.NET's AES does not implement CTR directly. It only implements CBC, CFB, CTS, ECB and OFB.

Can I use any of these modes and securely implement CTR around them, or do I need to use a different library altogether?

  • Why must you use CTR? What advantage does it have over CBC? – Petey B Jun 16 '11 at 17:24
  • 2
    In addition to not allowing random access, other stream ciphers are not embarrasingly parallel because one operation requires the previous to complete. CTR mode addresses that limitation; CTR imlementations can be highly parallel. – pomeroy Sep 23 '11 at 13:54

Yes, you can build a CTR using .NET's AES in ECB mode and a counter, that you yourself initialize and increment, for each block encrypted.

An example of this is the WinZipAes encryption stream, which is part of the open-source DotNetZip.
WinZip specifies the use of AES encryption for encrypted ZIP files, using AES in CTR mode. DotNetZip implements the CTR mode using ECB and the counter.

See here for some comments.


A compact standalone implementation based on the code by @quadfinity.

(Despite naming of the class in the original code) It can work with any key size: 128, 192 and 256. Just provide a key of a correct size. salt must have 128 bits (16 bytes).

The method works both for encryption and decryption.

public static void AesCtrTransform(
    byte[] key, byte[] salt, Stream inputStream, Stream outputStream)
    SymmetricAlgorithm aes =
        new AesManaged { Mode = CipherMode.ECB, Padding = PaddingMode.None };

    int blockSize = aes.BlockSize / 8;

    if (salt.Length != blockSize)
        throw new ArgumentException(
                "Salt size must be same as block size (actual: {0}, expected: {1})",
                salt.Length, blockSize));

    byte[] counter = (byte[])salt.Clone();

    Queue<byte> xorMask = new Queue<byte>();

    var zeroIv = new byte[blockSize];
    ICryptoTransform counterEncryptor = aes.CreateEncryptor(key, zeroIv);

    int b;
    while ((b = inputStream.ReadByte()) != -1)
        if (xorMask.Count == 0)
            var counterModeBlock = new byte[blockSize];

                counter, 0, counter.Length, counterModeBlock, 0);

            for (var i2 = counter.Length - 1; i2 >= 0; i2--)
                if (++counter[i2] != 0)

            foreach (var b2 in counterModeBlock)

        var mask = xorMask.Dequeue();
        outputStream.WriteByte((byte)(((byte)b) ^ mask));

If you want to encrypt or decrypt a file, use File.OpenRead for inputStream and File.Create for the outputStream:

using (Stream inputStream = File.OpenRead("file.in"))
using (Stream outputStream = File.Create("file.out"))
    AesCtrTransform(key, salt, inputStream, outputStream);

See also PowerShell version of the code.

  • A slight tweak to this involves adding a flag to allow the for loop of the counter loop (i2) up from zero instead. This will allow matching with libtomcrypt's CTR_COUNTER_LITTLE_ENDIAN flag. – Aidan Nov 6 '18 at 17:53

All you need to do is to use AES in ECB mode with a key (no padding, no IV) to encrypt a 128-bit counter. The plain text is then XORed with the encrypted output of the counter. For each block the counter is incremented. Encryption and decryption is the same due to the properties of the XOR operator.

You can find an implementation (my own) for AES128 CTR mode here:


It should be easy to use.

  • 1
    the last bytes are not getting decrypted using you implementation. What will be the problem? – Pravin Patil Mar 15 '16 at 6:26
  • +1 - For a compact standalone code based on this, see my answer. – Martin Prikryl Jul 5 '18 at 10:03

Bouncy Castle's symmetric encryption implementation seems to support CTR:

  • Symmetric key algorithms: AES, Blowfish, Camellia, CAST5, CAST6, DESede, DES, GOST28147, HC-128, HC-256, IDEA, NaccacheStern, RC2, RC4, RC5-32, RC5-64, RC6, Rijndael, Serpent, Skipjack, TEA/XTEA, Twofish, and VMPC.
  • Symmetric key modes: CBC, CFB, CTS, GOFB, OFB, OpenPGPCFB, and SIC (aka CTR).



Encrypt and Decrypt using the AES/CTR/NoPadding algorithm with an all-zero, 16-byte initialization vector (IV) and a single-use 256-bit AES decryption key using a cryptographically-secure generator.

Using AesCtrTransform method from @martin code, I have the below usage example. Note that I'm leaving the Initialization Vector (IV) byte array empty here but you should populate it if you want to make things more secure (Learn more: is it safe to reuse IV), but then you have to store the IV somewhere as well as the key.

const string text = "Hello world";
var key = new byte[32];
var initializationVector = new byte[16];

using (var random = new RNGCryptoServiceProvider())

string output;
string outputEncrypted;

using (var outputEncryptedStream = new MemoryStream())
    using (var inputStream = new MemoryStream(Encoding.UTF8.GetBytes(text)))
        AesCtrTransform(key, initializationVector, inputStream, outputEncryptedStream);

    outputEncryptedStream.Position = 0;
    using (var reader = new StreamReader(outputEncryptedStream, Encoding.UTF8, true, 1024, true))
        outputEncrypted = reader.ReadToEnd();
    outputEncryptedStream.Position = 0;

    using (var outputDecryptedStream = new MemoryStream())
        AesCtrTransform(key, initializationVector, outputEncryptedStream, outputDecryptedStream);

        outputDecryptedStream.Position = 0;
        using (var reader = new StreamReader(outputDecryptedStream))
            output = reader.ReadToEnd();

Assert.AreEqual(text, output);

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