This is my current password hashing procedure in PHP/SQL projects...
- Take 512bits of per-user salt from /dev/urandom, stored in the user's DB record in addition to the final hash
- Take 512bits of "pepper" from /dev/urandom which is stored in the file system. This is a constant per-application and is the same for each user
hash('sha512', $password.$salt.$pepper, TRUE)
The hash and salt are stored in binary in the DB, mainly out of habit. I don't think it makes any difference in terms of security. If anything it's slightly less convenient for SQL backups and makes the PHP code appear marginally more complex.
hash() with SHA-256 or SHA-512 generally considered to have been superceeded by bcrypt these days?
I believe SHA-2 (256/512) is still considered cryptographically secure and I'm probably overdoing the entropy bits. It's far more likely that it would be a flaw in my code that would lead to problems than an attacker reverse-engineering a SHA-2 hash from a DB dump.
But should I update my methodology going forward to use
crypt() with CRYPT_BLOWFISH instead (I believe this is referred to as bcrypt, with blowfish technically being a cipher rather than hashing algorithm)?
Even just as future best practice?
I'm not particularly concerned about the computational expense of the algorithms (within reason). This would only ever be a factor when creating accounts, changing passwords or on login when you hash then compare. Those activities make up a small percentage of page views. I guess in a way the slower the better, if it makes a server work harder to generate then it will make an attacker's work slower to brute force.