#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.Utilities; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Bcpg { /// Base class for an RSA secret (or priate) key. public class RsaSecretBcpgKey : BcpgObject, IBcpgKey { private readonly MPInteger d, p, q, u; private readonly BigInteger expP, expQ, crt; public RsaSecretBcpgKey( BcpgInputStream bcpgIn) { this.d = new MPInteger(bcpgIn); this.p = new MPInteger(bcpgIn); this.q = new MPInteger(bcpgIn); this.u = new MPInteger(bcpgIn); this.expP = d.Value.Remainder(p.Value.Subtract(BigInteger.One)); this.expQ = d.Value.Remainder(q.Value.Subtract(BigInteger.One)); this.crt = BigIntegers.ModOddInverse(p.Value, q.Value); } public RsaSecretBcpgKey( BigInteger d, BigInteger p, BigInteger q) { // PGP requires (p < q) int cmp = p.CompareTo(q); if (cmp >= 0) { if (cmp == 0) throw new ArgumentException("p and q cannot be equal"); BigInteger tmp = p; p = q; q = tmp; } this.d = new MPInteger(d); this.p = new MPInteger(p); this.q = new MPInteger(q); this.u = new MPInteger(BigIntegers.ModOddInverse(q, p)); this.expP = d.Remainder(p.Subtract(BigInteger.One)); this.expQ = d.Remainder(q.Subtract(BigInteger.One)); this.crt = BigIntegers.ModOddInverse(p, q); } public BigInteger Modulus { get { return p.Value.Multiply(q.Value); } } public BigInteger PrivateExponent { get { return d.Value; } } public BigInteger PrimeP { get { return p.Value; } } public BigInteger PrimeQ { get { return q.Value; } } public BigInteger PrimeExponentP { get { return expP; } } public BigInteger PrimeExponentQ { get { return expQ; } } public BigInteger CrtCoefficient { get { return crt; } } /// The format, as a string, always "PGP". public string Format { get { return "PGP"; } } /// Return the standard PGP encoding of the key. public override byte[] GetEncoded() { try { return base.GetEncoded(); } catch (Exception) { return null; } } public override void Encode( BcpgOutputStream bcpgOut) { bcpgOut.WriteObjects(d, p, q, u); } } } #pragma warning restore #endif