The algorithm I wrote below uses a random Initialization Vector that it puts at the beginning of the encrypted value so you can encrypt the same value twice and not get the same encrypted output. This is fairly normal and lets you only pass a single "secret" back and forth.
You will need to share your secret key by some out of bounds process because both encryption and decryption need to know the key. That is a seperate topic of key exchange that is documented in other places. Here is an SO link to get you started if you need some help on it.
Also if you are "making up" random values I recommend that you don't. Use something to help you like the following which generates random bytes and then converts them into a base64 string which is easier for human usage or some types of key exchange. Note that this is just an example of how you could generate random key's... in practice this may be based on some user input that is recreatable or you use the users hash value to lookup your random key that you generate. In any event here is the code for the key...
byte[] key;
string base64Key;
using (var aes = Aes.Create())
{
// key as byte[]
key = aes.Key;
// key as base64string - which one you use depends on how you store your keys
base64Key= Convert.ToBase64String(aes.Key);
}
Usage is as follows...
// you get the base64 encoded key from somewhere
var base64Key = "+CffHxKmykUvCrrCILd4rZDBcrIoe3w89jnPNXYi0rU=";
// convert it to byte[] or alternatively you could store your key as a byte[]
// but that depends on how you set things up.
var key = Convert.FromBase64String(base64Key);
var plainText = "EncryptThis";
var encryptedText = EncryptStringToBase64String(plainText, key);
var decryptedText = DecryptStringFromBase64String(encryptedText, key);
Here are the encryption methods... EncryptStringToBase64String
and DecryptStringFromBase64String
.
EDIT: Great point owlstead about using Aes.BlockSize for the IV size. I've also cleaned up the arguement checks.
private const int KeySize = 256; // in bits
static string EncryptStringToBase64String(string plainText, byte[] Key)
{
// Check arguments.
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
byte[] returnValue;
using (var aes = Aes.Create())
{
aes.KeySize = KeySize;
aes.GenerateIV();
aes.Mode = CipherMode.CBC;
var iv = aes.IV;
if (string.IsNullOrEmpty(plainText))
return Convert.ToBase64String(iv);
var encryptor = aes.CreateEncryptor(Key, iv);
// Create the streams used for encryption.
using (MemoryStream msEncrypt = new MemoryStream())
{
using (CryptoStream csEncrypt = new CryptoStream(msEncrypt, encryptor, CryptoStreamMode.Write))
{
using (StreamWriter swEncrypt = new StreamWriter(csEncrypt))
{
//Write all data to the stream.
swEncrypt.Write(plainText);
}
// this is just our encrypted data
var encrypted = msEncrypt.ToArray();
returnValue = new byte[encrypted.Length + iv.Length];
// append our IV so our decrypt can get it
Array.Copy(iv, returnValue, iv.Length);
// append our encrypted data
Array.Copy(encrypted, 0, returnValue, iv.Length, encrypted.Length);
}
}
}
// return encrypted bytes converted to Base64String
return Convert.ToBase64String(returnValue);
}
static string DecryptStringFromBase64String(string cipherText, byte[] Key)
{
// Check arguments.
if (string.IsNullOrEmpty(cipherText))
return string.Empty;
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
string plaintext = null;
// this is all of the bytes
var allBytes = Convert.FromBase64String(cipherText);
using (var aes = Aes.Create())
{
aes.KeySize = KeySize;
aes.Mode = CipherMode.CBC;
// get our IV that we pre-pended to the data
byte[] iv = new byte[aes.BlockSize/8];
if (allBytes.Length < iv.Length)
throw new ArgumentException("Message was less than IV size.");
Array.Copy(allBytes, iv, iv.Length);
// get the data we need to decrypt
byte[] cipherBytes = new byte[allBytes.Length - iv.Length];
Array.Copy(allBytes, iv.Length, cipherBytes, 0, cipherBytes.Length);
// Create a decrytor to perform the stream transform.
var decryptor = aes.CreateDecryptor(Key, iv);
// Create the streams used for decryption.
using (MemoryStream msDecrypt = new MemoryStream(cipherBytes))
{
using (CryptoStream csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
{
using (StreamReader srDecrypt = new StreamReader(csDecrypt))
{
// Read the decrypted bytes from the decrypting stream
// and place them in a string.
plaintext = srDecrypt.ReadToEnd();
}
}
}
}
return plaintext;
}
EDIT 2: Never convert actual binary data (like a random key) into a string using a TextEncoding. If data starts life as a string and you convert into binary using an encoding then and ONLY then can you convert it from binary into a string using the proper encoding. Otherwise you will have code that works sometimes which is a recipe for torturing yourself.
// This is base64 not UTF8, unicode, ASCII or anything else!!!
string sKey = "LvtZELDrB394hbSOi3SurLWAvC8adNpZiJmQDJHdfJU=";
aesKey = Convert.FromBase64String(sKey);
Edit 3:
Why use File.WriteAllText
to write the file but use File.ReadAllBytes
when you read it? You can write it and read it as text and use ASCII encoding since base64 is guaranteed to be ASCII. Also Decrypt returns a decrypted string which you are not storing or using. The decrypted string is what you need to parse because it's your xml.
You can use this for saving the file...
var encryptedText = File.ReadAllText(fileName, new ASCIIEncoding());
In your decrypt you should do this...
var encryptedText = File.ReadAllText(fileName, new ASCIIEncoding());
string xmlStr = DecryptStringFromBase64String(encryptedStr , keyBytes);
EDIT 4: I've attempted to duplicate your exception and I can't make it happen... here is my test code that I'm running in a console app and it works.
public static void EncryptMethod()
{
var fileName = @"c:/text.xml";
XDocument doc = new XDocument();
XElement xml = new XElement("Info",
new XElement("DatabaseServerName", "txtServerName.Text"),
new XElement("DatabaseUserName", "txtDatabaseUserName.Text"),
new XElement("DatabasePassword", "txtDatabasePassword.Text"),
new XElement("ServiceAccount", "txtAccount.Text"),
new XElement("ServicePassword", "txtServicePassword.Text"),
new XElement("RegistrationCode", "txtRegistrationCode.Text"));
doc.Add(xml);
var sKey = "LvtZELDrB394hbSOi3SurLWAvC8adNpZiJmQDJHdfJU=";
var aesKey = Convert.FromBase64String(sKey);
string encyptedText = EncryptStringToBase64String(doc.ToString(), aesKey);
File.WriteAllText(fileName, encyptedText);
}
public static void DecryptMethod()
{
var fileName = @"c:/text.xml";
string sKey = "LvtZELDrB394hbSOi3SurLWAvC8adNpZiJmQDJHdfJU=";
Byte[] keyBytes = Convert.FromBase64String(sKey);
var encryptedText = File.ReadAllText(fileName, new ASCIIEncoding());
string xmlStr = DecryptStringFromBase64String(encryptedText, keyBytes);
using (XmlReader reader = XmlReader.Create(new StringReader(xmlStr)))
{
reader.ReadToFollowing("DatabaseServerName");
Console.WriteLine(reader.ReadElementContentAsString());
reader.ReadToFollowing("DatabaseUserName");
Console.WriteLine(reader.ReadElementContentAsString());
reader.ReadToFollowing("DatabasePassword");
Console.WriteLine(reader.ReadElementContentAsString());
reader.ReadToFollowing("RegistrationCode");
Console.WriteLine(reader.ReadElementContentAsString());
}
}
Usage from the console app...
EncryptMethod();
DecryptMethod();