Decrypting strings in Python that were encrypted with MCRYPT_RIJNDAEL_256 in PHP

Question

I have a function in PHP that encrypts text as follows:

function encrypt($text)
{
    $Key = \"MyKey\";

    return trim(base64_encode(mcrypt_encrypt(MCRYPT_         


        

Answer 1

To decrypt this form of encryption, you will need to get a version of Rijndael. One can be found here. Then you will need to simulate the key and text padding used in the PHP Mcrypt module. They add '\0' to pad out the text and key to the correct size. They are using a 256 bit block size and the key size used with the key you give is 128 (it may increase if you give it a bigger key). Unfortunately, the Python implementation I've linked to only encodes a single block at a time. I've created python functions which simulate the encryption (for testing) and decryption in Python

import rijndael
import base64

KEY_SIZE = 16
BLOCK_SIZE = 32

def encrypt(key, plaintext):
    padded_key = key.ljust(KEY_SIZE, '\0')
    padded_text = plaintext + (BLOCK_SIZE - len(plaintext) % BLOCK_SIZE) * '\0'

    # could also be one of
    #if len(plaintext) % BLOCK_SIZE != 0:
    #    padded_text = plaintext.ljust((len(plaintext) / BLOCK_SIZE) + 1 * BLOCKSIZE), '\0')
    # -OR-
    #padded_text = plaintext.ljust((len(plaintext) + (BLOCK_SIZE - len(plaintext) % BLOCK_SIZE)), '\0')

    r = rijndael.rijndael(padded_key, BLOCK_SIZE)

    ciphertext = ''
    for start in range(0, len(padded_text), BLOCK_SIZE):
        ciphertext += r.encrypt(padded_text[start:start+BLOCK_SIZE])

    encoded = base64.b64encode(ciphertext)

    return encoded


def decrypt(key, encoded):
    padded_key = key.ljust(KEY_SIZE, '\0')

    ciphertext = base64.b64decode(encoded)

    r = rijndael.rijndael(padded_key, BLOCK_SIZE)

    padded_text = ''
    for start in range(0, len(ciphertext), BLOCK_SIZE):
        padded_text += r.decrypt(ciphertext[start:start+BLOCK_SIZE])

    plaintext = padded_text.split('\x00', 1)[0]

    return plaintext

This can be used as follows:

key = 'MyKey'
text = 'test'

encoded = encrypt(key, text)
print repr(encoded)
# prints 'I+KlvwIK2e690lPLDQMMUf5kfZmdZRIexYJp1SLWRJY='

decoded = decrypt(key, encoded)
print repr(decoded)
# prints 'test'

For comparison, here is the output from PHP with the same text:

$ php -a
Interactive shell

php > $key = 'MyKey';
php > $text = 'test';
php > $output = mcrypt_encrypt(MCRYPT_RIJNDAEL_256, $key, $text, MCRYPT_MODE_ECB);
php > $encoded = base64_encode($output);
php > echo $encoded;
I+KlvwIK2e690lPLDQMMUf5kfZmdZRIexYJp1SLWRJY=

Answer 2

Although the answer from @101100 was a good one at the time, it's no longer viable. The reference is now a broken link, and the code would only run on older Pythons (<3).

Instead, the pprp project seems to fill the void nicely. On Python 2 or Python 3, just pip install pprp, then:

import pprp
import base64

KEY_SIZE = 16
BLOCK_SIZE = 32


def encrypt(key, plaintext):
    key = key.encode('ascii')
    plaintext = plaintext.encode('utf-8')
    padded_key = key.ljust(KEY_SIZE, b'\0')

    sg = pprp.data_source_gen(plaintext, block_size=BLOCK_SIZE)
    eg = pprp.rjindael_encrypt_gen(padded_key, sg, block_size=BLOCK_SIZE)

    ciphertext = pprp.encrypt_sink(eg)

    encoded = base64.b64encode(ciphertext)

    return encoded.decode('ascii')


def decrypt(key, encoded):
    key = key.encode('ascii')
    padded_key = key.ljust(KEY_SIZE, b'\0')

    ciphertext = base64.b64decode(encoded.encode('ascii'))

    sg = pprp.data_source_gen(ciphertext, block_size=BLOCK_SIZE)
    dg = pprp.rjindael_decrypt_gen(padded_key, sg, block_size=BLOCK_SIZE)

    return pprp.decrypt_sink(dg).decode('utf-8')


key = 'MyKey'
text = 'test'

encoded = encrypt(key, text)
print(repr(encoded))
# prints 'ju0pt5Y63Vj4qiViL4VL83Wjgirq4QsGDkj+tDcNcrw='

decoded = decrypt(key, encoded)
print(repr(decoded))
# prints 'test'

I'm a little dismayed that the ciphertext comes out different than what you see with 101100's answer. I have, however, used this technique to successfully decrypt data encrypted in PHP as described in the OP.

Answer 3

If you're willing to use MCRYPT_RIJNDAEL_128 rather than 256 on the PHP side, this is as simple as:

from Crypto.Cipher import AES
import base64
key="MyKey"

def decrypt(text)
    cipher=AES.new(key)
    return cipher.decrypt(base64.b64decode(text))