package ciphers; import java.math.BigInteger; import java.security.SecureRandom; /** * Created by Nguyen Duy Tiep on 23-Oct-17. */ public class RSA { private BigInteger modulus, privateKey, publicKey; public RSA(int bits) { generateKeys(bits); } public synchronized String encrypt(String message) { return (new BigInteger(message.getBytes())).modPow(publicKey, modulus).toString(); } public synchronized BigInteger encrypt(BigInteger message) { return message.modPow(publicKey, modulus); } public synchronized String decrypt(String message) { return new String((new BigInteger(message)).modPow(privateKey, modulus).toByteArray()); } public synchronized BigInteger decrypt(BigInteger message) { return message.modPow(privateKey, modulus); } /** Generate a new public and private key set. */ public synchronized void generateKeys(int bits) { SecureRandom r = new SecureRandom(); BigInteger p = new BigInteger(bits / 2, 100, r); BigInteger q = new BigInteger(bits / 2, 100, r); modulus = p.multiply(q); BigInteger m = (p.subtract(BigInteger.ONE)).multiply(q.subtract(BigInteger.ONE)); publicKey = new BigInteger("3"); while (m.gcd(publicKey).intValue() > 1) { publicKey = publicKey.add(new BigInteger("2")); } privateKey = publicKey.modInverse(m); } /** Trivial test program. */ public static void main(String[] args) { RSA rsa = new RSA(1024); String text1 = "This is a message"; System.out.println("Plaintext: " + text1); String ciphertext = rsa.encrypt(text1); System.out.println("Ciphertext: " + ciphertext); System.out.println("Plaintext: " + rsa.decrypt(ciphertext)); } }