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I've always used a proper per-entry salt string when hashing passwords for database storage. For my needs, storing the salt in the DB next to the hashed password has always worked fine.

However, some people recommend that the salt be stored separately from the database. Their argument is that if the database is compromised, an attacker can still build a rainbow table taking a particular salt string into account in order to crack one account at a time. If this account has admin privileges, then he may not even need to crack any others.

From a security perspective, is it worth it to store salts in a different place? Consider a web application with the server code and DB on the same machine. If the salts are stored in a flat file on that machine, chances are that if the database is compromised, the salts file will be, too.

Are there any recommended solutions to this?

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If there's a place where you can store the salt that the attacker can't get at, then you should just store the passwords there too. But why not use a different salt for every password? –  jrockway Aug 2 '09 at 21:32
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He is using a different salt for every password, jrockway. –  Amber Aug 2 '09 at 21:33
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How large are your salts? Your salts should be large enough (32 bits?) that there's practically no chance that a rainbow table has been precomputed for it. –  M. Dudley Aug 2 '09 at 22:01
    
@emddudley these days I've been in the habit of using a 64-bit integer as the salt, but there's no reason I can't make them longer. –  friedo Aug 3 '09 at 4:59
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Author of PWDTK here sourceforge.net/projects/pwdtknet , honestly I wouldn't worry and I would just store salt in the same DB as password. You should always assume salt is known to an attacker anyway so your focus should be on using a LARGE CRYPTO-RANDOM salt and performing enough key stretching (iterations in PBKDF2) so that making even one rainbow table for one known salt is infeasible. Honestly what you are trying to achieve by putting the salt elsewhere is "Security by Obscurity" and generally serves no benefit when you look at things such as another server to potentially go down. –  thashiznets May 10 '13 at 3:36

3 Answers 3

up vote 158 down vote accepted

The point of rainbow tables is that they're created in advance and distributed en masse to save calculation time for others - it takes just as long to generate rainbow tables on the fly as it would to just crack the password+salt combination directly (since effectively what's being done when generating rainbow tables is pre-running the calculations for brute-forcing the hash), thus the argument that by knowing the salt someone could "generate a rainbow table" is spurious.

There's no real point in storing salts in a separate file as long as they're on a per-user basis - the point of the salt is simply to make it so that one rainbow table can't break every password in the DB.

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Agreed. The threat model you're protecting against by storing the salt separately is a user who can somehow access the salt in the DB through nefarious means, but not the hash (in the DB). And that that person will start computing a rainbow table in advance, assuming he will be able to find the hash later. Not impossible, but also not worth the engineering effort for defending aginst this single attack avenue. –  Tom Ritter Aug 2 '09 at 21:35
    
Nice post, I was wondering the same thing. I never thought about a salt per user I was thinking that a single salt would work for all users. What about a salt that is stored as an XML file that is loaded by the App Server? or maybe somehow hardcoded into a servlet? –  Jigzat Jul 25 '12 at 2:58
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@Jigzat - Salting is pointless if you don't have a separate salt for each user. The point of salts is to make breaking the hashes a separate task for each user password; if the salt is the same for all of them then that's not the case. –  Amber Jul 28 '12 at 22:17
    
@TomRitter thats not the only case. you assume that all of the passwords are complicated. some attackers may take the salt and hash and check only the 10,000 most common passwords. that way they will get a decent number of people. if, however, they dont have access to the salt, that is akin to the user having a longer more secure password. now, how likely is it that the salt database will stay safe while the password database is stolen is up for debate, but thats a separate issue. –  chacham15 Apr 26 '13 at 22:17
    
@Amber, I believe TomRitter is correct. Storing the salt separately means the difference between forcing an attacker to use a brute force attack versus an easier dictionary attack. If you know the salt, you can just append it during a run of the mill dictionary attack. If you can 100% defend your salt, you can simply use the same salt and force attackers to brute force everything (even for users who use "password" as their password). But can you defend your salt.... probably not. So might as well reduce points of failure by storing it next to the hash and enforce stronger password rules. –  Ultratrunks Nov 11 '13 at 22:28

Often, they are prepended to the hash and stored in the same field.

There is no need to store them separately - the point is to use a random salt for each password so that a single rainbow table can't be used against your entire set of password hashes. With random salts, an attacker must brute-force each hash separately (or compute a rainbow table for all possible salts - vastly more work).

If you had a more secure storage location, it would make sense to just store the hashes there.

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But what happens if all the hashed passwords are leaked including their matching salt? Isn't that just as insecure? –  mghaoui Aug 2 '12 at 13:33
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@mghaoui But then if you wanted to know the "password" you still would have to construct a Rainbow Table for each and every salt, unless some of the salts are the same. –  Franklin Nov 5 '12 at 20:39

I will provide a slightly different take on this.

I always store the salt mixed in with the salted-password hash.

For example, I will place the first half of the salt before the salted-hash of the password, and the last half of the salt after the salted-hash of the password. The application is aware of this design so can fetch this data, and obtain the salt and salted-password hash.

My rationale for this approach:

If the password/hash data is compromised and falls into the hands of an attacker, the attacker will not know what the salt is from looking at the data. This way an attacker cannot practically perform a brute-force attack to obtain a password that matches the hash, since he doesn't know the hash to begin with and has no way to know which parts of the data are parts of the salt, or parts of the salted-password hash (unless he does know your application's authentication logic).

If the salted-password hash is stored as-is, then a brute-force attack can be performed to obtain a password that when salted and hashed produces the same data as the salted-password hash.

However, for example, even if the salted-password hash was stored as-is, but pre-pended with a single random byte, as long as the attacker is unaware that this first byte is to be discarded, this would also increase the difficulty of attack. Your application would know to discard the first byte of the data when used to authenticate your user.

The conclusion to this..

1) Never store the data that your authentication application uses in it's exact form.

2) If possible, keep your authentication logic secret for added security.

Go one step further..

If you cannot keep your application's authentication logic secret - lots of people know how your data is stored in the database. And suppose you have decided to store the salted-password hash mixed in together with the salt, with some of the salt prepending the salted-password hash, and the rest of the salt appending it.

When generating the random salt, you could also randomly decide what proportion of your salt you will store before/after the salted-password hash.

For example, you generate a random salt of 512 bytes. You append the salt to your password, and obtain the SHA-512 hash of your salted-password. You also generate a random integer 200. You then store the first 200 bytes of the salt, followed by the salted-password hash, followed by the remainder of the salt.

When authenticating a user's password input, your application will pass over the string, and assume the first 1 byte of the data is the first 1 byte of the salt, followed by the salted-hash. This pass will fail. The application will continue by using the first 2 bytes of the data as the first 2 bytes of the salt, and repeat until a positive result is found after using the first 200 bytes as the first 200 bytes of the salt. If the password is wrong, the application will continue to try all permutations until none are found.

The pros of this approach:

Increased security - even if your authentication logic is known, the exact logic is unknown at compile-time. It is practically impossible to perform a brute-force attack, even with knowledge of the exact logic. Increased lengths of salt will increase security further.

The cons of this approach:

Since the exact logic is inferred at run-time, this approach is very CPU-intensive. The longer the length of the salt, the more CPU-intensive this approach becomes.

Authenticating incorrect passwords will involve the highest CPU cost. This can be counter-productive to legitimate requests, but increases security against attackers.

This approach can be implemented in various ways, and can be made even more secure by using variable-width salts and/or salted-password hashes.

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With your approach you are just adding a secret to your hashing process (the algorithm that applies the salt). This secret you can add much easier with adding a pepper additionally to the salt, i tried to point this out in my tutorial. Modern hash functions like BCrypt will apply the salt on their own, using the original salt in each iteration, so you would have no control over this anyway. –  martinstoeckli May 13 '13 at 7:53
    
@martinstoeckli While you are correct that BCrypt applies the salt on their own, the storage of that salt+hash is up to you as the developer. So, you could easily add a pepper to the salt+hash and persist it to the database. Then, on subsequent retrieval, you read the value from the database, strip the pepper value, and pass the remaining value to BCrypt. –  PeterToTheThird May 29 '13 at 18:27
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@PeterToTheThird - This would negate the advantage of the pepper. The pepper adds a server side secret, and only works as long as it stays secret (opposite to the salt). A typical attack is SQL-injection, when someone gains access to the database but not to the code, a pepper stored in the database will be useless then. Most BCrypt implementations will add the salt automatically to the resulting hash-value, so this value already contains the salt, the cost factor, the algorithm and the hash. This string can be stored in a single field of 60 characters length. –  martinstoeckli May 30 '13 at 6:56
    
To add, when using a "key strengthening" function such as BCrypt, you don't have control over usage of the salt. However, if you wanted to use a pepper you'd just append the pepper to the salt, and use that as a "peppered salt" in place of the "salt" input to the hashing function. The "pepper" then is a suitable piece of data that is not stored in the database, but embedded in the authentication code, or stored in another secure location. I approached the problem from a generic perspective, using SHA-512 as an example function, but BCrypt etc. can also be used in a similar way. –  Ibraheem May 30 '13 at 16:49
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@martinstoeckli - yes, the actual implementation depends on which hash function you use. Obviously you need to take the parameters and outputs of the hash function into consideration when implementing your authentication logic. Ultimately, a pepper is just another variable introduced into your hashing function, that is not stored in the same location as the salt and hash. –  Ibraheem May 31 '13 at 12:53

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