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I'm trying to convert this C# code to Python (2.5, GAE). The problem is that the encrypted string from the python script is different each time the encryption (on the same string) is run.

string Encrypt(string textToEncrypt, string passphrase)
 {
    RijndaelManaged rijndaelCipher = new RijndaelManaged();
    rijndaelCipher.Mode = CipherMode.CBC;
    rijndaelCipher.Padding = PaddingMode.PKCS7;

    rijndaelCipher.KeySize = 128;
    rijndaelCipher.BlockSize = 128;
    byte[] pwdBytes = Encoding.UTF8.GetBytes(passphrase);
    byte[] keyBytes = new byte[16];
    int len = pwdBytes.Length;
    if (len > keyBytes.Length)
    {
        len = keyBytes.Length;
    }
    Array.Copy(pwdBytes, keyBytes, len);
    rijndaelCipher.Key = keyBytes;
    rijndaelCipher.IV = new byte[16];
    ICryptoTransform transform = rijndaelCipher.CreateEncryptor();
    byte[] plainText = Encoding.UTF8.GetBytes(textToEncrypt);
    return Convert.ToBase64String(transform.TransformFinalBlock(plainText, 0, plainText.Length));
}

Python code: (PKCS7Encoder: http://japrogbits.blogspot.com/2011/02/using-encrypted-data-between-python-and.html)

from Crypto.Cipher import AES
from pkcs7 import PKCS7Encoder
#declared outside of all functions
key = '####'
mode = AES.MODE_CBC
iv = '\x00' * 16
encryptor = AES.new(key, mode, iv)
encoder = PKCS7Encoder()

def function(self):
 text = self.request.get('passwordTextBox')
 pad_text = encoder.encode(text)
 cipher = encryptor.encrypt(pad_text)
 enc_cipher = base64.b64encode(cipher)

The C# code is inherited. Python code must be encrypted and decrypted the same way so that the C# code can decode the value correctly.

Note: I am a noob at python :)

Edit: sorry. should have made the distinction that there was a function being called.

Thanks!

share|improve this question
2  
Are you aware how an IV / CBC mode works? If you run that stub each time, it should produce the same output for the same input. If however, you call encryptor.encrypt multiple times with the same input without reinitializing encryptor (to reset it to the same initial state), it will produce different output each time. – Foon Jul 19 '11 at 13:11
    
does my edit change your comment? if not, what's the best way to fix it? – Eonasdan Jul 19 '11 at 13:33
    
fixed by moving: encryptor = AES.new(key, mode, iv) into the function. Thanks @Foon – Eonasdan Jul 19 '11 at 15:12
up vote 1 down vote accepted

Your C# code is invalid.

The Encrypt function takes in the passphrase as string passphrase but then tries to reference it in this line byte[] pwdBytes = Encoding.UTF8.GetBytes(key);

Change key to passphrase.

The two functions now produce identical results for me:

Python

secret_text = 'The rooster crows at midnight!'
key = 'A16ByteKey......'
mode = AES.MODE_CBC
iv = '\x00' * 16

encoder = PKCS7Encoder()
padded_text = encoder.encode(secret_text)

e = AES.new(key, mode, iv)
cipher_text = e.encrypt(padded_text)

print(base64.b64encode(cipher_text))

# e = AES.new(key, mode, iv)
# cipher_text = e.encrypt(padded_text)
# print(base64.b64encode(cipher_text))

C# (with the typo fix mentioned above)

Console.WriteLine(Encrypt("The rooster crows at midnight!", "A16ByteKey......"));

Python Result

XAW5KXVbItrc3WF0xW175UJoiAfonuf+s54w2iEs+7A=

C# Result

XAW5KXVbItrc3WF0xW175UJoiAfonuf+s54w2iEs+7A=

I suspect you're re-using 'e' in your python code multiple times. If you uncomment the last two lines of my python script, you'll see the output is now different. But if you uncomment the last three lines, you'll see the output is the same. As Foon said, this is due to how CBC works.

CBC (Cipher-block chaining) works when encrypting a sequence of bytes in blocks. The first block is encrypted by incorporating the IV with the first bytes of your plaintext ("The rooster..."). The second block uses the result of that first operation instead of the IV.

When you call e.encrypt() a second time (e.g. by uncommmenting the last two lines of the python script) you pick up where you left off. Instead of using the IV when encrypting the first block, it will use the output of the last encrypted block. This is why the results look different. By uncommening the last three lines of the python script you initialize a new encryptor which will use the IV for its first block, causing you to get identical results.

share|improve this answer
    
you are correct. the line in my C# code should have read: byte[] pwdBytes = Encoding.UTF8.GetBytes(passphrase);. fixed in original – Eonasdan Jul 21 '11 at 12:11
    
Great well explained post, but I coded it up and I still get different encrypted text using the same code you had above. Any ideas? I'm running Visual C# 2010 Express and Python 2.7.2 with pycrypto 2.3.1. Have ran the python side on both Linux and Windows (ActiveState Python) with same results - just can't get it to match with the C#. – spidie Dec 18 '12 at 2:41

changed python code to:

from Crypto.Cipher import AES
from pkcs7 import PKCS7Encoder
#declared outside of all functions
key = '####'
mode = AES.MODE_CBC
iv = '\x00' * 16
encoder = PKCS7Encoder()

def function(self):
 encryptor = AES.new(key, mode, iv)**
 text = self.request.get('passwordTextBox')
 pad_text = encoder.encode(text)
 cipher = encryptor.encrypt(pad_text)
 enc_cipher = base64.b64encode(cipher)

in case anyone reaches this page via google

share|improve this answer
    
+1 as I for one appreciate you taking the time to do this. – Foon Jul 22 '11 at 0:58

This esotic PKCS7 encoder is anything else then a function that pads with a static lenght. So I implemented it with a very chip of code

#!/usr/bin/env python

from Crypto.Cipher import AES
import base64

# the block size for the cipher object; must be 16, 24, or 32 for AES
BLOCK_SIZE = 16

# the character used for padding--with a block cipher such as AES, the value
# you encrypt must be a multiple of BLOCK_SIZE in length.  This character is
# used to ensure that your value is always a multiple of BLOCK_SIZE

# PKCS7 method
PADDING = '\x06'
mode = AES.MODE_CBC
iv = '\x08' * 16 # static vector: dangerous for security. This could be changed periodically
# 

# one-liner to sufficiently pad the text to be encrypted
pad = lambda s: s + (BLOCK_SIZE - len(s) % BLOCK_SIZE) * PADDING

# one-liners to encrypt/encode and decrypt/decode a string
# encrypt with AES, encode with base64
EncodeAES = lambda c, s: base64.b64encode(c.encrypt(pad(s)))
DecodeAES = lambda c, e: c.decrypt(base64.b64decode(e)).rstrip(PADDING)



def CryptIt(password, secret):
    cipher = AES.new(secret, mode, iv)
    encoded = EncodeAES(cipher, password)
    return encoded

def DeCryptIt(encoded, secret):
    cipher = AES.new(secret, mode, iv)
    decoded = DecodeAES(cipher, encoded)
    return decoded

I hope that this could help. Cheers

share|improve this answer
    
I asked this question (and accepted an answer) on July of 2011 almost 2 years ago! Your answer may help others in the future but I have long moved on from this project – Eonasdan Mar 19 '13 at 11:57

Microsoft's implementation of PKCS7 is a bit different than Python's.

This article helped me with this problem: http://japrogbits.blogspot.com/2011/02/using-encrypted-data-between-python-and.html

His code for pkcs7 encoding and decoding is on github here: https://github.com/janglin/crypto-pkcs7-example

With that PKCS7 library, this code worked for me:

from Crypto.Cipher import AES

aes = AES.new(shared_key, AES.MODE_CBC, IV)
aes.encrypt(PKCS7Encoder().encode(data))
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