Newer
Older
setverdict(inconc, "PX_GN_UPPER_LAYER shall be set to e_any");
map(self:geoNetworkingPort, system:geoNetworkingPort);
v_gnReq := valueof(m_geoNwReq_linkLayerBroadcast( // Not compliant with PX_GN_UPPER_LAYER, just for test
m_geoNwPdu(
m_geoNwBroadcastPacket(
m_dummyLongPosVectorNodeB,
3456,
m_dummyGeoBroadcastArea1
),
Lifetime: {multiplier := c_defaultLifetime, ltBase := e_100s}
)));
geoNetworkingPort.send(v_gnReq);
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwBroadcastPacket
))) {
if (v_got_beacon == false) {
v_got_beacon := true;
setverdict(pass);
}
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwLsRequestPacket(
?,
?
)))) -> value v_msg {
log("Receive LsRequest: ", v_msg.msgIn);
// Send LsReply
f_sendGeoNetMessage(
valueof(m_geoNwReq_linkLayerBroadcast(
m_geoNwPdu(
m_geoNwLsReplyPacket(
m_dummyLongPosVectorNodeA,
f_longPosVector2ShortPosVector(
valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsRequestHeader.srcPosVector)
),
vc_localSeqNumber
)))));
if (v_got_beacon == false) {
v_got_beacon := true;
}
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
?
)) -> value v_msg {
log("Receive beacon: ", v_msg.msgIn);
setverdict(fail);
}
[] tc_ac.timeout {
setverdict(inconc, "Expected message not received");
}
}
}
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
} // End of testcase tc_GeoNet_Port_1
/**
* @desc validate GeoNetworkingReq/Broadcast
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_2() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
var GeoNetworkingReq v_gnReq;
var ExtendedHeader v_header;
var boolean v_got_beacon := false; // Used with xxx_61_beacon pcap file
var boolean v_got_shb := false; // Used with xxx_61_cam pcap file
var LongPosVector v_longPosVectorIut;
var GeoNetworkingInd v_msg;
if ((PX_GN_UPPER_LAYER != e_any) and (PX_GN_UPPER_LAYER != e_btpA)) {
setverdict(inconc, "PX_GN_UPPER_LAYER shall be set to e_any when using xxx_61_beacon or e_btpA when using xxx_61_cam");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
// A small sleep to provide TA to read pcap file is it used
alt {
[] tc_noac.timeout {
}
} // end of 'alt' statement
f_acTriggerEvent(m_getLongPosVector(f_getIutGnLocalAddress()));
tc_ac.start;
alt {
[] acPort.receive(mw_getLongPosVectorAny(f_getIutGnLocalAddress())) -> value v_acGnResponse {
v_longPosVectorIut := v_acGnResponse.getLongPosVector;
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "GnAddress mismatch, check LibItsGeoNetworking_Pics.PICS_GN_LOCAL_GN_ADDR value in configuration file");
}
[] tc_ac.timeout {
setverdict(inconc, "timeout");
}
} // End of 'alt' statement
f_acTriggerEvent(m_startPassBeaconing(m_beaconHeader(v_longPosVectorIut).beaconHeader));
v_gnReq := valueof(m_geoNwReq_linkLayerBroadcast(
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m_geoNwPdu(
m_geoNwBroadcastPacket(
m_dummyLongPosVectorNodeB,
3456,
m_dummyGeoBroadcastArea1
))));
geoNetworkingPort.send(v_gnReq);
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwLsRequestPacket(
?,
?
)))) -> value v_msg {
log("Receive LsRequest: ", v_msg.msgIn);
// Send LsReply
f_sendGeoNetMessage(
valueof(m_geoNwReq_linkLayerBroadcast(
m_geoNwPdu(
m_geoNwLsReplyPacket(
m_dummyLongPosVectorNodeA,
f_longPosVector2ShortPosVector(
valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsRequestHeader.srcPosVector)
),
vc_localSeqNumber
)))));
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwShbPacket(?)
)
)) -> value v_msg {
log("Receive SHB packet: ", v_msg.msgIn);
if (v_got_shb == false) {
v_got_shb := true;
setverdict(pass);
}
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)
)
)) -> value v_msg {
log("Receive beacon packet: ", v_msg.msgIn);
if (v_got_beacon == false) {
v_got_beacon := true;
setverdict(pass);
}
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
?
)) -> value v_msg {
log("Receive unexpected GeoNetworking message: ", v_msg.msgIn);
setverdict(fail);
}
[] tc_ac.timeout {
if ((v_got_beacon == false) and (v_got_shb == false)) {
setverdict(inconc, "Expected messages not received");
}
}
}
f_acTriggerEvent(m_stopPassBeaconing);
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_Port_2
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/**
* @desc validate beaconing with secured mode set in config file
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_3() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
if (PX_GN_UPPER_LAYER != e_any) {
setverdict(inconc, "PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
tc_ac.start;
alt {
[] tc_ac.timeout {
setverdict(pass);
}
}
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
} // End of testcase tc_GeoNet_Port_3
/**
* @desc validate beaconing with secured mode set in config file
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_4() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
var AcGnResponse v_acGnResponse;
var ExtendedHeader v_header;
var LongPosVector v_longPosVectorIut;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
setverdict(inconc, "PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:acPort, system:acPort);
map(self:geoNetworkingPort, system:geoNetworkingPort);
// A small sleep to provide TA to read pcap file is it used
tc_noac.start(1.0);
alt {
[] tc_noac.timeout {
}
} // end of 'alt' statement
f_acTriggerEvent(m_getLongPosVector(f_getIutGnLocalAddress()));
tc_ac.start;
alt {
[] acPort.receive(mw_getLongPosVectorAny(f_getIutGnLocalAddress())) -> value v_acGnResponse {
tc_ac.stop;
v_longPosVectorIut := v_acGnResponse.getLongPosVector;
setverdict(pass);
}
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "GnAddress mismatch, check LibItsGeoNetworking_Pics.PICS_GN_LOCAL_GN_ADDR value in configuration file");
}
[] tc_ac.timeout {
setverdict(inconc, "timeout");
}
} // End of 'alt' statement
f_acTriggerEvent(m_startPassBeaconing(m_beaconHeader(v_longPosVectorIut).beaconHeader));
tc_ac.start;
alt {
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwSecPdu(mw_etsiTs103097Data_signed))) -> value v_msg {
tc_ac.stop;
log("v_msg = ", v_msg);
setverdict(pass, "Security protocol version set to 3");
f_selfOrClientSyncAndVerdictTestBody(c_tbDone, e_success);
}
[] tc_ac.timeout {
setverdict(pass);
}
}
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_Port_4
/**
* @desc validate GeoNetworkingReq/Broadcast
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_MultiPort() runs on ItsMtc system ItsGeoNetworkingSystem {
var ItsGeoNetworking v_comp1;
var ItsGeoNetworking v_comp2;
v_comp1 := ItsGeoNetworking.create("Comp1") alive;
v_comp2 := ItsGeoNetworking.create("Comp2") alive;
connect(self:syncPort, mtc:syncPort);
connect(v_comp1:syncPort, self:syncPort);
connect(v_comp2:syncPort, self:syncPort);
map(v_comp1:geoNetworkingPort, system:geoNetworkingPort);
map(v_comp2:geoNetworkingPort, system:geoNetworkingPort);
v_comp1.start(f_tc_GeoNet_MultiPort());
v_comp2.start(f_tc_GeoNet_MultiPort());
// Synchronization
f_serverSyncNClientsAndStop(2, {c_prDone, c_tbDone});
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disconnect(self:syncPort, mtc:syncPort);
disconnect(v_comp1:syncPort, self:syncPort);
disconnect(v_comp2:syncPort, self:syncPort);
unmap(v_comp1:geoNetworkingPort, system:geoNetworkingPort);
unmap(v_comp2:geoNetworkingPort, system:geoNetworkingPort);
}
function f_tc_GeoNet_MultiPort() runs on ItsGeoNetworking {
var GeoNetworkingReq v_gnReq;
var ExtendedHeader v_header;
var boolean v_got_it := false;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
f_selfOrClientSyncAndVerdict(c_prDone, e_success);
m_geoNwPdu(
m_geoNwBroadcastPacket(
m_dummyLongPosVectorNodeB,
3456,
m_dummyGeoBroadcastArea1
))));
//geoNetworkingPort.send(v_gnReq);
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwTsbPacketWithNextHeader_cam(
-,
-,
e_btpB
)))) {
if (v_got_it == false) {
v_got_it := true;
tc_ac.stop;
log("*** " & testcasename() & ": PASS: Message received ***");
f_selfOrClientSyncAndVerdict(c_tbDone, e_success);
} else {
repeat;
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}
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwLsRequestPacket(
?,
?
)))) -> value v_msg {
log("Receive LsRequest: ", v_msg.msgIn);
// Send LsReply
f_sendGeoNetMessage(
valueof(m_geoNwReq_linkLayerBroadcast(
m_geoNwPdu(
m_geoNwLsReplyPacket(
m_dummyLongPosVectorNodeA,
f_longPosVector2ShortPosVector(
valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsRequestHeader.srcPosVector)
),
vc_localSeqNumber
)))));
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)
)
)) -> value v_msg {
log("Receive beacon: ", v_msg.msgIn);
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
?
)) -> value v_msg {
tc_ac.stop;
log("*** " & testcasename() & ": FAIL: Unexpected message received ***");
f_selfOrClientSyncAndVerdict(c_tbDone, e_error);
}
[] tc_ac.timeout {
if (v_got_it == false) {
log("*** " & testcasename() & ": INCONC: Expected message not received ***");
f_selfOrClientSyncAndVerdict(c_tbDone, e_timeout);
} // End of function f_tc_GeoNet_MultiPort
/**
* @desc validate GeoNetworkingReq/Broadcast with UtPort
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_utPort() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
var GeoNetworkingReq v_gnReq;
var ExtendedHeader v_header;
var boolean v_got_it := false;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:utPort, system:utPort);
f_utInitializeIut(m_gnInitialize);
v_gnReq := valueof(m_geoNwReq_linkLayerBroadcast(
m_geoNwPdu(
m_geoNwBroadcastPacket(
m_dummyLongPosVectorNodeB,
3456,
m_dummyGeoBroadcastArea1
))));
geoNetworkingPort.send(v_gnReq);
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwTsbPacketWithNextHeader_cam(
-,
-,
e_btpB
)))) {
if (v_got_it == false) {
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setverdict(pass);
}
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwLsRequestPacket(
?,
?
)))) -> value v_msg {
log("Receive LsRequest: ", v_msg.msgIn);
// Send LsReply
f_sendGeoNetMessage(
valueof(m_geoNwReq_linkLayerBroadcast(
m_geoNwPdu(
m_geoNwLsReplyPacket(
m_dummyLongPosVectorNodeA,
f_longPosVector2ShortPosVector(
valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsRequestHeader.srcPosVector)
),
vc_localSeqNumber
)))));
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)
)
)) -> value v_msg {
log("Receive beacon: ", v_msg.msgIn);
repeat;
}
[] geoNetworkingPort.receive(
mw_geoNwInd(
?
)) -> value v_msg {
setverdict(fail);
}
[] tc_ac.timeout {
if (v_got_it == false) {
setverdict(inconc, "Expected message not received");
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:utPort, system:utPort);
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/**
* @desc validate AcPort/getLongposVector
* @verdict Pass on success, Fail otherwise
* @remark Change system.geoNetworkingPort.params parameter in configuration file to use different vendor's beacon (4 vendor, >63 beacons)
*/
testcase tc_GeoNet_acPort_getLongPositionVector_1() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var AcGnResponse v_result;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
// A small sleep to provide TA to read pcap file is it used
tc_noac.start;
alt {
[] tc_noac.timeout {
}
} // end of 'alt' statement
f_acTriggerEvent(m_getLongPosVector(f_getIutGnLocalAddress()));
tc_ac.start;
alt {
[] acPort.receive(mw_getLongPosVectorAny(f_getIutGnLocalAddress())) -> value v_result {
tc_ac.stop;
log("v_result=", v_result);
setverdict(pass);
}
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "GnAddress mismatch, check LibItsGeoNetworking_Pics.PICS_GN_LOCAL_GN_ADDR value in configuration file");
}
[] tc_ac.timeout {
setverdict(inconc, "timeout");
}
} // End of 'alt' statement
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_getLongPositionVector_1
/**
* @desc validate AcPort/getLongposVector
* @verdict Pass on success, Fail otherwise
* @remark Change system.geoNetworkingPort.params parameter in configuration file to use different vendor's beacon (4 vendor, >63 beacons)
*/
testcase tc_GeoNet_acPort_getLongPositionVector_2() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var AcGnResponse v_result;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
tc_ac.start;
f_acTriggerEvent(m_getLongPosVector(PX_TS_NODE_A_LOCAL_GN_ADDR)); // Do nit use IUT GN Address
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alt {
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
setverdict(pass, "Received negative ack");
}
[] acPort.receive(mw_getLongPosVectorAny(f_getIutGnLocalAddress())) -> value v_result {
tc_ac.stop;
log("v_result=", v_result);
setverdict(fail);
}
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "GnAddress mismatch, check LibItsGeoNetworking_Pics.PICS_GN_LOCAL_GN_ADDR value in configuration file");
}
[] tc_ac.timeout {
setverdict(inconc, "timeout");
}
} // End of 'alt' statement
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_getLongPositionVector_2
/**
* @desc validate GeoNetworkingReq/Broadcast with AcPort/beaconing
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_acPort_beaconing_1() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var PositionTable v_positionTable := {};
var GeoAreaTable v_areaTable := {};
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
f_preparePositionsAndAreas(v_positionTable, v_areaTable);
f_initialiseComponent(v_positionTable, v_areaTable, c_compNodeB);
f_acTriggerEvent(m_startBeaconing(m_beaconHeader(f_getPosition(vc_componentName)).beaconHeader));
tc_ac.start;
alt {
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
setverdict(fail, "Received negative ack");
}
[] acPort.receive(AcGnResponse: { failure := { failure := false } }) {
tc_ac.stop;
setverdict(pass, "Received AC ACK");
}
[] tc_ac.timeout {
setverdict(inconc, "Timeout while waiting for adapter control event result");
stop;
}
} // End of 'alt' statement
// A small sleep to send some beacons
tc_noac.start;
alt {
[] geoNetworkingPort.receive(?) {
repeat;
}
[] tc_noac.timeout {
setverdict(pass, "Check that beaconing was started and stopped accordingly");
}
} // end of 'alt' statement
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_beaconing_1
/**
* @desc validate GeoNetworkingReq/Broadcast with AcPort/beaconing
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_acPort_beaconing_2() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var PositionTable v_positionTable := {};
var GeoAreaTable v_areaTable := {};
var GeoNetworkingReq v_gnReq;
var boolean v_got_it := false;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
f_preparePositionsAndAreas(v_positionTable, v_areaTable);
f_initialiseComponent(v_positionTable, v_areaTable, c_compNodeB);
f_acTriggerEvent(m_startBeaconing(m_beaconHeader(f_getPosition(vc_componentName)).beaconHeader));
tc_ac.start;
alt {
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
}
[] acPort.receive(AcGnResponse: { failure := { failure := false } }) {
tc_ac.stop;
setverdict(fail, "Received unexpected AC message");
setverdict(inconc, "Timeout while waiting for adapter control event result");
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// A small sleep to send some beacons
tc_noac.start;
alt {
[] geoNetworkingPort.receive(?) {
repeat;
}
[] tc_noac.timeout {
// Stop beaconing
f_acTriggerEvent(m_stopBeaconing);
}
} // end of 'alt' statement
// Wait a little bit before terminate the test
tc_noac.start;
alt {
[] tc_noac.timeout {
setverdict(pass, "Check that beaconing was started and stopped accordingly");
}
} // end of 'alt' statement
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_beaconing_2
/**
* @desc validate GeoNetworkingReq/Broadcast with AcPort/passing beacons
* @verdict Pass on success, Fail otherwise
*/
testcase tc_GeoNet_Port_acPort_pass_beaconing_1() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var PositionTable v_positionTable := {};
var GeoAreaTable v_areaTable := {};
var GeoNetworkingReq v_gnReq;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
f_preparePositionsAndAreas(v_positionTable, v_areaTable);
f_initialiseComponent(v_positionTable, v_areaTable, c_compNodeB);
f_acTriggerEvent(m_startPassBeaconing(m_beaconHeader(f_getPosition(c_compIut)).beaconHeader));
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
setverdict(fail, "Received negative ack");
[] acPort.receive(AcGnResponse: { failure := { failure := false } }) {
tc_ac.stop;
setverdict(pass, "Received AC ACK");
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "Received unexpected AC message");
}
[] tc_ac.timeout {
setverdict(inconc, "Timeout while waiting for adapter control event result");
} // End of 'alt' statement
// A small sleep to send some beacons
tc_ac.start;
alt {
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)))) {
tc_ac.stop;
setverdict(pass);
[] geoNetworkingPort.receive {
tc_ac.stop;
setverdict(fail, "Unexpected message received");
}
setverdict(inconc, "Expected message not received");
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_pass_beaconing_1
* @desc validate GeoNetworkingReq/Broadcast with AcPort/passing beacons
testcase tc_GeoNet_Port_acPort_pass_beaconing_2() runs on ItsGeoNetworking system ItsGeoNetworkingSystem {
// Variables
var PositionTable v_positionTable := {};
var GeoAreaTable v_areaTable := {};
var GeoNetworkingReq v_gnReq;
var GeoNetworkingInd v_msg;
if (PX_GN_UPPER_LAYER != e_any) {
log("PX_GN_UPPER_LAYER shall be set to e_any");
stop;
}
map(self:geoNetworkingPort, system:geoNetworkingPort);
map(self:acPort, system:acPort);
f_preparePositionsAndAreas(v_positionTable, v_areaTable);
f_initialiseComponent(v_positionTable, v_areaTable, c_compNodeB);
f_acTriggerEvent(m_startPassBeaconing(m_beaconHeader(f_getPosition(c_compIut)).beaconHeader));
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
setverdict(fail, "Received negative ack");
[] acPort.receive(AcGnResponse: { failure := { failure := false } }) {
tc_ac.stop;
setverdict(pass, "Received AC ACK");
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "Received unexpected AC message");
}
[] tc_ac.timeout {
setverdict(inconc, "Timeout while waiting for adapter control event result");
}
} // End of 'alt' statement
// A small sleep to send some beacons
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)))) {
tc_ac.stop;
setverdict(pass);
}
[] tc_ac.timeout {
setverdict(inconc, "Expected message not received");
}
} // end of 'alt' statement
f_acTriggerEvent(m_stopPassBeaconing);
tc_ac.start;
alt {
[] acPort.receive(AcGnResponse: { failure := { failure := true } }) {
tc_ac.stop;
setverdict(fail, "Received negative ack");
}
[] acPort.receive(AcGnResponse: { failure := { failure := false } }) {
tc_ac.stop;
setverdict(pass, "Received AC ACK");
}
[] acPort.receive {
tc_ac.stop;
setverdict(fail, "Received unexpected AC message");
setverdict(inconc, "Timeout while waiting for adapter control event result");
}
} // End of 'alt' statement
// Check that no beacon are received now
geoNetworkingPort.clear;
tc_noac.start;
alt {
mw_geoNwPdu(
mw_geoNwBeaconPacket(?)))) {
tc_noac.stop;
setverdict(fail, "Should not receive beacon");
unmap(self:geoNetworkingPort, system:geoNetworkingPort);
unmap(self:acPort, system:acPort);
} // End of testcase tc_GeoNet_acPort_pass_beaconing_2
} // End of group testGeoNetPort
in template (value) GeoNetworkingReq p_geoNetworkingReq,
in boolean p_decode := true,
in template (omit) bitstring p_expEncMsg := omit
) runs on TCType {
var bitstring v_encMsg;
var template (omit) TestRecord v_tr := { bs := p_expEncMsg };
var GeoNetworkingReq v_decMsg;
var integer v_res := 0;
// Encode template
log("Encode template ", valueof(p_geoNetworkingReq));
v_encMsg := encvalue(p_geoNetworkingReq);
log("Encoded message: ", bit2oct(v_encMsg));
// Check result
if (not isbound(v_encMsg)) {
if (not match(v_encMsg, p_expEncMsg)) {
log("Expected message: ", bit2oct(valueof(p_expEncMsg)));
setverdict(fail, "Encoding failed, not the expected result!");
stop;
}
// Check decoding
if (p_decode == true) {
v_res := decvalue(v_encMsg, v_decMsg);
log("Decoded message: ", v_decMsg);
select (v_res) {
case (0) {
if(match(v_decMsg, p_geoNetworkingReq)) {
setverdict(pass);
} else {
setverdict(fail);
}
}
case (1) {
setverdict(fail, "Decoding failed.");
}
case (2) {
setverdict(fail, "Not enough bits.");
}
}
in template GeoNetworkingReq p_geoNetworkingReq,
in template (present) octetstring p_expEncMsg
) runs on TCType {
var GeoNetworkingReq v_decMsg;
var bitstring v_encMsg := oct2bit(valueof(p_expEncMsg));
var integer v_res := 0;
v_res := decvalue(v_encMsg, v_decMsg);
select (v_res) {
case (0) {
log("v_decMsg : ", v_decMsg);
if(match(valueof(v_decMsg), p_geoNetworkingReq)) {
setverdict(pass);
} else {
setverdict(fail);
}
in template (value) GeoNetworkingInd p_geoNetworkingInd,
in boolean p_decode := true,
in template (omit) bitstring p_expEncMsg := omit
) runs on TCType {
var bitstring v_encMsg;
var template (omit) TestRecord v_tr := { bs := p_expEncMsg };
var GeoNetworkingInd v_decMsg;
var integer v_res := 0;
// Encode template
log("Encode template ", valueof(p_geoNetworkingInd));
v_encMsg := encvalue(p_geoNetworkingInd);
log("Encoded message: ", bit2oct(v_encMsg));
// Check result
if (not isbound(v_encMsg)) {
if (not match(v_encMsg, p_expEncMsg)) {
log("Expected message: ", bit2oct(valueof(p_expEncMsg)));
setverdict(fail, "Encoding failed, not the expected result!");
stop;
}
}
setverdict(pass, "Encoding passed.");
// Check decoding
if (p_decode == true) {
v_res := decvalue(v_encMsg, v_decMsg);
log("Decoded message: ", v_decMsg);
select (v_res) {
case (0) {
if(match(v_decMsg, p_geoNetworkingInd)) {
setverdict(pass);
} else {
setverdict(fail);
}
}
case (1) {
setverdict(fail, "Decoding failed.");
}
case (2) {
setverdict(fail, "Not enough bits.");
}