I have been looking at upgrading the password hashing security of one of my applications as I have been reading up about brute force attacks being considerably faster then they used to. Currently I am using sha1(md5($password)) and I see the benefits of using bcrypt + salt. My question is, Would it be any more secure if I were to do the following:

Scenario 1:

$password -> sha1 -> bcrypt -> sha1
// This would enable me to keep all existing passwords and just 
// regenerate all the hashes without waiting for the user to re login

Scenario 2:

$password -> bcrypt -> sha1
// I would have to add an extra column for the new hash until every
// user has logged in but the hash will still be sha1.

Would any of these two increase the security of the hash at all? I am no cryptographic master, far from it, I would just like a simple explanation as to if it would work, if not, and why.



After a little more reading, it seems that bcrypt is favoured because of its slowness in that i makes the cpu/gpu work longer before the hash is generated.

In the case of sha1 vs bcrypt, sha1 is roughly 300000 times faster then bcrypt. Which begs the question, if bcrypts advantage is slowness, surely a recursive hashing function which uses sha1 300000 times would be as secure as bcrypt?

I made this function as an example:

function bsha1($data, $salt) {

$hash = $data;

for ($i = 0; $i < 300000; ++$i) {

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


Provide it with a salt and itll return a sha1 hash where every iteration is a hashed hash and salt. This takes approximately the same ammount of time as bcrypt. Would this be as secure?

  • Better off seeding and salting a password before eg: md5(md5(uniqueid/seed).my5(password).md5(now()).md5(seed)) at the end of the day all in your suggestions you're just chain encrypting. and sha1 is easily broken tbh (as is md5 i'm only using it as an example) implemeting a randomness on password generation is the best I do it using the signup date + a seed key for each user + unique userid chain them all together in multiple passes then one master pass. its still chaining encryptiong but for example "password" becomes "1230982348762password89134598712390874" so the length increases – Dave Apr 30 '13 at 11:12
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    @Dave: Please do not suggest to roll your own. Rolling your own leaves you alone. Instead take what has is considered working by the community, that will not leave you alone in case research finds out that some parts are flawed or even broken. – M8R-1jmw5r Apr 30 '13 at 11:26
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    Its not exactly rolling your own its basically doing exactly as robert has suggested. Also FYI the example above is exactly how its done in vbulletin. – Dave Apr 30 '13 at 11:27
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    @Ozzy - One cannot say, that SHA-1 is x-times faster than BCrypt, because BCrypt hash a cost factor, that determines the necessary time. This cost factor is the important point. What you do with iterating is similar, but BCrypt does it better. For example it reuses the salt and the original password in each iteration, and it is built in a way to use more memory, to make it harder to brute force with GPU's. – martinstoeckli Apr 30 '13 at 12:01
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    @Dave - In your example you used MD5 5 times (yes i know it's only an example, but a good one...). With this algorithm we could calculate over 1 Giga hashes per second, that means a whole english dictionary in a fraction of a milli second... With BCrypt you couldn't do that, a senseful value is 1 hash per milli second, so why not use it(?), it's even easier to apply. – martinstoeckli Apr 30 '13 at 13:25

You best upgrade to password_hash().

As it is likely you are not using PHP 5.5 yet (I assume maybe you are already for testing purposes at this time), you can use the PHP userland implementation of password_hash() also written by Ircmaxell for PHP 5.3+.

To upgrade the password hashes on login, you fetch the hash from the database and test first against the new hashing. If it returns FALSE, you test against the old hashing. If that returns TRUE, you re-hash the password with the new new hashing and store it back into the database.

Combining or chaining multiple hashes after each other - and I fear I read that in your question - is a total stupidity you should never consider. Hash algorithms are not compatible to each other and using a hash on a hash that way is doing it wrong: sha1(md5($password)) and the like effectively reduce the output space which makes it easier to attack - something you want prevent in the future.

So take the new password hashing API that there is in PHP and sleep well.

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    In this special case you could even test the beginning of the hash-value with '$2y$', so you would now immediately if the hash was generated with BCrypt. – martinstoeckli Apr 30 '13 at 12:03
  • @martinstoeckli: I'm pretty sure the password_hash API does this already for you, so yes and no :) – M8R-1jmw5r Apr 30 '13 at 12:04
  • I don't totally agree with the "reducing output space" reasoning, but otherwise this is absolutely the best answer. – Peter Elliott Apr 30 '13 at 12:16
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    @PeterElliott: Brute-forcing SHA against MD5 plains works. The more SHA, the better, e.g. SHA2, SHA3. SHA* has always more output bits than MD5 provides as input bits. That effectively reduces the output bits as well, because there is now a limited set of input values compared to the theoretically unrestricted input set the hash has been originally designed for. – M8R-1jmw5r Apr 30 '13 at 12:25
  • @M8R-1jmw5r - Only hash-values created with crypt() (used internally by the API) contain this "header". If you called sha1() directly, the API has no chance to recognize the used algorithm. That's why i wrote "In this special case", the old hash-value does not contain the header, but the OP knows what algorithm was used. – martinstoeckli Apr 30 '13 at 12:54

neither scenario gives you much of a security margin over just bcrypt. That said, bcrypt is absolutely the way to go as far as a hashing algorithm that will resist brute forcing, as with a sufficiently high cost factor, it will take a much longer time to hash than any SHA-based hashing scheme.

Saying all that, Scenario 1 may be the way to go, as you are able to secure your db now instead of piecemeal as users log in. Despite what M8R-1jmw5r says in his/her answer, combining hashing algorithms doesn't give you any extra security, but it also won't really impact your security negatively.


You can use any standard hashing algorithm, but being standard hashing function they can be backtracked and there is a potential security risk.

You better go with any hash functions but combine it with salt with your personal keys. here is link


  • No, you better use a hashing function that is dedicated to password hashing. – M8R-1jmw5r Apr 30 '13 at 11:28
  • yeah right but salt will add some extra security @ M8R-1jmw5r – BK004 Apr 30 '13 at 11:30
  • There is no extra in security. Whenever you pick on the topic (which you should do from time to time), you then need to come to the state of the art, not drop behing. Security is a process, and part of it is staying up-to-date. Better suggest an API that is dedicated to password hashing in PHP, even if it is the one that worked properly already with PHP 3/4. And that is ages ago. – M8R-1jmw5r Apr 30 '13 at 11:32

Short answer is yes it would help. However the long answer is no because SHA-1 and MD5 are just weak hashing algorithms now. It would be better for you to just go with SHA-2 algorithms or even wait a little longer and go directly to SHA-3.

The problem is in the hashing function. Three layers will definitely stop someone, but honestly most of the time one layer is enough to get most people to not even bother. If someone is very intent on getting in I would use SHA-2 at the very least other wise you should be fine with what you have.


Ok so to clarify the above. Using SHA1 with Bcrypt is not necesarilly the best way to go. I would use SHA-2 algorithms with bcrypt instead, this would give you more security than using the SHA-1. Also by layers I mean the Bcrypt is one Hash pass the SHA-1 is one Hash pass the second SHA-1 is another Hash pass. I really don't understand why this is wrong? Sorry for the difference in semantics about the layers.


$Password -> Bcrypt -> SHA-2 or Bcrypt(SHA-2($Password)) Where SHA-2 is one of the SHA-2 family of hashing algorithms.

Code to be more clear than Bcrypt with SHA-2 instead of SHA-1.

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    bcrypt is not a "weak hashing function", and recommending someone use SHA2 over it in a password hashing scheme is a bad idea – Peter Elliott Apr 30 '13 at 11:16
  • @PeterElliott MD5 and SHA-1 are most definitely weak hashing algorithms. which is why they were dropped from being used on the standards for SHA-2 and now going to be SHA-3. So how exactly am I wrong? Also why on earth would using SHA-2 be a bad idea? Do you know of anyone with a supercomputer that can crack the hash? I however, have a computer that is capable of cracking both MD5 and SHA-1. – Nomad101 Apr 30 '13 at 11:18
  • @Nomad101: You are wrong because this is not the known way on how to do password hashing nowadays. Also I wonder if you really understood what the OP asks for so the answer might be misleadingly saying that "hashing a hash would help". I bet you do not think so, however your answer can be read as such. – M8R-1jmw5r Apr 30 '13 at 11:28
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    @Nomad101: What do you mean by using the term Layer in your answer? I could not find any clear reference to it in the domain of cryptographic hashing into which the SHA-* family of hashes fall into. And as you might know, you can bruteforce any hash, the expense is interesting here. You are suggesting hashing algorithms which are designed to work fast. This is the opposite of what you try to achieve for password hashing. – M8R-1jmw5r Apr 30 '13 at 11:39
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    SHA-2 is too fast to be used in a password hashing scheme, as things like bitcoin (which revolves around brute forcing SHA256, essentially) means a lot of research is being poured into doing SHA256 as fast as possible. Hashing algorithms aren't really designed to make passwords secure the way bcrypt is, and it's pretty clear you have no idea how they are supposed to work. – Peter Elliott Apr 30 '13 at 11:41

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