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I have read that when hashing a password, many programmers recommend using the BCrypt algorithm.

I am programming in C# and is wondering if anyone knows of a good implementation for BCrypt? I found this page, but I don't really know if it is bogus or not.

What should I be aware of when choosing a password hashing scheme? Is BCrypt a 'good' implementation?

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3 Answers 3

up vote 65 down vote accepted

First, some terms that are important:

Hashing - The act of taking a string and producing a sequence of characters that cannot be reverted to the original string.

Symmetric Encryption - (Usually just referred to as 'encryption') - The act of taking a string and producing a sequence of characters that can be decrypted to the original string through the use of the same encryption key that encrypted it.

Rainbow Table - a lookup table that contains all variations of characters hashed in a specific hashing algorithm.

Salt - a known random string appended to the original string before it is hashed.

For the .NET Framework, Bcrypt does not yet have a verified reference implementation. This is important because there's no way to know if there are serious flaws in an existing implementation. You can get an implementation of BCrypt for .NET here. I don't know enough about cryptography to say whether it's a good or bad implementation. Cryptography is a very deep field. Do not attempt to build your own encryption algorithm. Seriously.

If you are going to implement your own password security (sigh), then you need to do several things:

  1. Use a relatively secure hash algorithm.
  2. Salt each password before it's hashed.
  3. Use a unique and long salt for each password, and store the salt with the password.
  4. Require strong passwords.

Unfortunately, even if you do all this, a determined hacker still could potentially figure out the passwords, it would just take him a really long time. That's your chief enemy: Time.

The bcrypt algorithm works because it takes five orders of magnitude longer to hash a password than MD5; (and still much longer than AES or SHA-512). It forces the hacker to spend a lot more time to create a rainbow table to lookup your passwords, making it far less likely that your passwords will be in jeopardy of being hacked.

If you're salting and hashing your passwords, and each salt is different, then a potential hacker would have to create a rainbow table for each variation of salt, just to have a rainbow table for one salted+hashed password. That means if you have 1 million users, a hacker has to generate 1 million rainbow tables. If you're using the same salt for every user, then the hacker only has to generate 1 rainbow table to successfully hack your system.

If you're not salting your passwords, then all an attacker has to do is to pull up an existing Rainbow table for every implementation out there (AES, SHA-512, MD5) and just see if one matches the hash. This has already been done, an attacker does not need to calculate these Rainbow tables themselves.

Even with all this, you've got to be using good security practices. If they can successfully use another attack vector (XSS, SQL Injection, CSRF, et. al.) on your site, good password security doesn't matter. That sounds like a controversial statement, but think about it: If I can get all your user information through a SQL injection attack, or I can get your users to give me their cookies through XSS, then it doesn't matter how good your password security is.

Other resources:

  1. Jeff Atwood: .NET Encryption Simplified (great for an overview of hashing)
  2. Jeff Atwood: I just logged in as you
  3. Jeff Atwood: You're probably storing passwords incorrectly
  4. Jeff Atwood: Speed Hashing

Note: Please recommend other good resources. I've must have read a dozen articles by dozens of authors, but few write as plainly on the subject as Jeff does. Please edit in articles as you find them.

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maybe add to your salt paragraph that a salt must be randomly choosen –  Jacco Apr 8 '11 at 14:55
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@Jacco Good call, added. Although that's not that important. You could simply use the timestamp of the login for the salt. The difference it makes is that the attacker then needs to recompute the rainbow table for each salt. That's what makes it difficult, not that it's randomly chosen. Making it random would add another layer of obsfucation, but that's useless once the attacker is able to see your database (which is the problem that causes all of our heartache in the first place). –  George Stocker Jun 3 '11 at 13:42
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Not really, the salt does not have to be secret, the just unique for each instance. Since unique (as in world-wide) is not possible, random is the next best thing. Also, timestamp is not a good salt as there is not enough entropy. –  Jacco Jun 5 '11 at 18:56
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I'd take issue with your statement "If they can successfully use XSS or SQL injection, good password security doesn't matter." On the contrary, if they can successfully XSS or SQL inject your site, good password security is even more important. The key here is "defence in depth" -- you should tighten security as far as is practical at every layer of your application. –  jammycakes Aug 9 '11 at 12:56

I would not recommend using BCrypt in .NET, I would recommend using PBKDF2 as it is built into the .NET framework.

StackId previously used BCrypt and moved to PBKDF2, you can see this from Kevin Montrose's remarks on SO blog here: http://blog.stackoverflow.com/2011/05/stack-exchange-is-an-openid-provider/#comment-59112

If StackOverflow used it, then dropped it. I certainly would not use it.

Edit: The meaning of verified in cryptographic terms seems to not be readily understood, a verified implementation means it's been cryptographically proven to be implemented without error. The cost of this can easily reach $20,000 or higher. I recall this when I was doing research on OpenSSL and read where they stated they haven't completed the entire verification process but if you need fully verified that they can point you down the right path for it and mentioned costs associated. Certain government requirements include mandates for verified encryption algorithms.

The bcrypt implementations in .NET have not been verified. Using an unverified encryption implementation you can't be absolutely certain that there is not either intentional malicious faults in it such as allowing a backdoor into what is encrypted or unintentional implementation faults that result in cryptographically insecure data.

2014 edit: For anyone that questioned the imperativeness of using verified cryptopgraphical algorithims look at the devastation that was wrought by the heartbleed hack exploited in OpenSSL. That is the cost of using an unverified implementation. It's secure.... until you find out that any person can just read the entire memory contents of your server.

The author of the change which introduced Heartbleed, Robin Seggelmann, stated that he "missed validating a variable containing a length" and denied any intention to submit a flawed implementation. Following Heartbleed's disclosure, Seggelmann suggested focusing on the second aspect, stating that OpenSSL is not reviewed by enough people.

This is the definition of an unverified implementation. Even the smallest defect can result in crippling the entire security.

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To quote the linked comment: "[we] moved to PBKDF2 as it is built into the .NET framework, whereas BCrypt would require us to verify an implementation". Note that the comment doesn't say the algorithm is better, just that SE Dev Team considers the built-in PBKDF2 implementation more trusted than an external library (which is, ultimately, a judgement call). –  Piskvor Aug 9 '11 at 9:07
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@Piskvor I updated my answer. This isn't about what the SO team considers secure but a judgement call between inherently proven secure or hopefully secure. The latter when it comes to cryptography is unacceptable. –  Chris Marisic Aug 9 '11 at 12:42
    
I'd add to this that the purpose of BCrypt/SCrypt above and beyond key-stretching (which PBKDF2 does fine) is to also force the usage of a significant amount of memory, which in turn reduces the amount of attempts that the same hardware can make in parallel. While this is great for really secure passwords it could also have performance issues in a shared environment where users log in concurrently. There's a whole layer of performance testing required for a BCrypt implementation over PBKDF2. –  Keith Aug 2 '12 at 15:41
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I wonder how SO migrated all the bcrypt hashed passwords to the new hashes? Wouldnt they need the raw passwords to hash it using the new algorithm? –  D K Jan 6 at 22:44
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@DK I don't even think you have to ask them to reset their passwords. On next log in (where they supply their plaintext password) you can do it I believe. –  cottsak Jul 8 at 5:54

I wrote an article describing how to use BCrypt in a .NET application.

http://lostinthegc.wordpress.com/2011/03/22/using-bcrypt-in-a-net-application-why-its-better-than-sha-or-md5/

BCrypt solves that problem, by using a work factor. Meaning, you decide how long it’s going to take to hash data. So no matter how faster computers get, you can tweak up that factor and still hash your passwords at the speed you wish.

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