model/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: Ilya Moiseenko <iliamo@cs.ucla.edu>
  */

 #include "annotated-topology-reader.h"

 using namespace std;

 namespace ns3
 {

 NS_LOG_COMPONENT_DEFINE ("AnnotatedTopologyReader");

 NS_OBJECT_ENSURE_REGISTERED (AnnotatedTopologyReader);

 TypeId AnnotatedTopologyReader::GetTypeId (void)
 {
     static TypeId tid = TypeId ("ns3::AnnotatedTopologyReader")
     .SetParent<Object> ()
     ;
     return tid;
 }

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

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

 NodeContainer
 AnnotatedTopologyReader::Read (void)
 {
     ifstream topgen;
     topgen.open (GetFileName ().c_str ());
     map<string, Ptr<Node> > nodeMap;
     NodeContainer nodes;

     if ( !topgen.is_open () )
     {
         return nodes;
     }

     string from;
     string to;
     string linkAttr;

     int linksNumber = 0;
     int nodesNumber = 0;

     int totnode = 0;
     int totlink = 0;

     istringstream lineBuffer;
     string line;

     getline (topgen,line);
     lineBuffer.str (line);

     lineBuffer >> totnode;
     lineBuffer >> totlink;
     NS_LOG_INFO ("Annotated topology should have " << totnode << " nodes and " << totlink << " links");

     if(!topgen.eof ())
         NS_LOG_INFO("!EOF");


     for (int i = 0; i < totlink && !topgen.eof (); i++)
     {
         //NS_LOG_INFO("Line #" <<i);
         getline (topgen,line);
         lineBuffer.clear ();
         lineBuffer.str (line);

         lineBuffer >> from;
         lineBuffer >> to;


         if ( (!from.empty ()) && (!to.empty ()) )
         {
             NS_LOG_INFO ( linksNumber << " From: " << from << " to: " << to );

             if ( nodeMap[from] == 0 )
             {
                 Ptr<Node> tmpNode = CreateObject<Node> ();
                 nodeMap[from] = tmpNode;
                 nodes.Add (tmpNode);
                 nodesNumber++;
             }

             if (nodeMap[to] == 0)
             {
                 Ptr<Node> tmpNode = CreateObject<Node> ();
                 nodeMap[to] = tmpNode;
                 nodes.Add (tmpNode);
                 nodesNumber++;
             }

             Link link ( nodeMap[from], from, nodeMap[to], to );

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("DataRate", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("OSPF", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("Delay", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("QueueSizeNode1", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("QueueSizeNode2", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("X1", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("Y1", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("X2", linkAttr);
             }

             lineBuffer >> linkAttr;
             if ( !linkAttr.empty () )
             {
                 link.SetAttribute ("Y2", linkAttr);
             }

             AddLink (link);

             linksNumber++;
         }
     }

     NS_LOG_INFO ("Annotated topology created with " << nodesNumber << " nodes and " << linksNumber << " links");
     topgen.close ();

     return nodes;
 }

 void
 AnnotatedTopologyReader::ApplySettings(NetDeviceContainer* ndc, NodeContainer* nc)
 {
     InternetStackHelper stack;
     Ipv4AddressHelper address;
     address.SetBase ("10.1.0.0", "255.255.255.0");

     Ipv4GlobalRoutingHelper ipv4RoutingHelper ("ns3::Ipv4GlobalRoutingOrderedNexthops");
     stack.SetRoutingHelper (ipv4RoutingHelper);


     //This loop passes all links and checks if ipv4 is installed on the node
     // if not, it installs.
     // We can't use stack.Install(nc) because in nc there are duplicates and assertion fails
     TopologyReader::ConstLinksIterator iter;
     int j = 0;
     for ( iter = this->LinksBegin (); iter != this->LinksEnd (); iter++, j++ )
     {
         NodeContainer twoNodes = nc[j];

         Ptr<Node> nd = twoNodes.Get(0);
         if(nd==NULL)
             NS_LOG_INFO("nd = null");

         Ptr<Node> nd2 = twoNodes.Get(1);
         if(nd2==NULL)
             NS_LOG_INFO("nd2 = null");

         Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();
         if(ipv4 == 0)
         {
             NS_LOG_INFO("ipv4 = null");
             stack.Install(nd);
         }

         Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
         if(ipv42 == 0)
         {
             NS_LOG_INFO("ipv42 = null");
             stack.Install(nd2);
         }

         //NS_LOG_INFO("#netdevices = " << nd->GetNDevices());
         //NS_LOG_INFO("#netdevices = " << nd2->GetNDevices());
     }

     NS_LOG_INFO("ITER2");
     uint32_t base = 0;
     PointToPointHelper p2p;
     TopologyReader::ConstLinksIterator iter2;
     int i = 0;
     for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
     {
         p2p.SetDeviceAttribute("DataRate", StringValue(iter2->GetAttribute("DataRate")+"Kbps"));
         NS_LOG_INFO("DataRate = " + iter2->GetAttribute("DataRate")+"Kbps");
         p2p.SetChannelAttribute("Delay", StringValue(iter2->GetAttribute("Delay")+"ms"));
         NS_LOG_INFO("Delay = " + iter2->GetAttribute("Delay")+"ms");
         p2p.SetQueue("ns3::DropTailQueue","MaxPackets",StringValue("100"));
         ndc[i] = p2p.Install(nc[i]);

         Ipv4Address address1(base+i*256 + 1);
         Ipv4Address address2(base+i*256 + 2);

         NodeContainer twoNodes = nc[i];

         Ptr<Node> nd = twoNodes.Get(0);
         if(nd==NULL)
             NS_LOG_INFO("nd = null");


         Ptr<Node> nd2 = twoNodes.Get(1);
         if(nd2==NULL)
             NS_LOG_INFO("nd2 = null");

         //NS_LOG_INFO("1");
         NS_LOG_INFO("#netdevices = " << nd->GetNDevices());
         NS_LOG_INFO("#netdevices = " << nd2->GetNDevices());

         Ptr<NetDevice> device = nd->GetDevice(nd->GetNDevices()-1)->GetObject<PointToPointNetDevice> ();

         if(device==NULL)
             NS_LOG_INFO("device = 0");

         std::string ospf = iter2->GetAttribute("OSPF");
         uint16_t metric = atoi(ospf.c_str());
         NS_LOG_INFO("OSPF metric = " << metric);

         {
         NetDeviceContainer* temp = new NetDeviceContainer[1];
         temp->Add(device);
         address.Assign (*temp);
         }

         Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();
         if(ipv4 == 0)
         {
             NS_LOG_INFO("ipv4 = null");
             //stack.Install(nd);
             /*NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device);
             address.Assign (*temp);
             ipv4 = nd->GetObject<Ipv4>();*/
         }

         NS_LOG_INFO("Before GetID");
         int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
         NS_LOG_INFO("InterfaceID = " << interfaceId);
         ipv4->SetMetric(interfaceId,metric);


         /*Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();

         if(ipv4 == 0)
             NS_LOG_INFO("ipv4 = null");
         int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
         ipv4->SetMetric(interfaceId,metric);*/

         //Ptr<Ipv4Interface> interface = nd->GetDevice(nd->GetNDevices()-1)->GetObject<Ipv4Interface> ();
         //ipv4->SetMetric(metric);

         //NS_LOG_INFO("2");

         Ptr<NetDevice> device2 = nd2->GetDevice(nd2->GetNDevices()-1)->GetObject<PointToPointNetDevice> ();

         if(device2==NULL)
             NS_LOG_INFO("device2 = 0");

         {
             NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device2);
             address.Assign (*temp);
         }

         Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
         if(ipv42 == 0)
         {
             NS_LOG_INFO("ipv42 = null");
             /*stack.Install(nd2);
             NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device2);
             address.Assign (*temp);
             ipv42 = nd2->GetObject<Ipv4>();*/
         }

         NS_LOG_INFO("Before GetID");
         interfaceId = ipv42->GetInterfaceForDevice(device2);
         NS_LOG_INFO("InterfaceID = " << interfaceId);
         ipv42->SetMetric(interfaceId,metric);


         PointerValue tmp1;
         device->GetAttribute ("TxQueue", tmp1);
         //NS_LOG_INFO("2.5");
         Ptr<Object> txQueue1 = tmp1.GetObject ();

         PointerValue tmp2;
         device2->GetAttribute ("TxQueue", tmp2);
         Ptr<Object> txQueue2 = tmp2.GetObject ();
         //NS_LOG_INFO("3");
         Ptr<DropTailQueue> dtq1 = txQueue1->GetObject <DropTailQueue> ();
         NS_ASSERT (dtq1 != 0);

         Ptr<DropTailQueue> dtq2 = txQueue2->GetObject <DropTailQueue> ();
         NS_ASSERT (dtq2 != 0);

         std::string queuesize1 = iter2->GetAttribute("QueueSizeNode1");
         std::string queuesize2 = iter2->GetAttribute("QueueSizeNode2");
         //NS_LOG_INFO("4");
         txQueue1->SetAttribute("MaxPackets", UintegerValue (atoi(queuesize1.c_str())));
         txQueue2->SetAttribute("MaxPackets", UintegerValue (atoi(queuesize2.c_str())));

         UintegerValue limit;
         txQueue1->GetAttribute ("MaxPackets", limit);
         NS_LOG_INFO ("NetDevice #"<< device->GetIfIndex() << "has queue limit " << limit.Get () << " packets");

         txQueue2->GetAttribute ("MaxPackets", limit);
         NS_LOG_INFO ("NetDevice #"<< device2->GetIfIndex() << "has queue limit " << limit.Get () << " packets");
     }
 }

     /*
 void
 AnnotatedTopologyReader::ApplyOspfMetric(NetDeviceContainer* ndc, NodeContainer* nc)
 {
     InternetStackHelper stack;
     Ipv4AddressHelper address;
     address.SetBase ("10.0.0.0", "255.255.255.252");

     Ipv4GlobalRoutingHelper ipv4RoutingHelper ("ns3::Ipv4GlobalRoutingOrderedNexthops");
     stack.SetRoutingHelper (ipv4RoutingHelper);


     TopologyReader::ConstLinksIterator iter2;
     int i = 0;
     for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
     {
         NodeContainer twoNodes = nc[i];
         Ptr<NetDevice> device = ndc[i].Get(0);
         Ptr<NetDevice> device2 = ndc[i].Get(1);

         //Ptr<Node> nd = twoNodes.Get(0);
         Ptr<Node> nd = device->GetNode();
         if(nd==NULL)
             NS_LOG_INFO("nd = null");

         //Ptr<Node> nd2 = twoNodes.Get(1);
         Ptr<Node> nd2 = device->GetNode();
         if(nd2==NULL)
             NS_LOG_INFO("nd2 = null");


         std::string ospf = iter2->GetAttribute("OSPF");
         uint16_t metric = atoi(ospf.c_str());
         NS_LOG_INFO("OSPF metric = " << metric);

         Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();

         if(ipv4 == 0)
         {
             NS_LOG_INFO("ipv4 = null");
             stack.Install(nd);
             NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device);
             address.Assign (*temp);
             ipv4 = nd->GetObject<Ipv4>();
         }

         NS_LOG_INFO("Before GetID");
         int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
         NS_LOG_INFO("InterfaceID = " << interfaceId);
         ipv4->SetMetric(interfaceId,metric);


         Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
         if(ipv42 == 0)
         {
             NS_LOG_INFO("ipv42 = null");
             stack.Install(nd2);
             NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device2);
             address.Assign (*temp);
             ipv42 = nd2->GetObject<Ipv4>();
         }

         //if(ipv4 == 0)
         //    NS_LOG_INFO("ipv4 = null");

         NS_LOG_INFO("Before GetID");
         interfaceId = ipv42->GetInterfaceForDevice(device2);
         if(interfaceId == -1)
         {
             NS_LOG_INFO("interfaceID = -1");
             stack.Install(nd2);
             NetDeviceContainer* temp = new NetDeviceContainer[1];
             temp->Add(device2);
             address.Assign (*temp);
             ipv42 = nd2->GetObject<Ipv4>();
             interfaceId = ipv42->GetInterfaceForDevice(device2);
         }
         NS_LOG_INFO("InterfaceID = " << interfaceId);
         ipv42->SetMetric(interfaceId,metric);

     }
 }*/

 void
 AnnotatedTopologyReader::BoundingBox (NodeContainer* nc, double ulx, double uly, double lrx, double lry)
 {

     UniformVariable randX(ulx, lrx);
     double x = 0.0;
     UniformVariable randY(uly, lry);
     double y = 0.0;


     PointToPointHelper p2p;
     TopologyReader::ConstLinksIterator iter2;
     int i = 0;
     for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
     {
         std::string x1str = iter2->GetAttribute("X1");
         uint16_t x1 = atoi(x1str.c_str());

         std::string x2str = iter2->GetAttribute("X2");
         uint16_t x2 = atoi(x2str.c_str());


         std::string y1str = iter2->GetAttribute("Y1");
         uint16_t y1 = atoi(y1str.c_str());

         std::string y2str = iter2->GetAttribute("Y2");
         uint16_t y2 = atoi(y2str.c_str());

         NodeContainer twoNodes = nc[i];

         Ptr<Node> nd = twoNodes.Get(0);
         if(nd==NULL)
             NS_LOG_INFO("nd = null");

         Ptr<Node> nd2 = twoNodes.Get(1);
         if(nd2==NULL)
             NS_LOG_INFO("nd2 = null");

         Ptr<ConstantPositionMobilityModel> loc = nd->GetObject<ConstantPositionMobilityModel> ();
         if (loc ==0)
         {
             loc = CreateObject<ConstantPositionMobilityModel> ();
             nd->AggregateObject (loc);
         }

         x = x1; //randX.GetValue();
         y = y1; //randY.GetValue();
         NS_LOG_INFO("X = "<<x <<"Y = "<<y);
         Vector locVec (x, y, 0);
         loc->SetPosition (locVec);


         Ptr<ConstantPositionMobilityModel> loc2 = nd2->GetObject<ConstantPositionMobilityModel> ();
         if (loc2 ==0)
         {
             loc2 = CreateObject<ConstantPositionMobilityModel> ();
             nd2->AggregateObject (loc2);
         }

         x = x2; //randX.GetValue();
         y = y2; //randY.GetValue();
         NS_LOG_INFO("X = "<<x <<"Y = "<<y);
         Vector locVec2 (x, y, 0);
         loc2->SetPosition (locVec2);
     }
 }
 }
	/* -- 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: Ilya Moiseenko <iliamo@cs.ucla.edu>
	*/

	#include "annotated-topology-reader.h"

	using namespace std;

	namespace ns3
	{

	NS_LOG_COMPONENT_DEFINE ("AnnotatedTopologyReader");

	NS_OBJECT_ENSURE_REGISTERED (AnnotatedTopologyReader);

	TypeId AnnotatedTopologyReader::GetTypeId (void)
	{
	static TypeId tid = TypeId ("ns3::AnnotatedTopologyReader")
	.SetParent<Object> ()
	;
	return tid;
	}

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

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

	NodeContainer
	AnnotatedTopologyReader::Read (void)
	{
	ifstream topgen;
	topgen.open (GetFileName ().c_str ());
	map<string, Ptr<Node> > nodeMap;
	NodeContainer nodes;

	if ( !topgen.is_open () )
	{
	return nodes;
	}

	string from;
	string to;
	string linkAttr;

	int linksNumber = 0;
	int nodesNumber = 0;

	int totnode = 0;
	int totlink = 0;

	istringstream lineBuffer;
	string line;

	getline (topgen,line);
	lineBuffer.str (line);

	lineBuffer >> totnode;
	lineBuffer >> totlink;
	NS_LOG_INFO ("Annotated topology should have " << totnode << " nodes and " << totlink << " links");

	if(!topgen.eof ())
	NS_LOG_INFO("!EOF");


	for (int i = 0; i < totlink && !topgen.eof (); i++)
	{
	//NS_LOG_INFO("Line #" <<i);
	getline (topgen,line);
	lineBuffer.clear ();
	lineBuffer.str (line);

	lineBuffer >> from;
	lineBuffer >> to;


	if ( (!from.empty ()) && (!to.empty ()) )
	{
	NS_LOG_INFO ( linksNumber << " From: " << from << " to: " << to );

	if ( nodeMap[from] == 0 )
	{
	Ptr<Node> tmpNode = CreateObject<Node> ();
	nodeMap[from] = tmpNode;
	nodes.Add (tmpNode);
	nodesNumber++;
	}

	if (nodeMap[to] == 0)
	{
	Ptr<Node> tmpNode = CreateObject<Node> ();
	nodeMap[to] = tmpNode;
	nodes.Add (tmpNode);
	nodesNumber++;
	}

	Link link ( nodeMap[from], from, nodeMap[to], to );

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("DataRate", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("OSPF", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("Delay", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("QueueSizeNode1", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("QueueSizeNode2", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("X1", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("Y1", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("X2", linkAttr);
	}

	lineBuffer >> linkAttr;
	if ( !linkAttr.empty () )
	{
	link.SetAttribute ("Y2", linkAttr);
	}

	AddLink (link);

	linksNumber++;
	}
	}

	NS_LOG_INFO ("Annotated topology created with " << nodesNumber << " nodes and " << linksNumber << " links");
	topgen.close ();

	return nodes;
	}

	void
	AnnotatedTopologyReader::ApplySettings(NetDeviceContainer* ndc, NodeContainer* nc)
	{
	InternetStackHelper stack;
	Ipv4AddressHelper address;
	address.SetBase ("10.1.0.0", "255.255.255.0");

	Ipv4GlobalRoutingHelper ipv4RoutingHelper ("ns3::Ipv4GlobalRoutingOrderedNexthops");
	stack.SetRoutingHelper (ipv4RoutingHelper);



	//This loop passes all links and checks if ipv4 is installed on the node
	// if not, it installs.
	// We can't use stack.Install(nc) because in nc there are duplicates and assertion fails
	TopologyReader::ConstLinksIterator iter;
	int j = 0;
	for ( iter = this->LinksBegin (); iter != this->LinksEnd (); iter++, j++ )
	{
	NodeContainer twoNodes = nc[j];

	Ptr<Node> nd = twoNodes.Get(0);
	if(nd==NULL)
	NS_LOG_INFO("nd = null");

	Ptr<Node> nd2 = twoNodes.Get(1);
	if(nd2==NULL)
	NS_LOG_INFO("nd2 = null");

	Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();
	if(ipv4 == 0)
	{
	NS_LOG_INFO("ipv4 = null");
	stack.Install(nd);
	}

	Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
	if(ipv42 == 0)
	{
	NS_LOG_INFO("ipv42 = null");
	stack.Install(nd2);
	}

	//NS_LOG_INFO("#netdevices = " << nd->GetNDevices());
	//NS_LOG_INFO("#netdevices = " << nd2->GetNDevices());
	}

	NS_LOG_INFO("ITER2");
	uint32_t base = 0;
	PointToPointHelper p2p;
	TopologyReader::ConstLinksIterator iter2;
	int i = 0;
	for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
	{
	p2p.SetDeviceAttribute("DataRate", StringValue(iter2->GetAttribute("DataRate")+"Kbps"));
	NS_LOG_INFO("DataRate = " + iter2->GetAttribute("DataRate")+"Kbps");
	p2p.SetChannelAttribute("Delay", StringValue(iter2->GetAttribute("Delay")+"ms"));
	NS_LOG_INFO("Delay = " + iter2->GetAttribute("Delay")+"ms");
	p2p.SetQueue("ns3::DropTailQueue","MaxPackets",StringValue("100"));
	ndc[i] = p2p.Install(nc[i]);

	Ipv4Address address1(base+i*256 + 1);
	Ipv4Address address2(base+i*256 + 2);

	NodeContainer twoNodes = nc[i];

	Ptr<Node> nd = twoNodes.Get(0);
	if(nd==NULL)
	NS_LOG_INFO("nd = null");



	Ptr<Node> nd2 = twoNodes.Get(1);
	if(nd2==NULL)
	NS_LOG_INFO("nd2 = null");

	//NS_LOG_INFO("1");
	NS_LOG_INFO("#netdevices = " << nd->GetNDevices());
	NS_LOG_INFO("#netdevices = " << nd2->GetNDevices());

	Ptr<NetDevice> device = nd->GetDevice(nd->GetNDevices()-1)->GetObject<PointToPointNetDevice> ();

	if(device==NULL)
	NS_LOG_INFO("device = 0");

	std::string ospf = iter2->GetAttribute("OSPF");
	uint16_t metric = atoi(ospf.c_str());
	NS_LOG_INFO("OSPF metric = " << metric);

	{
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device);
	address.Assign (*temp);
	}

	Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();
	if(ipv4 == 0)
	{
	NS_LOG_INFO("ipv4 = null");
	//stack.Install(nd);
	/NetDeviceContainer temp = new NetDeviceContainer[1];
	temp->Add(device);
	address.Assign (*temp);
	ipv4 = nd->GetObject<Ipv4>();*/
	}

	NS_LOG_INFO("Before GetID");
	int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
	NS_LOG_INFO("InterfaceID = " << interfaceId);
	ipv4->SetMetric(interfaceId,metric);





	/*Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();

	if(ipv4 == 0)
	NS_LOG_INFO("ipv4 = null");
	int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
	ipv4->SetMetric(interfaceId,metric);*/

	//Ptr<Ipv4Interface> interface = nd->GetDevice(nd->GetNDevices()-1)->GetObject<Ipv4Interface> ();
	//ipv4->SetMetric(metric);

	//NS_LOG_INFO("2");

	Ptr<NetDevice> device2 = nd2->GetDevice(nd2->GetNDevices()-1)->GetObject<PointToPointNetDevice> ();

	if(device2==NULL)
	NS_LOG_INFO("device2 = 0");

	{
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device2);
	address.Assign (*temp);
	}

	Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
	if(ipv42 == 0)
	{
	NS_LOG_INFO("ipv42 = null");
	/*stack.Install(nd2);
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device2);
	address.Assign (*temp);
	ipv42 = nd2->GetObject<Ipv4>();*/
	}

	NS_LOG_INFO("Before GetID");
	interfaceId = ipv42->GetInterfaceForDevice(device2);
	NS_LOG_INFO("InterfaceID = " << interfaceId);
	ipv42->SetMetric(interfaceId,metric);



	PointerValue tmp1;
	device->GetAttribute ("TxQueue", tmp1);
	//NS_LOG_INFO("2.5");
	Ptr<Object> txQueue1 = tmp1.GetObject ();

	PointerValue tmp2;
	device2->GetAttribute ("TxQueue", tmp2);
	Ptr<Object> txQueue2 = tmp2.GetObject ();
	//NS_LOG_INFO("3");
	Ptr<DropTailQueue> dtq1 = txQueue1->GetObject <DropTailQueue> ();
	NS_ASSERT (dtq1 != 0);

	Ptr<DropTailQueue> dtq2 = txQueue2->GetObject <DropTailQueue> ();
	NS_ASSERT (dtq2 != 0);

	std::string queuesize1 = iter2->GetAttribute("QueueSizeNode1");
	std::string queuesize2 = iter2->GetAttribute("QueueSizeNode2");
	//NS_LOG_INFO("4");
	txQueue1->SetAttribute("MaxPackets", UintegerValue (atoi(queuesize1.c_str())));
	txQueue2->SetAttribute("MaxPackets", UintegerValue (atoi(queuesize2.c_str())));

	UintegerValue limit;
	txQueue1->GetAttribute ("MaxPackets", limit);
	NS_LOG_INFO ("NetDevice #"<< device->GetIfIndex() << "has queue limit " << limit.Get () << " packets");

	txQueue2->GetAttribute ("MaxPackets", limit);
	NS_LOG_INFO ("NetDevice #"<< device2->GetIfIndex() << "has queue limit " << limit.Get () << " packets");
	}
	}

	/*
	void
	AnnotatedTopologyReader::ApplyOspfMetric(NetDeviceContainer* ndc, NodeContainer* nc)
	{
	InternetStackHelper stack;
	Ipv4AddressHelper address;
	address.SetBase ("10.0.0.0", "255.255.255.252");

	Ipv4GlobalRoutingHelper ipv4RoutingHelper ("ns3::Ipv4GlobalRoutingOrderedNexthops");
	stack.SetRoutingHelper (ipv4RoutingHelper);


	TopologyReader::ConstLinksIterator iter2;
	int i = 0;
	for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
	{
	NodeContainer twoNodes = nc[i];
	Ptr<NetDevice> device = ndc[i].Get(0);
	Ptr<NetDevice> device2 = ndc[i].Get(1);

	//Ptr<Node> nd = twoNodes.Get(0);
	Ptr<Node> nd = device->GetNode();
	if(nd==NULL)
	NS_LOG_INFO("nd = null");

	//Ptr<Node> nd2 = twoNodes.Get(1);
	Ptr<Node> nd2 = device->GetNode();
	if(nd2==NULL)
	NS_LOG_INFO("nd2 = null");



	std::string ospf = iter2->GetAttribute("OSPF");
	uint16_t metric = atoi(ospf.c_str());
	NS_LOG_INFO("OSPF metric = " << metric);

	Ptr<Ipv4> ipv4 = nd->GetObject<Ipv4>();

	if(ipv4 == 0)
	{
	NS_LOG_INFO("ipv4 = null");
	stack.Install(nd);
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device);
	address.Assign (*temp);
	ipv4 = nd->GetObject<Ipv4>();
	}

	NS_LOG_INFO("Before GetID");
	int32_t interfaceId = ipv4->GetInterfaceForDevice(device);
	NS_LOG_INFO("InterfaceID = " << interfaceId);
	ipv4->SetMetric(interfaceId,metric);



	Ptr<Ipv4> ipv42 = nd2->GetObject<Ipv4>();
	if(ipv42 == 0)
	{
	NS_LOG_INFO("ipv42 = null");
	stack.Install(nd2);
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device2);
	address.Assign (*temp);
	ipv42 = nd2->GetObject<Ipv4>();
	}

	//if(ipv4 == 0)
	// NS_LOG_INFO("ipv4 = null");

	NS_LOG_INFO("Before GetID");
	interfaceId = ipv42->GetInterfaceForDevice(device2);
	if(interfaceId == -1)
	{
	NS_LOG_INFO("interfaceID = -1");
	stack.Install(nd2);
	NetDeviceContainer* temp = new NetDeviceContainer[1];
	temp->Add(device2);
	address.Assign (*temp);
	ipv42 = nd2->GetObject<Ipv4>();
	interfaceId = ipv42->GetInterfaceForDevice(device2);
	}
	NS_LOG_INFO("InterfaceID = " << interfaceId);
	ipv42->SetMetric(interfaceId,metric);

	}
	}*/

	void
	AnnotatedTopologyReader::BoundingBox (NodeContainer* nc, double ulx, double uly, double lrx, double lry)
	{

	UniformVariable randX(ulx, lrx);
	double x = 0.0;
	UniformVariable randY(uly, lry);
	double y = 0.0;


	PointToPointHelper p2p;
	TopologyReader::ConstLinksIterator iter2;
	int i = 0;
	for ( iter2 = this->LinksBegin (); iter2 != this->LinksEnd (); iter2++, i++ )
	{
	std::string x1str = iter2->GetAttribute("X1");
	uint16_t x1 = atoi(x1str.c_str());

	std::string x2str = iter2->GetAttribute("X2");
	uint16_t x2 = atoi(x2str.c_str());


	std::string y1str = iter2->GetAttribute("Y1");
	uint16_t y1 = atoi(y1str.c_str());

	std::string y2str = iter2->GetAttribute("Y2");
	uint16_t y2 = atoi(y2str.c_str());

	NodeContainer twoNodes = nc[i];

	Ptr<Node> nd = twoNodes.Get(0);
	if(nd==NULL)
	NS_LOG_INFO("nd = null");

	Ptr<Node> nd2 = twoNodes.Get(1);
	if(nd2==NULL)
	NS_LOG_INFO("nd2 = null");

	Ptr<ConstantPositionMobilityModel> loc = nd->GetObject<ConstantPositionMobilityModel> ();
	if (loc ==0)
	{
	loc = CreateObject<ConstantPositionMobilityModel> ();
	nd->AggregateObject (loc);
	}

	x = x1; //randX.GetValue();
	y = y1; //randY.GetValue();
	NS_LOG_INFO("X = "<<x <<"Y = "<<y);
	Vector locVec (x, y, 0);
	loc->SetPosition (locVec);


	Ptr<ConstantPositionMobilityModel> loc2 = nd2->GetObject<ConstantPositionMobilityModel> ();
	if (loc2 ==0)
	{
	loc2 = CreateObject<ConstantPositionMobilityModel> ();
	nd2->AggregateObject (loc2);
	}

	x = x2; //randX.GetValue();
	y = y2; //randY.GetValue();
	NS_LOG_INFO("X = "<<x <<"Y = "<<y);
	Vector locVec2 (x, y, 0);
	loc2->SetPosition (locVec2);
	}
	}
	}