Pigeon hole principle says it does for any file substantially longer than the hash value length, but it’s going to be hard to find

Even for a 4096 bit hash (which isn’t used afaik, usually only 1024 bit is used (but this could be outdated)), you only need to change 4096 bits on average. Even for a still 1080p image, that’s 1920x1080 pixels. If you change the least significant bit of each color channel, you get 6,220,800 bits you can change within anyone noticing. That means on average there are 1,518 identical-looking variations of any image with a given 4096 bit hash, on average. This goes down a lot when you factor in compression: those least significant bits aren’t going to stay the same. But using a video brings it up by orders of magnitude: rather than one image, you can tweak colors in every frame The difficulty doesn’t come from the existence, it comes because you need to check 2⁵¹² = 10¹⁵⁴ different images to guarantee you’ll find a match. Hash functions are designed to take a while to compute, so you’d have to run a supercomputer for an extremely long time to brute force a hash collision