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I'm using a class that I found here for AES encryption/decryption. It does work correctly for me, but when I encrypt a string using the EncryptToString method, the encryption contains only numbers. I was expecting it to contain numbers, letters, and symbols. Do you know why it would only contain numbers? Thanks

This is the code I'm referring to:

 public class AESEncryption
{
    // These can be anything I desire but must be less than or equal to 255
    private byte[] Key = { 222, 237, 16, 14, 28, 26, 85, 45, 114, 184, 27, 192, 37, 112, 222, 209, 241, 24, 175, 144, 173, 53, 105, 29, 24, 26, 17, 218, 131, 236, 53, 209 };
    private byte[] Vector = { 146, 64, 101, 111, 23, 32, 113, 119, 231, 121, 211, 11, 99, 32, 104, 156 };


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

    public AESEncryption()
    {
        //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 question
    
by 'only numbers', do you mean a byte array? –  Jodrell Jan 13 '12 at 17:14
    
it encodes bytes as integer values (3 digits) and concatenates thoes as a string and vice versa... –  Yahia Jan 13 '12 at 17:16
5  
Did you look at the ByteArrToString method for even one second? Your answer is in there (and in the comment for the StrToByteArray method). –  Nuffin Jan 13 '12 at 17:19
    
I laughed after seeing that GenerateEncryptionKey and GenerateEncryptionVector methods –  ordag Jan 13 '12 at 17:43
    
@ordag this must be the lo-salt version. –  Jodrell Jan 13 '12 at 17:54

2 Answers 2

it encodes bytes as integer values (3 digits) and concatenates thoes as a string and vice versa...

From the code and comments you posted:

/// 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)

AND the inverse method

// 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)
share|improve this answer
    
3 digits or more acurately less than 256 –  Jodrell Jan 13 '12 at 17:26
    
Thank you Yahia. –  Richard Keslar Jan 13 '12 at 18:37

The AES algorithm takes and returns a byte array (byte[]) i.e. a set of 8bit numbers.

This is what all data inside your computer is stored as, whatever the data type, string, Image, int or any other. As you see, this line

//Translates our text value into a byte array.
Byte[] bytes = UTFEncoder.GetBytes(TextValue);

converts your 'clear' string into a 'clear' byte array, then runs it through the encryption algoritm. After encryption the byte array can no longer be decoded into a string (which is the point of encryption).

If you wanted to to store it as a string you could base64 encode so it was parser friendly but it will be unreadable garbage for a human either way.

If you use the File.WriteAllBytes function with the output from Encrypt like this

File.WriteAllBytes("C:\MyTestFile.txt", Encrypt("My Clear Text"));

It will store the bytes into a text file. If you then open "C:\MyTestFile.txt" with a text editor of your choice, you will see that the file does in fact contain all manner of charachters, both printing and non printing.

Assuming you use the right key and vector, the decryption code will turn the encrypted bytes back into 'clear' bytes and , as you can see

return UTFEncoder.GetString(decryptedBytes);

return those bytes back as your original string.

If none of this makes any sense, then sorry, I've tried to keep it simple, perhaps take a step back and consider what a byte is, then how types work.

share|improve this answer
    
Makes sense. Thanks –  Richard Keslar Jan 13 '12 at 18:41
    
One more question. If you were going to encrypt something and store it in a database, could you encrypted it as a byte array and write the bytes out or would that not work since it would contain printing and non-printing characters? –  Richard Keslar Jan 13 '12 at 19:01
    
@RichardKeslar It would work if you stored it in a BLOB of sufficient size - but if you stored it previously as a text string, you would have to either create a new (temporary) column or store it as base 64 in the text field I guess. –  Maarten Bodewes - owlstead Jan 14 '12 at 0:46

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