Validate Stored Encrypted Password in SQL Server 2012 - c#

In SQL Server I run a command:
Select HASHBYTES('SHA2_256', '12345678') as EncryptedString
It gives 0xEF797C8118F02DFB649607DD5D3F8C7623048C9C063D532CC95C5ED7A898A64F this string as an output, this string has 66 characters.
On the same side, Itried to encrypt password from C# code, using this:
public string GetSHAEncryptedCode(string Text)
{
//SHA1 sha26 = new SHA1CryptoServiceProvider();
SHA256 sha26 = new SHA256CryptoServiceProvider();
byte[] sha256Bytes = System.Text.Encoding.UTF8.GetBytes(Text);
byte[] cryString = sha26.ComputeHash(sha256Bytes);
string sha256Str = string.Empty;
for (int i = 0; i < cryString.Length; i++)
{
sha256Str += cryString[i].ToString("X");
}
return sha256Str;
}
Suupose, if I enter same "12345678" in C# code it returns me a string of 62 character long, string is EF797C8118F02DFB64967DD5D3F8C762348C9C63D532CC95C5ED7A898A64F. Now how could i validate the encrypted string coming from sql server and the other string from C# code in order to login the user from login page?

Your C# format string is incorrect - it it missing leading 0s when the hex value is less than 10.
Instead you need to use "X2" as the format string so that it is padded to 2 numbers:
public string GetSHAEncryptedCode(string Text)
{
//SHA1 sha26 = new SHA1CryptoServiceProvider();
SHA256 sha26 = new SHA256CryptoServiceProvider();
byte[] sha256Bytes = System.Text.Encoding.UTF8.GetBytes(Text);
byte[] cryString = sha26.ComputeHash(sha256Bytes);
string sha256Str = string.Empty;
for (int i = 0; i < cryString.Length; i++)
{
sha256Str += cryString[i].ToString("X2");
}
return sha256Str;
}
This correctly returns EF797C8118F02DFB649607DD5D3F8C7623048C9C063D532CC95C5ED7A898A64F and then you can just append 0x to the start.
In any case, you should not really be converting the values to a string anyway. HASHBYTES() and sha256.ComputeHash() both return byte arrays, so it is more efficient and safer to just compare those instead. You can use the methods described in this answer to do that.
Or maybe better still, I assume you are storing the password in the database as encrypted (aren't you...?), so just encrypt the input value to a byte array in C#, then pass that to the database and use something like
SELECT * FROM users WHERE username = #username AND password = #passwordBytes

Related

Why does a hash of string produce different results in C# and SQL Server?

I have this function in my C# code:
public static string ComputeHash(string input)
{
string hash = string.Empty;
using (System.Security.Cryptography.MD5 md5Hash = System.Security.Cryptography.MD5.Create())
try
{
// Convert the input string to a byte array and compute the hash.
byte[] data = md5Hash.ComputeHash(Encoding.UTF8.GetBytes(input));
StringBuilder sb = new StringBuilder();
//Loop through each byte of the hashed data and format each one as a hexadecimal string.
for (int i = 0; i < data.Length; i++)
sb.Append(data[i].ToString("x2"));
hash = sb.ToString();
}
catch (Exception ex)
{
Logger.Error(ex);
}
return hash;
}
This is how I store my value in SQL Server:
lower(CONVERT(NVARCHAR(32), HashBytes('MD5', #partIdentifier), 2))
The result of the two values is completely different. Does anyone have an idea why? Or how could I solve it?

C# & Lua MD5 Hashing

I am having some issues trying to match an MD5 encryption with salt from Lua to C#. Meaning, I have it hashing and salting the account password in Lua, but I need to match that exact same encryption in C# as I am developing a website in C# that needs to use the same database and accounts as the Lua script.
I've tried for quite some time now trying to match them, but no matter what I do I can't seem to get it right.
Lua hash:
if (string.len(cpypassword) ~= 64) then
password = md5(Newsalt .. password)
local result = mysql:query("SELECT username FROM accounts WHERE username='" .. username .. "'")
if (mysql:num_rows(result)>0) then
local insertid = mysql:query_insert_free("UPDATE accounts SET password='" .. mysql:escape_string(password) .. "' WHERE username='".. mysql:escape_string(username) .."'")
triggerClientEvent(client, "accounts:login:attempt", client, 1, "Password changed!\nThank you." )
end
end
I've tried a variety of different ways to do MD5 hash in C#, but none of them matches, so here I am now, asking you for suggestions.
Thank you in advance.
EDIT:
Lua function generates this as an example:
CFA62AA942A84781B1C101D6D583B641
Same example generated in C# with the C# hashing:
DSqwG/W1LNbHsCEkHNAUpg==
C# code (just one of the things I tried, I found much simpler ones, but this is the latest one I tried, just copied out of a tutorial)
public class Encryption
{
public static string EncryptorDecrypt(string securityCode, string key, bool encrypt)
{
byte[] toEncryptorDecryptArray;
ICryptoTransform cTransform;
// Transform the specified region of bytes array to resultArray
MD5CryptoServiceProvider md5Hasing = new MD5CryptoServiceProvider();
byte[] keyArrays = md5Hasing.ComputeHash(Encoding.UTF8.GetBytes(securityCode));
md5Hasing.Clear();
TripleDESCryptoServiceProvider tdes = new TripleDESCryptoServiceProvider() { Key = keyArrays, Mode = CipherMode.ECB, Padding = PaddingMode.PKCS7 };
if (encrypt == true)
{
toEncryptorDecryptArray = Encoding.UTF8.GetBytes(key);
cTransform = tdes.CreateEncryptor();
}
else
{
toEncryptorDecryptArray = Convert.FromBase64String(key.Replace(' ', '+'));
cTransform = tdes.CreateDecryptor();
}
byte[] resultsArray = cTransform.TransformFinalBlock(toEncryptorDecryptArray, 0, toEncryptorDecryptArray.Length);
tdes.Clear();
if (encrypt)
{ //if encrypt we need to return encrypted string
return Convert.ToBase64String(resultsArray, 0, resultsArray.Length);
}
//else we need to return decrypted string
return Encoding.UTF8.GetString(resultsArray);
}
}
The code you provided for C# is not generating an MD5 hash; instead it is hashing the securityCode and using it as a key for TripleDES.
Take a look at this blog post (copied relevant bits out):
public string CalculateMD5Hash(string input)
{
// step 1, calculate MD5 hash from input
MD5 md5 = System.Security.Cryptography.MD5.Create();
byte[] inputBytes = System.Text.Encoding.ASCII.GetBytes(input);
byte[] hash = md5.ComputeHash(inputBytes);
// step 2, convert byte array to hex string
StringBuilder sb = new StringBuilder();
for (int i = 0; i < hash.Length; i++)
{
sb.Append(hash[i].ToString("X2"));
}
return sb.ToString();
}

Calculating HMACSHA256 using c# to match payment provider example

For a payment provider, I need to calculate a hash-based message authentication code, using HMAC-SHA256. That is causing me quite a bit of trouble.
The payment provider gives two examples of orrectly calculated authentication code in pseudo-code. All keys are in hex.
Method 1
key = 57617b5d2349434b34734345635073433835777e2d244c31715535255a366773755a4d70532a5879793238235f707c4f7865753f3f446e633a21575643303f66
message = "amount=100&currency=EUR"
MAC = HMAC-SHA256( hexDecode(key), message )
result = b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
Method 2
message = "amount=100&currency=EUR"
Ki = 61574d6b157f757d02457573556645750e0341481b127a07476303136c005145436c7b46651c6e4f4f040e1569464a794e534309097258550c17616075060950
Ko = 0b3d27017f151f17682f1f193f0c2f1f64692b227178106d2d096979066a3b2f2906112c0f760425256e647f032c2013243929636318323f667d0b0a1f6c633a
MAC = SHA256( hexDecode(Ko) + SHA256( hexDecode(Ki) + message ) )
result = b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
I tried to write the code to do this, after doing some research, but I keep coming up with different results.
private static void Main(string[] args)
{
var key = "57617b5d2349434b34734345635073433835777e2d244c31715535255a366773755a4d70532a5879793238235f707c4f7865753f3f446e633a21575643303f66";
var ki = "61574d6b157f757d02457573556645750e0341481b127a07476303136c005145436c7b46651c6e4f4f040e1569464a794e534309097258550c17616075060950";
var ko = "0b3d27017f151f17682f1f193f0c2f1f64692b227178106d2d096979066a3b2f2906112c0f760425256e647f032c2013243929636318323f667d0b0a1f6c633a";
var mm = "amount=100&currency=EUR";
var result1 = CalcHMACSHA256Hash(HexDecode(key), mm);
var result2 = CalcSha256Hash(string.Format("{0}{1}", HexDecode(ko), CalcSha256Hash(HexDecode(ki) + mm)));
Console.WriteLine("Expected: b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905");
Console.WriteLine("Actual 1: " + result1);
Console.WriteLine("Actual 2: " + result2);
Console.WriteLine("------------------------------");
Console.ReadKey();
}
private static string HexDecode(string hex)
{
var sb = new StringBuilder();
for (int i = 0; i <= hex.Length - 2; i += 2)
{
sb.Append(Convert.ToString(Convert.ToChar(Int32.Parse(hex.Substring(i, 2), System.Globalization.NumberStyles.HexNumber))));
}
return sb.ToString();
}
private static string CalcHMACSHA256Hash(string plaintext, string salt)
{
string result = "";
var enc = Encoding.Default;
byte[]
baText2BeHashed = enc.GetBytes(plaintext),
baSalt = enc.GetBytes(salt);
System.Security.Cryptography.HMACSHA256 hasher = new HMACSHA256(baSalt);
byte[] baHashedText = hasher.ComputeHash(baText2BeHashed);
result = string.Join("", baHashedText.ToList().Select(b => b.ToString("x2")).ToArray());
return result;
}
public static string CalcSha256Hash(string input)
{
SHA256 sha256 = new SHA256Managed();
byte[] sha256Bytes = Encoding.Default.GetBytes(input);
byte[] cryString = sha256.ComputeHash(sha256Bytes);
string sha256Str = string.Empty;
for (int i = 0; i < cryString.Length; i++)
{
sha256Str += cryString[i].ToString("x2");
}
return sha256Str;
}
And this is the result I get:
Expected: b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
Actual 1: 421ce16f2036bb9f2a3770c16f01e9220f0232d45580584ca41768fd16c15fe6
Actual 2: 290f14398bf8c0959dfc963e2fd9c377534c6fec1983025d2ab192382f132b92
So with none of the two methods, I can get the result the provider example wants.
What am I missing here? Is it encoding? Is my hexDecode screwed up?
Test tool from payment provider: http://tech.dibs.dk/dibs_api/other_features/hmac_tool/
PHP sample code: http://tech.dibspayment.com/dibs_api/other_features/mac_calculation/
Edit: You likely are looking for a quick and simple way to do HMAC-SHA256 and not get into the finer details. The original question asks of those finer details which are explained further below.
I want to perform a HMAC-SHA256 on a byte[] message input
using System.Security.Cryptography;
...
private static byte[] HashHMAC(byte[] key, byte[] message)
{
var hash = new HMACSHA256(key);
return hash.ComputeHash(message);
}
I want to perform HMAC-SHA256 but I have a hex string input
In .NET 5 and above, use System.Convert.FromHexString like so, (thanks #proximab). If you're on pre-.NET 5, scroll to "Helper functions" which has alternative solutions.
using System;
using System.Security.Cryptography;
...
private static byte[] HashHMACHex(string keyHex, string messageHex)
{
var key = Convert.FromHexString(hexKey);
var message = Convert.FromHexString(messageHex);
var hash = new HMACSHA256(key);
return hash.ComputeHash(message);
}
I'm using a strange API service that sort of does HMAC, but it's something custom
Continue reading. You likely want to use "Method 2" below as a reference point and adjust it to however your service wants you to implement HMAC for message anti-tampering.
How HMAC-SHA256 Works (should you need to know how...)
Here we will compute an HMAC-SHA256 manually (this answers "Method 2" from the original question).
Assume outerKey, innerKey, and message are already byte arrays, we perform the following:
Notation: Assume A + B concatenates byte array A and B. You may
alternatively see A || B notation used in more academic settings.
HMAC = SHA256( outerKey + SHA256( innerKey + message ) )
. . `------------------´ . .
\ \ `innerData` / /
\ `------------------------´ /
\ `innerHash` /
`----------------------------------´
`data`
So the code can be broken down into these steps (using the above as a guide):
Create an empty buffer byte[] innerData the length of innerKey.Length + message.Length (again assuming byte arrays)
Copy the innerKey and the message into the byte[] innerData
Compute SHA256 of innerData and store it in byte[] innerHash
Create an empty buffer byte[] data the length of outerKey.Length + innerHash.Length
Copy the outerKey and innerHash (from step #3)
Compute the final hash of data and store it in byte[] result and return it.
To do the byte copying I'm using the Buffer.BlockCopy() function since it apparently faster than some other ways (source).
n.b. There is likely (read: most certainly) a better way to do this using the the new ReadOnlySpan<T> API.
We can translate those steps into the following:
using System;
using System.Security.Cryptography;
...
private static byte[] HashSHA(byte[] innerKey, byte[] outerKey, byte[] message)
{
var hash = new SHA256Managed();
// Compute the hash for the inner data first
byte[] innerData = new byte[innerKey.Length + message.Length];
Buffer.BlockCopy(innerKey, 0, innerData, 0, innerKey.Length);
Buffer.BlockCopy(message, 0, innerData, innerKey.Length, message.Length);
byte[] innerHash = hash.ComputeHash(innerData);
// Compute the entire hash
byte[] data = new byte[outerKey.Length + innerHash.Length];
Buffer.BlockCopy(outerKey, 0, data, 0, outerKey.Length);
Buffer.BlockCopy(innerHash, 0, data, outerKey.Length, innerHash.Length);
byte[] result = hash.ComputeHash(data);
return result;
}
Helper functions
string -> byte[]
You have plain ASCII or UTF8 text, but need it to be a byte[].
Use ASCIIEncoding or UTF8Encoding or whichever exotic encoding you're using.
private static byte[] StringEncode(string text)
{
var encoding = new System.Text.ASCIIEncoding();
return encoding.GetBytes(text);
}
byte[] -> hex string
You have a byte[], but you need it to be a hex string.
private static string HashEncode(byte[] hash)
{
return BitConverter.ToString(hash).Replace("-", "").ToLower();
}
hex string -> byte[]
You have a hex string, but you need it to be a byte[]`.
.NET 5 and above
private static byte[] HexDecode(string hex) =>
System.Convert.FromHexString(hex);
Before .NET 5 (thanks #bobince)
private static byte[] HexDecode(string hex)
{
var bytes = new byte[hex.Length / 2];
for (int i = 0; i < bytes.Length; i++)
{
bytes[i] = byte.Parse(hex.Substring(i * 2, 2), NumberStyles.HexNumber);
}
return bytes;
}
n.b. If you need a performance tuned version on .NET Framework 4.x, you can alternatively backport the .NET 5+ version (by replacing ReadOnlySpan<byte> with byte[]). It uses proper lookup tables and conscious about hot-code paths. You can reference the .NET 5 (MIT licensed) System.Convert code on Github.
For completeness, here are the final methods answering the question using both "Method 1" and "Method 2"
"Method 1" (using .NET libraries)
private static string HashHMACHex(string keyHex, string message)
{
byte[] hash = HashHMAC(HexDecode(keyHex), StringEncode(message));
return HashEncode(hash);
}
"Method 2" (manually computed)
private static string HashSHAHex(string innerKeyHex, string outerKeyHex, string message)
{
byte[] hash = HashSHA(HexDecode(innerKeyHex), HexDecode(outerKeyHex), StringEncode(message));
return HashEncode(hash);
}
We can perform a quick sanity check with a console app:
static void Main(string[] args)
{
string message = "amount=100&currency=EUR";
string expectedHex = "b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905";
Console.WriteLine("Expected: " + expectedHex);
// Test out the HMAC hash method
string key = "57617b5d2349434b34734345635073433835777e2d244c31715535255a366773755a4d70532a5879793238235f707c4f7865753f3f446e633a21575643303f66";
string hashHMACHex = HashHMACHex(key, message);
Console.WriteLine("Method 1: " + hashHMACHex);
// Test out the SHA hash method
string innerKey = "61574d6b157f757d02457573556645750e0341481b127a07476303136c005145436c7b46651c6e4f4f040e1569464a794e534309097258550c17616075060950";
string outerKey = "0b3d27017f151f17682f1f193f0c2f1f64692b227178106d2d096979066a3b2f2906112c0f760425256e647f032c2013243929636318323f667d0b0a1f6c633a";
string hashSHAHex = HashSHAHex(innerKey, outerKey, message);
Console.WriteLine("Method 2: " + hashSHAHex);
}
You should have all the hashes line up correctly:
Expected: b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
Method 1: b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
Method 2: b436e3e86cb3800b3864aeecc8d06c126f005e7645803461717a8e4b2de3a905
The original code for this answer can be accessed at:
http://pastebin.com/xAAuZrJX
Here's a string extension method for getting a fairly standard HMAC SHA 256 token for a given string:
usage:
myMessageString.HmacSha256Digest(mySecret)
string extension method:
public static string HmacSha256Digest(this string message, string secret)
{
ASCIIEncoding encoding = new ASCIIEncoding();
byte[] keyBytes = encoding.GetBytes(secret);
byte[] messageBytes = encoding.GetBytes(message);
System.Security.Cryptography.HMACSHA256 cryptographer = new System.Security.Cryptography.HMACSHA256(keyBytes);
byte[] bytes = cryptographer.ComputeHash(messageBytes);
return BitConverter.ToString(bytes).Replace("-", "").ToLower();
}
You can use this method for HMACSHA256.
string key = "your key";
string message = "your message";
System.Text.ASCIIEncoding encoding = new System.Text.ASCIIEncoding();
byte[] keyByte = encoding.GetBytes(key);
HMACSHA256 hmacsha256 = new HMACSHA256(keyByte);
byte[] messageBytes = encoding.GetBytes(message);
byte[] hashmessage = hmacsha256.ComputeHash(messageBytes);
return ByteToString(hashmessage);
Here is the ByteToString method:
public static string ByteToString(byte[] buff)
{
string sbinary = "";
for (int i = 0; i < buff.Length; i++)
{
sbinary += buff[i].ToString("X2"); // hex format
}
return (sbinary);
}
A SHA hash is calculated on a sequence of bytes. Bytes are a profoundly different datatype to characters. You should not use character Strings to store binary data such as hashes.
sb.Append(Convert.ToString(Convert.ToChar(Int32.Parse(hex.Substring(i, 2)...
This creates a character string by reading each encoded byte and turning into a character of the same Unicode code point number. This is equivalent to decoding the bytes 0-255 using the ISO-8859-1 (Latin1) encoding, due to that encoding's property of matching the first 256 code points in Unicode.
var enc = Encoding.Default; [...]
baSalt = enc.GetBytes(salt);
byte[] sha256Bytes = Encoding.Default.GetBytes(input);
These both convert the characters back to bytes using the system default encoding. This encoding varies between installs, but it will never be ISO-8859-1 - even the similar Western European code page 1252 has different characters in the range 0x80-0x9F.
Consequently the byte array you are using doesn't contain the bytes implied by the example hex sequences. A cheap fix would be to use Encoding.GetEncoding("ISO-8859-1") instead of the default encoding, but really you should be using a bytes array to store data in the first place instead of a String, eg:
byte[] key= new byte[] { 0x57, 0x61, 0x7b, 0x5d, 0x23, 0x49, ... };
and pass that directly into ComputeHash.
If you must initialise data from a hex string, parse it directly into a byte array, eg:
private static byte[] HexDecode(string hex) {
var bytes= new byte[hex.Length/2];
for (int i= 0; i<bytes.Length; i++) {
bytes[i]= byte.Parse(hex.Substring(i*2, 2), NumberStyles.HexNumber);
}
return bytes;
}
I realize the question is answered, but I am posting this in case others need it. Here is a snippet of code created by the payment provider (DIBS):
/**
* calculateMac
* Calculates the MAC key from a Dictionary<string, string> and a secret key
* #param params_dict The Dictionary<string, string> object containing all keys and their values for MAC calculation
* #param K_hexEnc String containing the hex encoded secret key from DIBS Admin
* #return String containig the hex encoded MAC key calculated
**/
public static string calculateMac(Dictionary<string, string> paramsDict, string kHexEnc)
{
//Create the message for MAC calculation sorted by the key
var keys = paramsDict.Keys.ToList();
keys.Sort();
var msg = "";
foreach (var key in keys)
{
if (key != keys[0]) msg += "&";
msg += key + "=" + paramsDict[key];
}
//Decoding the secret Hex encoded key and getting the bytes for MAC calculation
var kBytes = new byte[kHexEnc.Length / 2];
for (var i = 0; i < kBytes.Length; i++)
{
kBytes[i] = byte.Parse(kHexEnc.Substring(i * 2, 2), NumberStyles.HexNumber);
}
//Getting bytes from message
var msgBytes = Encoding.Default.GetBytes(msg);
//Calculate MAC key
var hash = new HMACSHA256(kBytes);
var macBytes = hash.ComputeHash(msgBytes);
var mac = BitConverter.ToString(macBytes).Replace("-", "").ToLower();
return mac;
}
http://tech.dibspayment.com/DX/Hosted/HMAC
Thanks you saved my time.
request.Method = "GET";
string signature = "";
string strtime = DateTime.UtcNow.ToString("yyyy-MM-ddTHH\\:mm\\:ssZ");
string secret = "xxxx";
string message = "sellerid:email:" + strtime;
var encoding = new System.Text.ASCIIEncoding();
byte[] keyByte = encoding.GetBytes(secret);
byte[] messageBytes = encoding.GetBytes(message);
using (var hmacsha256 = new HMACSHA256(keyByte))
{
var hash = new HMACSHA256(keyByte);
byte[] signature1 = hash.ComputeHash(messageBytes);
signature = BitConverter.ToString(signature1).Replace("-", "").ToLower();
}
request.Headers.Add("authorization", "HMAC-SHA256" + " " +
"emailaddress=xxx#xx.com,timestamp=" + strtime + ",signature=" + signature);
HttpWebResponse response = request.GetResponse() as HttpWebResponse;
private static string GenerateSignature(string data, string signatureKey)
{
var keyByte = Encoding.UTF8.GetBytes(signatureKey);
using (var hmacsha256 = new HMACSHA256(keyByte))
{
hmacsha256.ComputeHash(Encoding.UTF8.GetBytes(data));
return hmacsha256.Hash.Aggregate("", (current, t) => current + t.ToString("X2")).ToLower();
}
}

md5 hash confusion

My company uses the following algorithm to hash passwords before store it in the database:
public static string Hash(string value)
{
byte[] valueBytes = new byte[value.Length * 2];
Encoder encoder = Encoding.Unicode.GetEncoder();
encoder.GetBytes(value.ToCharArray(), 0, value.Length, valueBytes, 0, true);
MD5 md5 = new MD5CryptoServiceProvider();
byte[] hashBytes = md5.ComputeHash(valueBytes);
StringBuilder stringBuilder = new StringBuilder();
for (int i = 0; i < hashBytes.Length; i++)
{
stringBuilder.Append(hashBytes[i].ToString("x2"));
}
return stringBuilder.ToString();
}
To me it sounds like a trivial md5 hash, but when I tried to match a password (123456) the algorithm gives me ce0bfd15059b68d67688884d7a3d3e8c, and when I use a standard md5 hash it gives me e10adc3949ba59abbe56e057f20f883e.
A iOS version of the site is being build, and the users needs to login, the password will be hashed before sent. I told the iOS team to use a standard md5 hash, but of course it don't worked out.
I can't unhash the password and hash it again using the standard md5 (of course), and I don't know what exactly tell to the iOS team, in order to get the same hash.
Any help?
You need to use the same encoding on both ends (probably UTF8).
If you replace your code with
byte[] hashBytes = md5.ComputeHash(Encoding.UTF8.GetBytes("123456"));
, you'll get e10adc3949ba59abbe56e057f20f883e.
You need to use UTF8 instead of Unicode. The following code works exactly like the PHP md5() function:
public static string md5(string value)
{
byte[] encoded = ASCIIEncoding.UTF8.GetBytes(value);
MD5CryptoServiceProvider md5Provider = new MD5CryptoServiceProvider();
byte[] hashCode = md5Provider.ComputeHash(encoded);
string ret = "";
foreach (byte a in hashCode)
ret += String.Format("{0:x2}", a);
return ret;
}

.NET Equivalent of MD5.hex() in Javascript

I'm trying to connect to a website I made with auth that uses MD5.hex(password) to encrypt the password before sending it to the PHP. How could I achieve the same encryption in C#?
EDIT1:
Javascript (YUI Library):
pw = MD5.hex(pw);
this.chap.value = MD5.hex(pw + this.token.value);
C#.NET
string pw = getMD5(getHex(getMD5(getHex(my_password)) + my_token));
Utility:
public string getMD5(string input)
{
// Create a new instance of the MD5CryptoServiceProvider object.
MD5 md5Hasher = MD5.Create();
// Convert the input string to a byte array and compute the hash.
byte[] data = md5Hasher.ComputeHash(Encoding.Default.GetBytes(input));
// Create a new Stringbuilder to collect the bytes
// and create a string.
StringBuilder sBuilder = new StringBuilder();
// Loop through each byte of the hashed data
// and format each one as a hexadecimal string.
for (int i = 0; i < data.Length; i++)
{
sBuilder.Append(data[i].ToString("x2"));
}
// Return the hexadecimal string.
return sBuilder.ToString();
}
public string getHex(string asciiString)
{
string hex = "";
foreach (char c in asciiString)
{
int tmp = c;
hex += String.Format("{0:x2}", (uint)System.Convert.ToUInt32(tmp.ToString()));
}
return hex;
}
Using .NET's MD5 Class in the System.Security.Cryptography namespace.
The link above contains a short code example; you might also want to check out Jeff Attwood's CodeProject article .NET Encryption Simplified.

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