Showing posts with label dotnet. Show all posts
Showing posts with label dotnet. Show all posts

Sunday, 31 December 2023

Password hashing in .NET

This article will look on different ways to hash a password in .NET. MD5 was developed by Ron Rivest in 1991 and was used a lot in the 90s, but in 2005 it was revealed it contains collisions. MD5 and SHA-1 is not advised to used in sensitive hashing related to security anymore. Instead, a PBKDF or Password Derived Key-derivation function algorithm will be used. A PBKDF2-based method in Rfc2898DeriveBytes will be used. It has been available since .NET 6. Users of Asp.net Core Identity are recommended to use PasswordHasher instead : https://andrewlock.net/exploring-the-asp-net-core-identity-passwordhasher/ An overview of the arithmetic flow of PBKDF2 is shown below. In the diagram, SHA-512 is indicated, but the code shown in this article
uses SHA-256.

First off, to do a MD5 hash we can use the following :
 
 
 static string Md5(string input){
	using (var md5 = MD5.Create()){
		var byteHash = md5.ComputeHash(Encoding.UTF8.GetBytes(input)); 
		var hash = BitConverter.ToString(byteHash).Replace("-", "");
		return hash;
	}
}
 
 
And to test it out we can run the following:
 
 
 void Md5Demo()
{
	string inputPassword = "abc123";
	string md5Hash = Md5(inputPassword);
	Console.WriteLine("MD5 Demonstration in .NET");
	Console.WriteLine("-------------------------");
	Console.WriteLine($"Password to hash: {inputPassword}");
	Console.WriteLine($"MD5 hashed password: {md5Hash}");
	Console.WriteLine();
} 
 
 

MD5 Demonstration in .NET ------------------------- Password to hash: abc123 MD5 hashed password: E99A18C428CB38D5F260853678922E03 The MD5 hash above agrees with the online MD5 hash here: https://www.md5hashgenerator.com/ MD5 method here does not mention any salt, but this could be concatenated with the password to prevent against rainbow table attacks, that is dictionary attacks. Next, to perform PDKDF2 hashing, the code below can be used. Note that this algorithm will be run iteratively to generate a hash value that is increasingly more computationally expensive to calculate the hash of compared to the number of iterations and includes a salt, making it scalable
to be more and more difficult for attacks.


static byte[] _salt = RandomNumberGenerator.GetBytes(32);

static void HashPassword(string passwordToHash, int numberOfRounds)
{
	var sw = Stopwatch.StartNew();
	var hashedPassword = Rfc2898DeriveBytes.Pbkdf2(
		passwordToHash,
		_salt,
		numberOfRounds,
		HashAlgorithmName.SHA256,
		32);
	sw.Stop();

	Console.WriteLine();
	Console.WriteLine("Password to hash : " + passwordToHash);
	Console.WriteLine("Hashed Password : " + Convert.ToBase64String(hashedPassword));
	Console.WriteLine("Iterations < " + numberOfRounds + "> Elapsed Time: " + sw.ElapsedMilliseconds + " ms");
}


The value 32 here is the desired output length of the hash, we can decide how long the hash we get out of the call to the method. We can then test out the Pbkdf2 method using an increasing number of iterations.
 
 
 void RunPbkdf2HashDemo()
{
	const string passwordToHash = "abc123";

	Console.WriteLine("Password Based Key Derivation Function Demonstration in .NET");
	Console.WriteLine("------------------------------------------------------------");
	Console.WriteLine();
	Console.WriteLine("PBKDF2 Hashes using Rfc2898DeriveBytes");
	Console.WriteLine();

	HashPassword(passwordToHash, 1);
	HashPassword(passwordToHash, 10);
	HashPassword(passwordToHash, 100);
	HashPassword(passwordToHash, 1000);
	HashPassword(passwordToHash, 10000);
	HashPassword(passwordToHash, 100000);
	HashPassword(passwordToHash, 1000000);
	HashPassword(passwordToHash, 5000000);
} 
 
 
This gives the following output:
 
 
Password Based Key Derivation Function Demonstration in .NET
------------------------------------------------------------

PBKDF2 Hashes using Rfc2898DeriveBytes

Password to hash : abc123
Hashed Password : eqeul5z7l2dPrOo8WjH/oTt0RYHvlZ2lvk8SUoTjZq4=
Iterations (1) Elapsed Time: 0 ms

Password to hash : abc123
Hashed Password : wfd8qQobzBPZvdemqrtZczqctFe0JeAkKjU3IJ48cms=
Iterations (10) Elapsed Time: 0 ms

Password to hash : abc123
Hashed Password : VY45SxzhqjYronha0kt1mQx+JRDVlXj82prX3H7kjII=
Iterations (100) Elapsed Time: 0 ms

Password to hash : abc123
Hashed Password : B0LfHgRSslG/lWe7hbp4jb8dEqQ/bZwNtxsaqbVBZ2I=
Iterations (1000) Elapsed Time: 0 ms

Password to hash : abc123
Hashed Password : LAHwpS4bnbO7CQ1r7buYgUTrp10FyaRyeK6hCwGwv20=
Iterations (10000) Elapsed Time: 1 ms

Password to hash : abc123
Hashed Password : WDjyPySpULXtVOVmSR9cYlzAY4LWeJqDBhszKAfIaPc=
Iterations (100000) Elapsed Time: 13 ms

Password to hash : abc123
Hashed Password : sDx6sOrTl2b7cNZGUAecg7YO4Md/g3eAtfQSvh/vxpM=
Iterations (1000000) Elapsed Time: 127 ms

Password to hash : abc123
Hashed Password : ruywLaR0QApOU5bkqE/x2AAhYJzBj5y6D3P3IxlIF2I=
Iterations (5000000) Elapsed Time: 643 ms
 
 
Note that it takes many iterations before the computation takes significant time. Sources / links :