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Does Python have a built-in, simple way of encoding/decoding strings using a password?

Something like this:

>>> encode('John Doe', password = 'mypass')
'sjkl28cn2sx0'
>>> decode('sjkl28cn2sx0', password = 'mypass')
'John Doe'

So the string "John Doe" gets encrypted as 'sjkl28cn2sx0'. To get the original string, I would "unlock" that string with the key 'mypass', which is a password in my source code. I'd like this to be the way I can encrypt/decrypt a Word document with a password.

I would like to use these encrypted strings as URL parameters. My goal is obfuscation, not strong security; nothing mission critical is being encoded. I realize I could use a database table to store keys and values, but am trying to be minimalist.

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4  
The term "password" here is inappropriate. You're using this as a cryptographic KEY and you should use that terminology to avoid confusion in your questions as well as any docs, comments, specs, test plans, etc. –  Jim Dennis Mar 22 '10 at 6:44

9 Answers 9

up vote 6 down vote accepted

Assuming you are only looking for simple obfuscation that will obscure things from the very casual observer, and you aren't looking to use third party libraries. I'd recommend something like the Vigenere cipher. It is one of the strongest of the simple ancient ciphers.

http://en.wikipedia.org/wiki/Vigen%C3%A8re_cipher

It's quick and easy to implement. Something like:

def encode(key, string):
    encoded_chars = []
    for i in xrange(string):
        key_c = key[i % len(key)]
        encoded_c = chr(ord(string[i]) + ord(encoded_c) % 256)
        encoded_chars.append(encoded_c)
    encoded_string = "".join(encoded_chars)
    return base64.urlsafe_b64encode(encoded_string)

Decode is pretty much the same, except you subtract the key.

It is much harder to break if the strings you are encoding are short, and/or if it is hard to guess the length of the passphrase used.

If you are looking for something cryptographic, PyCrypto is probably your best bet, though previous answers overlook some details: ECB mode in PyCyrpto requires your message to be a multiple of 16 characters in length. So, you must pad. Also, if you want to use them as URL parameters, use base64.urlsafe_b64_encode(), rather than the standard one. This replaces a few of the characters in the base64 alphabet with URL-safe ones (as it's name suggests).

However, you should be ABSOLUTELY certain that this very thin layer of obfuscation suffices for your needs before using this. The Wikipedia article I linked to provides detailed instructions for breaking the cipher, so anyone with a moderate amount of determination could easily break it.

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The Vignere method looks like a great fit for my needs. Pointing out how to make the hashes URL-safe is the cherry on top. Perfect. –  RexE Mar 22 '10 at 9:37
    
local variable 'encoded_c' referenced before assignment. I don't really understand the code yet so I can't really fix it myself, sadly. –  JeromeJ Mar 8 '13 at 15:06
1  
I fixed smehmood's script, and added the decoding function gist.github.com/ilogik/6f9431e4588015ecb194 –  Adrian Mester Jul 23 '13 at 20:24

As you explicitly state that you want obscurity not security, we'll avoid reprimanding you for the weakness of what you suggest :)

So, using PyCrypto:

from Crypto.Cipher import AES
import base64

cipher = AES.new(secret_key,AES.MODE_ECB) # never use ECB in strong systems obviously
encoded = base64.b64encode(cipher.encrypt(msg_text))
# ...
decoded = cipher.decrypt(base64.b64decode(msg_text))
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I don't think this will work unless msg_text is a multiple of 16 bytes in length, since AES encryption requires blocks that are multiples of 16 in length. A working implementation for msg_text of arbitrary length would need to add padding to the string to get it to a multiple of 16 in length. –  tohster Dec 5 '13 at 2:36
    
@tohster this is true, you have to pack them and secrets must be right-sized too. Padding and then tacking the length on the end would be favourite. –  Will Dec 5 '13 at 6:10

The "encoded_c" mentioned in the @smehmood's Vigenere cipher answer should be "key_c".

Here are working encode/decode functions.

import base64
def encode(key, clear):
    enc = []
    for i in range(len(clear)):
        key_c = key[i % len(key)]
        enc_c = chr((ord(clear[i]) + ord(key_c)) % 256)
        enc.append(enc_c)
    return base64.urlsafe_b64encode("".join(enc))

def decode(key, enc):
    dec = []
    enc = base64.urlsafe_b64decode(enc)
    for i in range(len(enc)):
        key_c = key[i % len(key)]
        dec_c = chr((256 + ord(enc[i]) - ord(key_c)) % 256)
        dec.append(dec_c)
    return "".join(dec)
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Simple way is using the library, and PyCrypto is the good one.

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This works but password length should be exactly 8. This is simple and requires pyDes.

from pyDes import *

def encode(data,password):
    k = des(password, CBC, "\0\0\0\0\0\0\0\0", pad=None, padmode=PAD_PKCS5)
    d = k.encrypt(data)
    return d

def decode(data,password):
    k = des(password, CBC, "\0\0\0\0\0\0\0\0", pad=None, padmode=PAD_PKCS5)
    d = k.decrypt(data)
    return d

x = encode('John Doe', 'mypass12')
y = decode(x,'mypass12')

print x
print y

OUTPUT:

³.\Þ\åS¾+æÅ`;Ê
John Doe
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if you want secure encryption:

for python 2, you should use keyczar http://www.keyczar.org/

for python 3, until keyczar is available, i have written simple-crypt http://pypi.python.org/pypi/simple-crypt

both these will use key strengthening which makes them more secure than most other answers here. and since they're so easy to use you might want to use them even when security is not critical...

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If you are using passwords, it's best to do it right (especially if you are dealing with user passwords).

What you want to do is "encrypt" the password, not encode.

You have two choices on how you can do this, depending on who is doign the encrypting.

If its a trusted thirdparty, use Public/Private key encryption. RSA is a good choice. You give the public key to your trusted thirdparty, and keep the private key safe.

If you're doing the encrypting yourself, and noone will have access to your code, then Symmetric key encryption is good. I recommend AES with a sufficiently strong key (256bit).

There are libraries for python that do either of these encryption schemes.

You can 1/2 ass security, but don't. It's not a good idea. Ever.

You can use AES to encrypt your string with a password. Though, you'll want to chose a strong enough password so people can't easily guess what it is (sorry I can't help it. I'm a wannabe security weenie).

AES is strong with a good key size, but it's also easy to use with PyCrypto.

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1  
Thanks Alan. But for clarification, I am not encrypting the passwords themselves. In the above example, I am encrypting the string "John Doe" according to the password "mypass", which is a simple password I use in my source code. User passwords are not involved, neither is any other very sensitive information. I edited my question to clarify this. –  RexE Mar 22 '10 at 6:35
    
Updated my answer :) –  Alan Mar 22 '10 at 6:43

External libraries provide secret-key encryption algorithms.

For example, the Cypher module in PyCrypto offers a selection of many encryption algorithms:

  • Crypto.Cipher.AES
  • Crypto.Cipher.ARC2
  • Crypto.Cipher.ARC4
  • Crypto.Cipher.Blowfish
  • Crypto.Cipher.CAST
  • Crypto.Cipher.DES
  • Crypto.Cipher.DES3
  • Crypto.Cipher.IDEA
  • Crypto.Cipher.RC5
  • Crypto.Cipher.XOR

MeTooCrypto is a Python wrapper for OpenSSL, and provides (among other functions) a full-strength general purpose cryptography library. Included are symmetric ciphers (like AES).

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As has been mentioned the PyCrypto library contains a suite of ciphers. The XOR cipher can be used to do the dirty work if you don't want to do it yourself:

from Crypto.Cipher import XOR
import base64

def encrypt(key, plaintext):
  cipher = XOR.new(key)
  return base64.b64encode(cipher.encrypt(plaintext))

def decrypt(key, ciphertext):
  cipher = XOR.new(key)
  return cipher.decrypt(base64.b64decode(ciphertext))

Even though it only provides minimal security I'd still recommend using a random looking key without any space characters (as XOR'ing an ASCII [a-zA-Z] character with a space just flips the case).

The cipher works as follows without having to pad the plaintext:

>>> encrypt('notsosecretkey', 'Attack at dawn!')
'LxsAEgwYRQIGRRAKEhdP'

>>> decrypt('notsosecretkey', encrypt('notsosecretkey', 'Attack at dawn!'))
'Attack at dawn!'

Credit to http://stackoverflow.com/a/2490376/241294 for the base64 encode/decode functions (I'm a python newbie).

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