#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) #pragma warning disable using System; using BestHTTP.SecureProtocol.Org.BouncyCastle.Math; using BestHTTP.SecureProtocol.Org.BouncyCastle.Math.EC; using BestHTTP.SecureProtocol.Org.BouncyCastle.Math.Field; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Asn1.X9 { /** * ASN.1 def for Elliptic-Curve ECParameters structure. See * X9.62, for further details. */ public class X9ECParameters : Asn1Encodable { private X9FieldID fieldID; private ECCurve curve; private X9ECPoint g; private BigInteger n; private BigInteger h; private byte[] seed; public static X9ECParameters GetInstance(Object obj) { if (obj is X9ECParameters) return (X9ECParameters)obj; if (obj != null) return new X9ECParameters(Asn1Sequence.GetInstance(obj)); return null; } public X9ECParameters( Asn1Sequence seq) { if (!(seq[0] is DerInteger) || !((DerInteger)seq[0]).HasValue(1)) { throw new ArgumentException("bad version in X9ECParameters"); } this.n = ((DerInteger)seq[4]).Value; if (seq.Count == 6) { this.h = ((DerInteger)seq[5]).Value; } X9Curve x9c = new X9Curve( X9FieldID.GetInstance(seq[1]), n, h, Asn1Sequence.GetInstance(seq[2])); this.curve = x9c.Curve; object p = seq[3]; if (p is X9ECPoint) { this.g = (X9ECPoint)p; } else { this.g = new X9ECPoint(curve, (Asn1OctetString)p); } this.seed = x9c.GetSeed(); } public X9ECParameters( ECCurve curve, ECPoint g, BigInteger n) : this(curve, g, n, null, null) { } public X9ECParameters( ECCurve curve, X9ECPoint g, BigInteger n, BigInteger h) : this(curve, g, n, h, null) { } public X9ECParameters( ECCurve curve, ECPoint g, BigInteger n, BigInteger h) : this(curve, g, n, h, null) { } public X9ECParameters( ECCurve curve, ECPoint g, BigInteger n, BigInteger h, byte[] seed) : this(curve, new X9ECPoint(g), n, h, seed) { } public X9ECParameters( ECCurve curve, X9ECPoint g, BigInteger n, BigInteger h, byte[] seed) { this.curve = curve; this.g = g; this.n = n; this.h = h; this.seed = seed; if (ECAlgorithms.IsFpCurve(curve)) { this.fieldID = new X9FieldID(curve.Field.Characteristic); } else if (ECAlgorithms.IsF2mCurve(curve)) { IPolynomialExtensionField field = (IPolynomialExtensionField)curve.Field; int[] exponents = field.MinimalPolynomial.GetExponentsPresent(); if (exponents.Length == 3) { this.fieldID = new X9FieldID(exponents[2], exponents[1]); } else if (exponents.Length == 5) { this.fieldID = new X9FieldID(exponents[4], exponents[1], exponents[2], exponents[3]); } else { throw new ArgumentException("Only trinomial and pentomial curves are supported"); } } else { throw new ArgumentException("'curve' is of an unsupported type"); } } public ECCurve Curve { get { return curve; } } public ECPoint G { get { return g.Point; } } public BigInteger N { get { return n; } } public BigInteger H { get { return h; } } public byte[] GetSeed() { return seed; } /** * Return the ASN.1 entry representing the Curve. * * @return the X9Curve for the curve in these parameters. */ public X9Curve CurveEntry { get { return new X9Curve(curve, seed); } } /** * Return the ASN.1 entry representing the FieldID. * * @return the X9FieldID for the FieldID in these parameters. */ public X9FieldID FieldIDEntry { get { return fieldID; } } /** * Return the ASN.1 entry representing the base point G. * * @return the X9ECPoint for the base point in these parameters. */ public X9ECPoint BaseEntry { get { return g; } } /** * Produce an object suitable for an Asn1OutputStream. *
* ECParameters ::= Sequence { * version Integer { ecpVer1(1) } (ecpVer1), * fieldID FieldID {{FieldTypes}}, * curve X9Curve, * base X9ECPoint, * order Integer, * cofactor Integer OPTIONAL * } **/ public override Asn1Object ToAsn1Object() { Asn1EncodableVector v = new Asn1EncodableVector( new DerInteger(BigInteger.One), fieldID, new X9Curve(curve, seed), g, new DerInteger(n)); if (h != null) { v.Add(new DerInteger(h)); } return new DerSequence(v); } } } #pragma warning restore #endif