Just take the string as bytes and hash it ffs

      • @owsei@programming.dev
        link
        fedilink
        English
        33 months ago

        Damm, I legit didn’t knew there bcrypt had a length limit! Thank you for another reason not to use bcrypt

        • @frezik@midwest.social
          link
          fedilink
          English
          43 months ago

          Scrypt has the same limit, FWIW.

          It doesn’t matter too much. It’s well past the point where fully random passwords are impossible to brute force in this universe. Even well conceived passphrases won’t get that long. If you’re really bothered by it, you can sha256 the input before feeding it to bcrypt/scrypt, but it doesn’t really matter.

      • @Swedneck@discuss.tchncs.de
        link
        fedilink
        English
        13 months ago

        wouldn’t you then just break it up into chunks of 72 bytes, hash them individually, and concatenate the hashes? And if that’s still too long, split the hash into 72 byte chunks and repeat until it’s short enough?

        • @yhvr@lemm.ee
          link
          fedilink
          English
          23 months ago

          I don’t know the specifics behind why the limit is 72 bytes, but that might be slightly tricky. My understanding of bcrypt is that it generates 2^salt different possible hashes for the same password, and when you want to test an input you have to hash the password 2^salt times to see if any match. So computation times would get very big if you’re combining hashes

      • @candybrie@lemmy.world
        link
        fedilink
        English
        19
        edit-2
        3 months ago

        Because then the hash is the password. Someone could just send the hash instead of trying to find a password that gets the correct hash. You can’t trust the client that much.

        You can hash the password on both sides to make it work; though I’m not sure why you’d want to. I’m not sure what attack never having the plain text password on the server would prevent. Maybe some protection for MITM with password reuse?

      • @CommanderCloon@lemmy.ml
        link
        fedilink
        English
        63 months ago

        Because then that means you don’t salt your hashes, or that you distribute your salt to the browser for the hash. That’s bad.

        • @frezik@midwest.social
          link
          fedilink
          English
          43 months ago

          You could salt it. Distributing a unique salt doesn’t help attackers much. Salt is for preventing precomputing attacks against a whole database. Attacking one password hash when you know the salt is still infeasible.

          It’s one of those things in security where there’s no particular reason to give your attacker information, but if you’ve otherwise done your job, it won’t be a big deal if they do.

          You don’t hash in the browser because it doesn’t help anything.

          • @FierySpectre@lemmy.world
            link
            fedilink
            English
            13 months ago

            It helps against the server being able to read the password, so a bad actor (either the website itself or after a hack) could read your password. Which isn’t bad if you’re using good password hygiene with random passwords, but that sadly is not the norm.

              • @FierySpectre@lemmy.world
                link
                fedilink
                English
                1
                edit-2
                3 months ago

                For that particular website yes, but a salted client side hash is worthless on a different website.

                Edit: plus even unsalted it would only work if the algorithm is the same and less iterations are done

                • @frezik@midwest.social
                  link
                  fedilink
                  English
                  23 months ago

                  If the end user is reusing passwords. Which, granted, a lot of people do.

                  On the flip side, we’re also forcing the use of JavaScript on the client just to handle passwords. Meanwhile, the attack we’re protecting against only works for reused passwords, and the attacker is inside the server and can see the password after transport layer encryption is removed. This is a pretty marginal reason to force the complexity of JavaScript.

      • @frezik@midwest.social
        link
        fedilink
        English
        3
        edit-2
        3 months ago

        Per your edit, you’re misunderstanding what Bitwarden does and why it’s different than normal web site password storage.

        Bitwarden is meant to not have any insight into your stored passwords what so ever. Bitwarden never needs to verify that the passwords you’ve stored match your input later on. The password you type into Bitwarden to unlock it is strictly for decrypting the database, and that only happens client side. Bitwarden itself never needs to even get the master password on the server side (except for initial setup, perhaps). It’d be a breach of trust and security if they did. Their system only needs to store encrypted passwords that are never decrypted or matched on their server.

        Typical website auth isn’t like that. They have to actually match your transmitted password against what’s in their database. If you transmitted the hashed password from the client and a bad actor on the server intercepted it, they could just send the hashed password and the server would match it as usual.

      • @frezik@midwest.social
        link
        fedilink
        English
        33 months ago

        With comments like this all over public security forums, it’s no wonder we have so many password database cracks.