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I have just simple question in my mind for community . Once upon a time when i started programming i used md5 for hashing password, than later found that md5 can be cracked easily and i should use salt to make it secure.

Than i had no faith in md5 and wanted to use sha1,sha256,sha512 encryption. But the problem is now i have passwords in encrypted form which is


At that point i didn't knew the password of users.So what i did


Now after few time in this field i found sha1 is also not too secure and is broken what should i do is use bcrypt() to make password secure .

so from now i will be using


Password is now very secure but the main problem still is about the time it will use to create hash value will always be greater than to use bcrypt("password")

Now what i want to say suppose if bcrypt is hacked and is found to be broken and in future there comes new cryptographic function that is more secure and. Than this way creating a password from old values will always be time consuming.

What could be the solution for this. as i know mailing users to change password is not always 100% successful. Another thing is to add a new field in database that store new hashed values and if all the fields are filled than remove the md5 values from db .But thing in this way previous hashed values are still visible.

So will this thing be going on, or you guys have some solution. :)

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@ZulkhaeryBasrul: Don't see how those are relevant –  Niklas B. Apr 10 '13 at 18:28
See OWASP's Password Storage Cheat Sheet. Be sure to follow the link to John Steven's analysis of threats and countermeasures. 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 '14 at 0:50

2 Answers 2

up vote 6 down vote accepted

PHP 5.5 introduces the Password API which addresses this issue:

The new Secure Password Hashing API in PHP 5.5

The RFC for a new simple to use password hashing API has just been accepted for PHP 5.5. As the RFC itself is rather technical and most of the sample codes are something you should not use, I want to give a very quick overview of the new API:

Why do we need a new API?

Everybody knows that you should be hashing their passwords using bcrypt, but still a surprising number of developers uses insecure md5 or sha1 hashes (just look at the recent password leaks). One of the reasons for this is that the crypt() API is ridiculously hard to use and very prone to programming mistakes.

By adding a new, very simple to use API we hope to move more developers towards bcrypt.

How to hash passwords

Creating password hashes can't be any simpler than this:

  $hash = password_hash($password, PASSWORD_DEFAULT);

This will create a password hash using the default algorithm (currently bcrypt), the default load factor (currently 10) and an automatically generated salt. The used algorithm and salt will also be part of the resulting hash, so you don't need to worry about them at all ;)

If you don't want to stick with the defaults (which might change in the future), you can also provide algorithm and load factor yourself:

$hash = password_hash($password, PASSWORD_BCRYPT, ['cost' => 12]);

Verifying passwords

Verifying passwords is just as easy:

// $password from user, $hash from database
if (password_verify($password, $hash)) {
    // password valid!
} else {
    // wrong password :(

Remember: The salt and algorithm are part of the hash, so you don't need to provide them separately.

Rehashing passwords

As time goes by you might want to change the password hashing algorithm or load factor, or PHP may change the defaults to be more secure. In this case new accounts should be created using the new options and existing passwords rehashed on login (you can do this only on login because you need the original password to do a rehash).

Doing this is also very simple:

function password_verify_with_rehash($password, $hash) {
    if (!password_verify($password, $hash)) {
        return false;

    if (password_needs_rehash($hash, PASSWORD_DEFAULT)) {
        $hash = password_hash($password, PASSWORD_DEFAULT);

        // update hash in database

    return true;

The above snippet will keep your hashes up to date with the PHP default. But once again you can also specify custom options, e.g. password_needs_rehash($hash, PASSWORD_BCRYPT, ['cost' => 12']).

Compatibility layer for older PHP versions

The new API will only be introduced in PHP 5.5, but you can already use a PHP implementation of the same API now! The compatibility implementation will automatically disable itself once you upgrade to 5.5.

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I think only the second-to-last section to your answer is actually relevant to the question... –  Niklas B. Apr 10 '13 at 18:26
@Frank: "Hashing Password, from broken methods to most secure now"? When clicking on that question, I would expect an answer that addresses only the point raised by the question, preferrably linking to additional information like the provided gist –  Niklas B. Apr 10 '13 at 18:29
Even I could think about that (no PHP nor programmer expert), is that the best you've got PHP developers? Thanks for the awesome answer John Conde (; –  Francisco Presencia Apr 10 '13 at 18:29

Actually, MD5, if used properly, is still considered perfectly safe for password hashing. While there do exist practical collision attacks against MD5, which render it insecure for things like digital signatures, breaking a password hash would require a preimage attack, and all currently known such attacks against MD5 are purely theoretical.

(That said, to paraphrase Bruce Schneier, "attacks only ever get better", so starting to move from MD5 to more trustworthy hash functions, such as SHA-2 or SHA-3, is certainly not a bad idea even if you don't need to do it yet.)

The catch is that MD5 alone is unsuitable for hashing passwords for two reasons, both of which are actually deliberate design features (and shared by other hash functions like SHA-2 and SHA-3):

  1. MD5 is deterministic, meaning that hashing the same input with MD5 always produces the same output.

    This is a problem for password hashing, since somebody could (and, indeed, some people have) just compile a huge database of the MD5 hashes of common (and not so common) passwords, allowing anyone who knows the plain MD5 hash of any password found in those databases to just look it up and find the original password.

    The solution is simple, and you already know it: combine the password with a random salt before hashing it, and include the salt as part of the final hash so that it can be used to verify the password later. With sufficiently many possible salts (say, a few billion, at least) to randomly choose from, compiling a hash database becomes impossible, since any single password could hash to billions of different values. Conveniently, this also means that, even if you happen to have two users with the same password, it's impossible to tell that just by looking at the hashes.

  2. MD5 is fast. Normally this is considered a good thing, but in password hashing, it turns out that making the process too fast mostly just helps the attacker: a legitimate user doesn't really care if hashing their password takes 10 nanoseconds or 10 milliseconds, whereas an attacker trying to guess the password by hashing millions of passwords by brute force will appreciate every fraction of a nanosecond shaved off each hash calculation.

    Again, the solution is simple and well known: just re-hash the password a few thousand (or more) times to slow down the calculation. The are even standardized ways of doing this, such as the PBKDF2 method. Alternatively, it's also possible to use a special purpose-built password hashing function like bcrypt or scrypt, which typically come with salting and adjustable iteration counts built-in.

Anyway... the point of all this, is that, in fact, calculating your password hashes as e.g.

hash = salt + bcrypt( sha1( md5( password + salt ) ) )

is perfectly fine, even if somewhat convoluted. Also, with that chain of hashes, almost all of the time is consumed by bcrypt, since it's the only one of the three hash functions deliberately designed to be slow. Thus, there should be no noticeable speed difference whatsoever between that chain of hashes and just bcrypt itself — and, in any case, you want the password hashing to be as slow as practically feasible.

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