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I'm in the process of creating a gaming community site that I'm aiming to release to the public soon. Currently, I'm working on passwords and logins. I've only used MD5 before, but I've read about password safety and heard that salting is currently the way to go.

Here's my plan: Every user has their own unique salt of 12 random characters (#/¤& etc), stored in the users table. The salt is hashed (using SHA-256) along with the password on registration, and re-hashed on login.

How does this sound to you? Anything I can improve? Should I go for SHA-512 and a longer salt, or is this enough?

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7 Answers 7

Your suggestion of 12 bytes should be an adequate length for a salt. That would require a dictionary attack to prepare 296 databases of hashed passwords. Someday this might be a trivial operation for a cracker, but we're still a ways off from that.

SHA256 is recommended by NIST as having adequate hashing strength for passwords, at least for now.

If you want to explore even stronger methods of password security, look into key-strengthening techniques like PBKDF2, or adaptive hashing with Bcrypt. But these have no direct support in SQL. You'd have to do the hashing in application code and then post the hash digest to your database.

It may seem like security overkill for a gaming site, but it's a good practice to do it. Because many users (inadvisably) use the same password for their gaming login as they do for their banking login! You don't want to be responsible for an authentication breach that leads indirectly to major losses.

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Very good advice. (Though the OP seems to be using 12 characters not 12 bytes for the salt, which is a lot less entropy). –  Pete Jul 7 '10 at 5:41
Yes, good point. By using only printable characters, he'll use fewer than 8 bits per character. –  Bill Karwin Jun 22 '11 at 22:28
This is bad advice. SHA256 is not good for password hashing; it is too fast. You should use bcrypt, scrypt, or PBKDF2. –  D.W. Sep 17 '11 at 1:41
@D.W. You're right, bcrypt or PBKDF2 are stronger solutions. That's why I mentioned them in my answer. –  Bill Karwin Sep 17 '11 at 5:05


Don't use hashing or HMAC. Use bcrypt or scrypt. See http://codahale.com/how-to-safely-store-a-password/


Don't simply hash. Use HMAC. (And avoid doing your own hashing or crypto if there is a library available, since libraries benefit from expert input.)


  1. http://rdist.root.org/2009/10/29/stop-using-unsafe-keyed-hashes-use-hmac/
  2. http://us2.php.net/manual/en/function.hash-hmac.php
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It's probably sufficient for your use case.

However, it could be improved by:

  1. Increase the size of the salt

  2. The salt should be not be limited to a small subset of characters

  3. Iterate the hashing, say 1000 times (key strengthening)

Have a look at phpass.

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I didn't downvote you, but I don't think that hashing a hash offers any practical benefit. I've read that hash chaining can help prevent password theft in the event that the key is sent over unsecured channels, but when the communication is between a server and its database, I kind of doubt it would help. And I honestly don't know, but I have a gut feeling that successively hashing will introduce noise to the hash that will make it easier for someone else to reproduce and exploit. Salts are probably the best way to go. –  Andrew Jul 7 '10 at 4:42
I was referring to key strengthening, e.g. PBKDF2 (as mentioned by Bill above). Multiple iterations is considered best practice, as it hinders a brute force attack on a known hash value - where the attacker has got access to the DB and wants the password (many people reuse passwords across sites). There's no known mathematical weakness in doing so with the common hash functions. –  Pete Jul 7 '10 at 4:51
@Col. Shrapnel The salt stops pre-computed dictionary attacks and hinders rainbow tables. Multiple iterations hinder brute force - the salt is known with the hash value and doesn't alone hinder brute force enough. –  Pete Jul 7 '10 at 5:13
'I fear it reduces security by increasing collisions' If you can show the math to back that up, your gut will win instant kudos in the crypto community :-) –  Pete Jul 7 '10 at 5:53
See schneier.com/paper-low-entropy.html if you want to read about key-stretching. –  Bill Karwin Jul 7 '10 at 6:26

I've noticed a lot of confusion about how to do password hashing properly, especially on stackoverflow. And I've seen some REALLY BAD recommendations. So I've written a page that should clear everything up. There's a bit more to it than using a simple hash.

More info and source code: How to do password hashing properly

Feel free to share this link whenever someone has a question about password hashing. This is my first post on stackoverflow so sorry if I'm not doing it right

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I appreciate your work to try to write this up in detail. However, this advice doesn't fully take into account the state-of-the-art understanding in the security literature. The material on salting is good, but the material on selection of a hash algorithm is not so good. You recommend SHA256, but that's not a good choice for hashing passwords. Folks should use scrypt, bcrypt, or PBKDF2. –  D.W. Sep 17 '11 at 1:43

Are you storing your passwords in MySQL? If so, it has an ENCRYPT() function that can save you some time.

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From the page you linked: ENCRYPT() ignores all but the first eight characters of str, at least on some systems. This behavior is determined by the implementation of the underlying crypt() system call. That doesn't sound all that good... –  masher Jul 7 '10 at 4:14
So it does! I didn't know that, and it's a problem. Thanks! –  Michael Louis Thaler Jul 7 '10 at 17:52

If you are really concerned, I would look at using the whirlpool hashing function instead of one of the SHA variants. Whirlpool has proven to be an incredibly strong hashing method, and has no history of collisions or any other weaknesses (that I know of, at least).

You can use whirlpool by employing the hash function of PHP. (Note, however, that hash() requires PHP 5.1.2 or greater.)

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All hashing routines that take in variable-length strings and output fixed-length hashes have collisions. It's a mathematical certainty. The weakness of SHA1 and MD5 (and maybe others) is that it is possible to alter a single string in two ways to produce a collision. This weakness doesn't apply to password hashing (though conceivably, a user could concoct two passwords that result in the same hash). –  Andrew Jul 7 '10 at 5:59
Of course, all hashing algorithms have the opportunity of collisions. What I meant was that it (to my knowledge) does not have a weakness in the hashing method itself that allows these collisions to occur more often than the mathematically probability of collisions. –  Dan D. Jul 7 '10 at 7:41

Your current approach is enough.

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This is really a comment, not an answer to the question. You can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. –  ThePower Aug 22 '12 at 12:51

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