ItsAutoInterop_TestCases.ttcn

module ItsAutoInterop_TestCases {
    
    // LibCommon
    import from LibCommon_VerdictControl all;
    import from LibCommon_Sync all;
    import from LibCommon_BasicTypesAndValues all;
    import from LibCommon_DataStrings all;
    import from LibCommon_Time all;
    
    // LibIts
    import from ITS_Container language "ASN.1:1997" all;
    import from IEEE1609dot2BaseTypes language "ASN.1:1997" all;
    import from IEEE1609dot2 language "ASN.1:1997" all;
    import from EtsiTs103097Module language "ASN.1:1997" all;
    
    
    // LibItsCommon
    import from LibItsCommon_TestSystem all;
    import from LibItsCommon_Functions all;
    import from LibItsExternal_TypesAndValues all;
    import from LibItsCommon_ASN1_NamedNumbers all;
    
    // LibItsGeoNetworking
    import from LibItsGeoNetworking_TypesAndValues all;
    import from LibItsGeoNetworking_Templates all;
    import from LibItsGeoNetworking_Pixits all;
    import from LibItsGeoNetworking_TestSystem all;
    
    // LibItsGeoNetworking
    import from LibItsDenm_Templates all;
    
    // LibItsSecurity
    import from LibItsSecurity_TypesAndValues all;
    
    // AtsInterop
    import from ItsAutoInterop_TypesAndValues all;
    import from ItsAutoInterop_Templates all;
    import from ItsAutoInterop_Functions all;
    import from ItsAutoInterop_Pics all;
    import from ItsAutoInterop_Pixits all;
    import from ItsAutoInterop_TestSystem all;
    
    /**
     * @desc    Verify complete forwarding message scenario (GREEDY, GREEDY, GREEDY) 
     * <pre>
     * Pics Selection: 
     * Config Id: CF-01
     * Initial conditions:
     *  with {
     *      itsGnNonAreaForwardingAlgorithm of EUT1 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT2 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT3 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT4 is SIMPLE
     *  }
     * Expected behaviour:
     *  ensure that {
     *      when {
     *          EUT1 is requested to send DEN message
     *              encapsulated in a GBC packet
     *          containing Basic Header
     *              containing RHL field
     *                  indicating a value > 1
     *          containing DestinationArea
     *              indicating the TARGET_GEOAREA
     *      }
     *      then {
     *          EUT1 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating the EUT2 address
     *      }
     *      when {
     *          EUT2 receives the GBC packet from EUT1
     *      }
     *      then {
     *          EUT2 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating the EUT4 address
     *              and EUT3 does not receive the GBC packet from EUT1
     *      }
     *      when {
     *          EUT4 receives the GBC packet from EUT2
     *              containing Basic Header
     *              containing RHL field
     *                  indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *      }
     *      then {
     *          EUT4 provides the DEN message to upper layers 
     *          and EUT4 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *              containing the DEN message
     *              encapsulated in a LL packet 
     *                  containing a destination MAC address
     *                      indicating broadcast address
     *      }
     *      when {
     *      EUT2 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT2 discards the GBC packet
     *      }
     *      when {
     *          EUT3 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT3 discards the GBC packet
     *      }
     *  }
     * </pre>
     *
     * @see         Draft ETSI TS yyy xxx-2 V0.0.8 (2017-03) TD_AUTO_IOT_DENM_MFW_BV_01
     * @reference   ETSI EN 302 636-4-1 Clauses D & E2
     */
    testcase TC_AUTO_IOT_DENM_MFW_BV_01() runs on ItsMtc system ItsAutoInteropGeoNetworkingSystem {
        
        // Local variables
        var ItsAutoInteropGeonetworking v_eut1 := null;
        var ItsAutoInteropGeonetworking v_eut2 := null;
        var ItsAutoInteropGeonetworking v_eut3 := null;
        var ItsAutoInteropGeonetworking v_eut4 := null;
        
        // Test control
        /*if (not PICS_GN_LS_FWD) {
            log("*** " & testcasename() & ": PICS_GN_LS_FWD required for executing the TC ***");
            setverdict(inconc);
            stop;
        }*/
        
        // Test component configuration
        f_mtcCf01Up(v_eut1, v_eut2, v_eut3, v_eut4);
        
        // Preamble
        
        // Start components
        v_eut1.start(f_TC_AUTO_IOT_DENM_MFW_BV_01_eut1(v_eut1, PX_EUT1_ID));
        v_eut2.start(f_TC_AUTO_IOT_DENM_MFW_BV_01_eut2(v_eut2, PX_EUT2_ID));
        v_eut3.start(f_TC_AUTO_IOT_DENM_MFW_BV_01_eut3(v_eut3, PX_EUT3_ID));
        v_eut4.start(f_TC_AUTO_IOT_DENM_MFW_BV_01_eut4(v_eut4, PX_EUT4_ID));
        
        // Synchronization
        f_serverSyncNClientsAndStop(4, {c_prDone, c_tbDone});
        
        // Cleanup
        f_mtcCf01Down(v_eut1, v_eut2, v_eut3, v_eut4);
        
    } // End of TC_AUTO_IOT_DENM_MFW_BV_01
    
    group g_TC_AUTO_IOT_DENM_MFW_BV_01 { 
        
        /**
         * @desc    Behavior function for EUT1 (TC_AUTO_IOT_DENM_MFW_BV_01)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_01_eut1(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            tc_ac.start;
            alt {
                [] eutGeoNetworkingPort.receive( // EUT1 is requested to send DEN message
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB, 
                                mw_denm_stationId(
                                    PX_EUT_DESC[p_eut_id].stationId
                         ))),
                         PX_EUT_DESC[PX_EUT2_ID].ll_mac_address
                )) { //  Receives the triggered DENM message
                    tc_ac.stop;
                    log("*** " & testcasename() & ": INFO: EUT1 sends a GBC packet ***");
                    f_selfOrClientSyncAndVerdict(c_prDone, e_success);
                }
                [] tc_ac.timeout {
                    log("*** " & testcasename() & ": INCONC: EUT1 does not send the requested DEN message ***");
                    f_selfOrClientSyncAndVerdict(c_prDone, e_timeout);
                }
            } // End of 'alt' statement
            
            // Test Body
            tc_wait.start;
            alt {
                [] eutGeoNetworkingPort.receive( // EUT1 shall not receive any more DEN messages
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId(
                                    ? // FIXME complement(PX_EUT_DESC[p_eut_id].stationId)
                         ))),
                         ?
                )) { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": FAIL: Unexpected DEN message received ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, GREEDY) succeed ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
                }
            } // End of 'alt' statement
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_01_eut1
        
        /**
         * @desc    Behavior function for EUT2 (TC_AUTO_IOT_DENM_MFW_BV_01)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_01_eut2(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT2 receives the GBC packet from EUT1
                    mw_eutGeoNwInd(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB,
                                mw_denm_stationId(
                                    PX_EUT_DESC[PX_EUT1_ID].stationId
                ))))) -> value v_eutGeoNw {
                    // Now, we have to check for EUT4 to broadcast the DENM message
                    repeat;
                }
                [] eutGeoNetworkingPort.receive( // EUT2 receives the GBC packet from EUT4
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId(
                                    PX_EUT_DESC[PX_EUT4_ID].stationId
                         ))),
                         c_llBroadcast
                )) -> value v_eutGeoNw { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": INFO: EUT2 receives the GBC packet from EUT4 ***");
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT2 discards the GBC packet
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": INCONC: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            else {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_01_eut2
        
        /**
         * @desc    Behavior function for EUT3 (TC_AUTO_IOT_DENM_MFW_BV_01)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_01_eut3(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT3 receives the GBC packet from EUT4
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId
                         )),
                         ?
                )) -> value v_eutGeoNw { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": INFO: EUT3 received DEN message from EUT ", v_eutGeoNw.msg.gnPacket.packet.extendedHeader.tsbHeader.srcPosVector.gnAddr.mid, " ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT3 discards the GBC packet
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": INCONC: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            else {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_01_eut3
        
        /**
         * @desc    Behavior function for EUT4 (TC_AUTO_IOT_DENM_MFW_BV_01)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_01_eut4(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT4 receives the GBC packet from EUT2
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB,
                                mw_denm_stationId
                         )),
                         PX_EUT_DESC[p_eut_id].ll_mac_address
                )) -> value v_eutGeoNw { // Receive a DEN message from EUT2
                    tc_wait.stop;
                    // Now check that EUT4 brodcasts the DENM message
                    log("*** " & testcasename() & ": INFO: EUT4 receives the GBC packet from EUT2 ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT4 provides the DEN message to upper layers 
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            else {
                log("*** " & testcasename() & ": INCONC: EUT4 does not provide the DEN message to upper layers ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_01_eut4
        
    } // End of group g_TC_AUTO_IOT_DENM_MFW_BV_01
    
    /**
     * @desc    Verify complete forwarding message scenario (GREEDY, GREEDY, CBF) 
     * <pre>
     * Pics Selection: 
     * Config Id: CF-01
     * Initial conditions:
     *  with {
     *      itsGnNonAreaForwardingAlgorithm of EUT1 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT2 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT3 set to CBF
     *      itsGnNonAreaForwardingAlgorithm of EUT4 is SIMPLE
     *  }
     * Expected behaviour:
     *  ensure that {
     *      when {
     *          EUT1 is requested to send DEN message
     *              encapsulated in a GBC packet
     *          containing Basic Header
     *              containing RHL field
     *                  indicating a value > 1
     *          containing DestinationArea
     *              indicating the TARGET_GEOAREA
     *      }
     *      then {
     *          EUT1 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating the EUT2 address
     *      }
     *      when {
     *          EUT2 receives the GBC packet from EUT1
     *      }
     *      then {
     *          EUT2 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating the EUT4 address
     *              and EUT3 does not receive the GBC packet from EUT1
     *      }
     *      when {
     *          EUT4 receives the GBC packet from EUT2
     *              containing Basic Header
     *              containing RHL field
     *                  indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *      }
     *      then {
     *          EUT4 provides the DEN message to upper layers 
     *          and EUT4 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *              containing the DEN message
     *              encapsulated in a LL packet 
     *                  containing a destination MAC address
     *                      indicating broadcast address
     *      }
     *      when {
     *      EUT2 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT2 discards the GBC packet
     *      }
     *      when {
     *          EUT3 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT3 discards the GBC packet
     *      }
     *  }
     * </pre>
     *
     * @see         Draft ETSI TS yyy xxx-2 V0.0.8 (2017-03) TD_AUTO_IOT_DENM_MFW_BV_02
     * @reference   ETSI EN 302 636-4-1 Clauses D & E2
     */
    testcase TC_AUTO_IOT_DENM_MFW_BV_02() runs on ItsMtc system ItsAutoInteropGeoNetworkingSystem {
        
        // Local variables
        var ItsAutoInteropGeonetworking v_eut1 := null;
        var ItsAutoInteropGeonetworking v_eut2 := null;
        var ItsAutoInteropGeonetworking v_eut3 := null;
        var ItsAutoInteropGeonetworking v_eut4 := null;
        
        // Test control
        /*if (not PICS_GN_LS_FWD) {
            log("*** " & testcasename() & ": PICS_GN_LS_FWD required for executing the TC ***");
            setverdict(inconc);
            stop;
        }*/
        
        // Test component configuration
        f_mtcCf01Up(v_eut1, v_eut2, v_eut3, v_eut4);
        
        // Preamble
        
        // Start components
        v_eut1.start(f_TC_AUTO_IOT_DENM_MFW_BV_02_eut1(v_eut1, PX_EUT1_ID));
        v_eut2.start(f_TC_AUTO_IOT_DENM_MFW_BV_02_eut2(v_eut2, PX_EUT2_ID));
        v_eut3.start(f_TC_AUTO_IOT_DENM_MFW_BV_02_eut3(v_eut3, PX_EUT3_ID));
        v_eut4.start(f_TC_AUTO_IOT_DENM_MFW_BV_02_eut4(v_eut4, PX_EUT4_ID));
        
        // Synchronization
        f_serverSyncNClientsAndStop(4, {c_prDone, c_tbDone});
        
        // Cleanup
        f_mtcCf01Down(v_eut1, v_eut2, v_eut3, v_eut4);
        
    } // End of TC_AUTO_IOT_DENM_MFW_BV_02
    
    group g_TC_AUTO_IOT_DENM_MFW_BV_02 {
        
 
        
        /**
         * @desc    Behavior function for EUT1 (TC_AUTO_IOT_DENM_MFW_BV_02)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_02_eut1(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            tc_ac.start;
            alt {
                [] eutGeoNetworkingPort.receive( // EUT1 is requested to send DEN message
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB, 
                                mw_denm_stationId(
                                    PX_EUT_DESC[p_eut_id].stationId
                         ))),
                         PX_EUT_DESC[PX_EUT2_ID].ll_mac_address
                )) { //  Receives the triggered DENM message
                    tc_ac.stop;
                    log("*** " & testcasename() & ": INFO: EUT1 sends a GBC packet ***");
                    f_selfOrClientSyncAndVerdict(c_prDone, e_success);
                }
                [] tc_ac.timeout {
                    log("*** " & testcasename() & ": INCONC: EUT1 does not send the requested DEN message ***");
                    f_selfOrClientSyncAndVerdict(c_prDone, e_timeout);
                }
            } // End of 'alt' statement
            
            // Test Body
            tc_wait.start;
            alt {
                [] eutGeoNetworkingPort.receive( // EUT1 shall not receive any more DEN messages
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId(
                                    ? // FIXME complement(PX_EUT_DESC[p_eut_id].stationId)
                         ))),
                         ?
                )) { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": FAIL: Unexpected DEN message received ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, CBF) succeed ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
                }
            } // End of 'alt' statement
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_02_eut1
        
        /**
         * @desc    Behavior function for EUT2 (TC_AUTO_IOT_DENM_MFW_BV_02)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_02_eut2(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT2 receives the GBC packet from EUT1
                    mw_eutGeoNwInd(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB,
                                mw_denm_stationId(
                                    PX_EUT_DESC[PX_EUT1_ID].stationId
                ))))) -> value v_eutGeoNw {
                    // Now, we have to check for EUT4 to broadcast the DENM message
                    repeat;
                }
                [] eutGeoNetworkingPort.receive( // EUT2 receives the GBC packet from EUT4
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId(
                                    PX_EUT_DESC[PX_EUT4_ID].stationId
                         ))),
                         c_llBroadcast
                )) -> value v_eutGeoNw { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": INFO: EUT2 receives the GBC packet from EUT4 ***");
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, CBF) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT2 discards the GBC packet
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": INCONC: Forwarding message scenario (GREEDY, GREEDY, CBF) is incomplete ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            else {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, CBF) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_02_eut2
        
        /**
         * @desc    Behavior function for EUT3 (TC_AUTO_IOT_DENM_MFW_BV_02)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_02_eut3(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT3 receives the GBC packet from EUT4
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                ?,
                                e_btpB, 
                                mw_denm_stationId
                         )),
                         ?
                )) -> value v_eutGeoNw { 
                    tc_wait.stop;
                    log("*** " & testcasename() & ": INFO: EUT3 received DEN message from EUT ", v_eutGeoNw.msg.gnPacket.packet.extendedHeader.tsbHeader.srcPosVector.gnAddr.mid, " ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, CBF) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT3 discards the GBC packet
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": INCONC: Forwarding message scenario (GREEDY, GREEDY, CBF) is incomplete ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            else {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, CBF) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_02_eut3
        
        /**
         * @desc    Behavior function for EUT4 (TC_AUTO_IOT_DENM_MFW_BV_02)
         */
        function f_TC_AUTO_IOT_DENM_MFW_BV_02_eut4(
                                                   in ItsAutoInteropGeonetworking p_eut, 
                                                   in integer p_eut_id
        ) runs on ItsAutoInteropGeonetworking {
            
            // Local variables
            var EutGeoNetworking v_eutGeoNw;
            
            // Test component configuration
            f_cfPtcUp(p_eut);
            
            // Preamble
            f_prDefault();
            f_selfOrClientSyncAndVerdict(c_prDone, e_success);
            
            // Test Body
            tc_wait.start;
             alt {
                [] eutGeoNetworkingPort.receive( // EUT4 receives the GBC packet from EUT2
                    mw_eutGeoNwInd_withLinkLayerDestination(
                        mw_geoNwPdu(
                            mw_geoNwTsbPacketWithNextHeader_denm(
                                ?,
                                mw_longPosVector_targetArea(
                                    PICS_TARGET_GEOAREA.latitude,
                                    PICS_TARGET_GEOAREA.longitude
                                ),
                                e_btpB,
                                mw_denm_stationId
                         )),
                         PX_EUT_DESC[p_eut_id].ll_mac_address
                )) -> value v_eutGeoNw { // Receive a DEN message from EUT2
                    tc_wait.stop;
                    // Now check that EUT4 brodcasts the DENM message
                    log("*** " & testcasename() & ": INFO: EUT4 receives the GBC packet from EUT2 ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
                }
                [] tc_wait.timeout {
                    log("*** " & testcasename() & ": FAIL: Forwarding message scenario (GREEDY, GREEDY, GREEDY) is incomplete ***");
                    f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
                }
            } // End of 'alt' statement
            // EUT4 provides the DEN message to upper layers 
            f_sleep(PX_TNOAC);
            if(0 < lengthof(vc_utInds)) {
                log("*** " & testcasename() & ": PASS: Forwarding message scenario (GREEDY, GREEDY, CBF) is succeed ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
            }
            else {
                log("*** " & testcasename() & ": INCONC: EUT4 does not provide the DEN message to upper layers ***");
                f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
            }
            
            // Postamble
            f_poDefault();
            f_cfPtcDown(p_eut);
            
        } // End of f_TC_AUTO_IOT_DENM_MFW_BV_02_eut4
        
    } // End of group g_TC_AUTO_IOT_DENM_MFW_BV_02
    
   /**
     * @desc    Verify complete forwarding message scenario (GREEDY, CBF, GREEDY) 
     * <pre>
     * Pics Selection: 
     * Config Id: CF-01
     * Initial conditions:
     *  with {
     *      itsGnNonAreaForwardingAlgorithm of EUT1 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT2 set to CBF
     *      itsGnNonAreaForwardingAlgorithm of EUT3 set to GREEDY
     *      itsGnNonAreaForwardingAlgorithm of EUT4 is SIMPLE
     *  }
     * Expected behaviour:
     *  ensure that {
     *      when {
     *          EUT1 is requested to send DEN message
     *              encapsulated in a GBC packet
     *          containing Basic Header
     *              containing RHL field
     *                  indicating a value > 1
     *          containing DestinationArea
     *              indicating the TARGET_GEOAREA
     *      }
     *      then {
     *          EUT1 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating the EUT2 address
     *      }
     *      when {
     *          EUT2 receives the GBC packet from EUT1
     *      }
     *      then {
     *          EUT2 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *              encapsulated in a LL packet
     *                  containing a destination MAC address
     *                      indicating broadcast address
     *      }
     *      when {
     *          EUT1 receives the GBC packet from EUT2
     *      }
     *      then {
     *          EUT1 discards the GBC packet
     *      }
     *      when {
     *          EUT4 receives the GBC packet from EUT2
     *              containing Basic Header
     *              containing RHL field
     *                  indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *      }
     *      then {
     *          EUT4 provides the DEN message to upper layers 
     *          and EUT4 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *              containing the DEN message
     *              encapsulated in a LL packet 
     *                  containing a destination MAC address
     *                      indicating broadcast address
     *      }
     *      when {
     *          EUT3 received the GBC packet from EUT2
     *              containing Basic Header
     *              containing RHL field
     *                  indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *                  containing the DEN message
     *      }
     *      then {
     *          EUT3 sends a GBC packet
     *              containing Basic Header
     *                  containing RHL field
     *                      indicating value decreased by 1
     *              containing DestinationArea
     *                  indicating the TARGET_GEOAREA
     *              containing Payload
     *              containing the DEN message
     *              encapsulated in a LL packet 
     *                  containing a destination MAC address
     *                      indicating EUT4 address
     *      }
     *      when {
     *          EUT4 receives the GBC packet from EUT3
     *      }
     *      then {
     *          EUT4 discards the GBC packet (duplicated)
     *      }
     *      when {
     *          EUT3 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT3 discards the GBC packet
     *      }
     *      when {
     *          EUT2 receives the GBC packet from EUT4
     *      }
     *      then {
     *          EUT2 discards the GBC packet
     *      }
     *  }
     * </pre>
     *
     * @see         Draft ETSI TS yyy xxx-2 V0.0.8 (2017-03) TD_AUTO_IOT_DENM_MFW_BV_03
     * @reference   ETSI EN 302 636-4-1 Clauses D & E2
     */
    testcase TC_AUTO_IOT_DENM_MFW_BV_03() runs on ItsMtc system ItsAutoInteropGeoNetworkingSystem {
        
        // Local variables
        var ItsAutoInteropGeonetworking v_eut1 := null;
        var ItsAutoInteropGeonetworking v_eut2 := null;
        var ItsAutoInteropGeonetworking v_eut3 := null;
        var ItsAutoInteropGeonetworking v_eut4 := null;
        
        // Test control
        /*if (not PICS_GN_LS_FWD) {
            log("*** " & testcasename() & ": PICS_GN_LS_FWD required for executing the TC ***");
            setverdict(inconc);
            stop;
        }*/
        
        // Test component configuration
        f_mtcCf01Up(v_eut1, v_eut2, v_eut3, v_eut4);
        
        // Preamble
        
        // Start components
        v_eut1.start(f_TC_AUTO_IOT_DENM_MFW_BV_03_eut1(v_eut1, PX_EUT1_ID));
        v_eut2.start(f_TC_AUTO_IOT_DENM_MFW_BV_03_eut2(v_eut2, PX_EUT2_ID));
        v_eut3.start(f_TC_AUTO_IOT_DENM_MFW_BV_03_eut3(v_eut3, PX_EUT3_ID));
        v_eut4.start(f_TC_AUTO_IOT_DENM_MFW_BV_03_eut4(v_eut4, PX_EUT4_ID));
        
        // Synchronization
        f_serverSyncNClientsAndStop(4, {c_prDone, c_tbDone});
        
        // Cleanup