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I am updating my helper functions library. I am wondering whether it is too much of salt in the password encryption?

Is there any difference between:

mb_substr(sha1($str . AY_HASH), 5, 10) . mb_substr(sha1(AY_HASH . sha1($str . AY_HASH)), 5, 10) . mb_substr(md5($str . AY_HASH), 5, 10)

and simply:

sha1(AY_HASH . sha1($str . AY_HASH))

AY_HASH being the salt. Which should I prefer and if neither is good, what is the best alternative?

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You are aware of this magic tool called blowfish crypt which, in addition to being adaptive, uses a different salt for each password, right? –  Denis Jun 29 '11 at 10:44

2 Answers 2

up vote 5 down vote accepted

A salt should be generated for each password, not a secret string used on every password. Re-using a salt means that the attacker will only need to create one rainbow table for every password instead of one per password.

I invite you to read a previous answer I wrote on secure hashing. The rules are simple:

  • Do NOT use a single salt for all passwords. Use a randomly generated salt per password.
  • Do NOT rehash an unmodified hash (collision issue, see my previous answer, you need infinite input for hashing).
  • Do NOT attempt to create your own hashing algorithm or mix-matching algorithms into a complex operation.
  • If stuck with broken/unsecure/fast hash primitives, use key strengthening. This increases the time required for the attacker to compute a rainbow table. Example:

function strong_hash($input, $salt = null, $algo = 'sha512', $rounds = 20000) {
  if($salt === null) {
    $salt = crypto_random_bytes(16);
  } else {
    $salt = pack('H*', substr($salt, 0, 32));
  }

  $hash = hash($algo, $salt . $input);

  for($i = 0; $i < $rounds; $i++) {
    // $input is appended to $hash in order to create
    // infinite input.
    $hash = hash($algo, $hash . $input);
  }

  // Return salt and hash. To verify, simply
  // passed stored hash as second parameter.
  return bin2hex($salt) . $hash;
}

function crypto_random_bytes($count) {
  static $randomState = null;

  $bytes = '';

  if(function_exists('openssl_random_pseudo_bytes') &&
      (strtoupper(substr(PHP_OS, 0, 3)) !== 'WIN')) { // OpenSSL slow on Win
    $bytes = openssl_random_pseudo_bytes($count);
  }

  if($bytes === '' && is_readable('/dev/urandom') &&
     ($hRand = @fopen('/dev/urandom', 'rb')) !== FALSE) {
    $bytes = fread($hRand, $count);
    fclose($hRand);
  }

  if(strlen($bytes) < $count) {
    $bytes = '';

    if($randomState === null) {
      $randomState = microtime();
      if(function_exists('getmypid')) {
        $randomState .= getmypid();
      }
    }

    for($i = 0; $i < $count; $i += 16) {
      $randomState = md5(microtime() . $randomState);

      if (PHP_VERSION >= '5') {
        $bytes .= md5($randomState, true);
      } else {
        $bytes .= pack('H*', md5($randomState));
      }
    }

    $bytes = substr($bytes, 0, $count);
  }

  return $bytes;
}

If anything however, you should use bcrypt, which is future-adaptable. Again, I invite you to my previous answer for a more detailed example.

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What exactly is the driver for using a random salt ? In order to check password correctness you have to save it in relation. The oone and only attack vector against hashes is that someone has access to the database ... where he can read the related salt as well ... ! So maybe im something missing but as far as i know the only advantage of salting is that someone may not compare the database dump against a rainbow table. Pls enlighten me. –  fyr Jun 29 '11 at 10:50
1  
@fyr: A salt requires the attacker to generate a rainbow table tailored to that specific salt. While generating a rainbow table is costly, if you reuse the same salt for each password, the attacker only has to generate one table to crack all your passwords. However, if you generate a random salt per password, the attacker needs to generate a rainbow table for each and every password he wants to crack (instead of cracking all your passwords with one table only). Key strengthening increases the time required for the attacker to generate a rainbow table. –  Andrew Moore Jun 29 '11 at 10:52
1  
@fyr, if each user gets their own salt, then an attacker cannot compute a table with the one fixed salt for the entire site. It'll be twice as hard to brute-force crack a password for two users if each user has their own salt. Ten thousand times harder if you have ten thousand different salts. It's so cheap to randomly generate salts, there's no reason not to. –  sarnold Jun 29 '11 at 10:54
    
Thats correct, the attacker gains access to the salt. But now he needs to compute a rainbow table for each salt, and if you use a unique salt then he has to do it for each user. –  bdares Jun 29 '11 at 10:55
1  
@fyr: You are the one who is wrong. If you use a single salt, your salt is also subject to a rainbow table attack. The attacker simply has to register. Then, knowing his own password and retrieving the hashed version, he can generate a table to find the proper salt. –  Andrew Moore Jun 29 '11 at 11:00

There is no difference. Assuming the salt is unique to each user what you want to do is hash multiple times (usually 1000~10000 times). This strengthens the hash by the number of times you iterate the hash.

It should be noted that once an attacker has access to your password digests its simply a matter of time and you should use that time to invalidate your user base's permissions and notify your users of the breach.

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-1: There is a big difference. The first one mix-matches two algorithms which creates an hash of unknown properties. This is extremely bad security-wise. As long as you maintain infinite input, rehashing using the same algorithm will always produce a hash with known properties. However, you shouldn't mix-match different algorithms. –  Andrew Moore Jun 29 '11 at 10:48
    
Look again, hes running sha1 twice, not mixing hash functions. Eh nevermind the first line got truncated on my phone display.. –  bdares Jun 29 '11 at 10:53
    
Scroll right in the first sample... He's using md5() as well. –  Andrew Moore Jun 29 '11 at 10:54

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