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I'm trying to encrypt my data with AES algorithm with CBC mode. For this reason I use .Net Library 'Bouncy Castle'. I have not a background in crypto, so I'm trying to use it in a straightforward way. Here is my encrypt code

public byte[] encrypt(byte[] key, byte[] iv,byte[] data) 
    {
        IBlockCipher engine=new AesFastEngine();
        KeyParameter keyParam = new KeyParameter(key);
        CbcBlockCipher cipher = new CbcBlockCipher(engine);

        ICipherParameters parameters = new ParametersWithIV(keyParam, iv);

        byte[] output=new byte[16+data.Length];
        cipher.Init(true, parameters);
        cipher.ProcessBlock(data, 0, output, data.Length);

        //process output
        byte[] cipherArray = new byte[data.Length];
        /*
        int k=0;
        for (int i = 0; i < output.Length; i++) 
        {
            if (output[i]!= 0) 
            {
                cipherArray[k++] = output[i];
            }
        }
         */
        return cipherArray;

    }

When I try an input that is not a multiply of 16, I get an exception. When I pad the array to the right with a number of (16-length%16) with zeros on the left, I can get a result. But the result is a problem for me as well. It gives me a result like this: [0][0][0][0[111][22][33][44][66][77][33][12][32][23][0][0][0][0][0] zeros on the both left and right.

I thought it may be about my use of ProcessBlock(data, 0, output, data.Length) function. I use it with the assumption that output will be my ciphered text, but it seems that output should be longer than the input length. since I don't have a documentation about this function, I may be using it in a wrong way. Any help would be app

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2 Answers 2

up vote 2 down vote accepted

Bouncy Castle will do the padding for you, to start you need to set up your cihper as:

  PaddedBufferedBlockCipher cipher = new PaddedBufferedBlockCipher(new CbcBlockCipher(engine), new Pkcs7Padding());

For the rest of your code to work would need to use cipher.GetOutputSize(data.Length) ProcessBytes,and DoFinal so the padding is added correctly.

byte[] output = new byte[cipher.GetOutputSize(data.Length)];
int len = cipher.ProcessBytes(data, 0, data.Length, output, 0);
cipher.DoFinal(output, len);

I have a simple example on of using AES-GCM in Bouncy Castle on CodeReview

AES-GCM adds authenticated encryption, but the basic principle of using the api is the same.

I also have a C# port of high level encryption framework, Kecyzar, that I used Bouncy Castle as the backend, although it's a harder example, the abstracted encryption code SymmetricStream is setup for using AES-CBC in BouncyAesKey

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thank you jbtule, but I have a problem with this patter when I try to use paddedCipher.DoFinal(output,len); it throws an exception "last block incomplete in decription", processBytes method returns a value that is a multiplication of 16 which is smaller than data length, would you know what causes this problem? thanks –  paskalnikov Nov 14 '12 at 10:15
    
@paskalnikov I added more code to show how to use. ProcessBytes is going to output bytes for every complete block and keep the rest buffered (you can also call ProcessBytes as many times as you want giving it a portion of data at a time), it's not going to assume you are finished until you call DoFinal, and then DoFinal will write out the last bytes (with padding), so if you have DoFinal write to your final output array you need to give it the index of where it should write to in the array. –  jbtule Nov 14 '12 at 14:02
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Typically one would use a standard padding algorithm to ensure that plaintext data is aligned with the block-size for a cipher.

You are currently hand-coding zero padding. This is not a great choice as it forbids the original data ending in a zero byte - how can you distinguish that from the padding?

I would recommend you use a standard padding, such as PKCS #7 padding. Note that this is often referred to as "PKCS #5 padding", as they are very similar.

You may wish to refer to this other SO question - Encrypt/Decrypt using Bouncy Castle in C# - for an example of using standard padding.

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