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I have used unsalted md5/sha1 for long time, but as this method isn't really secure (and is getting even less secure as time goes by) I decided to switch to a salted sha512. Furthermore I want to slow the generation of the hash down by using many iterations (e.g. 100).

My question is whether I should append the salt on every iteration or only once at the beginning. Here are the two possible codes:

Append every time:

// some nice big salt
$salt = hash($algorithm, $salt);

// apply $algorithm $runs times for slowdown
while ($runs--) {
    $string = hash($algorithm, $string . $salt, $raw);
}

return $string;

Append once:

// add some nice big salt
$string .= hash($algorithm, $salt);

// apply $algorithm $runs times for slowdown
while ($runs--) {
    $string = hash($algorithm, $string, $raw);
}

return $string;

I first wanted to use the second version (append once) but then found some scripts appending the salt every time.

So, I wonder whether adding it every time adds some strength to the hash. For example, would it be possible that an attacker found some clever way to create a 100timesSha512 function which were way faster than simply executing sha512 100 times?

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5 Answers 5

up vote 45 down vote accepted
+50

In short: Yes. Go with the first example... The hash function can lose entropy if feed back to itself without adding the original data (I can't seem to find a reference now, I'll keep looking).

And for the record, I am in support of hashing multiple times.

A hash that takes 500 ms to generate is not too slow for your server (considering that generating hashes are typically not done the vast majority of requests). However a hash that takes that long will significantly increase the time it will take to generate a rainbow table...

Yes, it does expose a DOS vulnerability, but it also prevents brute force attacks (or at least makes them prohibitively slow). There is absolutely a tradeoff, but to some the benefits exceed the risks...

A reference (more like an overview) to the entire process: Key Strengthening

As for the degenerating collisions, the only source I could find so far is this discussion...

And some more discussion on the topic:

  1. HEKS Proposal
  2. SecurityFocus blog on hashing
  3. A paper on Oracle's Password Hashing Algorithms

And a few more links:

  1. PBKDF2 on WikiPedia
  2. PBKDF2 Standard
  3. A email thread that's applicable
  4. Just Hashing Is Far From Enough Blog Post

There are tons of results. If you want more, Google hash stretching... There's tons of good information out there...

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+1 Don't get why this got a downvote. I would really appreciate if you could find that reference ;) –  NikiC Aug 24 '10 at 18:08
    
+1 for the DoS vulnerability I still think you are recommending a mistake. –  Rook Aug 24 '10 at 18:18
1  
@The Rook: Considering that the vast majority of security papers that I've read from reputable researchers all suggest stretching keys prior to using them (Whether for storage or for encryption). And considering that you need to stretch for PCI compliance, I'm not sure how this is bad advice... –  ircmaxell Aug 24 '10 at 18:22
    
Good information, still think its a terrible trade off. If you look at systems like pbkdf2 you'll see they are only used in cases where the hash is freely given to the attacker like in the case of WinZIP. No one can use this for a web application with more than a handfull of users. Its just a waste of resources. –  Rook Aug 24 '10 at 18:26
5  
@nikic: That's talking about from a brute force perspective (slowing down the attacker). I was talking about from a collision perspective. MD5(MD5(data)) will be a superset of all of the collisions of MD5(data). The degradation is linear, so it's not a significant concern, but it was enough to cause PBKDF2 to be introduced to combat the concern (considering that's the main difference between PBKDF1 and PBKDF2)... –  ircmaxell Aug 24 '10 at 18:40

In addition to re-hashing it multiple times, I would use a different salt for each password/user. Though I think 5000 iterations is a bit too much, try a lower number. There's a trade-off here; you'll have to tweak it according to your needs and hardware.

With different salts for each password, an attacker would be forced to bruteforce each password individually instead of constructing a rainbow table, which increases the workload considerably.

As always, here's a recommended read for this: Just hashing is far from enough

EDIT: Iterative hashing is a perfectly valid tactic. There are trade-offs, but everything has them. If you are worried about computation time, why not just store the plaintext password?

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Hai guise what's going on in here? –  Will Aug 25 '10 at 11:58

Please please please do not roll your own crypto. This is what libraries like OpenSSL are for. Here's few good examples of how you would use it to make salted hashes.

Salted Hashes in OpenSSL

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Using OpenSSL for creating your hashes is pretty much as un-portable as it gets. You only seldom have command line access from PHP and it looks like you need it. Furthermore I don't see why I should not "roll [my] own crypto". I simply assume that a) sha512 is better then sha1 b) salting is good and c) stretching is good. Thus I improve my original sha1-approach in three different ways and I don't see why this shall be bad. –  NikiC Oct 29 '10 at 15:11
1  
How is using a very popular, standard library unportable? Commandline access isn't necessary, as basic crypto functionality is usually wrapped up nicely in function calls of whatever language you need. I wasn't saying to blindly cut'n'paste the commands from the link, I was saying this has been done correctly before, so there's no need to reinvent the wheel, incorrectly at that. –  Marcin Oct 29 '10 at 16:45

The reason for iterative hashing is to make process as slow as possible. So you can do even better: use different salts for each iteration. It can be done by encrypting you original data again and again on each iteration with fixed key and XORing with salt value.

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Could you provide reference why using multiple salts is even better? –  NikiC Oct 29 '10 at 14:31
    
Nothing in academic papers, actually. It's just forces attacker to do one more encryption on each cycle and makes any hash precomputation impossible, since there will be no repeating data at all. –  blaze Nov 1 '10 at 7:51
    
Unique salting does not make precomputation impossible, it simply limits the usefulness of a generated rainbow table to cracking a single hash. –  Ross Charette Jun 25 '11 at 3:06
    
What i meant is partially precomputing hash function itself: initialization and common data block at the beginning. Saving this state you can save a little on each turn. –  blaze Jun 27 '11 at 9:44

I prefer to go with a double sha1 with two different salts and prevent DoS delaying the answer incrementally (with a simple usleep) for every invalid password check.

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1  
I think that exactly by using usleep you make your application DoS vulnerable. PHP is a synchronous, blocking language, thus sleeping will still block the PHP process. This way you could make the server unresponsive by doing far less connections then you would need without the sleep ;) –  NikiC Oct 29 '10 at 14:30
1  
It will not only block PHP with it’s max parallel executions, but also the webserver with its max requests it can handle in parallel (see for example Slowloris; slow requests to bring down apache webservers etc). It's the other way around: usleep helps with brute-force login attacks but even increases the usefulness of it for DoS. –  Kissaki Jan 2 '11 at 3:52

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