def test_xors(self): # packet with no modifications unchanged = bytearray( b'\x17\x03\x00\x000' # record layer header b'\xa1\xbb\x9f&Z\x1cb\xb3\xf3U\x11\xbb\xf4\xd6\x91\xf3' b'\xa8\xf2"\xb8\xa9@]\x16,\xc9\x17Wh\x17\x1e\xb5' b'\x9f\xcdm\x9a\xf0!\xe65\xea\xa8\xeb|(\xd8\xd2\x02') data_gen = fuzz_padding(ApplicationDataGenerator(b"text"), min_length=16, xors={-2:0xff}) data_msg = data_gen.generate(self.state) self.state.msg_sock.sendMessageBlocking(data_msg) self.assertEqual(len(self.socket.sent), 1) self.assertEqual(len(self.socket.sent[0]), 1 + # record layer type 2 + # protocol version 2 + # record payload length field 4 + # length of Application Data 160 // 8 + # length of HMAC 1 + # size of length tag of padding (0) 23) # minimal length of padding last_block = bytearray( b'\\Y\x90j\x8a\xe7\x82\xf3=\xceE\xe3\x0f\x85\x82\t') self.assertEqual(self.socket.sent[0], unchanged[:-16] + last_block)
def test_min_length_with_post_send(self): hello_gen = fuzz_padding(ClientHelloGenerator(), min_length=200) unmodified_hello = hello_gen.generate(self.state) self.assertEqual(len(unmodified_hello.write()), 43) self.state.msg_sock.sendMessageBlocking(unmodified_hello) self.assertEqual(len(self.socket.sent), 1) self.assertEqual(len(self.socket.sent[0]), 1 + # record layer type 2 + # protocol version 2 + # record payload length field 43 + # length of ClientHello 160 // 8 + # length of HMAC 1 + # size of length tag of padding (0) 208) # minimal length of padding greater than 200 hello_gen.post_send(self.state) clean_hello_gen = ClientHelloGenerator() clean_hello = clean_hello_gen.generate(self.state) self.state.msg_sock.sendMessageBlocking(clean_hello) self.assertEqual(len(self.socket.sent), 2) self.assertEqual(len(self.socket.sent[1]), 1 + # record layer type 2 + # protocol version 2 + # record payload length field 43 + # length of ClientHello 160 // 8 + # length of HMAC 1 + # size of length tag of padding (0) 0) # minimal length of padding
def test_min_length_with_length_too_big_for_data(self): data_gen = fuzz_padding(ApplicationDataGenerator(b"text"), min_length=254) data_msg = data_gen.generate(self.state) self.assertEqual(len(data_msg.write()), 4) with self.assertRaises(ValueError): self.state.msg_sock.sendMessageBlocking(data_msg)
def test_no_options(self): hello_gen = fuzz_padding(ClientHelloGenerator()) unmodified_hello = hello_gen.generate(self.state) self.assertEqual(len(unmodified_hello.write()), 43) self.state.msg_sock.sendMessageBlocking(unmodified_hello) self.assertEqual(len(self.socket.sent), 1) self.assertEqual(len(self.socket.sent[0]), 1 + # record layer type 2 + # protocol version 2 + # record payload length field 43 + # length of ClientHello 160 // 8 + # length of HMAC 1) # size of length tag of padding (0)
def test_min_length_with_invalid_length(self): with self.assertRaises(ValueError): fuzz_padding(ClientHelloGenerator(), min_length=256)
def main(): """check if atypical padding is accepted by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:n:", ["help"]) 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 == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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(bytearray(b"GET / HTTP/1.0\n\n"))) node = node.add_child(ExpectApplicationData()) node = node.add_child( AlertGenerator(AlertLevel.warning, AlertDescription.close_notify)) node = node.add_child(ExpectAlert()) node.next_sibling = ExpectClose() conversations["sanity"] = conversation conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) 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()) conversations["256 bytes of padding"] = \ conversation # run the conversation good = 0 bad = 0 failed = [] 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'])] regular_tests = [(k, v) for k, v in conversations.items() if k != 'sanity'] sampled_tests = sample(regular_tests, min(num_limit, len(regular_tests))) ordered_tests = chain(sanity_tests, sampled_tests, sanity_tests) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue print("{0} ...".format(c_name)) runner = Runner(c_test) res = True try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False if res: good += 1 print("OK\n") else: bad += 1 failed.append(c_name) print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) failed_sorted = sorted(failed, key=natural_sort_keys) print(" {0}".format('\n '.join(repr(i) for i in failed_sorted))) if bad > 0: sys.exit(1)
def main(): """check if incorrect padding is rejected by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:", ["help"]) 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 == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # we're generating at least 20 bytes of padding ]: conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(b"GET / HTTP/1.0\n\n"), xors={pos: val}, min_length=20)) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation # zero-fill the padding conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) 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()) # block size for AES-128 is 16 bytes # SHA-1 MAC is 20 bytes long # length of "GET / HTTP" is 10 bytes # which means the padding will be two bytes - 1 byte of padding and one # byte length node = node.add_child( fuzz_padding(ApplicationDataGenerator(b"GET / HTTP"), substitutions={0: 0})) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["zero-filled"] = \ conversation # run the conversation good = 0 bad = 0 for c_name, c_test in conversations.items(): if run_only and c_name not in run_only or c_name in run_exclude: continue print("{0} ...".format(c_name)) runner = Runner(c_test) res = True #because we don't want to abort the testing and we are reporting #the errors to the user, using a bare except is OK #pylint: disable=bare-except try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False #pylint: enable=bare-except if res: good += 1 print("OK") else: bad += 1 print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) if bad > 0: sys.exit(1)
def main(): """check if atypical padding is accepted by server""" conversations = {} conversation = Connect("localhost", 4433) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_padding(ApplicationDataGenerator(text), min_length=255)) 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()) conversations["256 bytes of padding"] = \ conversation # run the conversation good = 0 bad = 0 for conversation_name in conversations: conversation = conversations[conversation_name] print(conversation_name + "...") runner = Runner(conversation) res = True #because we don't want to abort the testing and we are reporting #the errors to the user, using a bare except is OK #pylint: disable=bare-except try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False #pylint: enable=bare-except if res: good+=1 print("OK") else: bad+=1 print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) if bad > 0: sys.exit(1)
def main(): """check if zero-filled padding is accepted by server in SSLv3""" host = "localhost" port = 4433 num_limit = None run_exclude = set() argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:n:", ["help"]) 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 == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} # normal connection conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" node = node.add_child(ApplicationDataGenerator(text)) node = node.add_child(ExpectApplicationData()) # BEAST 1/n-1 splitting 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()) conversations["sanity"] = \ conversation # zero-fill SSLv3 padding conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 # because we're using HMAC-SHA-1 block_size = 16 # because we're suing AES # make sure that padding has full block to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_padding(ApplicationDataGenerator(text), # set all bytes of pad to b'\x00' # with exception of the length byte substitutions=dict( (x, 0) for x in range(0, 15)))) node = node.add_child(ExpectApplicationData()) # BEAST 1/n-1 splitting 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()) conversations["zero-filled padding in SSLv3"] = \ conversation # max size SSLv3 padding conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full block to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_padding(ApplicationDataGenerator(text), min_length=128//8)) node = node.add_child(ExpectApplicationData()) # BEAST 1/n-1 splitting 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()) conversations["max acceptable padding in SSLv3"] = \ conversation # too much padding in SSLv3 conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full block to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_padding(ApplicationDataGenerator(text), # make the padding longer than the block # size of the cipher min_length=(128//8)+1)) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node.add_child(ExpectClose()) conversations["excessive padding in SSLv3 (valid in TLS 1.0)"] = \ conversation # max size SSLv3 padding conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n" # some servers put limits on size of headers, e.g. Apache 2.3 has 8190 Bytes for i in range(3): text += b"X-ba" + compatAscii2Bytes(str(i)) + b": " + \ b"a" * (4096 - 9) + b"\r\n" text += b"X-ba3: " + b"a" * (4096 - 37) + b"\r\n" text += b"\r\n" assert len(text) == 2**14, len(text) # as SSLv3 specifies that padding must be minimal length, that means # there is just one valid length of padding, no need to force it node = node.add_child(ApplicationDataGenerator(text)) node = node.add_child(ExpectApplicationData()) # BEAST 1/n-1 splitting 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()) conversations["max Application Data in SSLv3"] = \ conversation # run the conversation good = 0 bad = 0 failed = [] 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'])] regular_tests = [(k, v) for k, v in conversations.items() if k != 'sanity'] sampled_tests = sample(regular_tests, min(num_limit, len(regular_tests))) ordered_tests = chain(sanity_tests, sampled_tests, sanity_tests) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue print("{0} ...".format(c_name)) runner = Runner(c_test) res = True try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False if res: good += 1 print("OK\n") else: bad += 1 failed.append(c_name) print("Script to verify different padding scenarios in SSLv3.") print("Check if the padding in SSLv3 follows the RFC6101\n") print("version: {0}\n".format(version)) print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) failed_sorted = sorted(failed, key=natural_sort_keys) print(" {0}".format('\n '.join(repr(i) for i in failed_sorted))) if bad > 0: sys.exit(1)
def main(): """check if incorrect padding is rejected by server""" conversations = {} for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # we're generating at least 20 bytes of padding ]: conversation = Connect("localhost", 4433) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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( b"GET / HTTP/1.0\n\n"), xors={pos:val}, min_length=20)) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation # zero-fill the padding conversation = Connect("localhost", 4433) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) # block size for AES-128 is 16 bytes # SHA-1 MAC is 20 bytes long # length of "GET / HTTP" is 10 bytes # which means the padding will be two bytes - 1 byte of padding and one # byte length node = node.add_child(fuzz_padding(ApplicationDataGenerator( b"GET / HTTP"), substitutions={0:0})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["zero-filled"] = \ conversation # run the conversation good = 0 bad = 0 for conversation_name in conversations: conversation = conversations[conversation_name] print(conversation_name + "...") runner = Runner(conversation) res = True #because we don't want to abort the testing and we are reporting #the errors to the user, using a bare except is OK #pylint: disable=bare-except try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False #pylint: enable=bare-except if res: good+=1 print("OK") else: bad+=1 print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) if bad > 0: sys.exit(1)
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 * '=')
def main(): """check if incorrect padding is rejected by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:n:", ["help"]) 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 == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity"] = conversation for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # we're generating at least 20 bytes of padding ]: conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(b"GET / HTTP/1.0\n\n"), xors={pos: val}, min_length=20)) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation # zero-fill the padding conversation = Connect(host, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) # block size for AES-128 is 16 bytes # SHA-1 MAC is 20 bytes long # length of "GET / HTTP" is 10 bytes # which means the padding will be two bytes - 1 byte of padding and one # byte length node = node.add_child( fuzz_padding(ApplicationDataGenerator(b"GET / HTTP"), substitutions={0: 0})) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["zero-filled"] = \ conversation # run the conversation good = 0 bad = 0 failed = [] 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 throught sanity_test = ('sanity', conversations['sanity']) ordered_tests = chain([sanity_test], islice( filter(lambda x: x[0] != 'sanity', conversations.items()), num_limit), [sanity_test]) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue print("{0} ...".format(c_name)) runner = Runner(c_test) res = True try: runner.run() except Exception: print("Error while processing") print(traceback.format_exc()) res = False if res: good += 1 print("OK\n") else: bad += 1 failed.append(c_name) print("Check if incorrect padding is rejected by server") print("version: {0}\n".format(version)) print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) failed_sorted = sorted(failed, key=natural_sort_keys) print(" {0}".format('\n '.join(repr(i) for i in failed_sorted))) if bad > 0: sys.exit(1)
def main(): """Check if server is not vulnerable to Bleichenbacher attack""" host = "localhost" port = 4433 num_limit = None run_exclude = set() expected_failures = {} last_exp_tmp = None timeout = 1.0 alert = AlertDescription.bad_record_mac level = AlertLevel.fatal srv_extensions = {ExtensionType.renegotiation_info: None} no_sni = False repetitions = 100 interface = None timing = False outdir = "/tmp" cipher = CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA affinity = None argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:x:X:t:n:a:l:l:o:i:C:", ["help", "no-safe-renego", "no-sni", "repeat=", "cpu-list="]) 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 == '-n': num_limit = int(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 == '-t': timeout = float(arg) elif opt == '-a': alert = int(arg) elif opt == '-l': level = int(arg) elif opt == "-i": timing = True interface = arg elif opt == '-o': outdir = arg elif opt == "--repeat": repetitions = int(arg) elif opt == "--no-safe-renego": srv_extensions = None elif opt == "--no-sni": no_sni = True elif opt == "--cpu-list": affinity = arg elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None cln_extensions = {ExtensionType.renegotiation_info: None} if is_valid_hostname(host) and not no_sni: cln_extensions[ExtensionType.server_name] = \ SNIExtension().create(bytearray(host, 'ascii')) # RSA key exchange check if cipher not in CipherSuite.certSuites: print("Ciphersuite has to use RSA key exchange.") exit(1) conversations = OrderedDict() conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) 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(bytearray(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()) node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["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) # check if a certain number doesn't trip up the server # (essentially a second sanity test) conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={2: 1})) 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(bytearray(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()) node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["sanity - static non-zero byte in random padding"] = conversation # first put tests that are the benchmark to be compared to # fuzz MAC in the Finshed message to make decryption fail conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(fuzz_mac(FinishedGenerator(), xors={0:0xff})) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["invalid MAC in Finished on pos 0"] = conversation conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(fuzz_mac(FinishedGenerator(), xors={-1:0xff})) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["invalid MAC in Finished on pos -1"] = conversation # and for good measure, add something that sends invalid padding conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator()) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(fuzz_padding(FinishedGenerator(), xors={-1:0xff, -2:0x01})) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["invalid padding_length in Finished"] = conversation # create a CKE with PMS the runner doesn't know/use conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # use too short PMS but then change padding so that the PMS is # correct length with correct TLS version but the encryption keys # that tlsfuzzer calculates will be incorrect node = node.add_child(ClientKeyExchangeGenerator( padding_subs={-3: 0, -2: 3, -1: 3}, premaster_secret=bytearray([1] * 46))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["fuzzed pre master secret"] = conversation # set 2nd byte of padding to 3 (invalid value) conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={1: 3})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["set PKCS#1 padding type to 3"] = conversation # set 2nd byte of padding to 1 (signing) conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={1: 1})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["set PKCS#1 padding type to 1"] = conversation # test early zero in random data conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={4: 0})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["zero byte in random padding"] = conversation # check if early padding separator is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={-2: 0})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["zero byte in last byte of random padding"] = conversation # check if separator without any random padding is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={2: 0})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["zero byte in first byte of random padding"] = conversation # check if invalid first byte of encoded value is correctly detecte conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={0: 1})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["invalid version number in padding"] = conversation # check if no null separator in padding is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={-1: 1})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["no null separator in padding"] = conversation # check if no null separator in padding is detected # but with PMS set to non-zero conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(padding_subs={-1: 1}, premaster_secret=bytearray([1] * 48))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["no null separator in encrypted value"] = conversation # check if too short PMS is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1, 1]))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["two byte long PMS (TLS version only)"] = conversation # check if no encrypted payload is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # the TLS version is always set, so we mask the real padding separator # and set the last byte of PMS to 0 node = node.add_child(ClientKeyExchangeGenerator(padding_subs={-1: 1}, premaster_secret=bytearray([1, 1, 0]))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["no encrypted value"] = conversation # check if too short encrypted payload is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # the TLS version is always set, so we mask the real padding separator # and set the last byte of PMS to 0 node = node.add_child(ClientKeyExchangeGenerator(padding_subs={-1: 1}, premaster_secret=bytearray([1, 1, 0, 3]))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["one byte encrypted value"] = conversation # check if too short PMS is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1] * 47))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["too short (47-byte) pre master secret"] = conversation # check if too short PMS is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1] * 4))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["very short (4-byte) pre master secret"] = conversation # check if too long PMS is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1] * 49))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["too long (49-byte) pre master secret"] = conversation # check if very long PMS is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1] * 124))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["very long (124-byte) pre master secret"] = conversation conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(premaster_secret=bytearray([1] * 96))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["very long (96-byte) pre master secret"] = conversation # check if wrong TLS version number is rejected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(client_version=(2, 2))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["wrong TLS version (2, 2) in pre master secret"] = conversation # check if wrong TLS version number is rejected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) node = node.add_child(ClientKeyExchangeGenerator(client_version=(0, 0))) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["wrong TLS version (0, 0) in pre master secret"] = conversation # check if too short PKCS padding is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # move the start of the padding forward, essentially encrypting two 0 bytes # at the beginning of the padding, but since those are transformed into a number # their existence is lost and it just like the padding was too small node = node.add_child(ClientKeyExchangeGenerator(padding_subs={1: 0, 2: 2})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["too short PKCS padding"] = conversation # check if very short PKCS padding doesn't have a different behaviour conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # move the start of the padding 40 bytes towards LSB subs = {} for i in range(41): subs[i] = 0 subs[41] = 2 node = node.add_child(ClientKeyExchangeGenerator(padding_subs=subs)) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["very short PKCS padding (40 bytes short)"] = conversation # check if too long PKCS padding is detected conversation = Connect(host, port) node = conversation ciphers = [cipher] node = node.add_child(ClientHelloGenerator(ciphers, extensions=cln_extensions)) node = node.add_child(ExpectServerHello(extensions=srv_extensions)) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectServerHelloDone()) node = node.add_child(TCPBufferingEnable()) # move the start of the padding backward, essentially encrypting no 0 bytes # at the beginning of the padding, but since those are transformed into a number # its lack is lost and it just like the padding was too big node = node.add_child(ClientKeyExchangeGenerator(padding_subs={0: 2})) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(TCPBufferingDisable()) node = node.add_child(TCPBufferingFlush()) node = node.add_child(ExpectAlert(level, alert)) node.add_child(ExpectClose()) conversations["too long PKCS padding"] = conversation # 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] if num_limit < len(conversations): sampled_tests = sample(regular_tests, min(num_limit, len(regular_tests))) else: sampled_tests = regular_tests ordered_tests = chain(sanity_tests, sampled_tests, sanity_tests) 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("Test end") print(20 * '=') print("""Tests for handling of malformed encrypted values in CKE This test script checks if the server correctly handles malformed Client Key Exchange messages in RSA key exchange. When executed with `-i` it will also verify that different errors are rejected in the same amount of time; it checks for timing sidechannel. The script executes tests without \"sanity\" in name multiple times to estimate server response time. Quick reminder: when encrypting a value using PKCS#1 v1.5 standard the plaintext has the following structure, starting from most significant byte: - one byte, the version of the encryption, must be 0 - one byte, the type of encryption, must be 2 (is 1 in case of signature) - one or more bytes of random padding, with no zero bytes. The count must equal the byte size of the public key modulus less size of encrypted value and 3 (for version, type and separator) For signatures the bytes must equal 0xff - one zero byte that acts as separator between padding and encrypted value - one or more bytes that are the encrypted value, for TLS it must be 48 bytes long and the first two bytes need to equal the TLS version advertised in Client Hello All tests should exhibit the same kind of timing behaviour, but if some groups of tests are inconsistent, that points to likely place where the timing leak happens: - the control group, lack of consistency here points to Lucky 13: - 'invalid MAC in Finished on pos 0' - 'invalid MAC in Finished on pos -1' - 'fuzzed pre master secret' - this will end up with random plaintexts in record with Finished, most resembling a randomly selected PMS by the server verification: - 'set PKCS#1 padding type to 3' - 'set PKCS#1 padding type to 1' - incorrect size of encrypted value (pre-master secret), inconsistent results here suggests that the decryption leaks length of plaintext: - 'zero byte in random padding' - this creates a PMS that's 4 bytes shorter than the public key size and has a random TLS version - 'zero byte in last byte of random padding' - this creates a PMS that's one byte too long (49 bytes long), with a TLS version that's (0, major_version) - 'no null separator in padding' - as the PMS is all zero, this effectively sends a PMS that's 45 bytes long with TLS version of (0, 0) - 'two byte long PMS (TLS version only)' - 'one byte encrypted value' - the encrypted value is 3, as a correct value for first byte of TLS version - 'too short (47-byte) pre master secret' - 'very short (4-byte) pre master secret' - 'too long (49-byte) pre master secret' - 'very long (124-byte) pre master secret' - 'very long (96-byte) pre master secret' - invalid PKCS#1 v1.5 encryption padding: - 'zero byte in first byte of random padding' - this is a mix of too long PMS and invalid padding, it actually doesn't send padding at all, the padding length is zero - 'invalid version number in padding' - this sets the first byte of plaintext to 1 - 'no null separator in encrypted value' - this doesn't send a null byte separating padding and encrypted value - 'no encrypted value' - this sends a null separator, but it's the last byte of plaintext - 'too short PKCS padding' - this sends the correct encryption type in the padding (2), but one byte later than required - 'very short PKCS padding (40 bytes short)' - same as above only 40 bytes later - 'too long PKCS padding' this doesn't send the PKCS#1 v1.5 version at all, but starts with padding type - invalid TLS version in PMS, differences here suggest a leak in code checking for correctness of this value: - 'wrong TLS version (2, 2) in pre master secret' - 'wrong TLS version (0, 0) in pre master secret'""") print(20 * '=') print("version: {0}".format(version)) 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 > 0: sys.exit(1) elif timing: # if regular tests passed, run timing collection and analysis if TimingRunner.check_tcpdump(): timing_runner = TimingRunner("{0}_{1}".format(sys.argv[0], 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() if ret_val == 0: print("No statistically significant difference detected") elif ret_val == 1: print("Statisticaly significant difference detected at alpha=" "0.05") else: 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 * '=')
def main(): """check if incorrect MAC hash is rejected by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:n:", ["help"]) 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 == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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)) # sending of the close_notify reply to a close_notify is very unrealiable # ignore it not being sent node.next_sibling = ExpectClose() conversations["sanity"] = conversation for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # SHA-1 HMAC has just 20 bytes ]: conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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_mac(ApplicationDataGenerator( b"GET / HTTP/1.0\n\n"), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) app_data = b"GET / HTTP/1.0\r\nX-Fo: 0\r\n\r\n" assert (len(app_data) + 20 + 1) % 16 == 0 node = node.add_child(fuzz_mac(ApplicationDataGenerator(app_data), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position {0} with {1} (short pad)" .format(pos, hex(val))] = \ conversation conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_mac(fuzz_padding(ApplicationDataGenerator(text), min_length=255), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position {0} with {1} (long pad)" .format(pos, hex(val))] = \ conversation # run the conversation good = 0 bad = 0 failed = [] 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_test = ('sanity', conversations['sanity']) ordered_tests = chain([sanity_test], islice(filter(lambda x: x[0] != 'sanity', conversations.items()), num_limit), [sanity_test]) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue print("{0} ...".format(c_name)) runner = Runner(c_test) res = True try: runner.run() except Exception: print("Error while processing") print(traceback.format_exc()) res = False if res: good += 1 print("OK\n") else: bad += 1 failed.append(c_name) print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) failed_sorted = sorted(failed, key=natural_sort_keys) print(" {0}".format('\n '.join(repr(i) for i in failed_sorted))) if bad > 0: sys.exit(1)
def main(): """check if incorrect MAC hash is rejected by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() expected_failures = {} last_exp_tmp = None argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:x:X:n:", ["help"]) 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 == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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)) # sending of the close_notify reply to a close_notify is very unrealiable # ignore it not being sent node.next_sibling = ExpectClose() conversations["sanity"] = conversation for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # SHA-1 HMAC has just 20 bytes ]: conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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_mac(ApplicationDataGenerator( b"GET / HTTP/1.0\n\n"), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) app_data = b"GET / HTTP/1.0\r\nX-Fo: 0\r\n\r\n" assert (len(app_data) + 20 + 1) % 16 == 0 node = node.add_child(fuzz_mac(ApplicationDataGenerator(app_data), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position {0} with {1} (short pad)" .format(pos, hex(val))] = \ conversation conversation = Connect(host, port) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_mac(fuzz_padding(ApplicationDataGenerator(text), min_length=255), xors={pos:val})) node = node.add_child(ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["XOR position {0} with {1} (long pad)" .format(pos, hex(val))] = \ conversation # 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) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue 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("Test end") print(20 * '=') print("version: {0}".format(version)) 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)
def main(): """check if zero-filled padding is accepted by server in SSLv3""" conversations = {} # zero-fill SSLv3 padding conversation = Connect("localhost", 4433) node = conversation ciphers = [CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV] node = node.add_child(ClientHelloGenerator(ciphers, version=(3, 0))) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\nX-bad: aaaa\n\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full block to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child(fuzz_padding(ApplicationDataGenerator(text), # set all bytes of pad to b'\x00' substitutions={x:0 for x in range(0, 15)})) node = node.add_child(ExpectApplicationData()) # BEAST 1/n-1 splitting 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()) conversations["zero-filled padding in SSLv3"] = \ conversation # run the conversation good = 0 bad = 0 for conversation_name in conversations: conversation = conversations[conversation_name] print(conversation_name + "...") runner = Runner(conversation) res = True #because we don't want to abort the testing and we are reporting #the errors to the user, using a bare except is OK #pylint: disable=bare-except try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False #pylint: enable=bare-except if res: good+=1 print("OK") else: bad+=1 print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) if bad > 0: sys.exit(1)
def main(): """check if incorrect padding is rejected by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() expected_failures = {} last_exp_tmp = None dhe = False argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:x:X:n:d", ["help"]) 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 == '-d': dhe = True elif opt == '-n': num_limit = int(arg) elif opt == '--help': help_msg() sys.exit(0) else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation if dhe: ext = {} groups = [GroupName.secp256r1, GroupName.ffdhe2048] ext[ExtensionType.supported_groups] = SupportedGroupsExtension()\ .create(groups) ext[ExtensionType.signature_algorithms] = \ SignatureAlgorithmsExtension().create(RSA_SIG_ALL) ext[ExtensionType.signature_algorithms_cert] = \ SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity"] = conversation for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # we're generating at least 20 bytes of padding ]: conversation = Connect(host, port) node = conversation if dhe: ext = {} groups = [GroupName.secp256r1, GroupName.ffdhe2048] ext[ExtensionType.supported_groups] = SupportedGroupsExtension()\ .create(groups) ext[ExtensionType.signature_algorithms] = \ SignatureAlgorithmsExtension().create(RSA_SIG_ALL) ext[ExtensionType.signature_algorithms_cert] = \ SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(b"GET / HTTP/1.0\n\n"), xors={pos: val}, min_length=20)) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation # zero-fill the padding conversation = Connect(host, port) node = conversation if dhe: ext = {} groups = [GroupName.secp256r1, GroupName.ffdhe2048] ext[ExtensionType.supported_groups] = SupportedGroupsExtension()\ .create(groups) ext[ExtensionType.signature_algorithms] = \ SignatureAlgorithmsExtension().create(RSA_SIG_ALL) ext[ExtensionType.signature_algorithms_cert] = \ SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) node = node.add_child(ChangeCipherSpecGenerator()) node = node.add_child(FinishedGenerator()) node = node.add_child(ExpectChangeCipherSpec()) node = node.add_child(ExpectFinished()) # block size for AES-128 is 16 bytes # SHA-1 MAC is 20 bytes long # length of "GET / HTTP" is 10 bytes # which means the padding will be two bytes - 1 byte of padding and one # byte length node = node.add_child( fuzz_padding(ApplicationDataGenerator(b"GET / HTTP"), substitutions={0: 0})) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) node = node.add_child(ExpectClose()) conversations["zero-filled"] = \ conversation # 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'])] regular_tests = [(k, v) for k, v in conversations.items() if k != 'sanity'] sampled_tests = sample(regular_tests, min(num_limit, len(regular_tests))) ordered_tests = chain(sanity_tests, sampled_tests, sanity_tests) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue 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("Check if incorrect padding is rejected by server") print("version: {0}\n".format(version)) 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 > 0: sys.exit(1)
def main(): """check if atypical padding is accepted by server""" host = "localhost" port = 4433 num_limit = None run_exclude = set() expected_failures = {} last_exp_tmp = None dhe = False echo = False argv = sys.argv[1:] opts, args = getopt.getopt(argv, "h:p:e:x:X:n:d", ["help", "echo-headers"]) 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 == '-n': num_limit = int(arg) elif opt == '-d': dhe = True elif opt == '--help': help_msg() sys.exit(0) elif opt == '--echo-headers': echo = True else: raise ValueError("Unknown option: {0}".format(opt)) if args: run_only = set(args) else: run_only = None conversations = {} conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity"] = conversation # check if SHA256 ciphers work conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity - SHA256 HMAC"] = conversation # check if SHA384 ciphers work conversation = Connect(host, port) node = conversation ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity - SHA384 HMAC"] = conversation # check if Encrypt Then Mac works conversation = Connect(host, port) node = conversation ext = {ExtensionType.encrypt_then_mac: AutoEmptyExtension()} if dhe: add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) extensions = { ExtensionType.encrypt_then_mac: None, ExtensionType.renegotiation_info: None } node = node.add_child(ExpectServerHello(extensions=extensions)) 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(bytearray(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()) node.next_sibling = ExpectClose() conversations["sanity - encrypt then MAC"] = conversation # maximum size of padding conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n\r\n" hmac_tag_length = 20 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0 node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) 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()) conversations["256 bytes of padding"] = \ conversation # maximum size of padding with SHA256 conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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()) text = b"GET / HTTP/1.0\r\nX-bad: aaaaa\r\n\r\n" hmac_tag_length = 32 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) 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()) conversations["256 bytes of padding with SHA256"] = \ conversation # ... and SHA384 conversation = Connect(host, port) node = conversation ext = {} groups = [GroupName.secp256r1, GroupName.ffdhe2048] ext[ExtensionType.supported_groups] = SupportedGroupsExtension()\ .create(groups) ext[ExtensionType.signature_algorithms] = \ SignatureAlgorithmsExtension().create(RSA_SIG_ALL) ext[ExtensionType.signature_algorithms_cert] = \ SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\r\nX-bad: aaaaa\r\n\r\n" hmac_tag_length = 48 block_size = 16 # make sure that padding has full blocks to work with assert (len(text) + hmac_tag_length) % block_size == 0, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) node = node.add_child(ExpectApplicationData()) node = node.add_child( AlertGenerator(AlertLevel.warning, AlertDescription.close_notify)) node = node.add_child(ExpectAlert()) node.next_sibling = ExpectClose() conversations["256 bytes of padding with SHA384"] = \ conversation # longest possible padding with max size Application data conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n" for i in range(3): text += b"X-ba" + compatAscii2Bytes(str(i)) + b": " + \ b"a" * (4096 - 9) + b"\r\n" text += b"X-ba3: " + b"a" * (4096 - 37) + b"\r\n" text += b"\r\n" assert len(text) == 2**14, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=252)) if echo: node = node.add_child(ExpectApplicationData(size=2**14)) 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()) conversations["2^14 bytes of AppData with 253 bytes of padding (SHA1)"] = \ conversation # longest possible padding with max size Application data (and EtM) conversation = Connect(host, port) node = conversation ext = {ExtensionType.encrypt_then_mac: AutoEmptyExtension()} if dhe: add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) extensions = { ExtensionType.encrypt_then_mac: None, ExtensionType.renegotiation_info: None } node = node.add_child(ExpectServerHello(extensions=extensions)) 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n" for i in range(3): text += b"X-ba" + compatAscii2Bytes(str(i)) + b": " + \ b"a" * (4096 - 9) + b"\r\n" text += b"X-ba3: " + b"a" * (4096 - 37) + b"\r\n" text += b"\r\n" assert len(text) == 2**14, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) if echo: node = node.add_child(ExpectApplicationData(size=2**14)) 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()) conversations["2^14 bytes of AppData with 256 bytes of padding (SHA1 " "+ Encrypt then MAC)"] = \ conversation # longest possible padding with max size Application data with SHA256 conversation = Connect(host, port) node = conversation if dhe: ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] else: ext = None ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA256, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n" for i in range(3): text += b"X-ba" + compatAscii2Bytes(str(i)) + b": " + \ b"a" * (4096 - 9) + b"\r\n" text += b"X-ba3: " + b"a" * (4096 - 37) + b"\r\n" text += b"\r\n" assert len(text) == 2**14, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) if echo: node = node.add_child(ExpectApplicationData(size=2**14)) 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()) conversations["2^14 bytes of AppData with 256 bytes of padding (SHA256)"] = \ conversation conversation = Connect(host, port) node = conversation ext = {} add_dhe_extensions(ext) ciphers = [ CipherSuite.TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) 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()) text = b"GET / HTTP/1.0\r\nX-bad: a\r\n" for i in range(3): text += b"X-ba" + compatAscii2Bytes(str(i)) + b": " + \ b"a" * (4096 - 9) + b"\r\n" text += b"X-ba3: " + b"a" * (4096 - 37) + b"\r\n" text += b"\r\n" assert len(text) == 2**14, len(text) node = node.add_child( fuzz_padding(ApplicationDataGenerator(text), min_length=255)) if echo: node = node.add_child(ExpectApplicationData(size=2**14)) node = node.add_child(ExpectApplicationData()) node = node.add_child( AlertGenerator(AlertLevel.warning, AlertDescription.close_notify)) node = node.add_child(ExpectAlert()) node.next_sibling = ExpectClose() conversations["2^14 bytes of AppData with 256 bytes of padding (SHA384)"] = \ conversation # 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) for c_name, c_test in ordered_tests: if run_only and c_name not in run_only or c_name in run_exclude: continue 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("Test if server can handle records with large (but valid) padding") print( "Tests both with small records and records that carry maximum amount") print("of user data.\n") print("Test end") print(20 * '=') print("version: {0}".format(version)) 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)
def main(): """check if incorrect padding is rejected by server""" conversations = {} hostname = "localhost" port = 4433 for pos, val in [ (-1, 0x01), (-1, 0xff), (-2, 0x01), (-2, 0xff), (-6, 0x01), (-6, 0xff), (-12, 0x01), (-12, 0xff), (-20, 0x01), (-20, 0xff), # we're generating at least 20 bytes of padding ]: conversation = Connect(hostname, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) node = node.add_child(join) 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(b"GET / HTTP/1.0\n\n"), xors={pos: val}, min_length=20)) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["XOR position " + str(pos) + " with " + str(hex(val))] = \ conversation # zero-fill the padding conversation = Connect(hostname, port) node = conversation ciphers = [ CipherSuite.TLS_RSA_WITH_AES_128_CBC_SHA, CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV ] node = node.add_child(ClientHelloGenerator(ciphers)) node = node.add_child(ExpectServerHello()) node = node.add_child(ExpectCertificate()) node = node.add_child(ExpectCertificateRequest()) fork = node node = node.add_child(ExpectServerHelloDone()) node = node.add_child(CertificateGenerator()) # handle servers which ask for client certificates fork.next_sibling = ExpectServerHelloDone() join = ClientKeyExchangeGenerator() fork.next_sibling.add_child(join) 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()) # block size for AES-128 is 16 bytes # SHA-1 MAC is 20 bytes long # length of "GET / HTTP" is 10 bytes # which means the padding will be two bytes - 1 byte of padding and one # byte length node = node.add_child( fuzz_padding(ApplicationDataGenerator(b"GET / HTTP"), substitutions={0: 0})) node = node.add_child( ExpectAlert(AlertLevel.fatal, AlertDescription.bad_record_mac)) # node.next_sibling = ExpectClose() node = node.add_child(ExpectClose()) conversations["zero-filled"] = \ conversation # run the conversation good = 0 bad = 0 for conversation_name in conversations: conversation = conversations[conversation_name] print(conversation_name + "...") runner = Runner(conversation) res = True #because we don't want to abort the testing and we are reporting #the errors to the user, using a bare except is OK #pylint: disable=bare-except try: runner.run() except: print("Error while processing") print(traceback.format_exc()) res = False #pylint: enable=bare-except if res: good += 1 print("OK") else: bad += 1 print("Test end") print("successful: {0}".format(good)) print("failed: {0}".format(bad)) if bad > 0: sys.exit(1)