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/*
 *
 *  (C) Copyright IBM Corp. 1999 All Rights Reserved.
 *  Copyright 1997 The Open Group Research Institute.  All rights reserved.
 */

package sun.security.krb5.internal;

import sun.security.krb5.*;
import sun.security.util.*;
import java.util.Vector;
import java.io.IOException;
import java.io.*;

Implements the ASN.1 EncTicketPart type.

EncTicketPart   ::= [APPLICATION 3] SEQUENCE {
        flags                   [0] TicketFlags,
        key                     [1] EncryptionKey,
        crealm                  [2] Realm,
        cname                   [3] PrincipalName,
        transited               [4] TransitedEncoding,
        authtime                [5] KerberosTime,
        starttime               [6] KerberosTime OPTIONAL,
        endtime                 [7] KerberosTime,
        renew-till              [8] KerberosTime OPTIONAL,
        caddr                   [9] HostAddresses OPTIONAL,
        authorization-data      [10] AuthorizationData OPTIONAL
 }

This definition reflects the Network Working Group RFC 4120 specification available at http://www.ietf.org/rfc/rfc4120.txt.

/** * Implements the ASN.1 EncTicketPart type. * * <pre>{@code * EncTicketPart ::= [APPLICATION 3] SEQUENCE { * flags [0] TicketFlags, * key [1] EncryptionKey, * crealm [2] Realm, * cname [3] PrincipalName, * transited [4] TransitedEncoding, * authtime [5] KerberosTime, * starttime [6] KerberosTime OPTIONAL, * endtime [7] KerberosTime, * renew-till [8] KerberosTime OPTIONAL, * caddr [9] HostAddresses OPTIONAL, * authorization-data [10] AuthorizationData OPTIONAL * } * }</pre> * * <p> * This definition reflects the Network Working Group RFC 4120 * specification available at * <a href="http://www.ietf.org/rfc/rfc4120.txt"> * http://www.ietf.org/rfc/rfc4120.txt</a>. */
public class EncTicketPart { public TicketFlags flags; public EncryptionKey key; public PrincipalName cname; public TransitedEncoding transited; public KerberosTime authtime; public KerberosTime starttime; //optional public KerberosTime endtime; public KerberosTime renewTill; //optional public HostAddresses caddr; //optional public AuthorizationData authorizationData; //optional public EncTicketPart( TicketFlags new_flags, EncryptionKey new_key, PrincipalName new_cname, TransitedEncoding new_transited, KerberosTime new_authtime, KerberosTime new_starttime, KerberosTime new_endtime, KerberosTime new_renewTill, HostAddresses new_caddr, AuthorizationData new_authorizationData) { flags = new_flags; key = new_key; cname = new_cname; transited = new_transited; authtime = new_authtime; starttime = new_starttime; endtime = new_endtime; renewTill = new_renewTill; caddr = new_caddr; authorizationData = new_authorizationData; } public EncTicketPart(byte[] data) throws Asn1Exception, KrbException, IOException { init(new DerValue(data)); } public EncTicketPart(DerValue encoding) throws Asn1Exception, KrbException, IOException { init(encoding); }
Initializes an EncTicketPart object.
Params:
  • encoding – a single DER-encoded value.
Throws:
  • Asn1Exception – if an error occurs while decoding an ASN1 encoded data.
  • IOException – if an I/O error occurs while reading encoded data.
  • RealmException – if an error occurs while parsing a Realm object.
/** * Initializes an EncTicketPart object. * @param encoding a single DER-encoded value. * @exception Asn1Exception if an error occurs while decoding an ASN1 encoded data. * @exception IOException if an I/O error occurs while reading encoded data. * @exception RealmException if an error occurs while parsing a Realm object. */
private static String getHexBytes(byte[] bytes, int len) throws IOException { StringBuffer sb = new StringBuffer(); for (int i = 0; i < len; i++) { int b1 = (bytes[i] >> 4) & 0x0f; int b2 = bytes[i] & 0x0f; sb.append(Integer.toHexString(b1)); sb.append(Integer.toHexString(b2)); sb.append(' '); } return sb.toString(); } private void init(DerValue encoding) throws Asn1Exception, IOException, RealmException { DerValue der, subDer; renewTill = null; caddr = null; authorizationData = null; if (((encoding.getTag() & (byte) 0x1F) != (byte) 0x03) || (encoding.isApplication() != true) || (encoding.isConstructed() != true)) { throw new Asn1Exception(Krb5.ASN1_BAD_ID); } der = encoding.getData().getDerValue(); if (der.getTag() != DerValue.tag_Sequence) { throw new Asn1Exception(Krb5.ASN1_BAD_ID); } flags = TicketFlags.parse(der.getData(), (byte) 0x00, false); key = EncryptionKey.parse(der.getData(), (byte) 0x01, false); Realm crealm = Realm.parse(der.getData(), (byte) 0x02, false); cname = PrincipalName.parse(der.getData(), (byte) 0x03, false, crealm); transited = TransitedEncoding.parse(der.getData(), (byte) 0x04, false); authtime = KerberosTime.parse(der.getData(), (byte) 0x05, false); starttime = KerberosTime.parse(der.getData(), (byte) 0x06, true); endtime = KerberosTime.parse(der.getData(), (byte) 0x07, false); if (der.getData().available() > 0) { renewTill = KerberosTime.parse(der.getData(), (byte) 0x08, true); } if (der.getData().available() > 0) { caddr = HostAddresses.parse(der.getData(), (byte) 0x09, true); } if (der.getData().available() > 0) { authorizationData = AuthorizationData.parse(der.getData(), (byte) 0x0A, true); } if (der.getData().available() > 0) { throw new Asn1Exception(Krb5.ASN1_BAD_ID); } }
Encodes an EncTicketPart object.
Throws:
  • Asn1Exception – if an error occurs while decoding an ASN1 encoded data.
  • IOException – if an I/O error occurs while reading encoded data.
Returns:byte array of encoded EncTicketPart object.
/** * Encodes an EncTicketPart object. * @return byte array of encoded EncTicketPart object. * @exception Asn1Exception if an error occurs while decoding an ASN1 encoded data. * @exception IOException if an I/O error occurs while reading encoded data. */
public byte[] asn1Encode() throws Asn1Exception, IOException { DerOutputStream bytes = new DerOutputStream(); DerOutputStream temp = new DerOutputStream(); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x00), flags.asn1Encode()); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x01), key.asn1Encode()); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x02), cname.getRealm().asn1Encode()); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x03), cname.asn1Encode()); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x04), transited.asn1Encode()); bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x05), authtime.asn1Encode()); if (starttime != null) { bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x06), starttime.asn1Encode()); } bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x07), endtime.asn1Encode()); if (renewTill != null) { bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x08), renewTill.asn1Encode()); } if (caddr != null) { bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x09), caddr.asn1Encode()); } if (authorizationData != null) { bytes.write(DerValue.createTag(DerValue.TAG_CONTEXT, true, (byte) 0x0A), authorizationData.asn1Encode()); } temp.write(DerValue.tag_Sequence, bytes); bytes = new DerOutputStream(); bytes.write(DerValue.createTag(DerValue.TAG_APPLICATION, true, (byte) 0x03), temp); return bytes.toByteArray(); } }