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cryptography - Using AES encryption in .NET - CryptographicException saying the padding is invalid and cannot be removed

I wrote some AES encryption code in C# and I am having trouble getting it to encrypt and decrypt properly. If I enter "test" as the passphrase and "This data must be kept secret from everyone!" I receive the following exception:

System.Security.Cryptography.CryptographicException: Padding is invalid and cannot be removed.
   at System.Security.Cryptography.RijndaelManagedTransform.DecryptData(Byte[] inputBuffer, Int32 inputOffset, Int32 inputCount, Byte[]& outputBuffer, Int32 outputOffset, PaddingMode paddingMode, Boolean fLast)
   at System.Security.Cryptography.RijndaelManagedTransform.TransformFinalBlock(Byte[] inputBuffer, Int32 inputOffset, Int32 inputCount)
   at System.Security.Cryptography.CryptoStream.FlushFinalBlock()
   at System.Security.Cryptography.CryptoStream.Dispose(Boolean disposing)
   at System.IO.Stream.Close()
   at System.IO.Stream.Dispose()
   ...

And if I enter something less than 16 characters I get no output.

I believe I need some special handling in the encryption since AES is a block cipher, but I'm not sure exactly what that is, and I wasn't able to find any examples on the web showing how. Here is my code:

using System;
using System.IO;
using System.Security.Cryptography;
using System.Text;

public static class DatabaseCrypto
{
    public static EncryptedData Encrypt(string password, string data)
    {
        return DatabaseCrypto.Transform(true, password, data, null, null) as EncryptedData;
    }

    public static string Decrypt(string password, EncryptedData data)
    {
        return DatabaseCrypto.Transform(false, password, data.DataString, data.SaltString, data.MACString) as string;
    }

    private static object Transform(bool encrypt, string password, string data, string saltString, string macString)
    {
        using (AesManaged aes = new AesManaged())
        {
            aes.Mode = CipherMode.CBC;
            aes.Padding = PaddingMode.PKCS7;
            int key_len = aes.KeySize / 8;
            int iv_len = aes.BlockSize / 8;
            const int salt_size = 8;
            const int iterations = 8192;

            byte[] salt = encrypt ? new byte[salt_size] : Convert.FromBase64String(saltString);
            if (encrypt)
            {
                new RNGCryptoServiceProvider().GetBytes(salt);
            }

            byte[] bc_key = new Rfc2898DeriveBytes("BLK" + password, salt, iterations).GetBytes(key_len);
            byte[] iv = new Rfc2898DeriveBytes("IV" + password, salt, iterations).GetBytes(iv_len);
            byte[] mac_key = new Rfc2898DeriveBytes("MAC" + password, salt, iterations).GetBytes(16);

            aes.Key = bc_key;
            aes.IV = iv;

            byte[] rawData = encrypt ? Encoding.UTF8.GetBytes(data) : Convert.FromBase64String(data);

            using (ICryptoTransform transform = encrypt ? aes.CreateEncryptor() : aes.CreateDecryptor())
            using (MemoryStream memoryStream = encrypt ? new MemoryStream() : new MemoryStream(rawData))
            using (CryptoStream cryptoStream = new CryptoStream(memoryStream, transform, encrypt ? CryptoStreamMode.Write : CryptoStreamMode.Read))
            {
                if (encrypt)
                {
                    cryptoStream.Write(rawData, 0, rawData.Length);

                    return new EncryptedData(salt, mac_key, memoryStream.ToArray());
                }
                else
                {
                    byte[] originalData = new byte[rawData.Length];
                    int count = cryptoStream.Read(originalData, 0, originalData.Length);

                    return Encoding.UTF8.GetString(originalData, 0, count);
                }
            }
        }
    }
}

public class EncryptedData
{
    public EncryptedData()
    {
    }

    public EncryptedData(byte[] salt, byte[] mac, byte[] data)
    {
        this.Salt = salt;
        this.MAC = mac;
        this.Data = data;
    }

    public EncryptedData(string salt, string mac, string data)
    {
        this.SaltString = salt;
        this.MACString = mac;
        this.DataString = data;
    }

    public byte[] Salt
    {
        get;
        set;
    }

    public string SaltString
    {
        get { return Convert.ToBase64String(this.Salt); }
        set { this.Salt = Convert.FromBase64String(value); }
    }

    public byte[] MAC
    {
        get;
        set;
    }

    public string MACString
    {
        get { return Convert.ToBase64String(this.MAC); }
        set { this.MAC = Convert.FromBase64String(value); }
    }

    public byte[] Data
    {
        get;
        set;
    }

    public string DataString
    {
        get { return Convert.ToBase64String(this.Data); }
        set { this.Data = Convert.FromBase64String(value); }
    }
}

    static void ReadTest()
    {
        Console.WriteLine("Enter password: ");
        string password = Console.ReadLine();

        using (StreamReader reader = new StreamReader("aes.cs.txt"))
        {
            EncryptedData enc = new EncryptedData();
            enc.SaltString = reader.ReadLine();
            enc.MACString = reader.ReadLine();
            enc.DataString = reader.ReadLine();

            Console.WriteLine("The decrypted data was: " + DatabaseCrypto.Decrypt(password, enc));
        }
    }

    static void WriteTest()
    {
        Console.WriteLine("Enter data: ");
        string data = Console.ReadLine();
        Console.WriteLine("Enter password: ");
        string password = Console.ReadLine();

        EncryptedData enc = DatabaseCrypto.Encrypt(password, data);

        using (StreamWriter stream = new StreamWriter("aes.cs.txt"))
        {
            stream.WriteLine(enc.SaltString);
            stream.WriteLine(enc.MACString);
            stream.WriteLine(enc.DataString);

            Console.WriteLine("The encrypted data was: " + enc.DataString);
        }
    }
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1 Reply

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by (71.8m points)

When using a block cipher like AES in a mode that requires padding, like CBC, you must be aware that the output will always be a multiple of the block size. To accomplish this, padding modes like PKCS7 will add some bytes to the cipher at the end of the encryption process. But you have to let the encryptor know when the end occurs. To do so, all you have to do is insert the statement

cryptoStream.FlushFinalBlock();  

after

cryptoStream.Write(rawData, 0, rawData.Length);

PS:

Perhaps it is just for debugging, but your salt generation method generates the exact same salt every time.


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