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How much more safe is this than plain MD5? I've just started looking into password security. I'm pretty new to PHP.

$salt = 'csdnfgksdgojnmfnb';

$password = md5($salt.$_POST['password']);
$result = mysql_query("SELECT id FROM users
                       WHERE username = '".mysql_real_escape_string($_POST['username'])."'
                       AND password = '$password'");

if (mysql_num_rows($result) < 1) {
    /* Access denied */
    echo "The username or password you entered is incorrect.";
else {
    $_SESSION['id'] = mysql_result($result, 0, 'id');
    #header("Location: ./");
    echo "Hello $_SESSION[id]!";
share|improve this question
Note php 5.4+ has this built in – Benjamin Gruenbaum Feb 10 '14 at 8:23
Also see Openwall's PHP password hashing framework (PHPass). Its portable and hardened against a number of common attacks on user passwords. – jww Oct 12 '14 at 0:11

The easiest way to get your password storage scheme secure is by using a standard library.

Because security tends to be a lot more complicated and with more invisible screw up possibilities than most programmers could tackle alone, using a standard library is almost always easiest and most secure (if not the only) available option.

The new PHP password API (5.5.0+)

If you are using PHP version 5.5.0 or newer, or if you're using 5.3.7 or newer and install ircmaxell/password_compat, you can use the new simplified password hashing API

example of code using PHP's password API:

// $hash is what you would store in your database
$hash = password_hash($_POST['password'], PASSWORD_DEFAULT, ['cost' => 12]);

// $hash would be the $hash (above) stored in your database for this user
$checked = password_verify($_POST['password'], $hash)
if ($checked) {
    echo 'password correct';
} else {
    echo 'wrong credentials';

You can see PHP's password library in action here.

The OLD standard library

Take a look at: Portable PHP password hashing framework: phpass and make sure you use the CRYPT_BLOWFISH algorithm if at all possible.

Example of code using phpass (v0.2):


$pwdHasher = new PasswordHash(8, FALSE);

// $hash is what you would store in your database
$hash = $pwdHasher->HashPassword( $password );

// $hash would be the $hash (above) stored in your database for this user
$checked = $pwdHasher->CheckPassword($password, $hash);
if ($checked) {
    echo 'password correct';
} else {
    echo 'wrong credentials';

PHPass has been implemented in some quite well known projects:

  • phpBB3
  • WordPress 2.5+ as well as bbPress
  • the Drupal 7 release, (module available for Drupal 5 & 6)
  • others

The good thing is that you do not need to worry about the details, those details have been programmed by people with experience and reviewed by many folks on the internet.

For more information on password storage schemes, read Jeff`s blog post: You're Probably Storing Passwords Incorrectly

Whatever you do if you go for the 'I'll do it myself, thank you' approach, do not use MD5 or SHA1 anymore. They are nice hashing algorithm, but considered broken for security purposes.

Currently, using crypt, with CRYPT_BLOWFISH is the best practice.
CRYPT_BLOWFISH in PHP is an implementation of the Bcrypt hash. Bcrypt is based on the Blowfish block cipher, making use of it's expensive key setup to slow the algorithm down.

share|improve this answer
Yes, yes, a thousand times yes. – caf Oct 18 '09 at 5:47
Thank you, mister. – Janis Veinbergs Feb 4 '11 at 11:43
Good answer - thanks. phpass is a good option. But note that the "standard libraries" in some popular frameworks and apps are bad. See e.g. the horrid story of the MySQL OLD_PASSWORD cryptanalysis? and the sad story of their bad replacement: Looking for example of well-known app using unsalted hashes - IT Security The latter link has other examples of bad standard password functions. – nealmcb May 10 '11 at 22:11
MD5 and SHA1 are not broken in general (though they have some weaknesses, and for general purpose hashing SHA-2 should be used instead), they are just too fast to avoid bruteforce/dictionary password attacks (as SHA-2 and probably SHA-3, too). – Paŭlo Ebermann Aug 17 '11 at 20:30
I accept that you rolled back your answer - sorry, I thought it was an improvement. (The weaknesses found in MD5 and SHA-1 are mainly relevant for collision attacks, not for preimage attacks as needed here. The problem is that fast hashes are generally bad for password storage, because the small password space allows brute-forcing them.) – Paŭlo Ebermann Aug 18 '11 at 14:47

Your users will be much safer if you used parameterized queries instead of concatenating SQL statements. And the salt should be unique for each user and should be stored along with the password hash.

share|improve this answer
There is a good article about security in PHP at Nettuts+, password salting is also mentioned. Maybe you should take a look at: net.tutsplus.com/tutorials/php/… – Fábio Antunes Oct 18 '09 at 10:38
The Nettuts+ is a very bad article to use as a model - it includes use of MD5 which can be brute forced very easily even with salt. Instead, just use the PHPass library which is far, far better than any code you may find on a tutorial site, i.e. this answer: stackoverflow.com/questions/1581610/… – RichVel Nov 8 '11 at 11:58

A better way would be for each user to have a unique salt.

The benefit of having a salt is that it makes it harder for an attacker to pre-generate the MD5 signature of every dictionary word. But if an attacker learns that you have a fixed salt, they could then pre-generate the MD5 signature of every dictionary word prefixed by your fixed salt.

A better way is each time a user changes their password, your system generate a random salt and store that salt along with the user record. It makes it a bit more expensive to check the password (since you need to look up the salt before you can generate the MD5 signature) but it makes it much more difficult for an attacker to pre-generate MD5's.

share|improve this answer
Salts are usually stored together with the password hash (e.g. the output of the crypt() function). And since you have to retrieve the password hash anyway, using a user specific salt will not make the procedure any more expensive. (Or did you mean generating a new random salt is expensive? I don't really think so.) Otherwise +1. – Inshallah Oct 17 '09 at 10:02
For purposes of security, you may want to provide access to the table only through stored procedures and prevent the hash from ever being returned. Instead, the client passes what it thinks is the hash and gets a success or failure flag. This allows the stored proc to log the attempt, create a session, etc. – Steven Sudit Mar 25 '10 at 20:09
@Inshallah - if all users have the same salt, then you can reuse the dictionary attack you use on user1 against user2. But if each user has a unique salt, you will need to generate a new dictionary for each user you want to attack. – R Samuel Klatchko Mar 25 '10 at 20:27
@R Samuel - that's exactly why I voted your answer up, because it recommends the best-practice strategy to avoid such attacks. My comment was meant to express my perplexity about what you said regarding the additional cost of a per-user salt, which I didn't understand at all. (since "salts are usually stored together with the password hash" any additional storage and CPU requirements for a per-user salt are so microscopic, that they need not even be mentioned...) – Inshallah Mar 27 '10 at 21:55
@Inshallah - I was thinking about the case where you have the database checked if the hashed password is okay (then you have one db retrieval to get the salt and a second db access to check the hashed password). You are right about the case where you download the salt/hashed password in a single retrieval and then do the comparison on the client. Sorry for the confusion. – R Samuel Klatchko Mar 28 '10 at 22:21

With PHP 5.5 (what I describe is available to even earlier versions, see below) around the corner I'd like to suggest to use its new, built-in solution: password_hash() and password_verify(). It provides several options in order to achieve the level of password security you need (for example by specifying a "cost" parameter through the $options array)

var_dump(password_hash("my-secret-password", PASSWORD_DEFAULT));

$options = array(
    'cost' => 7, // this is the number of rounds for bcrypt
    // 'salt' => 'TphfsM82o1uEKlfP9vf1f', // you could specify a salt but it is not recommended
var_dump(password_hash("my-secret-password", PASSWORD_BCRYPT, $options));

will return

string(60) "$2y$10$w2LxXdIcqJpD6idFTNn.eeZbKesdu5y41ksL22iI8C4/6EweI7OK."
string(60) "$2y$07$TphfsM82o1uEKlfP9vf1fOKohBqGVXOJEmnUtQu7Y1UMft1R4D3d."

As you might see, the string contains the salt as well as the cost that was specified in the options. It also contains the algorithm used.

Therefore, when checking the password (for example when the user logs in), when using the complimentary password_verify() function it will extract the necessary crypto parameters from the password hash itself.

When not specifying a salt, the generated password hash will be different upon every call of password_hash() because the salt is generated randomly. Therefore comparing a previous hash with a newly generated one will fail, even for a correct password.

Verifying works like this:

var_dump(password_verify("my-secret-password", '$2y$10$BjHJbMCNWIJq7xiAeyFaHOGaO0jjNoE11e0YAer6Zu01OZHN/gk6K'));
var_dump(password_verify("wrong-password", '$2y$10$BjHJbMCNWIJq7xiAeyFaHOGaO0jjNoE11e0YAer6Zu01OZHN/gk6K'));

var_dump(password_verify("my-secret-password", '$2y$07$TphfsM82o1uEKlfP9vf1fOKohBqGVXOJEmnUtQu7Y1UMft1R4D3d.'));
var_dump(password_verify("wrong-password", '$2y$07$TphfsM82o1uEKlfP9vf1fOKohBqGVXOJEmnUtQu7Y1UMft1R4D3d.'));

I hope that providing these built-in functions will soon provide better password security in case of data theft, as it reduces the amount of thought the programmer has to put into a proper implementation.

There is a small library (one PHP file) that will give you PHP 5.5's password_hash in PHP 5.3.7+: https://github.com/ircmaxell/password_compat

share|improve this answer
In most cases it is better to omit the salt parameter. The function creates a salt from the random source of the operating system, there is very little chance that you can provide a better salt on your own. – martinstoeckli Jun 6 '13 at 10:54
That's what I wrote, didn't I? "if no salt is specified, it is randomly generated, for that reason it is preferable to not specify a salt" – akirk Jun 6 '13 at 11:09
Most examples show how to add both parameters, even when it is not recommended to add a salt, so i wonder why? And to be honest, i read only the comment behind the code, not on the next line. Anyway, wouldn't it be better when the example shows how to use the function best? – martinstoeckli Jun 6 '13 at 11:38
You're right, I agree. I have changed my answer accordingly and commented out the line. Thanks – akirk Jun 6 '13 at 13:18
how should i check if the saved password and entered password are the same?i am using password_hash() and password_verify no matter what password(correct or not) i used i end up with correct password – Brownman Revival Aug 25 '15 at 11:27

That's fine with me. Mr Atwood wrote about the strength of MD5 against rainbow tables, and basically with a long salt like that you're sitting pretty (though some random punctuation/numbers, it could improve it).

You could also look at SHA-1, which seems to be getting more popular these days.

share|improve this answer
The note at the bottom of Mr Atwood's post (in red) links off to another post from a security practicioner that states using MD5, SHA1 and other fast hashes for storing passwords is very wrong. – sipwiz Oct 17 '09 at 7:19
@Matthew Scharley: I don't agree that the additional effort imposed by expensive password hashing algorithms is false security. It's to guard against brute-forcing of easily guessable passwords. If you're limiting login attempts, then you're protecting against the same thing (although a bit more effectively). But if an adversary has access to the DB stored hashes, he will be able to brute force such (easily guessable) passwords fairly quickly (depending on how easily guessable). The default for the SHA-256 crypt algorithm is 10000 round, so that would make it 10000 times more difficult. – Inshallah Oct 17 '09 at 9:48
The slow hashes are actually made by iterating a fast one a very large number of times, and shuffling the data around in between each iteration. The goal is to ensure that even if the bad guy gets a copy of your password hashes, he has to burn a considerable amount of CPU time to test his dictionary against your hashes. – caf Oct 18 '09 at 5:51
@caf: I believe the bcrypt algorithm makes use of the parameterizable expensiveness of the Eksblowfish key scheduling; not entirely sure how this works, but key scheduling is often a very expensive operation done during the init a cipher context object, before any encryption is done. – Inshallah Oct 18 '09 at 9:17
Inshallah: This is true - the bcrypt algorithm is a different design, where the underlying crypto primitive is a block cipher rather than a hash function. I was referring to schemes based on hash functions, like PHK's MD5 crypt(). – caf Oct 18 '09 at 21:54

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