using System; using System.Collections.Generic; using System.IO; using Org.BouncyCastle.Utilities; namespace Org.BouncyCastle.Bcpg.OpenPgp { public abstract class PgpKeyRing : PgpObject { internal PgpKeyRing() { } internal static TrustPacket ReadOptionalTrustPacket(BcpgInputStream pIn) { PacketTag tag = pIn.SkipMarkerPackets(); return tag == PacketTag.Trust ? (TrustPacket)pIn.ReadPacket() : null; } internal static IList ReadSignaturesAndTrust(BcpgInputStream pIn) { try { var sigList = new List(); while (pIn.SkipMarkerPackets() == PacketTag.Signature) { SignaturePacket signaturePacket = (SignaturePacket)pIn.ReadPacket(); TrustPacket trustPacket = ReadOptionalTrustPacket(pIn); sigList.Add(new PgpSignature(signaturePacket, trustPacket)); } return sigList; } catch (PgpException e) { throw new IOException("can't create signature object: " + e.Message, e); } } internal static void ReadUserIDs(BcpgInputStream pIn, out IList ids, out IList idTrusts, out IList> idSigs) { ids = new List(); idTrusts = new List(); idSigs = new List>(); while (IsUserTag(pIn.SkipMarkerPackets())) { Packet obj = pIn.ReadPacket(); if (obj is UserIdPacket) { UserIdPacket id = (UserIdPacket)obj; ids.Add(id.GetId()); } else { UserAttributePacket user = (UserAttributePacket)obj; ids.Add(new PgpUserAttributeSubpacketVector(user.GetSubpackets())); } idTrusts.Add(ReadOptionalTrustPacket(pIn)); idSigs.Add(ReadSignaturesAndTrust(pIn)); } } private static bool IsUserTag(PacketTag tag) { switch (tag) { case PacketTag.UserAttribute: case PacketTag.UserId: return true; default: return false; } } } }