3.34/doxygen/ipv6-ripng-test_8cc_source.html

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2014 Universita' di Firenze
  *
  * 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: Tommaso Pecorella <tommaso.pecorella@unifi.it>
  */

 #include "ns3/test.h"
 #include "ns3/socket-factory.h"
 #include "ns3/udp-socket-factory.h"
 #include "ns3/simulator.h"
 #include "ns3/simple-channel.h"
 #include "ns3/simple-net-device.h"
 #include "ns3/socket.h"
 #include "ns3/boolean.h"
 #include "ns3/enum.h"

 #include "ns3/log.h"
 #include "ns3/node.h"
 #include "ns3/inet6-socket-address.h"

 #include "ns3/internet-stack-helper.h"
 #include "ns3/ipv6-address-helper.h"
 #include "ns3/ipv6-l3-protocol.h"
 #include "ns3/icmpv6-l4-protocol.h"
 #include "ns3/udp-l4-protocol.h"
 #include "ns3/ripng.h"
 #include "ns3/ripng-helper.h"
 #include "ns3/node-container.h"

 #include <string>
 #include <limits>

 using namespace ns3;

 class Ipv6RipngTest : public TestCase
 {
   Ptr<Packet> m_receivedPacket;

   void DoSendData (Ptr<Socket> socket, std::string to);
   void SendData (Ptr<Socket> socket, std::string to);

 public:
   virtual void DoRun (void);
   Ipv6RipngTest ();

   void ReceivePkt (Ptr<Socket> socket);
 };

 Ipv6RipngTest::Ipv6RipngTest ()
   : TestCase ("RIPng")
 {
 }

 void Ipv6RipngTest::ReceivePkt (Ptr<Socket> socket)
 {
   uint32_t availableData;
   availableData = socket->GetRxAvailable ();
   m_receivedPacket = socket->Recv (std::numeric_limits<uint32_t>::max (), 0);
   NS_ASSERT (availableData == m_receivedPacket->GetSize ());
   //cast availableData to void, to suppress 'availableData' set but not used
   //compiler warning
   (void) availableData;
 }

 void
 Ipv6RipngTest::DoSendData (Ptr<Socket> socket, std::string to)
 {
   Address realTo = Inet6SocketAddress (Ipv6Address (to.c_str ()), 1234);
   NS_TEST_EXPECT_MSG_EQ (socket->SendTo (Create<Packet> (123), 0, realTo),
                          123, "100");
 }

 void
 Ipv6RipngTest::SendData (Ptr<Socket> socket, std::string to)
 {
   m_receivedPacket = Create<Packet> ();
   Simulator::ScheduleWithContext (socket->GetNode ()->GetId (), Seconds (60),
                                   &Ipv6RipngTest::DoSendData, this, socket, to);
   Simulator::Stop (Seconds (66));
   Simulator::Run ();
 }

 void
 Ipv6RipngTest::DoRun (void)
 {
   // Create topology

   Ptr<Node> txNode = CreateObject<Node> ();
   Ptr<Node> rxNode = CreateObject<Node> ();
   Ptr<Node> routerA = CreateObject<Node> ();
   Ptr<Node> routerB = CreateObject<Node> ();
   Ptr<Node> routerC = CreateObject<Node> ();

   NodeContainer nodes (txNode, rxNode);
   NodeContainer routers (routerA, routerB, routerC);
   NodeContainer all (nodes, routers);

   RipNgHelper ripNgRouting;
   InternetStackHelper internetv6routers;
   internetv6routers.SetRoutingHelper (ripNgRouting);
   internetv6routers.Install (routers);

   InternetStackHelper internetv6nodes;
   internetv6nodes.Install (nodes);

   NetDeviceContainer net1;
   NetDeviceContainer net2;
   NetDeviceContainer net3;
   NetDeviceContainer net4;

   // Sender Node
   Ptr<SimpleNetDevice> txDev;
   {
     txDev = CreateObject<SimpleNetDevice> ();
     txDev->SetAddress (Mac48Address ("00:00:00:00:00:01"));
     txNode->AddDevice (txDev);
   }
   net1.Add (txDev);

   // Router A
   Ptr<SimpleNetDevice> fwDev1routerA, fwDev2routerA;
   { // first interface
     fwDev1routerA = CreateObject<SimpleNetDevice> ();
     fwDev1routerA->SetAddress (Mac48Address ("00:00:00:00:00:02"));
     routerA->AddDevice (fwDev1routerA);
   }
   net1.Add (fwDev1routerA);

   { // second interface
     fwDev2routerA = CreateObject<SimpleNetDevice> ();
     fwDev2routerA->SetAddress (Mac48Address ("00:00:00:00:00:03"));
     routerA->AddDevice (fwDev2routerA);
   }
   net2.Add (fwDev2routerA);

   // Router B
   Ptr<SimpleNetDevice> fwDev1routerB, fwDev2routerB;
   { // first interface
     fwDev1routerB = CreateObject<SimpleNetDevice> ();
     fwDev1routerB->SetAddress (Mac48Address ("00:00:00:00:00:04"));
     routerB->AddDevice (fwDev1routerB);
   }
   net2.Add (fwDev1routerB);

   { // second interface
     fwDev2routerB = CreateObject<SimpleNetDevice> ();
     fwDev2routerB->SetAddress (Mac48Address ("00:00:00:00:00:05"));
     routerB->AddDevice (fwDev2routerB);
   }
   net3.Add (fwDev2routerB);

   // Router C
   Ptr<SimpleNetDevice> fwDev1routerC, fwDev2routerC;
   { // first interface
     fwDev1routerC = CreateObject<SimpleNetDevice> ();
     fwDev1routerC->SetAddress (Mac48Address ("00:00:00:00:00:06"));
     routerC->AddDevice (fwDev1routerC);
   }
   net3.Add (fwDev1routerC);

   { // second interface
     fwDev2routerC = CreateObject<SimpleNetDevice> ();
     fwDev2routerC->SetAddress (Mac48Address ("00:00:00:00:00:07"));
     routerC->AddDevice (fwDev2routerC);
   }
   net4.Add (fwDev2routerC);

   // Rx node
   Ptr<SimpleNetDevice> rxDev;
   { // first interface
     rxDev = CreateObject<SimpleNetDevice> ();
     rxDev->SetAddress (Mac48Address ("00:00:00:00:00:08"));
     rxNode->AddDevice (rxDev);
   }
   net4.Add (rxDev);

   // link the channels
   Ptr<SimpleChannel> channel1 = CreateObject<SimpleChannel> ();
   txDev->SetChannel (channel1);
   fwDev1routerA->SetChannel (channel1);

   Ptr<SimpleChannel> channel2 = CreateObject<SimpleChannel> ();
   fwDev2routerA->SetChannel (channel2);
   fwDev1routerB->SetChannel (channel2);

   Ptr<SimpleChannel> channel3 = CreateObject<SimpleChannel> ();
   fwDev2routerB->SetChannel (channel3);
   fwDev1routerC->SetChannel (channel3);

   Ptr<SimpleChannel> channel4 = CreateObject<SimpleChannel> ();
   fwDev2routerC->SetChannel (channel4);
   rxDev->SetChannel (channel4);

   // Setup IPv6 addresses and forwarding
   Ipv6AddressHelper ipv6;

   ipv6.SetBase (Ipv6Address ("2001:1::"), Ipv6Prefix (64));
   Ipv6InterfaceContainer iic1 = ipv6.AssignWithoutOnLink (net1);
   iic1.SetForwarding (1, true);
   iic1.SetDefaultRouteInAllNodes (1);

   Ipv6InterfaceContainer iic2 = ipv6.AssignWithoutAddress (net2);
   iic2.SetForwarding (0, true);
   iic2.SetForwarding (1, true);

   Ipv6InterfaceContainer iic3 = ipv6.AssignWithoutAddress (net3);
   iic3.SetForwarding (0, true);
   iic3.SetForwarding (1, true);

   ipv6.SetBase (Ipv6Address ("2001:2::"), Ipv6Prefix (64));
   Ipv6InterfaceContainer iic4 = ipv6.AssignWithoutOnLink (net4);
   iic4.SetForwarding (0, true);
   iic4.SetDefaultRouteInAllNodes (0);

   // Create the UDP sockets
   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();
   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();
   NS_TEST_EXPECT_MSG_EQ (rxSocket->Bind (Inet6SocketAddress (Ipv6Address ("2001:2::200:ff:fe00:8"), 1234)), 0, "trivial");
   rxSocket->SetRecvCallback (MakeCallback (&Ipv6RipngTest::ReceivePkt, this));

   Ptr<SocketFactory> txSocketFactory = txNode->GetObject<UdpSocketFactory> ();
   Ptr<Socket> txSocket = txSocketFactory->CreateSocket ();
   txSocket->SetAllowBroadcast (true);

   // ------ Now the tests ------------

   // Unicast test
   SendData (txSocket, "2001:2::200:ff:fe00:8");
   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 123, "IPv6 RIPng should work.");

   m_receivedPacket->RemoveAllByteTags ();

   Simulator::Destroy ();
 }

 // Ipv6RipngCountToInfinityTest

 class Ipv6RipngCountToInfinityTest : public TestCase
 {
   Ptr<Packet> m_receivedPacket;

   void DoSendData (Ptr<Socket> socket, std::string to);
   void SendData (Ptr<Socket> socket, std::string to);

 public:
   virtual void DoRun (void);
   Ipv6RipngCountToInfinityTest ();

   void ReceivePkt (Ptr<Socket> socket);
 };

 Ipv6RipngCountToInfinityTest::Ipv6RipngCountToInfinityTest ()
   : TestCase ("RIPng counting to infinity")
 {
 }

 void Ipv6RipngCountToInfinityTest::ReceivePkt (Ptr<Socket> socket)
 {
   uint32_t availableData;
   availableData = socket->GetRxAvailable ();
   m_receivedPacket = socket->Recv (std::numeric_limits<uint32_t>::max (), 0);
   NS_ASSERT (availableData == m_receivedPacket->GetSize ());
   //cast availableData to void, to suppress 'availableData' set but not used
   //compiler warning
   (void) availableData;
 }

 void
 Ipv6RipngCountToInfinityTest::DoSendData (Ptr<Socket> socket, std::string to)
 {
   Address realTo = Inet6SocketAddress (Ipv6Address (to.c_str ()), 1234);
   NS_TEST_EXPECT_MSG_EQ (socket->SendTo (Create<Packet> (123), 0, realTo),
                          123, "100");
 }

 void
 Ipv6RipngCountToInfinityTest::SendData (Ptr<Socket> socket, std::string to)
 {
   m_receivedPacket = Create<Packet> ();
   Simulator::ScheduleWithContext (socket->GetNode ()->GetId (), Seconds (60),
                                   &Ipv6RipngCountToInfinityTest::DoSendData, this, socket, to);
   Simulator::Stop (Seconds (66));
   Simulator::Run ();
 }

 void
 Ipv6RipngCountToInfinityTest::DoRun (void)
 {
   // Create topology

   Ptr<Node> txNode = CreateObject<Node> ();
   Ptr<Node> rxNode = CreateObject<Node> ();
   Ptr<Node> routerA = CreateObject<Node> ();
   Ptr<Node> routerB = CreateObject<Node> ();
   Ptr<Node> routerC = CreateObject<Node> ();

   NodeContainer nodes (txNode, rxNode);
   NodeContainer routers (routerA, routerB, routerC);
   NodeContainer all (nodes, routers);

   RipNgHelper ripNgRouting;
   // Change the router's interface metric to 10, must not send packets (count to infinity)
   // note: Interface 0 is the loopback.
   ripNgRouting.SetInterfaceMetric (routerA, 2, 10);
   ripNgRouting.SetInterfaceMetric (routerB, 1, 10);
   ripNgRouting.SetInterfaceMetric (routerB, 2, 10);
   ripNgRouting.SetInterfaceMetric (routerC, 1, 10);

   InternetStackHelper internetv6routers;
   internetv6routers.SetRoutingHelper (ripNgRouting);
   internetv6routers.Install (routers);

   InternetStackHelper internetv6nodes;
   internetv6nodes.Install (nodes);

   NetDeviceContainer net1;
   NetDeviceContainer net2;
   NetDeviceContainer net3;
   NetDeviceContainer net4;

   // Sender Node
   Ptr<SimpleNetDevice> txDev;
   {
     txDev = CreateObject<SimpleNetDevice> ();
     txDev->SetAddress (Mac48Address ("00:00:00:00:00:01"));
     txNode->AddDevice (txDev);
   }
   net1.Add (txDev);

   // Router A
   Ptr<SimpleNetDevice> fwDev1routerA, fwDev2routerA;
   { // first interface
     fwDev1routerA = CreateObject<SimpleNetDevice> ();
     fwDev1routerA->SetAddress (Mac48Address ("00:00:00:00:00:02"));
     routerA->AddDevice (fwDev1routerA);
   }
   net1.Add (fwDev1routerA);

   { // second interface
     fwDev2routerA = CreateObject<SimpleNetDevice> ();
     fwDev2routerA->SetAddress (Mac48Address ("00:00:00:00:00:03"));
     routerA->AddDevice (fwDev2routerA);
   }
   net2.Add (fwDev2routerA);

   // Router B
   Ptr<SimpleNetDevice> fwDev1routerB, fwDev2routerB;
   { // first interface
     fwDev1routerB = CreateObject<SimpleNetDevice> ();
     fwDev1routerB->SetAddress (Mac48Address ("00:00:00:00:00:04"));
     routerB->AddDevice (fwDev1routerB);
   }
   net2.Add (fwDev1routerB);

   { // second interface
     fwDev2routerB = CreateObject<SimpleNetDevice> ();
     fwDev2routerB->SetAddress (Mac48Address ("00:00:00:00:00:05"));
     routerB->AddDevice (fwDev2routerB);
   }
   net3.Add (fwDev2routerB);

   // Router C
   Ptr<SimpleNetDevice> fwDev1routerC, fwDev2routerC;
   { // first interface
     fwDev1routerC = CreateObject<SimpleNetDevice> ();
     fwDev1routerC->SetAddress (Mac48Address ("00:00:00:00:00:06"));
     routerC->AddDevice (fwDev1routerC);
   }
   net3.Add (fwDev1routerC);

   { // second interface
     fwDev2routerC = CreateObject<SimpleNetDevice> ();
     fwDev2routerC->SetAddress (Mac48Address ("00:00:00:00:00:07"));
     routerC->AddDevice (fwDev2routerC);
   }
   net4.Add (fwDev2routerC);

   // Rx node
   Ptr<SimpleNetDevice> rxDev;
   { // first interface
     rxDev = CreateObject<SimpleNetDevice> ();
     rxDev->SetAddress (Mac48Address ("00:00:00:00:00:08"));
     rxNode->AddDevice (rxDev);
   }
   net4.Add (rxDev);

   // link the channels
   Ptr<SimpleChannel> channel1 = CreateObject<SimpleChannel> ();
   txDev->SetChannel (channel1);
   fwDev1routerA->SetChannel (channel1);

   Ptr<SimpleChannel> channel2 = CreateObject<SimpleChannel> ();
   fwDev2routerA->SetChannel (channel2);
   fwDev1routerB->SetChannel (channel2);

   Ptr<SimpleChannel> channel3 = CreateObject<SimpleChannel> ();
   fwDev2routerB->SetChannel (channel3);
   fwDev1routerC->SetChannel (channel3);

   Ptr<SimpleChannel> channel4 = CreateObject<SimpleChannel> ();
   fwDev2routerC->SetChannel (channel4);
   rxDev->SetChannel (channel4);

   // Setup IPv6 addresses and forwarding
   Ipv6AddressHelper ipv6;

   ipv6.SetBase (Ipv6Address ("2001:1::"), Ipv6Prefix (64));
   Ipv6InterfaceContainer iic1 = ipv6.AssignWithoutOnLink (net1);
   iic1.SetForwarding (1, true);
   iic1.SetDefaultRouteInAllNodes (1);

   Ipv6InterfaceContainer iic2 = ipv6.AssignWithoutAddress (net2);
   iic2.SetForwarding (0, true);
   iic2.SetForwarding (1, true);

   Ipv6InterfaceContainer iic3 = ipv6.AssignWithoutAddress (net3);
   iic3.SetForwarding (0, true);
   iic3.SetForwarding (1, true);

   ipv6.SetBase (Ipv6Address ("2001:2::"), Ipv6Prefix (64));
   Ipv6InterfaceContainer iic4 = ipv6.AssignWithoutOnLink (net4);
   iic4.SetForwarding (0, true);
   iic4.SetDefaultRouteInAllNodes (0);

   // Create the UDP sockets
   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();
   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();
   NS_TEST_EXPECT_MSG_EQ (rxSocket->Bind (Inet6SocketAddress (Ipv6Address ("2001:2::200:ff:fe00:8"), 1234)), 0, "trivial");
   rxSocket->SetRecvCallback (MakeCallback (&Ipv6RipngCountToInfinityTest::ReceivePkt, this));

   Ptr<SocketFactory> txSocketFactory = txNode->GetObject<UdpSocketFactory> ();
   Ptr<Socket> txSocket = txSocketFactory->CreateSocket ();
   txSocket->SetAllowBroadcast (true);

   // ------ Now the tests ------------

   SendData (txSocket, "2001:2::200:ff:fe00:8");
   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 0, "RIPng counting to infinity.");

   Simulator::Destroy ();
 }

 class Ipv6RipngSplitHorizonStrategyTest : public TestCase
 {
   RipNg::SplitHorizonType_e m_setStrategy;
   RipNg::SplitHorizonType_e m_detectedStrategy;

 public:
   virtual void DoRun (void);
   Ipv6RipngSplitHorizonStrategyTest (RipNg::SplitHorizonType_e strategy);

   void ReceivePktProbe (Ptr<Socket> socket);
 };

 Ipv6RipngSplitHorizonStrategyTest::Ipv6RipngSplitHorizonStrategyTest (RipNg::SplitHorizonType_e strategy)
   : TestCase ("RIPng Split Horizon strategy")
 {
   m_setStrategy = strategy;
 }

 void Ipv6RipngSplitHorizonStrategyTest::ReceivePktProbe (Ptr<Socket> socket)
 {
   uint32_t availableData;
   availableData = socket->GetRxAvailable ();
   Address srcAddr;
   Ptr<Packet> receivedPacketProbe = socket->RecvFrom (std::numeric_limits<uint32_t>::max (), 0, srcAddr);
   NS_ASSERT (availableData == receivedPacketProbe->GetSize ());
   Ipv6Address senderAddress = Inet6SocketAddress::ConvertFrom (srcAddr).GetIpv6 ();

   if (senderAddress == "fe80::200:ff:fe00:4")
     {
       RipNgHeader hdr;
       receivedPacketProbe->RemoveHeader (hdr);
       std::list<RipNgRte> rtes = hdr.GetRteList ();

       // validate the RTEs before processing
       for (std::list<RipNgRte>::iterator iter = rtes.begin ();
           iter != rtes.end (); iter++)
         {
           if (iter->GetPrefix () == "2001:1::")
             {
               bool correct = false;
               if (iter->GetRouteMetric () == 16)
                 {
                   correct = true;
                   m_detectedStrategy = RipNg::POISON_REVERSE;
                 }
               else if (iter->GetRouteMetric () == 2)
                 {
                   correct = true;
                   m_detectedStrategy = RipNg::NO_SPLIT_HORIZON;
                 }
               NS_TEST_EXPECT_MSG_EQ (correct, true, "RIPng: unexpected metric value: " << iter->GetRouteMetric ());
             }
         }
     }

   //cast availableData to void, to suppress 'availableData' set but not used
   //compiler warning
   (void) availableData;
 }

 void
 Ipv6RipngSplitHorizonStrategyTest::DoRun (void)
 {
   // Create topology

   Ptr<Node> fakeNode = CreateObject<Node> ();
   Ptr<Node> listener = CreateObject<Node> ();

   Ptr<Node> routerA = CreateObject<Node> ();
   Ptr<Node> routerB = CreateObject<Node> ();

   NodeContainer listeners (listener, fakeNode);
   NodeContainer routers (routerA, routerB);
   NodeContainer all (routers, listeners);

   RipNgHelper ripNgRouting;
   ripNgRouting.Set ("SplitHorizon", EnumValue (m_setStrategy));

   InternetStackHelper internetv6routers;
   internetv6routers.SetRoutingHelper (ripNgRouting);
   internetv6routers.Install (routers);

   InternetStackHelper internetv6nodes;
   internetv6nodes.Install (listeners);

   NetDeviceContainer net0;
   NetDeviceContainer net1;

   // Fake Node
   Ptr<SimpleNetDevice> silentDev;
   {
     silentDev = CreateObject<SimpleNetDevice> ();
     silentDev->SetAddress (Mac48Address ("00:00:00:00:00:01"));
     fakeNode->AddDevice (silentDev);
   }
   net0.Add (silentDev);

   // Router A
   Ptr<SimpleNetDevice> silentDevRouterA, fwDevRouterA;
   { // silent interface
     silentDevRouterA = CreateObject<SimpleNetDevice> ();
     silentDevRouterA->SetAddress (Mac48Address ("00:00:00:00:00:02"));
     routerA->AddDevice (silentDevRouterA);
   }
   net0.Add (silentDevRouterA);

   { // first interface
     fwDevRouterA = CreateObject<SimpleNetDevice> ();
     fwDevRouterA->SetAddress (Mac48Address ("00:00:00:00:00:03"));
     routerA->AddDevice (fwDevRouterA);
   }
   net1.Add (fwDevRouterA);

   // Router B
   Ptr<SimpleNetDevice> fwDevRouterB;
   { // first interface
     fwDevRouterB = CreateObject<SimpleNetDevice> ();
     fwDevRouterB->SetAddress (Mac48Address ("00:00:00:00:00:04"));
     routerB->AddDevice (fwDevRouterB);
   }
   net1.Add (fwDevRouterB);

   // listener A
   Ptr<SimpleNetDevice> listenerDev;
   {
     listenerDev = CreateObject<SimpleNetDevice> ();
     listenerDev->SetAddress (Mac48Address ("00:00:00:00:00:05"));
     listener->AddDevice (listenerDev);
   }
   net1.Add (listenerDev);

   // link the channels
   Ptr<SimpleChannel> channel0 = CreateObject<SimpleChannel> ();
   silentDev->SetChannel (channel0);
   silentDevRouterA->SetChannel (channel0);

   Ptr<SimpleChannel> channel1 = CreateObject<SimpleChannel> ();
   fwDevRouterA->SetChannel (channel1);
   fwDevRouterB->SetChannel (channel1);
   listenerDev->SetChannel (channel1);

   // Setup IPv6 addresses and forwarding
   Ipv6AddressHelper ipv6;

   ipv6.SetBase (Ipv6Address ("2001:1::"), Ipv6Prefix (64));
   Ipv6InterfaceContainer iic0 = ipv6.AssignWithoutOnLink (net0);

   Ipv6InterfaceContainer iic1 = ipv6.AssignWithoutAddress (net1);
   iic1.SetForwarding (0, true);
   iic1.SetForwarding (1, true);

   // Create the UDP sockets
   Ptr<SocketFactory> rxSocketFactory = listener->GetObject<UdpSocketFactory> ();
   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();
   rxSocket->BindToNetDevice (listenerDev);
   NS_TEST_EXPECT_MSG_EQ (rxSocket->Bind (Inet6SocketAddress (Ipv6Address ("ff02::9"), 521)), 0, "trivial");
   rxSocket->SetRecvCallback (MakeCallback (&Ipv6RipngSplitHorizonStrategyTest::ReceivePktProbe, this));

   // ------ Now the tests ------------

   // If the strategy is Split Horizon, then no packet will be received.
   m_detectedStrategy = RipNg::SPLIT_HORIZON;

   Simulator::Stop (Seconds (66));
   Simulator::Run ();
   NS_TEST_EXPECT_MSG_EQ (m_detectedStrategy, m_setStrategy, "RIPng counting to infinity.");

   Simulator::Destroy ();
 }

 class Ipv6RipngTestSuite : public TestSuite
 {
 public:
   Ipv6RipngTestSuite () : TestSuite ("ipv6-ripng", UNIT)
   {
     AddTestCase (new Ipv6RipngTest, TestCase::QUICK);
     AddTestCase (new Ipv6RipngCountToInfinityTest, TestCase::QUICK);
     AddTestCase (new Ipv6RipngSplitHorizonStrategyTest (RipNg::POISON_REVERSE), TestCase::QUICK);
     AddTestCase (new Ipv6RipngSplitHorizonStrategyTest (RipNg::SPLIT_HORIZON), TestCase::QUICK);
     AddTestCase (new Ipv6RipngSplitHorizonStrategyTest (RipNg::NO_SPLIT_HORIZON), TestCase::QUICK);
   }
 };

 static Ipv6RipngTestSuite g_ipv6ripngTestSuite;
Ipv6RipngTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Received packet.
Definition: ipv6-ripng-test.cc:57

ns3::Packet::RemoveHeader
uint32_t RemoveHeader(Header &header)
Deserialize and remove the header from the internal buffer.
Definition: packet.cc:280

Ipv6RipngTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: ipv6-ripng-test.cc:118

ns3::Ptr< Packet >

ns3::Node::GetId
uint32_t GetId(void) const
Definition: node.cc:109

ns3::Ipv6InterfaceContainer
Keep track of a set of IPv6 interfaces.
Definition: ipv6-interface-container.h:41

ns3::Packet::GetSize
uint32_t GetSize(void) const
Returns the the size in bytes of the packet (including the zero-filled initial payload).
Definition: packet.h:852

ns3::Socket::SetAllowBroadcast
virtual bool SetAllowBroadcast(bool allowBroadcast)=0
Configure whether broadcast datagram transmissions are allowed.

ns3::Ipv6InterfaceContainer::SetDefaultRouteInAllNodes
void SetDefaultRouteInAllNodes(uint32_t router)
Set the default route for all the devices (except the router itself).
Definition: ipv6-interface-container.cc:89

ns3::TestSuite
A suite of tests to run.
Definition: test.h:1343

NS_ASSERT
#define NS_ASSERT(condition)
At runtime, in debugging builds, if this condition is not true, the program prints the source file...
Definition: assert.h:67

Ipv6RipngTestSuite
IPv6 RIPng TestSuite.
Definition: ipv6-ripng-test.cc:687

Ipv6RipngTest
IPv6 RIPng Test.
Definition: ipv6-ripng-test.cc:55

ns3::InternetStackHelper
aggregate IP/TCP/UDP functionality to existing Nodes.
Definition: internet-stack-helper.h:86

NS_TEST_EXPECT_MSG_EQ
#define NS_TEST_EXPECT_MSG_EQ(actual, limit, msg)
Test that an actual and expected (limit) value are equal and report if not.
Definition: test.h:283

ns3::Ipv6AddressHelper::SetBase
void SetBase(Ipv6Address network, Ipv6Prefix prefix, Ipv6Address base=Ipv6Address("::1"))
Set the base network number, network prefix, and base interface ID.
Definition: ipv6-address-helper.cc:69

ns3::RipNgHelper
Helper class that adds RIPng routing to nodes.
Definition: ripng-helper.h:40

ns3::SocketFactory::CreateSocket
virtual Ptr< Socket > CreateSocket(void)=0

Ipv6RipngSplitHorizonStrategyTest::ReceivePktProbe
void ReceivePktProbe(Ptr< Socket > socket)
Receive data.
Definition: ipv6-ripng-test.cc:529

Ipv6RipngCountToInfinityTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Receive data.
Definition: ipv6-ripng-test.cc:311

ns3::TestCase
encapsulates test code
Definition: test.h:1153

ns3::Ipv6InterfaceContainer::SetForwarding
void SetForwarding(uint32_t i, bool state)
Set the state of the stack (act as a router or as an host) for the specified index.
Definition: ipv6-interface-container.cc:83

ns3::Address
a polymophic address class
Definition: address.h:90

Ipv6RipngSplitHorizonStrategyTest
IPv6 RIPng SplitHorizon strategy Test.
Definition: ipv6-ripng-test.cc:503

first.nodes
nodes
Definition: first.py:32

ns3::EnumValue
Hold variables of type enum.
Definition: enum.h:54

max
#define max(a, b)
Definition: 80211b.c:43

Ipv6RipngTest::DoSendData
void DoSendData(Ptr< Socket > socket, std::string to)
Send data.
Definition: ipv6-ripng-test.cc:100

ns3::TestCase::AddTestCase
void AddTestCase(TestCase *testCase, TestDuration duration=QUICK)
Add an individual child TestCase to this test suite.
Definition: test.cc:299

ns3::NetDeviceContainer::Add
void Add(NetDeviceContainer other)
Append the contents of another NetDeviceContainer to the end of this container.
Definition: net-device-container.cc:67

ns3::RipNgHelper::SetInterfaceMetric
void SetInterfaceMetric(Ptr< Node > node, uint32_t interface, uint8_t metric)
Set a metric for an interface.
Definition: ripng-helper.cc:176

Ipv6RipngSplitHorizonStrategyTest::m_detectedStrategy
RipNg::SplitHorizonType_e m_detectedStrategy
Strategy detected.
Definition: ipv6-ripng-test.cc:506

ns3::NetDeviceContainer
holds a vector of ns3::NetDevice pointers
Definition: net-device-container.h:41

ns3::Inet6SocketAddress
An Inet6 address class.
Definition: inet6-socket-address.h:36

Ipv6RipngSplitHorizonStrategyTest::m_setStrategy
RipNg::SplitHorizonType_e m_setStrategy
Strategy set.
Definition: ipv6-ripng-test.cc:505

Ipv6RipngCountToInfinityTest
IPv6 RIPng count to infinity Test.
Definition: ipv6-ripng-test.cc:278

Ipv6RipngTest::SendData
void SendData(Ptr< Socket > socket, std::string to)
Send data.
Definition: ipv6-ripng-test.cc:108

ns3::RipNgHeader
RipNgHeader - see RFC 2080
Definition: ripng-header.h:146

ns3::Object::GetObject
Ptr< T > GetObject(void) const
Get a pointer to the requested aggregated Object.
Definition: object.h:470

ns3
Every class exported by the ns3 library is enclosed in the ns3 namespace.

ns3::NodeContainer
keep track of a set of node pointers.
Definition: node-container.h:38

ns3::RipNgHelper::Set
void Set(std::string name, const AttributeValue &value)
Definition: ripng-helper.cc:81

Ipv6RipngTest::Ipv6RipngTest
Ipv6RipngTest()
Definition: ipv6-ripng-test.cc:83

ns3::Socket::Recv
virtual Ptr< Packet > Recv(uint32_t maxSize, uint32_t flags)=0
Read data from the socket.

Ipv6RipngCountToInfinityTest::Ipv6RipngCountToInfinityTest
Ipv6RipngCountToInfinityTest()
Definition: ipv6-ripng-test.cc:306

Ipv6RipngCountToInfinityTest::DoSendData
void DoSendData(Ptr< Socket > socket, std::string to)
Send data.
Definition: ipv6-ripng-test.cc:323

Ipv6RipngSplitHorizonStrategyTest::Ipv6RipngSplitHorizonStrategyTest
Ipv6RipngSplitHorizonStrategyTest(RipNg::SplitHorizonType_e strategy)
Constructor.
Definition: ipv6-ripng-test.cc:523

ns3::Mac48Address
an EUI-48 address
Definition: mac48-address.h:43

Ipv6RipngTestSuite::Ipv6RipngTestSuite
Ipv6RipngTestSuite()
Definition: ipv6-ripng-test.cc:690

Ipv6RipngCountToInfinityTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: ipv6-ripng-test.cc:341

Ipv6RipngSplitHorizonStrategyTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: ipv6-ripng-test.cc:572

ns3::Socket::BindToNetDevice
virtual void BindToNetDevice(Ptr< NetDevice > netdevice)
Bind a socket to specific device.
Definition: socket.cc:330

Ipv6RipngCountToInfinityTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Received packet.
Definition: ipv6-ripng-test.cc:280

ns3::Ipv6AddressHelper
Helper class to auto-assign global IPv6 unicast addresses.
Definition: ipv6-address-helper.h:82

ns3::InternetStackHelper::Install
void Install(std::string nodeName) const
Aggregate implementations of the ns3::Ipv4, ns3::Ipv6, ns3::Udp, and ns3::Tcp classes onto the provid...
Definition: internet-stack-helper.cc:366

ns3::Ipv6Address
Describes an IPv6 address.
Definition: ipv6-address.h:49

ns3::Node::AddDevice
uint32_t AddDevice(Ptr< NetDevice > device)
Associate a NetDevice to this node.
Definition: node.cc:130

ns3::Socket::GetNode
virtual Ptr< Node > GetNode(void) const =0
Return the node this socket is associated with.

Ipv6RipngCountToInfinityTest::SendData
void SendData(Ptr< Socket > socket, std::string to)
Send data.
Definition: ipv6-ripng-test.cc:331

ns3::SimpleNetDevice::SetAddress
virtual void SetAddress(Address address)
Set the address of this interface.
Definition: simple-net-device.cc:323

ns3::Ipv6AddressHelper::AssignWithoutOnLink
Ipv6InterfaceContainer AssignWithoutOnLink(const NetDeviceContainer &c)
Allocate an Ipv6InterfaceContainer with auto-assigned addresses, but do not set the on-link property ...
Definition: ipv6-address-helper.cc:304

ns3::Seconds
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1289

ns3::RipNgHeader::GetRteList
std::list< RipNgRte > GetRteList(void) const
Get the list of the RTEs included in the message.
Definition: ripng-header.cc:253

ns3::Packet::RemoveAllByteTags
void RemoveAllByteTags(void)
Remove all byte tags stored in this packet.
Definition: packet.cc:371

ns3::Ipv6Prefix
Describes an IPv6 prefix.
Definition: ipv6-address.h:466

ns3::Socket::SendTo
virtual int SendTo(Ptr< Packet > p, uint32_t flags, const Address &toAddress)=0
Send data to a specified peer.

ns3::UdpSocketFactory
API to create UDP socket instances.
Definition: udp-socket-factory.h:41

ns3::Socket::RecvFrom
virtual Ptr< Packet > RecvFrom(uint32_t maxSize, uint32_t flags, Address &fromAddress)=0
Read a single packet from the socket and retrieve the sender address.

ns3::RipNg::SplitHorizonType_e
SplitHorizonType_e
Split Horizon strategy type.
Definition: ripng.h:207

ns3::TestSuite::UNIT
This test suite implements a Unit Test.
Definition: test.h:1353

ns3::Ipv6AddressHelper::AssignWithoutAddress
Ipv6InterfaceContainer AssignWithoutAddress(const NetDeviceContainer &c)
Allocate an Ipv6InterfaceContainer but do not assign any IPv6 addresses.
Definition: ipv6-address-helper.cc:293

ns3::SimpleNetDevice::SetChannel
void SetChannel(Ptr< SimpleChannel > channel)
Attach a channel to this net device.
Definition: simple-net-device.cc:274

ns3::InternetStackHelper::SetRoutingHelper
void SetRoutingHelper(const Ipv4RoutingHelper &routing)
Definition: internet-stack-helper.cc:175

ns3::MakeCallback
Callback< R, Ts... > MakeCallback(R(T::*memPtr)(Ts...), OBJ objPtr)
Build Callbacks for class method members which take varying numbers of arguments and potentially retu...
Definition: callback.h:1642

g_ipv6ripngTestSuite
static Ipv6RipngTestSuite g_ipv6ripngTestSuite
Static variable for test initialization.
Definition: ipv6-ripng-test.cc:700

Ipv6RipngTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Receive data.
Definition: ipv6-ripng-test.cc:88

ns3::Socket::GetRxAvailable
virtual uint32_t GetRxAvailable(void) const =0
Return number of bytes which can be returned from one or multiple calls to Recv.