Cryptography in .NET : Advanced Encryption Standard (AES)

I have released an Open Source libray under the GPL 3.0 license called Block Encrypter that builds on the code discussed in this article. If you need to do reliable and secure symmedtric encryption then this library would be very useful to you.

I thought I would start a little series on using some of the cryptography primitives in .NET. Cryptography and Encryption is something that most developers working on enterprise applications will come across, especially if you work in the financial services industry.

Advanced Encryption Standard (AES)
Advanced Encryption Standard (AES)

Whilst cryptography is a fascinating subject and the design of these algorithms is very interesting, I do not recommend using an algorithm that you have designed yourself. The standard algorithms in practice today have been through lots of analysis by experts both in private industry and governments all around the world trying to find faults and weaknesses, so you are much better off using these recommended systems.

The main algorithms fall into 2 categories, Symmetric encryption and Asymmetric encryption. Symmetric encryption contains algorithms that are based solely on an encryption key. For example, if you encrypt some plaintext with Key1 you get a cipher text out the other end. If you then decrypt the cipher text with the same key (Key1) you will get back to the original plaintext.

Asymmetric encryption works by having 2 keys, a public and private key. These keys are mathematically derived from each other. The public key can be used by anyone and the private key has to be kept secret. I will talk about asymmetric encryption and more specifically RSA in another post.

For this first article I am going to look at the AES symmetric algorithm. AES stands for the Advanced Encryption Standard. This was a competition winner when the National Institute of Standards and Technology ran a contest to replace the already broken DES algorithm.

What I will show in this article is a good practical implementation of AES in .NET. We will start with the following interface. The interface contains 2 methods, Encrypt and Decrypt. They methods take cipher text/plaintext and an encryption key.

using System;

namespace CryptoLibrary
{
    public interface IAES
    {
        string Decrypt(string ciphertext, string key);
        string Encrypt(string plainText, string key);
    }
}

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