internal static bool Parse(byte[] data, out KerberosChecksum checksum) { checksum = null; try { KerberosChecksumGSSApi ret = new KerberosChecksumGSSApi(KerberosChecksumType.GSSAPI, data); BinaryReader reader = new BinaryReader(new MemoryStream(data)); int binding_length = reader.ReadInt32(); ret.ChannelBinding = reader.ReadAllBytes(binding_length); ret.ContextFlags = (KerberosChecksumGSSApiFlags)reader.ReadInt32(); if (ret.ContextFlags.HasFlagSet(KerberosChecksumGSSApiFlags.Delegate)) { ret.DelegationOptionIdentifier = reader.ReadInt32(); int cred_length = reader.ReadInt32(); ret.KerbCredential = reader.ReadAllBytes(cred_length); } if (reader.RemainingLength() > 0) { ret.Extensions = reader.ReadToEnd(); } checksum = ret; return(true); } catch (EndOfStreamException) { } return(false); }
internal static bool Parse(KerberosTicket orig_ticket, KerberosEncryptedData orig_data, byte[] decrypted, KerberosKeySet keyset, out KerberosEncryptedData ticket) { ticket = null; try { DERValue[] values = DERParser.ParseData(decrypted, 0); if (values.Length != 1) { return(false); } DERValue value = values[0]; if (!value.CheckApplication(2) || !value.HasChildren()) { return(false); } if (!value.Children[0].CheckSequence()) { return(false); } var ret = new KerberosAuthenticator(orig_data); foreach (var next in value.Children[0].Children) { if (next.Type != DERTagType.ContextSpecific) { return(false); } switch (next.Tag) { case 0: if (next.ReadChildInteger() != 5) { return(false); } break; case 1: ret.ClientRealm = next.ReadChildGeneralString(); break; case 2: if (!next.Children[0].CheckSequence()) { return(false); } ret.ClientName = KerberosPrincipalName.Parse(next.Children[0]); break; case 3: if (!next.Children[0].CheckSequence()) { return(false); } ret.Checksum = KerberosChecksum.Parse(next.Children[0]); break; case 4: ret.ClientUSec = next.ReadChildInteger(); break; case 5: ret.ClientTime = next.ReadChildGeneralizedTime(); break; case 6: if (!next.HasChildren()) { return(false); } ret.SubKey = KerberosAuthenticationKey.Parse(next.Children[0], orig_ticket.Realm, orig_ticket.ServerName); break; case 7: ret.SequenceNumber = next.ReadChildInteger(); break; case 8: if (!next.HasChildren()) { return(false); } ret.AuthorizationData = KerberosAuthorizationData.ParseSequence(next.Children[0]); break; default: return(false); } } if (ret.Checksum is KerberosChecksumGSSApi gssapi && gssapi.Credentials != null) { KerberosKeySet tmp_keyset = new KerberosKeySet(keyset.AsEnumerable() ?? new KerberosAuthenticationKey[0]); if (ret.SubKey != null) { tmp_keyset.Add(ret.SubKey); } gssapi.Decrypt(tmp_keyset); } ticket = ret; } catch (InvalidDataException) { return(false); } catch (EndOfStreamException) { return(false); } return(true); }