3

I have a JavaScript app and a Python app that communicate using a key derived from a password using pbdkf2. The problem is, the generated keys don't match. I've produced a minimal test case for each.

Python

import hashlib, binascii
bytes = hashlib.pbkdf2_hmac('sha256', "password".encode(), b'', 100000)
print(binascii.hexlify(bytes).decode())

Generates: 64a868d4b23af696d3734d0b814d04cdd1ac280128e97653a05f32b49c13a29a

JavaScript

<script src="lib/sjcl.js"></script>
<script>
var hmacSHA256 = function (key) {
    var hasher = new sjcl.misc.hmac(key, sjcl.hash.sha256);
    this.encrypt = function () {
        return hasher.encrypt.apply(hasher, arguments);
    };
};
hash = sjcl.misc.pbkdf2("password", [0], 100000, 256, hmacSHA256);
console.log(sjcl.codec.hex.fromBits(hash));
</script>

Generates: 41c04f824d843d5be0ae66b3f621d3f05db7d47e7c46ee0e9171b5cbff7f3631

I'm scratching my head a lot now. I think b'' and [0] are equivalent salts, but I'm not sure. I think they both use utf-8 to encode the password, but I'm not sure. And I'm not convinced the JavaScript hmacSHA256 function exactly matches what Python is doing. Or it could be something else still.

0

2 Answers 2

4

Off the top of my head, have you checked if

hash = sjcl.misc.pbkdf2("password", "", 100000, 256);

gives the correct result?

As far as I can tell from the docs, SJCL's PBKDF2 implementation defaults to HMAC-SHA256 if you don't explicitly give it a PRF. If making that change fixes the bug, then there's probably something wrong with your hmacSHA256 wrapper.

Also, I'm not sure if specifying an empty salt as [0] really works (or is guaranteed to work in future versions, given that the format of SJCL's bitArrays is explicitly subject to change), but "" definitely should work.

1

This is sharing for the rest based on my recent experience.

My objective:

To generate PBKDF2 password using Python. The client will be Android (Java), and the back end will be on Flask (Python).

Issue:

While testing, I discovered that both versions (Java vs Python) produced different hashing output (all other parameters were equal - SHA256, 1000 iterations, similar SALT)

What I have found out: Using PBKDF2 generation tools available on the internet, the Android result was an exact match, while the Python was not. So there is a good chance the Python result was somehow skewed .....

Problem solved:

While looking for possible explanation in SO, I discovered that the way I converted String to bytes in Python was somehow not entirely correct:

Original code:

dk = hashlib.pbkdf2_hmac('sha256', b'base64_message', b'salt', 1000)

Working code:

dk = hashlib.pbkdf2_hmac('sha256', base64_message.encode(), salt.encode(), 1000)

This is probably due to my lack of experience in Python. Hope this note will be of use to others, especially those who are new to Python!

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