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168 lines
3.9 KiB
Python
168 lines
3.9 KiB
Python
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"""
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Python program for the Fractionated Morse Cipher.
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The Fractionated Morse cipher first converts the plaintext to Morse code,
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then enciphers fixed-size blocks of Morse code back to letters.
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This procedure means plaintext letters are mixed into the ciphertext letters,
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making it more secure than substitution ciphers.
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http://practicalcryptography.com/ciphers/fractionated-morse-cipher/
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"""
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import string
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MORSE_CODE_DICT = {
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"A": ".-",
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"B": "-...",
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"C": "-.-.",
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"D": "-..",
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"E": ".",
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"F": "..-.",
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"G": "--.",
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"H": "....",
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"I": "..",
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"J": ".---",
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"K": "-.-",
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"L": ".-..",
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"M": "--",
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"N": "-.",
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"O": "---",
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"P": ".--.",
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"Q": "--.-",
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"R": ".-.",
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"S": "...",
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"T": "-",
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"U": "..-",
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"V": "...-",
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"W": ".--",
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"X": "-..-",
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"Y": "-.--",
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"Z": "--..",
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" ": "",
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}
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# Define possible trigrams of Morse code
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MORSE_COMBINATIONS = [
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"...",
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"..-",
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"..x",
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".-.",
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".--",
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".-x",
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".x.",
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".x-",
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".xx",
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"-..",
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"-.-",
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"-.x",
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"--.",
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"---",
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"--x",
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"-x.",
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"-x-",
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"-xx",
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"x..",
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"x.-",
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"x.x",
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"x-.",
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"x--",
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"x-x",
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"xx.",
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"xx-",
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"xxx",
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]
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# Create a reverse dictionary for Morse code
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REVERSE_DICT = {value: key for key, value in MORSE_CODE_DICT.items()}
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def encode_to_morse(plaintext: str) -> str:
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"""Encode a plaintext message into Morse code.
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Args:
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plaintext: The plaintext message to encode.
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Returns:
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The Morse code representation of the plaintext message.
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Example:
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>>> encode_to_morse("defend the east")
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'-..x.x..-.x.x-.x-..xx-x....x.xx.x.-x...x-'
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"""
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return "x".join([MORSE_CODE_DICT.get(letter.upper(), "") for letter in plaintext])
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def encrypt_fractionated_morse(plaintext: str, key: str) -> str:
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"""Encrypt a plaintext message using Fractionated Morse Cipher.
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Args:
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plaintext: The plaintext message to encrypt.
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key: The encryption key.
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Returns:
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The encrypted ciphertext.
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Example:
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>>> encrypt_fractionated_morse("defend the east","Roundtable")
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'ESOAVVLJRSSTRX'
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"""
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morse_code = encode_to_morse(plaintext)
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key = key.upper() + string.ascii_uppercase
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key = "".join(sorted(set(key), key=key.find))
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# Ensure morse_code length is a multiple of 3
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padding_length = 3 - (len(morse_code) % 3)
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morse_code += "x" * padding_length
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fractionated_morse_dict = {v: k for k, v in zip(key, MORSE_COMBINATIONS)}
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fractionated_morse_dict["xxx"] = ""
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encrypted_text = "".join(
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[
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fractionated_morse_dict[morse_code[i : i + 3]]
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for i in range(0, len(morse_code), 3)
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]
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)
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return encrypted_text
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def decrypt_fractionated_morse(ciphertext: str, key: str) -> str:
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"""Decrypt a ciphertext message encrypted with Fractionated Morse Cipher.
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Args:
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ciphertext: The ciphertext message to decrypt.
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key: The decryption key.
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Returns:
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The decrypted plaintext message.
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Example:
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>>> decrypt_fractionated_morse("ESOAVVLJRSSTRX","Roundtable")
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'DEFEND THE EAST'
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"""
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key = key.upper() + string.ascii_uppercase
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key = "".join(sorted(set(key), key=key.find))
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inverse_fractionated_morse_dict = dict(zip(key, MORSE_COMBINATIONS))
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morse_code = "".join(
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[inverse_fractionated_morse_dict.get(letter, "") for letter in ciphertext]
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)
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decrypted_text = "".join(
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[REVERSE_DICT[code] for code in morse_code.split("x")]
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).strip()
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return decrypted_text
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if __name__ == "__main__":
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"""
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Example usage of Fractionated Morse Cipher.
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"""
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plaintext = "defend the east"
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print("Plain Text:", plaintext)
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key = "ROUNDTABLE"
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ciphertext = encrypt_fractionated_morse(plaintext, key)
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print("Encrypted:", ciphertext)
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decrypted_text = decrypt_fractionated_morse(ciphertext, key)
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print("Decrypted:", decrypted_text)
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