Examples of CipherTextHandler

• org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler
  A Hashed Adapter encapsulating ASN.1 encoders and decoders and cipher text engines to perform seal() and unseal() operations. A seal() operation performs an encode and an encrypt, while an unseal() operation performs a decrypt and a decode. @author Apache Directory Project @version $Rev: 902575 $, $Date: 2010-01-24 15:38:06 +0100 (Dim, 24 jan 2010) $

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

        LOG.debug( "Verifying using encrypted timestamp." );
        LOG_KRB.debug( "--> Verifying using encrypted timestamp." );

        KerberosConfig config = authContext.getConfig();
        KdcReq request = authContext.getRequest();
        CipherTextHandler cipherTextHandler = authContext.getCipherTextHandler();
        PrincipalStoreEntry clientEntry = authContext.getClientEntry();
        String clientName = clientEntry.getPrincipal().getName();

        EncryptionKey clientKey = null;

        if ( clientEntry.getSamType() == null )
        {
            LOG.debug(
                "Entry for client principal {} has no SAM type.  Proceeding with standard pre-authentication.",
                clientName );
            LOG_KRB.debug(
                "Entry for client principal {} has no SAM type.  Proceeding with standard pre-authentication.",
                clientName );

            EncryptionType encryptionType = authContext.getEncryptionType();
            clientKey = clientEntry.getKeyMap().get( encryptionType );

            if ( clientKey == null )
            {
                LOG_KRB.error( "No key for client {}", clientEntry.getDistinguishedName() );
                throw new KerberosException( ErrorType.KDC_ERR_NULL_KEY );
            }

            if ( config.isPaEncTimestampRequired() )
            {
                List<PaData> preAuthData = request.getPaData();

                if ( preAuthData == null )
                {
                    LOG_KRB.debug( "PRE_AUTH required..." );
                    throw new KerberosException( ErrorType.KDC_ERR_PREAUTH_REQUIRED,
                        preparePreAuthenticationError( authContext.getEncryptionType(), config.getEncryptionTypes() ) );
                }

                PaEncTsEnc timestamp = null;

                for ( PaData paData : preAuthData )
                {
                    if ( paData.getPaDataType().equals( PaDataType.PA_ENC_TIMESTAMP ) )
                    {
                        EncryptedData dataValue = KerberosDecoder.decodeEncryptedData( paData.getPaDataValue() );
                        byte[] decryptedData = cipherTextHandler.decrypt( clientKey, dataValue,
                            KeyUsage.AS_REQ_PA_ENC_TIMESTAMP_WITH_CKEY );
                        timestamp = KerberosDecoder.decodePaEncTsEnc( decryptedData );
                    }
                }

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

    private static void generateTicket( AuthenticationContext authContext ) throws KerberosException,
        InvalidTicketException
    {
        KdcReq request = authContext.getRequest();
        CipherTextHandler cipherTextHandler = authContext.getCipherTextHandler();
        PrincipalName serverPrincipal = request.getKdcReqBody().getSName();

        LOG_KRB.debug( "--> Generating ticket for {}", serverPrincipal );

        EncryptionType encryptionType = authContext.getEncryptionType();
        EncryptionKey serverKey = authContext.getServerEntry().getKeyMap().get( encryptionType );

        PrincipalName ticketPrincipal = request.getKdcReqBody().getSName();

        EncTicketPart encTicketPart = new EncTicketPart();
        KerberosConfig config = authContext.getConfig();

        // The INITIAL flag indicates that a ticket was issued using the AS protocol.
        TicketFlags ticketFlags = new TicketFlags();
        encTicketPart.setFlags( ticketFlags );
        ticketFlags.setFlag( TicketFlag.INITIAL );

        // The PRE-AUTHENT flag indicates that the client used pre-authentication.
        if ( authContext.isPreAuthenticated() )
        {
            ticketFlags.setFlag( TicketFlag.PRE_AUTHENT );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.FORWARDABLE ) )
        {
            if ( !config.isForwardableAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, because Forwadable is not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.FORWARDABLE );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.PROXIABLE ) )
        {
            if ( !config.isProxiableAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, because proxyiable is not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.PROXIABLE );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.ALLOW_POSTDATE ) )
        {
            if ( !config.isPostdatedAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, because Posdate is not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.MAY_POSTDATE );
        }

        KdcOptions kdcOptions = request.getKdcReqBody().getKdcOptions();

        if ( kdcOptions.get( KdcOptions.RENEW )
            || kdcOptions.get( KdcOptions.VALIDATE )
            || kdcOptions.get( KdcOptions.PROXY )
            || kdcOptions.get( KdcOptions.FORWARDED )
            || kdcOptions.get( KdcOptions.ENC_TKT_IN_SKEY ) )
        {
            if ( LOG_KRB.isDebugEnabled() )
            {
                if ( kdcOptions.get( KdcOptions.RENEW ) )
                {
                    LOG_KRB.error( "Ticket cannot be generated, as it's a renew" );

                }

                if ( kdcOptions.get( KdcOptions.VALIDATE ) )
                {
                    LOG_KRB.error( "Ticket cannot be generated, as it's a validate" );

                }

                if ( kdcOptions.get( KdcOptions.PROXY ) )
                {
                    LOG_KRB.error( "Ticket cannot be generated, as it's a proxy" );

                }

                if ( kdcOptions.get( KdcOptions.FORWARDED ) )
                {
                    LOG_KRB.error( "Ticket cannot be generated, as it's forwarded" );

                }

                if ( kdcOptions.get( KdcOptions.ENC_TKT_IN_SKEY ) )
                {
                    LOG_KRB.error( "Ticket cannot be generated, as it's a user-to-user " );
                }
            }

            throw new KerberosException( ErrorType.KDC_ERR_BADOPTION );
        }

        EncryptionKey sessionKey = RandomKeyFactory.getRandomKey( authContext.getEncryptionType() );
        encTicketPart.setKey( sessionKey );

        encTicketPart.setCName( request.getKdcReqBody().getCName() );
        encTicketPart.setCRealm( request.getKdcReqBody().getRealm() );
        encTicketPart.setTransited( new TransitedEncoding() );
        String serverRealm = request.getKdcReqBody().getRealm();

        KerberosTime now = new KerberosTime();

        encTicketPart.setAuthTime( now );

        KerberosTime startTime = request.getKdcReqBody().getFrom();

        /*
         * "If the requested starttime is absent, indicates a time in the past,
         * or is within the window of acceptable clock skew for the KDC and the
         * POSTDATE option has not been specified, then the starttime of the
         * ticket is set to the authentication server's current time."
         */
        if ( startTime == null || startTime.lessThan( now ) || startTime.isInClockSkew( config.getAllowableClockSkew() )
            && !request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            startTime = now;
        }

        /*
         * "If it indicates a time in the future beyond the acceptable clock skew,
         * but the POSTDATED option has not been specified, then the error
         * KDC_ERR_CANNOT_POSTDATE is returned."
         */
        if ( ( startTime != null ) && startTime.greaterThan( now )
            && !startTime.isInClockSkew( config.getAllowableClockSkew() )
            && !request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            LOG_KRB.error( "Ticket cannot be generated, as it's in the future and the Postdated option is not set" );

            throw new KerberosException( ErrorType.KDC_ERR_CANNOT_POSTDATE );
        }

        /*
         * "Otherwise the requested starttime is checked against the policy of the
         * local realm and if the ticket's starttime is acceptable, it is set as
         * requested, and the INVALID flag is set in the new ticket."
         */
        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            if ( !config.isPostdatedAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, as Podated is not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.POSTDATED );
            ticketFlags.setFlag( TicketFlag.INVALID );
            encTicketPart.setStartTime( startTime );
        }

        long till = 0;

        if ( request.getKdcReqBody().getTill().getTime() == 0 )
        {
            till = Long.MAX_VALUE;
        }
        else
        {
            till = request.getKdcReqBody().getTill().getTime();
        }

        /*
         * The end time is the minimum of (a) the requested till time or (b)
         * the start time plus maximum lifetime as configured in policy.
         */
        long endTime = Math.min( till, startTime.getTime() + config.getMaximumTicketLifetime() );
        KerberosTime kerberosEndTime = new KerberosTime( endTime );
        encTicketPart.setEndTime( kerberosEndTime );

        /*
         * "If the requested expiration time minus the starttime (as determined
         * above) is less than a site-determined minimum lifetime, an error
         * message with code KDC_ERR_NEVER_VALID is returned."
         */
        if ( kerberosEndTime.lessThan( startTime ) )
        {
            LOG_KRB.error( "Ticket cannot be generated, as the endTime is below the startTime" );
            throw new KerberosException( ErrorType.KDC_ERR_NEVER_VALID );
        }

        long ticketLifeTime = Math.abs( startTime.getTime() - kerberosEndTime.getTime() );

        if ( ticketLifeTime < config.getMinimumTicketLifetime() )
        {
            LOG_KRB.error( "Ticket cannot be generated, as the Lifetime is too small" );
            throw new KerberosException( ErrorType.KDC_ERR_NEVER_VALID );
        }

        /*
         * "If the requested expiration time for the ticket exceeds what was determined
         * as above, and if the 'RENEWABLE-OK' option was requested, then the 'RENEWABLE'
         * flag is set in the new ticket, and the renew-till value is set as if the
         * 'RENEWABLE' option were requested."
         */
        KerberosTime tempRtime = request.getKdcReqBody().getRTime();

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.RENEWABLE_OK )
            && request.getKdcReqBody().getTill().greaterThan( kerberosEndTime ) )
        {
            if ( !config.isRenewableAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, as the renew date is exceeded" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            request.getKdcReqBody().getKdcOptions().set( KdcOptions.RENEWABLE );
            tempRtime = request.getKdcReqBody().getTill();
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.RENEWABLE ) )
        {
            if ( !config.isRenewableAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, as Renewable is not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.RENEWABLE );

            if ( tempRtime == null || tempRtime.isZero() )
            {
                tempRtime = KerberosTime.INFINITY;
            }

            /*
             * The renew-till time is the minimum of (a) the requested renew-till
             * time or (b) the start time plus maximum renewable lifetime as
             * configured in policy.
             */
            long renewTill = Math.min( tempRtime.getTime(), startTime.getTime() + config.getMaximumRenewableLifetime() );
            encTicketPart.setRenewTill( new KerberosTime( renewTill ) );
        }

        if ( request.getKdcReqBody().getAddresses() != null
            && request.getKdcReqBody().getAddresses().getAddresses() != null
            && request.getKdcReqBody().getAddresses().getAddresses().length > 0 )
        {
            encTicketPart.setClientAddresses( request.getKdcReqBody().getAddresses() );
        }
        else
        {
            if ( !config.isEmptyAddressesAllowed() )
            {
                LOG_KRB.error( "Ticket cannot be generated, as the addresses are null, and it's not allowed" );
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }
        }

        EncryptedData encryptedData = cipherTextHandler.seal( serverKey, encTicketPart,
            KeyUsage.AS_OR_TGS_REP_TICKET_WITH_SRVKEY );

        Ticket newTicket = new Ticket( ticketPrincipal, encryptedData );

        newTicket.setRealm( serverRealm );

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

    public KdcConnection( KdcConfig config )
    {
        this.config = config;

        nonceGenerator = new SecureRandom( String.valueOf( System.currentTimeMillis() ).getBytes() );
        cipherTextHandler = new CipherTextHandler();
        channel = new KerberosChannel();
    }

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

        config.setBodyChecksumVerified( false );

        store = new MapPrincipalStoreImpl();
        handler = new KerberosProtocolHandler( kdcServer, store );
        session = new KrbDummySession();
        lockBox = new CipherTextHandler();
    }

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

    {
        LOG.debug( "Verifying using encrypted timestamp." );

        KdcServer config = authContext.getConfig();
        KdcReq request = authContext.getRequest();
        CipherTextHandler cipherTextHandler = authContext.getCipherTextHandler();
        PrincipalStoreEntry clientEntry = authContext.getClientEntry();
        String clientName = clientEntry.getPrincipal().getName();

        EncryptionKey clientKey = null;

        if ( clientEntry.getSamType() == null )
        {
            if ( LOG.isDebugEnabled() )
            {
                LOG.debug(
                    "Entry for client principal {} has no SAM type.  Proceeding with standard pre-authentication.",
                    clientName );
            }

            EncryptionType encryptionType = authContext.getEncryptionType();
            clientKey = clientEntry.getKeyMap().get( encryptionType );

            if ( clientKey == null )
            {
                throw new KerberosException( ErrorType.KDC_ERR_NULL_KEY );
            }

            if ( config.isPaEncTimestampRequired() )
            {
                List<PaData> preAuthData = request.getPaData();

                if ( preAuthData == null )
                {
                    throw new KerberosException( ErrorType.KDC_ERR_PREAUTH_REQUIRED,
                        preparePreAuthenticationError( authContext.getRequest().getKdcReqBody().getEType(),
                            config.getEncryptionTypes() ) );
                }

                PaEncTsEnc timestamp = null;

                for ( PaData paData : preAuthData )
                {
                    if ( paData.getPaDataType().equals( PaDataType.PA_ENC_TIMESTAMP ) )
                    {
                        EncryptedData dataValue = KerberosDecoder.decodeEncryptedData( paData.getPaDataValue() );
                        paData.getPaDataType();
                        byte[] decryptedData = cipherTextHandler.decrypt( clientKey, dataValue,
                            KeyUsage.AS_REQ_PA_ENC_TIMESTAMP_WITH_CKEY );
                        timestamp = KerberosDecoder.decodePaEncTsEnc( decryptedData );
                    }
                }

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

    private static void generateTicket( AuthenticationContext authContext ) throws KerberosException,
        InvalidTicketException
    {
        KdcReq request = authContext.getRequest();
        CipherTextHandler cipherTextHandler = authContext.getCipherTextHandler();
        PrincipalName serverPrincipal = request.getKdcReqBody().getSName();

        EncryptionType encryptionType = authContext.getEncryptionType();
        EncryptionKey serverKey = authContext.getServerEntry().getKeyMap().get( encryptionType );

        PrincipalName ticketPrincipal = request.getKdcReqBody().getSName();

        EncTicketPart encTicketPart = new EncTicketPart();
        KdcServer config = authContext.getConfig();

        // The INITIAL flag indicates that a ticket was issued using the AS protocol.
        TicketFlags ticketFlags = new TicketFlags();
        encTicketPart.setFlags( ticketFlags );
        ticketFlags.setFlag( TicketFlag.INITIAL );

        // The PRE-AUTHENT flag indicates that the client used pre-authentication.
        if ( authContext.isPreAuthenticated() )
        {
            ticketFlags.setFlag( TicketFlag.PRE_AUTHENT );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.FORWARDABLE ) )
        {
            if ( !config.isForwardableAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.FORWARDABLE );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.PROXIABLE ) )
        {
            if ( !config.isProxiableAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.PROXIABLE );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.ALLOW_POSTDATE ) )
        {
            if ( !config.isPostdatedAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.MAY_POSTDATE );
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.RENEW )
            || request.getKdcReqBody().getKdcOptions().get( KdcOptions.VALIDATE )
            || request.getKdcReqBody().getKdcOptions().get( KdcOptions.PROXY )
            || request.getKdcReqBody().getKdcOptions().get( KdcOptions.FORWARDED )
            || request.getKdcReqBody().getKdcOptions().get( KdcOptions.ENC_TKT_IN_SKEY ) )
        {
            throw new KerberosException( ErrorType.KDC_ERR_BADOPTION );
        }

        EncryptionKey sessionKey = RandomKeyFactory.getRandomKey( authContext.getEncryptionType() );
        encTicketPart.setKey( sessionKey );

        encTicketPart.setCName( request.getKdcReqBody().getCName() );
        encTicketPart.setCRealm( request.getKdcReqBody().getRealm() );
        encTicketPart.setTransited( new TransitedEncoding() );
        String serverRealm = request.getKdcReqBody().getRealm();

        KerberosTime now = new KerberosTime();

        encTicketPart.setAuthTime( now );

        KerberosTime startTime = request.getKdcReqBody().getFrom();

        /*
         * "If the requested starttime is absent, indicates a time in the past,
         * or is within the window of acceptable clock skew for the KDC and the
         * POSTDATE option has not been specified, then the starttime of the
         * ticket is set to the authentication server's current time."
         */
        if ( startTime == null || startTime.lessThan( now ) || startTime.isInClockSkew( config.getAllowableClockSkew() )
            && !request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            startTime = now;
        }

        /*
         * "If it indicates a time in the future beyond the acceptable clock skew,
         * but the POSTDATED option has not been specified, then the error
         * KDC_ERR_CANNOT_POSTDATE is returned."
         */
        if ( startTime != null && startTime.greaterThan( now )
            && !startTime.isInClockSkew( config.getAllowableClockSkew() )
            && !request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            throw new KerberosException( ErrorType.KDC_ERR_CANNOT_POSTDATE );
        }

        /*
         * "Otherwise the requested starttime is checked against the policy of the
         * local realm and if the ticket's starttime is acceptable, it is set as
         * requested, and the INVALID flag is set in the new ticket."
         */
        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.POSTDATED ) )
        {
            if ( !config.isPostdatedAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.POSTDATED );
            ticketFlags.setFlag( TicketFlag.INVALID );
            encTicketPart.setStartTime( startTime );
        }

        long till = 0;

        if ( request.getKdcReqBody().getTill().getTime() == 0 )
        {
            till = Long.MAX_VALUE;
        }
        else
        {
            till = request.getKdcReqBody().getTill().getTime();
        }

        /*
         * The end time is the minimum of (a) the requested till time or (b)
         * the start time plus maximum lifetime as configured in policy.
         */
        long endTime = Math.min( till, startTime.getTime() + config.getMaximumTicketLifetime() );
        KerberosTime kerberosEndTime = new KerberosTime( endTime );
        encTicketPart.setEndTime( kerberosEndTime );

        /*
         * "If the requested expiration time minus the starttime (as determined
         * above) is less than a site-determined minimum lifetime, an error
         * message with code KDC_ERR_NEVER_VALID is returned."
         */
        if ( kerberosEndTime.lessThan( startTime ) )
        {
            throw new KerberosException( ErrorType.KDC_ERR_NEVER_VALID );
        }

        long ticketLifeTime = Math.abs( startTime.getTime() - kerberosEndTime.getTime() );

        if ( ticketLifeTime < config.getAllowableClockSkew() )
        {
            throw new KerberosException( ErrorType.KDC_ERR_NEVER_VALID );
        }

        /*
         * "If the requested expiration time for the ticket exceeds what was determined
         * as above, and if the 'RENEWABLE-OK' option was requested, then the 'RENEWABLE'
         * flag is set in the new ticket, and the renew-till value is set as if the
         * 'RENEWABLE' option were requested."
         */
        KerberosTime tempRtime = request.getKdcReqBody().getRTime();

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.RENEWABLE_OK )
            && request.getKdcReqBody().getTill().greaterThan( kerberosEndTime ) )
        {
            if ( !config.isRenewableAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            request.getKdcReqBody().getKdcOptions().set( KdcOptions.RENEWABLE );
            tempRtime = request.getKdcReqBody().getTill();
        }

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.RENEWABLE ) )
        {
            if ( !config.isRenewableAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }

            ticketFlags.setFlag( TicketFlag.RENEWABLE );

            if ( tempRtime == null || tempRtime.isZero() )
            {
                tempRtime = KerberosTime.INFINITY;
            }

            /*
             * The renew-till time is the minimum of (a) the requested renew-till
             * time or (b) the start time plus maximum renewable lifetime as
             * configured in policy.
             */
            long renewTill = Math.min( tempRtime.getTime(), startTime.getTime() + config.getMaximumRenewableLifetime() );
            encTicketPart.setRenewTill( new KerberosTime( renewTill ) );
        }

        if ( request.getKdcReqBody().getAddresses() != null
            && request.getKdcReqBody().getAddresses().getAddresses() != null
            && request.getKdcReqBody().getAddresses().getAddresses().length > 0 )
        {
            encTicketPart.setClientAddresses( request.getKdcReqBody().getAddresses() );
        }
        else
        {
            if ( !config.isEmptyAddressesAllowed() )
            {
                throw new KerberosException( ErrorType.KDC_ERR_POLICY );
            }
        }

        EncryptedData encryptedData = cipherTextHandler.seal( serverKey, encTicketPart,
            KeyUsage.AS_OR_TGS_REP_TICKET_WITH_SRVKEY );

        Ticket newTicket = new Ticket( ticketPrincipal, encryptedData );

        newTicket.setRealm( serverRealm );

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

        long clockSkew = tgsContext.getConfig().getAllowableClockSkew();
        ReplayCache replayCache = tgsContext.getConfig().getReplayCache();
        boolean emptyAddressesAllowed = tgsContext.getConfig().isEmptyAddressesAllowed();
        InetAddress clientAddress = tgsContext.getClientAddress();
        CipherTextHandler cipherTextHandler = tgsContext.getCipherTextHandler();

        Authenticator authenticator = verifyAuthHeader( authHeader, tgt, serverKey, clockSkew, replayCache,
            emptyAddressesAllowed, clientAddress, cipherTextHandler,
            KeyUsage.TGS_REQ_PA_TGS_REQ_PADATA_AP_REQ_TGS_SESS_KEY, isValidate );

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

        InvalidTicketException
    {
        KdcReq request = tgsContext.getRequest();
        Ticket tgt = tgsContext.getTgt();
        Authenticator authenticator = tgsContext.getAuthenticator();
        CipherTextHandler cipherTextHandler = tgsContext.getCipherTextHandler();
        KerberosPrincipal ticketPrincipal = KerberosUtils.getKerberosPrincipal(
            request.getKdcReqBody().getSName(), request.getKdcReqBody().getRealm() );

        EncryptionType encryptionType = tgsContext.getEncryptionType();
        EncryptionKey serverKey = tgsContext.getRequestPrincipalEntry().getKeyMap().get( encryptionType );

        KdcServer config = tgsContext.getConfig();

        EncTicketPart newTicketPart = new EncTicketPart();

        newTicketPart.setClientAddresses( tgt.getEncTicketPart().getClientAddresses() );

        processFlags( config, request, tgt, newTicketPart );

        EncryptionKey sessionKey = RandomKeyFactory.getRandomKey( tgsContext.getEncryptionType() );
        newTicketPart.setKey( sessionKey );

        newTicketPart.setCName( tgt.getEncTicketPart().getCName() );
        newTicketPart.setCRealm( tgt.getEncTicketPart().getCRealm() );

        if ( request.getKdcReqBody().getEncAuthorizationData() != null )
        {
            byte[] authorizationData = cipherTextHandler.decrypt( authenticator.getSubKey(), request.getKdcReqBody()
                .getEncAuthorizationData(), KeyUsage.TGS_REQ_KDC_REQ_BODY_AUTHZ_DATA_ENC_WITH_TGS_SESS_KEY );
            AuthorizationData authData = KerberosDecoder.decodeAuthorizationData( authorizationData );
            authData.addEntry( tgt.getEncTicketPart().getAuthorizationData().getCurrentAD() );
            newTicketPart.setAuthorizationData( authData );
        }

        processTransited( newTicketPart, tgt );

        processTimes( config, request, newTicketPart, tgt );

        if ( request.getKdcReqBody().getKdcOptions().get( KdcOptions.ENC_TKT_IN_SKEY ) )
        {
            /*
             * if (server not specified) then
             *         server = req.second_ticket.client;
             * endif
             *
             * if ((req.second_ticket is not a TGT) or
             *     (req.second_ticket.client != server)) then
             *         error_out(KDC_ERR_POLICY);
             * endif
             *
             * new_tkt.enc-part := encrypt OCTET STRING using etype_for_key(second-ticket.key), second-ticket.key;
             */
            throw new KerberosException( ErrorType.KDC_ERR_BADOPTION );
        }
        else
        {
            EncryptedData encryptedData = cipherTextHandler.seal( serverKey, newTicketPart,
                KeyUsage.AS_OR_TGS_REP_TICKET_WITH_SRVKEY );

            Ticket newTicket = new Ticket( request.getKdcReqBody().getSName(), encryptedData );
            newTicket.setEncTicketPart( newTicketPart );
            newTicket.setRealm( request.getKdcReqBody().getRealm() );

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

        config.setBodyChecksumVerified( false );

        store = new MapPrincipalStoreImpl();
        handler = new KerberosProtocolHandler( config, store );
        session = new KrbDummySession();
        lockBox = new CipherTextHandler();
    }

Examples of org.apache.directory.server.kerberos.shared.crypto.encryption.CipherTextHandler

    {
        config = new KdcServer();
        store = new MapPrincipalStoreImpl();
        handler = new KerberosProtocolHandler( config, store );
        session = new KrbDummySession();
        lockBox = new CipherTextHandler();
    }