from collections import OrderedDict, namedtuple
from enum import Enum
-# progress bar
+# progress bar and other console output fun
+STATE_WIDTH = 30
+
def terminal_size():
import fcntl, termios, struct
try:
return frac
def print_progress(state, fracs):
- STATE_WIDTH = 30
w, h = terminal_size()
if w < STATE_WIDTH+10: return # not a (wide enough) terminal
bar_width = w-STATE_WIDTH-3
w, h = terminal_size()
sys.stdout.write('\r'+(' '*w)+'\r')
sys.stdout.flush()
+
+class ConsoleFormat:
+ BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE = range(8)
+ RESET_SEQ = "\033[0m"
+ COLOR_SEQ = "\033[1;3%dm"
+ BOLD_SEQ = "\033[1m"
+ @staticmethod
+ def color(text, color):
+ return (ConsoleFormat.COLOR_SEQ % color) + text + ConsoleFormat.RESET_SEQ
+
# cipher check
def list_ciphers(spec="ALL:COMPLEMENTOFALL"):
ciphers = subprocess.check_output(["openssl", "ciphers", spec]).decode('UTF-8').strip()
return ciphers.split(':')
-def test_cipher(host, port, protocol, cipher = None, options=[]):
+def test_cipher(host, port, protocol, cipher = None, wait_time=0, options=[]):
+ # throttle
+ time.sleep(wait_time/1000)
try:
if cipher is not None:
options = ["-cipher", cipher]+options
return True
def test_protocol(host, port, protocol, ciphers, base_frac, wait_time=0, options=[]):
- if test_cipher(host, port, protocol, options=options):
+ if test_cipher(host, port, protocol, wait_time=wait_time, options=options):
# the protocol is supported
results = OrderedDict()
for i in range(len(ciphers)):
cipher = ciphers[i]
print_progress(protocol+" "+cipher, base_frac+[(i, len(ciphers))])
- results[cipher] = test_cipher(host, port, protocol, cipher, options)
- # throttle
- time.sleep(wait_time/1000)
+ results[cipher] = test_cipher(host, port, protocol, cipher=cipher, wait_time=wait_time, options=options)
return results
else:
# it is not supported
low = 1
medium = 2
high = 3
+
+ def colorName(self):
+ if self == CipherStrength.unknown:
+ return self.name
+ elif self.value == CipherStrength.high.value:
+ return ConsoleFormat.color(self.name, ConsoleFormat.GREEN)
+ elif self.value == CipherStrength.medium.value:
+ return ConsoleFormat.color(self.name, ConsoleFormat.YELLOW)
+ else:
+ return ConsoleFormat.color(self.name, ConsoleFormat.RED)
+
CipherProps = namedtuple('CipherProps', 'bits, strength, isPfs')
class CipherPropsProvider:
self.high = set(list_ciphers("HIGH"))
self.props = {}
- def __getProps(self, cipher):
+ def getProps(self, protocol, cipher):
+ # strip the sub-version-number from the protocol
+ pos = protocol.find('_')
+ if pos >= 0:
+ protocol = protocol[:pos]
# as OpenSSL about this cipher
- cipherInfo = subprocess.check_output(["openssl", "ciphers", "-v", cipher]).decode('UTF-8').strip()
- assert '\n' not in cipherInfo
+ cipherInfo = subprocess.check_output(["openssl", "ciphers", "-v", "-"+protocol, cipher]).decode('UTF-8').strip()
+ assert '\n' not in cipherInfo, "Cipher "+cipher+" produced unexpected output:\n"+cipherInfo
cipherInfoFields = cipherInfo.split()
# get # of bits
- bitMatch = re.match(r'^Enc=[0-9A-Za-z]+\(([0-9]+)\)$', cipherInfoFields[4])
- if bitMatch is None:
+ encMatch = re.match(r'^Enc=([0-9A-Za-z]+)\(([0-9]+)\)$', cipherInfoFields[4])
+ if encMatch is None:
raise Exception("Unexpected OpenSSL output: Cannot determine encryption strength from {1}\nComplete output: {0}".format(cipherInfo, cipherInfoFields[4]))
- bits = int(bitMatch.group(1))
+ encCipher = encMatch.group(1)
+ bits = int(encMatch.group(2))
+ if encCipher == '3DES':
+ # OpenSSL gives the key size, which however for 3DES is a totally bad estimate
+ bits = int(bits*2/3)
# figure out whether the cipher is pfs
- kxMatch = re.match(r'^Kx=([0-9A-Z/]+)$', cipherInfoFields[2])
+ kxMatch = re.match(r'^Kx=([0-9A-Z/()]+)$', cipherInfoFields[2])
if kxMatch is None:
- raise Exception("Unexpected OpenSSL output: Cannot determine key-exchange method from {1}\nComplete output: {0}".format(cipherInfo), cipherInfoFields[2])
+ raise Exception("Unexpected OpenSSL output: Cannot determine key-exchange method from {1}\nComplete output: {0}".format(cipherInfo, cipherInfoFields[2]))
kx = kxMatch.group(1)
- isPfs = kx in ('DH', 'ECDH')
+ isPfs = kx in ('DH', 'DH(512)', 'ECDH')
# determine security level
isExp = cipher in self.exp
isLow = cipher in self.low
isMedium = cipher in self.medium
isHigh = cipher in self.high
- assert isExp+isLow+isMedium+isHigh <= 1, "Cipher is more than one from EXP, LOW, MEDIUM, HIGH"
+ assert isExp+isLow+isMedium+isHigh <= 1, "Cipher "+cipher+" is more than one from EXP, LOW, MEDIUM, HIGH"
if isExp:
strength = CipherStrength.exp
elif isLow:
strength = CipherStrength.unknown
# done!
return CipherProps(bits=bits, strength=strength, isPfs=isPfs)
-
- def getProps(self, cipher):
- if cipher in self.props:
- return self.props[cipher]
- props = self.__getProps(cipher)
- self.props[cipher] = props
- return props
# main program
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Check TLS ciphers supported by a host')
parser.add_argument("--starttls", dest="starttls",
- help="Use a STARTTLS variant to establish the TLS connection. Possible values include smpt, imap, xmpp.")
+ help="Use a STARTTLS variant to establish the TLS connection. Possible values include smtp, imap.")
parser.add_argument("--wait-time", "-t", dest="wait_time", default="10",
help="Time (in ms) to wait between two connections to the server. Default is 10ms.")
parser.add_argument("host", metavar='HOST[:PORT]',
else:
for cipher, supported in ciphers.items():
if supported:
- cipherProps = propsProvider.getProps(cipher)
- print(" {0} ({1}, {2} bits, {3})".format(cipher, cipherProps.strength.name, cipherProps.bits, "FS" if cipherProps.isPfs else "not FS"))
+ cipherProps = propsProvider.getProps(protocol, cipher)
+ fsText = ConsoleFormat.color("FS", ConsoleFormat.GREEN) if cipherProps.isPfs else ConsoleFormat.color("no FS", ConsoleFormat.RED)
+ bitColor = ConsoleFormat.GREEN if cipherProps.bits >= 128 else (ConsoleFormat.YELLOW if cipherProps.bits >= 100 else ConsoleFormat.RED)
+ print(" {0} ({1}, {2}, {3})".format(cipher.ljust(STATE_WIDTH), cipherProps.strength.colorName(), ConsoleFormat.color(str(cipherProps.bits)+" bits", bitColor), fsText))
print()