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/*
* @author TTF T010
* @version $Id$
* @desc This module provides the TP behaviour functions at MM interface
*/
module AtsImsIot_TP_behavior_MM {
import from LibIms_Templates all;
import from LibIms_UpperTester all;
// LibIot
import from LibIot_TypesAndValues all;
import from LibIot_Functions all;
import from LibIot_TestInterface all;
import from LibIot_PIXITS all;
// LibSip
import from LibSip_SIPTypesAndValues all;
import from LibSip_Templates all;
import from LibSip_Common all;
import from LibSip_SDPTypes all;
// LibMsrp
import from LibMsrp_TypesAndValues all;
import from LibMsrp_Functions all;
import from LibMsrp_Templates all;
// AtsImsIot
import from AtsImsIot_TestSystem all;
import from AtsImsIot_Templates_MW all;
import from AtsImsIot_Templates all;
import from AtsImsIot_TypesAndValues all;
import from AtsImsIot_Functions all;
group imsInvite {
/**
* @desc Verify that the IBCF successfully processes an initial INVITE (Originating Leg)..
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives an INVITE containing
* From indicating value PX_UE_A_SIP_URI,
* To indicating value PX_PSAP_SIP_URI,
* CallId indicating value PX_UE_A_CALLID,
* Via indicating value PX_UE_A_VIA,
* Route indicating value PX_UE_A_SERVICE_ROUTE,
* PAccessNetworkInfo,
* MessageBody containing
* SDP containing
* Version indicating value "0"
* ;
* ;;
* the IMS_IBCF_A entity sends an INVITE containing
* From indicating value PX_UE_A_SIP_URI,
* To indicating value PX_PSAP_SIP_URI,
* CallId indicating value PX_UE_A_CALLID,
* Via indicating value PX_UE_A_VIA,
* Route indicating value PX_UE_A_SERVICE_ROUTE,
* PAccessNetworkInfo,
* MessageBody containing
* SDP containing
* Version indicating value "0"
* ;
* ;;
* to the PSAP entity
* }
* }
*/
function f_mtc_check_TP_MM_PSAP_INVITE_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
out SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
var ImsUserInfo v_userInfoA := f_getTelUserId(PX_EUT_A);
var ImsUserInfo v_psapInfo := f_getSipUserId(PX_PSAP);
// Check the INVITE
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipRequest(mw_TP_MM_PSAP_INVITE_01(
-, // FIXME Set expected value
mw_From_AddrUnion_TelUrl(-), // v_userInfoA.publicId
mw_To_AddrUnion_TelUrl(-) // v_psapInfo.publicId
))
},
{ mw_SipRequest(mw_INVITE_Request_Base) },
{0, omit},
"TP_MM_PSAP_INVITE_01 - Request",
true,
p_checkMessage
)
);
p_monitorCompRef.done;
// Retrieve messge
f_getSipMsgFromMonitor(p_monitorCompRef, p_sip);
log("##### p_sip: ", p_sip);
}
} // End of function f_mtc_check_TP_MM_PSAP_INVITE_01
} // End of group imsInvite
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group ims100Trying {
/**
* @desc Verify that the IBCF successfully processes a 100 (Trying) provisional response on initial INVITE (Originating Leg).
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives a 100_Trying
* from the PSAP entity
* }
* then {
* the IMS_IBCF_A entity sends a 100_Trying
* to the IMS_E_CSCF_A entity
* }
* }
*/
function f_mtc_check_TP_MW_IBSCF_100Trying_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
// Check the 100 TRYING
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipResponse(mw_TP_MW_IBCF_100Trying_01(
p_sip.request.msgHeader.cSeq,
p_sip.request.msgHeader.fromField,
p_sip.request.msgHeader.toField
))
},
{ mw_SipResponse(mw_100Trying_Base) },
{ 0, omit },
"TP_MW_IBCF_100Trying_01",
false,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_MW_IBSCF_100Trying_01
} // End of group ims100Trying
group ims180Ringing {
/**
* @desc Verify that the IBCF successfully processes a 180 (Ringing) provisional response on initial INVITE (Originating Leg).
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives a 180_Ringing containing
* From indicating value PX_PSAP_SIP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_PSAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE
* ;
* from the PSAP entity
* }
* then {
* the IMS_IBCF_A entity sends a 180_Ringing containing
* From indicating value PX_PSAP_SIP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_PSAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE
* ;
* to the IMS_E_CSCF_A entity
* }
* }
*/
function f_mtc_check_TP_MM_PSAP_180RINGING_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
// Check the 180 RINGING
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipResponse(mw_TP_MM_PSAP_180Ringing_01(
p_sip.request.msgHeader.cSeq,
p_sip.request.msgHeader.fromField,
mw_To_NameAddr_TelUrl(
-,
p_sip.request.msgHeader.toField.addressField.addrSpecUnion.components.tel.subscriber
)))
},
{ mw_SipResponse(mw_180Ringing_Base) },
{ 0, omit },
"TP_MM_PSAP_180RINGING_01",
false,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_MM_PSAP_180RINGING_01
} // End of group ims180Ringing
group ims183SessionProgress {
/**
* @desc Verify that the IBCF successfully processes a 183 (Ringing) provisional response on initial INVITE (Originating Leg).
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives a 183_SessionProgress containing
* From indicating value PX_SAP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_SAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE
* ;
* from the PSAP entity
* }
* then {
* the IMS_IBCF_A entity sends a 183_SessionProgress containing
* From indicating value PX_PSAP_SIP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_PSAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE
* ;
* to the IMS_E_CSCF_A entity
* }
* }
*/
function f_mtc_check_TP_MM_PSAP_183SESSION_PROGRESS_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
// Check the 183 SESSION_PROGRESS
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipResponse(mw_TP_MM_PSAP_183SessionProgress_01(
p_sip.request.msgHeader.cSeq,
p_sip.request.msgHeader.fromField,
p_sip.request.msgHeader.toField
))
},
{ mw_SipResponse(mw_183SessionProgress_Base) },
{ 0, omit },
"TP_MM_PSAP_183SESSION_PROGRESS_01",
false,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_MM_PSAP_183SESSION_PROGRESS_01
} // End of group ims183SessionProgress
group ims200Ok {
/**
* @desc Verify that the IBCF successfully processes a 200 (OK) provisional response on initial INVITE (Originating Leg).
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives a 200_Ok containing
* From indicating value PX_PSAP_SIP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_PSAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE,
* not PChargingVector,
* not PChargingFunctionAddresses,
* not PPreferredIdentity
* ;
* from the PSAP entity
* }
* then {
* the IMS_IBCF_A entity sends a 200_Ok containing
* From indicating value PX_PSAP_SIP_URI,
* To indicating value PX_UE_A_SIP_URI,
* CallId indicating value PX_PSAP_CALLID,
* Via indicating value PX_PSAP_VIA,
* Route indicating value PX_PSAP_SERVICE_ROUTE,
* PChargingVector,
* PChargingFunctionAddresses,
* PPreferredIdentity
* ;
* to the IMS_E_CSCF_A entity
* }
* }
*/
function f_mtc_check_TP_MM_PSAP_200OK_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
var ImsUserInfo v_userInfoB := f_getSipUserId(PX_EUT_B);
// Check the 200 OK
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipResponse(mw_200OK(
p_sip.request.msgHeader.cSeq,
p_sip.request.msgHeader.callId,
p_sip.request.msgHeader.fromField,
(
mw_To_NameAddr_TelUrl({quotedString:=f_getSipUserId(PX_EUT_B).publicId}),
mw_To_AddrUnion_TelUrl(f_getTelUserId(PX_EUT_B).publicId),
p_sip.request.msgHeader.toField
)
))
},
{ mw_SipResponse(mw_200OK_Base) },
{ 0, omit },
"TP_MM_PSAP_200OK_01",
false,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_MM_PSAP_200OK_01
} // End of group ims200Ok
group imsAck {
/**
* @desc Verify that the IBCF successfully processes a ACK provisional response on initial INVITE (Originating Leg).
* Initial conditions with {
* the UE_A entity isAttachedTo the EPC_A and
* the PSAP entity isAttachedTo the EPC_B and
* the UE_A entity isRegisteredTo the IMS_A and
* the PSAP entity isRegisteredTo the IMS_B
* }
*
* Expected behaviour
* ensure that {
* when {
* the IMS_IBCF_A entity receives an ACK containing
* From indicating value PX_UE_A_SIP_URI,
* To indicating value PX_PSAP_SIP_URI,
* CallId indicating value PX_UE_A_CALLID,
* Via indicating value PX_UE_A_VIA,
* Route indicating value PX_UE_A_SERVICE_ROUTE
* ;
* from the IMS_E_CSCF_A entity
* }
* then {
* the IMS_IBCF_A entity sends an ACK containing
* From indicating value PX_UE_A_SIP_URI,
* To indicating value PX_PSAP_SIP_URI,
* CallId indicating value PX_UE_A_CALLID,
* Via indicating value PX_UE_A_VIA,
* Route indicating value PX_UE_A_SERVICE_ROUTE
* ;
* from the PSAP entity
* }
* }
*/
function f_mtc_check_TP_MM_PSAP_ACK_01(
in SipInterfaceMonitor p_monitorCompRef,
in boolean p_checkMessage := false,
in SipMessage p_sip
) runs on ImsTestCoordinator {
if (isvalue(p_monitorCompRef)) {
// Check the ACK
p_monitorCompRef.start(
f_Iot_Sip_receive(
{ mw_SipRequest(mw_TP_MM_PSAP_ACK_01(
p_sip.request.msgHeader.callId,
p_sip.request.msgHeader.cSeq,
-, // FIXME To be set
p_sip.request.msgHeader.fromField,
p_sip.request.msgHeader.toField
))
},
{ mw_SipRequest(mw_ACK_Request_Base) },
{ 0, omit },
"TP_MM_PSAP_ACK_01 - Request",
false,
p_checkMessage
)
);
p_monitorCompRef.done;
}
} // End of function f_mtc_check_TP_MM_PSAP_ACK_01
} // End of group imsAck
} // End of module AtsImsIot_TP_behavior_MM