using System; using System.IO; using Org.BouncyCastle.Asn1; using Org.BouncyCastle.Math; using Org.BouncyCastle.Math.EC; namespace Org.BouncyCastle.Bcpg { /// Base class for an EC Public Key. public abstract class ECPublicBcpgKey : BcpgObject, IBcpgKey { internal DerObjectIdentifier oid; internal BigInteger point; /// The stream to read the packet from. protected ECPublicBcpgKey( BcpgInputStream bcpgIn) { this.oid = DerObjectIdentifier.GetInstance(Asn1Object.FromByteArray(ReadBytesOfEncodedLength(bcpgIn))); this.point = new MPInteger(bcpgIn).Value; } protected ECPublicBcpgKey( DerObjectIdentifier oid, ECPoint point) { this.point = new BigInteger(1, point.GetEncoded(false)); this.oid = oid; } protected ECPublicBcpgKey( DerObjectIdentifier oid, BigInteger encodedPoint) { this.point = encodedPoint; this.oid = oid; } /// 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 (IOException) { return null; } } public override void Encode( BcpgOutputStream bcpgOut) { byte[] oid = this.oid.GetEncoded(); bcpgOut.Write(oid, 1, oid.Length - 1); MPInteger point = new MPInteger(this.point); bcpgOut.WriteObject(point); } public virtual BigInteger EncodedPoint { get { return point; } } public virtual DerObjectIdentifier CurveOid { get { return oid; } } protected static byte[] ReadBytesOfEncodedLength( BcpgInputStream bcpgIn) { int length = bcpgIn.ReadByte(); if (length == 0 || length == 0xFF) { throw new IOException("future extensions not yet implemented."); } byte[] buffer = new byte[length + 2]; bcpgIn.ReadFully(buffer, 2, buffer.Length - 2); buffer[0] = (byte)0x06; buffer[1] = (byte)length; return buffer; } } }