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path: root/cesar/maximus/phy/src/PhyProcessorTest.cpp
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#include "PhyProcessorTest.h"

#include "PhyProcessor.h"
#include "CoreEngine.h"
#include "SystemManager.h"
#include "PhySciMsg.h"
#include "PhySciMsgPre.h"
#include "PhySciMsgFc.h"
#include "PhySciMsgMpdu.h"
#include "NetworkClockEvt.h"
#include "ChannelComputer.h"
#include "SciServer.h"

#include "Logger.h"
#include "Error.h"

#include <iostream>
#include <netinet/in.h> // for 'htons()'
using namespace std;

CPPUNIT_TEST_SUITE_REGISTRATION (PhyProcessorTest);

bool isCbCalledTest = false;

void interfaceCbTest ( PhySciMsgMpdu & mpdu )
{
  logTest();

  isCbCalledTest = true;
}


void PhyProcessorTest::setUp (void)
{
  logTest();
  
  mpCoreEngine = new CoreEngine();
  mpPhyProcessor = (PhyProcessor*)mpCoreEngine->getPhy();
  CPPUNIT_ASSERT_MESSAGE ( "PHY processor pointer is NULL", NULL != mpPhyProcessor );
}


void PhyProcessorTest::tearDown (void) 
{
  logTest();
  
  if (NULL != mpPhyProcessor)
  {
  	mpPhyProcessor = NULL;
  }
  if (NULL != mpCoreEngine)
  {
    delete (mpCoreEngine);
    mpCoreEngine = NULL;
  }
}


void PhyProcessorTest::initTest (void)
{
  logTest();

  CPPUNIT_ASSERT_MESSAGE ( "init failed", mpPhyProcessor->init(&interfaceCbTest) );
  CPPUNIT_ASSERT_MESSAGE ( "init failed", mpPhyProcessor->init(50) );
}


void PhyProcessorTest::createMsgTest (void)
{
  logTest();
  
  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();
  
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );
  
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message not correctly created",
                           mpPhyProcessor == pPhySciMsg->getPhyProcessor() );
  
  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::createMpduTest (void)
{
  logTest();

  unsigned long length = 5;
  unsigned char payload[length];
  memset(payload, 'M', length);

  PhySciMsgMpdu * pPhySciMsgMpdu = mpPhyProcessor->createMpdu();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message MPDU pointer is NULL", NULL != pPhySciMsgMpdu );

  pPhySciMsgMpdu->setMpdu(length, payload);

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message MPDU not correctly created",
                           (mpPhyProcessor == pPhySciMsgMpdu->getPhyProcessor())
                           && (length == pPhySciMsgMpdu->getPayloadLength())
                           && (0 == memcmp(payload, pPhySciMsgMpdu->getPayload(), length))
                         );

  if (NULL != pPhySciMsgMpdu)
  {
    delete (pPhySciMsgMpdu);
    pPhySciMsgMpdu = NULL;
  }
}


void PhyProcessorTest::sendMsgTest (void)
{
  logTest();

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  // create the transmitting station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set the destination station
  pPhySciMsg->setSciMsgStationId(stationId);

  // set the type
  pPhySciMsg->setSpecializedSciMsgType(PHY_TYPE_ZERO_CROSS);

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message has not been sent", mpPhyProcessor->sendMsgToAllStations(*pPhySciMsg) );

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::sendMpduTest (void)
{
  logTest();

  // create MPDU
  PhySciMsgMpdu * pPhySciMsgMpdu = mpPhyProcessor->createMpdu();
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message MPDU pointer is NULL", NULL != pPhySciMsgMpdu );

  // configure MPDU
  unsigned long length = 5;
  unsigned char payload[length];
  memset(payload, 'M', length);
  pPhySciMsgMpdu->setMpdu(length, payload);

  // set modulation
  pPhySciMsgMpdu->setMod(PHY_MOD_ROBO);

  // set carrier number and tonemask
  unsigned int carrierNb = PHY_CARRIER_NB;
  uint8_t tonemaskData[sizeof(unsigned int) + ((PHY_CARRIER_NB+7)/8)*sizeof(uint8_t)];
  memcpy(tonemaskData, &carrierNb, sizeof(unsigned int));
  memset(tonemaskData + sizeof(unsigned int), 0xCC, (PHY_CARRIER_NB+7)/8*sizeof(uint8_t));
  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );
  pPhySciMsg->setSpecializedSciMsgDataLength(sizeof(unsigned int) + ((PHY_CARRIER_NB+7)/8)*sizeof(uint8_t));
  pPhySciMsg->setSpecializedSciMsgData((unsigned char *)tonemaskData);
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message TONEMASK reception error",
                           mpPhyProcessor->receiveTonemask(*pPhySciMsg) );
  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }

  // set FEC rate
  pPhySciMsgMpdu->setFecrate(PHY_FEC_RATE_1_2);

  // set PB number
  pPhySciMsgMpdu->setNbOfPbs(1);

  // set Guard Interval
  pPhySciMsgMpdu->setGil(PHY_GIL_417);

  // set PB size
  pPhySciMsgMpdu->setPbSize(MAC_PB136_BYTES);

  // set FC mode
  pPhySciMsgMpdu->setFcMode(PHY_FC_MODE_HYBRID_1);

  // set FC
  uint32_t fc_av[4];
  memset(fc_av, 'A', 4*sizeof(uint32_t));
  uint32_t fc_10 = 10;
  pPhySciMsgMpdu->setFc10(fc_10);
  pPhySciMsgMpdu->setFcAv(fc_av);

  // create the transmitting station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set the destination station
  pPhySciMsgMpdu->setSciMsgStationId(stationId);

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message MPDU not sent",
                           mpPhyProcessor->sendMpdu(pPhySciMsgMpdu) );

  if (NULL != pPhySciMsgMpdu)
  {
    delete (pPhySciMsgMpdu);
    pPhySciMsgMpdu = NULL;
  }
}


void PhyProcessorTest::receiveEvtTest (void)
{
  logTest();

  PhySciMsgMpdu * pPhySciMsgMpdu = mpPhyProcessor->createMpdu(); // will be deleted by 'receiveEvt'
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message MPDU pointer is NULL", NULL != pPhySciMsgMpdu);

  unsigned long length = 5;
  unsigned char payload[length];
  memset(payload, 'M', length);
  pPhySciMsgMpdu->setMpdu(length, payload);

  pPhySciMsgMpdu->segment();

  // create the destination station
  Sci_Msg_Station_Id rxStationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // send an RX message
  PhySciMsg rx(mpPhyProcessor);
  rx.setSciMsgStationId(rxStationId);
  rx.setSpecializedSciMsgDataLength(sizeof(Sci_Msg_Station_Id));
  Sci_Msg_Station_Id txStationId = getpid();
  rx.setSpecializedSciMsgData((unsigned char *)&txStationId);
  CPPUNIT_ASSERT_MESSAGE ( "receiveRx failed", mpPhyProcessor->receiveRx(rx) );

  NetworkClockEvt evt(0 /* station_id */, NETWORK_CLOCK_TYPE_PHY, 1 /* id */, (void *)pPhySciMsgMpdu);

  CPPUNIT_ASSERT_MESSAGE ( "Event received but not correctly processed",
                           mpPhyProcessor->receiveEvt(evt) );

  if (NULL != pPhySciMsgMpdu)
  {
    delete (pPhySciMsgMpdu);
    pPhySciMsgMpdu = NULL;
  }
}


void PhyProcessorTest::receiveInvalidTest (void)
{
  logTest();
  bool bTest = false;

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  try
  {
    CPPUNIT_ASSERT_MESSAGE ( "receiveInvalid failed", !mpPhyProcessor->receiveInvalid(*pPhySciMsg) );
  }
  catch (Error & e) 
  {
    bTest = true;
  }

  CPPUNIT_ASSERT_MESSAGE ( "receiveInvalid failed", bTest);

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::receivePreTest (void)
{
  logTest();

  PhySciMsgPre preamble(mpPhyProcessor);

  // create the transmitting station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set station id
  preamble.setSciMsgStationId(stationId);

  CPPUNIT_ASSERT_MESSAGE ( "receivePre failed", mpPhyProcessor->receivePre(preamble) );
}


void PhyProcessorTest::receiveFcTest (void)
{
  logTest();

  PhySciMsgFc frameControl(mpPhyProcessor);

  // create the transmitting station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set station id
  frameControl.setSciMsgStationId(stationId);

  // set PHY SCI message data length and data
  uint32_t fcAv[4];
  memset(fcAv, 'F', 4*sizeof(uint32_t));
  frameControl.setSpecializedSciMsgDataLength(4*sizeof(uint32_t));
  frameControl.setSpecializedSciMsgData((unsigned char *)fcAv);

  CPPUNIT_ASSERT_MESSAGE ( "receiveMsg failed", mpPhyProcessor->receiveFc(frameControl) );
}


void PhyProcessorTest::receivePrsTest (void)
{
  logTest();

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  // create the transmitting station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set station id
  pPhySciMsg->setSciMsgStationId(stationId);

  // set the type
  pPhySciMsg->setSpecializedSciMsgType(PHY_TYPE_PRS);

  CPPUNIT_ASSERT_MESSAGE ( "receivePrs failed", mpPhyProcessor->receivePrs(*pPhySciMsg) );

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::receiveMpduTest (void)
{
  logTest();

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  // create the transmitting station
  Sci_Msg_Station_Id txStationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  Sci_Msg_Station_Id rxStationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set station id
  Sci_Msg_Header sciHdr;
  memset(&sciHdr, '\0', sizeof(struct Sci_Msg_Header));
  sciHdr.station_id = txStationId;
  pPhySciMsg->setSciMsgHeader(sciHdr);

  // set type, msg nb and tx id
  Phy_Header phyHdr;
  memset(&phyHdr, '\0', sizeof(struct Phy_Header));
  phyHdr.type = PHY_TYPE_MPDU_PAYLOAD;
  phyHdr.msg_nb = 1;
  phyHdr.tx_id = htons(33);
  pPhySciMsg->setSpecializedSciMsgHeader(phyHdr);

  // set PHY SCI message data length and data
  unsigned long dataLength = MAC_PB520_BYTES;
  unsigned char data[dataLength];
  memset(data, 'D', dataLength);
  pPhySciMsg->setSpecializedSciMsgDataLength(dataLength);
  pPhySciMsg->setSpecializedSciMsgData(data);

  // set the interface callback function for PHY SCI message MPDU reception
  CPPUNIT_ASSERT_MESSAGE ( "init failed", mpPhyProcessor->init(&interfaceCbTest) );

  // send a FC message
  PhySciMsgFc frameControl(mpPhyProcessor);
  frameControl.setSciMsgStationId(txStationId);
  frameControl.setTxId(33);
  uint32_t fcAv[4];
  for (int i=0; i<4; i++)
  {
    fcAv[i] = i;
  }
  frameControl.setSpecializedSciMsgDataLength(4*sizeof(uint32_t));
  frameControl.setSpecializedSciMsgData((unsigned char *)fcAv);
  CPPUNIT_ASSERT_MESSAGE ( "receiveMsg failed", mpPhyProcessor->receiveFc(frameControl) );

  // send an RX message
  PhySciMsg rx(mpPhyProcessor);
  rx.setSciMsgStationId(rxStationId);
  rx.setTxId(33);
  rx.setSpecializedSciMsgDataLength(sizeof(Sci_Msg_Station_Id));
  rx.setSpecializedSciMsgData((unsigned char *)&txStationId);
  CPPUNIT_ASSERT_MESSAGE ( "receiveRx failed", mpPhyProcessor->receiveRx(rx) );

  // send the MPDU
  CPPUNIT_ASSERT_MESSAGE ( "receiveMpdu failed", mpPhyProcessor->receiveMpdu(*pPhySciMsg)
                                                 && isCbCalledTest );

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::receiveTonemaskTest (void)
{
  logTest();

  // set carrier number and tonemask
  unsigned int tonemaskLength = (PHY_CARRIER_NB+7)/8;
  unsigned int carrierNb = PHY_CARRIER_NB-3;
  uint8_t tonemaskData[sizeof(unsigned int) + tonemaskLength];
  memcpy(tonemaskData, &carrierNb, sizeof(unsigned int));
  memset(tonemaskData + sizeof(unsigned int), 0xDD, tonemaskLength);
  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();
  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg);
  pPhySciMsg->setSpecializedSciMsgDataLength(sizeof(unsigned int) + tonemaskLength);
  pPhySciMsg->setSpecializedSciMsgData((unsigned char *)tonemaskData);

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message TONEMASK reception error",
                           mpPhyProcessor->receiveTonemask(*pPhySciMsg));

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::receiveTonemapTest (void)
{
  logTest();

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  // create the transmitting station
  Sci_Msg_Station_Id stationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set station id
  pPhySciMsg->setSciMsgStationId(stationId);

  CPPUNIT_ASSERT_MESSAGE ( "receiveTonemap failed", mpPhyProcessor->receiveTonemap(*pPhySciMsg) );

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::receiveRxTest (void)
{
  logTest();

  PhySciMsg * pPhySciMsg = mpPhyProcessor->createMsg();

  CPPUNIT_ASSERT_MESSAGE ( "PHY SCI message pointer is NULL", NULL != pPhySciMsg );

  // create the transmitting station
  Sci_Msg_Station_Id txStationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // create the destination station
  Sci_Msg_Station_Id rxStationId = mpCoreEngine->getSystem()->createStation(mpCoreEngine->getSystem()->getDefaultStationExecutable());

  // set the destination station
  pPhySciMsg->setSciMsgStationId(rxStationId);

  // set PHY SCI message data length and data
  pPhySciMsg->setSpecializedSciMsgDataLength(sizeof(Sci_Msg_Station_Id));
  pPhySciMsg->setSpecializedSciMsgData((unsigned char *)&txStationId);

  CPPUNIT_ASSERT_MESSAGE ( "receiveRx failed", mpPhyProcessor->receiveRx(*pPhySciMsg) );

  if (NULL != pPhySciMsg)
  {
    delete (pPhySciMsg);
    pPhySciMsg = NULL;
  }
}


void PhyProcessorTest::setNetworkClockTest (void)
{
  logTest();

  CPPUNIT_ASSERT_MESSAGE ( "setNetworkClock failed",
                           mpPhyProcessor->setNetworkClock(mpCoreEngine->getNetworkClock()) );
}


void PhyProcessorTest::setChannelTest (void)
{
  logTest();

  SciServer sci;
  SystemManager system((ISci *)&sci);
  ChannelComputer channel(mpPhyProcessor, (ISystem *)&system); 
  CPPUNIT_ASSERT_MESSAGE ( "setChannel failed",
                           mpPhyProcessor->setChannel((IChannel *)&channel) );
}


void PhyProcessorTest::setIsChannelEnabledTest (void)
{
  logTest();

  CPPUNIT_ASSERT_MESSAGE ( "setIsChannelEnabled failed",
                           mpPhyProcessor->setIsChannelEnabled(true) );
}


void PhyProcessorTest::setFrequencyTest (void)
{
  logTest();

  float freq = 52.5; // in Hz
  CPPUNIT_ASSERT_MESSAGE ( "setFrequency failed",
                           mpPhyProcessor->init(50)
                           && mpPhyProcessor->setFrequency(freq)
                           && (freq == mpPhyProcessor->getFrequency()) );
}


void PhyProcessorTest::activateFalseAlarmTest (void)
{
  logTest();

  Network_Clock_Tick averageDuration = 10;
  float stdDeviation = 0.1;
  CPPUNIT_ASSERT_MESSAGE ( "activateFalseAlarm failed",
                           mpPhyProcessor->activateFalseAlarm(averageDuration, stdDeviation) );
  CPPUNIT_ASSERT_MESSAGE ( "activateFalseAlarm failed",
                           mpPhyProcessor->activateFalseAlarm(averageDuration, stdDeviation) );
}


void PhyProcessorTest::deactivateFalseAlarmTest (void)
{
  logTest();

  Network_Clock_Tick averageDuration = 10;
  float stdDeviation = 0.1;
  CPPUNIT_ASSERT_MESSAGE ( "deactivateFalseAlarm failed", mpPhyProcessor->deactivateFalseAlarm() );
  CPPUNIT_ASSERT_MESSAGE ( "activateFalseAlarm failed",
                           mpPhyProcessor->activateFalseAlarm(averageDuration, stdDeviation) );
  CPPUNIT_ASSERT_MESSAGE ( "deactivateFalseAlarm failed", mpPhyProcessor->deactivateFalseAlarm() );
}