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/**
* @desc Compute a circular geoArea
* @param p_centerLongPosVector Center point of the square area
* @param p_distanceA Radius of the square area in meters
* @return GeoArea - Computed geoArea
*/
function f_computeCircularArea(
in UInt16 p_distanceA
) return GeoArea {
var GeoArea v_geoArea;
v_geoArea := {
shape := e_geoCircle,
area := {
geoAreaPosLatitude := p_centerLongPosVector.latitude,
geoAreaPosLongitude := p_centerLongPosVector.longitude,
distanceA := p_distanceA,
distanceB := 0,
/**
* @desc Compute radius of an circular area
* @param p_squareMeters Square meters of an circular area
* @return Computed radius in meters
* @see fx_computeRadiusFromCircularArea
*/
function f_radiusFromCircularArea(
in float p_squareMeters
) return float {
log("*** f_distance: INFO: calling fx_computeRadiusFromCircularArea() ***");
return fx_computeRadiusFromCircularArea(p_squareMeters);
}
/**
* @desc Compute distance between two points
* @param p_pointA First point
* @param p_pointB Second point
* @return Computed distance in meters
* @see fx_computeDistance
function f_distance(
in LongPosVector p_pointA,
in LongPosVector p_pointB
) return float {
log("*** f_distance: INFO: calling fx_computeDistance() ***");
return fx_computeDistance(p_pointA.latitude, p_pointA.longitude, p_pointB.latitude, p_pointB.longitude);
* @desc The base default.
*/
var LongPosVector v_longPosVectorIut;
[] geoNetworkingPort.receive {
log("*** a_default: WARNING: Received an unexpected message ***");
repeat;
}
[] tc_wait.timeout {
log("*** a_default: ERROR: Timeout while awaiting reaction of the IUT prior to Upper Tester action ***");
f_selfOrClientSyncAndVerdict("error", e_timeout);
log("*** a_default: ERROR: Timeout while awaiting the reception of a message ***");
f_selfOrClientSyncAndVerdict("error", e_timeout);
[] a_shutdown() {
log("*** a_default: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
* @desc Neighbour default altstep (answers to LS Requests)
altstep a_neighbourDefault() runs on ItsGeoNetworking {
?, f_getPosition(vc_componentName).gnAddr.mid,
f_getPosition(vc_componentName),
[vc_componentName == c_compNodeB] a_receiveLsRequestAndReply(
?, f_getPosition(c_compNodeA).gnAddr.mid,
f_getPosition(c_compNodeA),
f_getPosition(vc_componentName)
repeat;
[] a_default() {
/**
* @desc The default for handling upper tester messages.
*/
altstep a_utDefault() runs on ItsGeoNetworking {
var UtGnEventInd v_ind;
[] utPort.receive(UtGnEventInd:?) -> value v_ind {
//store every upper tester indication received
vc_utInds[lengthof(vc_utInds)] := v_ind;
repeat;
}
[] utPort.receive {
log("*** " & testcasename() & ": INFO: Received unexpected UT message from IUT ***");
/**
* @desc Default handling cf01 de-initialisation.
*/
altstep a_cf01Down() runs on ItsGeoNetworking {
[] a_shutdown() {
f_poDefault();
f_cf01Down();
log("*** a_cf01Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
}
}
/**
* @desc Default handling cf02 de-initialisation.
*/
altstep a_cf02Down() runs on ItsMtc {
f_cf02Down();
log("*** a_cf02Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
/**
* @desc Default handling cf03 de-initialisation.
*/
altstep a_cf03Down() runs on ItsMtc {
f_cf03Down();
log("*** a_cf03Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
/**
* @desc Default handling cf04 de-initialisation.
*/
altstep a_cf04Down() runs on ItsMtc {
f_cf04Down();
log("*** a_cf04Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
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/**
* @desc Default handling cf05 de-initialisation.
*/
altstep a_cf05Down() runs on ItsMtc {
[] a_shutdown() {
f_cf05Down();
log("*** a_cf05Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
/**
* @desc Default handling cf06 de-initialisation.
*/
altstep a_cf06Down() runs on ItsMtc {
[] a_shutdown() {
f_cf06Down();
log("*** a_cf06Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
/**
* @desc Default handling cf07 de-initialisation.
*/
altstep a_cf07Down() runs on ItsMtc {
[] a_shutdown() {
f_cf07Down();
log("*** a_cf07Down: INFO: TEST COMPONENT NOW STOPPING ITSELF! ***");
stop;
}
}
/**
* @desc Receive GeoUnicast packet
* @param p_sourceLongPosVec Expected source position vector
* @param p_destinationShortPosVec Expected destination position vector
* @param p_seqNumber Expected sequence number
altstep a_receiveGeoUnicast(
in template (present) ShortPosVector p_destinationShortPosVec,
in template (present) UInt16 p_seqNumber
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwUnicastPacket(
* @desc Receive GeoUnicast packet for specific destination
* @param p_destinationShortPosVec Expected destination position vector
altstep a_receiveGeoUnicastWithDestination(in template (present) ShortPosVector p_destinationShortPosVec) runs on ItsGeoNetworking {
[] a_receiveGeoUnicast(p_destinationShortPosVec, ?) {}
/**
* @desc Receive any GeoUnicast packet
*/
altstep a_receiveAnyGeoUnicast() runs on ItsGeoNetworking {
group geoGeoBroadcastAltsteps {
/**
* @desc Receive GeoBroadcast packet
* @param p_srcLongPosVec Expected source position vector
* @param p_seqNumber Expected sequence number
in template (present) LongPosVector p_srcLongPosVec,
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwBroadcastPacket(
p_srcLongPosVec,
p_seqNumber
)))) {
}
}
/**
* @desc Receive GeoBroadcast packet with specific Area and HopLimit
* @param p_srcLongPosVec Expected source position vector
* @param p_seqNumber Expected sequence number
* @param p_broadcastArea Expected geoBroadcastArea
tepelmann
committed
* @param p_routerHopLimit Expected router hop limit
* @param p_maxHopLimit Expected max hop limit (Default: ?)
*/
altstep a_receiveGeoBroadcastWithAreaWithHopLimit(
in template (present) LongPosVector p_srcLongPosVec,
in template (present) GeoBroadcastArea p_broadcastArea,
tepelmann
committed
in template (present) UInt8 p_routerHopLimit,
in template (present) UInt8 p_maxHopLimit := ?
tepelmann
committed
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwBroadcastPacketWithAreaAndHl(
tepelmann
committed
p_broadcastArea,
p_maxHopLimit
tepelmann
committed
p_routerHopLimit
/**
* @desc Receive GeoBroadcast packet for specific Geobroadcast Area
* @param p_srcLongPosVec Expected source position vector
* @param p_seqNumber Expected sequence number
* @param p_broadcastArea Expected geoBroadcastArea
in template (present) LongPosVector p_srcLongPosVec,
in template (present) UInt16 p_seqNumber,
in template (present) GeoBroadcastArea p_broadcastArea
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwBroadcastPacketWithArea(
p_srcLongPosVec,
p_seqNumber,
p_broadcastArea
)))) {
}
group geoGeoAnycastAltsteps {
/**
* @desc Receive GeoAnycast packet
* @param p_srcLongPosVec Expected source position vector
* @param p_senderLongPosVec Expected sender position vector
* @param p_seqNumber Expected sequence number
in template (present) LongPosVector p_srcLongPosVec,
in template (present) LongPosVector p_senderLongPosVec,
in template (present) UInt16 p_seqNumber
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwAnycastPacket(
p_srcLongPosVec,
p_seqNumber
)))) {
}
}
/**
* @desc Receive GeoAnycast packet with specific Area and HopLimit
* @param p_srcLongPosVec Expected source position vector
* @param p_senderLongPosVec Expected sender position vector
* @param p_seqNumber Expected sequence number
* @param p_anycastArea Expected geoAnycastArea
* @param p_hopLimit Expected hop limit
tepelmann
committed
* @param p_maxHopLimit Expected max hop limit (Default: ?)
*/
altstep a_receiveGeoAnycastWithAreaWithHopLimit(
in template (present) LongPosVector p_srcLongPosVec,
in template (present) GeoAnycastArea p_anycastArea,
tepelmann
committed
in template (present) UInt8 p_hopLimit,
in template (present) UInt8 p_maxHopLimit := ?
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwAnycastPacketWithArea(
p_anycastArea
),
-,
p_hopLimit
))) {
/**
* @desc Receive GeoAnycast packet for specific GeoAnycast Area
* @param p_srcLongPosVec Expected source position vector
* @param p_senderLongPosVec Expected sender position vector
* @param p_seqNumber Expected sequence number
* @param p_anycastArea Expected geoAnycastArea
in template (present) LongPosVector p_srcLongPosVec,
in template (present) UInt16 p_seqNumber,
in template (present) GeoAnycastArea p_anycastArea
[] geoNetworkingPort.receive(mw_geoNwInd(mw_geoNwPdu(mw_geoNwAnycastPacketWithArea(
p_srcLongPosVec,
p_seqNumber,
p_anycastArea
)))) {
}
* @desc Receive Location Service Request
* @param p_seqNumber Expected sequence number of the received LS Request
* @param p_gnAddress GN address expected in received LS Request
* @param p_reqSrcPosVector Expected source position vector of the received LS Request
in template (present) UInt16 p_seqNumber,
berge
committed
in template (present) GN_Address.mid p_mid,
var GeoNetworkingInd v_msg;
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
p_seqNumber,
)
)
)
) -> value v_msg {
p_reqSrcPosVector := valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsRequestHeader.srcPosVector);
}
/**
* @desc Receive any Location Service Request
*/
altstep a_receiveAnyLsRequest() runs on ItsGeoNetworking {
var LongPosVector v_reqSrcPosVector;
[] a_receiveLsRequest(?, ?, v_reqSrcPosVector) {}
/**
* @desc Receive any Location Service Reply
*/
altstep a_receiveAnyLsReply() runs on ItsGeoNetworking {
[] geoNetworkingPort.receive( mw_geoNwInd( mw_geoNwPdu( mw_geoNwLsReplyPacket(?, ?) ))) {
//ignore and repeat
repeat;
}
}
* @desc Receive Location Service Request and send Location Service Reply
* @param p_reqSeqNumber Expected sequence number of the received LS Request
* @param p_gnAddress GN address expected in received LS Request
* @param p_repSrcPosVector Source position vector of the sent LS Response
* @param p_repSenderPosVector Sender position vector of the sent LS Response
berge
committed
in template (value) GN_Address.mid p_mid,
in template (value) LongPosVector p_repSenderPosVector
var LongPosVector v_repDstPosVector;
berge
committed
[] a_receiveLsRequest(p_reqSeqNumber, p_mid, v_repDstPosVector) {
f_sendGeoNetMessage(m_geoNwReq_linkLayerBroadcast(m_geoNwPdu(
m_geoNwLsReplyPacket(
p_repSrcPosVector,
f_longPosVector2ShortPosVector(v_repDstPosVector),
vc_localSeqNumber
}
}
} // end geoLocationServiceAltsteps
} // end geoAltsteps
group preambles {
/**
* @desc The default preamble.
*/
/**
* @desc Preamble for non-neighbour nodes
function f_prNonNeighbour() runs on ItsGeoNetworking {
/**
* @desc Preamble for neighbour nodes
f_startBeingNeighbour();
/**
* @desc Brings the IUT into an initial state.
*/
function f_initialState() runs on ItsBaseGeoNetworking {
/**
* @desc Receive and reply to LS Requests
* @param p_reqSeqNumber Expected sequence number of the received LS Request
* @param p_gnAddress GN address expected in received LS Request
* @param p_repSrcPosVector Source position vector of the sent LS Response
* @param p_repSenderPosVector Sender position vector of the sent LS Response
function f_handleLocationService(
in template (present) UInt16 p_reqSeqNumber,
berge
committed
in template (value) GN_Address.mid p_mid,
in template (value) LongPosVector p_repSrcPosVector,
in template (value) LongPosVector p_repSenderPosVector
tc_ac.start;
alt {
berge
committed
[] a_receiveLsRequestAndReply(p_reqSeqNumber, p_mid, p_repSrcPosVector, p_repSenderPosVector) {
tc_ac.stop;
}
}
}
/**
* @desc Send LS request and receive LS Reply
* @param p_reqSrcPosVector Source position vector of the sent LS Request
* @param p_reqSeqNumber Sequence number of the sent LS Request
* @param p_gnAddress GN address for which the LS Request is sent
* @param p_repSrcPosVector Expected source position vector in received LS Response
* @return FncRetCode
function f_processLocationService(
in template (value) LongPosVector p_reqSrcPosVector,
in template (value) UInt16 p_reqSeqNumber,
in template (value) GN_Address p_gnAddress,
var FncRetCode v_ret := e_error;
var GeoNetworkingInd v_msg;
f_sendGeoNetMessage(
p_reqSrcPosVector,
p_reqSeqNumber,
p_gnAddress
)
)
)
);
tc_ac.start;
alt {
[] geoNetworkingPort.receive(
mw_geoNwInd(
mw_geoNwPdu(
mw_shortPosVectorPosition(f_longPosVector2ShortPosVector(valueof(p_reqSrcPosVector)))
)
)
)
tc_ac.stop;
p_repSrcPosVector := valueof(v_msg.msgIn.gnPacket.packet.extendedHeader.lsReplyHeader.srcPosVector);
v_ret := e_success;
}
}
return v_ret;
}
} // end preambles
group postambles {
/**
* @desc The default postamble.
*/
/**
* @desc Postamble for neighbour nodes
* @desc Triggers event in the test system adaptation.
* @param p_event The event to trigger
* @return FncRetCode
function f_acTriggerEvent(template (value) AcGnPrimitive p_event) runs on ItsBaseGeoNetworking return FncRetCode {
var FncRetCode v_ret := e_success;
}
* @desc Get the position vector corresponding to a specific GN address
* @param p_gnAddress GN address for which the search is performed
* @return LongPosVector - IUT's position
function f_acGetLongPosVector(GN_Address p_gnAddress) runs on ItsBaseGeoNetworking return LongPosVector {
f_acTriggerEvent(m_getLongPosVector(p_gnAddress));
tc_ac.start;
alt {
[] acPort.receive(mw_getLongPosVectorAny(p_gnAddress)) -> value v_result {
tc_ac.stop;
}
[] acPort.receive {
tc_ac.stop;
log("*** f_acGetLongPosVector: ERROR: Received unexpected message ***");
f_selfOrClientSyncAndVerdict("error", e_error);
}
[] tc_ac.timeout {
log("*** f_acGetLongPosVector: ERROR: Timeout while waiting for adapter control event result ***");
f_selfOrClientSyncAndVerdict("error", e_timeout);
}
}
return v_result.getLongPosVector;
}
* @desc Triggers test adapter to send beacons for multiple neighbours
* @param p_numberOfNeighbour Number of neighbours to simulate
* @return FncRetCode
function f_acStartBeaconingMultipleNeighbour(in integer p_numberOfNeighbour) runs on ItsGeoNetworking return FncRetCode {
return f_acTriggerEvent(m_startBeaconingMultipleNeighbour(m_beaconHeader(f_getPosition(vc_componentName)).beaconHeader, p_numberOfNeighbour));
}
group commonFunctions {
/**
* @desc Gets the value of the lifetime in seconds.
* @param p_lifetime Lifetime to be converted
* @return Lifetime in seconds
function f_getLifetimeValue(in Lifetime p_lifetime) runs on ItsGeoNetworking return float {
var float v_lifetime := 0.0;
select (p_lifetime.ltBase) {
case (e_50ms) {
v_lifetime := int2float(p_lifetime.multiplier) * 0.5;
}
case (e_1s) {
v_lifetime := int2float(p_lifetime.multiplier) * 1.0;
}
case (e_10s) {
v_lifetime := int2float(p_lifetime.multiplier) * 10.0;
}
case (e_100s) {
v_lifetime := int2float(p_lifetime.multiplier) * 100.0;
}
}
return v_lifetime;
}
/**
* @desc Computes GN timestamp based on current time
* @return Unix-Epoch-Time mod 2^32
*/
function f_computeGnTimestamp() return UInt32 {
// Timestamp is 1s older than current time to avoid sending beacons coming from the future (time sync between nodes)
var UInt32 v_timestamp := fx_computeGnTimestamp() - 1000;
} // end commonFunctions
* @desc Gets the tester GN local address for a specific node
* @param p_node Simulated node
* @return GN address of simulated node
*/
function f_getTsGnLocalAddress(in charstring p_node) return GN_Address {
var GN_Address v_gnAddr := valueof(m_dummyGnAddr);
select (p_node) {
case (c_compNodeA) {
v_gnAddr := PX_TS_NODE_A_LOCAL_GN_ADDR;
}
case (c_compNodeB) {
v_gnAddr := PX_TS_NODE_B_LOCAL_GN_ADDR;
}
case (c_compNodeC) {
v_gnAddr := PX_TS_NODE_C_LOCAL_GN_ADDR;
}
case (c_compNodeD) {
v_gnAddr := PX_TS_NODE_D_LOCAL_GN_ADDR;
}
case (c_compNodeE) {
v_gnAddr := PX_TS_NODE_E_LOCAL_GN_ADDR;
}
case (c_compNodeF) {
v_gnAddr := PX_TS_NODE_F_LOCAL_GN_ADDR;
}
log("*** f_getTsGnLocalAddress: INFO: Unknown component " & p_node & " ***");
}
}
return v_gnAddr;
}
* @desc Sends a GeoNetworking message and in case of an included sequence number in the message the
* local sequence number will be increased by one.
* @param p_geoNetReq The message to send.
function f_sendGeoNetMessage(in template (value) GeoNetworkingReq p_geoNetReq) runs on ItsGeoNetworking {
if (not (ischosen(p_geoNetReq.msgOut.gnPacket.packet.extendedHeader.shbHeader)
or ischosen(p_geoNetReq.msgOut.gnPacket.packet.extendedHeader.beaconHeader))) {
f_setLocalSequenceNumber();
}
}
/**
* @desc Sends a GeoNetworking message with a payload and in case of an included sequence number in the message the
* local sequence number will be increased by one.
* @param p_geoNetReq The message to send.
* @param p_payload The payload to include.
*/
function f_sendGeoNetMessageWithPayload(
in template (value) GeoNetworkingReq p_geoNetReq,
in template (value) Payload p_payload
) runs on ItsGeoNetworking {
p_geoNetReq.msgOut.gnPacket.packet.payload := p_payload;
geoNetworkingPort.send(p_geoNetReq);
if (not (ischosen(p_geoNetReq.msgOut.gnPacket.packet.extendedHeader.shbHeader)
or ischosen(p_geoNetReq.msgOut.gnPacket.packet.extendedHeader.beaconHeader))) {
* @desc Receive a GeoNetworking message with a payload and in case of an included sequence number in the message the
* local sequence number will be increased by one.
* @param p_geoNetInd The message to receive.
* @param p_payload The payload to include.
*/
function f_receiveGeoNetMessageWithPayload(
in template (present) GeoNetworkingInd p_geoNetInd,
in template (present) Payload p_payload
) return template (present) GeoNetworkingInd {
var template (present) GeoNetworkingInd v_geoNetInd := p_geoNetInd;
v_geoNetInd.msgIn.gnPacket.packet.payload := p_payload;
return v_geoNetInd;
}
* @desc Sets the value of the sequence number for the next event.
function f_setLocalSequenceNumber() runs on ItsGeoNetworking {
}
* @return Time based initial sequence number (increasing with time)
*/
function f_getInitialSequenceNumber() return UInt16 {
return (f_computeGnTimestamp() / 1000) mod c_uInt16Max;
}
function f_getMessageCount() return integer {
} // end testerFunctions
group iutFunctions {
* @desc Gets the IUT GN local address
* @return IUT's GN_Address
* @see PICS_GN_LOCAL_GN_ADDR
function f_getIutGnLocalAddress() return GN_Address {
return PICS_GN_LOCAL_GN_ADDR;
* @desc Gets the IUT GN local address configuration method
* @return TypeOfAddress - IUT's GN local address configuration method
* @see PICS_GN_LOCAL_ADDR_CONF_METHOD
*/
function f_getIutGnLocalAddressConfigurationMethod() return TypeOfAddress {
return PICS_GN_LOCAL_ADDR_CONF_METHOD;
}
/**
* @desc Gets the IUT MAc address
* @return MacAddress - IUT's MAc Address
* @see PICS_IUT_MAC_ADDRESS
*/
function f_getIutMacAddress() return MacAddress {
* @desc Gets the GeoUnicast forwarding algorithm
* @return IUT's GeoUnicast forwarding algorithm
* @see PICS_GN_GEOUNICAST_FORWARDING_ALGORITHM
*/
function f_getGeoUnicastForwardingAlgorithm() return GeoUnicastForwardingAlgorithm {
return PICS_GN_GEOUNICAST_FORWARDING_ALGORITHM;
}
/**
* @desc Gets the GeoBroadcast forwarding algorithm
* @return IUT's GeoBroadcast forwarding algorithm
* @see PICS_GN_GEOBROADCAST_FORWARDING_ALGORITHM
*/
function f_getGeoBroadcastForwardingAlgorithm() return GeoBroadcastForwardingAlgorithm {
return PICS_GN_GEOBROADCAST_FORWARDING_ALGORITHM;
}
* @desc Gets the IUT default hop limit
* @return IUT's default hop limit
* @see PICS_GN_DEFAULT_HOP_LIMIT
*/
function f_getDefaultHopLimit() return UInt8 {
return PICS_GN_DEFAULT_HOP_LIMIT;
}
/**
* @desc Is the ITS-S mobile or stationary?
* @return Flags indicating whether the ITS-S is mobile or stationary.
* @see PICS_GN_IS_MOBILE
*/
function f_isMobile() return Bit8 {
if (PICS_GN_IS_MOBILE) {
return '10000000'B;
}
return '00000000'B;
}
* @desc Gets the LS retransmission timer.. Valid for NetRepInterval = default (cong. ctrl).
* @return LS retransmission timer in seconds
* @see PICS_GN_LOCATION_SERVICE_RETRANSMIT_TIMER
function f_getLsRetransmitTimer() return float {
var float v_itsGnLocationServiceRetransmitTimer := int2float(PICS_GN_LOCATION_SERVICE_RETRANSMIT_TIMER/1000);
return v_itsGnLocationServiceRetransmitTimer;
}
* @desc Gets the LS retransmission timer for NetRepInterval = medium (cong. ctrl).
* @return LS retransmission timer (medium) in seconds
* @see PX_GN_LOCATION_SERVICE_TIMER_MEDIUM
function f_getLsRetransmitTimerMedium() return float {
var float v_itsGnLocationServiceRetransmitTimerMedium := int2float(PX_GN_LOCATION_SERVICE_TIMER_MEDIUM/1000);
* @desc Gets the LS retransmission timer for NetRepInterval = maximum (cong. ctrl).
* @return LS retransmission timer (maximum) in seconds
* @see PX_GN_LOCATION_SERVICE_TIMER_MAXIMUM
function f_getLsRetransmitTimerMaximum() return float {
var float v_itsGnLocationServiceRetransmitTimerMaximum := int2float(PX_GN_LOCATION_SERVICE_TIMER_MAXIMUM/1000);
* @desc Gets the App retransmission timer. Valid for AppRepInterval = default (cong. ctrl).
* @return App retransmission timer in seconds
* @see PX_GN_APPLICATION_RETRANSMIT_TIMER
var float v_itsGnLocationApplicationRetransmitTimer := int2float(PX_GN_APPLICATION_RETRANSMIT_TIMER/1000);
* @desc Gets the App retransmission timer for AppRepInterval = medium (cong. ctrl).
* @return App retransmission timer (medium) in seconds
* @see PX_GN_APPLICATION_RETRANSMIT_TIMER_MEDIUM
*/
function f_getAppRetransmitTimerMedium() return float {
var float v_itsGnLocationApplicationRetransmitTimerMedium := int2float(PX_GN_APPLICATION_RETRANSMIT_TIMER_MEDIUM/1000);
return v_itsGnLocationApplicationRetransmitTimerMedium;
* @desc Gets the App retransmission timer for AppRepInterval = maximum (cong. ctrl).
* @return App retransmission timer (maximum) in seconds
* @see PX_GN_APPLICATION_RETRANSMIT_TIMER_MAXIMUM
*/
function f_getAppRetransmitTimerMaximum() return float {
var float v_itsGnLocationApplicationRetransmitTimerMaximum := int2float(PX_GN_APPLICATION_RETRANSMIT_TIMER_MAXIMUM/1000);
return v_itsGnLocationApplicationRetransmitTimerMaximum;
* @desc Gets the LS maximum retransmission number.
* @return LS maximum retransmission number
* @see PICS_GN_LOCATION_SERVICE_MAX_RETRANS
function f_getLsMaxRetrans() return integer {
var integer v_itsGnLocationServiceMaxRetrans := PICS_GN_LOCATION_SERVICE_MAX_RETRANS;
return v_itsGnLocationServiceMaxRetrans;
}
* @desc Gets the Application maximum retransmission number.
* @return Application maximum retransmission number
* @see PX_GN_APPLICATION_MAX_RETRANS
var integer v_itsGnApplicationMaxRetrans := PX_GN_APPLICATION_MAX_RETRANS;
return v_itsGnApplicationMaxRetrans;
* @desc Gets the Location Service packet buffer size.
* @return Location Service packet buffer size in Kbytes
* @see PICS_GN_LOCATION_SERVICE_PACKET_BUFFER_SIZE
function f_getLsPacketBufferSize() return integer {
var integer v_itsGnLocationServicePacketBufferSize := PICS_GN_LOCATION_SERVICE_PACKET_BUFFER_SIZE;
return v_itsGnLocationServicePacketBufferSize;
* @desc Gets the UC forwarding packet buffer size.
* @return UC forwarding packet buffer size in Kbytes
* @see PICS_GN_UC_FORWARDING_PACKET_BUFFER_SIZE
function f_getUcForwardingPacketBufferSize() return integer {
var integer v_itsGnUcForwardingPacketBufferSize := PICS_GN_UC_FORWARDING_PACKET_BUFFER_SIZE;
return v_itsGnUcForwardingPacketBufferSize;
} // end f_getUcForwardingPacketBufferSize
* @desc Gets the BC forwarding packet buffer size.
* @return BC forwarding packet buffer size in Kbytes
* @see PICS_GN_BC_FORWARDING_PACKET_BUFFER_SIZE
function f_getBcForwardingPacketBufferSize() return integer {
var integer v_itsGnBcForwardingPacketBufferSize := PICS_GN_BC_FORWARDING_PACKET_BUFFER_SIZE;
* @desc Gets the maximum lifetime of a packet.
* @return Maximum lifetime of a packet in seconds
* @see PICS_GN_MAX_PACKET_LIFETIME
*/
function f_getMaxPacketLifeTime() return float {
var float v_itsGnMaxPacketLifetime := int2float(PICS_GN_MAX_PACKET_LIFETIME);