using System; using Org.BouncyCastle.Math.Raw; namespace Org.BouncyCastle.Math.EC.Custom.Sec { internal class SecT571R1Point : AbstractF2mPoint { internal SecT571R1Point(ECCurve curve, ECFieldElement x, ECFieldElement y) : base(curve, x, y) { } internal SecT571R1Point(ECCurve curve, ECFieldElement x, ECFieldElement y, ECFieldElement[] zs) : base(curve, x, y, zs) { } protected override ECPoint Detach() { return new SecT571R1Point(null, AffineXCoord, AffineYCoord); } public override ECFieldElement YCoord { get { ECFieldElement X = RawXCoord, L = RawYCoord; if (this.IsInfinity || X.IsZero) return L; // Y is actually Lambda (X + Y/X) here; convert to affine value on the fly ECFieldElement Y = L.Add(X).Multiply(X); ECFieldElement Z = RawZCoords[0]; if (!Z.IsOne) { Y = Y.Divide(Z); } return Y; } } protected internal override bool CompressionYTilde { get { ECFieldElement X = this.RawXCoord; if (X.IsZero) return false; ECFieldElement Y = this.RawYCoord; // Y is actually Lambda (X + Y/X) here return Y.TestBitZero() != X.TestBitZero(); } } public override ECPoint Add(ECPoint b) { if (this.IsInfinity) return b; if (b.IsInfinity) return this; ECCurve curve = this.Curve; SecT571FieldElement X1 = (SecT571FieldElement)this.RawXCoord; SecT571FieldElement X2 = (SecT571FieldElement)b.RawXCoord; if (X1.IsZero) { if (X2.IsZero) return curve.Infinity; return b.Add(this); } SecT571FieldElement L1 = (SecT571FieldElement)this.RawYCoord, Z1 = (SecT571FieldElement)this.RawZCoords[0]; SecT571FieldElement L2 = (SecT571FieldElement)b.RawYCoord, Z2 = (SecT571FieldElement)b.RawZCoords[0]; ulong[] t1 = Nat576.Create64(); ulong[] t2 = Nat576.Create64(); ulong[] t3 = Nat576.Create64(); ulong[] t4 = Nat576.Create64(); ulong[] Z1Precomp = Z1.IsOne ? null : SecT571Field.PrecompMultiplicand(Z1.x); ulong[] U2, S2; if (Z1Precomp == null) { U2 = X2.x; S2 = L2.x; } else { SecT571Field.MultiplyPrecomp(X2.x, Z1Precomp, U2 = t2); SecT571Field.MultiplyPrecomp(L2.x, Z1Precomp, S2 = t4); } ulong[] Z2Precomp = Z2.IsOne ? null : SecT571Field.PrecompMultiplicand(Z2.x); ulong[] U1, S1; if (Z2Precomp == null) { U1 = X1.x; S1 = L1.x; } else { SecT571Field.MultiplyPrecomp(X1.x, Z2Precomp, U1 = t1); SecT571Field.MultiplyPrecomp(L1.x, Z2Precomp, S1 = t3); } ulong[] A = t3; SecT571Field.Add(S1, S2, A); ulong[] B = t4; SecT571Field.Add(U1, U2, B); if (Nat576.IsZero64(B)) { if (Nat576.IsZero64(A)) return Twice(); return curve.Infinity; } SecT571FieldElement X3, L3, Z3; if (X2.IsZero) { // TODO This can probably be optimized quite a bit ECPoint p = this.Normalize(); X1 = (SecT571FieldElement)p.XCoord; ECFieldElement Y1 = p.YCoord; ECFieldElement Y2 = L2; ECFieldElement L = Y1.Add(Y2).Divide(X1); X3 = (SecT571FieldElement)L.Square().Add(L).Add(X1).AddOne(); if (X3.IsZero) { return new SecT571R1Point(curve, X3, SecT571R1Curve.SecT571R1_B_SQRT); } ECFieldElement Y3 = L.Multiply(X1.Add(X3)).Add(X3).Add(Y1); L3 = (SecT571FieldElement)Y3.Divide(X3).Add(X3); Z3 = (SecT571FieldElement)curve.FromBigInteger(BigInteger.One); } else { SecT571Field.Square(B, B); ulong[] APrecomp = SecT571Field.PrecompMultiplicand(A); ulong[] AU1 = t1; ulong[] AU2 = t2; SecT571Field.MultiplyPrecomp(U1, APrecomp, AU1); SecT571Field.MultiplyPrecomp(U2, APrecomp, AU2); X3 = new SecT571FieldElement(t1); SecT571Field.Multiply(AU1, AU2, X3.x); if (X3.IsZero) { return new SecT571R1Point(curve, X3, SecT571R1Curve.SecT571R1_B_SQRT); } Z3 = new SecT571FieldElement(t3); SecT571Field.MultiplyPrecomp(B, APrecomp, Z3.x); if (Z2Precomp != null) { SecT571Field.MultiplyPrecomp(Z3.x, Z2Precomp, Z3.x); } #if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER Span tt = stackalloc ulong[18]; #else ulong[] tt = Nat576.CreateExt64(); #endif SecT571Field.Add(AU2, B, t4); SecT571Field.SquareExt(t4, tt); SecT571Field.Add(L1.x, Z1.x, t4); SecT571Field.MultiplyAddToExt(t4, Z3.x, tt); L3 = new SecT571FieldElement(t4); SecT571Field.Reduce(tt, L3.x); if (Z1Precomp != null) { SecT571Field.MultiplyPrecomp(Z3.x, Z1Precomp, Z3.x); } } return new SecT571R1Point(curve, X3, L3, new ECFieldElement[] { Z3 }); } public override ECPoint Twice() { if (this.IsInfinity) return this; ECCurve curve = this.Curve; SecT571FieldElement X1 = (SecT571FieldElement)this.RawXCoord; if (X1.IsZero) { // A point with X == 0 is its own additive inverse return curve.Infinity; } SecT571FieldElement L1 = (SecT571FieldElement)this.RawYCoord, Z1 = (SecT571FieldElement)this.RawZCoords[0]; ulong[] t1 = Nat576.Create64(); ulong[] t2 = Nat576.Create64(); ulong[] Z1Precomp = Z1.IsOne ? null : SecT571Field.PrecompMultiplicand(Z1.x); ulong[] L1Z1, Z1Sq; if (Z1Precomp == null) { L1Z1 = L1.x; Z1Sq = Z1.x; } else { SecT571Field.MultiplyPrecomp(L1.x, Z1Precomp, L1Z1 = t1); SecT571Field.Square(Z1.x, Z1Sq = t2); } ulong[] T = Nat576.Create64(); SecT571Field.Square(L1.x, T); SecT571Field.AddBothTo(L1Z1, Z1Sq, T); if (Nat576.IsZero64(T)) { return new SecT571R1Point(curve, new SecT571FieldElement(T), SecT571R1Curve.SecT571R1_B_SQRT); } #if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER Span tt = stackalloc ulong[18]; #else ulong[] tt = Nat576.CreateExt64(); #endif SecT571Field.MultiplyAddToExt(T, L1Z1, tt); SecT571FieldElement X3 = new SecT571FieldElement(t1); SecT571Field.Square(T, X3.x); SecT571FieldElement Z3 = new SecT571FieldElement(T); if (Z1Precomp != null) { SecT571Field.Multiply(Z3.x, Z1Sq, Z3.x); } ulong[] X1Z1; if (Z1Precomp == null) { X1Z1 = X1.x; } else { SecT571Field.MultiplyPrecomp(X1.x, Z1Precomp, X1Z1 = t2); } SecT571Field.SquareAddToExt(X1Z1, tt); SecT571Field.Reduce(tt, t2); SecT571Field.AddBothTo(X3.x, Z3.x, t2); SecT571FieldElement L3 = new SecT571FieldElement(t2); return new SecT571R1Point(curve, X3, L3, new ECFieldElement[] { Z3 }); } public override ECPoint TwicePlus(ECPoint b) { if (this.IsInfinity) return b; if (b.IsInfinity) return Twice(); ECCurve curve = this.Curve; ECFieldElement X1 = this.RawXCoord; if (X1.IsZero) { // A point with X == 0 is its own additive inverse return b; } ECFieldElement X2 = b.RawXCoord, Z2 = b.RawZCoords[0]; if (X2.IsZero || !Z2.IsOne) { return Twice().Add(b); } ECFieldElement L1 = this.RawYCoord, Z1 = this.RawZCoords[0]; ECFieldElement L2 = b.RawYCoord; ECFieldElement X1Sq = X1.Square(); ECFieldElement L1Sq = L1.Square(); ECFieldElement Z1Sq = Z1.Square(); ECFieldElement L1Z1 = L1.Multiply(Z1); ECFieldElement T = Z1Sq.Add(L1Sq).Add(L1Z1); ECFieldElement A = L2.Multiply(Z1Sq).Add(L1Sq).MultiplyPlusProduct(T, X1Sq, Z1Sq); ECFieldElement X2Z1Sq = X2.Multiply(Z1Sq); ECFieldElement B = X2Z1Sq.Add(T).Square(); if (B.IsZero) { if (A.IsZero) return b.Twice(); return curve.Infinity; } if (A.IsZero) { return new SecT571R1Point(curve, A, SecT571R1Curve.SecT571R1_B_SQRT); } ECFieldElement X3 = A.Square().Multiply(X2Z1Sq); ECFieldElement Z3 = A.Multiply(B).Multiply(Z1Sq); ECFieldElement L3 = A.Add(B).Square().MultiplyPlusProduct(T, L2.AddOne(), Z3); return new SecT571R1Point(curve, X3, L3, new ECFieldElement[] { Z3 }); } public override ECPoint Negate() { if (this.IsInfinity) return this; ECFieldElement X = this.RawXCoord; if (X.IsZero) return this; // L is actually Lambda (X + Y/X) here ECFieldElement L = this.RawYCoord, Z = this.RawZCoords[0]; return new SecT571R1Point(Curve, X, L.Add(Z), new ECFieldElement[] { Z }); } } }