45

I'm new to encryption. I need to implement asymmetric encryption algorithm, which i think it uses private/public key. I started using a sample of RSACryptoServiceProvider. it was ok with small data to encrypt. But when using it on relatively larger data "2 lines", i get the exception CryptographicException "Bad Length"!

//Create a new instance of RSACryptoServiceProvider.
using (RSACryptoServiceProvider RSA = new RSACryptoServiceProvider())
{

    //Import the RSA Key information. This only needs
    //toinclude the public key information.
    //RSA.ImportParameters(RSAKeyInfo);
    byte[] keyValue = Convert.FromBase64String(publicKey);
    RSA.ImportCspBlob(keyValue);

    //Encrypt the passed byte array and specify OAEP padding.  
    //OAEP padding is only available on Microsoft Windows XP or
    //later.  
    encryptedData = RSA.Encrypt(DataToEncrypt, DoOAEPPadding);
}

Then I found some samples of encrypting large data (or files) by using CryptoStream, and only use symmetric algorithms like DES or 3DES, which have the function CreateEncryptor to return ICryptoTransform as one of the input to the constructor of CryptoStream!!!

CryptoStream cStream = new CryptoStream(fStream,
                new TripleDESCryptoServiceProvider().CreateEncryptor(Key, IV),
                CryptoStreamMode.Write);

What is the way to encrypt files using RSA?

1
  • 17
    private/public algorithms are not suitable for encrypting large data. In practice they are used to exchange a private secret key between the two parties that will be used to symmetrically encrypt/decrypt the large data. Jul 29, 2009 at 9:39

7 Answers 7

65

RSA can only encrypt data blocks that are shorter than the key length so what you normally do is

  1. Generate a random key of the correct length required for AES (or similar).
  2. Encrypt your data using AES or similar using that key
  3. Encrypt the random key using your RSA key

Then you publish both the outputs from 2 and 3

To decrypt

  1. Decrypt the AES key using your RSA key.
  2. Decrypt the data using that AES key
1
  • If you do this then the only ones who can decrypt the data are those who possess the private key from your RSA keypair. Jul 29, 2009 at 14:17
37

As mentioned in other answers asymmetric encryption is only designed for encrypting data smaller than its key size.

One option that I have implemented when needing to transfer large amounts of encrypted data between two systems is to have an RSA keypair whose public key is known to both the sender and the receiver then when data needs to be sent the receiver generates a new RSA keypair, encrypts the public key of that keypair with the common public key and sends the encrypted public key to the sender. The sender decrypts the receivers public key using its private key (which the receiver does not need to know, just as the sender does not need to know the receivers generated private key), generates a symmetric encryption key, encrypts the data with the symmetric key and then encrypts the symmetric key using the public key received from the receiver. Both the encrypted symmetric key and the encrypted data are then sent to the receiver which uses its generated private key to decrypt the symmetric key and then decrypts the data.

You can use the RSACryptoServiceProvider.ToXMLString() and RSACryptoServiceProvider.FromXMLString() methods to store the common public key as an XML string literal in the receiver application.

Don't forget, when you generate the symmetric encryption key to use RNGCryptoServiceProvider() to generate the key as it is a much more secure method of generating (pseudo) random numbers.

Also, I strongly recommend against using 3DES as your symmetric encryption algorithm, it is old and starting to show its age. Use AES symmetric encryption with either the AesCryptoServiceProvicer or RijndaelManaged classes.

21

Usually, RSA is only used to transfer a symmetric key (at the start of the stream for example) and then the bulk data is encrypted with that key.

Asymmetric encryption isn't efficient enough to transfer a lot of data.

19

For future searches regarding RSA bad length exceptions...

You can calculate the max number of bytes which can be encrypted with a particular key size with the following:

((KeySize - 384) / 8) + 37

However, if the optimal asymmetric encryption padding (OAEP) parameter is true, the following can be used to calculate the max bytes:

((KeySize - 384) / 8) + 7

The legal key sizes are 384 thru 16384 with a skip size of 8.

8

The .NET implementations of RSA (and all public/private key algorithms) do not support large blocks of data - because that's not the aim of public/private key.

Instead what you would do is generate a new symmetric key and use that to encrypt the data. Then you use public/private key to encrypt the symmetric key and exchange it with the other party securely. They then decrypt the symmetric key and use it to unencrypt your data.

1

we have:

MaxBlockSize=((KeySize - 384) / 8) + 37

OR

MaxBlockSize=((KeySize - 384) / 8) + 7

so, we can divide Data to some blocks and then encrypt each one and then merge them

0
public class RsaService : System.IDisposable
{
public delegate int TransformBlockCall(System.ReadOnlySpan<byte> data, System.Span<byte> destination);

private readonly RSA _encoder;
private readonly RSAEncryptionPadding _padding;

private readonly TransformBlockCall _encryptBlockCall;
private readonly TransformBlockCall _decryptBlockCall;

private int _encrypt_InputBlockSize;
private int _encrypt_OutputBlockSize;
private int _decrypt_InputBlockSize;
private int _decrypt_OutputBlockSize;

public RsaService(RSA encoder) {
    if(encoder == null)
        throw new System.ArgumentNullException(nameof(encoder));
    _encoder = encoder;

    _padding = RSAEncryptionPadding.Pkcs1;

    _encryptBlockCall = new TransformBlockCall(EncryptBlock);
    _decryptBlockCall = new TransformBlockCall(DecryptBlock);

    OnEndSetParameters();
}

private void OnEndSetParameters() {
    _encrypt_InputBlockSize = GetSizeOutputEncryptOfKeySize(_encoder.KeySize);
    _encrypt_OutputBlockSize = _encoder.KeySize / 8;
    _decrypt_InputBlockSize = _encrypt_OutputBlockSize;
    _decrypt_OutputBlockSize = _encrypt_OutputBlockSize;
}

public void ImportParameters(RSAParameters parameters) {
    _encoder.ImportParameters(parameters);
    OnEndSetParameters();
}

public byte[] Encrypt(byte[] data) {
    if(data == null) throw new System.ArgumentNullException(nameof(data));
    if(data.Length == 0) return data;
    int outputLength = GetEncryptOutputMaxByteCount(data.Length);
    byte[] outputData = new byte[outputLength];
    Encrypt(data, outputData);
    return outputData;
}


public byte[] Decrypt(byte[] data) {
    if(data == null) throw new System.ArgumentNullException(nameof(data));
    if(data.Length == 0) return data;
    int maxOutputLength = GetDecryptOutputMaxByteCount(data.Length);
    byte[] outputData = new byte[maxOutputLength];
    int actual_OutputLength = Decrypt(data, outputData);
    if(maxOutputLength > actual_OutputLength)
        System.Array.Resize(ref outputData, actual_OutputLength);
    return outputData;
}

public int Encrypt(System.ReadOnlySpan<byte> data, System.Span<byte> destination) {
#if DEBUG
    int inputBlockSize = _encrypt_InputBlockSize;
    int outputBlockSize = _encoder.KeySize / 8;
    int blockCount = (data.Length / inputBlockSize);
    if(data.Length % inputBlockSize != 0)
        blockCount++;
    System.Diagnostics.Debug.Assert((blockCount * outputBlockSize) <= destination.Length);
#endif

    if(data.Length > _encrypt_InputBlockSize)
        return TransformFinal(_encryptBlockCall, data, destination, _encrypt_InputBlockSize);
    else
        return _encryptBlockCall(data, destination);
}


public int Decrypt(System.ReadOnlySpan<byte> data, System.Span<byte> destination) {
    if(data.Length > _decrypt_InputBlockSize)
        return TransformFinal(_decryptBlockCall, data, destination, _decrypt_InputBlockSize);
    else
        return _decryptBlockCall(data, destination);
}

private int EncryptBlock(System.ReadOnlySpan<byte> data, System.Span<byte> destination) => _encoder.Encrypt(data, destination, _padding);
private int DecryptBlock(System.ReadOnlySpan<byte> data, System.Span<byte> destination) => _encoder.Decrypt(data, destination, _padding);

public int GetEncryptOutputMaxByteCount(int inputCount) => GetBlockCount(inputCount, _encrypt_InputBlockSize) * _encrypt_OutputBlockSize;
public int GetDecryptOutputMaxByteCount(int inputCount) => GetBlockCount(inputCount, _decrypt_InputBlockSize) * _decrypt_OutputBlockSize;
public void Dispose() {
    _encoder.Dispose();
    System.GC.SuppressFinalize(this);
}


#region Methods_Helper

public static RsaService Create(RSAParameters parameters) => new RsaService(RSA.Create(parameters));

public static RsaService Create() => new RsaService(RSA.Create());

// [keySize] ÷ 8 - [11 bytes for padding] = Result
// Exsimple: [2048 key size] ÷ 8 - [11 bytes for padding] = 245
public static int GetSizeOutputEncryptOfKeySize(int keySize) => (keySize / 8) - 11;

private static int GetBlockCount(int dataLength,int inputBlockSize) {
    int blockCount = (dataLength / inputBlockSize);
    if(dataLength % inputBlockSize != 0)
        blockCount++;
    return blockCount;
}

public static int TransformFinal(TransformBlockCall transformBlockCall, System.ReadOnlySpan<byte> data, System.Span<byte> destination, int inputBlockSize) {

    int blockCount = GetBlockCount(data.Length, inputBlockSize);

    int data_writtenCount = 0;
    int destination_writtenCount = 0;
    while(blockCount-- > 0) {
        if(blockCount == 0) {
            inputBlockSize = data.Length - data_writtenCount;
            if(inputBlockSize == 0) break;
        }
        destination_writtenCount += transformBlockCall(data: data.Slice(data_writtenCount, inputBlockSize)
            , destination: destination.Slice(destination_writtenCount));
        data_writtenCount += inputBlockSize;
    }
    return destination_writtenCount;
}


public static (RSAParameters keyPublic, RSAParameters keyPrivate) GenerateKeyPair(int keySize = 2048) {
    RSAParameters keyPriv;
    RSAParameters keyPub;
    using(var rsa = RSA.Create(keySize)) {
        keyPriv = rsa.ExportParameters(true);
        keyPub = rsa.ExportParameters(false);
    }
    return (keyPub, keyPriv);
}

#endregion Methods_Helper


}


public static class Program
{

static void Main() {

    var (keyPublic, keyPrivate) = RsaService.GenerateKeyPair();

    var encryptor = RsaService.Create(keyPublic);
    var decryptor = RsaService.Create(keyPrivate);
    string originalText = "";
    for(int i = 0; i < 1000; i++) {
        originalText += "ABC123456789";
    }
    byte[] inputData = Encoding.UTF8.GetBytes(originalText); // data random for test
    System.Console.WriteLine("inputData.Length: {0}", inputData.Length);

    var encryptedData = encryptor.Encrypt(inputData);

    System.Console.WriteLine("encryptedData.Length: {0}", encryptedData.Length);


    byte[] decryptedData = decryptor.Decrypt(encryptedData);
    string decryptedText = Encoding.UTF8.GetString(decryptedData);

    System.Console.WriteLine("status: {0}", decryptedText == originalText);

}
}
1
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