def _newRawPrivateKeyOp(self,
m,
original_rawPrivateKeyOp,
subs=None,
xors=None):
signBytes = numberToByteArray(m, numBytes(self.n))
signBytes = substitute_and_xor(signBytes, subs, xors)
m = bytesToNumber(signBytes)
return original_rawPrivateKeyOp(m)
def new_addPKCS1Padding(bytes, blockType, self=key,
old_add_padding=key._addPKCS1Padding,
substitutions=substitutions, xors=xors):
"""Monkey patch for the _addPKCS1Padding() method of RSA key."""
ret = old_add_padding(bytes, blockType)
pad_length = numBytes(self.n) - len(bytes)
pad = ret[:pad_length]
value = ret[pad_length:]
pad = substitute_and_xor(pad, substitutions, xors)
return pad + value
def _newRawPrivateKeyOp(self, m, original_rawPrivateKeyOp,
subs=None, xors=None):
signBytes = numberToByteArray(m, numBytes(self.n))
signBytes = substitute_and_xor(signBytes, subs, xors)
m = bytesToNumber(signBytes)
# RSA operations are defined only on numbers that are smaller
# than the modulus, so ensure the XORing or substitutions
# didn't break it (especially necessary for pycrypto as
# it raises exception in such case)
if m > self.n:
m %= self.n
return original_rawPrivateKeyOp(m)
def main():
host = "localhost"
port = 4433
num_limit = 15
run_exclude = set()
expected_failures = {}
last_exp_tmp = None
private_key = None
cert = None
exp_illeg_param = False
sigalgs = [
SignatureScheme.ecdsa_secp521r1_sha512,
SignatureScheme.ecdsa_secp384r1_sha384,
SignatureScheme.ecdsa_secp256r1_sha256,
(HashAlgorithm.sha224, SignatureAlgorithm.ecdsa),
(HashAlgorithm.sha1,
SignatureAlgorithm.ecdsa), SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha512,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_pss_sha256,
(HashAlgorithm.sha512, SignatureAlgorithm.rsa),
(HashAlgorithm.sha384, SignatureAlgorithm.rsa),
(HashAlgorithm.sha256, SignatureAlgorithm.rsa),
(HashAlgorithm.sha224, SignatureAlgorithm.rsa),
(HashAlgorithm.sha1, SignatureAlgorithm.rsa)
]
argv = sys.argv[1:]
opts, args = getopt.getopt(argv, "h:p:e:x:X:n:k:c:s:",
["help", "illegpar"])
for opt, arg in opts:
if opt == '-k':
text_key = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_key = str(text_key, 'utf-8')
private_key = parsePEMKey(text_key,
private=True,
implementations=["python"])
elif opt == '-c':
text_cert = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_cert = str(text_cert, 'utf-8')
cert = X509()
cert.parse(text_cert)
elif opt == '-s':
sigalgs = sig_algs_to_ids(arg)
elif 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 == '--illegpar':
exp_illeg_param = True
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
if not private_key:
raise ValueError("Specify private key file using -k")
if not cert:
raise ValueError("Specify certificate file using -c")
conversations = {}
conversations_long = {}
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512,
(HashAlgorithm.sha512, SignatureAlgorithm.rsa),
(HashAlgorithm.sha384, SignatureAlgorithm.rsa),
(HashAlgorithm.sha256, SignatureAlgorithm.rsa),
(HashAlgorithm.sha224, SignatureAlgorithm.rsa),
(HashAlgorithm.sha1, SignatureAlgorithm.rsa)
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
algs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
node = node.add_child(ExpectServerKeyExchange(valid_sig_algs=algs))
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["sanity"] = conversation
# check if RSA-PSS can be the only one
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["RSA-PSS only"] = conversation
# check if algs in CertificateRequest are expected
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest(sig_algs=sigalgs))
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["check CertificateRequest sigalgs"] = conversation
if cert.certAlg == "rsa":
schemes = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512
]
invalid_schemes = [
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
else:
schemes = [
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
invalid_schemes = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512
]
for scheme in invalid_schemes:
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(
CertificateVerifyGenerator(private_key, msg_alg=scheme))
node = node.add_child(ChangeCipherSpecGenerator())
node = node.add_child(FinishedGenerator())
node = node.add_child(TCPBufferingDisable())
node = node.add_child(TCPBufferingFlush())
if exp_illeg_param:
node = node.add_child(
ExpectAlert(AlertLevel.fatal,
AlertDescription.illegal_parameter))
else:
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations["{0} in CertificateVerify with {1} key".format(
SignatureScheme.toRepr(scheme), cert.certAlg)] = conversation
# check if CertificateVerify can be signed with any algorithm
for scheme in schemes:
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(
CertificateVerifyGenerator(private_key, msg_alg=scheme))
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()
node = node.add_child(ExpectClose())
conversations["{0} in CertificateVerify with {1} key".format(
SignatureScheme.toRepr(scheme), cert.certAlg)] = conversation
# check if CertificateVerify with wrong salt size is rejected
for scheme in schemes:
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(
CertificateVerifyGenerator(private_key,
msg_alg=scheme,
rsa_pss_salt_len=20))
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(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations[
"{0} in CertificateVerify with incorrect salt len".format(
SignatureScheme.toRepr(scheme))] = conversation
# check if CertificateVerify with wrong salt size is rejected
for pos in range(numBytes(private_key.n)):
for xor in [0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80]:
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
if cert.certAlg == "rsa":
scheme = SignatureScheme.rsa_pss_rsae_sha256
else:
scheme = SignatureScheme.rsa_pss_pss_sha256
node = node.add_child(
CertificateVerifyGenerator(private_key,
msg_alg=scheme,
padding_xors={pos: xor}))
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(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations_long[
"malformed {0} in CertificateVerify - xor {1} at {2}".format(
cert.certAlg, hex(xor), pos)] = conversation
if cert.certAlg == "rsa-pss":
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(
CertificateVerifyGenerator(
private_key,
msg_alg=SignatureScheme.rsa_pkcs1_sha256,
sig_alg=SignatureScheme.rsa_pkcs1_sha256))
node = node.add_child(ChangeCipherSpecGenerator())
node = node.add_child(FinishedGenerator())
node = node.add_child(TCPBufferingDisable())
node = node.add_child(TCPBufferingFlush())
if exp_illeg_param:
node = node.add_child(
ExpectAlert(AlertLevel.fatal,
AlertDescription.illegal_parameter))
else:
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations["rsa_pkcs1_sha256 signature in CertificateVerify "
"with rsa-pss key"] = conversation
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
if cert.certAlg == "rsa":
sig_alg = SignatureScheme.rsa_pss_rsae_sha256
else:
sig_alg = SignatureScheme.rsa_pss_pss_sha256
node = node.add_child(
CertificateVerifyGenerator(private_key,
msg_alg=SignatureScheme.rsa_pkcs1_sha256,
sig_alg=sig_alg))
node = node.add_child(ChangeCipherSpecGenerator())
node = node.add_child(FinishedGenerator())
node = node.add_child(TCPBufferingDisable())
node = node.add_child(TCPBufferingFlush())
if exp_illeg_param and cert.certAlg != "rsa":
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.illegal_parameter))
else:
# with rsaEncryption key in certificate, there is nothing the TLS
# layer can inspect to decide if the signature is valid before actually
# verifying it
# for rsassa-pss, rsa_pkcs1 signature is illegal
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations[
"{0} signature in CertificateVerify with rsa_pkcs1_sha256 id".format(
SignatureScheme.toRepr(sig_alg))] = conversation
conversation = Connect(host, port)
node = conversation
sigs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512
]
ext = {
ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs),
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
]
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
if cert.certAlg == "rsa":
scheme = SignatureScheme.rsa_pss_rsae_sha256
else:
scheme = SignatureScheme.rsa_pss_pss_sha256
sig = bytearray(b'\xfa\xbc\x0f\x4c')
node = node.add_child(
CertificateVerifyGenerator(private_key, msg_alg=scheme, signature=sig))
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(AlertLevel.fatal, AlertDescription.decrypt_error))
node = node.add_child(ExpectClose())
conversations["short sig with {0} id".format(
SignatureScheme.toRepr(scheme))] = conversation
# run the conversation
good = 0
bad = 0
xfail = 0
xpass = 0
failed = []
xpassed = []
if not num_limit:
num_limit = len(conversations_long)
# 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)
long_tests = [(k, v) for k, v in conversations_long.items()
if k in run_only]
short_tests = [(k, v) for k, v in conversations.items()
if (k != 'sanity') and k in run_only]
else:
long_tests = [(k, v) for k, v in conversations_long.items()
if k not in run_exclude]
short_tests = [(k, v) for k, v in conversations.items()
if (k != 'sanity') and k not in run_exclude]
sampled_tests = sample(long_tests, min(num_limit, len(long_tests)))
ordered_tests = chain(sanity_tests, short_tests, sampled_tests,
sanity_tests)
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("Check handling of rsa-pss signatures")
print("Test should be run twice, once with certificate with")
print("rsaEncryption key and once with certificate with rsassa-pss key.")
print("Implementations that inspect certificate type and check signature")
print("scheme in CertificateVerify before verifying signature need to use")
print("--illegpar option")
print("Test end")
print(20 * '=')
print("version: {0}".format(version))
print(20 * '=')
print("TOTAL: {0}".format(
len(sampled_tests) + len(short_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 that server propoerly rejects pkcs1 signatures in TLS 1.3"""
hostname = "localhost"
port = 4433
num_limit = None
run_exclude = set()
expected_failures = {}
last_exp_tmp = None
cert = None
private_key = None
# algorithms to expect from server in Certificate Request
cr_sigalgs = [
SignatureScheme.ecdsa_secp521r1_sha512,
SignatureScheme.ecdsa_secp384r1_sha384,
SignatureScheme.ecdsa_secp256r1_sha256,
(HashAlgorithm.sha224, SignatureAlgorithm.ecdsa),
(HashAlgorithm.sha1,
SignatureAlgorithm.ecdsa), SignatureScheme.rsa_pss_rsae_sha512,
SignatureScheme.rsa_pss_pss_sha512,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_pss_sha256, SignatureScheme.rsa_pkcs1_sha512,
SignatureScheme.rsa_pkcs1_sha384, SignatureScheme.rsa_pkcs1_sha256,
SignatureScheme.rsa_pkcs1_sha224, SignatureScheme.rsa_pkcs1_sha1
]
# algorithms to advertise in ClientHello
sig_algs = [
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_rsae_sha384, SignatureScheme.rsa_pss_pss_sha384
]
hashalgs = hashes_to_list("sha256 sha384 sha512")
argv = sys.argv[1:]
opts, args = getopt.getopt(argv, "h:p:e:x:X:n:s:k:c:",
["help", "hash-order="])
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)
elif opt == '-s':
cr_sigalgs = sig_algs_to_ids(arg)
elif opt == '--hash-order':
hashalgs = hashes_to_list(arg)
elif opt == '-k':
text_key = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_key = str(text_key, 'utf-8')
private_key = parsePEMKey(text_key, private=True)
elif opt == '-c':
text_cert = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_cert = str(text_cert, 'utf-8')
cert = X509()
cert.parse(text_cert)
else:
raise ValueError("Unknown option: {0}".format(opt))
if args:
run_only = set(args)
else:
run_only = None
if not cert or not private_key:
raise Exception("A Client certificate and a private key are required")
certType = cert.certAlg
conversations = {}
conversations_long = {}
# sanity check for Client Certificates
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(CertificateVerifyGenerator(private_key))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ApplicationDataGenerator(bytearray(b"GET / HTTP/1.0\r\n\r\n")))
# This message is optional and may show up 0 to many times
cycle = ExpectNewSessionTicket()
node = node.add_child(cycle)
node.add_child(cycle)
node.next_sibling = ExpectApplicationData()
node = node.next_sibling.add_child(
AlertGenerator(AlertLevel.warning, AlertDescription.close_notify))
node = node.add_child(ExpectAlert())
node.next_sibling = ExpectClose()
conversations["sanity"] = conversation
# verify the advertised hashes
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest(cr_sigalgs))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator())
node = node.add_child(FinishedGenerator())
node = node.add_child(
ApplicationDataGenerator(bytearray(b"GET / HTTP/1.0\r\n\r\n")))
# This message is optional and may show up 0 to many times
cycle = ExpectNewSessionTicket()
node = node.add_child(cycle)
node.add_child(cycle)
node.next_sibling = ExpectApplicationData()
node = node.next_sibling.add_child(
AlertGenerator(AlertLevel.warning, AlertDescription.close_notify))
node = node.add_child(ExpectAlert())
node.next_sibling = ExpectClose()
conversations["check sigalgs in cert request"] = conversation
for sigalg in RSA_SIG_ALL:
# set if test should succeed or fail based on cert type,
# advertisement and forbidden algorithms
expectPass = True
if certType == "rsa" and sigalg in (
SignatureScheme.rsa_pss_pss_sha256,
SignatureScheme.rsa_pss_pss_sha384,
SignatureScheme.rsa_pss_pss_sha512):
expectPass = False
elif certType == "rsa-pss" and sigalg in (
SignatureScheme.rsa_pss_rsae_sha256,
SignatureScheme.rsa_pss_rsae_sha384,
SignatureScheme.rsa_pss_rsae_sha512):
expectPass = False
# also verify that pkcs1 signatures are unconditionally refused
if sigalg in ((HashAlgorithm.md5,
SignatureAlgorithm.rsa), SignatureScheme.rsa_pkcs1_sha1,
SignatureScheme.rsa_pkcs1_sha224,
SignatureScheme.rsa_pkcs1_sha256,
SignatureScheme.rsa_pkcs1_sha384,
SignatureScheme.rsa_pkcs1_sha512):
expectPass = False
# also expect failure if an algorithm is not advertized
if sigalg not in cr_sigalgs:
expectPass = False
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
# force sigalg
node = node.add_child(
CertificateVerifyGenerator(private_key, msg_alg=sigalg))
node = node.add_child(FinishedGenerator())
result = "works"
# only signatures of matching certificate type should work
if expectPass:
node = node.add_child(
ApplicationDataGenerator(bytearray(b"GET / HTTP/1.0\r\n\r\n")))
# This message is optional and may show up 0 to many times
cycle = ExpectNewSessionTicket()
node = node.add_child(cycle)
node.add_child(cycle)
node.next_sibling = ExpectApplicationData()
node = node.next_sibling.add_child(
AlertGenerator(AlertLevel.warning,
AlertDescription.close_notify))
node = node.add_child(ExpectAlert())
node.next_sibling = ExpectClose()
else:
node = node.add_child(
ExpectAlert(AlertLevel.fatal,
AlertDescription.illegal_parameter))
node.add_child(ExpectClose())
result = "is refused"
conversations["check {0} signature {1}".format(
SignatureScheme.toStr(sigalg), result)] = conversation
# verify that rsa-pss signatures with empty, too short or too long
# salt fail
msgalg = sigalg_select("rsa_pss", hashalgs, cr_sigalgs, certType)
hash_name = SignatureScheme.getHash(SignatureScheme.toRepr(msgalg))
digest_len = getattr(tlshashlib, hash_name)().digest_size
for saltlen in (0, digest_len - 1, digest_len + 1):
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
# force salt length
node = node.add_child(
CertificateVerifyGenerator(private_key, rsa_pss_salt_len=saltlen))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node.add_child(ExpectClose())
conversations["check signature with salt length {0}".format(
saltlen)] = conversation
# verify that a rsa-pkcs1 signature in a rsa-pss ID envelope fails
sigalg = sigalg_select("rsa_pkcs1", hashalgs)
msgalg = sigalg_select("rsa_pss", hashalgs, cr_sigalgs, certType)
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(
CertificateVerifyGenerator(private_key, sig_alg=sigalg,
msg_alg=msgalg))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node.add_child(ExpectClose())
scheme = SignatureScheme.toRepr(sigalg)
conversations["check pkcs1 signature with rsa-pss envelope fails"] = \
conversation
# verify that a rsa-pss signature with mismatched message hash fails
msgalg = sigalg_select("rsa_pss", hashalgs, cr_sigalgs, certType)
# choose a similar scheme with just a different hash, doesn't need to be
# a server supported sigalg
hash_name = SignatureScheme.getHash(SignatureScheme.toRepr(msgalg))
_hashalgs = [x for x in hashalgs if x != hash_name]
sigalg = sigalg_select("rsa_pss", _hashalgs, cert_type=certType)
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(
CertificateVerifyGenerator(private_key, sig_alg=sigalg,
msg_alg=msgalg))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node.add_child(ExpectClose())
conversations["check rsa-pss signature with mismatched hash fails"] = \
conversation
# verify that a rsa-pss signature with mismatched MGF1 hash fails
sigalg = sigalg_select("rsa_pss", hashalgs, cr_sigalgs, certType)
# choose a different hash to cause mismtach
hash_name = SignatureScheme.getHash(SignatureScheme.toRepr(msgalg))
mgf1_hash = [x for x in hashalgs if x != hash_name][0]
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers, extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(
CertificateVerifyGenerator(private_key,
mgf1_hash=mgf1_hash,
msg_alg=sigalg))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node.add_child(ExpectClose())
conversations["check rsa-pss signature with mismatched mgf1 fails"] = \
conversation
# check that fuzzed signatures are rejected
for pos in range(numBytes(private_key.n)):
for xor in [0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80]:
conversation = Connect(hostname, port)
node = conversation
ciphers = [
CipherSuite.TLS_AES_128_GCM_SHA256,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
ext = {}
groups = [GroupName.secp256r1]
ext[ExtensionType.key_share] = key_share_ext_gen(groups)
ext[ExtensionType.supported_versions] = \
SupportedVersionsExtension().create([(3, 4), (3, 3)])
ext[ExtensionType.supported_groups] = \
SupportedGroupsExtension().create(groups)
ext[ExtensionType.signature_algorithms] = \
SignatureAlgorithmsExtension().create(sig_algs)
ext[ExtensionType.signature_algorithms_cert] = \
SignatureAlgorithmsCertExtension().create(RSA_SIG_ALL)
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello())
node = node.add_child(ExpectChangeCipherSpec())
node = node.add_child(ExpectEncryptedExtensions())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectCertificateVerify())
node = node.add_child(ExpectFinished())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(
CertificateVerifyGenerator(private_key,
padding_xors={pos: xor}))
node = node.add_child(FinishedGenerator())
node = node.add_child(
ExpectAlert(AlertLevel.fatal, AlertDescription.decrypt_error))
node.add_child(ExpectClose())
scheme = SignatureScheme.toRepr(sigalg)
conversations_long["check that fuzzed signatures are rejected." +
" Malformed {0} - xor {1} at {2}".format(
certType, hex(xor), pos)] = conversation
# run the conversation
good = 0
bad = 0
xfail = 0
xpass = 0
failed = []
xpassed = []
if not num_limit:
num_limit = len(conversations_long)
# 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'])]
short_tests = [(k, v) for k, v in conversations.items() if k != 'sanity']
long_tests = list(conversations_long.items())
long_sampled_tests = sample(long_tests, min(num_limit, len(long_tests)))
regular_tests = sample(long_sampled_tests + short_tests,
len(long_sampled_tests) + len(short_tests))
ordered_tests = chain(sanity_tests, regular_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 to verify that server properly accepts or refuses")
print("signatures in TLS1.3; PKCS1 signatures are always refused.")
print("Other signatures are accepted or refused accordingly to")
print("the certificate type provided ('rsa' vs 'rsa-pss').\n")
print("version: {0}\n".format(version))
print("Test end")
print(20 * '=')
print("TOTAL: {0}".format(len(regular_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():
"""Verify correct DHE shared secret handling."""
host = "localhost"
port = 4433
num_limit = None
run_exclude = set()
expected_failures = {}
last_exp_tmp = None
min_zeros = 1
record_split = True
argv = sys.argv[1:]
opts, args = getopt.getopt(argv, "h:p:e:x:X:n:z", ["help", "min-zeros="])
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 == '-z':
record_split = False
elif opt == '--help':
help_msg()
sys.exit(0)
elif opt == '--min-zeros':
min_zeros = int(arg)
else:
raise ValueError("Unknown option: {0}".format(opt))
if args:
run_only = set(args)
else:
run_only = None
collected_premaster_secrets = []
collected_dh_primes = []
variables_check = \
{'premaster_secret':
collected_premaster_secrets,
'ServerKeyExchange.dh_p':
collected_dh_primes}
conversations = {}
conversation = Connect(host, port)
node = conversation
ciphers = [CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA]
node = node.add_child(ClientHelloGenerator(
ciphers,
extensions={ExtensionType.renegotiation_info:None}))
node = node.add_child(ExpectServerHello(
extensions={ExtensionType.renegotiation_info:None}))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(CopyVariables(variables_check))
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
for prot in [(3, 0), (3, 1), (3, 2), (3, 3)]:
for ssl2 in [True, False]:
conversation = Connect(host, port,
version=(0, 2) if ssl2 else (3, 0))
node = conversation
ciphers = [CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV]
node = node.add_child(ClientHelloGenerator(ciphers,
version=prot,
ssl2=ssl2))
if prot > (3, 0):
ext = {ExtensionType.renegotiation_info: None}
else:
ext = None
node = node.add_child(ExpectServerHello(extensions=ext,
version=prot))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(CopyVariables(variables_check))
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())
if prot < (3, 2) and record_split:
# 1/n-1 record splitting
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["Protocol {0}{1}".format(
prot,
" in SSLv2 compatible ClientHello" if ssl2 else "")] = \
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
i = 0
break_loop = False
while True:
# don't hog the memory unnecessairly
collected_dh_primes[:] = []
collected_premaster_secrets[:] = []
print("\"{1}\" repeat {0}...".format(i, c_name))
i += 1
if c_name == "sanity":
break_loop = True
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")
break
else:
if res:
good += 1
if numBytes(collected_dh_primes[-1]) \
>= len(collected_premaster_secrets[-1]) + min_zeros:
print("Got prime {0} bytes long and a premaster_secret "
"{1} bytes long"
.format(numBytes(collected_dh_primes[-1]),
len(collected_premaster_secrets[-1])))
break_loop = True
print("OK\n")
else:
bad += 1
failed.append(c_name)
break
if break_loop:
break
print('')
print("Check if the calculated DHE pre_master_secret is truncated when")
print("there are zeros on most significant bytes")
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 > 0:
sys.exit(1)
def test_numBytes(self, number):
self.assertEqual(numBytes(number), self.num_bytes(number))
def main():
"""Verify correct DHE shared secret handling."""
host = "localhost"
port = 4433
num_limit = None
run_exclude = set()
min_zeros = 1
argv = sys.argv[1:]
opts, args = getopt.getopt(argv, "h:p:e:n:", ["help", "min-zeros="])
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)
elif opt == '--min-zeros':
min_zeros = int(arg)
else:
raise ValueError("Unknown option: {0}".format(opt))
if args:
run_only = set(args)
else:
run_only = None
collected_premaster_secrets = []
collected_dh_primes = []
variables_check = \
{'premaster_secret':
collected_premaster_secrets,
'ServerKeyExchange.dh_p':
collected_dh_primes}
conversations = {}
conversation = Connect(host, port)
node = conversation
ciphers = [CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA]
node = node.add_child(
ClientHelloGenerator(
ciphers, extensions={ExtensionType.renegotiation_info: None}))
node = node.add_child(
ExpectServerHello(extensions={ExtensionType.renegotiation_info: None}))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(CopyVariables(variables_check))
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
for prot in [(3, 0), (3, 1), (3, 2), (3, 3)]:
for ssl2 in [True, False]:
conversation = Connect(host,
port,
version=(0, 2) if ssl2 else (3, 0))
node = conversation
ciphers = [
CipherSuite.TLS_DHE_RSA_WITH_AES_128_CBC_SHA,
CipherSuite.TLS_EMPTY_RENEGOTIATION_INFO_SCSV
]
node = node.add_child(
ClientHelloGenerator(ciphers, version=prot, ssl2=ssl2))
if prot > (3, 0):
ext = {ExtensionType.renegotiation_info: None}
else:
ext = None
node = node.add_child(
ExpectServerHello(extensions=ext, version=prot))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(CopyVariables(variables_check))
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())
if prot < (3, 2):
# 1/n-1 record splitting
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["Protocol {0}{1}".format(
prot,
" in SSLv2 compatible ClientHello" if ssl2 else "")] = \
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
i = 0
break_loop = False
while True:
# don't hog the memory unnecessairly
collected_dh_primes[:] = []
collected_premaster_secrets[:] = []
print("\"{1}\" repeat {0}...".format(i, c_name))
i += 1
if c_name == "sanity":
break_loop = True
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
if numBytes(collected_dh_primes[-1]) \
>= len(collected_premaster_secrets[-1]) + min_zeros:
print("Got prime {0} bytes long and a premaster_secret "
"{1} bytes long".format(
numBytes(collected_dh_primes[-1]),
len(collected_premaster_secrets[-1])))
break_loop = True
print("OK\n")
else:
bad += 1
failed.append(c_name)
break
if break_loop:
break
print('')
print("Check if the calculated DHE pre_master_secret is truncated when")
print("there are zeros on most significant bytes")
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():
host = "localhost"
port = 4433
num_limit = None
run_exclude = set()
private_key = None
cert = None
sigalgs = [SignatureScheme.rsa_pss_sha512,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha256,
(HashAlgorithm.sha512, SignatureAlgorithm.rsa),
(HashAlgorithm.sha384, SignatureAlgorithm.rsa),
(HashAlgorithm.sha256, SignatureAlgorithm.rsa),
(HashAlgorithm.sha224, SignatureAlgorithm.rsa),
(HashAlgorithm.sha1, SignatureAlgorithm.rsa)]
argv = sys.argv[1:]
opts, args = getopt.getopt(argv, "h:p:e:n:k:c:s:", ["help"])
for opt, arg in opts:
if opt == '-k':
text_key = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_key = str(text_key, 'utf-8')
private_key = parsePEMKey(text_key, private=True,
implementations=["python"])
elif opt == '-c':
text_cert = open(arg, 'rb').read()
if sys.version_info[0] >= 3:
text_cert = str(text_cert, 'utf-8')
cert = X509()
cert.parse(text_cert)
elif opt == '-s':
sigalgs = sig_algs_to_ids(arg)
elif 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
if not private_key:
raise ValueError("Specify private key file using -k")
if not cert:
raise ValueError("Specify certificate file using -c")
conversations = {}
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha512,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha256,
(HashAlgorithm.sha512, SignatureAlgorithm.rsa),
(HashAlgorithm.sha384, SignatureAlgorithm.rsa),
(HashAlgorithm.sha256, SignatureAlgorithm.rsa),
(HashAlgorithm.sha224, SignatureAlgorithm.rsa),
(HashAlgorithm.sha1, SignatureAlgorithm.rsa)]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
algs = [SignatureScheme.rsa_pss_sha512,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha256]
node = node.add_child(ExpectServerKeyExchange(valid_sig_algs=algs))
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["sanity"] = conversation
# check if RSA-PSS can be the only one
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["RSA-PSS only"] = conversation
# check if algs in CertificateRequest are expected
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest(sig_algs=sigalgs))
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key))
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()
node = node.add_child(ExpectClose())
conversations["check CertificateRequest sigalgs"] = conversation
# check if CertificateVerify can be signed with any algorithm
for scheme in [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]:
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=scheme))
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()
node = node.add_child(ExpectClose())
conversations["{0} in CertificateVerify"
.format(SignatureScheme.toRepr(scheme))] = conversation
# check if CertificateVerify with wrong salt size is rejected
for scheme in [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]:
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=scheme,
rsa_pss_salt_len=20))
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(AlertLevel.fatal,
AlertDescription.decrypt_error))
node.next_sibling = ExpectClose()
node = node.add_child(ExpectClose())
conversations["{0} in CertificateVerify with incorrect salt len"
.format(SignatureScheme.toRepr(scheme))] = conversation
# check if CertificateVerify with wrong salt size is rejected
for pos in range(numBytes(private_key.n)):
for xor in [0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80]:
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
scheme = SignatureScheme.rsa_pss_sha256
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=scheme,
padding_xors={pos:xor}))
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(AlertLevel.fatal,
AlertDescription.decrypt_error))
node.next_sibling = ExpectClose()
node = node.add_child(ExpectClose())
conversations["malformed rsa-pss in CertificateVerify - "
"xor {1} at {0}"
.format(pos, hex(xor))] = conversation
if cert.certAlg == "rsa-pss":
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=SignatureScheme.rsa_pkcs1_sha256,
sig_alg=SignatureScheme.rsa_pkcs1_sha256))
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(AlertLevel.fatal,
AlertDescription.decrypt_error))
node.next_sibling = ExpectClose()
node = node.add_child(ExpectClose())
conversations["rsa_pkcs1_sha256 signature in CertificateVerify "
"with rsa-pss key"] = conversation
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=SignatureScheme.rsa_pkcs1_sha256,
sig_alg=SignatureScheme.rsa_pss_sha256))
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(AlertLevel.fatal,
AlertDescription.decrypt_error))
node.next_sibling = ExpectClose()
node = node.add_child(ExpectClose())
conversations["rsa_pss_sha256 signature in CertificateVerify"
"with rsa_pkcs1_sha256 id"] = conversation
conversation = Connect(host, port)
node = conversation
sigs = [SignatureScheme.rsa_pss_sha256,
SignatureScheme.rsa_pss_sha384,
SignatureScheme.rsa_pss_sha512
]
ext = {ExtensionType.signature_algorithms:
SignatureAlgorithmsExtension().create(sigs)}
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]
node = node.add_child(ClientHelloGenerator(ciphers,
extensions=ext))
node = node.add_child(ExpectServerHello(version=(3, 3)))
node = node.add_child(ExpectCertificate())
node = node.add_child(ExpectServerKeyExchange())
node = node.add_child(ExpectCertificateRequest())
node = node.add_child(ExpectServerHelloDone())
node = node.add_child(TCPBufferingEnable())
node = node.add_child(CertificateGenerator(X509CertChain([cert])))
node = node.add_child(ClientKeyExchangeGenerator())
scheme = SignatureScheme.rsa_pss_sha256
sig = bytearray(b'\xfa\xbc\x0f\x4c')
node = node.add_child(CertificateVerifyGenerator(private_key,
msg_alg=scheme,
signature=sig))
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(AlertLevel.fatal,
AlertDescription.decrypt_error))
node.next_sibling = ExpectClose()
node = node.add_child(ExpectClose())
conversations["short sig with rsa_pss_sha256 id"] = \
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:
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 test_numBytes(self, number):
self.assertEqual(numBytes(number), self.num_bytes(number))
