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Is the following a good way to salt passwords?

hash('sha256', $_POST['password'], $_POST['email'])

I am using the user email as a salt. Some people do not use emails, some others say to use a random number.

Even if I use a random number then I will still need to store it on my MySQL table, so the salt will still be known anyway, and with the added benefit of using emails is that the possibility of rainbow tables is greatly decreased, even if I was to use a 16-bit integer?

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Also note that this will not work as you expect. The third parameter to hash() is a boolean indicating raw output. Either append the email to the raw password using ., or change the function name to hash_hmac (which is what I would suggest)... –  ircmaxell Apr 17 '11 at 22:53
    
What do you mean bud? I don't understand that at all lol :p –  Basic Apr 17 '11 at 23:31
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You're passing the salt as the third parameter to hash. That parameter is not for salts. Instead, the hash_hmac function can be used (which is designed for combining two strings in a secure way while hashing). To see what I mean, try comparing the output of hash('sha256', 'foo', 'bar'); and hash('sha256', 'foo'). They should be the same. –  ircmaxell Apr 17 '11 at 23:51

5 Answers 5

up vote 8 down vote accepted

The idea behind a salt is to prevent a hacker from using a rainbow table. For instance, if the hacker is able to compromise your database and figure out what the hashed password is he can't easily reverse engineer the hash to find a value that would generate the same hash.

However, there exist tables of already hashed words called rainbow tables. Some people have already gone through the trouble of calculating the hash of every word in the dictionary and other common passwords. If the hacker has one of these tables, plus the hashed password from your database, it makes it very easy to figure out what the password is.

However, a salt changes all that because now, instead of hashing the password, you are hashing the password plus some random value which means that the rainbow table is now useless. It does not matter if the hacker can compromise the salt.

It is perfectly fine to save the salt in clear text. You want to use something that is not uniform across all users either because, again, that defeats the purpose. I personally like to use the timestamp the account was created.

Does that make sense?

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Yes thanks for this, so if I salt it with a timestamp, save the timestamp in the database, then compare? –  Basic Apr 17 '11 at 21:58
    
I've done this. I hash the password with a preset (large) value, then again with the timestamp of the account's creation. –  sudowned Apr 17 '11 at 22:07
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@Basic, you want to use sha256. You gain nothing from using an encryption algorithm that can be decrypted. In fact, you introduce weakness with no gain because if somebody compromises your key, they can access all of your passwords. However, sha256 ensures that even if your database is compromised, user's passwords won't be exposed. –  Chris Thompson Apr 17 '11 at 22:17
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@Christian because the attacker could simply recreate the rainbow table using that salt. It would be time consuming, but not impossible. Using a different salt would require a different rainbow table for each hash which would be very difficult and incredibly more time consuming for the attacker to compromise every password in the database. –  Chris Thompson Apr 17 '11 at 22:20
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Make sure you BACK YOUR DATABASE UP regularly and do verification and validity checks on the backed up data on a regular basis (don't just backup and forget it). If you use a db-stored salt like the signup date, which is a great strategy, just make sure you don't lose it for all your users. :) –  Jared Farrish Apr 17 '11 at 22:23

i suggest using iteration such as below. The crypt could be replaced with md5 or any other hashing algorithm. the 10 could be any number.

$pass=mysql_real_escape_string($_POST['pass']);

$iterations = 10;
$hash = crypt($pass,$salt);
for ($i = 0; $i < $iterations; ++$i)
{
  $password = crypt($hash . $pass,$salt);
}

In addition, you could add any other variable. I hope this solve the problem

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Right now the best possible solution to use in PHP for password hashing is to use the bcrypt (blowfish) implementation. Why? There are several reasons:

  • variable 'work' parameter
  • built-in salt

Keep in mind that if you are not running php 5.3, then crypt_blowfish may not be available on your system.

Work Parameter

Blowfish/crypt is already has an expensive setup time but by setting the work factor you can increase the amount of time it takes to calculate a hash. In addition, you could easily change that work factor in the future as computers get faster and are able to compute hashes more easily. This makes the particular hashing method scale.

Built-in Salt

For me this is just laziness but I like that the salt & pass are stored together.

Implementation

To use blowfish you'd create a hash as follows

// salts must be 22 characters
$salt = "ejv8f0w34903mfsklviwos";

// work factor: 04-31 (string), each increase doubles the processing time.
// 12 takes my current home computer about .3 sec to hash a short string
$work = '12';

// $2a$ tells php to use blowfish
// you end up with a string like '$2a$12$mysalthere22charslong'
$options = '$2a$' . $work . '$' . $salt;

$hashedPass = crypt($plaintext, $options);

To verify a hashed password is simplicity:

if(crypt($user_input, $stored_password) == $stored_password) { echo "valid!"; }

Now, if at any given time you want to increase the work factor you could take the submitted pass after a successfull login, and rehash and save it. Because the work factor is saved along with the salt & password, the change is transparent to the rest of the system.

Edit

There seems to be some confusion in the comments about blowfish being a two way encryption cypher. It is not implemented as such in crypt. bcrypt is an adaptive password hashing algorithm which uses the Blowfish keying schedule, not a symmetric encryption algorithm.

you can read all about it here: http://www.usenix.org/events/usenix99/provos.html

or you can read even more about using bcrypt (the hashing implementation of blowfish) here: http://codahale.com/how-to-safely-store-a-password/

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Everyone is saying use bcrpyt, I think I will as you can change the $work if it is causing overload and vice versa :) Thanks –  Basic Apr 17 '11 at 22:08
    
Blowfish is a cypher, not a hashing algorithm. MD5 is a hashing algorithm. –  Christian Apr 17 '11 at 22:08
    
the password-hashing method used crypt uses an algorithm derived from Blowfish that makes use of the slow key schedule –  Erik Apr 17 '11 at 22:10
1  
Christian you are incorrect. A password hashed with this method is destructive and can not be recovered by any means other then brute force. In fact this same method is used by OpenBSD –  Erik Apr 17 '11 at 22:13
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@christian. You may want to read before you continue this argument. One last time: bbcrypt is an adaptive password hashing algorithm which uses the Blowfish keying schedule, not a symmetric encryption algorithm. Yes blowfish is a cypher. You are correct. Bcrypt is not. I refer to it as "blowfish" only because PHP calls it "CRYPT_BLOWFISH" in their docs. It is not blowfish the encryption algorithm –  Erik Apr 17 '11 at 22:31

You could use this:

$salt='whatever';
$a=hash('sha256', $_POST['password'], $salt);
$b=hash('sha256', $_POST['email'], $salt);
$hash=$a.'-'.$b;

When the user changes the email, just do:

$old_a=substr($old_hash,0,strpos($old_hash,'-'));
$new_b=hash('sha256', $_POST['email'], $salt);
$new_hash=$old_a.'-'.$new_b;
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Don't you just love it when those with a losing argument go on a downvote rampage? –  Christian Apr 17 '11 at 22:33
    
Well, the 'whatever' salt is not random, so that at least is wrong. and there is no explanation about why you, in contradiction to the common practice, choose to add an email address to the hash. –  Jacco Apr 18 '11 at 8:09
    
@Jacco - [1] I assumed that anyone that has half an idea of what salting is about would replace the salt, even if it weren't "whatever" but something random. Ideally, the salt shouldn't be known to the attacker. By the way, the user is more likely to replace "whatever" than something random I entered. Oh and by the way, "whatever" is a good enough salt. No one with a sane mind would be brute forcing salts. [2] Since the OP wanted to add an email to the hash, I did it for him in a usable manner. [3] Just because I don't follow cargo-cult programming, doesn't mean I'm wrong. –  Christian Apr 18 '11 at 9:35
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A salt is random by definition. If it is not random, we call it a key. And no, a constant value is NOT a good enough salt. A more extended writup on salts: stackoverflow.com/questions/1645161/… Also, I don't say you are wrong for deviating from the common best practice, but you should at least explain why you do so. The reference to cargo-cult programming is not necessary, it implies that I do not know the 'why' behind the comment and more or less disqualifies any further discussion. –  Jacco Apr 18 '11 at 10:23
    
@Jacco - Do I really have to go through my reasons again? [1] You lost the meaning of random in that context. Random means something not easily guessable by the attacker. Considering the length is small anyway, "whatever" doesn't make a good salt, but it's not "not a salt" either. [2] You should have bothered with reading the OP's question, rather than resorting to such an argument, should I be blamed if someone doesn't understand the context? –  Christian Apr 18 '11 at 22:57

What happens if a user changes his email address? You won't be able to verify his/her password anymore because the salt value will be gone.

You shouldn't use anything as a salt that is likely to change over time. Generate a random salt (long enough to defeat rainbow tables) and use it together with the password to generate the hash.

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If a user changes his email then when I insert the new email, I just do the same as on account creation. –  Basic Apr 17 '11 at 21:36
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How? Do you store the plain text password to recalculate the hash? –  halfdan Apr 17 '11 at 21:37
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Exactly right about the user changing her email address locking her out. However, using a systemwide salt is less resilient than a per-user salt. With (only) a system-wide salt, I only need to compute one rainbow table. Better to use a per-user random salt, and force me to brute-force passwords one at a time. –  timdev Apr 17 '11 at 21:39
    
Hmm, didn't think of that, it will not be possible to do it then. Thanks for your input, would you advise using a nonce instead and storing that in the database? I have read that you should use a user specific salt per account rather than just one salt for all. –  Basic Apr 17 '11 at 21:39
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Don't EVER define a salt and use it across the entire application - it defeats the purpose of having a salt. A salt needs to be unique per password. –  Erik Apr 17 '11 at 21:44

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