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import argparse | |
import cv2 | |
import numpy as np | |
try: | |
from imwatermark import WatermarkDecoder | |
except ImportError as e: | |
try: | |
# Assume some of the other dependencies such as torch are not fulfilled | |
# import file without loading unnecessary libraries. | |
import importlib.util | |
import sys | |
spec = importlib.util.find_spec("imwatermark.maxDct") | |
assert spec is not None | |
maxDct = importlib.util.module_from_spec(spec) | |
sys.modules["maxDct"] = maxDct | |
spec.loader.exec_module(maxDct) | |
class WatermarkDecoder(object): | |
"""A minimal version of | |
https://github.com/ShieldMnt/invisible-watermark/blob/main/imwatermark/watermark.py | |
to only reconstruct bits using dwtDct""" | |
def __init__(self, wm_type="bytes", length=0): | |
assert wm_type == "bits", "Only bits defined in minimal import" | |
self._wmType = wm_type | |
self._wmLen = length | |
def reconstruct(self, bits): | |
if len(bits) != self._wmLen: | |
raise RuntimeError("bits are not matched with watermark length") | |
return bits | |
def decode(self, cv2Image, method="dwtDct", **configs): | |
(r, c, channels) = cv2Image.shape | |
if r * c < 256 * 256: | |
raise RuntimeError("image too small, should be larger than 256x256") | |
bits = [] | |
assert method == "dwtDct" | |
embed = maxDct.EmbedMaxDct(watermarks=[], wmLen=self._wmLen, **configs) | |
bits = embed.decode(cv2Image) | |
return self.reconstruct(bits) | |
except: | |
raise e | |
# A fixed 48-bit message that was choosen at random | |
# WATERMARK_MESSAGE = 0xB3EC907BB19E | |
WATERMARK_MESSAGE = 0b101100111110110010010000011110111011000110011110 | |
# bin(x)[2:] gives bits of x as str, use int to convert them to 0/1 | |
WATERMARK_BITS = [int(bit) for bit in bin(WATERMARK_MESSAGE)[2:]] | |
MATCH_VALUES = [ | |
[27, "No watermark detected"], | |
[33, "Partial watermark match. Cannot determine with certainty."], | |
[ | |
35, | |
( | |
"Likely watermarked. In our test 0.02% of real images were " | |
'falsely detected as "Likely watermarked"' | |
), | |
], | |
[ | |
49, | |
( | |
"Very likely watermarked. In our test no real images were " | |
'falsely detected as "Very likely watermarked"' | |
), | |
], | |
] | |
class GetWatermarkMatch: | |
def __init__(self, watermark): | |
self.watermark = watermark | |
self.num_bits = len(self.watermark) | |
self.decoder = WatermarkDecoder("bits", self.num_bits) | |
def __call__(self, x: np.ndarray) -> np.ndarray: | |
""" | |
Detects the number of matching bits the predefined watermark with one | |
or multiple images. Images should be in cv2 format, e.g. h x w x c BGR. | |
Args: | |
x: ([B], h w, c) in range [0, 255] | |
Returns: | |
number of matched bits ([B],) | |
""" | |
squeeze = len(x.shape) == 3 | |
if squeeze: | |
x = x[None, ...] | |
bs = x.shape[0] | |
detected = np.empty((bs, self.num_bits), dtype=bool) | |
for k in range(bs): | |
detected[k] = self.decoder.decode(x[k], "dwtDct") | |
result = np.sum(detected == self.watermark, axis=-1) | |
if squeeze: | |
return result[0] | |
else: | |
return result | |
get_watermark_match = GetWatermarkMatch(WATERMARK_BITS) | |
if __name__ == "__main__": | |
parser = argparse.ArgumentParser() | |
parser.add_argument( | |
"filename", | |
nargs="+", | |
type=str, | |
help="Image files to check for watermarks", | |
) | |
opts = parser.parse_args() | |
print( | |
""" | |
This script tries to detect watermarked images. Please be aware of | |
the following: | |
- As the watermark is supposed to be invisible, there is the risk that | |
watermarked images may not be detected. | |
- To maximize the chance of detection make sure that the image has the same | |
dimensions as when the watermark was applied (most likely 1024x1024 | |
or 512x512). | |
- Specific image manipulation may drastically decrease the chance that | |
watermarks can be detected. | |
- There is also the chance that an image has the characteristics of the | |
watermark by chance. | |
- The watermark script is public, anybody may watermark any images, and | |
could therefore claim it to be generated. | |
- All numbers below are based on a test using 10,000 images without any | |
modifications after applying the watermark. | |
""" | |
) | |
for fn in opts.filename: | |
image = cv2.imread(fn) | |
if image is None: | |
print(f"Couldn't read {fn}. Skipping") | |
continue | |
num_bits = get_watermark_match(image) | |
k = 0 | |
while num_bits > MATCH_VALUES[k][0]: | |
k += 1 | |
print( | |
f"{fn}: {MATCH_VALUES[k][1]}", | |
f"Bits that matched the watermark {num_bits} from {len(WATERMARK_BITS)}\n", | |
sep="\n\t", | |
) | |