ItsIpv6OverGeoNetworking_TestCases.ttcn

/**
 *  @author   ETSI / STF405 / STF449
 *  @version  $URL$
 *            $Id$
 *  @desc     Testcases for IPv6 over GeoNetworking Protocol (TP version: 0.0.4)
 *
 */
module ItsIpv6OverGeoNetworking_TestCases {
    
    // LibCommon
    import from LibCommon_BasicTypesAndValues all;
    import from LibCommon_Sync all;
    import from LibCommon_Time all;
    import from LibCommon_VerdictControl all;
    import from LibCommon_Time {modulepar all;}
    
    // LibIts
    import from LibItsGeoNetworking_Functions all; 
    import from LibItsGeoNetworking_Templates all;
    import from LibItsGeoNetworking_TypesAndValues all;
    import from LibItsIpv6OverGeoNetworking_TestSystem all;
    import from LibItsIpv6OverGeoNetworking_Functions all; 
    import from LibItsIpv6OverGeoNetworking_Templates all; 
    import from LibItsIpv6OverGeoNetworking_TypesAndValues all;
    import from LibItsIpv6OverGeoNetworking_Pixits all;
    import from LibItsIpv6OverGeoNetworking_Pics all;
    import from LibItsExternal_TypesAndValues all;
    
    //5.2.1
    group messageGeneration {
        
        //5.2.1.1
        group mgGvl {
            
            /**
             * @desc    Checks that an IPv6 link-local multicast message is carried out over a GeoBroadcast message 
             *          into the correct geographical area, when send over an SVGL
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured SGVL(SGVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with SGVL1 to send link-local multicast packets
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPv6 packet from the Upper Layer
             *              containing destination address
             *                  indicating a link-local multicast IPv6 address
             *      }
             *      then {
             *          the IUT sends a valid GeoNetworking GeoBroadcast message
             *              containing the geographical Destination area corresponding to SGVL1
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '4'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/GVL/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 9.2.1
             */
            testcase TC_IPV6GEO_MG_GVL_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var AddressTableEntry v_addressesIut;
                var AddressTableEntry v_addressesNodeB;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_addressesNodeB := f_getAddresses(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1});
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesIut.lla, 
                                    v_addressesNodeB.solNodeMca, 
                                    c_noNextHdr, 
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getGvlInterface(c_gvl1),
                        v_addressesIut.macAddress,
                        v_addressesNodeB.macSolNodeMca,
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwBroadcastPacketWithAreaWithNextHeader(
                                        v_longPosVectorIut,
                                        ?,
                                        f_getGeoBroadcastArea(vc_gvlTable[c_gvl1].area),
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoBroadcast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_GVL_BV_01
            
            /**
             * @desc    Checks that an IPv6 global-scoped unicast-prefix-based multicast message is carried out over 
             *          a GeoBroadcast message into the correct geographical area, when sent over an SGVL 
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured SGVL (SGVL1)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPv6 packet from the Upper Layer
             *              containing destination address
             *                  containing a global-scoped unicast-prefix-based multicast IPv6 address
             *                      indicating prefix associated with SGVL1
             *      }
             *      then {
             *          the IUT sends a valid GeoNetworking GeoBroadcast message
             *              containing the geographical Destination area corresponding to SGVL1
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '4'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/GVL/BV/02
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 9.2.1
             */
            testcase TC_IPV6GEO_MG_GVL_BV_02() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var AddressTableEntry v_addressesIut;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1});
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesIut.lla,
                                    f_computeGlobalScopedUnicastPrefixBasedMulticastIpv6Address(
                                        f_getPrefix(1),
                                        f_getPrefixLength(1),
                                        1
                                    ),
                                    c_noNextHdr,
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getGvlInterface(c_gvl1),
                        v_addressesIut.macAddress,
                        c_macBroadcastAddr,
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwBroadcastPacketWithAreaWithNextHeader(
                                        v_longPosVectorIut,
                                        ?,
                                        f_getGeoBroadcastArea(vc_gvlTable[c_gvl1].area),
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoBroadcast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_GVL_BV_02
            
            /**
             * @desc    Checks that an IPv6 Geographic anycast message is carried out over a GeoAnycast message 
             *          into the correct geographical area, when send over an SVGL
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured SGVL (SGVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with SGVL1 GVL1 to send Geographic anycast packets
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating a Geographic anycast IPv6 address
             *      }
             *      then {
             *          the IUT sends a valid GeoNetworking GeoAnycast message
             *              containing the geographical Destination area corresponding to SGVL1
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '3'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/GVL/BV/03
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 9.4
             */
            testcase TC_IPV6GEO_MG_GVL_BV_03() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var AddressTableEntry v_addressesIut;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1});
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl1].prefix, vc_gvlTable[c_gvl1].prefixLength),
                                    f_computeGeographicAnycastIpv6Address(
                                        f_getPrefix(1),
                                        f_getPrefixLength(1)
                                    ),
                                    c_noNextHdr, 
                                    omit
                                );
                                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getGvlInterface(c_gvl1),
                        v_addressesIut.macAddress,
                        c_macBroadcastAddr,
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwAnycastPacketWithAreaWithNextHeader(
                                        v_longPosVectorIut,
                                        ?,
                                        f_getGeoAnycastArea(vc_gvlTable[c_gvl1].area),
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoAnycast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_GVL_BV_03
            
            /**
             * @desc    Checks that an IPv6 unicast message is carried out over a GeoUnicast when using an SGVL 
             *          associated to an Ethernet V2.0/IEEE 802.3 LAN type virtual interface with address resolution
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured SGVL (SGVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with SGVL1
             *      the IUT being configured with MIB attribute itsgn6aslVIResolAddr set to true
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating unicast IPv6 address of the Tester
             *      }
             *      then {
             *          the IUT sends a valid GeoUnicast message
             *              containing DEPV field
             *                  containing GN_ADDR field
             *                      indicating value derived from the unicast IPv6 address IID
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '2'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/GVL/BV/04
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 10.3
             */
            testcase TC_IPV6GEO_MG_GVL_BV_04() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                if(PICS_GN6_ASL_VI_RESOL_ADDR != true) {
                    log("*** " & testcasename() & ": ERROR: PICS_GN6_ASL_VI_RESOL_ADDR == true required for executing the TC ***");
                    stop;
                }
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1});
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl1].prefix, vc_gvlTable[c_gvl1].prefixLength),
                                    f_computeGlobalAddress(c_compNodeA, vc_gvlTable[c_gvl1].prefix, vc_gvlTable[c_gvl1].prefixLength),
                                    c_noNextHdr, 
                                    omit
                                );
                                                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getGvlInterface(c_gvl1),
                        v_addressesIut.macAddress,
                        f_gnAddr2MacAddr(f_getPosition(c_compNodeB).gnAddr), // On purpose: IUT should not use this value
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        mw_shortPosVectorPosition(f_longPosVector2ShortPosVector(v_longPosVectorNodeA)), // On purpose: IUT should derive this value fron IPv6 address
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        ?, 
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": FAIL: Received incorrect GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_GVL_BV_04
            
            /**
             * @desc    Checks that an IPv6 unicast message is carried out over a GeoUnicast when using an SGVL 
             *          associated to an Ethernet V2.0/IEEE 802.3 LAN type virtual interface without address 
             *          resolution
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured SGVL (SGVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with SGVL1
             *      the IUT being configured with MIB attribute itsgn6aslVIResolAddr set to false
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating unicast IPv6 address of the Tester
             *      }
             *      then {
             *          the IUT sends a valid GeoUnicast message
             *              containing DEPV field
             *                  containing GN_ADDR field
             *                      indicating value derived from the GN6_SAP destination parameter
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '2'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/GVL/BV/05
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 10.3
             */
            testcase TC_IPV6GEO_MG_GVL_BV_05() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var LongPosVector v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeB;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                if(PICS_GN6_ASL_VI_RESOL_ADDR != false) {
                    log("*** " & testcasename() & ": ERROR: PICS_GN6_ASL_VI_RESOL_ADDR == false required for executing the TC ***");
                    stop;
                }
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeB := f_getAddresses(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1});
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl1].prefix, vc_gvlTable[c_gvl1].prefixLength),
                                    f_computeGlobalAddress(c_compNodeA, vc_gvlTable[c_gvl1].prefix, vc_gvlTable[c_gvl1].prefixLength),
                                    c_noNextHdr, 
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getGvlInterface(c_gvl1),
                        v_addressesIut.macAddress,
                        v_addressesNodeB.macAddress, // On purpose: IUT must use this value
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        mw_shortPosVectorPosition(f_longPosVector2ShortPosVector(v_longPosVectorNodeB)), // On purpose: IUT should derive this value from SAP dest mac 
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        ?, 
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": FAIL: Received incorrect GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_GVL_BV_05
            
        } // end mgGvl
        
        // 5.2.1.2
        group mgTvl {
            
            /**
             * @desc    Checks that an IPv6 unicast message is carried out over a GeoUnicast when using a TVL 
             *          virtual interface with address resolution
             * <pre>    
             * Pics Selection: PICS_TVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured TVL (TVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with TVL1
             *      the IUT being configured with MIB attribute itsgn6aslVIResolAddr set to true
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating unicast IPv6 address of the Tester
             *      }
             *      then {
             *          the IUT sends a valid GeoUnicast message
             *              containing DEPV field
             *                  containing GN_ADDR field
             *                      indicating value derived from the unicast IPv6 address IID
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '2'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/TVL/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1
             */
            testcase TC_IPV6GEO_MG_TVL_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var LongPosVector v_longPosVectorNodeA, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA, v_addressesNodeB;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                if(PICS_GN6_ASL_VI_RESOL_ADDR != true) {
                    log("*** " & testcasename() & ": ERROR: PICS_GN6_ASL_VI_RESOL_ADDR == true required for executing the TC ***");
                    stop;
                }
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeB := f_getAddresses(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                f_acUpdateInterfaces();
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesIut.lla,
                                    v_addressesNodeB.lla,
                                    c_noNextHdr, 
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getTvlInterface(),
                        v_addressesIut.macAddress,
                        f_gnAddr2MacAddr(f_getPosition(c_compNodeA).gnAddr), // On purpose: IUT should not use this value
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        mw_shortPosVectorPosition(f_longPosVector2ShortPosVector(v_longPosVectorNodeB)), // On purpose: IUT should derive this value fron IPv6 address
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        ?,
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": FAIL: Received incorrect GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_TVL_BV_01
            
            /**
             * @desc    Checks that an IPv6 unicast message is carried out over a GeoUnicast when using a TVL 
             *          virtual interface without address resolution
             * <pre>    
             * Pics Selection: PICS_TVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured TVL (TVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with TVL1
             *      the IUT being configured with MIB attribute itsgn6aslVIResolAddr set to false
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating unicast IPv6 address of the Tester
             *      }
             *      then {
             *          the IUT sends a valid GeoUnicast message
             *              containing DEPV field
             *                  containing GN_ADDR field
             *                      indicating value derived from the GN6_SAP destination parameter
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '2'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/TVL/BV/02
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1
             */
            testcase TC_IPV6GEO_MG_TVL_BV_02() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var LongPosVector v_longPosVectorNodeA;
                var LongPosVector v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                if(PICS_GN6_ASL_VI_RESOL_ADDR != false) {
                    log("*** " & testcasename() & ": ERROR: PICS_GN6_ASL_VI_RESOL_ADDR == false required for executing the TC ***");
                    stop;
                }
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                f_acUpdateInterfaces();
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesIut.lla,
                                    v_addressesNodeA.lla,
                                    c_noNextHdr, 
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getTvlInterface(),
                        v_addressesIut.macAddress,
                        f_getAddresses(c_compNodeB).macAddress, // On purpose: IUT must use this value
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        mw_shortPosVectorPosition(f_longPosVector2ShortPosVector(v_longPosVectorNodeB)), // On purpose: IUT should derive this value from SAP dest mac 
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwUnicastPacketWithNextHeader(
                                        ?, 
                                        ?,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": FAIL: Received incorrect GeoNetworking GeoUnicast ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_TVL_BV_02
            
            /**
             * @desc    Checks that an IPv6 link-local multicast message is carried out over a GeoBroadcast message 
             *          into the correct geographical area, when sent over a TVL 
             * <pre>    
             * Pics Selection: PICS_TVL
             * Initial conditions: 
             *  with {
             *      the IUT having a configured TVL (TVL1)
             *      the IUT's Upper Layer being configured to use the virtual interface associated with TVL1 to send link-local multicast packets
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives an IPV6 packet from the Upper Layer
             *              containing destination address
             *                  indicating link-local multicast IPv6 address
             *      }
             *      then {
             *          the IUT sends a valid GeoNetworking TSB message
             *              containing NH field
             *                  indicating value '3'
             *              containing HT field
             *                  indicating value '5'
             *              carrying the IPv6 packet received from Upper Layer as payload
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MG/TVL/BV/03
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.1 and 9.2.1
             */
            testcase TC_IPV6GEO_MG_TVL_BV_03() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var template (present) LongPosVector v_longPosVectorIut;
                var LongPosVector v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeB;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                if(PICS_GN6_ASL_VI_RESOL_ADDR != true) {
                    log("*** " & testcasename() & ": ERROR: PICS_GN6_ASL_VI_RESOL_ADDR == true required for executing the TC ***");
                    stop;
                }
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := mw_longPosVectorPosition(f_getPosition(c_compIut));
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeB := f_getAddresses(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                f_acUpdateInterfaces();
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesIut.lla,
                                    v_addressesNodeB.solNodeMca,
                                    c_noNextHdr, 
                                    omit
                                );
                
                ipv6OverGeoNetworkingPort.send(
                    m_ipv6OverGeoNwReq(
                        f_getTvlInterface(),
                        v_addressesIut.macAddress,
                        f_gnAddr2MacAddr(f_getPosition(c_compNodeB).gnAddr),
                        v_ipv6Packet
                    )
                );
                
                tc_ac.start;
                alt {
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwTsbPacketWithNextHeader(
                                        ?,
                                        v_longPosVectorIut,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct GeoNetworking TSB ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] geoNetworkingPort.receive(
                        f_receiveGeoNetMessageWithPayload(
                            mw_geoNwInd(
                                mw_geoNwPdu(
                                    mw_geoNwTsbPacketWithNextHeader(
                                        ?,
                                        v_longPosVectorIut,
                                        e_ipv6
                                    )
                                )
                            ),
                            mw_ipv6Payload(v_ipv6Packet)
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": FAIL: Received incorrect GeoNetworking TSB ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MG_TVL_BV_03
            
        } // end mgTvl
        
    } // end group messageGeneration
    
    //5.2.2
    group messageReception {
        
        //5.2.2.1
        group mrGvl {
            
            /**
             * @desc    Checks handling of a received GeoBroadcast message containing an 
             *          IPv6 packet, which has destination area corresponding to an existing SGVL 
             *          of the IUT
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVL (SGVL1)
             *      the IUT having configured SGVLs (SGVL2..SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoBroadcast message
             *              containing Destination Area parameters corresponding to SGVL1
             *              containing payload 
             *                  indicating an IPv6 packet
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to GVL1 an Ethernet packet
             *              containing Destination MAC address
             *                  indicating the broadcast value
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesIut.lla, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl1].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl1),
                            v_addressesNodeA.macAddress, // FIXME check where this comes from (verify TP)
                            c_llBroadcast,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }   
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                     
            } // end TC_IPV6GEO_MR_GVL_BV_01
            
            /**
             * @desc    Checks handling of a received GeoBroadcast message containing an IPv6 
             *          packet no carrying a Router Advertisement, which has destination area not corresponding to 
             *          any existing SGVL of the IUT
             * <pre>    
             * Pics Selection: PICS_SGVL and PICS_DGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *      the IUT having configured DGVL (DGVL1)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoBroadcast message
             *              containing Destination Area parameters not corresponding to any GVLs
             *              containing payload 
             *                  containing an IPv6 packet
             *                      not containing an ICMPv6 RA message
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to DGVL1 an Ethernet packet
             *              containing Destination MAC address
             *                  indicating the broadcast value
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/02
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_02() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                // No Router Advertisement for gvl2
                f_prConfigureGVL({c_gvl1});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesIut.solNodeMca, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl2].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            complement (f_getGvlInterface(c_gvl1), f_getGvlInterface(c_gvl2)),
                            v_addressesNodeA.macAddress,
                            c_llBroadcast,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }   
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                     
            } // end TC_IPV6GEO_MR_GVL_BV_02
            
            /**
             * @desc    Checks handling of a received GeoAnycast message containing an IPv6 packet, which 
             *          has destination area corresponding to an existing SGVL of the IUT
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoAnycast message
             *              containing Destination Area parameters corresponding to SGVL1
             *              containing payload 
             *                  indicating an IPv6 packet
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to SGVL1 an Ethernet packet
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6 
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/03
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_03() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesIut.solNodeMca, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwAnycastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoAnycastArea(vc_gvlTable[c_gvl1].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl1),
                            v_addressesNodeA.macAddress,
                            ?, 
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_03
            
            /**
             * @desc    Checks handling of a received GeoAnycast message containing an IPv6 packet, which 
             *          has destination area not corresponding to any existing GVL of the IUT
             * <pre>    
             * Pics Selection: PICS_SGVL and PICS_DGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured GVLs (GVL1 .. GVLx)
             *      the IUT having configured DGVL (DGVL1)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoAnycast message
             *              containing Destination Area parameters not corresponding to any SGVLs and
             *               containing payload 
             *                   indicating an IPv6 packet
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to DGVL1 an Ethernet packet
             *              containing Destination MAC address
             *                  indicating the broadcast value
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/04
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_04() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                // No Router Advertisement for gvl_1
                f_prConfigureGVL({c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesIut.lla, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl1].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            complement (f_getGvlInterface(c_gvl1), f_getGvlInterface(c_gvl2)),
                            v_addressesNodeA.macAddress,
                            c_llBroadcast, 
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_04
            
            /**
             * @desc    Checks handling of a received GeoBroadcast message containing an
             *          IPv6 packet carrying a Router Advertisement, which has destination area not corresponding to 
             *          any existing SGVL of the IUT
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoBroadcast message
             *              containing Destination Area parameters not corresponding to any SGVLs
             *                  containing an IPv6 packet
             *                      indicating an ICMPv6 RA message
             *      }
             *      then {
             *          the IUT creates a new SGVL and a new virtual interface associated to it 
             *          the IUT transmits on the virtual interface associated to the new GVL an Ethernet packet
             *              containing Destination MAC address
             *                  indicating '33:33:00:00:00:01'
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/05
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_05() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                //gvl3 handled later
                f_prConfigureGVL({c_gvl1, c_gvl2});
                                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    c_allNodesMca, 
                                    c_icmpHdr,
                                    m_rtAdvWithOptions(
                                        m_rtAdvOpt_prefixOpt(
                                            vc_gvlTable[c_gvl3].prefixLength,
                                            c_lFlag1,
                                            c_aFlag1,
                                            c_validLifetime30s,
                                            c_preferredLifetime30s,
                                            vc_gvlTable[c_gvl3].prefix
                                        )
                                    )
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl3].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                f_sleep(PX_T_BUILD_CONFIG);
                f_acUpdateInterfaces();
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl3),
                            v_addressesNodeA.macAddress,
                            c_macBroadcastAddr,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_05
            
            /**
             * @desc    Checks handling of a received GeoUnicast message, containing an IPv6 packet with 
             *          destination address matching one and only one address associated to a 
             *          virtual interface of the IUT
             * <pre>
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoUnicast message
             *              containing an IPv6 packet 
             *                  containing address associated to one SGVL (SGVLy)
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to SGVLy an Ethernet packet
             *              containing Destination MAC address
             *                  indicating a value derived from the Destination GN_ADDR field
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/06
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_06() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeA, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesIut.lla, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwUnicastPacket(
                                v_longPosVectorNodeA,
                                f_longPosVector2ShortPosVector(v_longPosVectorIut),
                                vc_localSeqNumber
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl2),
                            v_addressesNodeA.macAddress,
                            v_addressesIut.macAddress,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_06
            
            /**
             * @desc    Checks handling of a received GeoUnicast message, containing an 
             *          IPv6 packet with destination address not matching addresses associated to IUT's SGVLs and 
             *          with SOPV contained in one and only one geoArea associated to IUT's SGVLs
             * <pre>
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoUnicast message
             *              containing payload
             *                  containing an IPv6 packet
             *                      containing a destination address
             *                          indicating address not associated to any GVL
             *              containing Source position coordinates only contained in GVLy
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to GVLy an Ethernet packet
             *              containing Destination MAC address
             *                  indicating a value derived from the Destination GN_ADDR field
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/07
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            //TODO check the used addresses!!!
            testcase TC_IPV6GEO_MR_GVL_BV_07() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeA, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA, v_addressesNodeB;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeB := f_getAddresses(c_compNodeB);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    v_addressesNodeB.lla, 
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwUnicastPacket(
                                v_longPosVectorNodeB,
                                f_longPosVector2ShortPosVector(v_longPosVectorIut),
                                vc_localSeqNumber
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl3),
                            v_addressesNodeA.macAddress,
                            v_addressesNodeB.macAddress,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_07
            
            /**
             * @desc    Checks handling of a received GeoUnicast message, containing an IPv6 packet with 
             *          destination address not matching addresses associated to IUT's GVLs and with SOPV not 
             *          contained in any geoArea associated to IUT's GVLs
             * <pre>    
             * Pics Selection: PICS_SGVL and PICS_DGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *      the IUT having configured DGVL (DGVL1)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoUnicast message
             *              containing payload
             *                  containing an IPv6 packet
             *                      containing a destination address
             *                          indicating address not associated to any GVL
             *              containing Source position coordinates not contained in any GVL
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to DGVL an Ethernet packet
             *              containing Destination MAC address
             *                  indicating a value derived from the Destination GN_ADDR field
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/08
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_08() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                                
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compNodeA, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwUnicastPacket(
                                v_longPosVectorNodeB,
                                f_longPosVector2ShortPosVector(v_longPosVectorIut),
                                vc_localSeqNumber
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            complement (f_getGvlInterface(c_gvl1), f_getGvlInterface(c_gvl2)),
                            v_addressesNodeA.macAddress,
                            v_addressesIut.macAddress,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_08
            
            /**
             * @desc    Checks handling of a received GeoUnicast message, containing an IPv6 packet with 
             *          destination address not matching addresses associated to IUT's SGVLs and with SOPV 
             *          contained in more than one geoArea associated to IUT's SGVLs and with IPv6 source 
             *          address considered to be on-link on at least one of those SGVLs
             * <pre>    
             * Pics Selection: PICS_SGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *      GVLb invalidation timer being higher than SGVLa and SGVLc invalidation timers
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoUnicast message
             *              containing payload
             *                  containing an IPv6 packet
             *                      containing a destination address
             *                          indicating address not associated to any SGVL
             *              containing Source position coordinates contained in SGVLa, SGVLb and SGVLc
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to SGVLb an Ethernet packet
             *              containing Destination MAC address
             *                  indicating a value derived from the Destination GN_ADDR field
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/09
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            //TODO check the used addresses!!!
            testcase TC_IPV6GEO_MR_GVL_BV_09() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2, c_gvl3}, {c_validLifetime20s, c_validLifetime30s, c_validLifetime20s});
                
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compNodeA, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwUnicastPacket(
                                v_longPosVectorNodeB,
                                f_longPosVector2ShortPosVector(v_longPosVectorIut),
                                vc_localSeqNumber
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getGvlInterface(c_gvl2),
                            v_addressesNodeA.macAddress,
                            v_addressesIut.macAddress,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_09
            
            /**
             * @desc    Checks handling of a received GeoUnicast message, containing an IPv6 packet with 
             *          destination address not matching addresses associated to IUT's SGVLs and with SOPV 
             *          contained in more than one geoArea associated to IUT's SGVLs and with IPv6 source 
             *          address not considered to be on-link on any of those SGVLs
             * <pre>    
             * Pics Selection: PICS_SGVL and PICS_DGVL
             * Initial conditions: 
             *  with {
             *      the IUT having configured SGVLs (SGVL1 .. SGVLx)
             *      the IUT having configured DGVLs (DGVL1)
             *      IPv6 address IPV6_SRC not considered to be on-link on SGVLa, SGVLb, and SGVLc
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoUnicast message
             *              containing payload
             *                  containing an IPv6 packet
             *                      containing a destination address
             *                          indicating address not associated to any SGVL
             *                      containing a source address IPV6_SRC
             *              containing Source position coordinates contained in SGVLa, SGVLb and SGVLc
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to DGVL1 an Ethernet packet
             *              containing Destination MAC address
             *                  indicating a value derived from the Destination GN_ADDR field
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/GVL/BV/10
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_GVL_BV_10() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeB;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeB := f_getPosition(c_compNodeB);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2, c_gvl3});
                
                v_ipv6Packet := m_ipv6Packet(
                                    f_computeGlobalAddress(c_compNodeA, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    f_computeGlobalAddress(c_compIut, vc_gvlTable[c_gvl2].prefix, vc_gvlTable[c_gvl2].prefixLength),
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwUnicastPacket(
                                v_longPosVectorNodeB,
                                f_longPosVector2ShortPosVector(v_longPosVectorIut),
                                vc_localSeqNumber
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            complement (f_getGvlInterface(c_gvl1), f_getGvlInterface(c_gvl2), f_getGvlInterface(c_gvl3)),
                            v_addressesNodeA.macAddress,
                            v_addressesIut.macAddress,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_GVL_BV_10
            
        } //end mrGvl
        
        // 5.2.2.2
        group mrTvl {
            
            /**
             * @desc    Checks handling of a received link-local IPv6 Unicast message, when using a TVL associated 
             *          to an NBMA type virtual interface
             * <pre>    
             * Pics Selection: PICS_TLV
             * Initial conditions: 
             *  with {
             *      the IUT having a configured TVL (TVL1)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a TSB message
             *              containing an IPv6 packet
             *      }
             *      then {
             *          the IUT transmits on the virtual interface associated to TVL1 an Ethernet packet
             *              containing Source MAC address
             *                  indicating a value derived from Source GN_ADDR field
             *              containing Ether Type value
             *                  indicating IPv6
             *              containing the IPv6 packet
             *      }
             *  }
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/MR/TVL/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_MR_TVL_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorIut, v_longPosVectorNodeA;
                var AddressTableEntry v_addressesIut, v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorIut := f_getPosition(c_compIut);
                v_addressesIut := f_getAddresses(c_compIut);
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                
                f_acUpdateInterfaces();
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla,
                                    v_addressesIut.lla,
                                    c_noNextHdr, 
                                    omit
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwTsbPacket(
                                vc_localSeqNumber,
                                v_longPosVectorIut
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                tc_ac.start;
                alt {
                  [] ipv6OverGeoNetworkingPort.receive(
                        mw_ipv6OverGeoNwInd(
                            f_getTvlInterface(),
                            v_addressesNodeA.macAddress,
                            ?,
                            v_ipv6Packet
                        )
                    )  {
                      tc_ac.stop;
                      log("*** " & testcasename() & ": PASS: Received correct Ethernet packet ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                  }
                  [] tc_ac.timeout {
                      log("*** " & testcasename() & ": INCONC: Expected message not received ***");
                      f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_timeout);
                  }
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_MR_TVL_BV_01
            
        } // end mrTvl
        
    } // end group messageReception
    
    group virtualInterfaceManagement {
        
        group newVirtualInterfaces {
            
            /**
             * @desc    Checks the Router Advertisement-triggered creation of a new SGVL associated to an Ethernet 
             *          V2.0/IEEE 802.3 LAN type virtual interface
             * <pre>    
             * Pics Selection: PICS_SGVL and PICS_Ethernet
             * Initial conditions: 
             *  with {
             *      the IUT having automatically configured SGVLs (SGVL1 .. SGVLx)
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          the IUT receives a GeoBroadcast message
             *              containing Destination Area parameters not corresponding to any GVLs
             *              containing an ICMPv6 RA payload 
             *      }
             *      then {
             *          the IUT creates a new SGVL and associates to it a new virtual interface (VI1)
             *              having a MAC address
             *                  indicating a value derived from the IUT's GN_ADDR (Note)
             *      }
             *  }
             * Note: reverse EUI-64 generation procedure
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/VM/NVI/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2, 10.2.1
             */
            testcase TC_IPV6GEO_VM_NVI_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                //gvl3 handled later
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    c_allNodesMca, 
                                    c_icmpHdr,
                                    m_rtAdvWithOptions(
                                        m_rtAdvOpt_prefixOpt(
                                            vc_gvlTable[c_gvl3].prefixLength,
                                            c_lFlag1,
                                            c_aFlag1,
                                            c_validLifetime30s,
                                            c_preferredLifetime30s,
                                            vc_gvlTable[c_gvl3].prefix
                                        )
                                    )
                                );
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl3].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                f_sleep(PX_T_BUILD_CONFIG);
                f_acUpdateInterfaces();
                
                if(f_getGvlInterface(c_gvl3) != "") {
                    log("*** " & testcasename() & ": PASS: Virtual interface created ***");
                    f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                }
                else {
                    log("*** " & testcasename() & ": FAIL: Virtual interface not created ***");
                    f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error);
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                     
            } // end TC_IPV6GEO_VM_NVI_BV_01
            
        } // end group newVirtualInterfaces
        
        group expiredVirtualInterfaces {
            
            /**
             * @desc    Checks the removal of an expired GVL and its associated virtual interface
             * <pre>
             * Pics Selection: PICS_SGVL and PICS_Ethernet
             * Initial conditions: 
             *  with {
             *      the IUT having configured a SGVL (SGVL1) derived from a received RA
             *  }
             * Expected behaviour:
             *  ensure that {
             *      when { 
             *          every prefix entry associated to SGVL1 has expired
             *      }
             *      then {
             *          the IUT removes the expired SGVL SGVL1
             *          the IUT removes the associated virtual interface VI1
             *      }
             *  }
             * Note: reverse EUI-64 generation procedure
             * </pre>
             * 
             * @see         ETSI TS 102 859-2 v2.1.1 TP/IPv6GEO/VM/EVI/BV/01
             * @reference   ETSI EN 302 636-6-1 clauses, 8.2.2
             */
            testcase TC_IPV6GEO_VM_EVI_BV_01() runs on ItsIpv6OverGeoNetworking system ItsIpv6OverGeoNetworkingSystem {
                
                // Local variables
                var LongPosVector v_longPosVectorNodeA;
                var AddressTableEntry v_addressesNodeA;
                var template (value) Ipv6Packet v_ipv6Packet;
                
                // Test control
                
                // Test component configuration
                f_cf01UpGn6();
                v_longPosVectorNodeA := f_getPosition(c_compNodeA);
                v_addressesNodeA := f_getAddresses(c_compNodeA);
                
                // Test adapter configuration
                
                // Preamble
                f_prIpv6Neighbour();
                f_prConfigureGVL({c_gvl1, c_gvl2});
                
                v_ipv6Packet := m_ipv6Packet(
                                    v_addressesNodeA.lla, 
                                    c_allNodesMca, 
                                    c_icmpHdr,
                                    m_rtAdvWithOptions(
                                        m_rtAdvOpt_prefixOpt(
                                            vc_gvlTable[c_gvl3].prefixLength,
                                            c_lFlag1,
                                            c_aFlag1,
                                            c_validLifetime30s,
                                            c_preferredLifetime30s,
                                            vc_gvlTable[c_gvl3].prefix
                                        )
                                    )
                                );
                                
                f_sendGeoNetMessageWithPayload(
                    m_geoNwReq_linkLayerBroadcast(
                        m_geoNwPdu(
                            m_geoNwBroadcastPacket(
                                v_longPosVectorNodeA,
                                vc_localSeqNumber,
                                f_getGeoBroadcastArea(vc_gvlTable[c_gvl3].area)
                            )
                        )
                    ),
                    m_ipv6Payload(v_ipv6Packet)
                );
                
                f_sleep(PX_T_BUILD_CONFIG);
                f_acUpdateInterfaces();
                
                if(f_getGvlInterface(c_gvl3) == "") {
                    log("*** " & testcasename() & ": INCONC: Virtual interface not created ***");
                    f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_error);
                }
                f_selfOrClientSyncAndVerdictPreamble(c_prDone, e_success);
                
                // Test Body
                f_sleep(int2float(c_validLifetime30s));
                f_acUpdateInterfaces();
                
                if(f_getGvlInterface(c_gvl3) == "") {
                    log("*** " & testcasename() & ": PASS: Virtual interface removed ***");
                    f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success); 
                }
                else {
                    log("*** " & testcasename() & ": FAIL: Virtual interface not removed ***");
                    f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_error);
                }
                
                // Postamble
                f_poIpv6Neighbour();
                f_cf01DownGn6();
                
            } // end TC_IPV6GEO_VM_EVI_BV_01
            
        } // end group expiredVirtualInterfaces
        
    } // end virtualInterfaceManagement
    
} // end ItsIpv6OverGeoNetworking_TestCases