Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have to encrypt and decrypt a large string using RSA public key and private key. I have managed to encrypt a larger text using the following sample code

public static string Encrypt(string publicKey, string data, RsaKeyLengths length)
        {
            // full array of bytes to encrypt
            byte[] bytesToEncrypt;

            // worker byte array
            byte[] block;

            // encrypted bytes
            byte[] encryptedBytes;

            // length of bytesToEncrypt
            var dataLength = 0;

            // number of bytes in key                
            var keySize = 0;

            // maximum block length to encrypt          
            var maxLength = 0;

            // how many blocks must we encrypt to encrypt entire message?
            var iterations = 0;

            // the encrypted data
            var encryptedData = new StringBuilder();

            // instantiate the crypto provider with the correct key length
            var rsaCryptoServiceProvider = new RSACryptoServiceProvider((int)length);

            // initialize the RSA object from the given public key
            rsaCryptoServiceProvider.FromXmlString(publicKey);

            // convert data to byte array
            bytesToEncrypt = Encoding.Unicode.GetBytes(data);

            // get length of byte array
            dataLength = bytesToEncrypt.Length;

            // convert length of key from bits to bytes
            keySize = (int)length / 8;

            // .NET RSACryptoServiceProvider uses SHA1 Hash function
            // use this to work out the maximum length to encrypt per block
            maxLength = ((keySize - 2) - (2 * SHA1.Create().ComputeHash(bytesToEncrypt).Length));

            // how many blocks do we need to encrypt?
            iterations = dataLength / maxLength;

            // encrypt block by block
            for (int index = 0; index <= iterations; index++)
            {
                // is there more than one full block of data left to encrypt?
                if ((dataLength - maxLength * index) > maxLength)
                {
                    block = new byte[maxLength];
                }
                else
                {
                    block = new byte[dataLength - maxLength * index];
                }

                // copy the required number of bytes from the array of bytes to encrypt to our worker array
                Buffer.BlockCopy(bytesToEncrypt, maxLength * index, block, 0, block.Length);

                // encrypt the current worker array block of bytes
                encryptedBytes = rsaCryptoServiceProvider.Encrypt(block, true);

                // RSACryptoServiceProvider reverses the order of encrypted bytesToEncrypt after encryption and before decryption.
                // Undo this reversal for compatibility with other implementations
                Array.Reverse(encryptedBytes);

                // convert to base 64 string
                encryptedData.Append(Convert.ToBase64String(encryptedBytes));

            }
            return encryptedData.ToString();

        }

Then I tried to decrypt the larger text using the following code

/// <summary>
        /// Encrypt an arbitrary string of data under the supplied public key
        /// </summary>
        /// <param name="publicKey">The public key to encrypt under</param>
        /// <param name="data">The data to encrypt</param>
        /// <param name="length">The bit length or strength of the public key: 1024, 2048 or 4096 bits. This must match the 
        /// value actually used to create the publicKey</param>
        /// <returns></returns>
        public static string Decrypt(string privateKey, string data, RsaKeyLengths length)
        {
            // full array of bytes to encrypt
            byte[] bytesToDecrypt;

            // worker byte array
            byte[] block;

            // encrypted bytes
            byte[] decryptedBytes;

            // length of bytesToEncrypt
            var dataLength = 0;

            // number of bytes in key                
            var keySize = 0;

            // maximum block length to encrypt          
            var maxLength = 0;

            // how many blocks must we encrypt to encrypt entire message?
            var iterations = 0;

            // the encrypted data
            var decryptedData = new StringBuilder();

            // instantiate the crypto provider with the correct key length
            var rsaCryptoServiceProvider = new RSACryptoServiceProvider((int)length);

            // initialize the RSA object from the given public key
            rsaCryptoServiceProvider.FromXmlString(privateKey);

            // convert data to byte array
            bytesToDecrypt = Encoding.Unicode.GetBytes(data);

            // get length of byte array
            dataLength = bytesToDecrypt.Length;

            // convert length of key from bits to bytes
            keySize = (int)length / 8;

            // .NET RSACryptoServiceProvider uses SHA1 Hash function
            // use this to work out the maximum length to encrypt per block
            //maxLength = ((keySize - 2) - (2 * SHA1.Create().ComputeHash(bytesToDecrypt).Length));
            maxLength = ((keySize / 8) % 3 != 0) ?
              (((keySize / 8) / 3) * 4) + 4 : ((keySize / 8) / 3) * 4; ;

            // how many blocks do we need to encrypt?
            iterations = dataLength / maxLength;

            // encrypt block by block
            for (int index = 0; index <= iterations; index++)
            {
                // is there more than one full block of data left to encrypt?
                if ((dataLength - maxLength * index) > maxLength)
                {
                    block = new byte[maxLength];
                }
                else
                {
                    block = new byte[dataLength - maxLength * index];
                }

                // copy the required number of bytes from the array of bytes to encrypt to our worker array
                Buffer.BlockCopy(bytesToDecrypt, maxLength * index, block, 0, block.Length);

                // encrypt the current worker array block of bytes
                decryptedBytes = rsaCryptoServiceProvider.Decrypt(block, true);

                // RSACryptoServiceProvider reverses the order of encrypted bytesToEncrypt after encryption and before decryption.
                // Undo this reversal for compatibility with other implementations
                Array.Reverse(decryptedBytes);

                // convert to base 64 string
                decryptedData.Append(Convert.ToBase64String(decryptedBytes));

            }
            return decryptedData.ToString();
        }

Actually the encryption is going on smoothly. No problem with it. But when I am trying to decrypt it. I am getting the following exception

Unhandled Exception: System.Security.Cryptography.CryptographicException: Error occurred while decoding OAEP padding.

Can anybody help me out?

share|improve this question
1  
I've only skimmed the code so far, but it looks like the last step in encryption is Base64-encoding the output, but the input isn't Base64-decoded before decryption. –  shambulator Feb 8 '13 at 11:28

2 Answers 2

Use stream cipher instead and only encrypt that key for this cipher with RSA. This may help if you need RSA because of its public-private key logic and want to use the different keys for encryption and decryption. With stream cipher you would be able encrypt and decrypt gigabytes of data no problem.

RSA is normally not used for really big amounts of data.

share|improve this answer
    
Actually you really right. But for my situation, I want to use asymmetric. So I need public-private key logic. So what I am looking a solution. –  Selvakumar Feb 9 '13 at 7:45
1  
You still have all public-private key logic. Sender encrypts the cipher key with private key and receiver decrypts with public key. The cipher key should be randomly generated for each message and never reused. Its usage has no effect on logic. –  Audrius Meškauskas Feb 9 '13 at 9:30
    
I finally found the answer. I chopped the message into maximum data lengths according to key length. –  Selvakumar Feb 13 '13 at 11:28

Maybe a bit late, but I found http://tekaris.com/blog/2013/02/08/encrypting-large-data-with-asymetric-rsacryptoserviceprovider/ helpful. The trick here obviously is to split the data, encrypt and re-join the data.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.