Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

How strong do salts need to be?

At the moment I use this function to generate a "unique" salt upon user registration:

$salt = substr(str_shuffle('0123456789abcdefghijklmnopqrstuvwxyz'), 0, 12);

I then hash it with sha1 along with the password.

What do you think?

PS. I'm not planning on getting MySpace big.

share|improve this question
That's the standard approach. What are you asking? Are you asking if you don't have to use the standard approach? – S.Lott Jan 3 '10 at 17:42
Shuffling the string is not as strong as generating a 12 character string from the same alphabet allowing for some repetitions. But it is likely good enough for most practical purposes. The goal of the salt is to make the attacker work harder - the number of distinct values the salt can take controls how much harder. – Jonathan Leffler Jan 3 '10 at 18:00
up vote 1 down vote accepted

The purpose of random salts is to ensure that a simple rainbow table won't work to decrypt the passwords, should the database table be leaked. If each record has its own salt, a new rainbow table would be needed for every single row.

Your shuffling approach is fine. The main point is for the salts to be DIFFERENT for each record, so that a single rainbow table won't compromise the whole table of passwords. The "strength" of the salts isn't as important.

share|improve this answer

When it comes to security it's not really an issue of how strong your salt is, it's an issue of how computationally expensive the hashing function is. SHA1 and MD5 are cheap. If you're going to stick with fast (weak) hashing functions - and this may be perfectly acceptable for small sites, I don't mean to imply otherwise - then I wouldn't worry about just how cryptographically-random the salt is. As long as it's random, it'll serve its purpose of eliminating precisely one attack vector (rainbow tables).

share|improve this answer

The method of shuffling characters and taking the first 12 is equivalent to picking (without repetitions) 12 characters when the order matters. You have 36!/(36-12)! ~~ 2^59 possible ways of doing this.

If you pick all 12 elements (with possible repetitions) from the set of 36 letters, there are 36^12 ~~2^62 possible ways of doing it.

So in the method you used you end up with around 59 bits of entropy. I would say it's sufficient for any application and gives only 8 times less combinations that picking elements with repetitions.

share|improve this answer

How strong a salt is all depends on how worried you are about security. You could simply salt it with the username (not very strong,) or you could generate a unique salt for each user, as you did.

If you're really worried, you could also create an encryption key, and encrypt each of these.

The more you add to it, the stronger it will, be, obviously. It's all just how worried about security you are.

You could try adding some special characters to that salt and it would be a lot stronger.

share|improve this answer

Salt lengths of 12 characters or more are difficult to crack but you can easily make your salts stronger by using other characters too i.e. upper case letters and special characters.

You are already salting your hash and ensuring each record has it's own individual salt which is very important.

share|improve this answer
Ah, I remember that gongshow of a blog post - the most useful information in it is the link to matasano at the end which he added as an update. – Aaronaught Jan 3 '10 at 17:57
Yes, it's a very long post for something that can be avoided by simply salting. – Jon Winstanley Jan 3 '10 at 18:41

Any sufficiently random salt is strong "enough". The more randomness and more characters your salt has, the better for the hash, but anything that's several characters long and random works.

Here's some interesting links on password security:

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.