I'm trying to convert a c# program into javascript. The purpose is to validate a clear text password against its sha-256 hash stored in a database. This code will be executed server-side.

The c# program was implemented following this MSDN's article How to Hash Passwords.

In order to validate my implementation, I was given an example hash for the password "test" with a randomly generated 4 characters long salt .

Here is what I wrote so far :

var unhashedPass = "test";
var originalHashedPass = "F27B595D3CBBC60ACEAC68E4DA6A2629558FEC383E0B81F764E443C68B0E9808096CDF2D";

var saltStringLength = 4;
var unicodeCharLength = 2;
var saltHexLength = unicodeCharLength * saltStringLength;
var saltHex = originalHashedPass.substr(0, saltHexLength);

var strSalt1 = String.fromCharCode(parseInt(saltHex.substr(0, 2), 16).toFixed());
var strSalt2 = String.fromCharCode(parseInt(saltHex.substr(2, 2), 16).toFixed());
var strSalt3 = String.fromCharCode(parseInt(saltHex.substr(4, 2), 16).toFixed());
var strSalt4 = String.fromCharCode(parseInt(saltHex.substr(6, 2), 16).toFixed());

//var strSalt = str2rstr_utf16le(strSalt1 + strSalt2 + strSalt3 + strSalt4);
var strSalt = strSalt1 + strSalt2 + strSalt3 + strSalt4;

var finalHash = saltHex + hex_sha256(strSalt + unhashedPass).toUpperCase();

return (finalHash == originalHashedPass);

This code is one of multiple variants I tried, attempting to transform the hexadecimal salt in a valid string (see commented line for example). None seemed to work.

hex_sha256 and str2rstr_utf16le functions come from this javascript SHA implementation

I assume the c# part I fail to correctly "translate" in javascript is the conversion of the salt into a string.

binarySaltValue[0] = byte.Parse(saltValue.Substring(0, 2), System.Globalization.NumberStyles.HexNumber, CultureInfo.InvariantCulture.NumberFormat);
binarySaltValue[1] = byte.Parse(saltValue.Substring(2, 2), System.Globalization.NumberStyles.HexNumber, CultureInfo.InvariantCulture.NumberFormat);
binarySaltValue[2] = byte.Parse(saltValue.Substring(4, 2), System.Globalization.NumberStyles.HexNumber, CultureInfo.InvariantCulture.NumberFormat);
binarySaltValue[3] = byte.Parse(saltValue.Substring(6, 2), System.Globalization.NumberStyles.HexNumber, CultureInfo.InvariantCulture.NumberFormat);

I noticed that the c# implementation uses array of bytes but I guess I have to use strings in javascript.

I also wonder if my issue has something to do with the fact that the c# program is computing Unicode encoded strings.

Do you have any suggestion ?


To clarify my problem : I can't manage to validate in javascript the password "test" against it's SHA256 salted hash "F27B595D3CBBC60ACEAC68E4DA6A2629558FEC383E0B81F764E443C68B0E9808096CDF2D" (calculated earlier in a c# program).

  • 1
    Think about what you are proposing for a second. By doing it in Javascript, anybody can push javascript into the page like, alert(unhashedPass) and compromise the security of your application. You will be prone to MITM attacks as well as other javascript injection attacks. – maple_shaft Feb 6 '12 at 15:52
  • var unhashedPass : String is not valid JavaScript. You can't declare explicit variable types. – pimvdb Feb 6 '12 at 15:55
  • 1
    That will be server-side executed javascript so security won't be an issue. – Benjamin Delichere Feb 6 '12 at 15:57
  • What is the data you're hashing in the end? Is it correct that it are the bytes f2 7b 59 5d 74 65 73 74 (the four salt bytes, plus "test")? It hashes to something else than you have in originalHashedPass (also without the prepended salt in this variable). – pimvdb Feb 6 '12 at 16:17
  • I'm not sure if I'm following you. The string I'm trying to hash, when salted, looks more like this : "ò{Y]test". I'm not hashing a string containing hexadecimal values (or should I ?). – Benjamin Delichere Feb 6 '12 at 17:03

Since you're saying this is server side, I'm guessing Node, in which case:


If it's something other than node:


but that will be slower than the first one since it's a pure JS implementation (the first is in C exposed to JS)

  • It is not Node.js but thanks anyway. I'm going to test jsHashes right now (although it seems quite similar to jsSHA2 ... I suspect that my problem comes from the way I translate the hex-encoded salt rather than the hash function itself). – Benjamin Delichere Feb 6 '12 at 16:57

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