X-Git-Url: https://git.njae.me.uk/?a=blobdiff_plain;f=cipher.py;h=6de268281d41233efd5498ba3d391ace544dcd74;hb=5010cde507d2b6b25ee549efd3dec8d663937e15;hp=818ce51a8defde50a65e5eca491f6937eba6f545;hpb=3e9ed1ddf2b8b89b06744a2d4d6ebc86ad1c2f9d;p=cipher-tools.git diff --git a/cipher.py b/cipher.py index 818ce51..6de2682 100644 --- a/cipher.py +++ b/cipher.py @@ -213,26 +213,51 @@ def affine_decipher(message, multiplier=1, adder=0, one_based=True): return ''.join(enciphered) -def keyword_encipher(message, keyword, wrap_alphabet=False): +def keyword_cipher_alphabet_of(keyword, wrap_alphabet=False): + """Find the cipher alphabet given a keyword + + >>> keyword_cipher_alphabet_of('harry') + 'harybcdefgijklmnopqstuvwxz' + >>> keyword_cipher_alphabet_of('harry', True) + 'haryzbcdefgijklmnopqstuvwx' + >>> keyword_cipher_alphabet_of('harry', False) + 'harybcdefgijklmnopqstuvwxz' + """ cipher_alphabet = '' if wrap_alphabet: last_keyword_letter = deduplicate(sanitise(keyword))[-1] last_keyword_position = string.ascii_lowercase.find(last_keyword_letter) + 1 - cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase[last_keyword_position:] + string.ascii_lowercase[:last_keyword_position])) + cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase[last_keyword_position:] + string.ascii_lowercase)) else: cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase)) + return cipher_alphabet + + +def keyword_encipher(message, keyword, wrap_alphabet=False): + """Enciphers a message with a keyword substitution cipher + + >>> keyword_encipher('test message', 'harry') + 'sbqs kbqqhdb' + >>> keyword_encipher('test message', 'harry', True) + 'qzpq jzpphcz' + >>> keyword_encipher('test message', 'harry', False) + 'sbqs kbqqhdb' + """ + cipher_alphabet = keyword_cipher_alphabet_of(keyword, wrap_alphabet) cipher_translation = ''.maketrans(string.ascii_lowercase, cipher_alphabet) return message.lower().translate(cipher_translation) def keyword_decipher(message, keyword, wrap_alphabet=False): - cipher_alphabet = '' - if wrap_alphabet: - last_keyword_letter = deduplicate(sanitise(keyword))[-1] - last_keyword_position = string.ascii_lowercase.find(last_keyword_letter) + 1 - cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase[last_keyword_position:] + string.ascii_lowercase[:last_keyword_position])) - else: - cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase)) - #cipher_alphabet = ''.join(deduplicate(sanitise(keyword) + string.ascii_lowercase)) + """Deciphers a message with a keyword substitution cipher + + >>> keyword_decipher('sbqs kbqqhdb', 'harry') + 'test message' + >>> keyword_decipher('qzpq jzpphcz', 'harry', True) + 'test message' + >>> keyword_decipher('sbqs kbqqhdb', 'harry', False) + 'test message' + """ + cipher_alphabet = keyword_cipher_alphabet_of(keyword, wrap_alphabet) cipher_translation = ''.maketrans(cipher_alphabet, string.ascii_lowercase) return message.lower().translate(cipher_translation) @@ -254,7 +279,7 @@ def caesar_break(message, metric=norms.euclidean_distance, target_frequencies=no plaintext = caesar_decipher(sanitised_message, shift) frequencies = message_frequency_scaling(letter_frequencies(plaintext)) fit = metric(target_frequencies, frequencies) - logger.info('Caesar break attempt using key {0} gives fit of {1} and decrypt starting: {2}'.format(shift, fit, plaintext[:50])) + logger.debug('Caesar break attempt using key {0} gives fit of {1} and decrypt starting: {2}'.format(shift, fit, plaintext[:50])) if fit < best_fit: best_fit = fit best_shift = shift @@ -278,7 +303,7 @@ def affine_break(message, metric=norms.euclidean_distance, target_frequencies=no plaintext = affine_decipher(sanitised_message, multiplier, adder, one_based) frequencies = message_frequency_scaling(letter_frequencies(plaintext)) fit = metric(target_frequencies, frequencies) - logger.info('Affine break attempt using key {0}x+{1} ({2}) gives fit of {3} and decrypt starting: {4}'.format(multiplier, adder, one_based, fit, plaintext[:50])) + logger.debug('Affine break attempt using key {0}x+{1} ({2}) gives fit of {3} and decrypt starting: {4}'.format(multiplier, adder, one_based, fit, plaintext[:50])) if fit < best_fit: best_fit = fit best_multiplier = multiplier @@ -288,16 +313,21 @@ def affine_break(message, metric=norms.euclidean_distance, target_frequencies=no return (best_multiplier, best_adder, best_one_based), best_fit -def keyword_break(message, metric=norms.euclidean_distance, target_frequencies=normalised_english_counts, message_frequency_scaling=norms.normalise): +def keyword_break(message, wordlist=keywords, metric=norms.euclidean_distance, target_frequencies=normalised_english_counts, message_frequency_scaling=norms.normalise): + """Breaks a keyword substitution cipher using a dictionary and frequency analysis + + >>> keyword_break(keyword_encipher('this is a test message for the keyword decipherment', 'elephant', True), wordlist=['cat', 'elephant', 'kangaroo']) # doctest: +ELLIPSIS + (('elephant', True), 0.41643991598441...) + """ best_keyword = '' best_wrap_alphabet = True best_fit = float("inf") for wrap_alphabet in [True, False]: - for keyword in keywords: + for keyword in wordlist: plaintext = keyword_decipher(message, keyword, wrap_alphabet) frequencies = message_frequency_scaling(letter_frequencies(plaintext)) fit = metric(target_frequencies, frequencies) - logger.info('Keyword break attempt using key {0} ({1}) gives fit of {2} and decrypt starting: {3}'.format(keyword, wrap_alphabet, fit, sanitise(plaintext)[:50])) + logger.debug('Keyword break attempt using key {0} ({1}) gives fit of {2} and decrypt starting: {3}'.format(keyword, wrap_alphabet, fit, sanitise(plaintext)[:50])) if fit < best_fit: best_fit = fit best_keyword = keyword