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UtilityCompany.cc
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#include "UtilityCompany.h"
#include <map>
#include <string>
#ifndef SMPacket
#include <SMPacket_m.h>
#endif
namespace smart3p {
Define_Module(UtilityCompany);
UtilityCompany::UtilityCompany()
{
data = new cArray("data");
uc = new ::UCAdapter();
//uc = new ::UCAdapter(this); //enables debug printing
}
UtilityCompany::~UtilityCompany()
{
delete data;
}
void UtilityCompany::initialize()
{
prevTime = simTime();
}
void UtilityCompany::addPacketToDB(SMPacket *p)
{
MeterData save;
save.anonymID = p->getId() + 100000;
save.smGate = p->getSmGateID();
save.collGate = p->getCollGateID();
save.secretSMtoUCkey = p->getExtraInfo();
EV << "UC data from ID# " << p->getId() << ", C# " << save.collGate << ", S# " << save.smGate <<
", key: " << p->getExtraInfo() << endl;
meters.insert(std::pair<int, MeterData>(p->getId(), save));
}
void UtilityCompany::timedHandleMessage(cMessage *msg)
{
// Receiving a message from generator, passed by the smart meter and collector
if (!strcmp(msg->getName(), "smartMeterInit"))
{
smartMeterInit(msg);
return;
}
// Receiving a registration message from SM
else if (!strcmp(msg->getName(), "registerFromSM"))
{
registerSM(msg);
return;
}
// Receiving a registration message from TTP
else if (!strcmp(msg->getName(), "registerFromTTP"))
{
registerTTP(msg);
return;
}
else if (!strcmp(msg->getName(), "registerSMWithTTP"))
{
registerSMWithTTP(msg);
return;
}
//Recieving request to start session key exchange from TTP
else if (!strcmp(msg->getName(), "sessionKeyStartFromTTP"))
{
sessionKeyStartFromTTP(msg);
return;
}
// Receiving a request for a session key exchange from SM to TTP
else if (!strcmp(msg->getName(), "sessionKeyExchange"))
{
sessionKeyExchangeFromSM(msg);
return;
}
// Receiving a request for a session key exchange from TTP to SM
else if (!strcmp(msg->getName(), "sessionKey"))
{
sessionKeyExchangeFromTTP(msg);
return;
}
energyConsumptionProcessing(msg);
}
void UtilityCompany::sessionKeyStartFromTTP(cMessage* msg)
{
//Starting session key exchange
uc->sessionKeyStartFromTTP(msg);
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
cGate *g = gate("radio$o", p->getCollGateID());
send(msg, g);
}
void UtilityCompany::sessionKeyExchangeFromTTP(cMessage *msg)
{
if (!uc->sessionKeyExchangeFromTTP(msg))
{
EV << "HMAC Verification Failed!" << endl;
return;
}
// Set the ID for the SM we are sending to
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
cGate *g = gate("radio$o", p->getCollGateID());
send(msg, g);
}
void UtilityCompany::sessionKeyExchangeFromSM(cMessage *msg)
{
// Change the ID to anonymized ID
if (!uc->sessionKeyExchangeFromSM(msg))
{
EV << "HMAC Verification failed!" << endl;
return;
}
// Link the collector with the ID
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
p->setCollGateID(msg->getArrivalGate()->getIndex());
// Forward the data to TTP
send(msg, "ttpLine$o");
}
void UtilityCompany::energyConsumptionProcessing(cMessage *msg)
{
EV << "UC Received " << msg->getName() << endl;
if (!uc->energyConsumptionProcessing(msg))
{
EV << "HMAC Verification failed!" << endl;
delete msg;
return;
}
send(msg, "ttpLine$o"); //msg contains a queue name "queue" which holds all the verified data
}
void UtilityCompany::registerSMWithTTP(cMessage *msg)
{
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
//msg's packet contains anonid
cMessage* out = new cMessage("registerSM");
SMPacket* pac = new SMPacket("packet");
out->addObject(pac);
::cInteger* id = check_and_cast<::cInteger*>(p->getObject("anonid"));
pac->setId(id->ConvertToLong());
delete msg;
send(out, "ttpLine$o");
}
void UtilityCompany::registerTTP(cMessage *msg)
{
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
int ttpid = p->getId();
EV << "Starting registration phase for ttpId# " << ttpid << endl;
// Registration phase for a trusted third party
cMessage* info = uc->registerTTP(msg);
// Send the info back to the trusted third party
send(info, "ttpLine$o"); //msg is deleted in the register function
}
void UtilityCompany::registerSM(cMessage *msg)
{
//SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
cGate *g = gate("radio$o", msg->getArrivalGate()->getIndex());
// Registration phase for a smart meter
cMessage* info = uc->registerSM(msg);
delete msg;
cMessage* toTTP = info->dup();
toTTP->setName("registerSMWithTTP");
scheduleAt(simTime()+0.05, toTTP);
send(info, g); //registerInfoFromUC
}
void UtilityCompany::smartMeterInit(cMessage *msg)
{
// Link the smart meter with the ID
SMPacket *p = check_and_cast<SMPacket*> (msg->getObject("packet"));
p->setCollGateID(msg->getArrivalGate()->getIndex());
// Add packet to the local DB
addPacketToDB(p);
// Send a ready message back to the smart meter
// It will allow the smart meter to start registering at UC
cMessage *ready = new cMessage("ready");
SMPacket *info = new SMPacket("packet");
info->setSmGateID(p->getSmGateID());
ready->addObject(info);
cGate *g = gate("radio$o", msg->getArrivalGate()->getIndex());
send(ready, g);
delete msg;
}
} //namespace