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I am migrating a site from Drupal 7 to Django 1.4, including the current users. How can I work with the passwords that were hashed by Drupal?

According to this, Drupal 7 hashes passwords using SHA-512 (they are stored in the form of a string starting with "$S$").

Django 1.4 now contains a number of options for storing passwords, with a default of SHA-256, but I can't find an option for SHA-512. While this app appears to allow the use of SHA2 algorithms, I'm not sure it's compatible with Django 1.4 (as 1.4 has a flexible password hasher).

What is the simplest way to do this?

ETA: I've built a password hasher that mimics Drupal's algorithm and makes migration easy. Since I've already accepted an answer, I won't unaccept, but for anyone who wants to do Drupal to Django migration in the future, the code is stored on Django snippets and as a GitHub gist.

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3 Answers 3

up vote 5 down vote accepted

I don't know Drupal very well, but I suppose that the passwords are stored hashed. If that's the case, you'll have to copy the passwords (I mean, copy them unchanged) and you'll have to change the way Django hashes its passwords, using the exactly same way of Drupal, with the same Security Salt.

I really don't know how to do that, but the logic for passwords is contained in the User object. For example. the User.set_password() function (described here) uses the make_password function.

I think with a little research you'll find the way to change it, but the important thing is, remember that the functions must be equals! ie:

drupal_hash(x) == django_hash(x) for every x in the allowed passwords set.

EDIT:

Taking a deeper look django get the has function with the get_hasher function. Now in the 1.4 version there's a way to specify how Django will select that function. Take a look at this: https://docs.djangoproject.com/en/dev/topics/auth/#how-django-stores-passwords

Finally, in order to create your own function, you can take a look at how it's done on the MD5PasswordHasher. It seems really simple. You can use the hashlib python library to generate sha-512 algorithms.

Changing the encode method would require somthing similar to:

def encode(self, password, salt):
    assert password
    assert salt and '$' not in salt
    hash = hashlib.sha512(salt + password).hexdigest()
    return "%s$%s$%s" % (self.algorithm, salt, hash)
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That's precisely the problem I'm having: I haven't found a way to use SHA-512 hashing in Django, which appears to be Drupal 7's hashing method –  David Robinson Mar 26 '12 at 17:45
    
I updated my answer, hope it helps. –  santiagobasulto Mar 26 '12 at 17:55
    
It does! But as @Alasdiar says, I'm not sure how to extract the salt from the stored password... –  David Robinson Mar 26 '12 at 18:04
3  
If anyone tries in the future: the salt is the 5th character through the 12th in the stored Drupal string –  David Robinson Mar 27 '12 at 7:13
2  
Solved it! Code is posted in my question above (normally I'd answer my own question and accept, but I don't like to unaccept an answer) –  David Robinson Mar 27 '12 at 17:11
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You should be able to implement this by creating your own subclass of BasePasswordHasher, and adding it to your PASSWORD_HASHERS setting.

Python's hashlib implements sha512.

The page David linked to in the question explains how the number of iterations (16385 for Drupal 7) is encoded in the hash, but it's not clear to me how to get the salt.

Edit: In the comment to @santiago's answer, David says the "the salt is the 5th character through the 12th in the stored Drupal string".

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the salt in drupal is stored in the settings.php file. –  mirzu Mar 26 '12 at 22:51
1  
Solved it- code is posted in my question above :-) –  David Robinson Mar 27 '12 at 17:11
    
Nice one David. Thanks for posting your solution. –  Alasdair Mar 27 '12 at 17:37
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Thank you, David Robinson, for your code. That made my day! It seems to have a flaw, though: If Drupal decided to not use 'C' but 'D' for the number of iterations, it fails. I fixed the class definition slightly:

class DrupalPasswordHasher(BasePasswordHasher):
    algorithm = "S"
    iter_code = 'C'
    salt_length = 8

    def encode(self, password, salt, iter_code=None):
        """The Drupal 7 method of encoding passwords"""
        if iter_code == None:
            iterations = 2 ** _ITOA64.index(self.iter_code)
        else:
            iterations = 2 ** _ITOA64.index(iter_code)
        hash = hashlib.sha512(salt + password).digest()

        for i in range(iterations):
            hash = hashlib.sha512(hash + password).digest()

        l = len(hash)

        output = ''
        i = 0

        while i < l:
            value = ord(hash[i])
            i = i + 1

            output += _ITOA64[value & 0x3f]
            if i < l:
                value |= ord(hash[i]) << 8

            output += _ITOA64[(value >> 6) & 0x3f]
            if i >= l:
                break
            i += 1

            if i < l:
                value |= ord(hash[i]) << 16

            output += _ITOA64[(value >> 12) & 0x3f]
            if i >= l:
                break
            i += 1

            output += _ITOA64[(value >> 18) & 0x3f]

        longhashed = "%s$%s%s%s" % (self.algorithm, iter_code,
                                    salt, output)
        return longhashed[:54]

    def verify(self, password, encoded):
        hash = encoded.split("$")[1]
        iter_code = hash[0]
        salt = hash[1:1 + self.salt_length]
        return encoded == self.encode(password, salt, iter_code)
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Glad this could help, Karsten! I think I'm confused about how your code differs: wasn't this handled by the original line iterations = 2 ** _ITOA64.index(hash[0])? BTW, I'm maintaining the code now as a GitHub gist, see answer for details. (I edited it to your version for now). –  David Robinson Jun 19 '12 at 12:54
    
(For comparison, here is the original code) –  David Robinson Jun 19 '12 at 12:54
    
Revisiting this, I tend to agree. May be it was just a readability-issue that confused me, with iterations being 'C' and 2 ** _ITOA64.index('C') at the same time, and then I resolved that by making iter_code effectively a key character, and iterations the power of two integer. Now I see that I could have achieved that with fewer lines of code changes. Anyway, great piece of code, thanks for your help! –  Karsten Sievert Aug 6 '12 at 12:53
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