Yes.
What you're doing here is known as key stretching and it multiplies the time an attacker has to take to check each candidate password against a hash. In your example, it increases the time by 4000x. The specific threat you are protecting against here is when an attacker gets hold of your hashes (such as what happened with LinkedIn, Last.fm and eHarmony recently) and can devote as much CPU power as he can afford to cracking them.
Rather than rolling your own, if this is anything other than a research project, you should use a well-known and publicly tested function like bcrypt()
, PBKDF2()
or scrypt()
.
The number in that loop should be much higher than 4000 and since your attacker will be using a C loop rather than a PHP loop, you won't be able to do as many in a reasonable time as he will. Even in a PHP loop, I can do 500,000 in 0.3 seconds. The above hashing algorithms solve this problem since they will be implemented in C. (Not all of them may be available in PHP.) It seems bcrypt
is in 5.3 but it's called CRYPT_BLOWFISH
. Details on how to use it are on the crypt() page.
hash_hmac()
is not a more secure hashing algorithm but rather is used for a different purpose. See the end of Thomas' answer here. Algorithms like MD5
and the SHA
family are general purpose hashing algorithms that are normally used as part of a more specific algorithm for a particular purpose. For instance, some of the above password hashing algorithms use general purpose hashing algorithms many times. has_hmac()
asks you which general purpose hashing algorithm you would like to use.