Spaces:
Sleeping
Sleeping
| """ | |
| PostScript Type 1 fonts make use of two types of encryption: charstring | |
| encryption and ``eexec`` encryption. Charstring encryption is used for | |
| the charstrings themselves, while ``eexec`` is used to encrypt larger | |
| sections of the font program, such as the ``Private`` and ``CharStrings`` | |
| dictionaries. Despite the different names, the algorithm is the same, | |
| although ``eexec`` encryption uses a fixed initial key R=55665. | |
| The algorithm uses cipher feedback, meaning that the ciphertext is used | |
| to modify the key. Because of this, the routines in this module return | |
| the new key at the end of the operation. | |
| """ | |
| from fontTools.misc.textTools import bytechr, bytesjoin, byteord | |
| def _decryptChar(cipher, R): | |
| cipher = byteord(cipher) | |
| plain = ((cipher ^ (R >> 8))) & 0xFF | |
| R = ((cipher + R) * 52845 + 22719) & 0xFFFF | |
| return bytechr(plain), R | |
| def _encryptChar(plain, R): | |
| plain = byteord(plain) | |
| cipher = ((plain ^ (R >> 8))) & 0xFF | |
| R = ((cipher + R) * 52845 + 22719) & 0xFFFF | |
| return bytechr(cipher), R | |
| def decrypt(cipherstring, R): | |
| r""" | |
| Decrypts a string using the Type 1 encryption algorithm. | |
| Args: | |
| cipherstring: String of ciphertext. | |
| R: Initial key. | |
| Returns: | |
| decryptedStr: Plaintext string. | |
| R: Output key for subsequent decryptions. | |
| Examples:: | |
| >>> testStr = b"\0\0asdadads asds\265" | |
| >>> decryptedStr, R = decrypt(testStr, 12321) | |
| >>> decryptedStr == b'0d\nh\x15\xe8\xc4\xb2\x15\x1d\x108\x1a<6\xa1' | |
| True | |
| >>> R == 36142 | |
| True | |
| """ | |
| plainList = [] | |
| for cipher in cipherstring: | |
| plain, R = _decryptChar(cipher, R) | |
| plainList.append(plain) | |
| plainstring = bytesjoin(plainList) | |
| return plainstring, int(R) | |
| def encrypt(plainstring, R): | |
| r""" | |
| Encrypts a string using the Type 1 encryption algorithm. | |
| Note that the algorithm as described in the Type 1 specification requires the | |
| plaintext to be prefixed with a number of random bytes. (For ``eexec`` the | |
| number of random bytes is set to 4.) This routine does *not* add the random | |
| prefix to its input. | |
| Args: | |
| plainstring: String of plaintext. | |
| R: Initial key. | |
| Returns: | |
| cipherstring: Ciphertext string. | |
| R: Output key for subsequent encryptions. | |
| Examples:: | |
| >>> testStr = b"\0\0asdadads asds\265" | |
| >>> decryptedStr, R = decrypt(testStr, 12321) | |
| >>> decryptedStr == b'0d\nh\x15\xe8\xc4\xb2\x15\x1d\x108\x1a<6\xa1' | |
| True | |
| >>> R == 36142 | |
| True | |
| >>> testStr = b'0d\nh\x15\xe8\xc4\xb2\x15\x1d\x108\x1a<6\xa1' | |
| >>> encryptedStr, R = encrypt(testStr, 12321) | |
| >>> encryptedStr == b"\0\0asdadads asds\265" | |
| True | |
| >>> R == 36142 | |
| True | |
| """ | |
| cipherList = [] | |
| for plain in plainstring: | |
| cipher, R = _encryptChar(plain, R) | |
| cipherList.append(cipher) | |
| cipherstring = bytesjoin(cipherList) | |
| return cipherstring, int(R) | |
| def hexString(s): | |
| import binascii | |
| return binascii.hexlify(s) | |
| def deHexString(h): | |
| import binascii | |
| h = bytesjoin(h.split()) | |
| return binascii.unhexlify(h) | |
| if __name__ == "__main__": | |
| import sys | |
| import doctest | |
| sys.exit(doctest.testmod().failed) | |