C++
C++
Twofish Encryption - 128-bit, 192-bit, 256-bit
See more Encryption Examples
Twofish encryption. The Chilkat encryption component supports 128-bit, 192-bit, and 256-bit Twofish encryption in both ECB (Electronic Cookbook) and CBC (Cipher-Block Chaining) modes.Chilkat C++ Downloads
#include <CkCrypt2.h>
void ChilkatSample(void)
{
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
CkCrypt2 crypt;
// Set the encryption algorithm = "twofish"
crypt.put_CryptAlgorithm("twofish");
// CipherMode may be "ecb" or "cbc"
crypt.put_CipherMode("cbc");
// KeyLength may be 128, 192, 256
crypt.put_KeyLength(256);
// The padding scheme determines the contents of the bytes
// that are added to pad the result to a multiple of the
// encryption algorithm's block size. Twofish has a block
// size of 16 bytes, so encrypted output is always
// a multiple of 16.
crypt.put_PaddingScheme(0);
// EncodingMode specifies the encoding of the output for
// encryption, and the input for decryption.
// It may be "hex", "url", "base64", or "quoted-printable".
crypt.put_EncodingMode("hex");
// An initialization vector is required if using CBC mode.
// ECB mode does not use an IV.
// The length of the IV is equal to the algorithm's block size.
// It is NOT equal to the length of the key.
const char *ivHex = "000102030405060708090A0B0C0D0E0F";
crypt.SetEncodedIV(ivHex,"hex");
// The secret key must equal the size of the key. For
// 256-bit encryption, the binary secret key is 32 bytes.
// For 128-bit encryption, the binary secret key is 16 bytes.
const char *keyHex = "000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F";
crypt.SetEncodedKey(keyHex,"hex");
// Encrypt a string...
// The input string is 44 ANSI characters (i.e. 44 bytes), so
// the output should be 48 bytes (a multiple of 16).
// Because the output is a hex string, it should
// be 96 characters long (2 chars per byte).
const char *encStr = crypt.encryptStringENC("The quick brown fox jumps over the lazy dog.");
std::cout << encStr << "\r\n";
// Now decrypt:
const char *decStr = crypt.decryptStringENC(encStr);
std::cout << decStr << "\r\n";
}