How do I hash an users input(password) to database and then later read the hashed password during login?

I believe the solution is to hash the password upon register, where the password is saved as hashed inside db. Later upon Login, it should un-hash and compare its password with users password-input. But I don't know how to do it.

I allowed password to have nvarchar(MAX)in db since hashed password are usually long.

        [StringLength(MAX, MinimumLength = 3, ErrorMessage = "min 3, max 50 letters")]
        public string Password { get; set; }


        public ActionResult Register(User user) {
            if (ModelState.IsValid) {

                        var u = new User {
                            UserName = user.UserName,                               
                            Password = user.Password


                    return RedirectToAction("Login");
            }return View();    


  public ActionResult Login() {
        return View();

    public ActionResult Login(User u) {
        if (ModelState.IsValid) 
            using (UserEntities db = new UserEntities()) {

                //un-hash password?

                var v = db.Users.Where(a => a.UserName.Equals(u.UserName) && a.Password.Equals(u.Password)).FirstOrDefault();
                if (v != null) {

                    return RedirectToAction("Index", "Home"); //after login
        }return View(u);

I'm using database first.

  • 2
    You do not encrypt passwords. You hash them. – user3559349 Oct 1 '16 at 1:32
  • @StephenMuecke Thanks! I fixed it. – Ezony Oct 1 '16 at 1:36
  • 1
    Why are you not using Identity which will do this all out of the box? If you want do do all this manually, then refer this blog – user3559349 Oct 1 '16 at 1:38
  • Why did you posted same question twice? Have you looked at the answers here? stackoverflow.com/questions/39802862/mvc-how-to-hash-and-salt – Farukh Oct 1 '16 at 5:37
  • Just using a hash function is not sufficient and just adding a salt does little to improve the security. Instead iIterate over an HMAC with a random salt for about a 100ms duration and save the salt with the hash. Use functions such as PBKDF2, password_hash, Bcrypt and similar functions. The point is to make the attacker spend a lot of time finding passwords by brute force. – zaph Oct 1 '16 at 11:39

You should never need to unhash a password. A cryptographic hash function is supposed to be a one-way operation.

(And that's precisely why it is called hashing and not encrypting. If unhashing passwords was to be a normal procedure in your flow of operations, then it would not be hashing and unhashing, it would be encrypting and decrypting. So, hashing is a different thing from encryption, precisely because unhashing is not supposed to ever happen.)

Hashing provides security, because nobody can steal your user's passwords even if they manage to view the contents of your database.

  • When the user registers, compute the hash of their password, store the hash in the database, and forget the password forever.

  • When the user logs in, compute the hash of the password they entered, (forget that password too,) and see if the hash matches the hash stored in the database.

This is the mechanism used by most websites out there, and that's precisely why if you successfully go through the "I forgot my password" procedure, they will still not show you your password: they don't have it; they cannot retrieve it even if they wanted to. Instead, they send you a password reset link.

As for how to compute a hash from a string, the interwebz abound with answers to that question, for example: MD5 (MSDN); SHA-256 (MSDN); SHA-512 (MSDN)

  • If i write "Password" and it get hashed and I wrote another another "Password", will they both have same hash-value then? Or are they getting random hash-value every time time? If randomly, then how is it possible to compare the password when user log in? If not randomly, is it possible to steal users hash-value and log in with it(somehow bypass/avoid hashing the stolen hashed-password)? – Ezony Oct 1 '16 at 2:10
  • 2
    @Ezony they would have the same hash every time. Great answer here Mike. – Jonesopolis Oct 1 '16 at 2:14
  • @Ezony they would have the same hash. That's why you create a salt which is just a string of random characters to tack on to the end. You then store the salt and hash. When they type the password you add the salt then hash it to see if it compares with the salted hash you have stored. Each password gets a different salt; therefore, all hashes are unique even if the password is the same. – tphx Oct 1 '16 at 2:15
  • @tphx Ah interesting. Is there any easy demonstration you know that I can follow? For hash and salt. – Ezony Oct 1 '16 at 2:35
  • 1
    @Ezony If you are going to store passwords yourself, at least use a decent hashing algorithm like bcrypt. Not MD5. – juunas Oct 1 '16 at 6:34

Use the System.Web.Helpers.Crypto NuGet package from Microsoft.

You hash a password like this: var hash = Crypto.HashPassword("foo");

You verify a password like this: var verified = Crypto.VerifyHashedPassword(hash, "foo");


When it comes to security don't try to reinvent the wheel. Use Claims based authentication.

If you still must manage usernames and passwords use Hash-based message authentication code (HMAC)

I would also recommend investing sometime and reading Enterprise Security Best Practices. There are already smarter people who solved this problems why reinvent the wheel. And .NET has all the goodies there.

Example below:

using System.Security.Cryptography;
using System.Text;

public static class MyHmac
    private const int SaltSize = 32;

    public static byte[] GenerateSalt()
        using (var rng = new RNGCryptoServiceProvider())
            var randomNumber = new byte[SaltSize];


            return randomNumber;


    public static byte[] ComputeHMAC_SHA256(byte[] data, byte[] salt)
        using (var hmac = new HMACSHA256(salt))
            return hmac.ComputeHash(data);

string orgMsg = "Original Message";
        string otherMsg = "Other Message";

        Console.WriteLine("HMAC SHA256 Demo in .NET");


        var salt = MyHmac.GenerateSalt();

        var hmac1 = MyHmac.ComputeHMAC_SHA256(Encoding.UTF8.GetBytes(orgMsg), salt);
        var hmac2 = MyHmac.ComputeHMAC_SHA256(Encoding.UTF8.GetBytes(otherMsg), salt);

        Console.WriteLine("Original Message Hash:{0}", Convert.ToBase64String(hmac1));
        Console.WriteLine("Other Message Hash:{0}", Convert.ToBase64String(hmac2));

NOTE: Salts do not have to be kept secret and can be stored alongside the hash itself. It's to increase security from rainbow table attack. Please don't post same question twice. Duplicate from here.

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