private static Stream CreateStream(Stream s, bool bEncrypt, byte[] pbKey, byte[] pbIV) { StandardAesEngine.ValidateArguments(s, bEncrypt, pbKey, pbIV); #if KeePassUAP return(StandardAesEngineExt.CreateStream(s, bEncrypt, pbKey, pbIV)); #else SymmetricAlgorithm a = CryptoUtil.CreateAes(); if (a.BlockSize != 128) // AES block size { Debug.Assert(false); a.BlockSize = 128; } a.KeySize = 256; a.Mode = SaeCipherMode; a.Padding = SaePaddingMode; ICryptoTransform t; if (bEncrypt) { t = a.CreateEncryptor(pbKey, pbIV); } else { t = a.CreateDecryptor(pbKey, pbIV); } if (t == null) { Debug.Assert(false); throw new SecurityException("Unable to create AES transform!"); } return(new CryptoStreamEx(s, t, bEncrypt ? CryptoStreamMode.Write : CryptoStreamMode.Read, a)); #endif }
private static Stream CreateStream(Stream s, bool bEncrypt, byte[] pbKey, byte[] pbIV) { StandardAesEngine.ValidateArguments(s, bEncrypt, pbKey, pbIV); byte[] pbLocalIV = new byte[16]; Array.Copy(pbIV, pbLocalIV, 16); byte[] pbLocalKey = new byte[32]; Array.Copy(pbKey, pbLocalKey, 32); #if KeePassUWP var cbc = new CbcBlockCipher(new AesEngine()); var bc = new PaddedBufferedBlockCipher(cbc, new Pkcs7Padding()); var kp = new KeyParameter(pbLocalKey); var prmIV = new ParametersWithIV(kp, pbLocalIV); bc.Init(bEncrypt, prmIV); var cpRead = (bEncrypt ? null : bc); var cpWrite = (bEncrypt ? bc : null); return(new CipherStream(s, cpRead, cpWrite)); #elif KeePassUAP return(StandardAesEngineExt.CreateStream(s, bEncrypt, pbLocalKey, pbLocalIV)); #else SymmetricAlgorithm a = CryptoUtil.CreateAes(); if (a.BlockSize != 128) // AES block size { Debug.Assert(false); a.BlockSize = 128; } a.IV = pbLocalIV; a.KeySize = 256; a.Key = pbLocalKey; a.Mode = m_rCipherMode; a.Padding = m_rCipherPadding; ICryptoTransform iTransform = (bEncrypt ? a.CreateEncryptor() : a.CreateDecryptor()); Debug.Assert(iTransform != null); if (iTransform == null) { throw new SecurityException("Unable to create AES transform!"); } return(new CryptoStream(s, iTransform, bEncrypt ? CryptoStreamMode.Write : CryptoStreamMode.Read)); #endif }
private static Stream CreateStream(Stream s, bool bEncrypt, byte[] pbKey, byte[] pbIV) { StandardAesEngine.ValidateArguments(s, bEncrypt, pbKey, pbIV); byte[] pbLocalIV = new byte[16]; Array.Copy(pbIV, pbLocalIV, 16); byte[] pbLocalKey = new byte[32]; Array.Copy(pbKey, pbLocalKey, 32); #if KeePassUAP return(StandardAesEngineExt.CreateStream(s, bEncrypt, pbLocalKey, pbLocalIV)); #else SymmetricAlgorithm a = CryptoUtil.CreateAes(); if (a.BlockSize != 128) // AES block size { Debug.Assert(false); a.BlockSize = 128; } a.IV = pbLocalIV; a.KeySize = 256; a.Key = pbLocalKey; a.Mode = m_rCipherMode; a.Padding = m_rCipherPadding; ICryptoTransform iTransform = (bEncrypt ? a.CreateEncryptor() : a.CreateDecryptor()); Debug.Assert(iTransform != null); if (iTransform == null) { throw new SecurityException("Unable to create AES transform!"); } return(new CryptoStream(s, iTransform, bEncrypt ? CryptoStreamMode.Write : CryptoStreamMode.Read)); #endif }