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I'm trying to build two functions using PyCrypto that accept two parameters: the message and the key, and then encrypt/decrypt the message.

I found several links on the web to help me out, but each one of them has flaws:

This one at codekoala uses os.urandom, which is discouraged by PyCrypto.

Moreover, the key I give to the function is not guaranteed to have the exact length expected. What can I do to make that happen ?

Also, there are several modes, which one is recommended? I don't know what to use :/

Finally, what exactly is the IV? Can I provide a different IV for encrypting and decrypting, or will this return in a different result?

Here's what I've done so far:

from Crypto import Random
from Crypto.Cipher import AES
import base64


def encrypt(message, passphrase):
    # passphrase MUST be 16, 24 or 32 bytes long, how can I do that ?
    IV = Random.new().read(BLOCK_SIZE)
    aes = AES.new(passphrase, AES.MODE_CFB, IV)
    return base64.b64encode(aes.encrypt(message))

def decrypt(encrypted, passphrase):
    IV = Random.new().read(BLOCK_SIZE)
    aes = AES.new(passphrase, AES.MODE_CFB, IV)
    return aes.decrypt(base64.b64decode(encrypted))

Thanks for helping me out!

share|improve this question
os.urandom is encouraged on the PyCrypto website. It uses Microsoft's CryptGenRandom function which is a CSPRNG –  Joel Vroom Nov 28 '13 at 15:43
or /dev/urandom on Unix –  Joel Vroom Nov 28 '13 at 16:19

5 Answers 5

up vote 41 down vote accepted

You may need the following two functions to pad(when do encryption) and unpad(when do decryption) when the length of input is not a multiple of BLOCK_SIZE.

BS = 16
pad = lambda s: s + (BS - len(s) % BS) * chr(BS - len(s) % BS) 
unpad = lambda s : s[0:-ord(s[-1])]

So you're asking the length of key? You can use the md5sum of the key rather than use it directly.

More, according to my little experience of using PyCrypto, the IV is used to mix up the output of a encryption when input is same, so the IV is chosen as a random string, and use it as part of the encryption output, and then use it to decrypt the message.

And here's my implementation, hope it will be useful for you:

class AESCipher:
    def __init__( self, key ):
        self.key = key

    def encrypt( self, raw ):
        raw = pad(raw)
        iv = Random.new().read( AES.block_size )
        cipher = AES.new( self.key, AES.MODE_CBC, iv )
        return base64.b64encode( iv + cipher.encrypt( raw ) ) 

    def decrypt( self, enc ):
        enc = base64.b64decode(enc)
        iv = enc[:16]
        cipher = AES.new(self.key, AES.MODE_CBC, iv )
        return unpad(cipher.decrypt( enc[16:] ))
share|improve this answer
What happens if you have an input that is exactly a multiple of BLOCK_SIZE? I think that the unpad function would get a little confused... –  Kjir Oct 21 '13 at 10:43
@Kjir, then a sequence of value chr(BS) in length BLOCK_SIZE will be appended to the origin data. –  Marcus Oct 22 '13 at 4:14
you are right, the pad and unpad functions are now clearer for me, thank you! –  Kjir Oct 22 '13 at 14:49
@Marcus the pad function is broken (at least in Py3), replace with s[:-ord(s[len(s)-1:])] for it to work across versions. –  Torxed Feb 24 at 11:06

Here is my implementation and works for me with some fixes and enhances the alignment of the key and secret phrase with 32 bytes and iv to 16 bytes:

import base64
from Crypto import Random
from Crypto.Cipher import AES

class AESCipher:

    def __init__(self, key): 
        self.bs = 32
        self.key = hashlib.sha256(key.encode()).digest()

    def encrypt(self, raw):
        raw = self._pad(raw)
        iv = Random.new().read(AES.block_size)
        cipher = AES.new(self.key, AES.MODE_CBC, iv)
        return base64.b64encode(iv + cipher.encrypt(raw))

    def decrypt(self, enc):
        enc = base64.b64decode(enc)
        iv = enc[:AES.block_size]
        cipher = AES.new(self.key, AES.MODE_CBC, iv)
        return self._unpad(cipher.decrypt(enc[AES.block_size:])).decode('utf-8')

    def _pad(self, s):
        return s + (self.bs - len(s) % self.bs) * chr(self.bs - len(s) % self.bs)

    def _unpad(s):
        return s[:-ord(s[len(s)-1:])]
share|improve this answer

You can get a passphrase out of an arbitrary password by using a cryptographic hash function (NOT Python's builtin hash) like SHA-1 or SHA-256. Python includes support for both in its standard library:

import hashlib

hashlib.sha1("this is my awesome password").digest() # => a 20 byte string
hashlib.sha256("another awesome password").digest() # => a 32 byte string

You can truncate a cryptographic hash value just by using [:16] or [:24] and it will retain its security up to the length you specify.

share|improve this answer
You should not use a SHA-family hash function for generating a key from a password – see Coda Hale’s essay on the topic. Consider using a real key derivation function like scrypt instead. (Coda Hale’s essay was written before scrypt’s publication.) –  Benjamin Barenblat Nov 30 '13 at 6:57

For the benefit of others, here is my decryption implementation which I got to by combining the answers of @Cyril and @Marcus. This assumes that this coming in via HTTP Request with the encryptedText quoted and base64 encoded. I also wrote a blog post http://scottrogowski.com/uniquely-identifying-users-on-ios-without-a-login/

import base64
import urllib2
from Crypto.Cipher import AES

def decrypt(quotedEncodedEncrypted)
  key = 'SecretKey'

  encodedEncrypted = urllib2.unquote(quotedEncodedEncrypted)

  cipher = AES.new(key)
  decrypted = cipher.decrypt(base64.b64decode(encodedEncrypted))[:16]

  for i in range(1,len(base64.b64decode(encodedEncrypted))/16):
    cipher = AES.new(key, AES.MODE_CBC, base64.b64decode(encodedEncrypted)[(i-1)*16:i*16])
    decrypted += cipher.decrypt(base64.b64decode(encodedEncrypted)[i*16:])[:16]

  return decrypted.strip()
share|improve this answer

The pad and unpad functions, as described above, work only for bytes type input. If the input is a unicode string, it must first be cast to the bytes type.

share|improve this answer
Encryption only makes sense on bytes. If you have a unicode string, you should convert it to a byte string/binary. –  Artjom B. Aug 9 at 12:24

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