mirror of
https://github.com/hastagAB/Awesome-Python-Scripts.git
synced 2024-11-30 15:31:07 +00:00
46cc100c5e
Co-authored-by: Shankar JP <shankarjp12@outlook.com>
175 lines
6.2 KiB
Python
175 lines
6.2 KiB
Python
#Image Stego using LSB
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import cv2
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def encode(input_image_name, output_image_name, file_name):
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input_image = cv2.imread(input_image_name)
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height, width, nbchannels = input_image.shape
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size = width*height
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current_width = 0
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current_height = 0
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current_channel = 0
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maskonevalues = [1, 2, 4, 8, 16, 32, 64, 128]
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maskone = maskonevalues.pop(0)
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maskzerovalues = [254, 253, 251, 247, 239, 223, 191, 127]
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maskzero = maskzerovalues.pop(0)
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data = open(file_name, "rb").read()
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length = len(data)
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if(width*height*nbchannels < length + 64):
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raise Exception("Not enough space to hold all steganographic data")
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binary_value = bin(length)[2:]
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if(len(binary_value) > 64):
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raise Exception("Binary Value larger than expected")
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else:
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while(len(binary_value) < 64):
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binary_value = "0" + binary_value
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for c in binary_value:
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value = list(input_image[current_height, current_width])
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if(int(c) == 1):
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value[current_channel] = int(value[current_channel]) | maskone
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else:
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value[current_channel] = int(value[current_channel]) & maskzero
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input_image[current_height, current_width] = tuple(value)
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if(current_channel == nbchannels-1):
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current_channel = 0
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if(current_width == width-1):
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current_width = 0
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if(current_height == height-1):
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current_height = 0
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if maskone == 128:
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raise Exception("No more space available in image")
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else:
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maskone = maskonevalues.pop(0)
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maskzero = maskzerovalues.pop(0)
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else:
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current_height += 1
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else:
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current_width += 1
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else:
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current_channel += 1
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for byte in data:
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if(isinstance(byte, int)):
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pass
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else:
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byte = ord(byte)
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binv = bin(byte)[2:]
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if(len(binv) > 8):
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raise Exception("Binary Value larger than expected")
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else:
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while(len(binv) < 8):
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binv = "0" + binv
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for c in binv:
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val = list(input_image[current_height, current_width])
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if(int(c) == 1):
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val[current_channel] = int(val[current_channel]) | maskone
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else:
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val[current_channel] = int(val[current_channel]) & maskzero
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input_image[current_height, current_width] = tuple(val)
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if(current_channel == nbchannels-1):
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current_channel = 0
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if(current_width == width-1):
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current_width = 0
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if(current_height == height-1):
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current_height = 0
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if maskone == 128:
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raise Exception("No more space available in image")
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else:
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maskone = maskonevalues.pop(0)
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maskzero = maskzerovalues.pop(0)
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else:
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current_height += 1
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else:
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current_width += 1
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else:
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current_channel += 1
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cv2.imwrite(output_image_name, input_image)
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def decode(encoded_image_name, extracted_file_name):
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encoded_image = cv2.imread(encoded_image_name)
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height, width, nbchannels = encoded_image.shape
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size = width*height
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current_width = 0
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current_height = 0
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current_channel = 0
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maskonevalues = [1, 2, 4, 8, 16, 32, 64, 128]
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maskone = maskonevalues.pop(0)
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maskzerovalues = [254, 253, 251, 247, 239, 223, 191, 127]
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maskzero = maskzerovalues.pop(0)
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bits = ""
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for i in range(64):
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value = encoded_image[current_height, current_width][current_channel]
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value = int(value) & maskone
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if(current_channel == nbchannels-1):
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current_channel = 0
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if(current_width == width-1):
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current_width = 0
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if(current_height == height-1):
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current_height = 0
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if(maskone == 128):
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raise Exception("No more space available in image")
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else:
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maskone = maskonevalues.pop(0)
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maskzero = maskzerovalues.pop(0)
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else:
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current_height += 1
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else:
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current_width += 1
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else:
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current_channel += 1
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if(value > 0):
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bits += "1"
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else:
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bits += "0"
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length = int(bits, 2)
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output = b""
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for i in range(length):
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bits = ""
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for i in range(8):
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value = encoded_image[current_height, current_width][current_channel]
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value = int(value) & maskone
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if(current_channel == nbchannels-1):
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current_channel = 0
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if(current_width == width-1):
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current_width = 0
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if(current_height == height-1):
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current_height = 0
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if(maskone == 128):
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raise Exception("No more space available in image")
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else:
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maskone = maskonevalues.pop(0)
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maskzero = maskzerovalues.pop(0)
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else:
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current_height += 1
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else:
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current_width += 1
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else:
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current_channel += 1
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if(value > 0):
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bits += "1"
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else:
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bits += "0"
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output += bytearray([int(bits, 2)])
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f = open(extracted_file_name, "wb")
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f.write(output)
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f.close()
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if __name__ == "__main__":
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input_string = input()
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#encode input_image_name output_image_name file_name
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#decode encoded_image_name extracted_file_name
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input_list = input_string.split()
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if input_list[0] == "encode":
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encode(input_list[1], input_list[2], input_list[3])
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print(f"{input_list[2]}")
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elif input_list[0] == "decode":
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decode(input_list[1], input_list[2])
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print(f"{input_list[2]}")
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else:
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print("Invalid Entry")
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