#!/usr/bin/env python #-*- coding: utf-8 -*- # Stéganô - Stéganô is a basic Python Steganography module. # Copyright (C) 2010-2017 Cédric Bonhomme - https://www.cedricbonhomme.org # # For more information : https://github.com/cedricbonhomme/Stegano # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see __author__ = "Cedric Bonhomme" __version__ = "$Revision: 0.2.2 $" __date__ = "$Date: 2016/08/04 $" __license__ = "GPLv3" import sys from PIL import Image from stegano import tools def hide(input_image_file: str, message, auto_convert_rgb: bool = False): """Hide a message (string) in an image with the LSB (Least Significant Bit) technique. """ message_length = len(message) assert message_length != 0, "message length is zero" img = Image.open(input_image_file) if img.mode not in ['RGB', 'RGBA']: if not auto_convert_rgb: print('The mode of the image is not RGB. Mode is {}'.\ format(img.mode)) answer = input('Convert the image to RGB ? [Y / n]\n') or 'Y' if answer.lower() == 'n': raise Exception('Not a RGB image.') img = img.convert('RGB') encoded = img.copy() width, height = img.size index = 0 message = str(message_length) + ":" + str(message) message_bits = "".join(tools.a2bits_list(message)) message_bits += '0' * ((3 - (len(message_bits) % 3)) % 3) npixels = width * height len_message_bits = len(message_bits) if len_message_bits > npixels * 3: raise Exception("The message you want to hide is too long: {}". \ format(message_length)) for row in range(height): for col in range(width): if index + 3 <= len_message_bits : # Get the colour component. pixel = img.getpixel((col, row)) r = pixel[0] g = pixel[1] b = pixel[2] # Change the Least Significant Bit of each colour component. r = tools.setlsb(r, message_bits[index]) g = tools.setlsb(g, message_bits[index+1]) b = tools.setlsb(b, message_bits[index+2]) # Save the new pixel if img.mode == 'RGBA': updated_pixel = (r, g, b, pixel[3]) else: updated_pixel = (r, g, b) encoded.putpixel((col, row), updated_pixel) index += 3 else: img.close() return encoded def reveal(input_image_file): """Find a message in an image (with the LSB technique). """ img = Image.open(input_image_file) width, height = img.size buff, count = 0, 0 bitab = [] limit = None for row in range(height): for col in range(width): # pixel = [r, g, b] or [r,g,b,a] pixel = img.getpixel((col, row)) if img.mode == 'RGBA': pixel = pixel[:3] # ignore the alpha for color in pixel: buff += (color&1)<<(7-count) count += 1 if count == 8: bitab.append(chr(buff)) buff, count = 0, 0 if bitab[-1] == ":" and limit == None: try: limit = int("".join(bitab[:-1])) except: pass if len(bitab)-len(str(limit))-1 == limit : img.close() return "".join(bitab)[len(str(limit))+1:]