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I'm not sure how password hashing works (will be implementing it later), but need to create database schema now.

I'm thinking of limiting passwords to 4-20 characters, but as I understand after encrypting hash string will be of different length.

So, how to store these passwords in the database?

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Also see Openwall's PHP password hashing framework (PHPass). Its portable and hardened against a number of common attacks on user passwords. The guy who wrote the framework (SolarDesigner) is the same guy who wrote John The Ripper and sits as a judge in the Password Hashing Competition. So he knows a thing or two about attacks on passwords. –  jww Oct 12 at 1:33

8 Answers 8

up vote 211 down vote accepted

It depends on the hashing algorithm you use. Hashing always produces a result of the same length, regardless of the input. It is typical to represent the binary hash result in text, as a series of hexadecimal digits. Or you can use the UNHEX() function to reduce a string of hex digits by half.

  • MD5 generates a 128-bit hash value. You can use CHAR(32) or BINARY(16)
  • SHA-1 generates a 160-bit hash value. You can use CHAR(40) or BINARY(20)
  • SHA-224 generates a 224-bit hash value. You can use CHAR(56) or BINARY(28)
  • SHA-256 generates a 256-bit hash value. You can use CHAR(64) or BINARY(32)
  • SHA-384 generates a 384-bit hash value. You can use CHAR(96) or BINARY(48)
  • SHA-512 generates a 512-bit hash value. You can use CHAR(128) or BINARY(64)
  • BCrypt generates an implementation-dependent 448-bit hash value. You might need CHAR(56), CHAR(60), CHAR(76), BINARY(56) or BINARY(60)

NIST recommends using SHA-256 or higher for passwords. Lesser hashing algorithms have their uses, but they are known to be crackable.

You should salt your passwords before applying the hashing function. Salting a password does not affect the length of the hash result.

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@Hippo: Please, don't use the username as the salt. Generate a random salt per user. –  Bill Karwin Sep 15 '10 at 18:38
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Yes, there's no reason not to store it in the same row. Even if an attacker gains access to your database, they'd have to construct their rainbow table based on that salt. And that's just as much work as simply guessing the password. –  Bill Karwin Sep 16 '10 at 7:14
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@SgtPooki: You need another column to store the salt in plaintext. Then you can hash the user's password with the same salt when they type it in, and compare the result to the hash digest stored in the table. –  Bill Karwin Oct 14 '11 at 6:23
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If you're storing the salt in the same table (or any other location with the same access permissions) there's no reason not to use the username as the salt, since it will be unique per user. However, any known salt makes the hash cryptographically weaker than if there were no known salt. A salt only adds value if it is also unknown. –  fijiaaron May 18 '12 at 13:39
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I don't understand the deal with known vs. unknown salt. If you're implementing a site - the salt needs to be known to the login page/script/sevice that's testing the password. So - you "unknown" salt advocates - are you assuming that the code for the login process is unknown to the attacker? Otherwise - won't the attacker always know the salt, whether it's random, unique, stored together with the hashed password or apart? –  mattstuehler Jan 4 '13 at 19:31

You can actually use CHAR(length of hash) to define your datatype for MySQL because each hashing algorithm will always evaluate out to the same number of characters. For example, SHA1 always returns a 40-character hexadecimal number.

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As a fixed length string (VARCHAR(n) or however MySQL calls it). A hash has always a fixed length of for example 12 characters (depending on the hash algorithm you use). So a 20 char password would be reduced to a 12 char hash, and a 4 char password would also yield a 12 char hash.

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You might find this Wikipedia article on salting worthwhile. The idea is to add a set bit of data to randomize your hash value; this will protect your passwords from dictionary attacks if someone gets unauthorized access to the password hashes.

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That is indeed very worthwhile (+1), but it doesn't answer the question! (-1) –  Bill Karwin Oct 29 '08 at 16:59
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Yes, but definitely relevant in this context (+1) –  Treb Oct 29 '08 at 20:37

Hashes are a sequence of bits (128 bits, 160 bits, 256 bits, etc., depending on the algorithm). Your column should be binary-typed, not text/character-typed, if MySQL allows it (SQL Server datatype is binary(n) or varbinary(n)). You should also salt the hashes. Salts may be text or binary, and you will need a corresponding column.

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Justice is completely correct here - MySQL will store these as numerical values and will make searching on this column much more efficient than doing a string match, however salts should not be stored in the database beside the salted data - that eliminates the safety that salts provide. –  Tony Maro Sep 20 '11 at 14:54
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Salts are not secret. The only secret is the password. Just make sure that every new password gets a new salt. Each time the user changes his password, the system should generate a new salt for that password. Salts should be long and random, such as 16 bytes generated from a cryptographically secure PRNG. –  yfeldblum Sep 20 '11 at 15:31

It really depends on the hashing algorithm you're using. The length of the password has little to do with the length of the hash, if I remember correctly. Look up the specs on the hashing algorithm you are using, run a few tests, and truncate just above that.

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for md5 vARCHAR(32) is appropriate. For those using AES better to use varbinary.

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I've always tested to find the MAX string length of an encrypted string and set that as the character length of a VARCHAR type. Depending on how many records you're going to have, it could really help the database size.

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