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Further to my previous question about salted passwords in PHP/MySQL, I have another question regarding salts.

When someone says "use a random salt" to pre/append to a password, does this mean:

  • Creating a static a 1 time randomly generated string of characters, or
  • Creating a string of characters that changes at random every time a password is created?

If the salt is random for every user and stored along with the hashed password, how is the original salt ever retrieved back for verification?

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See also: stackoverflow.com/questions/1645161/… –  Jacco Dec 16 '10 at 9:44
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4 Answers

up vote 40 down vote accepted

A new salt should be randomly generated for each user and each time they change their password as a minimum. Don't just rely on a site wide salt for example, as that defeats the point of using a salt in the first place.

Using a unique salt for each user is so that if two users have the same password they won't get the same resultant hash. It also means a brute force attack would need to be mounted against each user individually rather then being able to pre-compute a rainbow table for the site.

You then store the result of hashing the salt and password in the database hash(salt + password), along with the salt for each user. You can store these in separate columns, or all in one column (separated by some character not used in the hashes, so ; for example). As long as you can retrieve both you'll be fine.

However, if your database is compromised, either due to someone gaining local access or via SQL injection attacks, then both the salt and final hash will be available, which means a brute force attack on the users' passwords would be trivial. To combat this, as suggested by The Rook you can also use a sitewide secret key stored in a file locally as another input of your hashing method so that an attacker would also need to know this to mount an effective attack. Which means your DB would have to be compromised AND the attacker would need access to local files. So using hash(hash(salt + secret) + password), etc.

While in most algorithms you aim to make things as fast as possible, for password hashing you want to slow it down, this is called Key Strengthening (or sometimes Key Stretching). If it takes 0.00001 seconds for your hash function to return, someone can try brute forcing 100,000 passwords a second until they find a match. If it takes 1 second for your hash function to spit out the result, it's not a big deal as far as someone logging into your application is concerned, but for cracking the password it's a bigger deal since each attempt will now take 1 second to get a result, meaning it would take 100,000 times as long to test each brute forced password than it would using your original hash function.

To make your hash function slower, you just need to run it multiple times. For example, you could do new_hash = salt + password + previous_hash 100,000 times. You may need to adjust the number of iterations to a higher value if it's too quick. If you want to be able to change the value later, make sure to store the number of iterations with the user record so that you don't affect any passwords previous stored.

Your user record should now have a field formatted something like this "$<algorithm>$<iterations>$<salt>$<hash>" (or as separate fields if you want).

When the user enters their password you can retrieve the salt and number-of-iterations from the DB and the sitewide secret from a local file and validate that when you run the same number of iterations with the salt and password, the resulting hash matches what you have stored.

If the user changes their password, then you should generate a new salt.

The hashing method you use doesn't matter (but the hashing algorithm does*). Above I suggested hash(hash(salt + secret) + password) but equally it could be hash(hash(salt) + hash(secret) + hash(password)). The method you use doesn't change the effectiveness of your password storage, one is not really any more secure than the other. Relying on the design of how you hash the password and salt together to provide security is called security through obscurity and should be avoided.

*You should not use MD5 or SHA-1 as these are considered insecure. Use the SHA-2 family instead (SHA256, SHA512, etc). (Ref)

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Makes sense. So you'd do something like a SELECT salt where user = user, then check if password = hash(salt+password supplied). Correct? –  barfoon Jun 8 '10 at 16:27
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Yup, there's no requirement to store them in separate columns, as long as both the salt and the final hash are available to you in some way for each user, then it will all work fine. Storing it like "sha256:salt:finalhash" in one column seems to be a popular choice. –  Rich Adams Jun 8 '10 at 16:34
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I would recommend NOT using a fixed length salt. The reason is for future changes. If you use a delimiter, you can detect "old hashes" vs "new hashes" by some identifying factor (say you change the delimiter, etc). So you can store $salt.':'.$hash.':'.$hashFunc to get abc:def:sha1. That way, if later on you ever decide to switch to a longer salt, or change the hash function, you can detect the legacy passwords and "upgrade them" on the fly... –  ircmaxell Jun 8 '10 at 16:41
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Uh, how? User input will never hit the DB unhashed so I don't see the injection attack here. Or did you mean that if you find some other hypothetical injection attack you can read the password hash column and then decrypt the passwords? Aren't there better things you could do with that SQL injection? What password storage scheme would you propose instead? –  Rup Jun 8 '10 at 17:56
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@The Rook: You're assuming the site is susceptible to SQL injection which is a completely separate issue. If the site is open to SQL injection, there are much bigger issues than storing the passwords. If you have access to the DB in any password storage situation, then you'd be able to brute force to get the plaintext. Do you have some method which wouldn't be susceptible to attack given full access to the DB via SQL injection? What exactly are you proposing as an alternative here? –  Rich Adams Jun 8 '10 at 19:02
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The second alternative is the correct one.

Traditionally, the salt is stored alongside with the hashed password, but non encrypted (typically preappended, for example in unix passwords)

Update: the method used in most newer Unix system is this one.

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I think thats the old method for UNIX password storage i'm pretty sure DES is no longer used. –  Rook Jun 8 '10 at 19:58
    
yes, that's the old method and syntax –  leonbloy Jun 8 '10 at 20:22
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The salt has to be stored with the hash for verification to be possible. Best practice would be to use a different salt each time a password is created or changed.

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You store the salt alongside the hash, as David M said. –  TRiG Jun 8 '10 at 16:25
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@The Rook - the point of the salt is that a different dictionary attack needs to be mounted against each password, and pre-calculated attacks can't be used. It is the right advice. –  David M Jun 8 '10 at 20:18
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@David M No, I could not disagree more. Not providing the salt to the attacker is far more secure. You should actually try and break a password hash before talking about it. With John the Ripper you can give it 3 parameters, a dictionary, the salt and the password hash. If the attacker doesn't have the salt, then he can't break the hash. –  Rook Jun 8 '10 at 20:35
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@The Rook - nobody is suggesting providing an attacker with the salt or the hash. The point is, you can't verify a password against the hash without knowing the salt either, so you have to store both the hash and the salt. –  David M Jun 8 '10 at 20:41
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Ultimately, if your back end system can be compromised, any system where password hashes are stored is susceptible to a dictionary attack of some kind. This is why password security is only part of a system's security design, and it is also why strong passwords should be encouraged if not enforced. –  David M Jun 8 '10 at 20:49
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Dynamically changing the salt is a lot more secure than having a one off static salt.

Also make the salts unique per user and not one global salt. Change them every time a user logs in for example.

Concatanating the salt to the end of the password then hashing it is OK, but is an easily guessable formula. Best come up with your own one, i.e. weave the salt and password to create a new string then hash, as md5(password + salt) is vulnerable to dictionary attack still.

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md5(password + salt) as a dictionary attack only works when the attacker knows the salt. If your password database (that lists all the salt+hash combos for every user) is compromised you probably have much bigger problems to worry about. In other words, salt+password or password+salt is perfectly acceptable best practices. –  Dan McDougall Jun 8 '10 at 16:27
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'weaving your own' is security trough obscurity. The security is provided by the hashing algorithm, if they know the input pattern, they still do not know anything of value. –  Jacco Jun 8 '10 at 16:35
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-1 md5 is insecure. –  Rook Jun 8 '10 at 19:58
    
Your solution is security though obscurity. Read Rich's answer its a good one. –  Rook Jun 9 '10 at 8:14
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