I'm porting over a Django site to Node.js and I am trying to re implement the Django set password method in Node. This is the Django code

from django.utils.crypto import (
    pbkdf2, get_random_string)

import hashlib

password = 'text1'
algorithm = "pbkdf2_sha256"
iterations = 10000
salt = 'p9Tkr6uqxKtf'
digest = hashlib.sha256
hash = pbkdf2(password, salt, iterations, digest=self.digest)
hash = hash.encode('base64').strip()
print "%s$%d$%s$%s" % (self.algorithm, iterations, salt, hash)

and here's the Node.js code I have so far:

var password = 'text1';
var hashed = crypto.createHash('sha256').update(password, 'utf8').digest();
var salt = 'p9Tkr6uqxKtf';
var algorithm = "pbkdf2_sha256";
var iterations = 10000;
crypto.pbkdf2(hashed, salt, iterations, 32, function(err, encodedPassword) {
    var newPass = new Buffer(encodedPassword).toString('base64');

    // console.log(Buffer(encodedPassword, 'binary').toString('hex'));
    var finalPass = algorithm +'$'+ iterations +'$'+  salt +'$'+  newPass;

My solution in Node doesn't output the same results as the Python / Django code. At this point I'm pretty much over my head and any help would be very much appreciated. Thanks in advance.

  • Node uses HMAC+SHA1, and as far as I can see that can't be changed (whereas with Python you can use digest.sha1 instead of digest.sha256, but I'm not sure if that's acceptable to you). – robertklep Mar 13 '13 at 20:45
  • Yeah, my current passwords were created with sha256. – imns Mar 13 '13 at 21:12
  • cryptojs supports PBKDF2 with HMAC+SHA256 but it still doesn't yield the same results. I think Django uses its own implementation that isn't quite standard. – robertklep Mar 13 '13 at 21:43

Here is a better solution using pbkdf2-sha256:

var pbkdf2 = require('pbkdf2-sha256');
var password = 'text1';
var salt = 'p9Tkr6uqxKtf';
var algorithm = "pbkdf2_sha256";
var iterations = 10000;
var hashed = pbkdf2(password, new Buffer(salt), iterations, 32).toString('base64');
var finalPass = algorithm +'$'+ iterations +'$'+  salt +'$'+  hashed;

The above code should be sufficient to validate passwords stored in Django using Node.


So my solution to this was to create a python script that takes the salt and users password and returns the hashed password. I call this script from node and parse the results. I check if the hashed password starts with: pbkdf2_sha256, then I validate it against what my python script returned, if it validates use my new systems hashing function to reset the password.


Use pbkdf2-sha256 instead. Had the exact same problem you were dealing with (Django -> NodeJS) and that did the trick for me! :)


Following bababa's answer, my approach was to create a Python script as well using

"from django.contrib.auth import hashers"

The functions hashers.check_password() and hashers.make_password() provide the functionality needed to validate or create passwords against a Django installation.

More documentation on this functions can be found on https://docs.djangoproject.com/en/1.5/topics/auth/passwords/


Thank you @paldepind for your answer that helped me! However, the pbkdf2-sha256 module is deprecated. And while it is replaced with pbkdf2, that isn't necessary either; Node provides the built-in crypto module with a pbkdf2 function which works if you give it the correct parameters. Here's the code with the OP's password. I've also verified this code with my own passwords:

const crypto = require("crypto");

// Given the following password, using algorithm pbkdf2_sha256:
// pbkdf2_sha256$10000$p9Tkr6uqxKtf$9OTqv/1X3jvhdyWRm1vwQzMYO9cOzth7hYpoFe0qboA=

var password = "text1";
var salt = "p9Tkr6uqxKtf";
var iterations = 10000;

crypto.pbkdf2(password, salt, iterations, 32, "sha256", (err, derivedKey) => {
  if (err) throw err;

You can also use pbkdf2Sync.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.