X-Git-Url: https://git.ralfj.de/tls-check.git/blobdiff_plain/c24ab0b379d16957df05cd2f32ed7271b5d11fd6..162a2cded2b9e3b13de4b1439037df2b571c3a19:/tls-check?ds=sidebyside diff --git a/tls-check b/tls-check index 27651d5..33529d9 100755 --- a/tls-check +++ b/tls-check @@ -3,7 +3,9 @@ import subprocess, sys, argparse, time, re 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: @@ -24,7 +26,6 @@ def compute_frac(fracs): 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 @@ -35,14 +36,26 @@ def finish_progress(): 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 @@ -54,15 +67,13 @@ def test_cipher(host, port, protocol, cipher = None, 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 @@ -86,6 +97,17 @@ class CipherStrength(Enum): 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: @@ -102,16 +124,20 @@ class CipherPropsProvider: assert '\n' not in 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 @@ -142,7 +168,7 @@ class CipherPropsProvider: 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 smpt, 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]', @@ -175,5 +201,7 @@ if __name__ == "__main__": 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")) + 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()