I want to encrypt data in an image but the resulting ciphertext to still be a valid image. I encrypt the image with AES in python and then, I replace header in the files, but windows can't open the encrypted image.


def encrypt_file(self, in_filename, out_filename):
    filesize = os.path.getsize(in_filename)
    iv = Random.new().read(AES.block_size)
    cipher = AES.new(self.key, AES.MODE_ECB, iv)
    chunksize = 64 * 1024
    with open(in_filename, 'rb') as infile:
        with open(out_filename, 'wb') as outfile:
            outfile.write(struct.pack('<Q', filesize))

            while True:
                chunk = infile.read(chunksize)
                if len(chunk) == 0:
                elif len(chunk) % 16 != 0:
                    chunk += ' ' * (16 - len(chunk) % 16)
                cifrado = base64.b64encode(cipher.encrypt(chunk))
                print cifrado

I want this effect: The ECB Penguin

  • Could you provide some more information to this? Maybe some code? Your title could be a bit more representative too
    – koukouviou
    Mar 13, 2015 at 18:48
  • what image format and image viewer are you trying to use; the linked article used ppm, which is a nice simple format as opposed to e.g. jpeg... though I don't know if windows comes with a ppm reader by default.
    – Foon
    Mar 14, 2015 at 2:11

2 Answers 2


PyCrypto and the Python Image Class had very useful examples on playing around with images and the AES encryption.

This implementation only works with BMP images that have certain characteristics. The main characteristic that an image must have for this solution to work is that it has to be of a size that's multiple of 16 bytes (for the encryption part, AES ECB operates on 16 byte chunks). You can work on improving this to accept more image formats and pad to 16 byte multiples :)

If you don't provide an image, an appropriate image from the web is automatically downloaded.

im_show from Image is known to cause problems on some platforms. I tested this on an Ubuntu 14.10 distro and didn't run into any problems. This was tested on Python 2.7, I'm still working on my portability skills (You didn't specify a Python version in your question so...)

import binascii, os.path, urllib, random, Image
from Crypto.Cipher import AES

class ECBPenguin(object):
    A penguin class
    def __init__(self, img_clr=""):
        if not img_clr:
            self.img_clr = "tux_clear.bmp"
            self.img_clr = img_clr

    def __demo_image__(self):
        Downloads a TUX image compatible for this program: square and with size multiple of 16
        print "Downloading image..."
        image = urllib.URLopener()

    def __get_sizes__(self, dibheader):
        # Get image's dimensions (at offsets 4 and 8 of the DIB header)
        DIBheader = []
        for i in range(0,80,2):
        self.width = sum([DIBheader[i+4]*256**i for i in range(0,4)])
        self.height = sum([DIBheader[i+8]*256**i for i in range(0,4)])

    def __get_header__(self):
        Read BMP and DIB headers from input image and write them to output image
        f_in = open(self.img_clr, 'rb')
        # BMP is 14 bytes
        bmpheader = f_in.read(14)
        # DIB is 40 bytes
        dibheader = f_in.read(40)
        self._bmpheader = bmpheader
        self._dibheader = dibheader

    def encrypt(self, img_enc = "tux_enc.bmp", key = '0123456789abcdef'):
        Encrypt the my_penguin
        self.img_enc = img_enc
        f_in = open(self.img_clr, 'rb')
        f_out = open(img_enc, 'wb')
        row_padded = (self.width * self.height * 3)
        image_data = f_in.read(row_padded)
        cleartext =  binascii.unhexlify(binascii.hexlify(image_data))

        # Initialization Vector
        IV = ''.join(chr(random.randint(0, 0xFF)) for i in range(16))
        # AES ECB mode
        mode = AES.MODE_ECB
        # Encryptor
        encryptor = AES.new(key, mode, IV=IV)
        # Perform the encryption and write output to file

    def show_clr(self):
        Display cleartext penguin
        im = Image.open(self.img_clr)

    def show_enc(self):
        Display ciphertext penguin
        im = Image.open(self.img_enc)

def main():
    my_penguin = ECBPenguin()

if __name__ == "__main__":

The initial and encrypted images look like this:

Plaintext TUX ECB "Encrypted" TUX

I couldn't find the same image as the one in your link, but the point of weakness of ECB is still made!

  • @davidad does this address your problem?
    – koukouviou
    Mar 21, 2015 at 1:30
  • Can you tell why not other images apart from this TUX image, are not shown as a counterexample for ECB. Are there other images that can be shown where ECB does not work?
    – user311790
    Mar 23, 2020 at 17:49

In simple terms:

  1. Grab the original image in .BMP format.

  2. Keep the original BMP header unencrypted.

  3. Encrypt just the image, not the header.

  4. Put the original unencrypted header back in front of the encrypted image.

You may need to tweak the header a little if the encryption has added a few padding bytes to the image size.

  • thanks, but this information i know. i want code or Pseudocode.
    – davidad
    Mar 18, 2015 at 10:01
  • Which of the four steps do you have difficulties with? "Pseudocode" covers a great many possibilities. My answer could be seen as very high level Pseudocode.
    – rossum
    Mar 18, 2015 at 12:25
  • How to extract the header from the image and how to put it back after encryption , can you suggest?
    – user311790
    Mar 23, 2020 at 18:45
  • Read up on the BMP file format. You will need to partially parse the file to locate the pixel array which holds the image.
    – rossum
    Mar 23, 2020 at 19:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.