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Is there any advantage to

sha1(sha1(sha1($password. $salt)));

Basically having multiple sha1 verses just one sha1

sha1($password. $salt);
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if your $salt is strong, longer and a random mix of characters, the later should suffice. basically, the later is only vulnerable if someone has compiled rainbow tables with your salt, which is next to none, if your $salt is strong enough, e.g. 12@!(*E&HD*&@#HE!_)UDJNuyhdsbq897cuddaadn*&BD#NXUHSD8uyahs... using multiple sha1 is just a bit more secure in my opinion. –  Stoic Jan 20 '11 at 2:23
    
Thanks. I am using a strong salt. –  Jason Jan 20 '11 at 2:38
    
Related Question with some good information and conversation: Many Hash Iterations, append salt every time? –  ircmaxell Jan 20 '11 at 3:15

4 Answers 4

up vote 8 down vote accepted

Do not, I repeat, DO NOT attempt to make your password hash safer by doing "special" things do your hash.

First of all, sha1(sha1(sha1($input))) only has for side effect to increase the chance of collision* on each iteration. Increasing the chance of collisions is a very bad thing.

Instead of trying your hand at do-it-yourself cryptology, why not trust libraries made by actual experts in the field? Use the Portable PHP password hashing framework.

PHPass actually uses bcrypt, which is an algorithm designed to prevent rainbow table, dictionary and brute force attacks. You can initialize it with a number of rounds: the higher the rounds, the longer it takes to compute the hash. That way, you can create stronger hashes if processing power increases.


* The first call to sha1() takes infinite input and creates one out of 2160 outputs. The second iteration takes 2160 inputs and creates one out of x outputs, where x <= 2160. The third iteration takes x input and creates one out of y outputs, where y <= x <= 2160.

Why does each call to sha1() reduces the amount of possible outputs? Because the algorithm behind sha1() was not designed for one-to-one matching of the hashes. Theoretically, you are bound to have collisions if you were to hash every possible hash.

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phpAss itself hashes using multiple iterations (just take a peek at the very first method), this is a good security practice. –  Alix Axel Jan 20 '11 at 3:04
1  
This. Very much this. +1 from me. And that's a very interesting library.... –  ircmaxell Jan 20 '11 at 3:05
    
@Alex Axel: In portable mode, yes it does. BUT, it always rehashes the previous hash concatenated with the password ( sha1($hash . $password) ), keeping possible inputs to infinite therefore not increasing the chance of collision... Usually, $password is the only source of infinite input unless you are using a per-hash $salt. –  Andrew Moore Jan 20 '11 at 3:08
    
@Andrew Moore: There is a fallacy in your argument, bcrypt has similar chances of collisions as sha1 - both are rehashed multiple times. –  Alix Axel Jan 20 '11 at 3:10
1  
@Alix: no. calling sha1(...sha1($f00)) will have a degenerating number of collisions. To see why, let's name it A(B(C($foo))). Now, we know C will have collisions since infinity > 2^256. So all collisions for C automatically become collisions for both A and B since the input isn't modified. The same goes for B and A`. So the total collisions are much more than for C alone. But, if you did A(B(C($foo) . $foo) . $foo), it'd have the exact same number of collisions as C... –  ircmaxell Jan 20 '11 at 3:14

The short answer is no. When you chain two hash algorithms, all you're doing is creating another hash algorithm that has unknown properties (security-wise). Use a salt (or even better, HMAC).

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Yes, this is called key strengthening (but is normally done thousands of times) and the salt should be appended on every iteration for better entropy:

$hash = sha1($password . $salt);

for ($i = 1; $i <= 65000; ++$i)
{
    $hash = sha1($hash . $salt);
}

Also, read this awesome blog post - or at least this short quote:

The better you can optimize your password hash function, the faster your password hash function gets, the weaker your scheme is. MD5 and SHA1, even conventional block ciphers like DES, are designed to be fast. MD5, SHA1, and DES are weak password hashes. On modern CPUs, raw crypto building blocks like DES and MD5 can be bitsliced, vectorized, and parallelized to make password searches lightning fast. Game-over FPGA implementations cost only hundreds of dollars.

Using raw hash functions to authenticate passwords is as naive as using unsalted hash functions. Don’t.

What is the state of the art here?

First, what your operating system already gives you: a password scheme “optimized” to be computationally expensive. The most famous of these is PHK’s FreeBSD MD5 scheme.

The difference between PHK’s scheme and the one you were about to use for your social shopping cart 2.0 application is simple. You were just going to run MD5 on a salt and a password and store the hash. PHK runs MD5 for thousands of iterations. That’s called “stretching”.

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Always re-introduce as much information into each hash cycle as possible. I'd suggest adding the password to the inner sha1 call as well. See this answer for more information. Also see the PBKDF2 Standard for key-stretching –  ircmaxell Jan 20 '11 at 3:07
    
Don't use sha1($hash . $salt) unless $salt changes on every hash generation. If it doesn't, you are increasing your chances of collisions for the same reason stated in my answer. –  Andrew Moore Jan 20 '11 at 3:11

The more times it has to go through the hashing process, the longer it takes to hash, and the fewer attempts an attacker will get per day. If hashing it once takes 10ms, and hashing it a ten times takes 100ms, then an attacker can attempt 6000 passwords per minute with hashing it once, and 600 per minute with hashing it ten times. Of course, with a web application, trying to brute force at either 6000 or 600 per minute is essentially a DOS attack. Cryptographic hashes tend to take a while to do for this purpose, and it's also common to hash multiple times.

You should probably use sha512 instead of sha1, which you can do with hash() like hash('sha512',$stringtobehashed);, sha512 also takes approximately 5 times longer than sha1 to hash.

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That's assuming that it's running on one core with no parallelism. It could in theory be running on many cores (12 core systems are common, with GPUs having tons more). Not to mention that more than one hash can be run at a time using pipelining, so the real number is likely far higher than 6k passwords per minute (I'd be surprised if a decent piece of hardware couldn't hit 100k per minute or more)... –  ircmaxell Jan 20 '11 at 4:03

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