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I am after a symmetric encryption/decryption routine in C#. I know there have been a few questions on this topic before, but most of the answers seem to be about the philosophy of encryption rather than giving actual code.

Update: I'd really like to see some code, rather than just links. Many thanks!

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1  
Is Rijndael not symmetric? –  Ian P Jan 27 '10 at 22:22
1  
I'd recommend using Rijndael, then :) –  Ian P Jan 27 '10 at 22:25
10  
Never use encryption technology for something it was not intended for. Encryption was not designed to protect a secret from a fully-trusted user, and cannot be safely used for that. If your user can run a program that decrypts the data then the user can decrypt the data. What you're trying to do is a very, very bad idea and I strongly encourage you to not do so. –  Eric Lippert Jan 27 '10 at 22:39
1  
Make the server robust in the face of hostile clients. –  Eric Lippert Jan 27 '10 at 22:47
5  
Sure there is. The user isn't executing trades on their home computer, and they are not reporting audit logs to their home computer. There are at least two servers involved: the broker's server and the audit server. Those are the ones that you can trust, so your security system should be relying on them, not on the presumed-hostile user. (If the brokers are hostile to you and the customers and brokers are conspiring to rip you off, then you have an even bigger problem.) –  Eric Lippert Jan 27 '10 at 23:14

6 Answers 6

up vote 8 down vote accepted

Look at the example code at the bottom of this page.

Copy-pasting it here:

int Rfc2898KeygenIterations= 100;
int AesKeySizeInBits = 128;
String Password = "VerySecret!";
byte[] Salt = new byte[16];
System.Random rnd = new System.Random(); 
rnd.NextBytes(Salt);
byte[] rawPlaintext = System.Text.Encoding.Unicode.GetBytes("This is all clear now!");
byte[] cipherText= null;
byte[] plainText= null;
using (Aes aes = new AesManaged())
{
    aes.Padding = PaddingMode.PKCS7;
    aes.KeySize = AesKeySizeInBits;
    int KeyStrengthInBytes= aes.KeySize/8;
    System.Security.Cryptography.Rfc2898DeriveBytes rfc2898 =
        new System.Security.Cryptography.Rfc2898DeriveBytes(Password, Salt, Rfc2898KeygenIterations);
    aes.Key = rfc2898.GetBytes(KeyStrengthInBytes);
    aes.IV = rfc2898.GetBytes(KeyStrengthInBytes);
    using (MemoryStream ms = new MemoryStream())
    {
        using (CryptoStream cs = new CryptoStream(ms, aes.CreateEncryptor(), CryptoStreamMode.Write))
        {
            cs.Write(rawPlaintext, 0, rawPlaintext.Length);
        }
        cipherText= ms.ToArray();
    }

    using (MemoryStream ms = new MemoryStream())
    {
        using (CryptoStream cs = new CryptoStream(ms, aes.CreateDecryptor(), CryptoStreamMode.Write))
        {
            cs.Write(cipherText, 0, cipherText.Length);
        }
        plainText = ms.ToArray();
    }
}
string s = System.Text.Encoding.Unicode.GetString(plainText);
Console.WriteLine(s);
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4  
Ewww, using the non-secure Random to create the salt? Bad bad idea. –  blowdart Jan 27 '10 at 22:53
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@blowdart - Nope. Salt and IV need to be as unique as possible, but generating them securely means nothing. Secure random means random that's hard to predict, and you don't care if your IV or salt are predicted - they're passed/stored in plaintext anyway. –  orip Jan 27 '10 at 23:20
    
@blowdart - I concede your point about IV in CBC mode. It doesn't hold for for salt in PBKDF2 though. –  orip Jan 27 '10 at 23:23

Well for starters keys are not strings, keys are binary blobs. PlainText is the same, it's not actually text, again it's a binary blob.

Now of course you can convert strings to byte arrays using Encoding.UTF8.GetBytes(message), however when converting keys back and forth it's a little more complicated, you usually use Convert.ToBase64String and Convert.FromBase64String.

Don't forget that block ciphers also need one more thing, the Initialization Vector, so really your method signatures should be

byte[] Encrypt(byte[] plainText, byte[] key, byte[] iv)

byte[] Decrypt(byte[] cipherText, byte[] key, byte[] iv)

The key and IVs must be cryptographically secure random numbers, don't just type them and don't use C#'s Random function. The size of the key and the IV depend on the cipher algorithm used, and can be accessed by the properties on the classes.

To generate a CSRPNG you do something like

RNGCryptoServiceProvider rng = new RNGCryptoServiceProvider();
byte[] key = new byte[algorithm.KeySizeValue / 8];
rng.GetBytes(key);
byte[] iv = new byte[algorithm.BlockSizeValue / 8];
rng.GetBytes(iv);

You can also use the Rfc2898DeriveBytes class to derive a key and IV from a password and a salt, but again the salt should be a cryptographically secure random number. You should also note when you create a symmetric algorithm a secure key and IV is generated for you.

This way you can then choose the correct encoding for your text, be it UTF8, ASCII or whatever. The links have enough samples so cutting and pasting in here is rather pointless.

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1  
The IVs do not need to be cryptographically secure, only the keys do. –  orip Jan 27 '10 at 22:53
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Not true, in CBC mode, the IV must be unpredictable at the time of encryption –  blowdart Jan 27 '10 at 23:01
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Thanks, wasn't aware of that. –  orip Jan 27 '10 at 23:24

Here's a simple solution that I found on a VB.NET forum and converted to C#. It certainly helped me understand the topic better.

// Shamelessly lifted from http://discuss.itacumens.com/index.php?topic=62872.0, 
// then converted to C# (http://www.developerfusion.com/tools/convert/vb-to-csharp/) and
// changed where necessary.
public class Encryptor
{
    private static SymmetricAlgorithm _cryptoService = new TripleDESCryptoServiceProvider(); 
    // maybe use AesCryptoServiceProvider instead?

    // vector and key have to match between encryption and decryption
    public static string Encrypt(string text, byte[] key, byte[] vector)
    {
        return Transform(text, _cryptoService.CreateEncryptor(key, vector));
    }

    // vector and key have to match between encryption and decryption
    public static string Decrypt(string text, byte[] key, byte[] vector)
    {
        return Transform(text, _cryptoService.CreateDecryptor(key, vector));
    }

    private static string Transform(string text, ICryptoTransform cryptoTransform)
    {
        MemoryStream stream = new MemoryStream();
        CryptoStream cryptoStream = new CryptoStream(stream, cryptoTransform, CryptoStreamMode.Write);

        byte[] input = Encoding.Default.GetBytes(text);

        cryptoStream.Write(input, 0, input.Length);
        cryptoStream.FlushFinalBlock();

        return Encoding.Default.GetString(stream.ToArray());
    }
}
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what u want are cryptoserviceproviders in the class library

like this one for AES

http://msdn.microsoft.com/en-us/library/system.security.cryptography.aescryptoserviceprovider_members.aspx

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Convert your text, key and initialization vector to bytes first using the encoding of your choice. Then use the triple DES provider, as demonstrated here:

http://msdn.microsoft.com/en-us/library/system.security.cryptography.tripledes.aspx

Or the one for AES, if you think triple DES is too old-school, or whatever.

Out of curiosity, how are you planning on communicating the secret key?

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1  
So you're trying to encrypt data to stop the user reading it? –  Anon. Jan 27 '10 at 22:32
    
For DES, the key and IV can be anything string of characters, right? –  Craig Schwarze Jan 27 '10 at 22:35
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Hardcoding the key in the source of a .NET application is hopelessly insecure. All the user has to do is download Reflector and the key is right there in plain sight. –  Will Vousden Jan 27 '10 at 23:05

GPG for data at rest. TLS for data in motion.

GPG http://sourceforge.net/projects/starksoftopenpg/

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1  
don't forget bagels for breakfast. –  GregS Jan 28 '10 at 0:23

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