67

I am writing a login for a forum, and need to hash the password client side in javascript before sending it on to the server. I'm having trouble figuring out which SHA-256 implementation I can actually trust. I was expecting there to be some kind of authoritative script that everyone used, but I'm finding loads of different projects all with their own implementations.

I realize using other people's crypto is always a leap of faith unless you're qualified to review it yourself, and that there is no universal definition of "trustworthy", but this seems like something common and important enough that there ought to be some kind of consensus on what to use. Am I just naive?

Edit since it comes up a lot in the comments: Yes, we do a more stringent hash again on the server side. The client side hashing is not the final result that we save in the database. The client side hashing is because the human client requests it. They have not given a specific reason why, probably they just like overkill.

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  • 8
    Not to get off topic, but why are you hashing the password on the client side? – Steve Aug 19 '13 at 17:46
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    @ddyer Not even close. "Don't roll your own" applies to inventing your own algorithm, writing your own implementation of an algorithm, developing your own protocol on top of crypto algorithms, or pretty much anything above using as high-level an abstraction as is available. If you think you'll be safe sticking to a secure core, and only writing glue code, you're gonna have a bad time. – Stephen Touset Aug 19 '13 at 18:07
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    if you use a hashed password without a challenge/response protocol, then the hashed password IS the password and it's really the same as transmitting the password in clear text. – ddyer Aug 19 '13 at 18:29
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    @ddyer There is some value in protecting the user's plaintext password for all the other sites they might use it on, if not for our site in particular. It's an easy fix that maybe won't help us but can potentially help the user if we screw up somewhere. And like I said, client request, nothing I can do about it even if I wanted to. – jono Aug 19 '13 at 18:36
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    @Anorov I'm more than open to having my mind changed :) but in this case, I don't really understand how your point applies. We hash the password twice: once on the client side with a simple SHA-256, and once on the server side with something more demanding. The first to protect the plaintext in case of MITM or similar, and the second for brute protection. Even if you got a hold of the database and the admin hash you couldn't use that directly to validate the login. – jono Aug 19 '13 at 20:00
84

The Stanford JS Crypto Library contains an implementation of SHA-256. While crypto in JS isn't really as well-vetted an endeavor as other implementation platforms, this one is at least partially developed by, and to a certain extent sponsored by, Dan Boneh, who is a well-established and trusted name in cryptography, and means that the project has some oversight by someone who actually knows what he's doing. The project is also supported by the NSF.

It's worth pointing out, however...
... that if you hash the password client-side before submitting it, then the hash is the password, and the original password becomes irrelevant. An attacker needs only to intercept the hash in order to impersonate the user, and if that hash is stored unmodified on the server, then the server is storing the true password (the hash) in plain-text.

So your security is now worse because you decided add your own improvements to what was previously a trusted scheme.

  • 20
    If you hash again on the server however, this practice is perfectly legitimate. – Nick Brunt Nov 3 '13 at 1:28
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    @NickBrunt if you hash on the server then you're not saving the transmitted password, but you haven't added any security beyond transmitting the original password as opposed to transmitting the password hash, since in either case what you're transmitting is the real password. – tylerl Nov 3 '13 at 1:34
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    True, but it's not worse than sending a password which is possibly used elsewhere on the Internet in plaintext. – Nick Brunt Nov 3 '13 at 1:43
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    I agree with @NickBrunt . It is better if the attacker reads a random hash string that may fit only with this particular app rather than the original password that may be used in several places. – Aebsubis May 28 '14 at 15:16
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    I need to use client-side hashing because i don't want the server to ever see the user's plaintext password. Not for added security to the service I'M providing, but towards the user. I'm not only saving the user's hash salted with a constant salt (constant per user, not globally) but also re-hashing it with a random session salt every login which DOES provide a little extra security over the network against sniffing. If the server gets compromised it's game over, but that's true for anything not truely p2p anyways. – Hatagashira Oct 11 '14 at 15:42
19

On https://developer.mozilla.org/en-US/docs/Web/API/SubtleCrypto/digest I found this snippet that uses internal js module:

async function sha256(message) {
    // encode as UTF-8
    const msgBuffer = new TextEncoder('utf-8').encode(message);                    

    // hash the message
    const hashBuffer = await crypto.subtle.digest('SHA-256', msgBuffer);

    // convert ArrayBuffer to Array
    const hashArray = Array.from(new Uint8Array(hashBuffer));

    // convert bytes to hex string                  
    const hashHex = hashArray.map(b => ('00' + b.toString(16)).slice(-2)).join('');
    return hashHex;
}

Note that crypto.subtle in only available on https or localhost - for example for your local development with python3 -m http.server you need to add this line to your /etc/hosts: 0.0.0.0 localhost

Reboot - and you can open localhost:8000 with working crypto.subtle.

14

Forge's SHA-256 implementation is fast and reliable.

To run tests on several SHA-256 JavaScript implementations, go to http://brillout.github.io/test-javascript-hash-implementations/.

The results on my machine suggests forge to be the fastest implementation and also considerably faster than the Stanford Javascript Crypto Library (sjcl) mentioned in the accepted answer.

Forge is 256 KB big, but extracting the SHA-256 related code reduces the size to 4.5 KB, see https://github.com/brillout/forge-sha256

10

No, there's no way to use browser JavaScript to improve password security. I highly recommend you read this article. In your case, the biggest problem is the chicken-egg problem:

What's the "chicken-egg problem" with delivering Javascript cryptography?

If you don't trust the network to deliver a password, or, worse, don't trust the server not to keep user secrets, you can't trust them to deliver security code. The same attacker who was sniffing passwords or reading diaries before you introduce crypto is simply hijacking crypto code after you do.

[...]

Why can't I use TLS/SSL to deliver the Javascript crypto code?

You can. It's harder than it sounds, but you safely transmit Javascript crypto to a browser using SSL. The problem is, having established a secure channel with SSL, you no longer need Javascript cryptography; you have "real" cryptography.

Which leads to this:

The problem with running crypto code in Javascript is that practically any function that the crypto depends on could be overridden silently by any piece of content used to build the hosting page. Crypto security could be undone early in the process (by generating bogus random numbers, or by tampering with constants and parameters used by algorithms), or later (by spiriting key material back to an attacker), or --- in the most likely scenario --- by bypassing the crypto entirely.

There is no reliable way for any piece of Javascript code to verify its execution environment. Javascript crypto code can't ask, "am I really dealing with a random number generator, or with some facsimile of one provided by an attacker?" And it certainly can't assert "nobody is allowed to do anything with this crypto secret except in ways that I, the author, approve of". These are two properties that often are provided in other environments that use crypto, and they're impossible in Javascript.

Basically the problem is this:

  • Your clients don't trust your servers, so they want to add extra security code.
  • That security code is delivered by your servers (the ones they don't trust).

Or alternatively,

  • Your clients don't trust SSL, so they want you use extra security code.
  • That security code is delivered via SSL.

Note: Also, SHA-256 isn't suitable for this, since it's so easy to brute force unsalted non-iterated passwords. If you decide to do this anyway, look for an implementation of bcrypt, scrypt or PBKDF2.

  • 1
    This is not correct. The password security can be improved by hashing on the client side. It is also wrong that SHA-256 is unsuited as long as something like PBKDF2 is used on the server side. Thirdly, while the matasano article contains useful insight, the punch line is wrong since we now have browser apps that fundamentally change the chicken-and-egg issue. – user239558 Oct 3 '13 at 23:14
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    You're right that PBKDF2 should be used on the client. The rage against client side javascript crypto assumes that the initial page and subsequent requests have the same security properties. That is obviously not true for browser apps where the initial page is installed separately and is static. It is also not true for any page with cache-forever semantics. In these cases, it is TOFU which is exactly the same as when installing a client side program. This can also be true in more complex setups where serving of static and dynamic pages are separated on the server. – user239558 Oct 3 '13 at 23:31
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    It is legitimate to avoid system administrators to have access to user passwords, so hashing in the client side prevent DBAs or other IT professionals to see users passwords and try to reuse it to access other services/systems, since a lot of users repeat their passwords. – Yamada Apr 20 '16 at 12:27
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    @Xenland All you're doing is creating a new password which is "token + password". All of the original problems still apply. For example, an attacker can replace the JavaScript with code to send them the token + password. – Brendan Long Nov 16 '16 at 23:40
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    @Xenland The chicken and egg problem doesn't have anything to do with the requests you send. The problem is that your client is using JavaScript code that it downloaded over an insecure connection to do security work. The only way to safely send JavaScript to a web browser is to serve it over TLS, and once you do that, you don't need to do anything else because your connection is already secure. It doesn't matter what your protocol is if you're using JavaScript code that an attacker can just replace. – Brendan Long Nov 22 '16 at 14:13
6

I found this implementation very easy to use. Also has a generous BSD-style license:

jsSHA: https://github.com/Caligatio/jsSHA

I needed a quick way to get the hex-string representation of a SHA-256 hash. It only took 3 lines:

var sha256 = new jsSHA('SHA-256', 'TEXT');
sha256.update(some_string_variable_to_hash);
var hash = sha256.getHash("HEX");
5

For those interested, this is code for creating SHA-256 hash using sjcl:

import sjcl from 'sjcl'

const myString = 'Hello'
const myBitArray = sjcl.hash.sha256.hash(myString)
const myHash = sjcl.codec.hex.fromBits(myBitArray)
  • 1
    This should be incorporated in the accepted answer for those who want to use the solution there. (Heck, even their own docs don't have a snippet like this) – MagicLegend Oct 5 '18 at 16:05
0

Besides the Stanford lib that tylerl mentioned. I found jsrsasign very useful (Github repo here:https://github.com/kjur/jsrsasign). I don't know how exactly trustworthy it is, but i've used its API of SHA256, Base64, RSA, x509 etc. and it works pretty well. In fact, it includes the Stanford lib as well.

If all you want to do is SHA256, jsrsasign might be a overkill. But if you have other needs in the related area, I feel it's a good fit.

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