plugins/topology/annotated-topology-reader.cc - ndnSIM - Gitiles

 /* -*-  Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2011 University of California, Los Angeles
  *
  * 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: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
  *         Ilya Moiseenko <iliamo@cs.ucla.edu>
  */

 #include "annotated-topology-reader.h"

 #include "ns3/nstime.h"
 #include "ns3/log.h"
 #include "ns3/assert.h"
 #include "ns3/names.h"
 #include "ns3/net-device-container.h"
 #include "ns3/point-to-point-helper.h"
 #include "ns3/point-to-point-net-device.h"
 #include "ns3/internet-stack-helper.h"
 #include "ns3/ipv4-address-helper.h"
 #include "ns3/ipv4-global-routing-helper.h"
 #include "ns3/drop-tail-queue.h"
 #include "ns3/ipv4-interface.h"
 #include "ns3/ipv4.h"
 #include "ns3/string.h"
 #include "ns3/pointer.h"
 #include "ns3/uinteger.h"
 #include "ns3/ipv4-address.h"
 #include "ns3/ndn-l3-protocol.h"
 #include "ns3/ndn-face.h"
 #include "ns3/random-variable.h"
 #include "ns3/error-model.h"

 #include "ns3/constant-position-mobility-model.h"

 #include <boost/foreach.hpp>
 #include <boost/lexical_cast.hpp>
 #include <boost/tokenizer.hpp>

 #include <boost/graph/adjacency_list.hpp>
 #include <boost/graph/graphviz.hpp>

 #include <set>

 #ifdef NS3_MPI
 #include <ns3/mpi-interface.h>
 #endif

 using namespace std;

 namespace ns3 {

 NS_LOG_COMPONENT_DEFINE ("AnnotatedTopologyReader");

 AnnotatedTopologyReader::AnnotatedTopologyReader (const std::string &path, double scale/*=1.0*/)
   : m_path (path)
   , m_randX (0, 100.0)
   , m_randY (0, 100.0)
   , m_scale (scale)
   , m_requiredPartitions (1)
 {
   NS_LOG_FUNCTION (this);

   SetMobilityModel ("ns3::ConstantPositionMobilityModel");
 }

 void
 AnnotatedTopologyReader::SetBoundingBox (double ulx, double uly, double lrx, double lry)
 {
   NS_LOG_FUNCTION (this << ulx << uly << lrx << lry);

   m_randX = UniformVariable (ulx, lrx);
   m_randY = UniformVariable (uly, lry);
 }

 void
 AnnotatedTopologyReader::SetMobilityModel (const std::string &model)
 {
   NS_LOG_FUNCTION (this << model);
   m_mobilityFactory.SetTypeId (model);
 }

 AnnotatedTopologyReader::~AnnotatedTopologyReader ()
 {
   NS_LOG_FUNCTION (this);
 }

 Ptr<Node>
 AnnotatedTopologyReader::CreateNode (const std::string name, uint32_t systemId)
 {
   NS_LOG_FUNCTION (this << name);
   m_requiredPartitions = std::max (m_requiredPartitions, systemId + 1);

   Ptr<Node> node = CreateObject<Node> (systemId);

   Names::Add (m_path, name, node);
   m_nodes.Add (node);

   return node;
 }

 Ptr<Node>
 AnnotatedTopologyReader::CreateNode (const std::string name, double posX, double posY, uint32_t systemId)
 {
   NS_LOG_FUNCTION (this << name << posX << posY);
   m_requiredPartitions = std::max (m_requiredPartitions, systemId + 1);

   Ptr<Node> node = CreateObject<Node> (systemId);
   Ptr<MobilityModel> loc = DynamicCast<MobilityModel> (m_mobilityFactory.Create ());
   node->AggregateObject (loc);

   loc->SetPosition (Vector (posX, posY, 0));

   Names::Add (m_path, name, node);
   m_nodes.Add (node);

   return node;
 }

 NodeContainer
 AnnotatedTopologyReader::GetNodes () const
 {
   return m_nodes;
 }

 const std::list<TopologyReader::Link>&
 AnnotatedTopologyReader::GetLinks () const
 {
   return m_linksList;
 }

 NodeContainer
 AnnotatedTopologyReader::Read (void)
 {
   ifstream topgen;
   topgen.open (GetFileName ().c_str ());

   if ( !topgen.is_open () || !topgen.good () )
     {
       NS_FATAL_ERROR ("Cannot open file " << GetFileName () << " for reading");
       return m_nodes;
     }

   while (!topgen.eof ())
     {
       string line;
       getline (topgen, line);

       if (line == "router") break;
     }

   if (topgen.eof ())
     {
       NS_FATAL_ERROR ("Topology file " << GetFileName () << " does not have \"router\" section");
       return m_nodes;
     }

   while (!topgen.eof ())
     {
       string line;
       getline (topgen,line);
       if (line[0] == '#') continue; // comments
       if (line=="link") break; // stop reading nodes

       istringstream lineBuffer (line);
       string name, city;
       double latitude = 0, longitude = 0;
       uint32_t systemId = 0;

       lineBuffer >> name >> city >> latitude >> longitude >> systemId;
       if (name.empty ()) continue;

       Ptr<Node> node;

       if (abs(latitude) > 0.001 && abs(latitude) > 0.001)
         node = CreateNode (name, m_scale*longitude, -m_scale*latitude, systemId);
       else
         {
           UniformVariable var (0,200);
           node = CreateNode (name, var.GetValue (), var.GetValue (), systemId);
           // node = CreateNode (name, systemId);
         }
     }

   map<string, set<string> > processedLinks; // to eliminate duplications

   if (topgen.eof ())
     {
       NS_LOG_ERROR ("Topology file " << GetFileName () << " does not have \"link\" section");
       return m_nodes;
     }

   // SeekToSection ("link");
   while (!topgen.eof ())
     {
       string line;
       getline (topgen,line);
       if (line == "") continue;
       if (line[0] == '#') continue; // comments

       // NS_LOG_DEBUG ("Input: [" << line << "]");

       istringstream lineBuffer (line);
       string from, to, capacity, metric, delay, maxPackets, lossRate;

       lineBuffer >> from >> to >> capacity >> metric >> delay >> maxPackets >> lossRate;

       if (processedLinks[to].size () != 0 &&
           processedLinks[to].find (from) != processedLinks[to].end ())
         {
           continue; // duplicated link
         }
       processedLinks[from].insert (to);

       Ptr<Node> fromNode = Names::Find<Node> (m_path, from);
       NS_ASSERT_MSG (fromNode != 0, from << " node not found");
       Ptr<Node> toNode   = Names::Find<Node> (m_path, to);
       NS_ASSERT_MSG (toNode != 0, to << " node not found");

       Link link (fromNode, from, toNode, to);

       link.SetAttribute ("DataRate", capacity);
       link.SetAttribute ("OSPF", metric);

       if (!delay.empty ())
           link.SetAttribute ("Delay", delay);
       if (!maxPackets.empty ())
         link.SetAttribute ("MaxPackets", maxPackets);

       // Saran Added lossRate
       if (!lossRate.empty ())
         link.SetAttribute ("LossRate", lossRate);

       AddLink (link);
       NS_LOG_DEBUG ("New link " << from << " <==> " << to << " / " << capacity << " with " << metric << " metric (" << delay << ", " << maxPackets << ", " << lossRate << ")");
     }

   NS_LOG_INFO ("Annotated topology created with " << m_nodes.GetN () << " nodes and " << LinksSize () << " links");
   topgen.close ();

   ApplySettings ();

   return m_nodes;
 }

 void
 AnnotatedTopologyReader::AssignIpv4Addresses (Ipv4Address base)
 {
   Ipv4AddressHelper address (base, Ipv4Mask ("/24"));

   BOOST_FOREACH (const Link &link, m_linksList)
     {
       address.Assign (NetDeviceContainer (link.GetFromNetDevice (),
                                           link.GetToNetDevice ()));

       base = Ipv4Address (base.Get () + 256);
       address.SetBase (base, Ipv4Mask ("/24"));
     }
 }

 void
 AnnotatedTopologyReader::ApplyOspfMetric ()
 {
   BOOST_FOREACH (const Link &link, m_linksList)
     {
       NS_LOG_DEBUG ("OSPF: " << link.GetAttribute ("OSPF"));
       uint16_t metric = boost::lexical_cast<uint16_t> (link.GetAttribute ("OSPF"));

       {
         Ptr<Ipv4> ipv4 = link.GetFromNode ()->GetObject<Ipv4> ();
         if (ipv4 != 0)
           {
             int32_t interfaceId = ipv4->GetInterfaceForDevice (link.GetFromNetDevice ());
             NS_ASSERT (interfaceId >= 0);

             ipv4->SetMetric (interfaceId,metric);
           }

         Ptr<ndn::L3Protocol> ndn = link.GetFromNode ()->GetObject<ndn::L3Protocol> ();
         if (ndn != 0)
           {
             Ptr<ndn::Face> face = ndn->GetFaceByNetDevice (link.GetFromNetDevice ());
             NS_ASSERT (face != 0);

             face->SetMetric (metric);
           }
       }

       {
         Ptr<Ipv4> ipv4 = link.GetToNode ()->GetObject<Ipv4> ();
         if (ipv4 != 0)
           {
             int32_t interfaceId = ipv4->GetInterfaceForDevice (link.GetToNetDevice ());
             NS_ASSERT (interfaceId >= 0);

             ipv4->SetMetric (interfaceId,metric);
           }

         Ptr<ndn::L3Protocol> ndn = link.GetToNode ()->GetObject<ndn::L3Protocol> ();
         if (ndn != 0)
           {
             Ptr<ndn::Face> face = ndn->GetFaceByNetDevice (link.GetToNetDevice ());
             NS_ASSERT (face != 0);

             face->SetMetric (metric);
           }
       }
     }
 }

 void
 AnnotatedTopologyReader::ApplySettings ()
 {
 #ifdef NS3_MPI
   if (MpiInterface::IsEnabled () &&
       MpiInterface::GetSize () != m_requiredPartitions)
     {
       std::cerr << "MPI interface is enabled, but number of partitions (" << MpiInterface::GetSize ()
                 << ") is not equal to number of partitions in the topology (" << m_requiredPartitions << ")";
       exit (-1);
     }
 #endif

   PointToPointHelper p2p;

   BOOST_FOREACH (Link &link, m_linksList)
     {
       // cout << "Link: " << Findlink.GetFromNode () << ", " << link.GetToNode () << endl;
       string tmp;

       if (link.GetAttributeFailSafe ("DataRate", tmp))
         {
           NS_LOG_INFO ("DataRate = " + link.GetAttribute("DataRate"));
           p2p.SetDeviceAttribute ("DataRate", StringValue (link.GetAttribute ("DataRate")));
         }

       if (link.GetAttributeFailSafe ("Delay", tmp))
         {
           NS_LOG_INFO ("Delay = " + link.GetAttribute("Delay"));
           p2p.SetChannelAttribute ("Delay", StringValue (link.GetAttribute ("Delay")));
         }

       NetDeviceContainer nd = p2p.Install(link.GetFromNode (), link.GetToNode ());
       link.SetNetDevices (nd.Get (0), nd.Get (1));

       ////////////////////////////////////////////////
       if (link.GetAttributeFailSafe ("LossRate", tmp))
         {
           NS_LOG_INFO ("LinkError = " + link.GetAttribute("LossRate"));

           typedef boost::tokenizer<boost::escaped_list_separator<char> > tokenizer;
           tokenizer tok (link.GetAttribute("LossRate"));

           tokenizer::iterator token = tok.begin ();
           ObjectFactory factory (*token);

           for (token ++; token != tok.end (); token ++)
             {
               boost::escaped_list_separator<char> separator ('\\', '=', '\"');
               tokenizer attributeTok (*token, separator);

               tokenizer::iterator attributeToken = attributeTok.begin ();

               string attribute = *attributeToken;
               attributeToken++;

               if (attributeToken == attributeTok.end ())
                 {
                   NS_LOG_ERROR ("ErrorModel attribute [" << *token << "] should be in form <Attribute>=<Value>");
                   continue;
                 }

               string value = *attributeToken;

               factory.Set (attribute, StringValue (value));
             }

           nd.Get (0)->SetAttribute ("ReceiveErrorModel", PointerValue (factory.Create<ErrorModel> ()));
           nd.Get (1)->SetAttribute ("ReceiveErrorModel", PointerValue (factory.Create<ErrorModel> ()));
         }

       ////////////////////////////////////////////////
       if (link.GetAttributeFailSafe ("MaxPackets", tmp))
         {
           NS_LOG_INFO ("MaxPackets = " + link.GetAttribute ("MaxPackets"));

           PointerValue txQueue;

           link.GetToNetDevice ()->GetAttribute ("TxQueue", txQueue);
           NS_ASSERT (txQueue.Get<DropTailQueue> () != 0);
           txQueue.Get<DropTailQueue> ()->SetAttribute ("MaxPackets", StringValue (link.GetAttribute ("MaxPackets")));

           link.GetFromNetDevice ()->GetAttribute ("TxQueue", txQueue);
           NS_ASSERT (txQueue.Get<DropTailQueue> () != 0);
           txQueue.Get<DropTailQueue> ()->SetAttribute ("MaxPackets", StringValue (link.GetAttribute ("MaxPackets")));
         }

     }
 }

 void
 AnnotatedTopologyReader::SaveTopology (const std::string &file)
 {
   ofstream os (file.c_str (), ios::trunc);
   os << "# any empty lines and lines starting with '#' symbol is ignored\n"
      << "\n"
      << "# The file should contain exactly two sections: router and link, each starting with the corresponding keyword\n"
      << "\n"
      << "# router section defines topology nodes and their relative positions (e.g., to use in visualizer)\n"
      << "router\n"
      << "\n"
      << "# each line in this section represents one router and should have the following data\n"
      << "# node  comment     yPos    xPos\n";

   for (NodeContainer::Iterator node = m_nodes.Begin ();
        node != m_nodes.End ();
        node++)
     {
       std::string name = Names::FindName (*node);
       Ptr<MobilityModel> mobility = (*node)->GetObject<MobilityModel> ();
       Vector position = mobility->GetPosition ();

       os << name << "\t" << "NA" << "\t" << -position.y << "\t" << position.x << "\n";
     }

   os << "# link section defines point-to-point links between nodes and characteristics of these links\n"
      << "\n"
      << "link\n"
      << "\n"
      << "# Each line should be in the following format (only first two are required, the rest can be omitted)\n"
      << "# srcNode   dstNode     bandwidth   metric  delay   queue\n"
      << "# bandwidth: link bandwidth\n"
      << "# metric: routing metric\n"
      << "# delay:  link delay\n"
      << "# queue:  MaxPackets for transmission queue on the link (both directions)\n"
      << "# error:  comma-separated list, specifying class for ErrorModel and necessary attributes\n";

   for (std::list<Link>::const_iterator link = m_linksList.begin ();
        link != m_linksList.end ();
        link ++)
     {
       os << Names::FindName (link->GetFromNode ()) << "\t";
       os << Names::FindName (link->GetToNode ()) << "\t";

       string tmp;
       if (link->GetAttributeFailSafe ("DataRate", tmp))
         os << link->GetAttribute("DataRate") << "\t";
       else
         NS_FATAL_ERROR ("DataRate must be specified for the link");

       if (link->GetAttributeFailSafe ("OSPF", tmp))
         os << link->GetAttribute("OSPF") << "\t";
       else
         os << "1\t";

       if (link->GetAttributeFailSafe ("Delay", tmp))
         {
           os << link->GetAttribute("Delay") << "\t";

           if (link->GetAttributeFailSafe ("MaxPackets", tmp))
             {
               os << link->GetAttribute("MaxPackets") << "\t";

               if (link->GetAttributeFailSafe ("LossRate", tmp))
                 {
                   os << link->GetAttribute ("LossRate") << "\t";
                 }
             }
         }
       os << "\n";
     }
 }


 template <class Names>
 class name_writer {
 public:
   name_writer(Names _names) : names(_names) {}

   template <class VertexOrEdge>
   void operator()(std::ostream& out, const VertexOrEdge& v) const {
     // out << "[label=\"" << names[v] << "\",style=filled,fillcolor=\"" << colors[v] << "\"]";
     out << "[shape=\"circle\",width=0.1,label=\"\",style=filled,fillcolor=\"green\"]";
   }
 private:
   Names names;
 };

 template <class Names>
 inline name_writer<Names>
 make_name_writer(Names n) {
   return name_writer<Names>(n);
 }


 void
 AnnotatedTopologyReader::SaveGraphviz (const std::string &file)
 {
   typedef boost::adjacency_list_traits<boost::setS, boost::setS, boost::undirectedS> Traits;

   typedef boost::property< boost::vertex_name_t, std::string, boost::property
                            < boost::vertex_index_t, uint32_t > > nodeProperty;

   typedef boost::no_property edgeProperty;

   typedef boost::adjacency_list< boost::setS, boost::setS, boost::undirectedS,
                                  nodeProperty, edgeProperty > Graph;

   typedef map<string, Traits::vertex_descriptor> node_map_t;
   node_map_t graphNodes;
   Graph      graph;

   for (NodeContainer::Iterator node = m_nodes.Begin ();
        node != m_nodes.End ();
        node++)
     {
        std::pair<node_map_t::iterator, bool>
          retval = graphNodes.insert (make_pair (Names::FindName (*node),
                                                 add_vertex (nodeProperty (Names::FindName (*node)), graph)));
        // NS_ASSERT (ok == true);

        put (boost::vertex_index, graph, retval.first->second, (*node)->GetId ());
     }

   for (std::list<Link>::const_iterator link = m_linksList.begin ();
        link != m_linksList.end ();
        link ++)
     {
       node_map_t::iterator from = graphNodes.find (Names::FindName (link->GetFromNode ()));
       node_map_t::iterator to   = graphNodes.find (Names::FindName (link->GetToNode ()));

       // add_edge (node->second, otherNode->second, m_graph);
       boost::add_edge (from->second, to->second, graph);
     }

   ofstream of (file.c_str ());
   boost::property_map<Graph, boost::vertex_name_t>::type names = get (boost::vertex_name, graph);
   write_graphviz (of, graph, make_name_writer (names));
 }


 }
	/* -- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2011 University of California, Los Angeles
	*
	* 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: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
	* Ilya Moiseenko <iliamo@cs.ucla.edu>
	*/

	#include "annotated-topology-reader.h"

	#include "ns3/nstime.h"
	#include "ns3/log.h"
	#include "ns3/assert.h"
	#include "ns3/names.h"
	#include "ns3/net-device-container.h"
	#include "ns3/point-to-point-helper.h"
	#include "ns3/point-to-point-net-device.h"
	#include "ns3/internet-stack-helper.h"
	#include "ns3/ipv4-address-helper.h"
	#include "ns3/ipv4-global-routing-helper.h"
	#include "ns3/drop-tail-queue.h"
	#include "ns3/ipv4-interface.h"
	#include "ns3/ipv4.h"
	#include "ns3/string.h"
	#include "ns3/pointer.h"
	#include "ns3/uinteger.h"
	#include "ns3/ipv4-address.h"
	#include "ns3/ndn-l3-protocol.h"
	#include "ns3/ndn-face.h"
	#include "ns3/random-variable.h"
	#include "ns3/error-model.h"

	#include "ns3/constant-position-mobility-model.h"

	#include <boost/foreach.hpp>
	#include <boost/lexical_cast.hpp>
	#include <boost/tokenizer.hpp>

	#include <boost/graph/adjacency_list.hpp>
	#include <boost/graph/graphviz.hpp>

	#include <set>

	#ifdef NS3_MPI
	#include <ns3/mpi-interface.h>
	#endif

	using namespace std;

	namespace ns3 {

	NS_LOG_COMPONENT_DEFINE ("AnnotatedTopologyReader");

	AnnotatedTopologyReader::AnnotatedTopologyReader (const std::string &path, double scale/=1.0/)
	: m_path (path)
	, m_randX (0, 100.0)
	, m_randY (0, 100.0)
	, m_scale (scale)
	, m_requiredPartitions (1)
	{
	NS_LOG_FUNCTION (this);

	SetMobilityModel ("ns3::ConstantPositionMobilityModel");
	}

	void
	AnnotatedTopologyReader::SetBoundingBox (double ulx, double uly, double lrx, double lry)
	{
	NS_LOG_FUNCTION (this << ulx << uly << lrx << lry);

	m_randX = UniformVariable (ulx, lrx);
	m_randY = UniformVariable (uly, lry);
	}

	void
	AnnotatedTopologyReader::SetMobilityModel (const std::string &model)
	{
	NS_LOG_FUNCTION (this << model);
	m_mobilityFactory.SetTypeId (model);
	}

	AnnotatedTopologyReader::~AnnotatedTopologyReader ()
	{
	NS_LOG_FUNCTION (this);
	}

	Ptr<Node>
	AnnotatedTopologyReader::CreateNode (const std::string name, uint32_t systemId)
	{
	NS_LOG_FUNCTION (this << name);
	m_requiredPartitions = std::max (m_requiredPartitions, systemId + 1);

	Ptr<Node> node = CreateObject<Node> (systemId);

	Names::Add (m_path, name, node);
	m_nodes.Add (node);

	return node;
	}

	Ptr<Node>
	AnnotatedTopologyReader::CreateNode (const std::string name, double posX, double posY, uint32_t systemId)
	{
	NS_LOG_FUNCTION (this << name << posX << posY);
	m_requiredPartitions = std::max (m_requiredPartitions, systemId + 1);

	Ptr<Node> node = CreateObject<Node> (systemId);
	Ptr<MobilityModel> loc = DynamicCast<MobilityModel> (m_mobilityFactory.Create ());
	node->AggregateObject (loc);

	loc->SetPosition (Vector (posX, posY, 0));

	Names::Add (m_path, name, node);
	m_nodes.Add (node);

	return node;
	}

	NodeContainer
	AnnotatedTopologyReader::GetNodes () const
	{
	return m_nodes;
	}

	const std::list<TopologyReader::Link>&
	AnnotatedTopologyReader::GetLinks () const
	{
	return m_linksList;
	}

	NodeContainer
	AnnotatedTopologyReader::Read (void)
	{
	ifstream topgen;
	topgen.open (GetFileName ().c_str ());

	if ( !topgen.is_open () \|\| !topgen.good () )
	{
	NS_FATAL_ERROR ("Cannot open file " << GetFileName () << " for reading");
	return m_nodes;
	}

	while (!topgen.eof ())
	{
	string line;
	getline (topgen, line);

	if (line == "router") break;
	}

	if (topgen.eof ())
	{
	NS_FATAL_ERROR ("Topology file " << GetFileName () << " does not have \"router\" section");
	return m_nodes;
	}

	while (!topgen.eof ())
	{
	string line;
	getline (topgen,line);
	if (line[0] == '#') continue; // comments
	if (line=="link") break; // stop reading nodes

	istringstream lineBuffer (line);
	string name, city;
	double latitude = 0, longitude = 0;
	uint32_t systemId = 0;

	lineBuffer >> name >> city >> latitude >> longitude >> systemId;
	if (name.empty ()) continue;

	Ptr<Node> node;

	if (abs(latitude) > 0.001 && abs(latitude) > 0.001)
	node = CreateNode (name, m_scalelongitude, -m_scalelatitude, systemId);
	else
	{
	UniformVariable var (0,200);
	node = CreateNode (name, var.GetValue (), var.GetValue (), systemId);
	// node = CreateNode (name, systemId);
	}
	}

	map<string, set<string> > processedLinks; // to eliminate duplications

	if (topgen.eof ())
	{
	NS_LOG_ERROR ("Topology file " << GetFileName () << " does not have \"link\" section");
	return m_nodes;
	}

	// SeekToSection ("link");
	while (!topgen.eof ())
	{
	string line;
	getline (topgen,line);
	if (line == "") continue;
	if (line[0] == '#') continue; // comments

	// NS_LOG_DEBUG ("Input: [" << line << "]");

	istringstream lineBuffer (line);
	string from, to, capacity, metric, delay, maxPackets, lossRate;

	lineBuffer >> from >> to >> capacity >> metric >> delay >> maxPackets >> lossRate;

	if (processedLinks[to].size () != 0 &&
	processedLinks[to].find (from) != processedLinks[to].end ())
	{
	continue; // duplicated link
	}
	processedLinks[from].insert (to);

	Ptr<Node> fromNode = Names::Find<Node> (m_path, from);
	NS_ASSERT_MSG (fromNode != 0, from << " node not found");
	Ptr<Node> toNode = Names::Find<Node> (m_path, to);
	NS_ASSERT_MSG (toNode != 0, to << " node not found");

	Link link (fromNode, from, toNode, to);

	link.SetAttribute ("DataRate", capacity);
	link.SetAttribute ("OSPF", metric);

	if (!delay.empty ())
	link.SetAttribute ("Delay", delay);
	if (!maxPackets.empty ())
	link.SetAttribute ("MaxPackets", maxPackets);

	// Saran Added lossRate
	if (!lossRate.empty ())
	link.SetAttribute ("LossRate", lossRate);

	AddLink (link);
	NS_LOG_DEBUG ("New link " << from << " <==> " << to << " / " << capacity << " with " << metric << " metric (" << delay << ", " << maxPackets << ", " << lossRate << ")");
	}

	NS_LOG_INFO ("Annotated topology created with " << m_nodes.GetN () << " nodes and " << LinksSize () << " links");
	topgen.close ();

	ApplySettings ();

	return m_nodes;
	}

	void
	AnnotatedTopologyReader::AssignIpv4Addresses (Ipv4Address base)
	{
	Ipv4AddressHelper address (base, Ipv4Mask ("/24"));

	BOOST_FOREACH (const Link &link, m_linksList)
	{
	address.Assign (NetDeviceContainer (link.GetFromNetDevice (),
	link.GetToNetDevice ()));

	base = Ipv4Address (base.Get () + 256);
	address.SetBase (base, Ipv4Mask ("/24"));
	}
	}

	void
	AnnotatedTopologyReader::ApplyOspfMetric ()
	{
	BOOST_FOREACH (const Link &link, m_linksList)
	{
	NS_LOG_DEBUG ("OSPF: " << link.GetAttribute ("OSPF"));
	uint16_t metric = boost::lexical_cast<uint16_t> (link.GetAttribute ("OSPF"));

	{
	Ptr<Ipv4> ipv4 = link.GetFromNode ()->GetObject<Ipv4> ();
	if (ipv4 != 0)
	{
	int32_t interfaceId = ipv4->GetInterfaceForDevice (link.GetFromNetDevice ());
	NS_ASSERT (interfaceId >= 0);

	ipv4->SetMetric (interfaceId,metric);
	}

	Ptr<ndn::L3Protocol> ndn = link.GetFromNode ()->GetObject<ndn::L3Protocol> ();
	if (ndn != 0)
	{
	Ptr<ndn::Face> face = ndn->GetFaceByNetDevice (link.GetFromNetDevice ());
	NS_ASSERT (face != 0);

	face->SetMetric (metric);
	}
	}

	{
	Ptr<Ipv4> ipv4 = link.GetToNode ()->GetObject<Ipv4> ();
	if (ipv4 != 0)
	{
	int32_t interfaceId = ipv4->GetInterfaceForDevice (link.GetToNetDevice ());
	NS_ASSERT (interfaceId >= 0);

	ipv4->SetMetric (interfaceId,metric);
	}

	Ptr<ndn::L3Protocol> ndn = link.GetToNode ()->GetObject<ndn::L3Protocol> ();
	if (ndn != 0)
	{
	Ptr<ndn::Face> face = ndn->GetFaceByNetDevice (link.GetToNetDevice ());
	NS_ASSERT (face != 0);

	face->SetMetric (metric);
	}
	}
	}
	}

	void
	AnnotatedTopologyReader::ApplySettings ()
	{
	#ifdef NS3_MPI
	if (MpiInterface::IsEnabled () &&
	MpiInterface::GetSize () != m_requiredPartitions)
	{
	std::cerr << "MPI interface is enabled, but number of partitions (" << MpiInterface::GetSize ()
	<< ") is not equal to number of partitions in the topology (" << m_requiredPartitions << ")";
	exit (-1);
	}
	#endif

	PointToPointHelper p2p;

	BOOST_FOREACH (Link &link, m_linksList)
	{
	// cout << "Link: " << Findlink.GetFromNode () << ", " << link.GetToNode () << endl;
	string tmp;

	if (link.GetAttributeFailSafe ("DataRate", tmp))
	{
	NS_LOG_INFO ("DataRate = " + link.GetAttribute("DataRate"));
	p2p.SetDeviceAttribute ("DataRate", StringValue (link.GetAttribute ("DataRate")));
	}

	if (link.GetAttributeFailSafe ("Delay", tmp))
	{
	NS_LOG_INFO ("Delay = " + link.GetAttribute("Delay"));
	p2p.SetChannelAttribute ("Delay", StringValue (link.GetAttribute ("Delay")));
	}

	NetDeviceContainer nd = p2p.Install(link.GetFromNode (), link.GetToNode ());
	link.SetNetDevices (nd.Get (0), nd.Get (1));

	////////////////////////////////////////////////
	if (link.GetAttributeFailSafe ("LossRate", tmp))
	{
	NS_LOG_INFO ("LinkError = " + link.GetAttribute("LossRate"));

	typedef boost::tokenizer<boost::escaped_list_separator<char> > tokenizer;
	tokenizer tok (link.GetAttribute("LossRate"));

	tokenizer::iterator token = tok.begin ();
	ObjectFactory factory (*token);

	for (token ++; token != tok.end (); token ++)
	{
	boost::escaped_list_separator<char> separator ('\\', '=', '\"');
	tokenizer attributeTok (*token, separator);

	tokenizer::iterator attributeToken = attributeTok.begin ();

	string attribute = *attributeToken;
	attributeToken++;

	if (attributeToken == attributeTok.end ())
	{
	NS_LOG_ERROR ("ErrorModel attribute [" << *token << "] should be in form <Attribute>=<Value>");
	continue;
	}

	string value = *attributeToken;

	factory.Set (attribute, StringValue (value));
	}

	nd.Get (0)->SetAttribute ("ReceiveErrorModel", PointerValue (factory.Create<ErrorModel> ()));
	nd.Get (1)->SetAttribute ("ReceiveErrorModel", PointerValue (factory.Create<ErrorModel> ()));
	}

	////////////////////////////////////////////////
	if (link.GetAttributeFailSafe ("MaxPackets", tmp))
	{
	NS_LOG_INFO ("MaxPackets = " + link.GetAttribute ("MaxPackets"));

	PointerValue txQueue;

	link.GetToNetDevice ()->GetAttribute ("TxQueue", txQueue);
	NS_ASSERT (txQueue.Get<DropTailQueue> () != 0);
	txQueue.Get<DropTailQueue> ()->SetAttribute ("MaxPackets", StringValue (link.GetAttribute ("MaxPackets")));

	link.GetFromNetDevice ()->GetAttribute ("TxQueue", txQueue);
	NS_ASSERT (txQueue.Get<DropTailQueue> () != 0);
	txQueue.Get<DropTailQueue> ()->SetAttribute ("MaxPackets", StringValue (link.GetAttribute ("MaxPackets")));
	}

	}
	}

	void
	AnnotatedTopologyReader::SaveTopology (const std::string &file)
	{
	ofstream os (file.c_str (), ios::trunc);
	os << "# any empty lines and lines starting with '#' symbol is ignored\n"
	<< "\n"
	<< "# The file should contain exactly two sections: router and link, each starting with the corresponding keyword\n"
	<< "\n"
	<< "# router section defines topology nodes and their relative positions (e.g., to use in visualizer)\n"
	<< "router\n"
	<< "\n"
	<< "# each line in this section represents one router and should have the following data\n"
	<< "# node comment yPos xPos\n";

	for (NodeContainer::Iterator node = m_nodes.Begin ();
	node != m_nodes.End ();
	node++)
	{
	std::string name = Names::FindName (*node);
	Ptr<MobilityModel> mobility = (*node)->GetObject<MobilityModel> ();
	Vector position = mobility->GetPosition ();

	os << name << "\t" << "NA" << "\t" << -position.y << "\t" << position.x << "\n";
	}

	os << "# link section defines point-to-point links between nodes and characteristics of these links\n"
	<< "\n"
	<< "link\n"
	<< "\n"
	<< "# Each line should be in the following format (only first two are required, the rest can be omitted)\n"
	<< "# srcNode dstNode bandwidth metric delay queue\n"
	<< "# bandwidth: link bandwidth\n"
	<< "# metric: routing metric\n"
	<< "# delay: link delay\n"
	<< "# queue: MaxPackets for transmission queue on the link (both directions)\n"
	<< "# error: comma-separated list, specifying class for ErrorModel and necessary attributes\n";

	for (std::list<Link>::const_iterator link = m_linksList.begin ();
	link != m_linksList.end ();
	link ++)
	{
	os << Names::FindName (link->GetFromNode ()) << "\t";
	os << Names::FindName (link->GetToNode ()) << "\t";

	string tmp;
	if (link->GetAttributeFailSafe ("DataRate", tmp))
	os << link->GetAttribute("DataRate") << "\t";
	else
	NS_FATAL_ERROR ("DataRate must be specified for the link");

	if (link->GetAttributeFailSafe ("OSPF", tmp))
	os << link->GetAttribute("OSPF") << "\t";
	else
	os << "1\t";

	if (link->GetAttributeFailSafe ("Delay", tmp))
	{
	os << link->GetAttribute("Delay") << "\t";

	if (link->GetAttributeFailSafe ("MaxPackets", tmp))
	{
	os << link->GetAttribute("MaxPackets") << "\t";

	if (link->GetAttributeFailSafe ("LossRate", tmp))
	{
	os << link->GetAttribute ("LossRate") << "\t";
	}
	}
	}
	os << "\n";
	}
	}


	template <class Names>
	class name_writer {
	public:
	name_writer(Names _names) : names(_names) {}

	template <class VertexOrEdge>
	void operator()(std::ostream& out, const VertexOrEdge& v) const {
	// out << "[label=\"" << names[v] << "\",style=filled,fillcolor=\"" << colors[v] << "\"]";
	out << "[shape=\"circle\",width=0.1,label=\"\",style=filled,fillcolor=\"green\"]";
	}
	private:
	Names names;
	};

	template <class Names>
	inline name_writer<Names>
	make_name_writer(Names n) {
	return name_writer<Names>(n);
	}


	void
	AnnotatedTopologyReader::SaveGraphviz (const std::string &file)
	{
	typedef boost::adjacency_list_traits<boost::setS, boost::setS, boost::undirectedS> Traits;

	typedef boost::property< boost::vertex_name_t, std::string, boost::property
	< boost::vertex_index_t, uint32_t > > nodeProperty;

	typedef boost::no_property edgeProperty;

	typedef boost::adjacency_list< boost::setS, boost::setS, boost::undirectedS,
	nodeProperty, edgeProperty > Graph;

	typedef map<string, Traits::vertex_descriptor> node_map_t;
	node_map_t graphNodes;
	Graph graph;

	for (NodeContainer::Iterator node = m_nodes.Begin ();
	node != m_nodes.End ();
	node++)
	{
	std::pair<node_map_t::iterator, bool>
	retval = graphNodes.insert (make_pair (Names::FindName (*node),
	add_vertex (nodeProperty (Names::FindName (*node)), graph)));
	// NS_ASSERT (ok == true);

	put (boost::vertex_index, graph, retval.first->second, (*node)->GetId ());
	}

	for (std::list<Link>::const_iterator link = m_linksList.begin ();
	link != m_linksList.end ();
	link ++)
	{
	node_map_t::iterator from = graphNodes.find (Names::FindName (link->GetFromNode ()));
	node_map_t::iterator to = graphNodes.find (Names::FindName (link->GetToNode ()));

	// add_edge (node->second, otherNode->second, m_graph);
	boost::add_edge (from->second, to->second, graph);
	}

	ofstream of (file.c_str ());
	boost::property_map<Graph, boost::vertex_name_t>::type names = get (boost::vertex_name, graph);
	write_graphviz (of, graph, make_name_writer (names));
	}


	}