Warning: Some posts on this platform may contain adult material intended for mature audiences only. Viewer discretion is advised. By clicking ‘Continue’, you confirm that you are 18 years or older and consent to viewing explicit content.
Collisions have always been a low concern. If, for arguments sake, I.hate.password. had a collision with another random password like kag63!gskfh-$93+"ja the odds of the collision password being cracked would be virtually non-existent. It’s not a statistically probable occurrence to be worried about.
This is plainly false. Hash collisions aren’t more likely for longer passwords and there’s no guarantee there aren’t collisions for inputs smaller than the hash size. The way secure hashing algorithms avoid collisions is by making them astronomically unlikely and that doesn’t change for longer inputs.
Hashing will make every password the same length.
yup yup. Forgot we were talking about a protected field and not just raw data
Right but that puts a limit on the hash algorithm’s input length. After a certain length you can’t guarantee a lack of collisions.
Of course the probability stays low, but at a certain point it becomes possible.
Collisions have always been a low concern. If, for arguments sake, I.hate.password. had a collision with another random password like kag63!gskfh-$93+"ja the odds of the collision password being cracked would be virtually non-existent. It’s not a statistically probable occurrence to be worried about.
This is plainly false. Hash collisions aren’t more likely for longer passwords and there’s no guarantee there aren’t collisions for inputs smaller than the hash size. The way secure hashing algorithms avoid collisions is by making them astronomically unlikely and that doesn’t change for longer inputs.