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After knowing that hashing a password is my choice for making a login form. Now I am facing another issue - sha1, sha256 or sha512?

This is a standard method using salt I think I got it from a reference book of mine,

# create a salt using the current timestamp
$salt = time();

# encrypt the password and salt with SHA1
$usr_password = sha1($usr_password.$salt);

but then after I have done some research on sha1, I learned that it may not be secure in the future, suggesting using hash().

But I don't quite understand using hash() - for instance -

$usr_password = hash('sha256', $usr_password); 

What is 'sha256' or 'sha512' which I found here?

Can I put anything instead, like '@123'?

Why is it called salt anyway - $salt = time(); is nothing else but just a unix timestamp isn't it?


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A good salt makes everything taste better. A combination of time() and mt_rand() is good. –  uınbɐɥs Sep 4 '12 at 20:52
Times goes by and once good valid answers become outdated. Please be careful reading the answers to this question, you need a slow hash algorithm with a cost factor, so you can control the necessary time to calculate a hash-value. A future proof PHP function is password_hash(). –  martinstoeckli Jun 17 '14 at 6:56
Also see Openwall's Portable PHP password hashing framework (PHPass). Its hardened against a number of common attacks on user passwords. –  jww Oct 11 '14 at 23:36

14 Answers 14

up vote 51 down vote accepted

You should use SHA-2 as flaws have been found in SHA-1.

SHA-2 has different types. The bit values you state (eg 256 and 512) are the more popular ones. Either one should be good for password hashing. However, SHA-512 can be preferred if the time it takes to hash is not an issue.

You want to salt hashes as someone may use rainbow tables to look them up. As you know, hash values will always have the same value for the same input. If your users use a short password, it would be easy to test all of the combinations.

You should pick a salt and it should always stay constant. You can use a time value (a unix timestamp, the number of seconds since 1970) to come up with your salt. I'd also suggest adding a few more random characters. You then use the salt everywhere you use the password. The salt serves to make even short passwords long (secure).

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Naughty. Never reuse a salt. Never choose a predictable salt (e.g. from a timestamp). A salt should always be as random as you can get, and used only once. If you salt 350 different passwords, you should have 350 different salts. If someone changes their password 293 times, you should generate 293 salts, one for each password. –  Slartibartfast Oct 10 '10 at 6:44
So, if the hackers get into my db, they also have the salts? What good are they then? –  Skalli Apr 25 '12 at 19:54
@Skalli using a salt means that you can't use rainbow tables (pre-generated list of hashes) to quickly crack all the passwords in your database. If you use salt, I'd need to generate such a table for each password, which is completely impractical. It also means that if multiple users use the same password, the hashes will be different. –  Cocowalla May 16 '12 at 13:07
@Cocowalla: I know what salts are for. I use them myself, but if I store the salt in the same table as the password hash, the cracker can use a password list, combine it with the salt and compare the hashes. Depending on the hash algorythm, it's not as useful as using a hash which is not stored in the database, because to crack the passwords, the cracker needs access to my system, and not only my database. –  Skalli May 16 '12 at 16:16
Look guys... use a system wide pre-salt, long, cryptographically random (I prefer random.org), and stored in a file, stored in a folder that is only reachable through localhost. Call that $globalSalt. Generate a unique random salt for each new password, call it $localSalt, and store it in the db. The salt that you actually use for storing the password is actually $localSalt encrypted with $globalSalt as the salt. This way, each salt is unique, and the db stores the information that you need to authenticate the password for a client, but not enough for a hacker to actually break the hash. –  Steve Aug 1 '13 at 17:19

Do not write your own password-hashing function! Leave this to seasoned cryptographers. Cryptography is hard to get right. Security is hard to get right.

SHA1, SHA256 and SHA512 are message digests, not password-hashing functions.

Currently, the only standard (as in sanctioned by NIST) password hashing or key-derivation function is PBKDF2. Other reasonable choices, if using a standard is not required, are bcrypt and the newer scrypt. Wikipedia has pages for all three functions:

Switching from SHA1 to SHA256 or SHA512 will not improve the security of the construction so much. Computing a SHA256 or SHA512 hash is very fast. An attacker with common hardware could still try tens of millions (with a single CPU) or even billions (with a single GPU) of hashes per second. Good password hashing functions include a work factor to slow down attackers.

Here's another weakness in the above scheme: an attacker can precompute a password hash once and reuse it for every entry in the password file or database. Once the precomputation is done, computing the hashes for these passwords with a given salt value is trivial, because message digests work incrementally. Thus, the precomputations for $password can be reused to compute the hash for $password.$salt for every value of $salt in the password file.

Here are some suggestions for PHP programmers: first, read the PHP FAQ: http://php.net/manual/en/faq.passwords.php and then use crypt() or PHPPASS: http://www.openwall.com/phpass/.

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you warned them, mate! ;) –  Anze Jan 28 '14 at 20:56
Can't agree more with Erwan, this article also explains better on a light note securityfocus.com/blogs/262 –  Edwin M Feb 7 '14 at 12:38

The accepted answer here is bad advice, and all the discussion related to storing the salt vs not storing the salt is silly.

You need to use a slow hash algorithm such as pbkdf2, or bcrypt, or scrypt for the hashing. SHA 256 or 512 is inappropriate for hashing passwords.

Regarding the salt and store vs not/store: There is simply no reason not to store the salt next to the password hash. The salt must absolutely be different for every user, but keeping it secret is of no meaningful value. Coming up with some convoluted algorithm for recreating a salt is at best a waste of time.

Store the salt, this is how it's supposed to be done.

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"There is simply no reason not to store the hash next to the password" — Do you mean "next to the salt"? –  Todd Lehman Jun 16 '14 at 23:13
@ToddLehman I fixed it. Thanks for pointing it out. –  Erick Jun 17 '14 at 4:57

sha-256 is more secure than than sha1. It belongs to the family known as SHA-2.

In 2005, security flaws were identified in SHA-1, namely that a mathematical weakness might exist, indicating that a stronger hash function would be desirable. Although SHA-2 bears some similarity to the SHA-1 algorithm, these attacks have not been successfully extended to SHA-2.

However for hashing passwords I would recommend using bcrypt. The SHA hashing functions were not designed for securing passwords and should not be used for this purpose.

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I believe sha-2 refers the family of hashes sha-224, sha-256, sha-384, and sha-512 –  GregS Oct 9 '10 at 20:43
There's also scrypt, though that is a bit overkill for a system with a lot of users (relatively high compute cost, bordering too high) –  Tracker1 Nov 13 '13 at 6:39

For passwords you should use bcrypt, because it has a cost factor. SHA is not designed for passwords.

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See Comparison of SHA functions: SHA-256 and SHA-512 are newer versions of the algorithm with larger hash sizes compared to SHA-1, and hence believed to be more secure.

The salt is just an additional piece of random data that is added to the original string in order to make attacks even more difficult. Even if two people have the same password, for example, but different salts, the hashes will be different. Using $salt = time() makes it reasonably random because the time keeps changing, but if you want even better security, consider using a random number generator such as mt_rand. More about salts at Wikipedia.

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The main reason you want your hashes to be different, is that otherwise people can reverse-crack hashes with so called Rainbow-tables. The original password belonging to a Sha1, MD5 and such, hash, are hard to find: with pure computer power it is possible. However, simply generating a list of all words known (and its variation) and creating a hash for each such word is is simple. Resulting in so called rainbow-tables where one can look up the password that goes with an (unsalted!) hash. –  berkes Oct 9 '10 at 19:09

PHP's sha1 function does what it says, it generates a SHA1 message digest from your input.

The hash function is more generic, and the first argument you give it, like "sha256", tells it to use that algorithm to generate the hash from your input. You could also pass it another algorithm name such as "md5", "sha512", or "ripemd160".

More information: http://www.php.net/manual/en/function.hash.php

You can get the list of supported hash functions you can give to hash by using the hash_algos function.

I will agree with Mark Byers - SHA-256 is probably the minimal hash function you want to use due to vulnerabilities in the SHA-1 algorithm. Similarly, do not choose MD5 (an unrelated hashing algorithm) because it is trivial to break.

Salting is a good practice as it helps prevent rainbow table attacks.

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For low security applications sha256 (+ salt) should serve adequately - honestly even sha1 (+ salt) will do you well enough for the time being. If you are going to do it right however, these articles point you in the right direction.




TL;DR: Security is hard. Use phpass.

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There is no such thing as a low security application simply because of user habits. A lot of users will use their banking account password for Facebook. If you treat all passwords like a DOD password, everyone will be better for it if your database table is compromised. –  Tony Maro Feb 3 '13 at 21:21

If you are using salts, you should store those too, so you can recombine the password with the stored salt, and checks those against the hashes. This is done in case the hash is stolen or becomes public in some way. Dictionary attacks like rainbow tabling is then uneffective.

for example: in case some sql injection funerablity exposes the table containing the hashes, a malicious user could try to match all words in a dictionary of commonly used passwords, and possibly discover some users passwords. This won't be possible if it is a hash of a commonly known password combined with an unknown salt.

Even if the salts would be exposed, it still means all dictionary items should be combined with all salts.

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I know there are a lot of comments on this and it's a fairly old thread now, but I thought I would just chip in the way that I do hashed string salting... I generally build in a programmatic layer that removes the salt; which has a couple of advantages:

  1. In the database the salt is split into parts, as is the hash, and all stored together, thus is as close to indecipherable as possible

  2. If someone gains access to the database, without access to the programmatic layer, they can't get anything from the strings stored - they need access to both

Just thought I would throw my two pennies in

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SHA1, SHA256, and SHA512 are all cryptographic hash algorithms; they have the same purpose but do it with different algorithms and output a different number of bits ... Implementing password storing via hashing and salting is a complicated subject and many of the previous answers are either incomplete, dated, or even dangerous.

This is an excellent short and succinct guide on how to store passwords in a secure manner. https://crackstation.net/hashing-security.htm

Password security is not something that should be taken lightly and requires a little bit of reading to fully understand; you need to know the full implications of storing hashes and this website provides the most succinct and comprehensive review of the difference between the different SHA's. Many of the previous answers are either dangerous, dated, or missing critical pieces of information (e.g. salt should be same length as cryptographic hash).

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I'm actually using this custom built class that I put together to store passwords. I've made it work with pbkdf2 hashing, and it simplifies most things. It's use can be simplified down to:

$password = new Password("mypasswordhere");

//Optionally, You can pass a salt length and a salt (If you don't pass one, one will be created for you)

$password = new Password("mypasswordhere", 10); //This will generate a password with a salt that is 10 characters long
$password = new Password("mypasswordhere", 0, "mysecretsalt"); //This will generate the password using the passed salt, and ignore the salt length

//Passing a custom salt should only be used for reconstructing the password, never for initial construction

You can find the class used here: http://pastebin.com/MCdYFuQz

I'm newer to php, but this is from what I've learned thus far. Hopefully it's up to standards for the most part..

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your "compare to" looks like it would be vulnerable to a timing attack, and why are you using mt_rand()? –  David Meister Dec 14 '14 at 13:22
@DavidMeister I'm using mt_rand in order to generate a salt for the password. Is there a more efficient manor in which to do it? (Again, I'm newer to PHP). –  thefiscster510 Jan 5 at 6:05

Here's my contribution to the "flame war". Suppose You were to implement a hash based password system in Year 1990, for the 80286 (6MHz, 16MB RAM), and wanted it to work well enough to be fast enough for end users of 1990 to not notice it and 2014 Snow-den era No-Such-Agency to take that system seriously, then how would You design it?

Would You hope on the "increase calculation workload of a single hash" style approaches or try to construct something non-standard, unrecognized, something that mainstream software developers call names like "ROT13"? I suggest that people try to think, what approach would have given better results: use only the "industry standard and recognized" or "learn, what others have done in the past and use Your own brains to build on that"?

I'm sorry for the rant, but honestly, I do think that given the discussion here, my current comment is helpful and will get You a long way.

Thank You for reading my comment. :-)

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are you aware that modern hash algorithms have adjustable difficulties that are designed to increase the time it takes to generate a hash, in order to keep pace with the exact problem you describe? You could use such a hash in 1990 and simply increase the difficulty in 2014, but use the same algorithm and it would be just as effective now as it was in 1990's relative to the available hardware at the time. –  David Meister Dec 10 '14 at 13:24
Thank You for Your comment. In the course of designing Plaice_t1 I did study, how the professional crypto people designed their hash algorithms and my current (2014_12) understanding is that the design goals of their hash-functions are to make it impossible to conclude input from output and to make the calculation of the hash function computationally as light as possible. –  Martin Vahi Dec 11 '14 at 15:13
well your understanding is incorrect then. Hash algorithms that are designed for password storage are designed to be computationally expensive. Look at bcrypt or scrypt for examples of hash functions that are designed for password storage. The hashes you've mentioned on the linked page are not designed for password storage (md5, sha, etc.) precisely because they are computationally light, as you've mentioned. –  David Meister Dec 13 '14 at 6:13
Thank You for Your comment. –  Martin Vahi Dec 15 '14 at 1:30

There is no need to actually store the salt as such. All that you need is a reliable method by which to "regenerate" the salt for a given set of data. For example...

In a database containing the username password email address telephone number of users (assuming you can trust your data, remember this is an example and not a real life situation) then why store the salt when you can write your own function to generate a salt based on the unique field of "telephone number"...

EG, in the table described above you have "0156392385" as the telephone number of user "user1" so why not MD5 the telephone number, then rot13 it, select every 3rd character, md5 THAT then use that as your salt? You dont need to store that value at all, simply re run the "Salt generation" function when it comes to encrypting/decrypting. In the event of an SQL attack the attackers are unable to even determine how the salt is generated, let alone what the salt actually is. You also have a unique salt per user which could be used, for example, to secure their email address. Provided your code remains hidden (which it should do unless the raw PHP is exposed by the server) then the relationship between telephone number and eventual SALT is completely hidden. Even if the attacker worked out that the telephone number is the base of the salt they still don't know what transformations to perform to generate the given salt and a salt of 32 hex characters is pretty strong.

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Predictable salts are a bad idea.. it's best to generate a new salt every time a password is set. –  Tracker1 Nov 13 '13 at 6:43
The problem with this is that when a user changes their phone number or email address then they would also need to change their password to update their hash because the old hash only works with the old salt that was derived from the user's old phone number or email address. –  mvanle May 6 '14 at 9:37

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