# Author: Jan Koscielniak, (c) 2020 # Released under Gnu GPL v2.0, see LICENSE file for details """Tests for Lucky 13 vulnerabilities and related conditions""" from __future__ import print_function import traceback import sys import getopt from itertools import chain, product from random import sample from tlsfuzzer.runner import Runner from tlsfuzzer.timing_runner import TimingRunner from tlsfuzzer.messages import Connect, ClientHelloGenerator, \ ClientKeyExchangeGenerator, ChangeCipherSpecGenerator, \ FinishedGenerator, ApplicationDataGenerator, AlertGenerator, \ fuzz_mac, fuzz_padding from tlsfuzzer.expect import ExpectServerHello, ExpectCertificate, \ ExpectServerHelloDone, ExpectChangeCipherSpec, ExpectFinished, \ ExpectAlert, ExpectApplicationData, ExpectClose, \ ExpectServerKeyExchange from tlslite.constants import CipherSuite, AlertLevel, AlertDescription, \ GroupName, ExtensionType from tlslite.extensions import SupportedGroupsExtension, \ SignatureAlgorithmsExtension, SignatureAlgorithmsCertExtension from tlsfuzzer.utils.lists import natural_sort_keys from tlsfuzzer.helpers import SIG_ALL version = 7 def help_msg(): print("Usage: [-h hostname] [-p port] [[probe-name] ...]") print(" -h hostname name of the host to run the test against") print(" localhost by default") print(" -p port port number to use for connection, 4433 by default") print(" probe-name if present, will run only the probes with given") print(" names and not all of them, e.g \"sanity\"") print(" -e probe-name exclude the probe from the list of the ones run") print(" may be specified multiple times") print(" -x probe-name expect the probe to fail. When such probe passes despite being marked like this") print(" it will be reported in the test summary and the whole script will fail.") print(" May be specified multiple times.") print(" -X message expect the `message` substring in exception raised during") print(" execution of preceding expected failure probe") print(" usage: [-x probe-name] [-X exception], order is compulsory!") print(" -C cipher specify cipher for connection. Use integer value") print(" or IETF name. Integer must be prefixed with '0x'") print(" if it is hexadecimal. By default uses") print(" TLS_RSA_WITH_AES_128_CBC_SHA ciphersuite.") print(" -n num only run `num` random tests instead of a full set") print(" (\"sanity\" tests are always executed)") print(" -i interface Allows recording timing information on the") print(" specified interface. Required to enable timing tests") print(" -o dir Specifies output directory for timing information") print(" /tmp by default") print(" --repeat rep How many timing samples should be gathered for each test") print(" 100 by default") print(" --quick Only run a basic subset of tests") print(" --cpu-list Set the CPU affinity for the tcpdump process") print(" See taskset(1) man page for the syntax of this") print(" option. Not used by default.") print(" --payload-len num Size of the sent Application Data record, in bytes.") print(" 512 by default.") print(" --help this message") def main(): host = "localhost" port = 4433 num_limit = None run_exclude = set() expected_failures = {} last_exp_tmp = None timing = False outdir = "/tmp" repetitions = 100 interface = None quick = False cipher = CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA affinity = None ciphertext_len = 512 argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:x:X:n:l:o:i:C:", ["help", "repeat=", "quick", "cpu-list=", "payload-len="]) for opt, arg in opts: if opt == '-h': host = arg elif opt == '-p': port = int(arg) elif opt == '-e': run_exclude.add(arg) elif opt == '-x': expected_failures[arg] = None last_exp_tmp = str(arg) elif opt == '-X': if not last_exp_tmp: raise ValueError("-x has to be specified before -X") expected_failures[last_exp_tmp] = str(arg) elif opt == '-C': if arg[:2] == '0x': cipher = int(arg, 16) else: try: cipher = getattr(CipherSuite, arg) except AttributeError: cipher = int(arg) elif opt == '-n': num_limit = int(arg) elif opt == '-l': level = int(arg) elif opt == "-i": timing = True interface = arg elif opt == '-o': outdir = arg elif opt == "--payload-len": ciphertext_len = int(arg) elif opt == "--repeat": repetitions = int(arg) elif opt == '--help': help_msg() sys.exit(0) elif opt == '--quick': quick = True elif opt == '--cpu-list': affinity = arg else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None mac_sizes = { "md5": 16, "sha": 20, "sha256": 32, "sha384": 48, } if CipherSuite.canonicalMacName(cipher) not in mac_sizes: print("Unsupported MAC, exiting") exit(1) # group conversations that should have the same timing signature if quick: groups = {"quick - wrong MAC": {}} else: groups = { "wrong padding and MAC": {}, "MAC out of bounds": {} } dhe = cipher in CipherSuite.ecdhAllSuites ext = {} ext[ExtensionType.signature_algorithms] = \ SignatureAlgorithmsExtension().create(SIG_ALL) ext[ExtensionType.signature_algorithms_cert] = \ SignatureAlgorithmsCertExtension().create(SIG_ALL) if dhe: sup_groups = [GroupName.secp256r1, GroupName.ffdhe2048] ext[ExtensionType.supported_groups] = SupportedGroupsExtension() \ .create(sup_groups) # first run sanity test and verify that server supports this ciphersuite conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child(ApplicationDataGenerator(b"GET / HTTP/1.0\r\n\r\n")) node = node.add_child(ExpectApplicationData()) node = node.add_child(AlertGenerator(AlertLevel.warning, AlertDescription.close_notify)) node = node.add_child(ExpectAlert(AlertLevel.warning, AlertDescription.close_notify)) node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) for group_name in groups: groups[group_name]["sanity"] = conversation runner = Runner(conversation) try: runner.run() except Exception as exp: # Exception means the server rejected the ciphersuite print("Failing on {0} because server does not support it. ".format(CipherSuite.ietfNames[cipher])) print(20 * '=') exit(1) # assume block length of 16 if not 3des block_len = 8 if CipherSuite.canonicalCipherName(cipher) == "3des" else 16 mac_len = mac_sizes[CipherSuite.canonicalMacName(cipher)] invert_mac = {} for index in range(0, mac_len): invert_mac[index] = 0xff if quick: # iterate over min/max padding and first/last byte MAC error for pad_len, error_pos in product([1, 256], [0, -1]): payload_len = ciphertext_len - mac_len - pad_len - block_len conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding( fuzz_mac( ApplicationDataGenerator(bytearray(payload_len)), xors={error_pos: 0xff} ), min_length=pad_len ) ) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["quick - wrong MAC"][ "wrong MAC at pos {0}, padding length {1}".format(error_pos, pad_len)] = conversation # iterate over min/max padding and first/last byte of padding error for pad_len, error_pos in product([256], [0, 254]): payload_len = ciphertext_len - mac_len - pad_len - block_len conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding( ApplicationDataGenerator(bytearray(payload_len)), min_length=pad_len, xors={(error_pos): 0xff} ) ) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["quick - wrong MAC"][ "wrong pad at pos {0}, padding length {1}".format(error_pos, pad_len)] = conversation else: # iterate over: padding length with incorrect MAC # invalid padding length with correct MAC for pad_len in range(1, 257): # ciphertext 1 has 512 bytes, calculate payload size payload_len = ciphertext_len - mac_len - pad_len - block_len conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding( fuzz_mac( ApplicationDataGenerator(bytearray(payload_len)), xors=invert_mac ), min_length=pad_len ) ) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["wrong padding and MAC"]["wrong MAC, padding length {0}".format(pad_len)] = conversation # incorrect padding of length 255 (256 with the length byte) # with error byte iterated over the length of padding # avoid changing the padding length byte if pad_len < 256: payload_len = ciphertext_len - mac_len - 256 - block_len conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding( ApplicationDataGenerator(bytearray(payload_len)), min_length=256, xors={(pad_len - 1): 0xff} ) ) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["wrong padding and MAC"][ "padding length 255 (256 with the length byte), padding error at position {0}".format( pad_len - 1)] = conversation # ciphertext 2 has 128 bytes and broken padding to make server check mac "before" the plaintext padding = 128 - 1 - block_len - mac_len conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding(ApplicationDataGenerator(bytearray(1)), substitutions={-1: pad_len - 1, 0: 0}, min_length=padding)) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["MAC out of bounds"]["padding length byte={0}".format(pad_len - 1)] = conversation # iterate over MAC length and fuzz byte by byte payload_len = ciphertext_len - mac_len - block_len - 256 for mac_index in range(0, mac_len): conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) if dhe: node = node.add_child(ExpectServerKeyExchange()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) node = node.add_child( fuzz_padding(fuzz_mac(ApplicationDataGenerator(bytearray(payload_len)), xors={mac_index: 0xff}), min_length=256)) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) groups["wrong padding and MAC"]["padding length 255 (256 with the length byte), incorrect MAC at pos {0}".format(mac_index)] = conversation for group_name, conversations in groups.items(): # run the conversation good = 0 bad = 0 xfail = 0 xpass = 0 failed = [] xpassed = [] if not num_limit: num_limit = len(conversations) # make sure that sanity test is run first and last # to verify that server was running and kept running throughout sanity_tests = [('sanity', conversations['sanity'])] if run_only: if num_limit > len(run_only): num_limit = len(run_only) regular_tests = [(k, v) for k, v in conversations.items() if k in run_only] else: regular_tests = [(k, v) for k, v in conversations.items() if (k != 'sanity') and k not in run_exclude] sampled_tests = sample(regular_tests, min(num_limit, len(regular_tests))) ordered_tests = chain(sanity_tests, sampled_tests, sanity_tests) if not sampled_tests: continue print("Running tests for {0}".format(CipherSuite.ietfNames[cipher])) for c_name, c_test in ordered_tests: print("{0} ...".format(c_name)) runner = Runner(c_test) res = True exception = None try: runner.run() except Exception as exp: exception = exp print("Error while processing") print(traceback.format_exc()) res = False if c_name in expected_failures: if res: xpass += 1 xpassed.append(c_name) print("XPASS: expected failure but test passed\n") else: if expected_failures[c_name] is not None and \ expected_failures[c_name] not in str(exception): bad += 1 failed.append(c_name) print("Expected error message: {0}\n" .format(expected_failures[c_name])) else: xfail += 1 print("OK-expected failure\n") else: if res: good += 1 print("OK\n") else: bad += 1 failed.append(c_name) print("Lucky 13 attack check for {0} {1}".format(group_name, CipherSuite.ietfNames[cipher])) print("Test end") print(20 * '=') print("TOTAL: {0}".format(len(sampled_tests) + 2 * len(sanity_tests))) print("SKIP: {0}".format(len(run_exclude.intersection(conversations.keys())))) print("PASS: {0}".format(good)) print("XFAIL: {0}".format(xfail)) print("FAIL: {0}".format(bad)) print("XPASS: {0}".format(xpass)) print(20 * '=') sort = sorted(xpassed, key=natural_sort_keys) if len(sort): print("XPASSED:\n\t{0}".format('\n\t'.join(repr(i) for i in sort))) sort = sorted(failed, key=natural_sort_keys) if len(sort): print("FAILED:\n\t{0}".format('\n\t'.join(repr(i) for i in sort))) if bad or xpass: sys.exit(1) elif timing: # if regular tests passed, run timing collection and analysis if TimingRunner.check_tcpdump(): timing_runner = TimingRunner("{0}_v{1}_{2}_{3}".format( sys.argv[0], version, group_name, CipherSuite.ietfNames[cipher]), sampled_tests, outdir, host, port, interface, affinity) print("Running timing tests...") timing_runner.generate_log(run_only, run_exclude, repetitions) ret_val = timing_runner.run() print("Statistical analysis exited with {0}".format(ret_val)) else: print("Could not run timing tests because tcpdump is not present!") sys.exit(1) print(20 * '=') if __name__ == "__main__": main()