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According to the [early] doc pages of the new PHP 5.5 password hashing/encrypting API the used algorithm CRYPT_BLOWFISH is "strongest algorithm currently supported by PHP" (please do a full text search to find the quote on the page).

My question is: Can this be proven with some numbers, benchmarks etc. ?

According to the PHP's crypt() doc page CRYPT_BLOWFISH uses 22 char salt and generates a 60 char hash, and CRYPT_SHA512 uses a 16 char salt and generates a 118 char hash. Both algorithms have changeable cost factors, so at first view, SHA512 looks stronger (because longer).

UPDATE: As this question has been closed and I was kindly asked to move this to security.stackexchange.com, here's the link.

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closed as off topic by Fabrício Matté, Cfreak, Dagon, Juhana, M42 May 24 '13 at 7:18

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SHA512 is designed to be fast. –  SLaks May 24 '13 at 1:18
    
@phpNoOb What ? No. I just said SHA512 is listed as the longest hash in the crypt() docs, and recommended by a lot of tutorials etc., so if security experts say so, i believe them ;) –  Panique May 24 '13 at 1:26
    
@Panique: actually, people recommend scrypt due to its GPU-resistance. –  Sébastien Renauld May 24 '13 at 1:28
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@SLaks You're confusing SHA512 hash with Crypt/SHA512 password hashing algorithm. One builds on the other but they're very different in terms of strength –  LexLythius May 24 '13 at 1:37
1  
This would possibly fit security.stackexchange.com better. –  Juhana May 24 '13 at 5:23
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2 Answers

up vote 5 down vote accepted

The key difference I think is that Crypt/Blowfish uses exponential key stretching. Every additional rounds doubles the time to compute. Also, as each round depends on the results of the other it's not easily paralellizable to be computed by GPUs (CUDA etc). This radically affects the viability of a brute force attack.

Salt length is not that important beyond 8 characters or so. Any of those will render rainbow tables non-feasible.

A benchmark I did myself indicates that a single BCrypt(10) is computationally more costly than Crypt/SHA512 with default 5000 rounds:

crypt-blowfish : $2a$10$usesomesillystringforeYRrmbU.5AgmgdJEjfEDkxfL4uBOCS2e
time:     99.51 ms
crypt-sha256   : $5$rounds=5000$usesomesillystri$AjLOwdtg3gIlwN4ppfvzX5qnf9gTVIvFTcmLPvZu4vA
time:      6.48 ms
crypt-sha512   : $6$rounds=5000$usesomesillystri$5WxXV00Jv1lKssvR375aHSbVfBNbxuKpQx0oQSArCRfoC4IDPBd55jdlRyNa/zsrYE6EJKIQd6sNKKxhyHOne0
time:      5.38 ms

One note about BCrypt on PHP: older implementations had non-ASCII character encoding issues that made weak keys when using those, which is why different headers exists ($2a, $2x, $2y), as you can see in the same doc page you provided. I think that those new headers are not portable to other implementations (Java, etc) out of the box, which might or might not be an issue for you.

EDIT: On comparing different algorithms

@CodesInChaos Actually, we're not comparing hashes. We're comparing password hashing algorithms. Basically you have three dimensions here:

  1. Whether exhausting the algorithm's bitspace (BCrypt: 224; Crypt/SHA512: 512) is feasible. In both cases, it is not feasible in the foreseeable future.
  2. Whether you may use precomputed rainbow tables to avoid brute-forcing. In both cases, salts flunk this attack.
  3. The time needed to compute one hash with each algorithm.

The difference between BCrypt and Crypt/SHA512 is in dimension 3. For now, both are good enough. However, BCrypt doubles key setup time with each round (quadratical stretching) and can go from 4 to 31 rounds. By comparison, Crypt/SHA512 stretches linearly and goes from 500 to 999999 rounds.

To show the difference in real numbers, here are the updated benchmarks pitching BCrypt**16 (halfway its stretching powers) versus Crypt/SHA512*999999 (as far as it will go):

crypt-blowfish : $2a$16$usesomesillystringforeVIIGzCGBb4DEyZrf/gSQ8p6KfsJo1QC
time:   6177.93 ms
crypt-sha512   : $6$rounds=999999$usesomesillystri$CG0t82EPyiL56ib2zIHbjpBZrd6skT//OwFVEEts9JWj15oFuMbHVIAWyfqDOJi5QxsD9.6UwZgyDaIvA7NNa/
time:   1052.87 ms

As you can see, BCrypt takes almost 6 times as much to compute and still has a lot more to go.

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Killer answer ! Merci ! –  Panique May 24 '13 at 1:35
    
Can you please add the third time log ? You have 3 algorithms in your example, but only 2 time logs. –  Panique May 24 '13 at 1:40
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There you are :) –  LexLythius May 24 '13 at 2:01
    
This isn't really a fair comparison. You're only comparing how expensive default parameters were chosen, not how good the hash is. You need to compare different hashes where you tuned the cost factor so their runtime on the defender's PC is the same. –  CodesInChaos May 25 '13 at 22:23
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@CodesInChaos see edit. –  LexLythius May 25 '13 at 22:58
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This would be a better fit for Security StackExchange. However, I'll provide a stub of an answer: because something is longer does not mean it is better. Sure, those extra bits of entropy can come in handy, but when you have an algorithm that:

  • has fewer rounds
  • can be CUDA-ed
  • sometimes has vulnerabilities (think MD5)

You're better off picking something shorter, but made to be penetration-resistant.

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Crypt/SHA512 is also designed to be penetration-resistant. For example, Ubuntu Linux 10.04+ uses Crypt/SHA512 with default 5000 rounds of stretching as its vanilla password hashing algorithm. But I agree with you that BCrypt is better. –  LexLythius May 24 '13 at 1:31
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