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

I'm reading so much conflicting advice as to how to store passwords securely. All I know for sure is not to use MD5! I've seen people advocate using PHP's bcrypt function, which seems like it'd hog the server's processor. I've seen advocates for salts, and advocates for not using salts.

It's all just so unclear. Is there real and credible advice as to how to store passwords securely?

Edit: After a fair amount of research, I found an article from ;login: that deals with the topic in quite some depth:

share|improve this question
It's all based on opinion. I use just use MD5. Suits my needs. – Steve Robbins Jul 29 '11 at 22:35
The real solution? Don't store passwords. Use OpenID providers. :-) – corsiKa Jul 29 '11 at 22:41
@imoda MD5 has known weaknesses – Matty Jul 29 '11 at 22:43
@TotalFrickinRockstarFromMars (Thanks for making me type that!) An external provider isn't suitable in this case unfortunately. – Matty Jul 29 '11 at 22:43
possible duplicate of Help me make my password storage safe – mercator Jul 29 '11 at 22:57
up vote 6 down vote accepted

Well, there is several parts to this.

  1. You need to try to make it difficult to get to your db and passwords in the first place, keep them secure. This includes not making your passwords cleartext and not using a symmetric encryption algorithm.
  2. You need to use a salt. Doing this prevents people from using a precomputed lookup table (i.e. rainbow table) or something like Pick some data for your salt that is both unique and unpredictable. I usually use a random 32 bit value, but I wouldn't go much less.
  3. Some algorithms are stronger than others. This is defined in a couple ways
    1. How fast it can be computed. Longer is better. The faster the attacker can calculate hashes, the better the odds are for a bruteforce attack.
    2. If the algorithm has no known weakness which reduce the search space. For example, the number of bits in an md5 hash is misleading because there are known attacks that reduce the actual search space

As of today I think SHA1 or SHA2 with a salt is reasonably secure for the near future. There is a utility called bcrypt which uses an asymmetric variant of blowfish and has the concepts of salt and computational expense built-in, it might be worth checking out.

Edit: I wanted to clarify what a salt is, as there is a lot of misconception about it on SO and online.

What a Salt is not

A secret, pre-agreed upon string that you hash with the password. This is a secret key, not a salt.

What a Salt is

You include the salt (unique and unpredictable per hash) along with your password when hashing, but you also include a unencrypted copy of it outside of your hash, so that when verifying the hash later you are able to include the same salt when given a test password before hashing it so you can properly compare the hash.

share|improve this answer
What makes a good salt value? Also, in a nutshell, what is the difference between the SHA algorithms? What makes one preferable over the other? – Matty Jul 29 '11 at 22:52
Good general explanation. However you go on to suggest SHA1/2, which are not designed to be computationally expensive (compare to bycrpt or multiple rounds) -- this is counter to 3.1 above. – user166390 Jul 29 '11 at 22:56
A good salt is both unique and unpredictable. So, in a nutshell, a good salt is a random number with sufficient entropy (essentially length). What is sufficient? Up to you, I usually pick a random 32bit number as a salt. I don't honestly know enough of the math to tell you the difference specifically between SHA1 and SHA2, I'll defer to the other experts on here, hopefully they can help me improve my answer. Perhaps post that question to or maybe I will :) – Josh Jul 29 '11 at 22:58
@pst Using bcrypt - wouldn't this be a performance drag if my application was used by many people in the same shared hosting environment? Not premature optimization, but I just don't want to deliberately build in slow code if there are equal alternatives. – Matty Jul 29 '11 at 23:02
@pst what would you recommend? I have used multiple rounds of sha in the past, although perhaps I should mention that. Also, I do think it really depends on the application. A properly salted SHA2 hash... I don't see that as weak. – Josh Jul 29 '11 at 23:02

The point of bycrpt is to hog the processor! (Relatively speaking.) It is for this reason that it is "better" for password hashing than SHA1/2. (This "better" assumes that the password hashes are already in the hands of the attacker or otherwise exposed; while it would nice if it were not the case, even big corporations have had security compromises.)

This requirement was explicitly considered for bcrypt -- if you can only process 1k hashes a second (still, that's a good bit of log-in attempts), how long will that take an attacker to brute-force? A good bit longer than if they could process 10 million hashes a second! The target attack space of a brute-force that is only of the allowed password input, which is often much smaller -- esp. in practice with "simple passwords" -- than the space of the hash!

And a salt is very much required to avoid rainbow tables which trade time for space :) A rainbow table would effectively need to be created for each unique salt value. (Thus, the more unique salt values, the more space is required and with enough values this becomes impractical for an attacker.)

Happy coding.

share|improve this answer
I understand the utility of bcrypt, and could justify it readily for a desktop app. However, the web app I'm creating is one that would conceivably be used by many different customers on the same shared server. Excessive processor utilization tends to make hosts cranky. Exactly how intensive is it? Does it have a utility in the kind of app I'm writing? – Matty Jul 29 '11 at 23:07
@Matty I am not aware of PHP's implementation/wrapper, but bcrypt is designed to "grow" with performance. It can be configured for a certain cost, where the number of rounds is 6^cost. As far as how it will run on a certain server/load requires testing. In the grand scheme of things, hashing passwords is a cheap and infrequent operation in most cases -- there are so many other things which will be the bottleneck first. – user166390 Jul 29 '11 at 23:10
In this case I might have to shy away from bcrypt :-( – Matty Jul 29 '11 at 23:12
@Matty Why? Have you run a performance analysis to say "it's too slow"? The total cost of an operation is cost * count. For a very small count, any reasonably small cost is marginalized away. – user166390 Jul 29 '11 at 23:13
@Matty ... there will be other problems first :) Like, you know, running PHP. This is premature optimization in a very bad way. – user166390 Jul 29 '11 at 23:17

First of all you need to use a good hash function, I suggest SHA-256. You can create a SHA-256 hash like this:

$hash = hash('sha256', $password);

In addition you could also use salting like this:

$salt = 'salt here';
$hash = hash('sha256', $salt . $password);

Moreover, you can use HMACs, like this:

$secret = 'your secret';
$hmac = hash_hmac('sha256', $password, $secret);

The best way to create solid hashes is through salting and iteration. You should loop the above functions until hashing takes 200ms.

You could also go ahead and use encryption, but that would be a bit overkill for most situations.

share|improve this answer
What makes a good salt value? – Matty Jul 29 '11 at 22:49
randomness..... – Anh Pham Jul 29 '11 at 22:52
You can use GRC to get a salt value. Random ASCII characters will do to keep it simple, any length above 32 bytes will do for SHA-256. – Chris Smith Jul 29 '11 at 22:54
Why would SHA-256 be good for hashing passwords? It is designed to be fast. This is not desired for hashing passwords as it is not significantly computationally expensive. Compare with bcrypt. – user166390 Jul 29 '11 at 22:55
bcrypt is another great option, however with salting and iterations you can achieve equally good results with SHA-256. Obviously both bcrypt and sha-256 are useless if you're designing a nuclear plant, but for a casual website they are more than sufficient. – Chris Smith Jul 29 '11 at 23:04

This is similar to this question: Methods for storing login information in database

Credible advice: Never store your passwords in clear text!

Beyond that you have some choices to make. As I mentioned in the response to the linked question, there are two camps: let some else store your authentication data or do it your self. If you decide to do it your self, then you need to come up with a hashing routine. This should probably include a salting your passwords.

share|improve this answer

You can use sha256. A good thing to do is to add extra information to the password such as username, userid, or some other data to it. This way, if someone hack your database, it will be impossible to use an existant hash database to find the password. They will have to crack the password starting from zero.

share|improve this answer
This is an open source application, so if someone got hold of the database tables, they'd also have access to the source code and would know how the salt is computed. This, I believe, would make the salt pointless. – Matty Jul 29 '11 at 22:53
Why would SHA-256 be good for hashing passwords? It is designed to be fast. This is not desired for hashing passwords as it is not designed to be computationally expensive. Compare with bcrypt. – user166390 Jul 29 '11 at 22:56
Given that, you will need a separate chip on your computer thgat will hold your hashing algo. If you designing a bank website, then it's good idea, but for the normal web dev, it's impossible.also, if the hacked have access to an another database, it will be easy to find the password – darkzangel Jul 29 '11 at 22:57
Salt is still useful even when it is open source. Hashing is kind of lossy, and different text can have same hash. That means there are more than one password you can use to enter the system, and with something like rainbow table it is easy to know other passwords if your hash is unsalted. – tia Jul 29 '11 at 23:02
See… – user166390 Jul 29 '11 at 23:15

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.