@Test public void hashCodesAreEqualForEquivalentObjects() { // Arrange: final GroupElement g1 = MathUtils.getRandomGroupElement(); final GroupElement g2 = MathUtils.toRepresentation(g1, GroupElement.Representation.P2); final GroupElement g3 = MathUtils.toRepresentation(g1, GroupElement.Representation.P1P1); final GroupElement g4 = MathUtils.getRandomGroupElement(); // Assert Assert.assertThat(g2.hashCode(), IsEqual.equalTo(g1.hashCode())); Assert.assertThat(g3.hashCode(), IsEqual.equalTo(g1.hashCode())); Assert.assertThat(g1.hashCode(), IsNot.not(IsEqual.equalTo(g4.hashCode()))); Assert.assertThat(g2.hashCode(), IsNot.not(IsEqual.equalTo(g4.hashCode()))); Assert.assertThat(g3.hashCode(), IsNot.not(IsEqual.equalTo(g4.hashCode()))); }
@Test public void subReturnsExpectedResult() { for (int i = 0; i < 1000; i++) { // Arrange: final GroupElement g1 = MathUtils.getRandomGroupElement(); final GroupElement g2 = MathUtils.getRandomGroupElement(); // Act: final GroupElement h1 = g1.sub(g2.toCached()); final GroupElement h2 = MathUtils.addGroupElements(g1, MathUtils.negateGroupElement(g2)); // Assert: Assert.assertThat(h2, IsEqual.equalTo(h1)); } }
@Test public void equalsOnlyReturnsTrueForEquivalentObjects() { // Arrange: final GroupElement g1 = MathUtils.getRandomGroupElement(); final GroupElement g2 = MathUtils.toRepresentation(g1, GroupElement.Representation.P2); final GroupElement g3 = MathUtils.toRepresentation(g1, GroupElement.Representation.CACHED); final GroupElement g4 = MathUtils.toRepresentation(g1, GroupElement.Representation.P1P1); final GroupElement g5 = MathUtils.getRandomGroupElement(); // Assert Assert.assertThat(g2, IsEqual.equalTo(g1)); Assert.assertThat(g3, IsEqual.equalTo(g1)); Assert.assertThat(g1, IsEqual.equalTo(g4)); Assert.assertThat(g1, IsNot.not(IsEqual.equalTo(g5))); Assert.assertThat(g2, IsNot.not(IsEqual.equalTo(g5))); Assert.assertThat(g3, IsNot.not(IsEqual.equalTo(g5))); Assert.assertThat(g5, IsNot.not(IsEqual.equalTo(g4))); }
@Test public void isOnCurveReturnsTrueForPointsOnTheCurve() { for (int i = 0; i < 100; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Assert: Assert.assertThat(g.isOnCurve(), IsEqual.equalTo(true)); } }
@Test(expected = IllegalArgumentException.class) public void toCachedThrowsIfGroupElementHasP1P1Representation() { // Arrange: final GroupElement g = MathUtils.toRepresentation( MathUtils.getRandomGroupElement(), GroupElement.Representation.P1P1); // Assert: g.toCached(); }
@Test(expected = IllegalArgumentException.class) public void toP3ThrowsIfGroupElementHasPrecompRepresentation() { // Arrange: final GroupElement g = MathUtils.toRepresentation( MathUtils.getRandomGroupElement(), GroupElement.Representation.PRECOMP); // Assert: g.toP3(); }
@Test public void isOnCurveReturnsFalseForPointsNotOnTheCurve() { for (int i = 0; i < 100; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); final GroupElement h = GroupElement.p2(curve, g.getX(), g.getY(), g.getZ().multiply(curve.getField().TWO)); // Assert (can only fail for 5*Z^2=1): Assert.assertThat(h.isOnCurve(), IsEqual.equalTo(false)); } }
@Test public void dblReturnsExpectedResult() { for (int i = 0; i < 1000; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final GroupElement h1 = g.dbl(); final GroupElement h2 = MathUtils.doubleGroupElement(g); // Assert: Assert.assertThat(h2, IsEqual.equalTo(h1)); } }
@Test public void constructorUsingByteArrayReturnsExpectedResult() { for (int i = 0; i < 100; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); final byte[] bytes = g.toByteArray(); // Act: final GroupElement h1 = new GroupElement(curve, bytes); final GroupElement h2 = MathUtils.toGroupElement(bytes); // Assert: Assert.assertThat(h1, IsEqual.equalTo(h2)); } }
@Test public void toByteArrayReturnsExpectedResult() { for (int i = 0; i < 100; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final byte[] gBytes = g.toByteArray(); final byte[] bytes = MathUtils.toByteArray(MathUtils.toBigInteger(g.getY())); if (MathUtils.toBigInteger(g.getX()).mod(new BigInteger("2")).equals(BigInteger.ONE)) { bytes[31] |= 0x80; } // Assert: Assert.assertThat(Arrays.equals(gBytes, bytes), IsEqual.equalTo(true)); } }
// This test is slow (~6s) due to math utils using an inferior algorithm to calculate the result. @Test public void doubleScalarMultiplyVariableTimeReturnsExpectedResult() { for (int i = 0; i < 50; i++) { // Arrange: final GroupElement basePoint = ed25519.getB(); final GroupElement g = MathUtils.getRandomGroupElement(); g.precompute(false); final FieldElement f1 = MathUtils.getRandomFieldElement(); final FieldElement f2 = MathUtils.getRandomFieldElement(); // Act: final GroupElement h1 = basePoint.doubleScalarMultiplyVariableTime(g, f2.toByteArray(), f1.toByteArray()); final GroupElement h2 = MathUtils.doubleScalarMultiplyGroupElements(basePoint, f1, g, f2); // Assert: Assert.assertThat(h1, IsEqual.equalTo(h2)); } }
@Test public void toP3ReturnsExpectedResultIfGroupElementHasP3Representation() { for (int i = 0; i < 10; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final GroupElement h = g.toP3(); // Assert: Assert.assertThat(h, IsEqual.equalTo(g)); Assert.assertThat(h.getRepresentation(), IsEqual.equalTo(GroupElement.Representation.P3)); Assert.assertThat(h, IsEqual.equalTo(g)); Assert.assertThat(h.getX(), IsEqual.equalTo(g.getX())); Assert.assertThat(h.getY(), IsEqual.equalTo(g.getY())); Assert.assertThat(h.getZ(), IsEqual.equalTo(g.getZ())); Assert.assertThat(h.getT(), IsEqual.equalTo(g.getT())); } }
@Test public void toP2ReturnsExpectedResultIfGroupElementHasP3Representation() { for (int i = 0; i < 10; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final GroupElement h1 = g.toP2(); final GroupElement h2 = MathUtils.toRepresentation(g, GroupElement.Representation.P2); // Assert: Assert.assertThat(h1, IsEqual.equalTo(h2)); Assert.assertThat(h1.getRepresentation(), IsEqual.equalTo(GroupElement.Representation.P2)); Assert.assertThat(h1.getX(), IsEqual.equalTo(g.getX())); Assert.assertThat(h1.getY(), IsEqual.equalTo(g.getY())); Assert.assertThat(h1.getZ(), IsEqual.equalTo(g.getZ())); Assert.assertThat(h1.getT(), IsEqual.equalTo(null)); } }
@Test public void toCachedReturnsExpectedResultIfGroupElementHasP3Representation() { for (int i = 0; i < 10; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final GroupElement h1 = g.toCached(); final GroupElement h2 = MathUtils.toRepresentation(g, GroupElement.Representation.CACHED); // Assert: Assert.assertThat(h1, IsEqual.equalTo(h2)); Assert.assertThat( h1.getRepresentation(), IsEqual.equalTo(GroupElement.Representation.CACHED)); Assert.assertThat(h1, IsEqual.equalTo(g)); Assert.assertThat(h1.getX(), IsEqual.equalTo(g.getY().add(g.getX()))); Assert.assertThat(h1.getY(), IsEqual.equalTo(g.getY().subtract(g.getX()))); Assert.assertThat(h1.getZ(), IsEqual.equalTo(g.getZ())); Assert.assertThat(h1.getT(), IsEqual.equalTo(g.getT().multiply(curve.get2D()))); } }
@Test public void addingNeutralGroupElementDoesNotChangeGroupElement() { final GroupElement neutral = GroupElement.p3( curve, curve.getField().ZERO, curve.getField().ONE, curve.getField().ONE, curve.getField().ZERO); for (int i = 0; i < 1000; i++) { // Arrange: final GroupElement g = MathUtils.getRandomGroupElement(); // Act: final GroupElement h1 = g.add(neutral.toCached()); final GroupElement h2 = neutral.add(g.toCached()); // Assert: Assert.assertThat(g, IsEqual.equalTo(h1)); Assert.assertThat(g, IsEqual.equalTo(h2)); } }