public PrivateKey(boolean shorter, long stream, long nonceTrialsPerByte, long extraBytes, Pubkey.Feature... features) { byte[] privSK; byte[] pubSK; byte[] privEK; byte[] pubEK; byte[] ripe; do { privSK = Security.randomBytes(PRIVATE_KEY_SIZE); privEK = Security.randomBytes(PRIVATE_KEY_SIZE); pubSK = Security.createPublicKey(privSK).getEncoded(false); pubEK = Security.createPublicKey(privEK).getEncoded(false); ripe = Pubkey.getRipe(pubSK, pubEK); } while (ripe[0] != 0 || (shorter && ripe[1] != 0)); this.privateSigningKey = privSK; this.privateEncryptionKey = privEK; this.pubkey = Security.createPubkey(Pubkey.LATEST_VERSION, stream, privateSigningKey, privateEncryptionKey, nonceTrialsPerByte, extraBytes, features); }
public CryptoBox(Streamable data, ECPoint K) throws IOException { curveType = 0x02CA; // 1. The destination public key is called K. // 2. Generate 16 random bytes using a secure random number generator. Call them IV. initializationVector = Security.randomBytes(16); // 3. Generate a new random EC key pair with private key called r and public key called R. byte[] r = Security.randomBytes(PRIVATE_KEY_SIZE); R = Security.createPublicKey(r); // 4. Do an EC point multiply with public key K and private key r. This gives you public key P. ECPoint P = K.multiply(Security.keyToBigInt(r)).normalize(); byte[] X = P.getXCoord().getEncoded(); // 5. Use the X component of public key P and calculate the SHA512 hash H. byte[] H = Security.sha512(X); // 6. The first 32 bytes of H are called key_e and the last 32 bytes are called key_m. byte[] key_e = Arrays.copyOfRange(H, 0, 32); byte[] key_m = Arrays.copyOfRange(H, 32, 64); // 7. Pad the input text to a multiple of 16 bytes, in accordance to PKCS7. // 8. Encrypt the data with AES-256-CBC, using IV as initialization vector, key_e as encryption key and the padded input text as payload. Call the output cipher text. encrypted = crypt(true, Encode.bytes(data), key_e); // 9. Calculate a 32 byte MAC with HMACSHA256, using key_m as salt and IV + R + cipher text as data. Call the output MAC. mac = calculateMac(key_m); // The resulting data is: IV + R + cipher text + MAC }