public void CheckThatDecrpytedR16IsEncrpyt15() { var key = "12345678"; var plainText = "abcdfeqe"; var keyModel = new CryptionKey(); keyModel.SetKey(key, false); var encryptedBin = _logic.EncryptManual(plainText, key); var initialPermutated = _block.InitialPermutation(encryptedBin); var splitBin = _block.SplitBlockIntoStrings(encryptedBin); var round16Decrpyt = _logic.performFuncionFAndXorWithLeft(splitBin[0], splitBin[1], _block, keyModel.GetKey(16)); //round16Decrpyt = _block.InverseInitialPermutation(splitBin[0] + round16Decrpyt); var crypts = new List <string>(); crypts.Add(_block.ConvertStringToBinaryString(plainText)); for (int i = 1; i <= 16; i++) { var splits = _block.SplitBlockIntoStrings(crypts[i - 1]); crypts.Add(splits[1] + _logic.performFuncionFAndXorWithLeft(splits[0], splits[1], _block, keyModel.GetKey(i))); } round16Decrpyt = splitBin[0] + round16Decrpyt; Assert.AreEqual("0101111101100011010010110110100010110010101001011001010100110001", crypts[crypts.Count - 1]); Assert.AreEqual(crypts[crypts.Count - 2], round16Decrpyt); }
public string DecryptManual(string ciper, string key) { var keyModel = new CryptionKey(); var blockModel = new Block(); keyModel.SetKey(key, false); var bin = ciper; //var permutedBin = blockModel.InitialPermutation(bin); var permutedbinBlocks = blockModel.SplitBlockIntoStrings(bin); var leftSide = new string[17]; leftSide[16] = permutedbinBlocks[0]; var rightSide = new string[17]; rightSide[16] = permutedbinBlocks[1]; for (int i = 16; i >= 1; i--) { rightSide[i - 1] = performFuncionFAndXorWithLeft(leftSide[i], rightSide[i], blockModel, keyModel.GetKey(i)); leftSide[i - 1] = rightSide[i]; } var cipherText = blockModel.InverseInitialPermutation(rightSide[0] + leftSide[0]); return(rightSide[0] + leftSide[0]); }
public void CheckIf16KeysAreGenerated() { string[] keys = new string[16]; for (int round = 1; round <= 16; round++) { keys[round - 1] = _cryptionKey.GetKey(round); } Assert.IsNotNull(keys[0]); Assert.IsNotNull(keys[1]); Assert.IsNotNull(keys[2]); Assert.IsNotNull(keys[3]); Assert.IsNotNull(keys[5]); Assert.IsNotNull(keys[6]); Assert.IsNotNull(keys[10]); Assert.IsNotNull(keys[11]); Assert.IsNotNull(keys[15]); Assert.IsNotNull(keys[0]); }
/// <summary> /// @Decprecated /// </summary> /// <param name="plaintext64Bit"></param> /// <param name="keyString64Bit"></param> /// <returns></returns> public string Encrypt(string plaintext64Bit, string keyString64Bit) { if (plaintext64Bit == null) { throw new ArgumentNullException("plaintext64Bit"); } if (keyString64Bit == null) { throw new ArgumentNullException("keyString64Bit"); } //Check that input has 8 bytes of data if (plaintext64Bit.Length < 8 || keyString64Bit.Length < 8) { throw new Exception("Invalid plaintext or key length."); } var keyModel = new CryptionKey(); var blockModel = new Block(); keyModel.SetKey(keyString64Bit, false); plaintext64Bit = blockModel.ConvertStringToBinaryString(plaintext64Bit); plaintext64Bit = blockModel.InitialPermutation(plaintext64Bit); var shadowCopyLeft = new string[36]; var shadowCopyRight = new string[36]; var twoBlockOfPlainText = blockModel.SplitBlockIntoStrings(plaintext64Bit); shadowCopyLeft[0] = twoBlockOfPlainText[0]; shadowCopyRight[0] = shadowCopyRight[0]; for (var round = 1; round <= 16; round++) { shadowCopyLeft[round] = shadowCopyRight[round]; var roundedBinaries = blockModel.ExecuteFunctionF(shadowCopyRight[round - 1], keyModel.GetKey(round)); shadowCopyRight[round] = blockModel.XORTwoBinaryStrings(roundedBinaries, shadowCopyLeft[round - 1]); } var cipherText = blockModel.InverseInitialPermutation(shadowCopyLeft[16] + shadowCopyRight[16]); return(cipherText); }
public string Decrpyt1(string cipher, string key) { var keyModel = new CryptionKey(); var blockModel = new Block(); keyModel.Set64Bitkey(key); keyModel.SetKey(key, false); var bin = cipher; var permutedbinBlocks = blockModel.SplitBlockIntoStrings(bin); var splittedKey = blockModel.SplitBlockIntoStrings(blockModel.ConvertStringToBinaryString(key)); var leftSide = new string[17]; leftSide[16] = permutedbinBlocks[0]; var rightSide = new string[17]; rightSide[16] = permutedbinBlocks[1]; for (int i = 16; i >= 1; i--) { //rightSide[i - 1] = blockModel.XORTwoBinaryStrings(rightSide[i], blockModel.XORTwoBinaryStrings(i % 2 == 0 ? splittedKey[0] : splittedKey[1], leftSide[i])); //rightSide[i - 1] = blockModel.XORTwoBinaryStrings(rightSide[i], blockModel.XORTwoBinaryStrings(keyModel.Get32BitKey(i), leftSide[i])); rightSide[i - 1] = blockModel.XORTwoBinaryStrings(leftSide[i], FunctionF(rightSide[i], keyModel.GetKey(i))); leftSide[i - 1] = rightSide[i]; } var cipherText = blockModel.InverseInitialPermutation(rightSide[0] + leftSide[0]); return(rightSide[0] + leftSide[0]); }
public string Encrpyt1(string plainText, string key) { var keyModel = new CryptionKey(); var blockModel = new Block(); keyModel.Set64Bitkey(key); keyModel.SetKey(key, false); var bin = blockModel.ConvertStringToBinaryString(plainText); //var permutedBin = blockModel.InitialPermutation(bin); var permutedbinBlocks = blockModel.SplitBlockIntoStrings(bin); var splittedKey = blockModel.SplitBlockIntoStrings(blockModel.ConvertStringToBinaryString(key)); var leftSide = new string[17]; leftSide[0] = permutedbinBlocks[0]; var rightSide = new string[17]; rightSide[0] = permutedbinBlocks[1]; for (int i = 1; i <= 16; i++) { //rightSide[i] = blockModel.XORTwoBinaryStrings(rightSide[i - 1], blockModel.XORTwoBinaryStrings(i % 2 == 0 ? splittedKey[0] : splittedKey[1], leftSide[i - 1])); //rightSide[i] = blockModel.XORTwoBinaryStrings(rightSide[i - 1], blockModel.XORTwoBinaryStrings(keyModel.Get32BitKey(i), leftSide[i - 1])); rightSide[i] = blockModel.XORTwoBinaryStrings(leftSide[i - 1], FunctionF(rightSide[i - 1], keyModel.GetKey(i))); leftSide[i] = rightSide[i - 1]; } return(rightSide[16] + leftSide[16]); }
public string EncryptManual(string plaintText, string key) { var keyModel = new CryptionKey(); var blockModel = new Block(); keyModel.SetKey(key, false); var bin = blockModel.ConvertStringToBinaryString(plaintText); //var permutedBin = blockModel.InitialPermutation(bin); var permutedbinBlocks = blockModel.SplitBlockIntoStrings(bin); var leftSide = new string[17]; leftSide[0] = permutedbinBlocks[0]; var rightSide = new string[17]; rightSide[0] = permutedbinBlocks[1]; for (int i = 1; i <= 16; i++) { rightSide[i] = performFuncionFAndXorWithLeft(leftSide[i - 1], rightSide[i - 1], blockModel, keyModel.GetKey(i)); leftSide[i] = rightSide[i - 1]; } var cipherText = blockModel.InverseInitialPermutation(rightSide[16] + leftSide[16]); return(rightSide[16] + leftSide[16]); }