/** * @author ETSI / STF405 / STF449 * @version $URL$ * $Id$ * @desc GeoNetworking PICS * */ module LibItsGeoNetworking_Pixits { // LibCommon import from LibCommon_DataStrings all; import from LibCommon_BasicTypesAndValues all; // LibIts import from LibItsGeoNetworking_TypesAndValues all; group geoNetworkingPixits { group gnAddresses { /** * @desc GeoNetworking address of the GeoAdhoc router node A * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_A_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(10,6) }; /** * @desc GeoNetworking address of the GeoAdhoc router node B * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_B_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(11,6) }; /** * @desc GeoNetworking address of the GeoAdhoc router node C * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_C_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(12,6) }; /** * @desc GeoNetworking address of the GeoAdhoc router node D * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_D_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(13,6) }; /** * @desc GeoNetworking address of the GeoAdhoc router node E * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_E_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(14,6) }; /** * @desc GeoNetworking address of the GeoAdhoc router node F * @see ETSI TS 102 871-3 Table B.7 */ modulepar GN_Address PX_TS_NODE_F_LOCAL_GN_ADDR := { typeOfAddress := e_manual, stationType := e_passengerCar, stationCountryCode := c_uInt10Zero, mid := int2oct(15,6) }; } // end gnAddresses group congestionControl { /** * @desc Nr of neighbour limit to enter the "medium" congestion status value * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_MIN_NR_NEIGHBOUR := 50; /** * @desc Nr of neighbour limit to enter the "maximum" congestion status value * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_MAX_NR_NEIGHBOUR := 50; /** * @desc Maximum number of application retransmissions * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_APPLICATION_MAX_RETRANS := 10; } // end congestionControl group timers { /** * @desc Delta for timers to reflect processing time * @see ETSI TS 102 871-3 Table B.7 */ modulepar float PX_T_DELTA := 0.1; /** * @desc Duration of Beacon service retransmit timer [ms] for NetBeaconInterval = medium (cong. ctrl) * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_BEACON_SERVICE_TIMER_MEDIUM := 5000; /** * @desc Duration of Beacon service retransmit timer [ms] for NetBeaconInterval = maximum (cong. ctrl) * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_BEACON_SERVICE_TIMER_MAXIMUM := 8000; /** * @desc Duration of Location service retransmit timer [ms] for NetRepInterval = medium (cong. ctrl) * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_LOCATION_SERVICE_TIMER_MEDIUM := 2000; /** * @desc Duration of Location service retransmit timer [ms] for NetRepInterval = maximum (cong. ctrl) * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_LOCATION_SERVICE_TIMER_MAXIMUM := 3000; /** * @desc Duration of Application retransmit timer [ms] * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_APPLICATION_RETRANSMIT_TIMER := 1000; /** * @desc Duration of Application retransmit timer [ms] - medium * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_APPLICATION_RETRANSMIT_TIMER_MEDIUM := 2000; /** * @desc Duration of Application retransmit timer [ms] - maximum * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_GN_APPLICATION_RETRANSMIT_TIMER_MAXIMUM := 3000; /** * @desc The allowed delta for position checking. * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_POS_DELTA := 1; } group upperLayer { /** * @desc The IUT's upper layer * @see ETSI TS 102 871-3 Table B.7 */ modulepar NextHeader PX_GN_UPPER_LAYER := e_btpA; /** * @desc Is BTP header present in IUT's UT indication. Only applicable if PX_GN_UPPER_LAYER == e_btpA or e_btpB. * @remark It may happen that IUT do not report BTP header in UT indications (dur to GN/BTP merge) * @see ETSI TS 102 871-3 Table B.7 */ modulepar boolean PX_BTP_IN_UT_IND := true; } group parametrisation { /** * @desc Number of messages to be sent * @see ETSI TS 102 871-3 Table B.7 */ modulepar integer PX_MESSAGE_COUNT := 5; /** * @desc Time necessary for IUT to detect neighbours * @see ETSI TS 102 871-3 Table B.7 */ modulepar float PX_NEIGHBOUR_DISCOVERY_DELAY := 1.0 } } // end geoNetworkingPixits /** * @desc The certificate identifier the TA shall use in case of secured IUT. Default: CERT_IUT_A_AT * @remark If the IUT cannot use the test certificates, set this PIXIT to CERT_NONE */ modulepar charstring PX_CERT_FOR_TA := "CERT_TS_A_AT"; } // end LibItsGeoNetworking_Pixits