mirror of https://github.com/zulip/zulip.git
60 lines
2.8 KiB
Markdown
60 lines
2.8 KiB
Markdown
```eval_rst
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:orphan:
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```
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# Password strength
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When a user tries to set a password, we use [zxcvbn][zxcvbn] to check
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that it isn't a weak one.
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See discussion in [our main docs for server
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admins](../production/security-model.html#passwords). This doc explains in more
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detail how we set the default threshold (`PASSWORD_MIN_GUESSES`) we use.
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First, read the doc section there. (It's short.)
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Then, the CACM article ["Passwords and the Evolution of Imperfect
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Authentication"][BHOS15] is comprehensive, educational, and readable,
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and is especially recommended.
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The CACM article is convincing that password requirements should be
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set to make passwords withstand an online attack, but not an offline
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one. Offline attacks are much less common, and there is a wide gap in
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the level of password strength required to beat them vs that for
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online attacks -- and therefore in the level of user frustration that
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such a requirement would cause.
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On top of that, estimating strength rapidly becomes more expensive
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at high levels, in both space (for lists of tokens to try) and time.
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As a result, in order to fit in a few MB of download and a few ms of
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check time, zxcvbn focuses on the range of online attacks, for the
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upper limit of which it uses 10^6 (apparently based on the offhand
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estimate of "perhaps one million guesses" in the CACM article.)
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Figure 3 of [the zxcvbn paper][zxcvbn-paper] shows that in fact
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overestimation (allowing a weak password) sharply degrades at 100k
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guesses, while underestimation (rejecting a strong password) jumps up
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just after 10k guesses, and grows steadily thereafter.
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Moreover, the [Yahoo study][Bon12] shows that resistance to even 1M
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guesses is more than nearly half of users accomplish with a freely
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chosen password, and 100k is too much for about 20%. (See Figure 6.)
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It doesn't make sense for a Zulip server to try to educate or push so
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many users far beyond the security practices they're accustomed to; in
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the few environments where users can be expected to work much harder
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for security, local server admins can raise the threshold accordingly.
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Or, more likely, they already have a single-sign-on system in use for
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most everything else in their organization, and will disable password
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auth in Zulip entirely in favor of using that.
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Our threshold of 10k guesses provides significant protection against
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online attacks, and quite strong protection with appropriate
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rate-limiting. On the other hand it stays within the range where
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zxcvbn rarely underestimates the strength of a password too severely,
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and only about 10% of users do worse than this without prompting.
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[zxcvbn]: https://github.com/dropbox/zxcvbn
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[BHOS15]: https://www.cl.cam.ac.uk/~fms27/papers/2015-BonneauHerOorSta-passwords.pdf
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[zxcvbn-paper]: https://www.usenix.org/system/files/conference/usenixsecurity16/sec16_paper_wheeler.pdf
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[Bon12]: https://ieeexplore.ieee.org/document/6234435
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