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// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
// TODO
f_mtc_userCheckCallTerminated(v_ueA); // Event 21
f_mtc_userCheckCallCancelled(v_psap); // Event 20
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REL_02_02
group f_TD_VoLTE_ECO_INT_REL_02_02 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REL_02_02() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REL_02_02
} // End of group f_TD_VoLTE_ECO_INT_REL_02_02
/**
* @desc To perform originating PSAP session release and the tear down of related dedicated bearers.
* On call release initiated bye PSAP, the P-CSCF A should trigger the removal of all relevant previously created bearers
* @see ETSI TS 103 795-2 Clause 5.3.3.2 PSAP Initiated Emergency Session Release
* @remark This is option2: PSAP is in the same network
*/
testcase TD_VoLTE_ECO_INT_REL_02_03() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_REL_02_03();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
// TODO
f_mtc_userCheckCallTerminated(v_ueA); // Event 21
f_mtc_userCheckCallCancelled(v_psap); // Event 20
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REL_02_03
group f_TD_VoLTE_ECO_INT_REL_02_03 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REL_02_03() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REL_02_03
} // End of group f_TD_VoLTE_ECO_INT_REL_02_03
} // End of group EmergencySessionRelease
group EmergencySessionAbortOrReject {
/**
* @desc To perform SIP session abort (originating side) and the related interactions with PCRF A and EPC A.
* @see ETSI TS 103 795-2 Clause 5.3.4.1 Emergency Session Abort
* @remark This is option 1: PSAP is in IMS A network
*/
testcase TD_VoLTE_ECO_INT_ABT_01_01() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_MW_EB_INTERFACENAME, // E-CSCF -> IBCF
PX_SIP_MM_B_PSAP_INTERFACENAME // E-CSCCF -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_01();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
f_mtc_check_TP_GM_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 1
//Rx/Gx exchange after CANCEL was received at P-CSCF
f_mtc_check_TP_RX_PCSCF_STR_01(vc_vxlte_monitor_components.rx); // (STR – Event 2
f_mtc_check_TP_GX_PCRF_RAR_02(vc_vxlte_monitor_components.gx, true); // (RAR – Event 3)
f_mtc_check_TP_GX_PGW_RAA_03(vc_vxlte_monitor_components.gx); // (RAA – Event 4)
f_mtc_check_TP_RX_PCRF_STA_01(vc_vxlte_monitor_components.rx); // (STA – Event 5)
f_mtc_check_TP_MW_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 6
f_mtc_check_TP_MM_ECSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 7
f_mtc_check_TP_MW_PCSCF_ECO_200OK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 17
f_mtc_check_TP_GM_PCSCF_200OK_02(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 18
f_mtc_check_TP_MW_PCSCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 24
f_mtc_check_TP_GM_PCSCF_487INVITE_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 25
f_mtc_check_TP_GM_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 26
f_mtc_check_TP_MW_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 27
f_mtc_check_TP_MM_ECSCF_ECO_ACK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 28
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_ABT_01_01
group f_TD_VoLTE_ECO_INT_ABT_01_01 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_01() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_01
} // End of group f_TD_VoLTE_ECO_INT_ABT_01_01
/**
* @desc To perform SIP session abort (originating side) and the related interactions with PCRF A and EPC A.
* @see ETSI TS 103 795-2 Clause 5.3.4.1 Emergency Session Abort
* @remark This is option 1: PSAP is not in IMS A network
*/
testcase TD_VoLTE_ECO_INT_ABT_01_02() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_IC_INTERFACENAME // IBCF -> IMS -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_02();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
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f_mtc_check_TP_GM_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 1
//Rx/Gx exchange after CANCEL was received at P-CSCF
f_mtc_check_TP_RX_PCSCF_STR_01(vc_vxlte_monitor_components.rx); // (STR – Event 2
f_mtc_check_TP_GX_PCRF_RAR_02(vc_vxlte_monitor_components.gx, true); // (RAR – Event 3)
f_mtc_check_TP_GX_PGW_RAA_03(vc_vxlte_monitor_components.gx); // (RAA – Event 4)
f_mtc_check_TP_RX_PCRF_STA_01(vc_vxlte_monitor_components.rx); // (STA – Event 5)
f_mtc_check_TP_MW_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 6
f_mtc_check_TP_MW_IBCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 9
f_mtc_check_TP_IC_IBCF_CANCEL_01(vc_vxlte_monitor_components.ic, true); // CANCEL Event 10 (NOTE: comment out if ISC simulated by Ic)
f_mtc_check_TP_IC_IBCF_2XXRESP_01(vc_vxlte_monitor_components.ic); // 200 CANCEL – Event 11
f_mtc_check_TP_MW_IBCF_ECO_200OK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 12
f_mtc_check_TP_MW_PCSCF_ECO_200OK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 17
f_mtc_check_TP_GM_PCSCF_200OK_02(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 18
f_mtc_check_TP_IC_IBCF_487INVITE_01(vc_vxlte_monitor_components.ic); // Event 20
f_mtc_check_TP_MW_IBCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 21
f_mtc_check_TP_MW_PCSCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 24
f_mtc_check_TP_GM_PCSCF_487INVITE_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 25
f_mtc_check_TP_GM_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 26
f_mtc_check_TP_MW_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 27
f_mtc_check_TP_MW_IBCF_ECO_ACK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 29
f_mtc_check_TP_IC_IBCF_ACK_01(vc_vxlte_monitor_components.ic, true); // Event 30
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_ABT_01_02
group f_TD_VoLTE_ECO_INT_ABT_01_02 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_02() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_02
} // End of group f_TD_VoLTE_ECO_INT_ABT_01_02
/**
* @desc To perform SIP session abort (originating side) and the related interactions with PCRF A and EPC A.
* @see ETSI TS 103 795-2 Clause 5.3.4.1 Emergency Session Abort
* @remark This is option 1: PSAP is in PSTN network
testcase TD_VoLTE_ECO_INT_ABT_01_03() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_IC_INTERFACENAME // IBCF -> IMS -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_03();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
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f_mtc_check_TP_GM_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 1
//Rx/Gx exchange after CANCEL was received at P-CSCF
f_mtc_check_TP_RX_PCSCF_STR_01(vc_vxlte_monitor_components.rx); // (STR – Event 2
f_mtc_check_TP_GX_PCRF_RAR_02(vc_vxlte_monitor_components.gx, true); // (RAR – Event 3)
f_mtc_check_TP_GX_PGW_RAA_03(vc_vxlte_monitor_components.gx); // (RAA – Event 4)
f_mtc_check_TP_RX_PCRF_STA_01(vc_vxlte_monitor_components.rx); // (STA – Event 5)
f_mtc_check_TP_MW_PCSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 6
f_mtc_check_TP_MI_BGCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mwEB, -, v_sip); // Event 13
f_mtc_check_TP_MM_ECSCF_ECO_CANCEL_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 14
f_mtc_check_TP_MI_BGCF_ECO_200OK_01(vc_vxlte_monitor_components.mwEB, -, v_sip); // Event 16
f_mtc_check_TP_MW_PCSCF_ECO_200OK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 17
f_mtc_check_TP_GM_PCSCF_200OK_02(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 18
f_mtc_check_TP_MM_ECSCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 22
f_mtc_check_TP_MI_BGCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mwEB, -, v_sip); // Event 23
f_mtc_check_TP_MW_PCSCF_ECO_487INVITE_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 24
f_mtc_check_TP_GM_PCSCF_487INVITE_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 25
f_mtc_check_TP_GM_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 26
f_mtc_check_TP_MW_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 27
f_mtc_check_TP_MI_BGCF_ECO_ACK_01(vc_vxlte_monitor_components.mwEB, -, v_sip); // Event 31
f_mtc_check_TP_MM_ECSCF_ECO_ACK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 32
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_ABT_01_03
group f_TD_VoLTE_ECO_INT_ABT_01_03 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_03() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_ABT_01_03
} // End of group f_TD_VoLTE_ECO_INT_ABT_01_03
/**
* @desc To demonstrate interaction between UE A and PSAP when an emergency session is rejected.
* @see ETSI TS 103 795-2 5.3.4.3 Emergency Session Reject
* @remark This is option 1: PSAP is in IMS A network
*/
testcase TD_VoLTE_ECO_INT_REJ_01_01() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_MW_EB_INTERFACENAME, // E-CSCF -> IBCF
PX_SIP_MM_B_PSAP_INTERFACENAME // E-CSCCF -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_01();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
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f_mtc_check_TP_GM_PCSCF_ECO_INVITE_02(vc_vxlte_monitor_components.gmA, -, v_sip); // INVITE Event 3
f_mtc_check_TP_GM_PCSCF_ECO_100Trying_01(vc_vxlte_monitor_components.gmA, -, v_sip);
//Rx/Gx exchange after INVITE (SDP) was received at P-CSCF
f_mtc_check_TP_RX_PCSCF_AAR_03(vc_vxlte_monitor_components.rx);// Event 4
f_mtc_check_TP_GX_PCRF_RAR_01(vc_vxlte_monitor_components.gx, true); // Event 5
f_mtc_check_TP_GX_PGW_RAA_02(vc_vxlte_monitor_components.gx); // Event 6
f_mtc_check_TP_RX_PCRF_AAA_02(vc_vxlte_monitor_components.rx); // Event 7
f_mtc_check_TP_RX_PCSCF_RAA_01(vc_vxlte_monitor_components.rx);// Events 8,9
f_mtc_check_TP_GX_PCRF_CCA_01(vc_vxlte_monitor_components.gx); // Events 10,11
f_mtc_check_TP_MW_PCSCF_ECO_INVITE_02(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 12
f_mtc_check_TP_MW_PCSCF_ECO_100Trying_01(vc_vxlte_monitor_components.mwPE, -, v_sip);
f_mtc_check_TP_MW_PCSCF_ECO_INVITE_03(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 13
f_mtc_check_TP_MW_PCSCF_ECO_100Trying_01(vc_vxlte_monitor_components.mwPE, -, v_sip);
f_mtc_check_TP_MM_ECSCF_ECO_INVITE_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 11
// 480 Temporary Unvailable
f_mtc_check_TP_MM_ECSCF_ECO_480TEMPAV_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // 480 Temporary Unavailables Event 14
f_mtc_check_TP_MW_PCSCF_ECO_480TEMPAV_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 23
f_mtc_check_TP_RX_PCSCF_STR_01(vc_vxlte_monitor_components.rx); // Event 24
f_mtc_check_TP_GX_PCRF_RAR_01(vc_vxlte_monitor_components.gx, true); // Event 25
f_mtc_check_TP_GX_PGW_RAA_02(vc_vxlte_monitor_components.gx); // Event 26
f_mtc_check_TP_RX_PCRF_STA_01(vc_vxlte_monitor_components.rx); // Event 27
f_mtc_check_TP_GM_PCSCF_480TEMPAV_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 28
f_mtc_check_TP_GM_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 29
f_mtc_check_TP_MW_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 30
f_mtc_check_TP_MM_ECSCF_ECO_ACK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 31
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REJ_01_01
group f_TD_VoLTE_ECO_INT_REJ_01_01 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_01() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_01
} // End of group f_TD_VoLTE_ECO_INT_REJ_01_01
* @desc To demonstrate interaction between UE A and PSAP when an emergency session is rejected.
* @see ETSI TS 103 795-2 5.3.4.3 Emergency Session Reject
* @remark This is option 1: PSAP is not in IMS A network
testcase TD_VoLTE_ECO_INT_REJ_01_02() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_IC_INTERFACENAME // IBCF -> IMS -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_02();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
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f_mtc_check_TP_GM_PCSCF_ECO_INVITE_02(vc_vxlte_monitor_components.gmA, -, v_sip); // INVITE Event 3
f_mtc_check_TP_GM_PCSCF_ECO_100Trying_01(vc_vxlte_monitor_components.gmA, -, v_sip);
//Rx/Gx exchange after INVITE (SDP) was received at P-CSCF
f_mtc_check_TP_RX_PCSCF_AAR_03(vc_vxlte_monitor_components.rx);// Event 4
f_mtc_check_TP_GX_PCRF_RAR_01(vc_vxlte_monitor_components.gx, true); // Event 5
f_mtc_check_TP_GX_PGW_RAA_02(vc_vxlte_monitor_components.gx); // Event 6
f_mtc_check_TP_RX_PCRF_AAA_02(vc_vxlte_monitor_components.rx); // Event 7
f_mtc_check_TP_RX_PCSCF_RAA_01(vc_vxlte_monitor_components.rx);// Events 8,9
f_mtc_check_TP_GX_PCRF_CCA_01(vc_vxlte_monitor_components.gx); // Events 10,11
f_mtc_check_TP_MW_PCSCF_ECO_INVITE_02(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 12
f_mtc_check_TP_MW_PCSCF_ECO_100Trying_01(vc_vxlte_monitor_components.mwPE, -, v_sip);
f_mtc_check_TP_MW_IBCF_INVITE_01(vc_vxlte_monitor_components.mwEB); // Event 11
f_mtc_check_TP_MW_IBSCF_100Trying_01(vc_vxlte_monitor_components.mwEB, -, v_sip);
f_mtc_check_TP_IC_IBCF_INVITE_01(vc_vxlte_monitor_components.ic); // INVITE Event 12 (NOTE: comment out if ISC simulated by Ic)
// 480 Temporary Unavailable
f_mtc_check_TP_IC_IBCF_480TEMPAV_01(vc_vxlte_monitor_components.ic); // INVITE Event 12 (NOTE: comment out if ISC simulated by Ic)
f_mtc_check_TP_MW_PCSCF_ECO_480TEMPAV_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 23
f_mtc_check_TP_RX_PCSCF_STR_01(vc_vxlte_monitor_components.rx); // Event 24
f_mtc_check_TP_GX_PCRF_RAR_01(vc_vxlte_monitor_components.gx, true); // Event 25
f_mtc_check_TP_GX_PGW_RAA_02(vc_vxlte_monitor_components.gx); // Event 26
f_mtc_check_TP_RX_PCRF_STA_01(vc_vxlte_monitor_components.rx); // Event 27
f_mtc_check_TP_GM_PCSCF_480TEMPAV_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 28
f_mtc_check_TP_GM_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.gmA, -, v_sip); // Event 29
f_mtc_check_TP_MW_PCSCF_ECO_ACK_01(vc_vxlte_monitor_components.mwPE, -, v_sip); // Event 30
f_mtc_check_TP_IC_IBCF_ACK_01(vc_vxlte_monitor_components.mmB_PSAP, -, v_sip); // Event 31
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REJ_01_02
group f_TD_VoLTE_ECO_INT_REJ_01_02 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_02() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_02
} // End of group f_TD_VoLTE_ECO_INT_REJ_01_02
/**
* @desc To demonstrate interaction between UE A and PSAP when an emergency session is rejected.
* @see ETSI TS 103 795-2 5.3.4.3 Emergency Session Reject
* @remark This is option 1: PSAP is in PSTN network
*/
testcase TD_VoLTE_ECO_INT_REJ_01_03() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_IC_INTERFACENAME // IBCF -> IMS -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
// Preamble
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_03();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
// TODO
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REJ_01_03
group f_TD_VoLTE_ECO_INT_REJ_01_03 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_03() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_01_03
} // End of group f_TD_VoLTE_ECO_INT_REJ_01_03
/**
* @desc To demonstrate interaction between UE A and P-CSCF when an emergency session is rejected.
* @see ETSI TS 103 795-2 Clause 5.3.4.3 Emergency Session Reject
testcase TD_VoLTE_ECO_INT_REJ_02() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var IotEquipmentUser v_psap := f_cf_create_IotEquipmentUser ( c_psap );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
var ImsUserInfo v_infoPsap := f_getImUser ( PX_PSAP );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_SIP_MW_PE_INTERFACENAME,
PX_SIP_MW_EB_INTERFACENAME, // E-CSCF -> IBCF
PX_SIP_MM_B_PSAP_INTERFACENAME // E-CSCCF -> PSAP
}))
{
var SipMessage v_sip;
f_cf_createVxLteMonitor();
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_user_up ( v_psap );
f_cf_VxLteMonitor_Up();
if (PX_PSAP_REGISTERED) {
f_mtc_userRegistration(v_psap, v_infoPsap);
} else {
// TODO Check OPTIONS from PSAP to E-CSCF
}
f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_02();
// Test body
//f_mtc_userInitiateCall (v_ueA, v_userTelInfoB);
// TODO
f_mtc_userCheckCallTerminated(v_ueA); // Event 33
f_mtc_userCheckCallCancelled(v_psap); // Event 34
// Postamble
f_PO_user_home_deregistration(v_ueA);
f_PO_user_home_deregistration(v_psap);
//unmap/disconnect component ports
f_cf_user_down ( v_psap );
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
f_cf_adapter_down ( );
} // End of TC TD_VoLTE_ECO_INT_REJ_02
group f_TD_VoLTE_ECO_INT_REJ_02 {
function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_02() runs on ImsTestCoordinator {
log("If the test case fails, please check the preconditions");
// TODO Add real code to check pre-conditions
} // End of function f_mtc_check_precond_TD_VoLTE_ECO_INT_REJ_02
} // End of group f_TD_VoLTE_ECO_INT_REJ_02
} // End of group EmergencySessionAbortOrReject
} // End of group EmergencySessionEmergencyBearerOperations
/**
* @see ETSI TS 103 795-2 Clause 5.5 Emergency Network Detachment
*/
group EmergencyNetworkDetachment {
group EmergencySessionDetachment {
* @desc To demonstrate UE initiated network emergency detachment (IP-CAN session termination) for a UE that has not yet emergency registered to the IMS or for UE that has been emergency registered to the IMS
* @see ETSI TS 103 795-2 Clause 5.5.1 UE Emergency Network Detachment (with/without Emergency Registration)
*/
testcase TC_VoLTE_ECO_INT_DTC_01 ( ) runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_DIAMETER_GX_INTERFACENAME})){
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_VxLteMonitor_Up();
//preamble
f_mtc_userRadioEnabled ( v_ueA, true, true ); // UA-A trigger an initial network_attachment by enabling radio interface of its mobile
f_mtc_userRadioEnabled ( v_ueA, false, true );
// test body
// Check that user A starts initial network attachment
f_mtc_check_TP_GX_PCRF_ECO_CCA_02 ( vc_vxlte_monitor_components.gx, false ); // Check (CCA – Event 3)
//unmap/disconnect component ports
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
} // End of TC TC_VoLTE_ECO_INT_DTC_01
/**
* @desc To demonstrate UE initiated emergency network detachment (emergency IP-CAN session termination) for a UE that is emergency registered to IMS and also has active emergency session
* @see ETSI TS 103 795-2 Clause 5.5.2 UE Emergency Network Detachment with Previously Established Emergency Registration & Emergency Session
*/
testcase TC_VoLTE_ECO_INT_DTC_02 ( ) runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A_emergency );
var ImsUserInfo v_userInfoA := f_getImUser ( PX_EUT_A_EMERGENCY );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_DIAMETER_GX_INTERFACENAME})){
// map/connect component ports
f_cf_adapter_up ( );
f_cf_user_up ( v_ueA );
f_cf_VxLteMonitor_Up();
//preamble
f_mtc_userRadioEnabled ( v_ueA, true, true ); // UA-A trigger an initial network_attachment by enabling radio interface of its mobile
f_mtc_userRadioEnabled ( v_ueA, false, true );
// test body
// TODO
//postamble
//unmap/disconnect component ports
f_cf_user_down ( v_ueA );
f_cf_VxLteMonitor_Down();
f_cf_adapter_down ( );
}else{
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
} // End of TC TC_VoLTE_ECO_INT_DTC_02
} // End of group EmergencySessionDetachment
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} // End of group EmergencyNetworkDetachment
} // End of group Interoperability
/**
* @see ETSI TS 103 795-2 Clause 6 Test Descriptions (Roaming)
*/
group Roaming {
/**
* @see ETSI TS 103 795-2 6.1 Network Attachment
*/
group NetworkAttachment {
} // End of group NetworkAttachment
/**
* @see ETSI TS 103 795-2 Clause 6.2 IMS Emergency Registration in a visited network
*/
group IMSEmergencyRegistration {
} // End of group IMSEmergencyRegistration
} // End of group Roaming
} // End of module AtsImsIot_Emergency