#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) #pragma warning disable using System; using BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.Parameters; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Crypto.Modes { /** * implements Cipher-Block-Chaining (CBC) mode on top of a simple cipher. */ [BestHTTP.PlatformSupport.IL2CPP.Il2CppEagerStaticClassConstructionAttribute] public class CbcBlockCipher : IBlockCipher { private byte[] IV, cbcV, cbcNextV; private int blockSize; private IBlockCipher cipher; private bool encrypting; /** * Basic constructor. * * @param cipher the block cipher to be used as the basis of chaining. */ public CbcBlockCipher( IBlockCipher cipher) { this.cipher = cipher; this.blockSize = cipher.GetBlockSize(); this.IV = new byte[blockSize]; this.cbcV = new byte[blockSize]; this.cbcNextV = new byte[blockSize]; } /** * return the underlying block cipher that we are wrapping. * * @return the underlying block cipher that we are wrapping. */ public IBlockCipher GetUnderlyingCipher() { return cipher; } /** * Initialise the cipher and, possibly, the initialisation vector (IV). * If an IV isn't passed as part of the parameter, the IV will be all zeros. * * @param forEncryption if true the cipher is initialised for * encryption, if false for decryption. * @param param the key and other data required by the cipher. * @exception ArgumentException if the parameters argument is * inappropriate. */ public void Init( bool forEncryption, ICipherParameters parameters) { bool oldEncrypting = this.encrypting; this.encrypting = forEncryption; if (parameters is ParametersWithIV) { ParametersWithIV ivParam = (ParametersWithIV)parameters; byte[] iv = ivParam.GetIV(); if (iv.Length != blockSize) { throw new ArgumentException("initialisation vector must be the same length as block size"); } Array.Copy(iv, 0, IV, 0, iv.Length); parameters = ivParam.Parameters; } Reset(); // if null it's an IV changed only. if (parameters != null) { cipher.Init(encrypting, parameters); } else if (oldEncrypting != encrypting) { throw new ArgumentException("cannot change encrypting state without providing key."); } } /** * return the algorithm name and mode. * * @return the name of the underlying algorithm followed by "/CBC". */ public string AlgorithmName { get { return cipher.AlgorithmName + "/CBC"; } } public bool IsPartialBlockOkay { get { return false; } } /** * return the block size of the underlying cipher. * * @return the block size of the underlying cipher. */ public int GetBlockSize() { return cipher.GetBlockSize(); } /** * Process one block of input from the array in and write it to * the out array. * * @param in the array containing the input data. * @param inOff offset into the in array the data starts at. * @param out the array the output data will be copied into. * @param outOff the offset into the out array the output will start at. * @exception DataLengthException if there isn't enough data in in, or * space in out. * @exception InvalidOperationException if the cipher isn't initialised. * @return the number of bytes processed and produced. */ public int ProcessBlock( byte[] input, int inOff, byte[] output, int outOff) { return (encrypting) ? EncryptBlock(input, inOff, output, outOff) : DecryptBlock(input, inOff, output, outOff); } /** * reset the chaining vector back to the IV and reset the underlying * cipher. */ public void Reset() { Array.Copy(IV, 0, cbcV, 0, IV.Length); Array.Clear(cbcNextV, 0, cbcNextV.Length); cipher.Reset(); } /** * Do the appropriate chaining step for CBC mode encryption. * * @param in the array containing the data to be encrypted. * @param inOff offset into the in array the data starts at. * @param out the array the encrypted data will be copied into. * @param outOff the offset into the out array the output will start at. * @exception DataLengthException if there isn't enough data in in, or * space in out. * @exception InvalidOperationException if the cipher isn't initialised. * @return the number of bytes processed and produced. */ private unsafe int EncryptBlock( byte[] input, int inOff, byte[] outBytes, int outOff) { if ((inOff + blockSize) > input.Length) { throw new DataLengthException("input buffer too short"); } /* * XOR the cbcV and the input, * then encrypt the cbcV */ //for (int i = 0; i < blockSize; i++) //{ // cbcV[i] ^= input[inOff + i]; //} fixed (byte* pinput = input, pcbcV = cbcV) { ulong* pulongInput = (ulong*)&pinput[inOff], pulongcbcV = (ulong*)pcbcV; for (int i = 0; i < blockSize / 8; i++) pulongcbcV[i] ^= pulongInput[i]; } int length = cipher.ProcessBlock(cbcV, 0, outBytes, outOff); /* * copy ciphertext to cbcV */ Array.Copy(outBytes, outOff, cbcV, 0, cbcV.Length); return length; } /** * Do the appropriate chaining step for CBC mode decryption. * * @param in the array containing the data to be decrypted. * @param inOff offset into the in array the data starts at. * @param out the array the decrypted data will be copied into. * @param outOff the offset into the out array the output will start at. * @exception DataLengthException if there isn't enough data in in, or * space in out. * @exception InvalidOperationException if the cipher isn't initialised. * @return the number of bytes processed and produced. */ private unsafe int DecryptBlock( byte[] input, int inOff, byte[] outBytes, int outOff) { if ((inOff + blockSize) > input.Length) { throw new DataLengthException("input buffer too short"); } Array.Copy(input, inOff, cbcNextV, 0, blockSize); int length = cipher.ProcessBlock(input, inOff, outBytes, outOff); /* * XOR the cbcV and the output */ //for (int i = 0; i < blockSize; i++) //{ // outBytes[outOff + i] ^= cbcV[i]; //} fixed (byte* poutBytes = outBytes, pcbcV = cbcV) { ulong* pulongBytes = (ulong*)&poutBytes[outOff], pulongcbcV = (ulong*)pcbcV; for (int i = 0; i < blockSize / 8; i++) pulongBytes[i] ^= pulongcbcV[i]; } /* * swap the back up buffer into next position */ byte[] tmp; tmp = cbcV; cbcV = cbcNextV; cbcNextV = tmp; return length; } } } #pragma warning restore #endif