# About Author: Todd Whiteman Version: 2.0.1 Release: 28th April, 2010 License: MIT This is a pure python implementation of the DES encryption algorithm. It's pure python to avoid portability issues, since most DES implementations are programmed in C (for performance reasons). ## Installation Using the Python package manager: ```bash $ pip install pydes ``` ### Or, for manual installation Extract the files from the downloaded archive and run: ``` $ python setup.py install ``` If you'd like to run the tests, run the command: ``` $ python test_pydes.py ``` ## Usage ```bash python -c "import pyDes; des = pyDes.des('This Key'); \ print des.encrypt('SomeData').encode('hex')" ``` ### Docs and Examples ``` Class initialization -------------------- pyDes.des(key, [mode], [IV], [pad], [padmode]) pyDes.triple_des(key, [mode], [IV], [pad], [padmode]) key -> Bytes containing the encryption key. 8 bytes for DES, 16 or 24 bytes for Triple DES mode -> Optional argument for encryption type, can be either pyDes.ECB (Electronic Code Book) or pyDes.CBC (Cypher Block Chaining) IV -> Optional Initial Value bytes, must be supplied if using CBC mode. Length must be 8 bytes. pad -> Optional argument, set the pad character (PAD_NORMAL) to use during all encrypt/decrpt operations done with this instance. padmode -> Optional argument, set the padding mode (PAD_NORMAL or PAD_PKCS5) to use during all encrypt/decrypt operations done with this instance. I recommend to use PAD_PKCS5 padding, as then you never need to worry about any padding issues, as the padding can be removed unambiguously upon decrypting data that was encrypted using PAD_PKCS5 padmode. Common methods -------------- encrypt(data, [pad], [padmode]) decrypt(data, [pad], [padmode]) data -> Bytes to be encrypted/decrypted pad -> Optional argument. Only when using padmode of PAD_NORMAL. For encryption, adds this characters to the end of the data block when data is not a multiple of 8 bytes. For decryption, will remove the trailing characters that match this pad character from the last 8 bytes of the unencrypted data block. padmode -> Optional argument, set the padding mode, must be one of PAD_NORMAL or PAD_PKCS5). Defaults to PAD_NORMAL. Example ------- import pyDes # For Python3, you'll need to use bytes, i.e.: # data = b"Please encrypt my data" # k = pyDes.des(b"DESCRYPT", pyDes.CBC, b"\0\0\0\0\0\0\0\0", pad=None, padmode=pyDes.PAD_PKCS5) data = "Please encrypt my data" k = pyDes.des("DESCRYPT", pyDes.CBC, "\0\0\0\0\0\0\0\0", pad=None, padmode=pyDes.PAD_PKCS5) d = k.encrypt(data) print "Encrypted: %r" % d print "Decrypted: %r" % k.decrypt(d) assert k.decrypt(d) == data See the pyDes test file (test_pydes.py) for more examples of use. Note: This code was not written for high-end systems needing a fast implementation, but rather a handy portable solution with small usage. ``` ## Performance The code is not written for speed or performance, so not for those needing a fast DES implementation, but rather a handy portable solution ideal for small usages. The speed at which pyDes encrypts/decrypts is around 10Kb/s (using the DES method) - that's very SLOW!! ## About triple DES Triple DES is just running the DES algorithm 3 times over the data with the specified key. The supplied key is split up into 3 parts, each part being 8 bytes long (the mandatory key size for DES). The triple DES algorithm uses the DES-EDE3 method when a 24 byte key is supplied. This means there are three DES operations in the sequence encrypt-decrypt-encrypt with the three different keys. The first key will be bytes 1 to 8, the second key bytes 9 to 16 and the third key bytes 17 to 24. If a 16 byte key is supplied instead, the triple DES method used will be DES-EDE2. This means there are three DES operations in the sequence encrypt-decrypt-encrypt, but the first and third operations use the same key. The first/third key will be bytes 1 to 8 and the second key bytes 9 to 16. ## Credits Thanks go to: - David Broadwell: Ideas, comments and suggestions. - Mario Wolff: Finding and debugging triple des CBC errors. - Santiago Palladino: Providing the PKCS5 padding technique. - Shaya: Fixing triple DES CBC errors with PAD_PKCS5. - Yoav Aner: For spotting a triple DES CBC IV error.