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/**
* @author TTF 010
* @version $Id: $
* @desc This module provides ATS specific test case definitions for IMS Emergency calls.
* @see ETSI TS 103 795-2
*/
module AtsImsIot_Emergency {
// LibCommon
// LibSip
// LibIms
import from LibIot_TestInterface all;
import from LibIot_TestConfiguration all;
import from LibIot_PIXITS all;
import from LibIot_VxLTE_PIXITS all;
import from LibIot_VxLTE_Functions all;
// LibImsIot
// ImsIot
import from AtsImsIot_TestConfiguration all;
import from AtsImsIot_TestSystem all;
import from AtsImsIot_Functions all;
import from AtsImsIot_TP_behavior_GM all;
import from AtsImsIot_TP_behavior_MW_PS all;
import from AtsImsIot_TP_behavior_MW_SI all;
import from AtsImsIot_TP_behavior_MW_IS all;
import from AtsImsIot_TP_behavior_MW_EC all;
import from AtsImsIot_TP_behavior_MW_EB all;
import from AtsImsIot_TP_behavior_MM all;
import from AtsImsIot_TP_behavior_IC all;
import from AtsImsIot_TP_behavior_CX all;
import from AtsImsIot_TP_behavior_GX all;
import from AtsImsIot_TP_behavior_ISC all;
import from AtsImsIot_TP_behavior_S6A all;
import from AtsImsIot_TP_behavior_S9 all;
import from AtsImsIot_TP_behavior_SH all;
import from AtsImsIot_TP_behavior_RX all;
/**
* @see ETSI TS 103 795-2 Clause 5 Test Descriptions (Interoperability at HPLMN)
*/
group Interoperability {
/**
* @see ETSI TS 103 795-2 Clause 5.1 Network Attachment
*/
group NetworkAttachment {
group UENetworkAttachmentWithUSIM {
/**
* @desc Emergency Network Attachment and Establishment of the Emergency Bearer with USIM.
* On successful emergency attachment, the UE/IVS should discover the P-CSCF IP address.
* The EPC will create the Emergency Bearers which will allow communication only between the UE and the P-CSCF
* and allowed forwarding towards E-CSCF
* @see TS 124 229 [2], clause 9.2.1 and L.2.2.6; TS 129 212 [7], clauses 4.5.15 and 4a.5.12;
* TS 129 272 [8], clause 5.2.1.1 (MME shall proceed even if Update Location fails)
*
*/
testcase TC_VoLTE_ECO_INT_ATT_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,PX_DIAMETER_S6A_INTERFACENAME})){
f_cf_createVxLteMonitor();
// 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
// test body
// Check that user A starts initial network attachment
f_mtc_check_TP_S6A_MME_ULR_01 ( vc_vxlte_monitor_components.s6a, true ); // Check (ULR – Event 2)
f_mtc_check_TP_S6A_HSS_ECO_ULA_01 ( vc_vxlte_monitor_components.s6a); // Check (ULA – Event 3)
f_mtc_check_TP_GX_PCRF_ECO_CCA_01 ( vc_vxlte_monitor_components.gx); // Check (CCR, CCA – Events 4, 5)
// postamble
f_mtc_userRadioEnabled ( v_ueA, false, true );
//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 group UENetworkAttachmentWithUSIM
group UENetworkAttachmentWithoutUSIM {
/**
* @desc Emergency Network Attachment and Establishment of the Emergency Bearer without USIM.
* On successful emergency attachment, the UE/IVS should discover the P-CSCF IP address.
* The EPC will create the Emergency Bearers which will allow communication only between the UE and the P-CSCF
* and allowed forwarding towards E-CSCF
* @see TS 124 229 [2], clause 9.2.1 and L.2.2.6; TS 129 212 [7], clauses 4.5.15 and 4a.5.12;
* TS 129 272 [8], clause 5.2.1.1 (MME shall proceed even if Update Location fails)
*
*/
testcase TC_VoLTE_EMC_INT_ATT_02 ( ) 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,PX_DIAMETER_S6A_INTERFACENAME})){
f_cf_createVxLteMonitor();
// 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
// test body
// Check that user A starts initial network attachment
f_mtc_check_TP_S6A_MME_ULR_01 ( vc_vxlte_monitor_components.s6a, true ); // Check (ULR – Event 2)
f_mtc_check_TP_S6A_HSS_ECO_ULA_01 ( vc_vxlte_monitor_components.s6a); // Check (ULA – Event 3)
f_mtc_check_TP_GX_PCRF_EMC_CCA_01 ( vc_vxlte_monitor_components.gx); // Check (CCR, CCA – Events 4, 5)
// postamble
f_mtc_userRadioEnabled ( v_ueA, false, true );
//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_ATT_02
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} // End of group UENetworkAttachmentWithoutUSIM
} // End of group NetworkAttachment
/**
* @see ETSI TS 103 795-2 Clause 5.2 IMS Emergency Registration
*/
group EmergencyRegistration {
/**
* @desc To perform emergency registration via the established emergency bearer. Note that some UEs perform emergency registration automatically on attachment - in which case this test becomes merged with the previous ones.
* @see ETSI TS 103 795-2 Clause 5.2.1 IMS Emergency Registration - Successful
*/
testcase TD_VoLTE_ECO_INT_REG_01() runs on ImsTestCoordinator system IotSystemInterface {
var IotEquipmentUser v_ueA := f_cf_create_IotEquipmentUser ( c_userUE_A );
var ImsUserInfo v_userInfoA := f_getSipUserId ( PX_EUT_A );
f_setVxLteMonIterfacesAvailability();
//Check required monitor interfaces due to TD
if (f_checkVxLteRequiredMonitorInterface({PX_SIP_GMA_INTERFACENAME,
PX_SIP_MW_PI_INTERFACENAME,
PX_SIP_MW_IS_INTERFACENAME,
PX_DIAMETER_CX_SH_INTERFACENAME,
PX_DIAMETER_CX_IH_INTERFACENAME,
PX_DIAMETER_RX_INTERFACENAME,
PX_DIAMETER_GX_INTERFACENAME}))
{
f_cf_createVxLteMonitor();
// 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
// Test body
f_mtc_check_TP_GM_PCSCF_ECO_REGISTER_01(vc_vxlte_monitor_components.gmA); // Events 1, 12
f_mtc_check_TP_MW_PCSCF_ECO_REGISTER_01(vc_vxlte_monitor_components.mwPI); // Event 4, 11
f_mtc_check_TP_MW_ICSCF_ECO_REGISTER_01(vc_vxlte_monitor_components.mwIS, true); // Event 7, 10
f_mtc_check_TP_CX_HSS_ECO_UAA_01(f_getCxInterface(PX_DIAMETER_CX_SINGLE_INTERFACE));// Event 5, 6
f_mtc_check_TP_CX_HSS_MAA_01(vc_vxlte_monitor_components.cxSH);// Event 8, 9
f_mtc_check_TP_GM_PCSCF_ECO_REGISTER_02(vc_vxlte_monitor_components.gmA); // Events 13, 22
f_mtc_check_TP_MW_PCSCF_ECO_REGISTER_02(vc_vxlte_monitor_components.mwPI); // Events 14, 21
f_mtc_check_TP_MW_ICSCF_ECO_REGISTER_02(vc_vxlte_monitor_components.mwIS, true); // Event 17, 20
f_mtc_check_TP_CX_HSS_ECO_UAA_02(f_getCxInterface(PX_DIAMETER_CX_SINGLE_INTERFACE));// Event 15, 16
f_mtc_check_TP_CX_HSS_SAA_01(vc_vxlte_monitor_components.cxSH);// Event 18, 19
// postamble
f_PO_user_home_deregistration ( v_ueA );
f_mtc_userRadioEnabled ( v_ueA, false, true );
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