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I'm looking for very simple encrypt and decrypt functionality for some data. It's not mission critical. I need something to keep honest people honest, but something a little stronger than ROT13 or Base64.

I'd prefer something that is already included in the .NET framework 2.0, so I don't have to worry about any external dependencies.

I really don't want to have to mess around with public/private keys, etc. I don't know much about encryption, but I do know enough to know that anything I wrote would be less than worthless... In fact, I'd probably screw up the math and make it trivial to crack.

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2  
Hi Mark -- no problem. I felt bad that I had to unaccept the answer from richdiet, as I did actually use his solution and it worked just fine. However, I kept coming back here to read the other answers, and yours really is better. No reason to tell people to use something that, while it works, is not really a great way to do something when there is a better answer available. –  Matt Dawdy Feb 7 '10 at 3:53
3  
Save yourself hours and use the HttpServerUtility.UrlTokenEn/Decode to convert back and forth from the byte arrays to a url friendly string. –  Praesagus Feb 13 '10 at 0:25
19  
+1 for not trying to roll your own clever design. You may not know much about encryption, but the fact that you know that puts you lightyears ahead of most developers I've met who don't know much about encryption but think they can create their own solution anyway. –  Dinah Mar 11 '10 at 18:26
1  
Attention: Many of the answers in this question are unauthenticated encryption only. This means that the attacker can change the data without the app noticing. It leads to other serious vulnerabilities as well (like decryption without key due to padding oracle). TL;DR: Don't use the code in the answers given if you are not OK with that, or don't understand what I just said. –  usr Jan 26 '13 at 16:51
    
This question has two stipulations, "not mission critical security", and "no external dependencies" and for most that is going to hurt them security wise copying and pasting these answers. Ideally, you want to use a high level open source library for better security, disclaimer: I ported this to c# so it would exist., If that isn't going to work, don't make concessions, authenticate the ciphertext, properly use the IV, such as in my Modern Examples of Symmetric Authenticated Encryption of a string C#. –  jbtule Feb 20 '13 at 13:54

19 Answers 19

up vote 355 down vote accepted

Other answers here work fine, but AES is a more secure and up-to-date encryption algorithm. This is a class that I obtained a few years ago to perform AES encryption that I have modified over time to be more friendly for web applications (e,g. I've built Encrypt/Decrypt methods that work with URL-friendly string). It also has the methods that work with byte arrays.

NOTE: you should use different values in the Key and Vector arrays! You wouldn't want someone to figure out your keys by just assuming that you used this code as-is! All you have to do is change some of the numbers (must be <= 255) in the Key and Vector arrays (I left one invalid value in the Vector array to make sure you do this...).

Using it is easy: just instantiate the class and then call (usually) EncryptToString(string StringToEncrypt) and DecryptString(string StringToDecrypt) as methods. It couldn't be any easier (or more secure) once you have this class in place.


using System;
using System.Data;
using System.Security.Cryptography;
using System.IO;


public class SimpleAES
{
    // Change these keys
    private byte[] Key = { 123, 217, 19, 11, 24, 26, 85, 45, 114, 184, 27, 162, 37, 112, 222, 209, 241, 24, 175, 144, 173, 53, 196, 29, 24, 26, 17, 218, 131, 236, 53, 209 };
    private byte[] Vector = { 146, 64, 191, 111, 23, 3, 113, 119, 231, 121, 2521, 112, 79, 32, 114, 156 };


    private ICryptoTransform EncryptorTransform, DecryptorTransform;
    private System.Text.UTF8Encoding UTFEncoder;

    public SimpleAES()
    {
        //This is our encryption method
        RijndaelManaged rm = new RijndaelManaged();

        //Create an encryptor and a decryptor using our encryption method, key, and vector.
        EncryptorTransform = rm.CreateEncryptor(this.Key, this.Vector);
        DecryptorTransform = rm.CreateDecryptor(this.Key, this.Vector);

        //Used to translate bytes to text and vice versa
        UTFEncoder = new System.Text.UTF8Encoding();
    }

    /// -------------- Two Utility Methods (not used but may be useful) -----------
    /// Generates an encryption key.
    static public byte[] GenerateEncryptionKey()
    {
        //Generate a Key.
        RijndaelManaged rm = new RijndaelManaged();
        rm.GenerateKey();
        return rm.Key;
    }

    /// Generates a unique encryption vector
    static public byte[] GenerateEncryptionVector()
    {
        //Generate a Vector
        RijndaelManaged rm = new RijndaelManaged();
        rm.GenerateIV();
        return rm.IV;
    }


    /// ----------- The commonly used methods ------------------------------    
    /// Encrypt some text and return a string suitable for passing in a URL.
    public string EncryptToString(string TextValue)
    {
        return ByteArrToString(Encrypt(TextValue));
    }

    /// Encrypt some text and return an encrypted byte array.
    public byte[] Encrypt(string TextValue)
    {
        //Translates our text value into a byte array.
        Byte[] bytes = UTFEncoder.GetBytes(TextValue);

        //Used to stream the data in and out of the CryptoStream.
        MemoryStream memoryStream = new MemoryStream();

        /*
         * We will have to write the unencrypted bytes to the stream,
         * then read the encrypted result back from the stream.
         */
        #region Write the decrypted value to the encryption stream
        CryptoStream cs = new CryptoStream(memoryStream, EncryptorTransform, CryptoStreamMode.Write);
        cs.Write(bytes, 0, bytes.Length);
        cs.FlushFinalBlock();
        #endregion

        #region Read encrypted value back out of the stream
        memoryStream.Position = 0;
        byte[] encrypted = new byte[memoryStream.Length];
        memoryStream.Read(encrypted, 0, encrypted.Length);
        #endregion

        //Clean up.
        cs.Close();
        memoryStream.Close();

        return encrypted;
    }

    /// The other side: Decryption methods
    public string DecryptString(string EncryptedString)
    {
        return Decrypt(StrToByteArray(EncryptedString));
    }

    /// Decryption when working with byte arrays.    
    public string Decrypt(byte[] EncryptedValue)
    {
        #region Write the encrypted value to the decryption stream
        MemoryStream encryptedStream = new MemoryStream();
        CryptoStream decryptStream = new CryptoStream(encryptedStream, DecryptorTransform, CryptoStreamMode.Write);
        decryptStream.Write(EncryptedValue, 0, EncryptedValue.Length);
        decryptStream.FlushFinalBlock();
        #endregion

        #region Read the decrypted value from the stream.
        encryptedStream.Position = 0;
        Byte[] decryptedBytes = new Byte[encryptedStream.Length];
        encryptedStream.Read(decryptedBytes, 0, decryptedBytes.Length);
        encryptedStream.Close();
        #endregion
        return UTFEncoder.GetString(decryptedBytes);
    }

    /// Convert a string to a byte array.  NOTE: Normally we'd create a Byte Array from a string using an ASCII encoding (like so).
    //      System.Text.ASCIIEncoding encoding = new System.Text.ASCIIEncoding();
    //      return encoding.GetBytes(str);
    // However, this results in character values that cannot be passed in a URL.  So, instead, I just
    // lay out all of the byte values in a long string of numbers (three per - must pad numbers less than 100).
    public byte[] StrToByteArray(string str)
    {
        if (str.Length == 0)
            throw new Exception("Invalid string value in StrToByteArray");

        byte val;
        byte[] byteArr = new byte[str.Length / 3];
        int i = 0;
        int j = 0;
        do
        {
            val = byte.Parse(str.Substring(i, 3));
            byteArr[j++] = val;
            i += 3;
        }
        while (i < str.Length);
        return byteArr;
    }

    // Same comment as above.  Normally the conversion would use an ASCII encoding in the other direction:
    //      System.Text.ASCIIEncoding enc = new System.Text.ASCIIEncoding();
    //      return enc.GetString(byteArr);    
    public string ByteArrToString(byte[] byteArr)
    {
        byte val;
        string tempStr = "";
        for (int i = 0; i <= byteArr.GetUpperBound(0); i++)
        {
            val = byteArr[i];
            if (val < (byte)10)
                tempStr += "00" + val.ToString();
            else if (val < (byte)100)
                tempStr += "0" + val.ToString();
            else
                tempStr += val.ToString();
        }
        return tempStr;
    }
}
share|improve this answer
6  
+1 This should of been the accepted answer. Awesome answer..Thanks!!! –  Donny V. Apr 13 '09 at 2:26
47  
@AndyMcKenna - That's done on purpose so that you change the values in the arrays, as Mark notes in the second paragraph. –  Pauk Dec 2 '09 at 12:27
5  
Converting to base 64 then URL encoding would result in less code and more compact output. –  Mud Mar 31 '11 at 23:07
15  
You should not use the IV like this. For a given two messages, they should not have been encrypted with the same Key and same IV. The IV should be random for each message, prepended to the cryptostream, and read out before decryption. crypto.stackexchange.com/a/82/1934 –  jbtule Apr 27 '12 at 13:39
6  
Using a random IV for each message is not exotic or new, just important and part of the design of the algorithm. Using a predictable IV for every message is a common crypto mistake that doesn't need to be perpetuated. –  jbtule Apr 27 '12 at 16:08

I cleaned up SimpleAES (above) for my use. Fixed convoluted encrypt/decrypt methods; separated methods for encoding byte buffers, strings, and URL-friendly strings; made use of existing libraries for URL encoding.

The code is small, simpler, faster and the output is more concise. For instance, johnsmith@gmail.com produces:

SimpleAES: "096114178117140150104121138042115022037019164188092040214235183167012211175176167001017163166152"
SimplerAES: "YHKydYyWaHmKKnMWJROkvFwo1uu3pwzTr7CnARGjppg%3d"

Code:

public class SimplerAES
{
    private static byte[] key = { 123, 217, 19, 11, 24, 26, 85, 45, 114, 184, 27, 162, 37, 112, 222, 209, 241, 24, 175, 144, 173, 53, 196, 29, 24, 26, 17, 218, 131, 236, 53, 209 };
    private static byte[] vector = { 146, 64, 191, 111, 23, 3, 113, 119, 231, 121, 221, 112, 79, 32, 114, 156 };
    private ICryptoTransform encryptor, decryptor;
    private UTF8Encoding encoder;

    public SimplerAES()
    {
        RijndaelManaged rm = new RijndaelManaged();
        encryptor = rm.CreateEncryptor(key, vector);
        decryptor = rm.CreateDecryptor(key, vector);
        encoder = new UTF8Encoding();
    }

    public string Encrypt(string unencrypted)
    {
        return Convert.ToBase64String(Encrypt(encoder.GetBytes(unencrypted)));
    }

    public string Decrypt(string encrypted)
    {
        return encoder.GetString(Decrypt(Convert.FromBase64String(encrypted)));
    }

    public byte[] Encrypt(byte[] buffer)
    {
        return Transform(buffer, encryptor);
    }

    public byte[] Decrypt(byte[] buffer)
    {
        return Transform(buffer, decryptor);
    }

    protected byte[] Transform(byte[] buffer, ICryptoTransform transform)
    {
        MemoryStream stream = new MemoryStream();
        using (CryptoStream cs = new CryptoStream(stream, transform, CryptoStreamMode.Write))
        {
            cs.Write(buffer, 0, buffer.Length);
        }
        return stream.ToArray();
    }
}
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12  
you have won the internet. –  Dexter Legaspi May 2 '13 at 19:38
1  
When decoding, I had to replace space with + for it to work with QueryString in Chrome: (new SimplerAES()).Decrypt(Request.QueryString["myParam"].Replace(' ', '+')); –  40-Love Oct 30 '13 at 18:56
2  
Do not ever use a constant Initialization Vector, see: crypto.stackexchange.com/questions/66/… for more information about why. Instead, generate a new IV for each encryption and append it to the cryptotext, so much better and not to hard. –  Tom Heard Dec 3 '13 at 2:17
    
EncryptToUrl and DecryptFromUrl don't have any necessary business in this class. Otherwise ; great answer. –  Timothy Groote Jan 8 at 9:00
1  
Be aware that the output of the EncryptToUrl method in this solution (or any use of an UrlEncoded base 64 string in general) won't work by default under IIS 7 when used as part of an URL path (not query string), as in an ASP.NET MVC route, due to an IIS 7 security setting. For more, see: stackoverflow.com/a/2014121/12484 –  Jon Schneider Feb 28 at 20:18

Yes, add the System.Security assembly, import the System.Security.Cryptography namespace. Here's a simple example of a symmetric (DES) algorithm encryption:

DESCryptoServiceProvider des = new DESCryptoServiceProvider();
des.GenerateKey();
byte[] key = des.Key; // save this!

ICryptoTransform encryptor = des.CreateEncryptor();
// encrypt
byte[] enc = encryptor.TransformFinalBlock(new byte[] { 1, 2, 3, 4 }, 0, 4);

ICryptoTransform decryptor = des.CreateDecryptor();

// decrypt
byte[] originalAgain = decryptor.TransformFinalBlock(enc, 0, enc.Length);
Debug.Assert(originalAgain[0] == 1);
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4  
This is a nice, compact two-way encryption. The only caveat is that DES is no longer considered state-of-the-art security. That title now goes to the AES algorithm I discuss below. –  Mark Brittingham Dec 12 '08 at 13:04
    
@richdiet. I'm sorry I unaccepted your answer. The other answer with 37+ votes because it is more current. Thank you for your answer, as it is still a good one. –  Matt Dawdy Feb 6 '10 at 23:11
3  
@MarkBrittingham: any block cipher without block chaining function, initialisation vector and proper padding is insecure. Using DES is the least important problem with this scheme. –  Hubert Kario Aug 19 '12 at 1:00
    
So where is the key used? –  Alex Oct 31 '13 at 13:19

A variant of Marks (excellent) answer

  • Add "using"s
  • Make the class IDisposable
  • Remove the URL encoding code to make the example simpler.
  • Add a simple test fixture to demonstrate usage

Hope this helps

[TestFixture]
public class RijndaelHelperTests
{
    [Test]
    public void UseCase()
    {
        //These two values should not be hard coded in your code.
        byte[] key = {251, 9, 67, 117, 237, 158, 138, 150, 255, 97, 103, 128, 183, 65, 76, 161, 7, 79, 244, 225, 146, 180, 51, 123, 118, 167, 45, 10, 184, 181, 202, 190};
        byte[] vector = {214, 11, 221, 108, 210, 71, 14, 15, 151, 57, 241, 174, 177, 142, 115, 137};

        using (var rijndaelHelper = new RijndaelHelper(key, vector))
        {
            var encrypt = rijndaelHelper.Encrypt("StringToEncrypt");
            var decrypt = rijndaelHelper.Decrypt(encrypt);
            Assert.AreEqual("StringToEncrypt", decrypt);
        }
    }
}

public class RijndaelHelper : IDisposable
{
    Rijndael rijndael;
    UTF8Encoding encoding;

    public RijndaelHelper(byte[] key, byte[] vector)
    {
        encoding = new UTF8Encoding();
        rijndael = Rijndael.Create();
        rijndael.Key = key;
        rijndael.IV = vector;
    }

    public byte[] Encrypt(string valueToEncrypt)
    {
        var bytes = encoding.GetBytes(valueToEncrypt);
        using (var encryptor = rijndael.CreateEncryptor())
        using (var stream = new MemoryStream())
        using (var crypto = new CryptoStream(stream, encryptor, CryptoStreamMode.Write))
        {
            crypto.Write(bytes, 0, bytes.Length);
            crypto.FlushFinalBlock();
            stream.Position = 0;
            var encrypted = new byte[stream.Length];
            stream.Read(encrypted, 0, encrypted.Length);
            return encrypted;
        }
    }

    public string Decrypt(byte[] encryptedValue)
    {
        using (var decryptor = rijndael.CreateDecryptor())
        using (var stream = new MemoryStream())
        using (var crypto = new CryptoStream(stream, decryptor, CryptoStreamMode.Write))
        {
            crypto.Write(encryptedValue, 0, encryptedValue.Length);
            crypto.FlushFinalBlock();
            stream.Position = 0;
            var decryptedBytes = new Byte[stream.Length];
            stream.Read(decryptedBytes, 0, decryptedBytes.Length);
            return encoding.GetString(decryptedBytes);
        }
    }

    public void Dispose()
    {
        if (rijndael != null)
        {
            rijndael.Dispose();
        }
    }
}
share|improve this answer
1  
This should be the accepted answer as it's the only one with a unit test. –  João Bragança Aug 16 '12 at 2:16
    
Good Answer. One thing in the Dispose method you will need to cast rijndael to IDisposable or you will get a protection level error by calling Dispose –  John ClearZ Aug 25 '13 at 21:23
    
Do not ever use a constant Initialization Vector, see: crypto.stackexchange.com/questions/66/… for more information about why. Instead, generate a new IV for each encryption and append it to the cryptotext, so much better and not to hard. –  Tom Heard Dec 3 '13 at 2:20
    
Why are you marking your class IDisposable if you are wrapping all your disposables in usings? –  markmnl Mar 25 at 0:57
    
@markmnl because the instance of rijndael is not wrapped in a using –  Simon Mar 25 at 5:44

[EDIT] Years later, I've come back to say: don't do this! See What's wrong with XOR encryption? for details.

A very simple, easy two-way encrytpion is XOR encryption. 1) Come up with a password. Let's have it be mypass.
2) Convert the password into binary (according to ASCII). The password becomes 01101101 01111001 01110000 01100001 01110011 01110011.
3) Take the message you want to encode. Convert that into binary, also.
4) Look at the length of the message. If the message length is 400 bytes, turn the password into a 400 byte string by repeating it over and over again. It would become 01101101 01111001 01110000 01100001 01110011 01110011 01101101 01111001 01110000 01100001 01110011 01110011 01101101 01111001 01110000 01100001 01110011 01110011... (or mypassmypassmypass...)
5) XOR the message with the long password.
6) Send the result.
7) Another time, XOR the encrypted message with the same password (mypassmypassmypass...).
8) There's your message!

share|improve this answer
    
XOR - Seriously? –  Ryan Jun 20 '10 at 16:37
8  
@Ryan Not every situation requires cryptographically secure hashes or Rijndael ciphers. "Simple 2 way encryption" might actually mean simple, which suggests xor or even ROT13. –  Will Nov 12 '10 at 13:49
1  
@Ryan: AES with static encryption key, no initialization vector and no block chaining function is just fancy name for XOR encryption, you're just using really fancy KDF... –  Hubert Kario Aug 19 '12 at 1:02

The namespace System.Security.Cryptography contains the TripleDESCryptoServiceProvider and RijndaelManaged classes

Don't forget to add a reference to the System.Security assembly.

share|improve this answer
7  
Thanks for the downvote on a 4 year old question. Surely you have better things to do? –  Mitch Wheat Feb 6 '13 at 0:24
3  
Not that I downvoted, but why should the age of a question matter when voting? –  Stijn Apr 24 at 11:39

If you just want simple encryption (i.e., possible for a determined cracker to break, but locking out most casual users), just pick two passphrases of equal length, say:

deoxyribonucleicacid
while (x>0) { x-- };

and xor your data with both of them (looping the passphrases if necessary). For example:

1111-2222-3333-4444-5555-6666-7777
deoxyribonucleicaciddeoxyribonucle
while (x>0) { x-- };while (x>0) {

Someone searching your binary may well think the DNA string is a key, but they're unlikely to think the C code is anything other than uninitialized memory saved with your binary.

share|improve this answer
2  
Interesting idea. I'm not sure I'd "believe" source code in a binary - but how about adapting the idea to use an error message as the passphrase? –  Jon Skeet Oct 3 '08 at 6:11
    
I prefer using an md5 hash of some cleartext string that already exists in the application (error message or so). –  Treb Oct 3 '08 at 7:43
    
Why do they need to be of equal length? It actually seems better if they are different lengths. That way, the length of your effective XOR operand is LCM(length1, length2), instead of just length1 (=length2). Which of course becomes length1 * length2 if the lengths are relatively prime. –  Fantius Oct 27 '11 at 19:42

Encryption is easy: as others have pointed out, there are classes in the System.Security.Cryptography namespace that do all the work for you. Use them rather than any home-grown solution.

But decryption is easy too. The issue you have is not the encryption algorithm, but protecting access to the key used for decryption.

I would use one of the following solutions:

  • DPAPI using the ProtectedData class with CurrentUser scope. This is easy as you don't need to worry about a key. Data can only be decrypted by the same user, so no good for sharing data between users or machines.

  • DPAPI using the ProtectedData class with LocalMachine scope. Good for e.g. protecting configuration data on a single secure server. But anyone who can log into the machine can encrypt it, so no good unless the server is secure.

  • Any symmetric algorithm. I typically use the static SymmetricAlgorithm.Create() method if I don't care what algorithm is used (in fact it's Rijndael by default). In this case you need to protect your key somehow. E.g. you can obfuscate it in some way and hide it in your code. But be aware that anyone who is smart enough to decompile your code will likely be able to find the key.

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I found Mark Brittingham's answer above really helpful when I was doing this in .NET 3.5, so I figured I'd post what I did, too.

I followed Mark's example to figure this out, but I used the new AesManaged class available in .NET 3.5, and took advantage of the ICryptoTransform interface to abstract the meat of it into one method that does both the encryption and the decryption.

Swap in your own key and IV, and your favorite encoding method (if you don't want Unicode), and you're good to go:

    public string encryptString(String dataString)
    {
        AesManaged aes = new AesManaged();
        ICryptoTransform encryptor = aes.CreateEncryptor(key, iv);
        String encryptedString = performCryptoAndEncoding(dataString, encryptor);
        return encryptedString;
    }

    public string decryptString(String dataString)
    {
        AesManaged aes = new AesManaged();
        ICryptoTransform decryptor = aes.CreateDecryptor(key, iv);
        String decryptedString = performCryptoAndEncoding(dataString, decryptor);
        return decryptedString;
    }

    private string performCryptoAndEncoding(string dataToEncryptOrDecrypt, ICryptoTransform transform)
    {
        byte[] encodedData = encodeStringToBytes(dataToEncryptOrDecrypt);

        MemoryStream dataStream = new MemoryStream();
        CryptoStream encryptionStream = new CryptoStream(dataStream, transform, CryptoStreamMode.Write);

        encryptionStream.Write(encodedData, 0, encodedData.Length);
        encryptionStream.FlushFinalBlock();
        dataStream.Position = 0;

        byte[] transformedBytes = new byte[dataStream.Length];
        dataStream.Read(transformedBytes, 0, transformedBytes.Length);
        encryptionStream.Close();
        dataStream.Close();

        String transformedAndReencodedData = encodeBytesToString(transformedBytes);
        return transformedAndReencodedData;
    }

    private byte[] encodeStringToBytes(string dataToEncode)
    {
        byte[] encodedData = Encoding.Unicode.GetBytes(dataToEncode);
        return encodedData;
    }

    private string encodeBytesToString(byte[] dataToEncode)
    {
        String encodedData = Encoding.Unicode.GetString(dataToEncode, 0, dataToEncode.Length);
        return encodedData;
    }

Apparently the Unicode encoding in my code above breaks for some characters. I guess it's time for me to learn more about encoding. Here's a more fail-safe way to encode/decode from byte[] to string:

   private byte[] encodeStringToBytes(string dataToEncode)
    {
        List<byte> bytes = new List<byte>();
        foreach (char character in dataToEncode.ToCharArray())
        {
            bytes.Add((byte)character);
        }
        return bytes.ToArray();
    }

    private string encodeBytesToString(byte[] dataToEncode)
    {
        String encodedString = "";
        foreach (byte bite in dataToEncode)
        {
            encodedString = encodedString + (char)bite;
        }
        return encodedString;
    }
share|improve this answer
    
I liked your answer, but I don't know how long they key of vector should be. –  Praesagus Feb 12 '10 at 23:03
1  
The reason encoding breaks is, that certain input sequences are prohibited by design blogs.msdn.com/b/shawnste/archive/2005/03/24/401871.aspx –  Anders Rask Dec 21 '10 at 8:45
    
String encoding in this way is a very bad idea!! use base64 format it is much safer! –  Mohamed Sakher Sawan Aug 22 at 15:32

I changed this:

public string ByteArrToString(byte[] byteArr)
{
    byte val;
    string tempStr = "";
    for (int i = 0; i <= byteArr.GetUpperBound(0); i++)
    {
        val = byteArr[i];
        if (val < (byte)10)
            tempStr += "00" + val.ToString();
        else if (val < (byte)100)
            tempStr += "0" + val.ToString();
        else
            tempStr += val.ToString();
    }
    return tempStr;
}

to this:

    public string ByteArrToString(byte[] byteArr)
    {
        string temp = "";
        foreach (byte b in byteArr)
            temp += b.ToString().PadLeft(3, '0');
        return temp;
    }
share|improve this answer
share|improve this answer

MSDN has a nice example of AES encryption and decryption:

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

I have tested it with plaintext and unicode values and it works great.

share|improve this answer
    
Hi, welcome to Stack Overflow! A link to a potential solution is always welcome, but please add context around the link so your fellow users will have some idea what it is and why it's there . Always quote the most relevant part of an important link. Take a look at how to answer. –  Jesse Mar 13 '13 at 21:23

Just thought I'd add that I've improved Mud's SimplerAES by adding a random IV that's passed back inside the encrypted string. This improves the encryption as encrypting the same string will result in a different output each time.

public class StringEncryption
{
    private readonly Random random;
    private readonly byte[] key;
    private readonly RijndaelManaged rm;
    private readonly UTF8Encoding encoder;

    public StringEncryption()
    {
        this.random = new Random();
        this.rm = new RijndaelManaged();
        this.encoder = new UTF8Encoding();
        this.key = Convert.FromBase64String("Your+Secret+Static+Encryption+Key+Goes+Here=");
    }

    public string Encrypt(string unencrypted)
    {
        var vector = new byte[16];
        this.random.NextBytes(vector);
        var cryptogram = vector.Concat(this.Encrypt(this.encoder.GetBytes(unencrypted), vector));
        return Convert.ToBase64String(cryptogram.ToArray());
    }

    public string Decrypt(string encrypted)
    {
        var cryptogram = Convert.FromBase64String(encrypted);
        if (cryptogram.Length < 17)
        {
            throw new ArgumentException("Not a valid encrypted string", "encrypted");
        }

        var vector = cryptogram.Take(16).ToArray();
        var buffer = cryptogram.Skip(16).ToArray();
        return this.encoder.GetString(this.Decrypt(buffer, vector));
    }

    private byte[] Encrypt(byte[] buffer, byte[] vector)
    {
        var encryptor = this.rm.CreateEncryptor(this.key, vector);
        return this.Transform(buffer, encryptor);
    }

    private byte[] Decrypt(byte[] buffer, byte[] vector)
    {
        var decryptor = this.rm.CreateDecryptor(this.key, vector);
        return this.Transform(buffer, decryptor);
    }

    private byte[] Transform(byte[] buffer, ICryptoTransform transform)
    {
        var stream = new MemoryStream();
        using (var cs = new CryptoStream(stream, transform, CryptoStreamMode.Write))
        {
            cs.Write(buffer, 0, buffer.Length);
        }

        return stream.ToArray();
    }
}

And bonus unit test

[Test]
public void EncryptDecrypt()
{
    // Arrange
    var subject = new StringEncryption();
    var originalString = "Testing123!£$";

    // Act
    var encryptedString1 = subject.Encrypt(originalString);
    var encryptedString2 = subject.Encrypt(originalString);
    var decryptedString1 = subject.Decrypt(encryptedString1);
    var decryptedString2 = subject.Decrypt(encryptedString2);

    // Assert
    Assert.AreEqual(originalString, decryptedString1, "Decrypted string should match original string");
    Assert.AreEqual(originalString, decryptedString2, "Decrypted string should match original string");
    Assert.AreNotEqual(originalString, encryptedString1, "Encrypted string should not match original string");
    Assert.AreNotEqual(encryptedString1, encryptedString2, "String should never be encrypted the same twice");
}
share|improve this answer

I haven't tested this, but if you want to use truly safe URL strings, you should do something like the following, as suggested by @Praesagus

public byte[] StrToByteArray(string str)
{
    if (str.Length == 0)
        throw new Exception("Invalid string value in StrToByteArray");

    return HttpServerUtility.UrlTokenDecode(str);
}

public string ByteArrToString(byte[] byteArr)
{
    return HttpServerUtility.UrlTokenEncode(byteArr);
}
share|improve this answer

You could also use the Data Protection API (DPAPI).

share|improve this answer
    public string EncryptUser(string userID)
    {
        using (var cryptoProvider = new DESCryptoServiceProvider())
        using (var memoryStream = new MemoryStream())
        using (var cryptoStream = new CryptoStream(memoryStream, cryptoProvider.CreateEncryptor(DESKey, DESInitializationVector), CryptoStreamMode.Write))
        using (var writer = new StreamWriter(cryptoStream))
        {
            writer.Write(userID);
            writer.Flush();
            cryptoStream.FlushFinalBlock();
            writer.Flush();
            return Convert.ToBase64String(memoryStream.GetBuffer(), 0, (int)memoryStream.Length);
        }
    }


    public string DecryptUserID(string userID)
    {
        using (var cryptoProvider = new DESCryptoServiceProvider())
        using (var memoryStream = new MemoryStream(Convert.FromBase64String(userID)))
        using (var cryptoStream = new CryptoStream(memoryStream, cryptoProvider.CreateDecryptor(DESKey, DESInitializationVector), CryptoStreamMode.Read))
        using (var reader = new StreamReader(cryptoStream))
        {
            return reader.ReadToEnd();
        }
    }
share|improve this answer

I combined what I found the best from several answers and comments.

  • Random initialization vector prepended to crypto text (@jbtule)
  • Use TransformFinalBlock() instead of MemoryStream (@RenniePet)
  • No pre-filled keys to avoid anyone copy & pasting a disaster
  • Proper dispose and using patterns

Code:

/// <summary>
/// Simple encryption/decryption using a random initialization vector
/// and prepending it to the crypto text.
/// </summary>
/// <remarks>Based on multiple answers in http://stackoverflow.com/questions/165808/simple-two-way-encryption-for-c-sharp </remarks>
public class SimpleAes : IDisposable
{
    /// <summary>
    ///     Initialization vector length in bytes.
    /// </summary>
    private const int IvBytes = 16;

    /// <summary>
    ///     Must be exactly 16, 24 or 32 characters long.
    /// </summary>
    private static readonly byte[] Key = Convert.FromBase64String("FILL ME WITH 16, 24 OR 32 CHARS");

    private readonly UTF8Encoding _encoder;
    private readonly ICryptoTransform _encryptor;
    private readonly RijndaelManaged _rijndael;

    public SimpleAes()
    {
        _rijndael = new RijndaelManaged {Key = Key};
        _rijndael.GenerateIV();
        _encryptor = _rijndael.CreateEncryptor();
        _encoder = new UTF8Encoding();
    }

    public string Decrypt(string encrypted)
    {
        return _encoder.GetString(Decrypt(Convert.FromBase64String(encrypted)));
    }

    public void Dispose()
    {
        _rijndael.Dispose();
        _encryptor.Dispose();
    }

    public string Encrypt(string unencrypted)
    {
        return Convert.ToBase64String(Encrypt(_encoder.GetBytes(unencrypted)));
    }

    private byte[] Decrypt(byte[] buffer)
    {
        // IV is prepended to cryptotext
        byte[] iv = buffer.Take(IvBytes).ToArray();
        using (ICryptoTransform decryptor = _rijndael.CreateDecryptor(_rijndael.Key, iv))
        {
            return decryptor.TransformFinalBlock(buffer, IvBytes, buffer.Length - IvBytes);
        }
    }

    private byte[] Encrypt(byte[] buffer)
    {
        // Prepend cryptotext with IV
        byte[] inputBuffer = _rijndael.IV.Concat(buffer).ToArray();
        return _encryptor.TransformFinalBlock(inputBuffer, IvBytes, buffer.Length);
    }
}
share|improve this answer
    
You should encrypt the entire inputBuffer with IV prepended otherwise the first 16 characters of the string-to-encrypt are lost. So your code should read: return _encryptor.TransformFinalBlock(inputBuffer, 0, inputBuffer.Length); –  bpsilver Nov 17 at 18:04
    
The IV is prepended in clear text as recommended by @Tom Heard and others above. Those are the 16 bytes you refer to. If you encrypt the IV then Decrypt won't be able to extract the IV. –  Andreas Larsen Nov 17 at 18:51
    
In that case: byte [] inputBuffer = _encryptor.TransformFinalBlock(buffer, 0, buffer.Length); return _rijndael.IV.Concat(inputBuffer).ToArray(); –  bpsilver Nov 17 at 21:24
    
That would do the same thing as the current implementation, wouldn't it? –  Andreas Larsen Nov 17 at 23:13

I know you said you don't care about how secure it is, but if you chose DES you might as well take AES it is the more up-to-date encryption method.

share|improve this answer

Try DES or Triple DES

share|improve this answer
3  
As we have passed 1998 and the invention of aes, there is absolutely no reason to use DES. Please do not recommend that people use it. –  Tom Heard Dec 2 '13 at 23:50
    
But does DES meet poster's requirements? 'I'm looking for very simple encrypt and decrypt functionality for some data. It's not mission critical. I need something to keep honest people honest, but something a little stronger than ROT13 or Base64.' –  Chalky Sep 18 at 6:18
1  
But why would you go for DES over AES? There is no reason to. The OP has stated he is using C#. The .Net classes for DES and AES are very similar in API, it requires practically the same amount of effort to use the AES class as it does to use the DES class, so there is absolutely no reason, in this case, to use DES. The only plausible reason to use Triple DES (never use DES) is if you are working on hardware that has a hardware implementation of DES, and even then you should upgrade your hardware. –  Tom Heard Sep 18 at 21:24

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