSSessionReq "\x16\x03\0\x00g\x01\0\x001\x03\x03U\x1c\xa7\xe4random1random2random3\z random4\0\x00\x0a\0/\0\x0a\0\x13\x009\0\x04\x01\0\0\x30\0\x0d\0,\0*\0\z \x01\0\x03\0\x02\x06\x01\x06\x03\x06\x02\x02\x01\x02\x03\x02\x02\x03\x01\z \x03\x03\x03\x02\x04\x01\x04\x03\x04\x02\x01\x01\x01\x03\x01\x02\x05\x01\z \x05\x03\x05\x02", -- SSLSessionReq "\x16\x03\0\0S\x01\0\0O\x03\0?G\xd7\xf7\xba,\xee\xea\xb2`~\xf3\0\xfd\z \x82{\xb9\xd5\x96\xc8w\x9b\xe6\xc4\xdb<=\xdbo\xef\x10n\0\0(\0\x16\0\x13\z \0\x0a\0f\0\x05\0\x04\0e\0d\0c\0b\0a\0`\0\x15\0\x12\0\x09\0\x14\0\x11\0\z \x08\0\x06\0\x03\x01\0", }) do local status, resp = comm.exchange(host, port, probe) if status and resp and ( resp:match("^\x16\x03[\0-\x03]..\x02...\x03[\0-\x03]") or resp:match("^\x15\x03[\0-\x03]\0\x02\x02[F\x28]") ) then is_ssl = true break end end return is_ssl end return false end --- Return a table that yields elements sorted by key when iterated over with pairs() -- Should probably put this in a formatting library later. -- Depends on keys() function defined above. --@param t The table whose data should be used --@return out A table that can be passed to pairs() to get sorted results function sorted_by_key(t) local out = {} setmetatable(out, { __pairs = function(_) local order = sorted_keys(t) return coroutine.wrap(function() for i,k in ipairs(order) do coroutine.yield(k, t[k]) end end) end }) return out end action = function(host, port) local results = {} local condvar = nmap.condvar(results) local threads = {} for name, _ in pairs(tls.PROTOCOLS) do stdnse.debug1("Trying protocol %s.", name) local co = stdnse.new_thread(try_protocol, host, port, name, results) 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 if not next(results) then return nil end local least = "A" for p, r in pairs(results) do for i, c in ipairs(r.ciphers) do -- counter-intuitive: "A" < "B", so really looking for max least = least < c.strength and c.strength or least end end results["least strength"] = least return sorted_by_key(results) end