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#include "ConfigRsuSimulatorLayerFactory.hh"
#include "loggers.hh"
#include "ItsRSUsSimulator_TestSystem.hh"
ConfigRsuSimulatorLayer::ConfigRsuSimulatorLayer(const std::string & p_type, const std::string & param) : t_layer<ItsRSUsSimulator__TestSystem::ConfigRsuSimulatorPort>(p_type), _params(), _codec(), _codec_cam() {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::ConfigRsuSimulatorLayer: %s, %s", to_string().c_str(), param.c_str());
// Setup parameters
void ConfigRsuSimulatorLayer::sendMsg(const ItsRSUsSimulator__TestSystem::CfInitialize& send_par, params& params){
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
// Encode ConfigRsuSimulator PDU
OCTETSTRING data;
if (_codec.encode(static_cast<const Record_Type&>(send_par), data) == -1) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::sendMsg: Encoding failure");
return;
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsGeoNetworking__TypesAndValues::UtGnResults& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
if (send_par.ischosen(LibItsGeoNetworking__TypesAndValues::UtGnResults::ALT_utGnInitializeResult)) {
encoding_buffer.put_c(0x01/*static_cast<const unsigned char>(uppertester_geonetworking_codec::c_utGnInitializeResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utGnInitializeResult()));
} else if (send_par.ischosen(LibItsGeoNetworking__TypesAndValues::UtGnResults::ALT_utGnTriggerResult)) {
encoding_buffer.put_c(0x41/*static_cast<const unsigned char>(uppertester_geonetworking_codec::c_utGnTriggerResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utGnTriggerResult()));
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::sendMsg: Unsupported UtGnResults variant");
return;
}
OCTETSTRING os(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(os, _params);
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsGeoNetworking__TypesAndValues::UtGnEventInd& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
encoding_buffer.put_c(0x55/*static_cast<const unsigned char>(uppertester_geonetworking_codec::c_utGnEventInd)*/);
OCTETSTRING l = int2oct(send_par.rawPayload().lengthof(), 2);
encoding_buffer.put_s(l.lengthof(), static_cast<const unsigned char*>(l));
encoding_buffer.put_s(send_par.rawPayload().lengthof(), static_cast<const unsigned char*>(send_par.rawPayload()));
OCTETSTRING data(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(data, _params);
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsCam__TypesAndValues::UtCamResults& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
if (send_par.ischosen(LibItsCam__TypesAndValues::UtCamResults::ALT_utCamInitializeResult)) {
encoding_buffer.put_c(0x01/*static_cast<const unsigned char>(uppertester_cam_codec::c_utCamInitializeResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utCamInitializeResult()));
} else if (send_par.ischosen(LibItsCam__TypesAndValues::UtCamResults::ALT_utCamTriggerResult)) {
encoding_buffer.put_c(0x21/*static_cast<const unsigned char>(uppertester_cam_codec::c_utCamTriggerResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utCamTriggerResult()));
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::sendMsg: Unsupported UtCamResults variant");
return;
}
OCTETSTRING os(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(os, _params);
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsCam__TypesAndValues::UtCamEventInd& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
encoding_buffer.put_c(0x23/*static_cast<const unsigned char>(uppertester_cam_codec::c_utCamEventInd)*/);
BITSTRING bs = LibItsCam__EncdecDeclarations::fx__enc__CAM(send_par.camMsg());
OCTETSTRING os = bit2oct(bs);
OCTETSTRING l = int2oct(os.lengthof(), 2);
encoding_buffer.put_s(l.lengthof(), static_cast<const unsigned char*>(l));
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
OCTETSTRING data(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(data, _params);
void ConfigRsuSimulatorLayer::sendMsg(const LibItsDenm__TypesAndValues::UtDenmResults& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
if (send_par.ischosen(LibItsDenm__TypesAndValues::UtDenmResults::ALT_utDenmInitializeResult)) {
encoding_buffer.put_c(0x01/*static_cast<const unsigned char>(uppertester_denm_codec::c_utDenmInitializeResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utDenmInitializeResult()));
} else if (send_par.ischosen(LibItsDenm__TypesAndValues::UtDenmResults::ALT_utDenmTriggerResult)) {
encoding_buffer.put_c(0x11/*static_cast<const unsigned char>(uppertester_denm_codec::c_utDenmTriggerResult)*/);
const LibItsDenm__TypesAndValues::UtDenmTriggerResult& r = send_par.utDenmTriggerResult();
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(r.result()));
OCTETSTRING os = int2oct(r.actionId().originatingStationID(), 4);
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
os = int2oct(r.actionId().sequenceNumber(), 2);
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
} else if (send_par.ischosen(LibItsDenm__TypesAndValues::UtDenmResults::ALT_utDenmUpdateResult)) {
encoding_buffer.put_c(0x13/*static_cast<const unsigned char>(uppertester_denm_codec::c_utDenmUpdateResult)*/);
const LibItsDenm__TypesAndValues::UtDenmUpdateResult& r = send_par.utDenmUpdateResult();
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(r.result()));
OCTETSTRING os = int2oct(r.actionId().originatingStationID(), 4);
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
os = int2oct(r.actionId().sequenceNumber(), 2);
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
} else if (send_par.ischosen(LibItsDenm__TypesAndValues::UtDenmResults::ALT_utDenmTerminationResult)) {
encoding_buffer.put_c(0x15/*static_cast<const unsigned char>(uppertester_denm_codec::c_utDenmInitializeResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utDenmTerminationResult()));
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::sendMsg: Unsupported UtDenmResults variant");
return;
}
OCTETSTRING os(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(os, _params);
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsDenm__TypesAndValues::UtDenmEventInd& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
encoding_buffer.put_c(0x17/*static_cast<const unsigned char>(uppertester_cam_codec::c_utDenmEventInd)*/);
BITSTRING bs = LibItsDenm__EncdecDeclarations::fx__enc__DENM(send_par.denMsg());
OCTETSTRING os = bit2oct(bs);
OCTETSTRING l = int2oct(os.lengthof(), 2);
encoding_buffer.put_s(l.lengthof(), static_cast<const unsigned char*>(l));
encoding_buffer.put_s(os.lengthof(), static_cast<const unsigned char*>(os));
OCTETSTRING data(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(data, _params);
}
void ConfigRsuSimulatorLayer::sendMsg(const LibItsPki__TypesAndValues::UtPkiResults& send_par, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::sendMsg: ", send_par);
TTCN_Buffer encoding_buffer;
if (send_par.ischosen(LibItsPki__TypesAndValues::UtPkiResults::ALT_utPkiInitializeResult)) {
encoding_buffer.put_c(0x01/*static_cast<const unsigned char>(uppertester_pki_codec::c_utPkiInitializeResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utPkiInitializeResult()));
} else if (send_par.ischosen(LibItsPki__TypesAndValues::UtPkiResults::ALT_utPkiTriggerResult)) {
encoding_buffer.put_c(0xBC/*static_cast<const unsigned char>(uppertester_pki_codec::c_utPkiTriggerResult)*/);
encoding_buffer.put_c((unsigned char)static_cast<const boolean>(send_par.utPkiTriggerResult()));
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::sendMsg: Unsupported UtPkiResults variant");
return;
}
OCTETSTRING os(encoding_buffer.get_len(), encoding_buffer.get_data());
send_data(os, _params);
}
void ConfigRsuSimulatorLayer::send_data(OCTETSTRING& data, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::send_data: ", data);
void ConfigRsuSimulatorLayer::receive_data(OCTETSTRING& data, params& params)
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::receive_data: ", data);
unsigned char id = *(static_cast<const unsigned char*>(data));
if (id == 0x00) { // Receive an UtxxInitialise
process_utinitialize_data(data, params);
} else if (id == 0x30/*uppertester_cam_codec::c_utCamChangeCurvature*/) {
process_ut_cam_changecurvature_data(data, params);
} else if (id == 0x31/*uppertester_cam_codec::c_utCamChangeSpeed*/) {
process_ut_cam_changespeed_data(data, params);
} else if (id == 0x34/*uppertester_cam_codec::c_utCamChangeHeading*/) {
process_ut_cam_changeheading_data(data, params);
} else if (id == 0x3a/*uppertester_cam_codec::c_utCamSetVehicleRole*/) {
process_ut_cam_setvehiclerole_data(data, params);
} else if (id == 0x10/*uppertester_denm_codec::c_utDenmTrigger*/) {
process_ut_denm_trigger(data, params);
} else if (id == 0x12/*uppertester_denm_codec::c_utDenmUpdate*/) {
process_ut_denm_update(data, params);
} else if (id == 0x14/*uppertester_denm_codec::c_utDenmTermination*/) {
process_ut_denm_termination(data, params);
} else if ((id >= 0x50) && (id <= 0x54)) { // Receive an UtGnTrigger
process_ut_geonetworking_trigger(data, params);
} else if ((id >= 0xBB) && (id <= 0xBF)) { // Receive an UtPkiTrigger
process_ut_pki_trigger(data, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::receive_data: Unsupported tag %02x", id);
int ConfigRsuSimulatorLayer::process_utinitialize_data(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_utinitialize_data");
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_utinitialize_data: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("gn") == 0) {
OCTETSTRING hashedId(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsGeoNetworking__TypesAndValues::UtGnInitialize p(hashedId);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else if (_params[std::string("ut")].compare("cam") == 0) {
OCTETSTRING hashedId(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsCam__TypesAndValues::UtCamInitialize p(hashedId);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else if (_params[std::string("ut")].compare("denm") == 0) {
OCTETSTRING hashedId(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsDenm__TypesAndValues::UtDenmInitialize p(hashedId);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else if (_params[std::string("ut")].compare("pki") == 0) {
OCTETSTRING hashedId(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsPki__TypesAndValues::UtPkiInitialize p(hashedId);
// Pass it to the ports if any
to_all_upper_ports(p, params);
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_utinitialize_data: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_cam_changespeed_data(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_cam_changespeed_data");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changespeed_data: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("cam") == 0) {
OCTETSTRING speed(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsCam__TypesAndValues::UtCamTrigger p;
p.changeSpeed() = oct2int(speed);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changespeed_data: Unsupported protocol");
return -1;
}
return 0;
int ConfigRsuSimulatorLayer::process_ut_cam_changecurvature_data(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_cam_changecurvature_data");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changecurvature_data: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("cam") == 0) {
OCTETSTRING curvature(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changecurvature_data: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_cam_changeheading_data(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_cam_changeheading_data");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changeheading_data: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("cam") == 0) {
OCTETSTRING heading(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsCam__TypesAndValues::UtCamTrigger p;
p.changeHeading() = oct2int(heading);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_changeheading_data: Unsupported protocol");
return -1;
}
return 0;
}
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int ConfigRsuSimulatorLayer::process_ut_cam_setvehiclerole_data(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_cam_setvehiclerole_data");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_setvehiclerole_data: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("cam") == 0) {
OCTETSTRING vehicle_role(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
LibItsCam__TypesAndValues::UtCamTrigger p;
p.setVehicleRole() = oct2int(vehicle_role);
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_cam_setvehiclerole_data: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_denm_trigger(const OCTETSTRING& data, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::process_ut_denm_trigger", data);
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_trigger: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("denm") == 0) {
unsigned char* p = (unsigned char*)static_cast<const unsigned char*>(data);
unsigned char msg_id = *p++;
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_denm_trigger: msg_id=%02x", msg_id);
unsigned char flag = *p++;
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_denm_trigger: flag=%02x", flag);
LibItsDenm__TypesAndValues::UtDenmTrigger trigger; // See ETSI TR 103 34 099 Cause C.4.1 GenerateDenmEvent
// Decode detectionTime
trigger.detectionTime() = oct2int(OCTETSTRING(6, p));
p += 6;
// ValidityDuration
if ((flag & 0x80) == 0x80) {
trigger.validityDuration() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(3, p)));
} else {
trigger.validityDuration().set_to_omit();
}
p += 3;
if ((flag & 0x40) == 0x40) {
trigger.repetitionDuration() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(3, p)));
} else {
trigger.repetitionDuration().set_to_omit();
}
p += 3;
// Situation
trigger.situation().informationQuality() = oct2int(OCTETSTRING(1, p++));
trigger.situation().eventType().causeCode() = oct2int(OCTETSTRING(1, p++));
trigger.situation().eventType().subCauseCode() = oct2int(OCTETSTRING(1, p++));
trigger.situation().linkedCause().set_to_omit();
trigger.situation().eventHistory().set_to_omit();
// RelevanceDistance
trigger.relevanceDistance() = oct2int(OCTETSTRING(1, p++));
// RelevanceTrafficDirection
trigger.relevanceTrafficDirection() = oct2int(OCTETSTRING(1, p++));
if ((flag & 0x04) == 0x04) {
trigger.transmissionInterval() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(2, p)));
} else {
trigger.transmissionInterval().set_to_omit();
}
p += 2;
if ((flag & 0x02) == 0x02) {
trigger.repetitionInterval() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(2, p)));
} else {
trigger.repetitionInterval().set_to_omit();
}
p += 2;
// alacarteLength
INTEGER alacarte_length = oct2int(OCTETSTRING(1, p));
if (static_cast<int>(alacarte_length) != 0) {
p += 1;
// FIXME AlacarteContainer alacarte optional
} else {
trigger.alacarte().set_to_omit();
}
loggers::get_instance().log_msg("ConfigRsuSimulatorLayer::process_ut_denm_trigger: ", trigger);
// Pass it to the ports if any
to_all_upper_ports(trigger, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_trigger: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_denm_update(const OCTETSTRING& data, params& params) {
loggers::get_instance().log_msg(">>> ConfigRsuSimulatorLayer::process_ut_denm_update", data);
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_update: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("denm") == 0) {
unsigned char* p = (unsigned char*)static_cast<const unsigned char*>(data);
unsigned char msg_id = *p++;
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_denm_update: msg_id=%02x", msg_id);
unsigned char flag = *p++;
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_denm_update: flag=%02x", flag);
LibItsDenm__TypesAndValues::UtDenmUpdate update; // See ETSI TR 103 34 099 Cause C.4.1 GenerateDenmEvent
// Statuion ID
update.actionId().originatingStationID() = oct2int(OCTETSTRING(4, p));
p += 4;
// SequenceNumber
update.actionId().sequenceNumber() = oct2int(OCTETSTRING(2, p));
p += 2;
// Decode detectionTime
update.detectionTime() = oct2int(OCTETSTRING(6, p));
p += 6;
if ((flag & 0x80) == 0x80) {
update.validityDuration() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(3, p)));
} else {
update.validityDuration().set_to_omit();
}
p += 3;
// Situation
if ((flag & 0x40) == 0x40) {
DENM__PDU__Descriptions::SituationContainer& s = static_cast<DENM__PDU__Descriptions::SituationContainer &>(*update.get_opt_value());
s.informationQuality() = oct2int(OCTETSTRING(1, p++));
s.eventType().causeCode() = oct2int(OCTETSTRING(1, p++));
s.eventType().subCauseCode() = oct2int(OCTETSTRING(1, p++));
s.linkedCause().set_to_omit();
s.eventHistory().set_to_omit();
update.situation() = OPTIONAL<DENM__PDU__Descriptions::SituationContainer>(s);
} else {
update.situation().set_to_omit();
}
// Location
update.location().set_to_omit();
// RelevanceDistance
if ((flag & 0x20) == 0x20) {
update.relevanceDistance() = oct2int(OCTETSTRING(1, p++));
} else {
update.relevanceDistance().set_to_omit();
}
// RelevanceTrafficDirection
if ((flag & 0x10) == 0x10) {
update.relevanceTrafficDirection() = oct2int(OCTETSTRING(1, p++));
} else {
update.relevanceTrafficDirection().set_to_omit();
}
if ((flag & 0x08) == 0x08) {
update.transmissionInterval() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(2, p)));
} else {
update.transmissionInterval().set_to_omit();
}
p += 2;
if ((flag & 0x04) == 0x04) {
update.repetitionInterval() = OPTIONAL<INTEGER>(oct2int(OCTETSTRING(2, p)));
} else {
update.repetitionInterval().set_to_omit();
}
p += 2;
// alacarteLength
INTEGER alacarte_length = oct2int(OCTETSTRING(1, p));
if (static_cast<int>(alacarte_length) != 0) {
p += 1;
// FIXME AlacarteContainer alacarte optional
} else {
update.alacarte().set_to_omit();
}
loggers::get_instance().log_msg("ConfigRsuSimulatorLayer::process_ut_denm_update: ", update);
// Pass it to the ports if any
to_all_upper_ports(update, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_update: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_denm_termination(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_denm_termination");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_termination: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("denm") == 0) {
unsigned char* p = (unsigned char*)static_cast<const unsigned char*>(data);
unsigned char msg_id = *p++;
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_denm_termination: msg_id=%02x", msg_id);
LibItsDenm__TypesAndValues::UtDenmTermination termination;
termination.actionId().originatingStationID() = oct2int(OCTETSTRING(4, p));
p += 4;
termination.actionId().sequenceNumber() = oct2int(OCTETSTRING(2, p));
// Pass it to the ports if any
to_all_upper_ports(termination, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_denm_termination: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("gn") == 0) {
unsigned char msg_id = *static_cast<const unsigned char*>(data);
loggers::get_instance().log("ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger: msg_id=%02x", msg_id);
OCTETSTRING payload(data.lengthof() - 1, 1 + static_cast<const unsigned char*>(data));
loggers::get_instance().log_msg("ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger: payload:", payload);
TTCN_EncDec::clear_error();
TTCN_Buffer decoding_buffer(payload);
if (msg_id == 0x50/*uppertester_geonetworking_codec::c_utGnTrigger_GeoUnicast*/) {
LibItsGeoNetworking__TypesAndValues::GenerateGeoUnicastMessage g;
g.decode(*g.get_descriptor(), decoding_buffer, TTCN_EncDec::CT_RAW);
if(g.payload().lengthof() > 2) {
g.payload() = OCTETSTRING(g.payload().lengthof() - 2, static_cast<const unsigned char*>(g.payload()));
} else {
g.payload() = OCTETSTRING(0, nullptr);
}
p.geoUnicast() = g;
} else if (msg_id == 0x51/*uppertester_geonetworking_codec::c_utGnTrigger_GeoBroadcast*/) {
LibItsGeoNetworking__TypesAndValues::GenerateGeoBroadcastMessage g;
g.decode(*g.get_descriptor(), decoding_buffer, TTCN_EncDec::CT_RAW);
if(g.payload().lengthof() > 2) {
g.payload() = OCTETSTRING(g.payload().lengthof() - 2, static_cast<const unsigned char*>(g.payload()));
} else {
g.payload() = OCTETSTRING(0, nullptr);
}
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} else if (msg_id == 0x52/*uppertester_geonetworking_codec::c_utGnTrigger_GeoAnycast*/) {
LibItsGeoNetworking__TypesAndValues::GenerateGeoAnycastMessage g;
g.decode(*g.get_descriptor(), decoding_buffer, TTCN_EncDec::CT_RAW);
if(g.payload().lengthof() > 2) {
g.payload() = OCTETSTRING(g.payload().lengthof() - 2, static_cast<const unsigned char*>(g.payload()));
} else {
g.payload() = OCTETSTRING(0, nullptr);
}
p.geoAnycast() = g;
} else if (msg_id == 0x53/*uppertester_geonetworking_codec::c_utGnTrigger_Shb*/) {
LibItsGeoNetworking__TypesAndValues::GenerateSHBMessage g;
g.decode(*g.get_descriptor(), decoding_buffer, TTCN_EncDec::CT_RAW);
if(g.payload().lengthof() > 2) {
g.payload() = OCTETSTRING(g.payload().lengthof() - 2, static_cast<const unsigned char*>(g.payload()));
} else {
g.payload() = OCTETSTRING(0, nullptr);
}
p.shb() = g;
} else if (msg_id == 0x54/*uppertester_geonetworking_codec::c_utGnTrigger_Tsb*/) {
LibItsGeoNetworking__TypesAndValues::GenerateTSBMessage g;
g.decode(*g.get_descriptor(), decoding_buffer, TTCN_EncDec::CT_RAW);
if(g.payload().lengthof() > 2) {
g.payload() = OCTETSTRING(g.payload().lengthof() - 2, static_cast<const unsigned char*>(g.payload()));
} else {
g.payload() = OCTETSTRING(0, nullptr);
}
p.tsb() = g;
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_geonetworking_trigger: Unsupported protocol");
return -1;
}
return 0;
}
int ConfigRsuSimulatorLayer::process_ut_pki_trigger(const OCTETSTRING& data, params& params) {
loggers::get_instance().log(">>> ConfigRsuSimulatorLayer::process_ut_pki_trigger");
params::const_iterator it = _params.find("ut");
if (it == _params.cend()) {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_pki_trigger: CF layer's ut parameter is missing");
return -1;
}
if (_params[std::string("ut")].compare("pki") == 0) {
LibItsPki__TypesAndValues::UtPkiTrigger p;
p.triggerEnrolmentRequest().cannonicalId() = OCTETSTRING(0, nullptr); // No parameter used
p.triggerEnrolmentRequest().encAlgorithm() = OCTETSTRING(0, nullptr); // No parameter used
p.triggerEnrolmentRequest().privateKey() = OCTETSTRING(0, nullptr); // No parameter used
p.triggerEnrolmentRequest().compressedPublickey() = OCTETSTRING(0, nullptr); // No parameter used
// Pass it to the ports if any
to_all_upper_ports(p, params);
} else {
loggers::get_instance().warning("ConfigRsuSimulatorLayer::process_ut_pki_trigger: Unsupported protocol");
return -1;
}
return 0;
}
ConfigRsuSimulatorLayerFactory ConfigRsuSimulatorLayerFactory::_f;