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ttcn/AtsImsIot/AtsImsIot_Diameter_Templates.ttcn
View file @ a402785b
......@@ -21,7 +21,7 @@ module AtsImsIot_Diameter_Templates {
import from LibDiameter_Types_Gx_AVPs all;
import from LibDiameter_Types_Rx_AVPs all;
import from LibDiameter_Types_CxDx_AVPs all;
import from LibDiameter_Types_S6a_AVPs {type Cancellation_Type_AVP, Cancellation_Type_Code};
import from LibDiameter_Types_S6a_AVPs {type Cancellation_Type_AVP, Cancellation_Type_Code, Subscription_Data_AVP};
import from LibDiameter_Types_S9_AVPs all;
group DiameterHeaderFields {
......@@ -387,6 +387,13 @@ module AtsImsIot_Diameter_Templates {
final_unit_action := *
}
template User_Equipment_Info_AVP mw_userEquipmentInfo_IMEI:=
{
aVP_Header := mw_aVP_Header_any_Code(458/*c_User_Equipment_Info_code*/),
user_Equipment_Info_Type := {aVP_Header := ?/*459*/, aVP_Data := IMEISV_E/*0*/ },
user_Equipment_Info_Value := ?
}
} //end group GxHeaderFields
group S6aHeaderFields{
......@@ -396,6 +403,10 @@ module AtsImsIot_Diameter_Templates {
cancellation_Type := p_cancellation_Type
} // End of template m_cancellationType
template Subscription_Data_AVP mw_subscriptionData_emergencyInfo:= {
aVP_Header := mw_aVP_Header_any_Code(c_subscription_Data_AVP_Code),
emergency_Info := ?
}
} //end group S6aHeaderFields
......@@ -1004,6 +1015,38 @@ module AtsImsIot_Diameter_Templates {
}
}
template CCR_MSG mw_CCR_SubscriberIMSI_qosInformation_class5_ES(CC_Request_Ty_Type p_avpData) modifies mw_CCR_basic := {
cCR_Body :={
cC_Request_Type := mw_cC_Request_Type(p_avpData),
subscription_Id := {*,mw_subscription_Id(mw_subscription_Id_Type(END_USER_IMSI_E))},
iP_CAN_Type := ?,
rat_Type := ?,
called_Station_Id := ?,
pDN_Connection_ID := *,
framed_IP_Address := ?,
//framed_IPv6_Prefix := *,
//bearer_Usage := mw_bearer_Usage(IMS_SIGNALLING_E),
qoS_Information := mw_qoS_Information,
default_EPS_Bearer_QoS := mw_default_EPS_Bearer_QoS_Class_5
}
}
template CCR_MSG mw_CCR_SubscriberIMEI_qosInformation_class5_ES(CC_Request_Ty_Type p_avpData) modifies mw_CCR_basic := {
cCR_Body :={
cC_Request_Type := mw_cC_Request_Type(p_avpData),
//subscription_Id := {*,mw_subscription_Id(mw_subscription_Id_Type(END_USER_IMSI_E))},
user_Equipment_Info := mw_userEquipmentInfo_IMEI,
iP_CAN_Type := ?,
rat_Type := ?,
called_Station_Id := ?,
pDN_Connection_ID := *,
framed_IP_Address := ?,
//framed_IPv6_Prefix := *,
//bearer_Usage := mw_bearer_Usage(IMS_SIGNALLING_E),
qoS_Information := mw_qoS_Information,
default_EPS_Bearer_QoS := mw_default_EPS_Bearer_QoS_Class_5
}
}
template RAR_MSG mw_RAR_ChargingRuleInstall(template Charging_Rule_Install_AVP p_Charging_Rule_Install) modifies mw_RAR_Gx_basic := {
rAR_Body :={
charging_Rule_Install := {p_Charging_Rule_Install}
......@@ -1161,6 +1204,13 @@ module AtsImsIot_Diameter_Templates {
ula_Flags := ?
}
}
template ULA_MSG mw_ULA_subsdata_flags modifies mw_ULA_resultCode_flags := {
uLA_Body :={
//result_Code := mw_resultCode(mw_resultCode_diameterSuccess),
//ula_Flags := ?
subscription_Data :=mw_subscriptionData_emergencyInfo
}
}
}// end group S6aRequestMessageTemplates
}//end group S6aMessageTemplates
......
ttcn/AtsImsIot/AtsImsIot_Emergency.ttcn
View file @ a402785b
......@@ -79,8 +79,8 @@ module AtsImsIot_Emergency {
// 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_ULA_01 ( vc_vxlte_monitor_components.s6a); // Check (ULA – Event 3)
f_mtc_check_TP_GX_PCRF_CCA_01 ( vc_vxlte_monitor_components.gx); // Check (CCR, CCA – Events 4, 5)
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 );
......@@ -93,11 +93,55 @@ module AtsImsIot_Emergency {
//log...
setverdict (inconc,"At least one required monitor interface SHALL be selected! Check PIXITs")
}
} // End of TC TC_VxLTE_INT_ATT_01
} // End of TC TC_VoLTE_ECO_INT_ATT_01
} // 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_ECO_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_ECO_CCA_02 ( 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
} // End of group UENetworkAttachmentWithoutUSIM
} // End of group NetworkAttachment
......
ttcn/AtsImsIot/AtsImsIot_TP_behavior_GX.ttcn
View file @ a402785b
......@@ -463,7 +463,8 @@ group g_PGW {
}
} // End of function f_mtc_check_TP_GX_PGW_RAA_04
group ES{
} //end group ES
} // end group g_PGW
group g_PCRF {
......@@ -1106,7 +1107,190 @@ group g_PCRF {
}
} // End of function f_mtc_check_TP_GX_PCRF_RAR_04
group ES{
/**
* Starts monitor component behavior for TP_GX_PCRF_ECO_CCA_01
* @param p_monitorCompRef Reference to monitor component
* <pre>
Test objective "Verify that IUT when receives CC-Request for PCC Rules containing IMSI for emergency services sends a CC-Answer in case of attachment procedure."
Reference
"TS 129 212 [9], clauses 4.5.15.2.1"
Config Id CF_VoLTE_INT_ES
PICS Selection NONE
Initial conditions with {
the UE_A entity isNotAttachedTo the EPC_A and
the UE_A entity isNotRegisteredTo the IMS_A
}
Expected behaviour
ensure that {
when {
the EPC_PGW_A entity sends an CCR containing
CC_Request_Type_AVP indicating value INITIAL_REQUEST
Subscription_Id_AVP containing
Subscription_Id_Type_AVP
indicating value END_USER_IMSI;,
IP_CAN_Type_AVP indicating value RestrictedToEmergencyServices,
RAT_Type_AVP,
Called_Station_Id_AVP indicating value "Emergency_APN"
Framed_IP_Address_AVP
"or" Framed_IP6_IP_Address_AVP
QoS_Information_AVP
Default_EPS_Bearer_QoS_AVP containing
QoS_Class_Identifier_AVP
indicating value '5'
Allocation_Retention_Priority_AVP containing
Priority_Level_AVP
Pre_emption_Capablity_AVP
Pre_emption_Vulnerability_AVP;;;
to the EPC_PCRF_A entity
}
then {
the EPC_PCRF_A entity sends the CCA containing
Result_Code_AVP
indicating value DIAMETER_SUCCESS;
to the EPC_PGW_A entity
}
}
* </pre>
* @see TS 103 653-1 clause 7.7
*/
function f_mtc_check_TP_GX_PCRF_ECO_CCA_01(
DiameterInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in boolean p_forward_to_mtc := false
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)){
p_monitorCompRef.start (
f_Iot_Diameter_receive(
{
DIAMETER_MSG:{ cCR_MSG := mw_CCR_SubscriberIMSI_qosInformation_class5_ES(INITIAL_REQUEST_E) }
},
{
DIAMETER_MSG:{ cCR_MSG := mw_CCR_basic }
},
{0, omit},
"TP_RX_PCRF_ECO_CCA_01 - CCR",
p_forward_to_mtc,
p_checkMessage
)
);
p_monitorCompRef.done;
p_monitorCompRef.start (
f_Iot_Diameter_receive(
{
DIAMETER_MSG:{ cCA_MSG := mw_CCA_resultCode }
},
{
DIAMETER_MSG:{ cCA_MSG := mw_CCA_basic }
},
{0, omit},
"TP_RX_PCRF_ECO_CCA_01 - CCA",
p_forward_to_mtc,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_GX_PCRF_ECO_CCA_01
/**
* Starts monitor component behavior for TP_GX_PCRF_ECO_CCA_02
* @param p_monitorCompRef Reference to monitor component
* <pre>
Test objective "Verify that IUT when receives CC-Request for PCC Rules containing IMEI for emergency services sends a CC-Answer in case of attachment procedure."
Reference
"TS 129 212 [9], clauses 4.5.15.2.1"
Config Id CF_VxLTE_INT
PICS Selection NONE
Initial conditions with {
the UE_A entity isNotAttachedTo the EPC_A and
the UE_A entity isNotRegisteredTo the IMS_A
}
Expected behaviour
ensure that {
when {
the EPC_PGW_A entity sends an CCR containing
CC_Request_Type_AVP indicating value INITIAL_REQUEST,
User_Equipment_Info_AVP containing
User_Equipment_Info_Type_AVP indicating value IMEISV
User_Equipment_Info_Value_AVP;,
IP_CAN_Type_AVP indicating value RestrictedToEmergencyServices,
RAT_Type_AVP,
Called_Station_Id_AVP indicating value "Emergency_APN"
Framed_IP_Address_AVP
"or" Framed_IP6_IP_Address_AVP
QoS_Information_AVP
Default_EPS_Bearer_QoS_AVP containing
QoS_Class_Identifier_AVP
indicating value '5'
Allocation_Retention_Priority_AVP containing
Priority_Level_AVP
Pre_emption_Capablity_AVP
Pre_emption_Vulnerability_AVP;;;
to the EPC_PCRF_A entity
}
then {
the EPC_PCRF_A entity sends the CCA containing
Result_Code_AVP
indicating value DIAMETER_SUCCESS;
to the EPC_PGW_A entity
}
}
* </pre>
* @see TS 103 653-1 clause 7.7
*/
function f_mtc_check_TP_GX_PCRF_ECO_CCA_02(
DiameterInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in boolean p_forward_to_mtc := false
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)){
p_monitorCompRef.start (
f_Iot_Diameter_receive(
{
DIAMETER_MSG:{ cCR_MSG := mw_CCR_SubscriberIMEI_qosInformation_class5_ES(INITIAL_REQUEST_E) }
},
{
DIAMETER_MSG:{ cCR_MSG := mw_CCR_basic }
},
{0, omit},
"TP_RX_PCRF_ECO_CCA_02 - CCR",
p_forward_to_mtc,
p_checkMessage
)
);
p_monitorCompRef.done;
p_monitorCompRef.start (
f_Iot_Diameter_receive(
{
DIAMETER_MSG:{ cCA_MSG := mw_CCA_resultCode }
},
{
DIAMETER_MSG:{ cCA_MSG := mw_CCA_basic }
},
{0, omit},
"TP_RX_PCRF_ECO_CCA_02 - CCA",
p_forward_to_mtc,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_GX_PCRF_ECO_CCA_02
} //end group ES
} // end group g_PCRF
......
ttcn/AtsImsIot/AtsImsIot_TP_behavior_S6A.ttcn
View file @ a402785b
......@@ -97,6 +97,8 @@ group g_HSS {
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_S6A_HSS_AIA_01
/**
......@@ -371,7 +373,84 @@ group g_HSS {
}
} // End of function f_mtc_check_TP_S6A_HSS_ULA_02
group ES{
/**
* Starts monitor component behavior for TP_S6A_HSS_ECO_ULA_01
* @param p_monitorCompRef Reference to monitor component
* <pre>
*Test objective "Verify that IUT after receipt of UL-Request sends UL-Answer containing Emergency-Info AVP."
*
*Reference
* "TS 129 272 [10], clause 5.2.1.1.2"
*Config Id CF_VxLTE_INT_ES
*PICS Selection NONE
*Initial conditions with {
* the UE_A entity isNotAttachedTo the EPC_A and
* the UE_A entity isNotRegisteredTo the IMS_A
*}
*
*Expected behaviour
* ensure that {
* when {
* the EPC_MME_A entity sends a ULR
* to the IMS_HSS_A entity
* }
* then {
* the IMS_HSS_A entity sends the ULA containing
* Subscription_Data_AVP containing
* Emergency_Info_AVP indicating value PDN_GW;,
* Result_Code_AVP
* indicating value DIAMETER_SUCCESS
* ULA_Flags_AVP;
* to the EPC_MME_A entity
* }
* }
* </pre>
*/
function f_mtc_check_TP_S6A_HSS_ECO_ULA_01(
DiameterInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in boolean p_forward_to_mtc := false
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)){
// p_monitorCompRef.start (
// f_Iot_Diameter_receive(
// {
// DIAMETER_MSG:{ uLR_MSG := mw_ULR_userName }
// },
// {
// DIAMETER_MSG:{ uLR_MSG := mw_ULR_basic }
// },
// {0, omit},
// "TP_S6A_HSS_ULA_01 - ULR",
// p_forward_to_mtc,
// p_checkMessage
// )
// );
// p_monitorCompRef.done;
p_monitorCompRef.start (
f_Iot_Diameter_receive(
{
DIAMETER_MSG:{ uLA_MSG := mw_ULA_subsdata_flags }
},
{
DIAMETER_MSG:{ uLA_MSG := mw_ULA_basic }
},
{0, omit},
"TP_S6A_HSS_ECO_ULA_01 - ULA",
p_forward_to_mtc,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_S6A_HSS_ECO_ULA_01
}// end group ES
} // end group g_HSS
group g_MME {
......@@ -675,6 +754,9 @@ group g_MME {
}
} // End of function f_mtc_check_TP_S6A_MME_ULR_02
group ES{
}// end group ES
} // end group g_MME
......
ttcn/AtsImsIot/AtsImsIot_TestSystem.ttcn
View file @ a402785b
......@@ -124,6 +124,7 @@ module AtsImsIot_TestSystem {
SipInterfaceMonitor gmB optional,
SipInterfaceMonitor mmB_PSAP optional,// MmMx interface at IBCF to PSAP
SipInterfaceMonitor mwEB optional,// Mw interface at E-CSCF/IBCF
SipInterfaceMonitor mlE_LRF optional,// Ml interface at E-CSCF/LRF
SipInterfaceMonitor mwS_PSAP optional,// MwMmMx interface at E,SCSCF to PSAP
SipInterfaceMonitor ic optional,
SipInterfaceMonitor mwPI optional,// Mw interface at P-CSCF/I-CSCF or P-CSCF/S-CSCF if I-CSCF not used
......
ttcn/LibIot/LibIot_TypesAndValues.ttcn
View file @ a402785b
......@@ -102,6 +102,7 @@ module LibIot_TypesAndValues {
MonitorInterfaceInfo gmB optional,
MonitorInterfaceInfo mmB_PSAP optional,// Mm interface at IBCF to PSAP
MonitorInterfaceInfo mwEB optional,// Mw interface at ECSCF to IBCF
MonitorInterfaceInfo mlE_LRF optional, //Ml interface at ECSCF to LRF
MonitorInterfaceInfo mwS_PSAP optional,// Mw interface at SCSCF to PSAP
MonitorInterfaceInfo ic optional,
MonitorInterfaceInfo mwPI optional,// Mw interface at P-CSCF/I-CSCF or P-CSCF/S-CSCF if I-CSCF not used
......
ttcn/LibIot/LibIot_VxLTE_Functions.ttcn
View file @ a402785b
......@@ -60,6 +60,9 @@ module LibIot_VxLTE_Functions {
if (PX_SIP_MW_EB_MONITORENABLED == true){
vc_MonIntfList.mwEB := valueof(m_MonIntf_Sip_Mw_EB);
}
if (PX_SIP_ML_E_LRF_MONITORENABLED == true){
vc_MonIntfList.mlE_LRF := valueof(m_MonIntf_Sip_Ml_E_LRF);
}
if (PX_SIP_MW_S_PSAP_MONITORENABLED == true){
vc_MonIntfList.mwS_PSAP := valueof(m_MonIntf_Sip_MwS_PSAP);
}
......@@ -136,6 +139,9 @@ module LibIot_VxLTE_Functions {
if (isvalue(vc_MonIntfList.mwEB)){
vc_vxlte_monitor_components.mwEB := f_cf_create_monitor_sip ( vc_MonIntfList.mwEB);
}
if (isvalue(vc_MonIntfList.mlE_LRF)){
vc_vxlte_monitor_components.mlE_LRF := f_cf_create_monitor_sip ( vc_MonIntfList.mlE_LRF);
}
if (isvalue(vc_MonIntfList.mwS_PSAP)){
vc_vxlte_monitor_components.mwS_PSAP := f_cf_create_monitor_sip ( vc_MonIntfList.mwS_PSAP);
}
......@@ -241,6 +247,15 @@ module LibIot_VxLTE_Functions {
)
)));
}
if (isvalue(vc_MonIntfList.mlE_LRF)){
f_cf_monitor_up_sip(vc_vxlte_monitor_components.mlE_LRF);
vc_vxlte_monitor_components.mlE_LRF.start(f_cf_setFilter(
valueof (m_SetFilterReq(
e_sip,
{vc_MonIntfList.mlE_LRF.interfaceInfo}
)
)));
}
if (isvalue(vc_MonIntfList.mwS_PSAP)){
f_cf_monitor_up_sip(vc_vxlte_monitor_components.mwS_PSAP);
vc_vxlte_monitor_components.mwS_PSAP.start(f_cf_setFilter(
......@@ -429,6 +444,9 @@ module LibIot_VxLTE_Functions {
if (isvalue(vc_MonIntfList.mwEB)){
f_cf_monitor_down_sip(vc_vxlte_monitor_components.mwEB);
}
if (isvalue(vc_MonIntfList.mlE_LRF)){
f_cf_monitor_down_sip(vc_vxlte_monitor_components.mlE_LRF);
}
if (isvalue(vc_MonIntfList.mwS_PSAP)){
f_cf_monitor_down_sip(vc_vxlte_monitor_components.mwS_PSAP);
}
......@@ -521,11 +539,12 @@ module LibIot_VxLTE_Functions {
// if (vc_vxlte_monitor_components.gmA.vc_interfacename) {return true;}
if ((isvalue(vc_MonIntfList.gmA)) and (vc_MonIntfList.gmA.interfaceName==p_interfaceName)){ return true;}
//if ((isvalue(vc_MonIntfList.gmB)) and (vc_MonIntfList.gmB.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.gmB)) and (vc_MonIntfList.gmB.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mmB_PSAP)) and (vc_MonIntfList.mmB_PSAP.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mwEB)) and (vc_MonIntfList.mwEB.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mwS_PSAP)) and (vc_MonIntfList.mwS_PSAP.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mlE_LRF)) and (vc_MonIntfList.mlE_LRF.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mwS_PSAP)) and (vc_MonIntfList.mwS_PSAP.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.ic)) and (vc_MonIntfList.ic.interfaceName==p_interfaceName)){ return true;}
if ((isvalue(vc_MonIntfList.mwPI)) and (vc_MonIntfList.mwPI.interfaceName==p_interfaceName)){ return true;}
......@@ -568,7 +587,7 @@ module LibIot_VxLTE_Functions {
var InterfaceAvailableList v_VxLTE_MonIntf_Available;
var InterfaceAvailable v_InterfaceAvailable;
var SipInterfaceMonitor v_gmA, v_gmB, v_mmBPSAP, v_mwEB, v_mwSPSAP, v_ic, v_mwPI, v_mwPS, v_mwPE, v_mwSI, v_mwPB, v_mwIB, v_mwIE, v_isc;
var SipInterfaceMonitor v_gmA, v_gmB, v_mmBPSAP, v_mwEB, v_mlE_LRF, v_mwSPSAP, v_ic, v_mwPI, v_mwPS, v_mwPE, v_mwSI, v_mwPB, v_mwIB, v_mwIE, v_isc;
var DiameterInterfaceMonitor v_cxIH, v_cxSH, v_gx, v_rx, v_s6a, v_s9, v_sh;
if (PX_SIP_GMA_MONITORENABLED == true){
......@@ -601,6 +620,14 @@ module LibIot_VxLTE_Functions {
v_mwEB := f_cf_create_monitor_sip ( valueof(m_MonIntf_Sip_Mw_EB)/*PX_SIP_MW_PI_INTERFACENAME*/ );
f_cf_monitor_up_sip(v_mwEB);
}
if (PX_SIP_ML_E_LRF_MONITORENABLED == true){
v_InterfaceAvailable.interfaceName := PX_SIP_ML_E_LRF_INTERFACENAME;
v_InterfaceAvailable.available := PX_SIP_ML_E_LRF_MONITORENABLED;
v_VxLTE_MonIntf_Available := f_update_MonitorInterfaceList(v_VxLTE_MonIntf_Available,v_InterfaceAvailable);
v_mlE_LRF := f_cf_create_monitor_sip ( valueof(m_MonIntf_Sip_Ml_E_LRF)/*PX_SIP_MW_PI_INTERFACENAME*/ );
f_cf_monitor_up_sip(v_mlE_LRF);
}
if (PX_SIP_MW_S_PSAP_MONITORENABLED == true){
v_InterfaceAvailable.interfaceName := PX_SIP_MW_S_PSAP_INTERFACENAME;
......
ttcn/LibIot/LibIot_VxLTE_PIXITS.ttcn
View file @ a402785b
......@@ -54,6 +54,7 @@ module LibIot_VxLTE_PIXITS {
group Mw{
modulepar charstring PX_SIP_MM_B_PSAP_INTERFACENAME := "Mm IBCF PSAP"; //Mm interface between IBCF and PSAP
modulepar charstring PX_SIP_MW_EB_INTERFACENAME := "Mw ECSCF IBCF"; //Mw interface between ECSCF and IBCF
modulepar charstring PX_SIP_ML_E_LRF_INTERFACENAME := "Ml ECSCF LRF"; //Ml interface between ECSCF and LRF
modulepar charstring PX_SIP_MW_S_PSAP_INTERFACENAME := "Mw SCSCF PSAP"; //Mw interface between S-CSCF and PSAP
modulepar charstring PX_SIP_MW_PI_INTERFACENAME := "Mw PI"; //Mw interface between P-CSCF and I-CSCF
modulepar charstring PX_SIP_MW_PS_INTERFACENAME := "Mw PS"; //Mw interface between P-CSCF and S-CSCF
......@@ -72,10 +73,13 @@ module LibIot_VxLTE_PIXITS {
modulepar integer PX_SIP_MW_S_CSCF_PORT := 5090; //Mw Port number of S-CSCF
modulepar charstring PX_SIP_MW_E_CSCF_IPADDR := "fe80::21a:a0ff:fe07:98"; //Mw IP address of E-CSCF
modulepar integer PX_SIP_MW_E_CSCF_PORT := 5095; //Mw Port number of E-CSCF
modulepar charstring PX_SIP_ML_LRF_IPADDR := "fe80::21a:a0ff:fe07:98"; //Mw IP address of E-CSCF
modulepar integer PX_SIP_ML_LRF_PORT := 5095; //Mw Port number of E-CSCF
modulepar charstring PX_SIP_MW_IBCF_IPADDR := "fe80::21a:a0ff:fe07:98"; //Mw IP address of IBCF
modulepar integer PX_SIP_MW_IBCF_PORT := 5050; //Mw Port number of IBCF
modulepar boolean PX_SIP_MM_B_PSAP_MONITORENABLED := true; //true - Monitor enabled for PSAP connection only
modulepar boolean PX_SIP_MW_EB_MONITORENABLED := true; //true - Monitor enabled for PE connection only
modulepar boolean PX_SIP_MW_EB_MONITORENABLED := true; //true - Monitor enabled for EB connection only
modulepar boolean PX_SIP_ML_E_LRF_MONITORENABLED := true; //true - Monitor enabled for E-LRF connection only
modulepar boolean PX_SIP_MW_S_PSAP_MONITORENABLED := true; //true - Monitor enabled for PSAP connection only
modulepar boolean PX_SIP_MW_PI_MONITORENABLED := true; //true - Monitor enabled for PI connection only
modulepar boolean PX_SIP_MW_PS_MONITORENABLED := true; //true - Monitor enabled for PS connection only
......
ttcn/LibIot/LibIot_VxLTE_Templates.ttcn
View file @ a402785b
......@@ -124,12 +124,12 @@ module LibIot_VxLTE_Templates {
interfaceInfo := {
IpInterfaceInfo := {
{
domainName := "pcscf.ims.domain",
domainName := "ibcf.ims.domain",
IpAddress := PX_SIP_MW_IBCF_IPADDR,
portNumbers := {PX_SIP_MW_IBCF_PORT}
},
{
domainName := "icscf.ims.domain",
domainName := "psap.ims.domain",
IpAddress := PX_SIP_MW_PSAP_IPADDR,
portNumbers := {PX_SIP_MW_PSAP_PORT}
}
......@@ -143,18 +143,37 @@ module LibIot_VxLTE_Templates {
interfaceInfo := {
IpInterfaceInfo := {
{
domainName := "pcscf.ims.domain",
domainName := "ecscf.ims.domain",
IpAddress := PX_SIP_MW_E_CSCF_IPADDR,
portNumbers := {PX_SIP_MW_E_CSCF_PORT}
},
{
domainName := "icscf.ims.domain",
domainName := "ibcf.ims.domain",
IpAddress := PX_SIP_MW_IBCF_IPADDR,
portNumbers := {PX_SIP_MW_IBCF_PORT}
}
}
}
};
template MonitorInterfaceInfo m_MonIntf_Sip_Ml_E_LRF:=
{
interfaceName := PX_SIP_ML_E_LRF_INTERFACENAME,
interfaceInfo := {
IpInterfaceInfo := {
{
domainName := "ecscf.ims.domain",
IpAddress := PX_SIP_MW_E_CSCF_IPADDR,
portNumbers := {PX_SIP_MW_E_CSCF_PORT}
},
{
domainName := "lrf.ims.domain",
IpAddress := PX_SIP_ML_LRF_IPADDR,
portNumbers := {PX_SIP_ML_LRF_PORT}
}
}
}
};
template MonitorInterfaceInfo m_MonIntf_Sip_MwS_PSAP:=
{
......@@ -162,12 +181,12 @@ module LibIot_VxLTE_Templates {
interfaceInfo := {
IpInterfaceInfo := {
{
domainName := "pcscf.ims.domain",
domainName := "scscf.ims.domain",
IpAddress := PX_SIP_MW_S_CSCF_IPADDR,
portNumbers := {PX_SIP_MW_S_CSCF_PORT}
},
{
domainName := "icscf.ims.domain",
domainName := "psap.ims.domain",
IpAddress := PX_SIP_MW_PSAP_IPADDR,
portNumbers := {PX_SIP_MW_PSAP_PORT}
}
......