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Aes Decryption in .net 5

I have below code written in .net framework to decrypt encrypted text and it is working fine.
private static string MD5(string testString)
{
byte[] asciiBytes = ASCIIEncoding.ASCII.GetBytes(testString);
byte[] hashedBytes = MD5CryptoServiceProvider.Create().ComputeHash(asciiBytes);
string hashedString = BitConverter.ToString(hashedBytes).Replace("-", "").ToLower();
return hashedString;
}
public static string DecryptString(string cypherText, string encryptionKey)
{
byte[] cipherTextBytes = Convert.FromBase64String(cipherText);
byte[] key = ASCIIEncoding.ASCII.GetBytes(MD5(encryptionKey));
if (key == null || key.Length <= 0)
throw new ArgumentNullException("key");
string plaintext;
using (var rijAlg = new RijndaelManaged())
{
rijAlg.BlockSize = 256;
rijAlg.Key = key;
rijAlg.Mode = CipherMode.CBC;
rijAlg.Padding = PaddingMode.Zeros;
rijAlg.IV = ASCIIEncoding.ASCII.GetBytes(MD5(MD5(_encryptionKey)));
ICryptoTransform decryptor = rijAlg.CreateDecryptor(rijAlg.Key, rijAlg.IV);
using (var msDecrypt = new MemoryStream(cipherTextBytes))
using (var csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
using (var srDecrypt = new StreamReader(csDecrypt))
plaintext = srDecrypt.ReadToEnd();
}
return plaintext;
}
Above code never worked and was returning some junk characters when the code was migrated to .net 5. With some research and help from fellow community member I got the below updated code that works.
public static string DecryptUsingBouncyCastle(string cypherText, string keyString)
{
byte[] key = ASCIIEncoding.ASCII.GetBytes(MD5(keyString));
byte[] cipherTextBytes = Convert.FromBase64String(cypherText);
if (key == null || key.Length <= 0)
throw new ArgumentNullException("key");
var ivStringBytes = ASCIIEncoding.ASCII.GetBytes(MD5(MD5(keyString)));
var engine = new RijndaelEngine(256);
var blockCipher = new CbcBlockCipher(engine);
var cipher = new PaddedBufferedBlockCipher(blockCipher, new ZeroBytePadding());
var keyParam = new KeyParameter(key);
var keyParamWithIV = new ParametersWithIV(keyParam, ivStringBytes, 0, ivStringBytes.Length);
cipher.Init(false, keyParamWithIV);
var outputBytes = new byte[cipher.GetOutputSize(cipherTextBytes.Length)];
var length = cipher.ProcessBytes(cipherTextBytes, outputBytes, 0);
length += cipher.DoFinal(outputBytes, length);
var resultText = Encoding.UTF8.GetString(outputBytes, 0, length);
return resultText;
}
I was cautioned that AES should be preferred over Rijndael with 256 bits block size. With that in mind I tried to write the decrypt method using AES but I could not succeed. It is not throwing any error but returning some garbage text.
public static string DecryptStringFromAES(string cypherText, string keyString)
{
byte[] key = ASCIIEncoding.ASCII.GetBytes(MD5(keyString));
byte[] cipherText = Convert.FromBase64String(cypherText);
if (key == null || key.Length <= 0)
throw new ArgumentNullException("key");
string plaintext;
using (var aes = Aes.Create())
{
aes.BlockSize = 128;
aes.Key = key;
aes.Mode = CipherMode.CBC;
aes.Padding = PaddingMode.Zeros;
aes.IV = new byte[16];
ICryptoTransform decryptor = aes.CreateDecryptor(aes.Key, aes.IV);
using (var msDecrypt = new MemoryStream(cipherText))
using (var csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
using (var srDecrypt = new StreamReader(csDecrypt))
plaintext = srDecrypt.ReadToEnd();
}
return plaintext;
}
I am not an expert in Cryptography and I don't really know what is wrong in the above code. My job demanded this task to decrypt some encrypted information from Active Directory. Encryption is done by some other process and I can't share the encryption key and don't have test code as we don't have a test environment.
Appreciate if someone could look at the code and see if I messed up anything with that code and suggest any correction that could possibly fix the issue. Thanks in advance.

Cannot decrypt with iv as plain text AES

I have logic that works perfectly in C# for encrypting and decrypting text using AES CBC 128 Bit
Now I have a problem where the other party cannot decrypt the text and nor can this site:
https://www.devglan.com/online-tools/aes-encryption-decryption
How can I get the IV into a version that can be used to decrypt outside of C#?
I tried
stream = encryptionInfo.InversionVectorText.ToMemoryStream(Encoding.ASCII);
also
stream = encryptionInfo.InversionVectorText.ToMemoryStream(Encoding.UTF8);
Neither of these give me a value that I can paste into the site above and have work
The other side want me to send the IV in plain text
My full code is below for reference:
public static class SecurityExtensions
{
private static Aes GetAes(string keyText, byte[] iv)
{
var key = keyText.ToByteArray();
var result = Aes.Create();
result.Mode = CipherMode.CBC;
result.KeySize = 128;
if (iv.Length > 0)
{
result.IV = iv;
}
result.Key = key;
return result;
}
private static string GenerateRandomCryptoString(int length, string charset = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890")
{
using (var crypto = new System.Security.Cryptography.RNGCryptoServiceProvider())
{
var result = crypto.GenerateRandomCryptoString(length, charset);
return result;
}
}
private static string GenerateRandomCryptoString(this RNGCryptoServiceProvider random,
int length,
string charset = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890") =>
RandomString(random.GetBytes, length, charset.ToCharArray());
private static string RandomString(Action<byte[]> fillRandomBuffer, int length, char[] charset)
{
var maxIdx = charset.Length;
var chars = new char[length];
var randomBuffer = new byte[length * 4];
fillRandomBuffer(randomBuffer);
for (var i = 0; i < length; i++)
chars[i] = charset[BitConverter.ToUInt32(randomBuffer, i * 4) % maxIdx];
var result = new string(chars);
return result;
}
public static AesEncryptionInfo EncryptWithAes(this string plainText, string keyText)
{
//Generate an IV made up of only alphanumeric characters to avoid encoding/decoding issues
var ivText = GenerateRandomCryptoString(16);
var iv = Encoding.ASCII.GetBytes(ivText);
var aesAlg = GetAes(keyText, iv);
var encryptor = aesAlg.CreateEncryptor(aesAlg.Key, aesAlg.IV);
byte[] encrypted;
using (var msEncrypt = new MemoryStream())
{
using (var csEncrypt = new CryptoStream(msEncrypt, encryptor, CryptoStreamMode.Write))
{
using (var swEncrypt = new StreamWriter(csEncrypt))
{
swEncrypt.Write(plainText);
}
encrypted = msEncrypt.ToArray();
}
}
aesAlg.Dispose();
var result = new AesEncryptionInfo(encrypted, aesAlg.IV);
return result;
}
public static string DecryptFromAes(this byte[] cipherText, string keyText, byte[] iv)
{
string result;
var aesAlg = GetAes(keyText, iv);
var decryptor = aesAlg.CreateDecryptor(aesAlg.Key, aesAlg.IV);
// Create the streams used for decryption.
using (MemoryStream msDecrypt = new MemoryStream(cipherText))
{
using (CryptoStream csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
{
using (StreamReader srDecrypt = new StreamReader(csDecrypt))
{
result = srDecrypt.ReadToEnd();
}
}
}
return result;
}
}
public class AesEncryptionInfo
{
public AesEncryptionInfo(byte[] encrypted, byte[] inversionVector)
{
InversionVector = inversionVector;
Encrypted = encrypted;
}
public byte[] InversionVector { get; set; }
public byte[] Encrypted { get; set; }
public string InversionVectorText => Encoding.Default.GetString(InversionVector);
}
The other side are adamant they do not want to do any kind of decoding, which is obviously not a good approach!
So I have some code that generates a random 16 character string of numbers or letters. This definitely generates a string of 16 characters.
When I decrypt this using the logic above the text is decrypted correctly, but I also see random characters at the start. I dont know why this happens?

AES (rijndael) decryption

I have a Security class that Encode and Decode string, but when I try do decode - something going wrong.
Here is my Security class:
class Security
{
public static String encrypt(String imput, String key)
{
String cipherText;
var rijndael = new RijndaelManaged()
{
Key = Encoding.Unicode.GetBytes(key),
Mode = CipherMode.ECB,
BlockSize = 128,
Padding = PaddingMode.Zeros,
};
ICryptoTransform encryptor = rijndael.CreateEncryptor(rijndael.Key, null);
using (var memoryStream = new MemoryStream())
{
using (var cryptoStream = new CryptoStream(memoryStream, encryptor, CryptoStreamMode.Write))
{
using (var streamWriter = new StreamWriter(cryptoStream))
{
streamWriter.Write(imput);
streamWriter.Flush();
}
cipherText = Convert.ToBase64String(memoryStream.ToArray());
}
}
return cipherText;
}
public static String decrypt(String imput, String key)
{
byte[] data = Convert.FromBase64String(imput);
String decrypted;
using (RijndaelManaged rijAlg = new RijndaelManaged())
{
rijAlg.Key = Encoding.UTF8.GetBytes(key);
rijAlg.Mode = CipherMode.ECB;
rijAlg.BlockSize = 128;
rijAlg.Padding = PaddingMode.Zeros;
ICryptoTransform decryptor = rijAlg.CreateDecryptor(rijAlg.Key, null);
using (MemoryStream msDecrypt = new MemoryStream(data))
{
using (CryptoStream csDecrypt = new CryptoStream(msDecrypt, decryptor, CryptoStreamMode.Read))
{
using (StreamReader srDecrypt = new StreamReader(csDecrypt))
{
decrypted = srDecrypt.ReadToEnd();
}
}
}
}
return decrypted;
}
}
In program.cs:
String A = Security.encrypt("text", "1234567891234567");
A = Security.decrypt(A, "1234567891234567");
Finaly it return something like that: �%����;\0�\a��f6 , but I need original string. Where I made a mistake?

Use the same encoding in both methods, either Encoding.Unicode or Encoding.UTF8

Is it Possible to Decrypt aes encryption from C# using sql server 2008?

`
public class AesEncryptHelper
{
private static readonly int _saltSize = 32;
private static readonly string _key = "slfkey2112";
private static string Encrypt(string plainText, string key)
{
if (string.IsNullOrEmpty(plainText))
throw new ArgumentNullException("plainText");
if (string.IsNullOrEmpty(key))
throw new ArgumentNullException("key");
var keyDerivationFunction = new Rfc2898DeriveBytes(key, _saltSize);
var saltBytes = keyDerivationFunction.Salt;
var keyBytes = keyDerivationFunction.GetBytes(32);
var ivBytes = keyDerivationFunction.GetBytes(16);
using (var aesManaged = new AesManaged())
using (var encryptor = aesManaged.CreateEncryptor(keyBytes, ivBytes))
using (var memoryStream = new MemoryStream())
{
using (var cryptoStream = new CryptoStream(memoryStream, encryptor, CryptoStreamMode.Write))
using (var streamWriter = new StreamWriter(cryptoStream))
{
streamWriter.Write(plainText);
}
var cipherTextBytes = memoryStream.ToArray();
Array.Resize(ref saltBytes, saltBytes.Length + cipherTextBytes.Length);
Array.Copy(cipherTextBytes, 0, saltBytes, _saltSize, cipherTextBytes.Length);
return Convert.ToBase64String(saltBytes);
}
}
public static string Encrypt(string plainText)
{
return Encrypt(plainText, _key);
}
private static string Decrypt(string ciphertext, string key)
{
if (string.IsNullOrEmpty(ciphertext))
throw new ArgumentNullException("cipherText");
if (string.IsNullOrEmpty(key))
throw new ArgumentNullException("key");
var allTheBytes = Convert.FromBase64String(ciphertext);
var saltBytes = allTheBytes.Take(_saltSize).ToArray();
var ciphertextBytes = allTheBytes.Skip(_saltSize).Take(allTheBytes.Length - _saltSize).ToArray();
var keyDerivationFunction = new Rfc2898DeriveBytes(key, saltBytes);
var keyBytes = keyDerivationFunction.GetBytes(32);
var ivBytes = keyDerivationFunction.GetBytes(16);
using (var aesManaged = new AesManaged())
using (var decryptor = aesManaged.CreateDecryptor(keyBytes, ivBytes))
using (var memoryStream = new MemoryStream(ciphertextBytes))
using (var cryptoStream = new CryptoStream(memoryStream, decryptor, CryptoStreamMode.Read))
using (var streamReader = new StreamReader(cryptoStream))
{
return streamReader.ReadToEnd();
}
}
public static string Decrypt(string cipherText)
{
return Decrypt(cipherText, _key);
}
}
`
Is it possible to decrypt AES encryption in C# using an decryptor in sql server 2008? above the code i used to make an encryption in C#. i dont wanna decrypt in C# it takes long time to process , because i have a lot of data.

Using AES encryption in C#

Locked. This question and its answers are locked because the question is off-topic but has historical significance. It is not currently accepting new answers or interactions.
I can't seem to find a nice clean example of using AES 128 bit encryption.
Does anyone have some sample code?

If you just want to use the built-in crypto provider RijndaelManaged, check out the following help article (it also has a simple code sample):
http://msdn.microsoft.com/en-us/library/system.security.cryptography.rijndaelmanaged.aspx
And just in case you need the sample in a hurry, here it is in all its plagiarized glory:
using System;
using System.IO;
using System.Security.Cryptography;
namespace RijndaelManaged_Example
{
class RijndaelExample
{
public static void Main()
{
try
{
string original = "Here is some data to encrypt!";
// Create a new instance of the RijndaelManaged
// class. This generates a new key and initialization
// vector (IV).
using (RijndaelManaged myRijndael = new RijndaelManaged())
{
myRijndael.GenerateKey();
myRijndael.GenerateIV();
// Encrypt the string to an array of bytes.
byte[] encrypted = EncryptStringToBytes(original, myRijndael.Key, myRijndael.IV);
// Decrypt the bytes to a string.
string roundtrip = DecryptStringFromBytes(encrypted, myRijndael.Key, myRijndael.IV);
//Display the original data and the decrypted data.
Console.WriteLine("Original: {0}", original);
Console.WriteLine("Round Trip: {0}", roundtrip);
}
}
catch (Exception e)
{
Console.WriteLine("Error: {0}", e.Message);
}
}
static byte[] EncryptStringToBytes(string plainText, byte[] Key, byte[] IV)
{
// Check arguments.
if (plainText == null || plainText.Length <= 0)
throw new ArgumentNullException("plainText");
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
if (IV == null || IV.Length <= 0)
throw new ArgumentNullException("IV");
byte[] encrypted;
// Create an RijndaelManaged object
// with the specified key and IV.
using (RijndaelManaged rijAlg = new RijndaelManaged())
{
rijAlg.Key = Key;
rijAlg.IV = IV;
// Create a decryptor to perform the stream transform.
ICryptoTransform encryptor = rijAlg.CreateEncryptor(rijAlg.Key, rijAlg.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);
}
encrypted = msEncrypt.ToArray();
}
}
}
// Return the encrypted bytes from the memory stream.
return encrypted;
}
static string DecryptStringFromBytes(byte[] cipherText, byte[] Key, byte[] IV)
{
// Check arguments.
if (cipherText == null || cipherText.Length <= 0)
throw new ArgumentNullException("cipherText");
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
if (IV == null || IV.Length <= 0)
throw new ArgumentNullException("IV");
// Declare the string used to hold
// the decrypted text.
string plaintext = null;
// Create an RijndaelManaged object
// with the specified key and IV.
using (RijndaelManaged rijAlg = new RijndaelManaged())
{
rijAlg.Key = Key;
rijAlg.IV = IV;
// Create a decrytor to perform the stream transform.
ICryptoTransform decryptor = rijAlg.CreateDecryptor(rijAlg.Key, rijAlg.IV);
// Create the streams used for decryption.
using (MemoryStream msDecrypt = new MemoryStream(cipherText))
{
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;
}
}
}

I've recently had to bump up against this again in my own project - and wanted to share the somewhat simpler code that I've been using, as this question and series of answers kept coming up in my searches.
I'm not going to get into the security concerns around how often to update things like your Salt and Initialization Vector - that's a topic for a security forum, and there are some great resources out there to look at. This is simply a block of code to implement AesManaged in C#.
using System;
using System.IO;
using System.Security.Cryptography;
using System.Text;
namespace Your.Namespace.Security {
public static class Cryptography {
#region Settings
private static int _iterations = 2;
private static int _keySize = 256;
private static string _hash = "SHA1";
private static string _salt = "aselrias38490a32"; // Random
private static string _vector = "8947az34awl34kjq"; // Random
#endregion
public static string Encrypt(string value, string password) {
return Encrypt<AesManaged>(value, password);
}
public static string Encrypt<T>(string value, string password)
where T : SymmetricAlgorithm, new() {
byte[] vectorBytes = GetBytes<ASCIIEncoding>(_vector);
byte[] saltBytes = GetBytes<ASCIIEncoding>(_salt);
byte[] valueBytes = GetBytes<UTF8Encoding>(value);
byte[] encrypted;
using (T cipher = new T()) {
PasswordDeriveBytes _passwordBytes =
new PasswordDeriveBytes(password, saltBytes, _hash, _iterations);
byte[] keyBytes = _passwordBytes.GetBytes(_keySize / 8);
cipher.Mode = CipherMode.CBC;
using (ICryptoTransform encryptor = cipher.CreateEncryptor(keyBytes, vectorBytes)) {
using (MemoryStream to = new MemoryStream()) {
using (CryptoStream writer = new CryptoStream(to, encryptor, CryptoStreamMode.Write)) {
writer.Write(valueBytes, 0, valueBytes.Length);
writer.FlushFinalBlock();
encrypted = to.ToArray();
}
}
}
cipher.Clear();
}
return Convert.ToBase64String(encrypted);
}
public static string Decrypt(string value, string password) {
return Decrypt<AesManaged>(value, password);
}
public static string Decrypt<T>(string value, string password) where T : SymmetricAlgorithm, new() {
byte[] vectorBytes = GetBytes<ASCIIEncoding>(_vector);
byte[] saltBytes = GetBytes<ASCIIEncoding>(_salt);
byte[] valueBytes = Convert.FromBase64String(value);
byte[] decrypted;
int decryptedByteCount = 0;
using (T cipher = new T()) {
PasswordDeriveBytes _passwordBytes = new PasswordDeriveBytes(password, saltBytes, _hash, _iterations);
byte[] keyBytes = _passwordBytes.GetBytes(_keySize / 8);
cipher.Mode = CipherMode.CBC;
try {
using (ICryptoTransform decryptor = cipher.CreateDecryptor(keyBytes, vectorBytes)) {
using (MemoryStream from = new MemoryStream(valueBytes)) {
using (CryptoStream reader = new CryptoStream(from, decryptor, CryptoStreamMode.Read)) {
decrypted = new byte[valueBytes.Length];
decryptedByteCount = reader.Read(decrypted, 0, decrypted.Length);
}
}
}
} catch (Exception ex) {
return String.Empty;
}
cipher.Clear();
}
return Encoding.UTF8.GetString(decrypted, 0, decryptedByteCount);
}
}
}
The code is very simple to use. It literally just requires the following:
string encrypted = Cryptography.Encrypt(data, "testpass");
string decrypted = Cryptography.Decrypt(encrypted, "testpass");
By default, the implementation uses AesManaged - but you could actually also insert any other SymmetricAlgorithm. A list of the available SymmetricAlgorithm inheritors for .NET 4.5 can be found at:
http://msdn.microsoft.com/en-us/library/system.security.cryptography.symmetricalgorithm.aspx
As of the time of this post, the current list includes:
AesManaged
RijndaelManaged
DESCryptoServiceProvider
RC2CryptoServiceProvider
TripleDESCryptoServiceProvider
To use RijndaelManaged with the code above, as an example, you would use:
string encrypted = Cryptography.Encrypt<RijndaelManaged>(dataToEncrypt, password);
string decrypted = Cryptography.Decrypt<RijndaelManaged>(encrypted, password);
I hope this is helpful to someone out there.

Look at sample in here..
http://msdn.microsoft.com/en-us/library/system.security.cryptography.rijndaelmanaged(v=VS.100).aspx#Y2262
The example on MSDN does not run normally (an error occurs) because there is no initial value of Initial Vector(iv) and Key. I add 2 line code and now work normally.
More details see below:
using System.Windows.Forms;
using System;
using System.Text;
using System.IO;
using System.Security.Cryptography;
namespace AES_TESTER
{
public partial class Form1 : Form
{
public Form1()
{
InitializeComponent();
}
private void Form1_Load(object sender, EventArgs e)
{
try
{
string original = "Here is some data to encrypt!";
MessageBox.Show("Original: " + original);
// Create a new instance of the RijndaelManaged
// class. This generates a new key and initialization
// vector (IV).
using (RijndaelManaged myRijndael = new RijndaelManaged())
{
myRijndael.GenerateKey();
myRijndael.GenerateIV();
// Encrypt the string to an array of bytes.
byte[] encrypted = EncryptStringToBytes(original, myRijndael.Key, myRijndael.IV);
StringBuilder s = new StringBuilder();
foreach (byte item in encrypted)
{
s.Append(item.ToString("X2") + " ");
}
MessageBox.Show("Encrypted: " + s);
// Decrypt the bytes to a string.
string decrypted = DecryptStringFromBytes(encrypted, myRijndael.Key, myRijndael.IV);
//Display the original data and the decrypted data.
MessageBox.Show("Decrypted: " + decrypted);
}
}
catch (Exception ex)
{
MessageBox.Show("Error: {0}", ex.Message);
}
}
static byte[] EncryptStringToBytes(string plainText, byte[] Key, byte[] IV)
{
// Check arguments.
if (plainText == null || plainText.Length <= 0)
throw new ArgumentNullException("plainText");
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
if (IV == null || IV.Length <= 0)
throw new ArgumentNullException("Key");
byte[] encrypted;
// Create an RijndaelManaged object
// with the specified key and IV.
using (RijndaelManaged rijAlg = new RijndaelManaged())
{
rijAlg.Key = Key;
rijAlg.IV = IV;
rijAlg.Mode = CipherMode.CBC;
rijAlg.Padding = PaddingMode.Zeros;
// Create a decrytor to perform the stream transform.
ICryptoTransform encryptor = rijAlg.CreateEncryptor(rijAlg.Key, rijAlg.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);
}
encrypted = msEncrypt.ToArray();
}
}
}
// Return the encrypted bytes from the memory stream.
return encrypted;
}
static string DecryptStringFromBytes(byte[] cipherText, byte[] Key, byte[] IV)
{
// Check arguments.
if (cipherText == null || cipherText.Length <= 0)
throw new ArgumentNullException("cipherText");
if (Key == null || Key.Length <= 0)
throw new ArgumentNullException("Key");
if (IV == null || IV.Length <= 0)
throw new ArgumentNullException("Key");
// Declare the string used to hold
// the decrypted text.
string plaintext = null;
// Create an RijndaelManaged object
// with the specified key and IV.
using (RijndaelManaged rijAlg = new RijndaelManaged())
{
rijAlg.Key = Key;
rijAlg.IV = IV;
rijAlg.Mode = CipherMode.CBC;
rijAlg.Padding = PaddingMode.Zeros;
// Create a decrytor to perform the stream transform.
ICryptoTransform decryptor = rijAlg.CreateDecryptor(rijAlg.Key, rijAlg.IV);
// Create the streams used for decryption.
using (MemoryStream msDecrypt = new MemoryStream(cipherText))
{
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;
}
}
}

Using AES or implementing AES? To use AES, there is the System.Security.Cryptography.RijndaelManaged class.

For a more complete example that performs key derivation in addition to the AES encryption, see the answer and links posted in Getting AES encryption to work across Javascript and C#.
EDIT
a side note: Javascript Cryptography considered harmful. Worth the read.

//Code to encrypt Data :
public byte[] encryptdata(byte[] bytearraytoencrypt, string key, string iv)
{
AesCryptoServiceProvider dataencrypt = new AesCryptoServiceProvider();
//Block size : Gets or sets the block size, in bits, of the cryptographic operation.
dataencrypt.BlockSize = 128;
//KeySize: Gets or sets the size, in bits, of the secret key
dataencrypt.KeySize = 128;
//Key: Gets or sets the symmetric key that is used for encryption and decryption.
dataencrypt.Key = System.Text.Encoding.UTF8.GetBytes(key);
//IV : Gets or sets the initialization vector (IV) for the symmetric algorithm
dataencrypt.IV = System.Text.Encoding.UTF8.GetBytes(iv);
//Padding: Gets or sets the padding mode used in the symmetric algorithm
dataencrypt.Padding = PaddingMode.PKCS7;
//Mode: Gets or sets the mode for operation of the symmetric algorithm
dataencrypt.Mode = CipherMode.CBC;
//Creates a symmetric AES encryptor object using the current key and initialization vector (IV).
ICryptoTransform crypto1 = dataencrypt.CreateEncryptor(dataencrypt.Key, dataencrypt.IV);
//TransformFinalBlock is a special function for transforming the last block or a partial block in the stream.
//It returns a new array that contains the remaining transformed bytes. A new array is returned, because the amount of
//information returned at the end might be larger than a single block when padding is added.
byte[] encrypteddata = crypto1.TransformFinalBlock(bytearraytoencrypt, 0, bytearraytoencrypt.Length);
crypto1.Dispose();
//return the encrypted data
return encrypteddata;
}
//code to decrypt data
private byte[] decryptdata(byte[] bytearraytodecrypt, string key, string iv)
{
AesCryptoServiceProvider keydecrypt = new AesCryptoServiceProvider();
keydecrypt.BlockSize = 128;
keydecrypt.KeySize = 128;
keydecrypt.Key = System.Text.Encoding.UTF8.GetBytes(key);
keydecrypt.IV = System.Text.Encoding.UTF8.GetBytes(iv);
keydecrypt.Padding = PaddingMode.PKCS7;
keydecrypt.Mode = CipherMode.CBC;
ICryptoTransform crypto1 = keydecrypt.CreateDecryptor(keydecrypt.Key, keydecrypt.IV);
byte[] returnbytearray = crypto1.TransformFinalBlock(bytearraytodecrypt, 0, bytearraytodecrypt.Length);
crypto1.Dispose();
return returnbytearray;
}

http://www.codeproject.com/Articles/769741/Csharp-AES-bits-Encryption-Library-with-Salt
using System.Security.Cryptography;
using System.IO;
 
public byte[] AES_Encrypt(byte[] bytesToBeEncrypted, byte[] passwordBytes)
{
byte[] encryptedBytes = null;
byte[] saltBytes = new byte[] { 1, 2, 3, 4, 5, 6, 7, 8 };
using (MemoryStream ms = new MemoryStream())
{
using (RijndaelManaged AES = new RijndaelManaged())
{
AES.KeySize = 256;
AES.BlockSize = 128;
var key = new Rfc2898DeriveBytes(passwordBytes, saltBytes, 1000);
AES.Key = key.GetBytes(AES.KeySize / 8);
AES.IV = key.GetBytes(AES.BlockSize / 8);
AES.Mode = CipherMode.CBC;
using (var cs = new CryptoStream(ms, AES.CreateEncryptor(), CryptoStreamMode.Write))
{
cs.Write(bytesToBeEncrypted, 0, bytesToBeEncrypted.Length);
cs.Close();
}
encryptedBytes = ms.ToArray();
}
}
return encryptedBytes;
}
public byte[] AES_Decrypt(byte[] bytesToBeDecrypted, byte[] passwordBytes)
{
byte[] decryptedBytes = null;
byte[] saltBytes = new byte[] { 1, 2, 3, 4, 5, 6, 7, 8 };
using (MemoryStream ms = new MemoryStream())
{
using (RijndaelManaged AES = new RijndaelManaged())
{
AES.KeySize = 256;
AES.BlockSize = 128;
var key = new Rfc2898DeriveBytes(passwordBytes, saltBytes, 1000);
AES.Key = key.GetBytes(AES.KeySize / 8);
AES.IV = key.GetBytes(AES.BlockSize / 8);
AES.Mode = CipherMode.CBC;
using (var cs = new CryptoStream(ms, AES.CreateDecryptor(), CryptoStreamMode.Write))
{
cs.Write(bytesToBeDecrypted, 0, bytesToBeDecrypted.Length);
cs.Close();
}
decryptedBytes = ms.ToArray();
}
}
return decryptedBytes;
}

Try this code, maybe useful.
1.Create New C# Project and add follows code to Form1:
using System;
using System.Windows.Forms;
using System.Security.Cryptography;
namespace ExampleCrypto
{
public partial class Form1 : Form
{
public Form1()
{
InitializeComponent();
}
private void Form1_Load(object sender, EventArgs e)
{
string strOriginalData = string.Empty;
string strEncryptedData = string.Empty;
string strDecryptedData = string.Empty;
strOriginalData = "this is original data 1234567890"; // your original data in here
MessageBox.Show("ORIGINAL DATA:\r\n" + strOriginalData);
clsCrypto aes = new clsCrypto();
aes.IV = "this is your IV"; // your IV
aes.KEY = "this is your KEY"; // your KEY
strEncryptedData = aes.Encrypt(strOriginalData, CipherMode.CBC); // your cipher mode
MessageBox.Show("ENCRYPTED DATA:\r\n" + strEncryptedData);
strDecryptedData = aes.Decrypt(strEncryptedData, CipherMode.CBC);
MessageBox.Show("DECRYPTED DATA:\r\n" + strDecryptedData);
}
}
}
2.Create clsCrypto.cs and copy paste follows code in your class and run your code. I used MD5 to generated Initial Vector(IV) and KEY of AES.
using System;
using System.Security.Cryptography;
using System.Text;
using System.Windows.Forms;
using System.IO;
using System.Runtime.Remoting.Metadata.W3cXsd2001;
namespace ExampleCrypto
{
public class clsCrypto
{
private string _KEY = string.Empty;
protected internal string KEY
{
get
{
return _KEY;
}
set
{
if (!string.IsNullOrEmpty(value))
{
_KEY = value;
}
}
}
private string _IV = string.Empty;
protected internal string IV
{
get
{
return _IV;
}
set
{
if (!string.IsNullOrEmpty(value))
{
_IV = value;
}
}
}
private string CalcMD5(string strInput)
{
string strOutput = string.Empty;
if (!string.IsNullOrEmpty(strInput))
{
try
{
StringBuilder strHex = new StringBuilder();
using (MD5 md5 = MD5.Create())
{
byte[] bytArText = Encoding.Default.GetBytes(strInput);
byte[] bytArHash = md5.ComputeHash(bytArText);
for (int i = 0; i < bytArHash.Length; i++)
{
strHex.Append(bytArHash[i].ToString("X2"));
}
strOutput = strHex.ToString();
}
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
}
return strOutput;
}
private byte[] GetBytesFromHexString(string strInput)
{
byte[] bytArOutput = new byte[] { };
if ((!string.IsNullOrEmpty(strInput)) && strInput.Length % 2 == 0)
{
SoapHexBinary hexBinary = null;
try
{
hexBinary = SoapHexBinary.Parse(strInput);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
bytArOutput = hexBinary.Value;
}
return bytArOutput;
}
private byte[] GenerateIV()
{
byte[] bytArOutput = new byte[] { };
try
{
string strIV = CalcMD5(IV);
bytArOutput = GetBytesFromHexString(strIV);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
return bytArOutput;
}
private byte[] GenerateKey()
{
byte[] bytArOutput = new byte[] { };
try
{
string strKey = CalcMD5(KEY);
bytArOutput = GetBytesFromHexString(strKey);
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
return bytArOutput;
}
protected internal string Encrypt(string strInput, CipherMode cipherMode)
{
string strOutput = string.Empty;
if (!string.IsNullOrEmpty(strInput))
{
try
{
byte[] bytePlainText = Encoding.Default.GetBytes(strInput);
using (RijndaelManaged rijManaged = new RijndaelManaged())
{
rijManaged.Mode = cipherMode;
rijManaged.BlockSize = 128;
rijManaged.KeySize = 128;
rijManaged.IV = GenerateIV();
rijManaged.Key = GenerateKey();
rijManaged.Padding = PaddingMode.Zeros;
ICryptoTransform icpoTransform = rijManaged.CreateEncryptor(rijManaged.Key, rijManaged.IV);
using (MemoryStream memStream = new MemoryStream())
{
using (CryptoStream cpoStream = new CryptoStream(memStream, icpoTransform, CryptoStreamMode.Write))
{
cpoStream.Write(bytePlainText, 0, bytePlainText.Length);
cpoStream.FlushFinalBlock();
}
strOutput = Encoding.Default.GetString(memStream.ToArray());
}
}
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
}
return strOutput;
}
protected internal string Decrypt(string strInput, CipherMode cipherMode)
{
string strOutput = string.Empty;
if (!string.IsNullOrEmpty(strInput))
{
try
{
byte[] byteCipherText = Encoding.Default.GetBytes(strInput);
byte[] byteBuffer = new byte[strInput.Length];
using (RijndaelManaged rijManaged = new RijndaelManaged())
{
rijManaged.Mode = cipherMode;
rijManaged.BlockSize = 128;
rijManaged.KeySize = 128;
rijManaged.IV = GenerateIV();
rijManaged.Key = GenerateKey();
rijManaged.Padding = PaddingMode.Zeros;
ICryptoTransform icpoTransform = rijManaged.CreateDecryptor(rijManaged.Key, rijManaged.IV);
using (MemoryStream memStream = new MemoryStream(byteCipherText))
{
using (CryptoStream cpoStream = new CryptoStream(memStream, icpoTransform, CryptoStreamMode.Read))
{
cpoStream.Read(byteBuffer, 0, byteBuffer.Length);
}
strOutput = Encoding.Default.GetString(byteBuffer);
}
}
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
}
}
return strOutput;
}
}
}

You can use password from text box like key...
With this code you can encrypt/decrypt text, picture, word document, pdf....
public class Rijndael
{
private byte[] key;
private readonly byte[] vector = { 255, 64, 191, 111, 23, 3, 113, 119, 231, 121, 252, 112, 79, 32, 114, 156 };
ICryptoTransform EnkValue, DekValue;
public Rijndael(byte[] key)
{
this.key = key;
RijndaelManaged rm = new RijndaelManaged();
rm.Padding = PaddingMode.PKCS7;
EnkValue = rm.CreateEncryptor(key, vector);
DekValue = rm.CreateDecryptor(key, vector);
}
public byte[] Encrypt(byte[] byte)
{
byte[] enkByte= byte;
byte[] enkNewByte;
using (MemoryStream ms = new MemoryStream())
{
using (CryptoStream cs = new CryptoStream(ms, EnkValue, CryptoStreamMode.Write))
{
cs.Write(enkByte, 0, enkByte.Length);
cs.FlushFinalBlock();
ms.Position = 0;
enkNewByte= new byte[ms.Length];
ms.Read(enkNewByte, 0, enkNewByte.Length);
}
}
return enkNeyByte;
}
public byte[] Dekrypt(byte[] enkByte)
{
byte[] dekByte;
using (MemoryStream ms = new MemoryStream())
{
using (CryptoStream cs = new CryptoStream(ms, DekValue, CryptoStreamMode.Write))
{
cs.Write(enkByte, 0, enkByte.Length);
cs.FlushFinalBlock();
ms.Position = 0;
dekByte= new byte[ms.Length];
ms.Read(dekByte, 0, dekByte.Length);
}
}
return dekByte;
}
}
Convert password from text box to byte array...
private byte[] ConvertPasswordToByte(string password)
{
byte[] key = new byte[32];
for (int i = 0; i < passwprd.Length; i++)
{
key[i] = Convert.ToByte(passwprd[i]);
}
return key;
}

here is a neat and clean code to understand AES 256 algorithm implemented in C#
call Encrypt function as encryptedstring = cryptObj.Encrypt(username, "AGARAMUDHALA", "EZHUTHELLAM", "SHA1", 3, "#1B2c3D4e5F6g7H8", 256);
public class Crypt
{
public string Encrypt(string passtext, string passPhrase, string saltV, string hashstring, int Iterations, string initVect, int keysize)
{
string functionReturnValue = null;
// Convert strings into byte arrays.
// Let us assume that strings only contain ASCII codes.
// If strings include Unicode characters, use Unicode, UTF7, or UTF8
// encoding.
byte[] initVectorBytes = null;
initVectorBytes = Encoding.ASCII.GetBytes(initVect);
byte[] saltValueBytes = null;
saltValueBytes = Encoding.ASCII.GetBytes(saltV);
// Convert our plaintext into a byte array.
// Let us assume that plaintext contains UTF8-encoded characters.
byte[] plainTextBytes = null;
plainTextBytes = Encoding.UTF8.GetBytes(passtext);
// First, we must create a password, from which the key will be derived.
// This password will be generated from the specified passphrase and
// salt value. The password will be created using the specified hash
// algorithm. Password creation can be done in several iterations.
PasswordDeriveBytes password = default(PasswordDeriveBytes);
password = new PasswordDeriveBytes(passPhrase, saltValueBytes, hashstring, Iterations);
// Use the password to generate pseudo-random bytes for the encryption
// key. Specify the size of the key in bytes (instead of bits).
byte[] keyBytes = null;
keyBytes = password.GetBytes(keysize/8);
// Create uninitialized Rijndael encryption object.
RijndaelManaged symmetricKey = default(RijndaelManaged);
symmetricKey = new RijndaelManaged();
// It is reasonable to set encryption mode to Cipher Block Chaining
// (CBC). Use default options for other symmetric key parameters.
symmetricKey.Mode = CipherMode.CBC;
// Generate encryptor from the existing key bytes and initialization
// vector. Key size will be defined based on the number of the key
// bytes.
ICryptoTransform encryptor = default(ICryptoTransform);
encryptor = symmetricKey.CreateEncryptor(keyBytes, initVectorBytes);
// Define memory stream which will be used to hold encrypted data.
MemoryStream memoryStream = default(MemoryStream);
memoryStream = new MemoryStream();
// Define cryptographic stream (always use Write mode for encryption).
CryptoStream cryptoStream = default(CryptoStream);
cryptoStream = new CryptoStream(memoryStream, encryptor, CryptoStreamMode.Write);
// Start encrypting.
cryptoStream.Write(plainTextBytes, 0, plainTextBytes.Length);
// Finish encrypting.
cryptoStream.FlushFinalBlock();
// Convert our encrypted data from a memory stream into a byte array.
byte[] cipherTextBytes = null;
cipherTextBytes = memoryStream.ToArray();
// Close both streams.
memoryStream.Close();
cryptoStream.Close();
// Convert encrypted data into a base64-encoded string.
string cipherText = null;
cipherText = Convert.ToBase64String(cipherTextBytes);
functionReturnValue = cipherText;
return functionReturnValue;
}
public string Decrypt(string cipherText, string passPhrase, string saltValue, string hashAlgorithm, int passwordIterations, string initVector, int keySize)
{
string functionReturnValue = null;
// Convert strings defining encryption key characteristics into byte
// arrays. Let us assume that strings only contain ASCII codes.
// If strings include Unicode characters, use Unicode, UTF7, or UTF8
// encoding.
byte[] initVectorBytes = null;
initVectorBytes = Encoding.ASCII.GetBytes(initVector);
byte[] saltValueBytes = null;
saltValueBytes = Encoding.ASCII.GetBytes(saltValue);
// Convert our ciphertext into a byte array.
byte[] cipherTextBytes = null;
cipherTextBytes = Convert.FromBase64String(cipherText);
// First, we must create a password, from which the key will be
// derived. This password will be generated from the specified
// passphrase and salt value. The password will be created using
// the specified hash algorithm. Password creation can be done in
// several iterations.
PasswordDeriveBytes password = default(PasswordDeriveBytes);
password = new PasswordDeriveBytes(passPhrase, saltValueBytes, hashAlgorithm, passwordIterations);
// Use the password to generate pseudo-random bytes for the encryption
// key. Specify the size of the key in bytes (instead of bits).
byte[] keyBytes = null;
keyBytes = password.GetBytes(keySize / 8);
// Create uninitialized Rijndael encryption object.
RijndaelManaged symmetricKey = default(RijndaelManaged);
symmetricKey = new RijndaelManaged();
// It is reasonable to set encryption mode to Cipher Block Chaining
// (CBC). Use default options for other symmetric key parameters.
symmetricKey.Mode = CipherMode.CBC;
// Generate decryptor from the existing key bytes and initialization
// vector. Key size will be defined based on the number of the key
// bytes.
ICryptoTransform decryptor = default(ICryptoTransform);
decryptor = symmetricKey.CreateDecryptor(keyBytes, initVectorBytes);
// Define memory stream which will be used to hold encrypted data.
MemoryStream memoryStream = default(MemoryStream);
memoryStream = new MemoryStream(cipherTextBytes);
// Define memory stream which will be used to hold encrypted data.
CryptoStream cryptoStream = default(CryptoStream);
cryptoStream = new CryptoStream(memoryStream, decryptor, CryptoStreamMode.Read);
// Since at this point we don't know what the size of decrypted data
// will be, allocate the buffer long enough to hold ciphertext;
// plaintext is never longer than ciphertext.
byte[] plainTextBytes = null;
plainTextBytes = new byte[cipherTextBytes.Length + 1];
// Start decrypting.
int decryptedByteCount = 0;
decryptedByteCount = cryptoStream.Read(plainTextBytes, 0, plainTextBytes.Length);
// Close both streams.
memoryStream.Close();
cryptoStream.Close();
// Convert decrypted data into a string.
// Let us assume that the original plaintext string was UTF8-encoded.
string plainText = null;
plainText = Encoding.UTF8.GetString(plainTextBytes, 0, decryptedByteCount);
// Return decrypted string.
functionReturnValue = plainText;
return functionReturnValue;
}
}