kdfParam = new MGFParameters(VZ); } else { kdfParam = new KDFParameters(VZ, param.getDerivationV());
public void init(DerivationParameters param) { if(!(param instanceof MGFParameters)) { throw new IllegalArgumentException("MGF parameters required for MGF1Generator"); } else { MGFParameters p = (MGFParameters)param; this.seed = p.getSeed(); } }
public byte[] getPaddedData(byte[] data) { byte[] bytes = new byte[length]; byte[] seed = new byte[dig.getDigestSize()]; byte[] mask = new byte[length - dig.getDigestSize()]; if (random == null) { random = new SecureRandom(); } random.nextBytes(seed); MGF1BytesGenerator maskGen = new MGF1BytesGenerator(dig); maskGen.init(new MGFParameters(seed)); maskGen.generateBytes(mask, 0, mask.length); System.arraycopy(seed, 0, bytes, 0, seed.length); System.arraycopy(data, 0, bytes, seed.length, data.length); for (int i = seed.length + data.length + 1; i != bytes.length; i++) { bytes[i] = (byte)(1 + random.nextInt(255)); } for (int i = 0; i != mask.length; i++) { bytes[i + seed.length] ^= mask[i]; } return bytes; }
public void init( DerivationParameters param) { if (!(param instanceof MGFParameters)) { throw new IllegalArgumentException("MGF parameters required for MGF1Generator"); } MGFParameters p = (MGFParameters)param; seed = p.getSeed(); }
public byte[] getPaddedData(byte[] data) { byte[] bytes = new byte[length]; byte[] seed = new byte[dig.getDigestSize()]; byte[] mask = new byte[length - dig.getDigestSize()]; if (random == null) { random = new SecureRandom(); } random.nextBytes(seed); MGF1BytesGenerator maskGen = new MGF1BytesGenerator(dig); maskGen.init(new MGFParameters(seed)); maskGen.generateBytes(mask, 0, mask.length); System.arraycopy(seed, 0, bytes, 0, seed.length); System.arraycopy(data, 0, bytes, seed.length, data.length); for (int i = seed.length + data.length + 1; i != bytes.length; i++) { bytes[i] = (byte)(1 + random.nextInt(255)); } for (int i = 0; i != mask.length; i++) { bytes[i + seed.length] ^= mask[i]; } return bytes; }
public void init( DerivationParameters param) { if (!(param instanceof MGFParameters)) { throw new IllegalArgumentException("MGF parameters required for MGF1Generator"); } MGFParameters p = (MGFParameters)param; seed = p.getSeed(); }
maskGen.init(new MGFParameters(seed));
public void init(DerivationParameters param) { if (!(param instanceof MGFParameters)) { throw new IllegalArgumentException("MGF parameters required for MGF1Generator"); } else { MGFParameters p = (MGFParameters) param; this.seed = p.getSeed(); } }
maskGen.init(new MGFParameters(seed));
public void init(DerivationParameters param) { if(!(param instanceof MGFParameters)) { throw new IllegalArgumentException("MGF parameters required for MGF1Generator"); } else { MGFParameters p = (MGFParameters)param; this.seed = p.getSeed(); } }
kdfParam = new MGFParameters(VZ); } else { kdfParam = new KDFParameters(VZ, param.getDerivationV());
kdfParam = new MGFParameters(VZ); } else { kdfParam = new KDFParameters(VZ, param.getDerivationV());
@Test public void getDigest() { MGF1BytesGeneratorExt ext = new MGF1BytesGeneratorExt(new SHA1Digest(), 1); byte[] VZ = BigIntegers.asUnsignedByteArray(1, BigInteger.ONE); DerivationParameters kdfParam = new MGFParameters(VZ); ext.init(kdfParam); byte[] K1 = new byte[4]; assert ext.generateBytes(K1, 0, K1.length) > 0; assert ext.getDigest() != null; } }