lte-test-radio-link-failure.cc

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/* -*-  Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
/*
 * Copyright (c) 2018 Fraunhofer ESK
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation;
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * Author: Vignesh Babu <ns3-dev@esk.fraunhofer.de>
 *
 * Modified by:
 *          Zoraze Ali <zoraze.ali@cttc.es> (included both RRC protocol, two
 *                                           eNB scenario and UE jump away
 *                                           logic)
 */
 
#include "lte-test-radio-link-failure.h"
 
#include "ns3/core-module.h"
#include "ns3/network-module.h"
#include "ns3/internet-module.h"
#include "ns3/mobility-module.h"
#include "ns3/lte-module.h"
#include "ns3/applications-module.h"
#include "ns3/point-to-point-module.h"
#include "ns3/config-store-module.h"
#include "ns3/config-store.h"
#include <iostream>
#include <vector>
#include <stdio.h>
#include <iomanip>
 
using namespace ns3;
 
NS_LOG_COMPONENT_DEFINE ("LteRadioLinkFailureTest");
 
/*
 * Test Suite
 */
LteRadioLinkFailureTestSuite::LteRadioLinkFailureTestSuite ()
  : TestSuite ("lte-radio-link-failure", SYSTEM)
{
  std::vector<Vector> uePositionList;
  std::vector<Vector> enbPositionList;
  std::vector<Time> checkConnectedList;
  Vector ueJumpAwayPosition;
 
  uePositionList.push_back (Vector (10, 0, 0));
  enbPositionList.push_back (Vector (0, 0, 0));
  ueJumpAwayPosition = Vector (7000.0, 0.0, 0.0);
  // check before jumping
  checkConnectedList.push_back (Seconds (0.3));
  // check connection after jumping but before T310 timer expiration.
  // This is to make sure that UE stays in connected mode
  // before the expiration of T310 timer.
  checkConnectedList.push_back (Seconds (1));
 
  // One eNB: Ideal RRC PROTOCOL
  //
  AddTestCase (new LteRadioLinkFailureTestCase (1, 1, Seconds (2), true,
                                                uePositionList, enbPositionList,
                                                ueJumpAwayPosition,
                                                checkConnectedList),
               TestCase::QUICK);
 
  // One eNB: Real RRC PROTOCOL
  AddTestCase (new LteRadioLinkFailureTestCase (1, 1, Seconds (2), false,
                                                uePositionList, enbPositionList,
                                                ueJumpAwayPosition,
                                                checkConnectedList),
               TestCase::QUICK);
 
  // Two eNBs: Ideal RRC PROTOCOL
 
  // We place the second eNB close to the position where the UE will jump
  enbPositionList.push_back (Vector (7020, 0, 0));
 
  AddTestCase (new LteRadioLinkFailureTestCase (2, 1, Seconds (2), true,
                                                uePositionList, enbPositionList,
                                                ueJumpAwayPosition,
                                                checkConnectedList),
               TestCase::QUICK);
 
  // Two eNBs: Ideal RRC PROTOCOL
  AddTestCase (new LteRadioLinkFailureTestCase (2, 1, Seconds (2), false,
                                                uePositionList, enbPositionList,
                                                ueJumpAwayPosition,
                                                checkConnectedList),
               TestCase::QUICK);
 
} // end of LteRadioLinkFailureTestSuite::LteRadioLinkFailureTestSuite ()
 
 
static LteRadioLinkFailureTestSuite g_lteRadioLinkFailureTestSuite;
 
/*
 * Test Case
 */
 
std::string
LteRadioLinkFailureTestCase::BuildNameString (uint32_t numEnbs, uint32_t numUes, bool isIdealRrc)
{
  std::ostringstream oss;
  std::string rrcProtocol;
  if (isIdealRrc)
    {
      rrcProtocol = "RRC Ideal";
    }
  else
    {
      rrcProtocol = "RRC Real";
    }
  oss << numEnbs << " eNBs, " << numUes << " UEs, " << rrcProtocol << " Protocol";
  return oss.str ();
}
 
LteRadioLinkFailureTestCase::LteRadioLinkFailureTestCase (
  uint32_t numEnbs, uint32_t numUes, Time simTime, bool isIdealRrc,
  std::vector<Vector> uePositionList, std::vector<Vector> enbPositionList,
  Vector ueJumpAwayPosition, std::vector<Time> checkConnectedList)
  : TestCase (BuildNameString (numEnbs, numUes, isIdealRrc)),
    m_numEnbs (numEnbs),
    m_numUes (numUes),
    m_simTime (simTime),
    m_isIdealRrc (isIdealRrc),
    m_uePositionList (uePositionList),
    m_enbPositionList (enbPositionList),
    m_checkConnectedList (checkConnectedList),
    m_ueJumpAwayPosition (ueJumpAwayPosition)
{
  NS_LOG_FUNCTION (this << GetName ());
  m_lastState = LteUeRrc::NUM_STATES;
  m_radioLinkFailureDetected = false;
  m_numOfInSyncIndications = 0;
  m_numOfOutOfSyncIndications = 0;
}
 
 
LteRadioLinkFailureTestCase::~LteRadioLinkFailureTestCase ()
{
  NS_LOG_FUNCTION (this << GetName ());
}
 
 
void
LteRadioLinkFailureTestCase::DoRun ()
{
  // LogLevel logLevel = (LogLevel) (LOG_PREFIX_FUNC | LOG_PREFIX_TIME | LOG_LEVEL_ALL);
  // LogComponentEnable ("LteUeRrc", logLevel);
  // LogComponentEnable ("LteEnbRrc", logLevel);
  // LogComponentEnable ("LteRadioLinkFailureTest", logLevel);
 
  Config::SetDefault ("ns3::MacStatsCalculator::DlOutputFilename", StringValue (CreateTempDirFilename ("DlMacStats.txt")));
  Config::SetDefault ("ns3::MacStatsCalculator::UlOutputFilename", StringValue (CreateTempDirFilename ("UlMacStats.txt")));
  Config::SetDefault ("ns3::RadioBearerStatsCalculator::DlRlcOutputFilename", StringValue (CreateTempDirFilename ("DlRlcStats.txt")));
  Config::SetDefault ("ns3::RadioBearerStatsCalculator::UlRlcOutputFilename", StringValue (CreateTempDirFilename ("UlRlcStats.txt")));
  Config::SetDefault ("ns3::RadioBearerStatsCalculator::DlPdcpOutputFilename", StringValue (CreateTempDirFilename ("DlPdcpStats.txt")));
  Config::SetDefault ("ns3::RadioBearerStatsCalculator::UlPdcpOutputFilename", StringValue (CreateTempDirFilename ("UlPdcpStats.txt")));
  Config::SetDefault ("ns3::PhyStatsCalculator::DlRsrpSinrFilename", StringValue (CreateTempDirFilename ("DlRsrpSinrStats.txt")));
  Config::SetDefault ("ns3::PhyStatsCalculator::UlSinrFilename", StringValue (CreateTempDirFilename ("UlSinrStats.txt")));
  Config::SetDefault ("ns3::PhyStatsCalculator::UlInterferenceFilename", StringValue (CreateTempDirFilename ("UlInterferenceStats.txt")));
  Config::SetDefault ("ns3::PhyRxStatsCalculator::DlRxOutputFilename", StringValue (CreateTempDirFilename ("DlRxPhyStats.txt")));
  Config::SetDefault ("ns3::PhyRxStatsCalculator::UlRxOutputFilename", StringValue (CreateTempDirFilename ("UlRxPhyStats.txt")));
  Config::SetDefault ("ns3::PhyTxStatsCalculator::DlTxOutputFilename", StringValue (CreateTempDirFilename ("DlTxPhyStats.txt")));
  Config::SetDefault ("ns3::PhyTxStatsCalculator::UlTxOutputFilename", StringValue (CreateTempDirFilename ("UlTxPhyStats.txt")));
 
  NS_LOG_FUNCTION (this << GetName ());
  uint16_t numBearersPerUe = 1;
  Time simTime = m_simTime;
  double eNodeB_txPower = 43;
 
  Config::SetDefault ("ns3::LteHelper::UseIdealRrc", BooleanValue (m_isIdealRrc));
 
  Ptr<LteHelper> lteHelper = CreateObject<LteHelper> ();
  Ptr<PointToPointEpcHelper> epcHelper = CreateObject<PointToPointEpcHelper> ();
  lteHelper->SetEpcHelper (epcHelper);
 
  lteHelper->SetPathlossModelType (TypeId::LookupByName ("ns3::LogDistancePropagationLossModel"));
  lteHelper->SetPathlossModelAttribute ("Exponent", DoubleValue (3.9));
  lteHelper->SetPathlossModelAttribute ("ReferenceLoss", DoubleValue (38.57)); //ref. loss in dB at 1m for 2.025GHz
  lteHelper->SetPathlossModelAttribute ("ReferenceDistance", DoubleValue (1));
 
  //----power related (equal for all base stations)----
  Config::SetDefault ("ns3::LteEnbPhy::TxPower", DoubleValue (eNodeB_txPower));
  Config::SetDefault ("ns3::LteUePhy::TxPower", DoubleValue (23));
  Config::SetDefault ("ns3::LteUePhy::NoiseFigure", DoubleValue (7));
  Config::SetDefault ("ns3::LteEnbPhy::NoiseFigure", DoubleValue (2));
  Config::SetDefault ("ns3::LteUePhy::EnableUplinkPowerControl", BooleanValue (true));
  Config::SetDefault ("ns3::LteUePowerControl::ClosedLoop", BooleanValue (true));
  Config::SetDefault ("ns3::LteUePowerControl::AccumulationEnabled", BooleanValue (true));
 
  //----frequency related----
  lteHelper->SetEnbDeviceAttribute ("DlEarfcn", UintegerValue (100)); //2120MHz
  lteHelper->SetEnbDeviceAttribute ("UlEarfcn", UintegerValue (18100)); //1930MHz
  lteHelper->SetEnbDeviceAttribute ("DlBandwidth", UintegerValue (25)); //5MHz
  lteHelper->SetEnbDeviceAttribute ("UlBandwidth", UintegerValue (25)); //5MHz
 
  //----others----
  lteHelper->SetSchedulerType ("ns3::PfFfMacScheduler");
  Config::SetDefault ("ns3::LteAmc::AmcModel", EnumValue (LteAmc::PiroEW2010));
  Config::SetDefault ("ns3::LteAmc::Ber", DoubleValue (0.01));
  Config::SetDefault ("ns3::PfFfMacScheduler::HarqEnabled", BooleanValue (true));
 
  //Radio link failure detection parameters
  Config::SetDefault ("ns3::LteUeRrc::N310", UintegerValue (1));
  Config::SetDefault ("ns3::LteUeRrc::N311", UintegerValue (1));
  Config::SetDefault ("ns3::LteUeRrc::T310", TimeValue (Seconds (1)));
 
  // Create the internet
  Ptr<Node> pgw = epcHelper->GetPgwNode ();
  // Create a single RemoteHost0x18ab460
  NodeContainer remoteHostContainer;
  remoteHostContainer.Create (1);
  Ptr<Node> remoteHost = remoteHostContainer.Get (0);
  InternetStackHelper internet;
  internet.Install (remoteHostContainer);
  PointToPointHelper p2ph;
  p2ph.SetDeviceAttribute ("DataRate", DataRateValue (DataRate ("100Gb/s")));
  p2ph.SetDeviceAttribute ("Mtu", UintegerValue (1500));
  p2ph.SetChannelAttribute ("Delay", TimeValue (Seconds (0.010)));
  NetDeviceContainer internetDevices = p2ph.Install (pgw, remoteHost);
  Ipv4AddressHelper ipv4h;
  ipv4h.SetBase ("1.0.0.0", "255.0.0.0");
  Ipv4InterfaceContainer internetIpIfaces = ipv4h.Assign (internetDevices);
  Ipv4Address remoteHostAddr = internetIpIfaces.GetAddress (1);
  Ipv4StaticRoutingHelper ipv4RoutingHelper;
  Ptr<Ipv4StaticRouting> remoteHostStaticRouting = ipv4RoutingHelper.GetStaticRouting (remoteHost->GetObject <Ipv4> ());
  remoteHostStaticRouting->AddNetworkRouteTo (Ipv4Address ("7.0.0.0"), Ipv4Mask ("255.0.0.0"), 1);
 
  // Create Nodes: eNodeB and UE
  NodeContainer enbNodes;
  NodeContainer ueNodes;
  enbNodes.Create (m_numEnbs);
  ueNodes.Create (m_numUes);
 
  //Mobility
  Ptr<ListPositionAllocator> positionAllocEnb = CreateObject<ListPositionAllocator> ();
 
  for (std::vector<Vector>::iterator enbPosIt = m_enbPositionList.begin ();
       enbPosIt != m_enbPositionList.end (); ++enbPosIt)
    {
      positionAllocEnb->Add (*enbPosIt);
    }
  MobilityHelper mobility;
  mobility.SetMobilityModel ("ns3::ConstantPositionMobilityModel");
  mobility.SetPositionAllocator (positionAllocEnb);
  mobility.Install (enbNodes);
 
  Ptr<ListPositionAllocator> positionAllocUe = CreateObject<ListPositionAllocator> ();
 
  for (std::vector<Vector>::iterator uePosIt = m_uePositionList.begin ();
       uePosIt != m_uePositionList.end (); ++uePosIt)
    {
      positionAllocUe->Add (*uePosIt);
    }
 
  mobility.SetPositionAllocator (positionAllocUe);
  mobility.SetMobilityModel ("ns3::ConstantPositionMobilityModel");
  mobility.Install (ueNodes);
  m_ueMobility = ueNodes.Get (0)->GetObject<MobilityModel> ();
 
  // Install LTE Devices in eNB and UEs
  NetDeviceContainer enbDevs;
  NetDeviceContainer ueDevs;
 
  int64_t randomStream = 1;
  enbDevs = lteHelper->InstallEnbDevice (enbNodes);
  randomStream += lteHelper->AssignStreams (enbDevs, randomStream);
  ueDevs = lteHelper->InstallUeDevice (ueNodes);
  randomStream += lteHelper->AssignStreams (ueDevs, randomStream);
 
  // Install the IP stack on the UEs
  internet.Install (ueNodes);
  Ipv4InterfaceContainer ueIpIfaces;
  ueIpIfaces = epcHelper->AssignUeIpv4Address (NetDeviceContainer (ueDevs));
 
  // Attach a UE to a eNB
  lteHelper->Attach (ueDevs);
 
  // Install and start applications on UEs and remote host
  uint16_t dlPort = 10000;
  uint16_t ulPort = 20000;
 
  DataRateValue dataRateValue = DataRate ("18.6Mbps");
  uint64_t bitRate = dataRateValue.Get ().GetBitRate ();
  uint32_t packetSize = 1024; //bytes
  NS_LOG_DEBUG ("bit rate " << bitRate);
  double interPacketInterval = static_cast<double> (packetSize * 8) / bitRate;
  Time udpInterval = Seconds (interPacketInterval);
 
  NS_LOG_DEBUG ("UDP will use application interval " << udpInterval.As (Time::S));
 
  for (uint32_t u = 0; u < m_numUes; ++u)
    {
      Ptr<Node> ue = ueNodes.Get (u);
      // Set the default gateway for the UE
      Ptr<Ipv4StaticRouting> ueStaticRouting = ipv4RoutingHelper.GetStaticRouting (ue->GetObject<Ipv4> ());
      ueStaticRouting->SetDefaultRoute (epcHelper->GetUeDefaultGatewayAddress (), 1);
 
      for (uint32_t b = 0; b < numBearersPerUe; ++b)
        {
          ApplicationContainer ulClientApps;
          ApplicationContainer ulServerApps;
          ApplicationContainer dlClientApps;
          ApplicationContainer dlServerApps;
 
          ++dlPort;
          ++ulPort;
 
          NS_LOG_LOGIC ("installing UDP DL app for UE " << u + 1);
          UdpClientHelper dlClientHelper (ueIpIfaces.GetAddress (u), dlPort);
          dlClientHelper.SetAttribute ("Interval", TimeValue (udpInterval));
          dlClientHelper.SetAttribute ("MaxPackets", UintegerValue (1000000));
          dlClientApps.Add (dlClientHelper.Install (remoteHost));
 
          PacketSinkHelper dlPacketSinkHelper ("ns3::UdpSocketFactory", InetSocketAddress (Ipv4Address::GetAny (), dlPort));
          dlServerApps.Add (dlPacketSinkHelper.Install (ue));
 
          NS_LOG_LOGIC ("installing UDP UL app for UE " << u + 1);
          UdpClientHelper ulClientHelper (remoteHostAddr, ulPort);
          ulClientHelper.SetAttribute ("Interval", TimeValue (udpInterval));
          ulClientHelper.SetAttribute ("MaxPackets", UintegerValue (1000000));
          ulClientApps.Add (ulClientHelper.Install (ue));
 
          PacketSinkHelper ulPacketSinkHelper ("ns3::UdpSocketFactory", InetSocketAddress (Ipv4Address::GetAny (), ulPort));
          ulServerApps.Add (ulPacketSinkHelper.Install (remoteHost));
 
          Ptr<EpcTft> tft = Create<EpcTft> ();
          EpcTft::PacketFilter dlpf;
          dlpf.localPortStart = dlPort;
          dlpf.localPortEnd = dlPort;
          tft->Add (dlpf);
          EpcTft::PacketFilter ulpf;
          ulpf.remotePortStart = ulPort;
          ulpf.remotePortEnd = ulPort;
          tft->Add (ulpf);
          EpsBearer bearer (EpsBearer::NGBR_IMS);
          lteHelper->ActivateDedicatedEpsBearer (ueDevs.Get (u), bearer, tft);
 
          dlServerApps.Start (Seconds (0.27));
          dlClientApps.Start (Seconds (0.27));
          ulServerApps.Start (Seconds (0.27));
          ulClientApps.Start (Seconds (0.27));
 
        } // end for b
    }
 
  lteHelper->EnableTraces ();
 
  for (uint32_t u = 0; u < m_numUes; ++u)
    {
      Simulator::Schedule (m_checkConnectedList.at (u), &LteRadioLinkFailureTestCase::CheckConnected, this, ueDevs.Get (u), enbDevs);
    }
 
  Simulator::Schedule (Seconds (0.4), &LteRadioLinkFailureTestCase::JumpAway, this, m_ueJumpAwayPosition);
 
  // connect custom trace sinks
  Config::Connect ("/NodeList/*/DeviceList/*/LteEnbRrc/ConnectionEstablished",
                   MakeCallback (&LteRadioLinkFailureTestCase::ConnectionEstablishedEnbCallback, this));
  Config::Connect ("/NodeList/*/DeviceList/*/LteUeRrc/ConnectionEstablished",
                   MakeCallback (&LteRadioLinkFailureTestCase::ConnectionEstablishedUeCallback, this));
  Config::Connect ("/NodeList/*/DeviceList/*/LteUeRrc/StateTransition",
                   MakeCallback (&LteRadioLinkFailureTestCase::UeStateTransitionCallback, this));
  Config::Connect ("/NodeList/*/DeviceList/*/LteEnbRrc/NotifyConnectionRelease",
                   MakeCallback (&LteRadioLinkFailureTestCase::ConnectionReleaseAtEnbCallback, this));
  Config::Connect ("/NodeList/*/DeviceList/*/LteUeRrc/PhySyncDetection",
                   MakeCallback (&LteRadioLinkFailureTestCase::PhySyncDetectionCallback, this));
  Config::Connect ("/NodeList/*/DeviceList/*/LteUeRrc/RadioLinkFailure",
                   MakeCallback (&LteRadioLinkFailureTestCase::RadioLinkFailureCallback, this));
 
  Simulator::Stop (simTime);
 
  Simulator::Run ();
  for (uint32_t u = 0; u < m_numUes; ++u)
    {
      NS_TEST_ASSERT_MSG_EQ (m_radioLinkFailureDetected, true,
                             "Error, UE transitions to idle state for other than radio link failure");
      CheckIdle (ueDevs.Get (u), enbDevs);
    }
  Simulator::Destroy ();
} // end of void LteRadioLinkFailureTestCase::DoRun ()
 
void
LteRadioLinkFailureTestCase::JumpAway (Vector UeJumpAwayPosition)
{
  NS_LOG_FUNCTION (this);
  // move to a far away location so that transmission errors occur
 
  m_ueMobility->SetPosition (UeJumpAwayPosition);
}
 
void
LteRadioLinkFailureTestCase::CheckConnected (Ptr<NetDevice> ueDevice, NetDeviceContainer enbDevices)
{
  NS_LOG_FUNCTION (ueDevice);
 
  Ptr<LteUeNetDevice> ueLteDevice = ueDevice->GetObject<LteUeNetDevice> ();
  Ptr<LteUeRrc> ueRrc = ueLteDevice->GetRrc ();
  NS_TEST_ASSERT_MSG_EQ (ueRrc->GetState (), LteUeRrc::CONNECTED_NORMALLY, "Wrong LteUeRrc state!");
  uint16_t cellId = ueRrc->GetCellId ();
 
  Ptr<LteEnbNetDevice> enbLteDevice;
 
  for (std::vector<Ptr<NetDevice> >::const_iterator enbDevIt = enbDevices.Begin ();
       enbDevIt != enbDevices.End (); ++enbDevIt)
    {
      if (((*enbDevIt)->GetObject<LteEnbNetDevice> ())->HasCellId (cellId))
        {
          enbLteDevice = (*enbDevIt)->GetObject<LteEnbNetDevice> ();
        }
    }
 
  NS_TEST_ASSERT_MSG_NE (enbLteDevice, 0, "LTE eNB device not found");
  Ptr<LteEnbRrc> enbRrc = enbLteDevice->GetRrc ();
  uint16_t rnti = ueRrc->GetRnti ();
  Ptr<UeManager> ueManager = enbRrc->GetUeManager (rnti);
  NS_TEST_ASSERT_MSG_NE (ueManager, 0, "RNTI " << rnti << " not found in eNB");
 
  UeManager::State ueManagerState = ueManager->GetState ();
  NS_TEST_ASSERT_MSG_EQ (ueManagerState, UeManager::CONNECTED_NORMALLY, "Wrong UeManager state!");
  NS_ASSERT_MSG (ueManagerState == UeManager::CONNECTED_NORMALLY, "Wrong UeManager state!");
 
  uint16_t ueCellId = ueRrc->GetCellId ();
  uint16_t enbCellId = enbLteDevice->GetCellId ();
  uint8_t ueDlBandwidth = ueRrc->GetDlBandwidth ();
  uint8_t enbDlBandwidth = enbLteDevice->GetDlBandwidth ();
  uint8_t ueUlBandwidth = ueRrc->GetUlBandwidth ();
  uint8_t enbUlBandwidth = enbLteDevice->GetUlBandwidth ();
  uint8_t ueDlEarfcn = ueRrc->GetDlEarfcn ();
  uint8_t enbDlEarfcn = enbLteDevice->GetDlEarfcn ();
  uint8_t ueUlEarfcn = ueRrc->GetUlEarfcn ();
  uint8_t enbUlEarfcn = enbLteDevice->GetUlEarfcn ();
  uint64_t ueImsi = ueLteDevice->GetImsi ();
  uint64_t enbImsi = ueManager->GetImsi ();
 
  NS_TEST_ASSERT_MSG_EQ (ueImsi, enbImsi, "inconsistent IMSI");
  NS_TEST_ASSERT_MSG_EQ (ueCellId, enbCellId, "inconsistent CellId");
  NS_TEST_ASSERT_MSG_EQ (ueDlBandwidth, enbDlBandwidth, "inconsistent DlBandwidth");
  NS_TEST_ASSERT_MSG_EQ (ueUlBandwidth, enbUlBandwidth, "inconsistent UlBandwidth");
  NS_TEST_ASSERT_MSG_EQ (ueDlEarfcn, enbDlEarfcn, "inconsistent DlEarfcn");
  NS_TEST_ASSERT_MSG_EQ (ueUlEarfcn, enbUlEarfcn, "inconsistent UlEarfcn");
 
  ObjectMapValue enbDataRadioBearerMapValue;
  ueManager->GetAttribute ("DataRadioBearerMap", enbDataRadioBearerMapValue);
  NS_TEST_ASSERT_MSG_EQ (enbDataRadioBearerMapValue.GetN (), 1 + 1, "wrong num bearers at eNB");
 
  ObjectMapValue ueDataRadioBearerMapValue;
  ueRrc->GetAttribute ("DataRadioBearerMap", ueDataRadioBearerMapValue);
  NS_TEST_ASSERT_MSG_EQ (ueDataRadioBearerMapValue.GetN (), 1 + 1, "wrong num bearers at UE");
 
  ObjectMapValue::Iterator enbBearerIt = enbDataRadioBearerMapValue.Begin ();
  ObjectMapValue::Iterator ueBearerIt = ueDataRadioBearerMapValue.Begin ();
  while (enbBearerIt != enbDataRadioBearerMapValue.End ()
         && ueBearerIt != ueDataRadioBearerMapValue.End ())
    {
      Ptr<LteDataRadioBearerInfo> enbDrbInfo = enbBearerIt->second->GetObject<LteDataRadioBearerInfo> ();
      Ptr<LteDataRadioBearerInfo> ueDrbInfo = ueBearerIt->second->GetObject<LteDataRadioBearerInfo> ();
      NS_TEST_ASSERT_MSG_EQ ((uint32_t) enbDrbInfo->m_epsBearerIdentity, (uint32_t) ueDrbInfo->m_epsBearerIdentity, "epsBearerIdentity differs");
      NS_TEST_ASSERT_MSG_EQ ((uint32_t) enbDrbInfo->m_drbIdentity, (uint32_t) ueDrbInfo->m_drbIdentity, "drbIdentity differs");
      NS_TEST_ASSERT_MSG_EQ ((uint32_t) enbDrbInfo->m_logicalChannelIdentity, (uint32_t) ueDrbInfo->m_logicalChannelIdentity, "logicalChannelIdentity differs");
 
      ++enbBearerIt;
      ++ueBearerIt;
    }
  NS_ASSERT_MSG (enbBearerIt == enbDataRadioBearerMapValue.End (), "too many bearers at eNB");
  NS_ASSERT_MSG (ueBearerIt == ueDataRadioBearerMapValue.End (), "too many bearers at UE");
}
 
void
LteRadioLinkFailureTestCase::CheckIdle (Ptr<NetDevice> ueDevice, NetDeviceContainer enbDevices)
{
  NS_LOG_FUNCTION (ueDevice);
 
  Ptr<LteUeNetDevice> ueLteDevice = ueDevice->GetObject<LteUeNetDevice> ();
  Ptr<LteUeRrc> ueRrc = ueLteDevice->GetRrc ();
  uint16_t rnti = ueRrc->GetRnti ();
  uint32_t numEnbDevices = enbDevices.GetN ();
  bool ueManagerFound = false;
 
  switch (numEnbDevices)
    {
      // 1 eNB
      case 1:
        NS_TEST_ASSERT_MSG_EQ (ueRrc->GetState (), LteUeRrc::IDLE_CELL_SEARCH, "Wrong LteUeRrc state!");
        ueManagerFound = CheckUeExistAtEnb (rnti, enbDevices.Get (0));
        NS_TEST_ASSERT_MSG_EQ (ueManagerFound, false, "Unexpected RNTI with value " << rnti << " found in eNB");
        break;
      // 2 eNBs
      case 2:
        NS_TEST_ASSERT_MSG_EQ (ueRrc->GetState (), LteUeRrc::CONNECTED_NORMALLY, "Wrong LteUeRrc state!");
        ueManagerFound = CheckUeExistAtEnb (rnti, enbDevices.Get (1));
        NS_TEST_ASSERT_MSG_EQ (ueManagerFound, true, "RNTI " << rnti << " is not attached to the eNB");
        break;
      default:
        NS_FATAL_ERROR ("The RRC state of the UE in more then 2 eNB scenario is not defined. Consider creating more cases");
        break;
    }
}
 
bool
LteRadioLinkFailureTestCase::CheckUeExistAtEnb (uint16_t rnti, Ptr<NetDevice> enbDevice)
{
  NS_LOG_FUNCTION (this << rnti);
  Ptr<LteEnbNetDevice> enbLteDevice = DynamicCast<LteEnbNetDevice> (enbDevice);
  NS_ABORT_MSG_IF (enbLteDevice == nullptr, "LTE eNB device not found");
  Ptr<LteEnbRrc> enbRrc = enbLteDevice->GetRrc ();
  bool ueManagerFound = enbRrc->HasUeManager (rnti);
  return ueManagerFound;
}
 
void
LteRadioLinkFailureTestCase::UeStateTransitionCallback (std::string context,
                                                        uint64_t imsi, uint16_t cellId,
                                                        uint16_t rnti, LteUeRrc::State oldState,
                                                        LteUeRrc::State newState)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti << oldState << newState);
  m_lastState = newState;
}
 
void
LteRadioLinkFailureTestCase::ConnectionEstablishedEnbCallback (
  std::string context, uint64_t imsi, uint16_t cellId, uint16_t rnti)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti);
}
 
void
LteRadioLinkFailureTestCase::ConnectionEstablishedUeCallback (
  std::string context, uint64_t imsi, uint16_t cellId, uint16_t rnti)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti);
  NS_TEST_ASSERT_MSG_EQ (m_numOfOutOfSyncIndications, 0,
                         "radio link failure detection should start only in RRC CONNECTED state");
  NS_TEST_ASSERT_MSG_EQ (m_numOfInSyncIndications, 0,
                         "radio link failure detection should start only in RRC CONNECTED state");
}
 
void
LteRadioLinkFailureTestCase::ConnectionReleaseAtEnbCallback (std::string context, uint64_t imsi,
                                                             uint16_t cellId, uint16_t rnti)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti);
}
 
void
LteRadioLinkFailureTestCase::PhySyncDetectionCallback (std::string context, uint64_t imsi, uint16_t rnti, uint16_t cellId, std::string type, uint8_t count)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti);
  if (type == "Notify out of sync")
    {
      m_numOfOutOfSyncIndications = count;
    }
  else if (type == "Notify in sync")
    {
      m_numOfInSyncIndications = count;
    }
}
 
void
LteRadioLinkFailureTestCase::RadioLinkFailureCallback (std::string context, uint64_t imsi, uint16_t cellId, uint16_t rnti)
{
  NS_LOG_FUNCTION (this << imsi << cellId << rnti);
  NS_LOG_DEBUG ("RLF at " << Simulator::Now ());
  m_radioLinkFailureDetected = true;
  //The value of N310 is hard coded to the default value 1
  NS_TEST_ASSERT_MSG_EQ (m_numOfOutOfSyncIndications, 1,
                         "wrong number of out-of-sync indications detected, check configured value for N310");
  //The value of N311 is hard coded to the default value 1
  NS_TEST_ASSERT_MSG_LT (m_numOfInSyncIndications, 1,
                         "wrong number of out-of-sync indications detected, check configured value for N311");
  // Reset the counter for the next RRC connection establishment.
  m_numOfOutOfSyncIndications = 0;
}