What would be an ideal bcrypt work factor for password hashing.

If I use a factor of 10, it takes approx .1s to hash a password on my laptop. If we end up with a very busy site, that turns into a good deal of work just checking people's passwords.

Perhaps it would be better to use a work factor of 7, reducing the total password hash work to about .01s per laptop-login?

How do you decide the tradeoff between brute force safety and operational cost?

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    The cost thwarts offline attacks. When "online" you can use minimum delay between attempts (e.g. 5 seconds) to prevent a denial of service attack. – Ian Boyd Jun 7 '12 at 14:18
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    Duplicate on InformationSecurity: Recommended # of rounds for bcrypt – Christian Strempfer Aug 25 '14 at 20:00
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    For anyone interested, I just wrote a small Java CLI tool to test bcrypt performance on servers (which is obviously important for balancing security, server-load and response-times): github.com/cdraeger/hash-performance – Blacklight Apr 4 '15 at 10:56

Remember that the value is stored in the password: $2a$(2 chars work)$(22 chars salt)(31 chars hash). It is not a fixed value.

If you find the load is too high, just make it so the next time they log in, you crypt to something faster to compute. Similarly, as time goes on and you get better servers, if load isn't an issue, you can upgrade the strength of their hash when they log in.

The trick is to keep it taking roughly the same amount of time forever into the future along with Moore's Law. The number is log2, so every time computers double in speed, add 1 to the default number.

Decide how long you want it to take to brute force a user's password. For some common dictionary word, for instance, your account creation probably already warned them their password was weak. If it's one of 1000 common words, say, and it takes an attacker 0.1s to test each, that buys them 100s (well, some words are more common...). If a user chose 'common dictionary word' + 2 numbers, that's over two hours. If your password database is compromised, and the attacker can only get a few hundred passwords a day, you've bought most of your users hours or days to safely change their passwords. It's a matter of buying them time.

http://www.postgresql.org/docs/8.3/static/pgcrypto.html has some times for cracking passwords for you to consider. Of course, the passwords they list there are random letters. Dictionary words... Practically speaking you can't save the guy whose password is 12345.

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    This is really an excellent answer. I hadn't even considered the re-crypt on login idea. Thank you so much! – Chris Jan 23 '11 at 2:13
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    How would the recrypt work? You would have to store the old bcrypt work cost somewhere so you can use it to log them in and then after validating their password you would update the hash and cost in the database? – Jerry Saravia Jun 13 '13 at 21:57
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    @JerrySaravia The beauty of bcrypt is that the cost is stored within the hash itself - so you don't need to store anything extra. Simply authenticate with the current hash, then immediately re-generate the hash with a different cost. Simple! – Mark Locker Aug 21 '13 at 9:42
  • @MarkLocker, Thanks Mark! It's a B[eautiful]crypt! But seriously, that makes things much easier and is a wonderful thing. – Jerry Saravia Aug 21 '13 at 13:48
  • Okay since I'm not allowed to edit it in because it's an "incorrect attempt to reply" (do you guys even read my edits?), allow me to comment the information instead. Example value: $2y$08$fJS4yx0i8kiOzIBIamZ51OWTMrzyE/4je34Oxhw.5xxp3Es7Ke32W. Reason I attempted to edit: It was unclear to me whether "2 chars work" was a digit or hex or something, had to test. Here is the test result for everyone else so you don't have to try it out yourself. – Luc Jul 20 '14 at 9:50

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