/* * Copyright (c) 2009 Strasbourg University * * 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: David Gross * Sebastien Vincent */ // Network topology // // // // n0 R n1 // // | _ | // // ====|_|==== // // router // // - R sends RA to n0's subnet (2001:1::/64 and 2001:ABCD::/64); // // - R interface to n0 has two addresses with following prefixes 2001:1::/64 and 2001:ABCD::/64; // // - R sends RA to n1's subnet (2001:2::/64); // // - n0 ping6 n1. // // // // - Tracing of queues and packet receptions to file "radvd-two-prefix.tr" #include "ns3/core-module.h" #include "ns3/csma-module.h" #include "ns3/internet-apps-module.h" #include "ns3/internet-module.h" #include "ns3/ipv6-routing-table-entry.h" #include "ns3/ipv6-static-routing-helper.h" #include "ns3/radvd-interface.h" #include "ns3/radvd-prefix.h" #include "ns3/radvd.h" #include using namespace ns3; NS_LOG_COMPONENT_DEFINE("RadvdTwoPrefixExample"); /** * \class IpAddressHelper * \brief Helper to print a node's IP addresses. */ class IpAddressHelper { public: /** * \brief Print the node's IP addresses. * \param n the node */ inline void PrintIpAddresses(Ptr& n) { Ptr ipv6 = n->GetObject(); uint32_t nInterfaces = ipv6->GetNInterfaces(); std::cout << "Node: " << ipv6->GetObject()->GetId() << " Time: " << Simulator::Now().GetSeconds() << "s " << "IPv6 addresses" << std::endl; std::cout << "(Interface index, Address index)\t" << "IPv6 Address" << std::endl; for (uint32_t i = 0; i < nInterfaces; i++) { for (uint32_t j = 0; j < ipv6->GetNAddresses(i); j++) { std::cout << "(" << int(i) << "," << int(j) << ")\t" << ipv6->GetAddress(i, j) << std::endl; } } std::cout << std::endl; } }; int main(int argc, char** argv) { bool verbose = false; CommandLine cmd(__FILE__); cmd.AddValue("verbose", "turn on log components", verbose); cmd.Parse(argc, argv); if (verbose) { LogComponentEnable("Ipv6L3Protocol", LOG_LEVEL_ALL); LogComponentEnable("Ipv6RawSocketImpl", LOG_LEVEL_ALL); LogComponentEnable("Icmpv6L4Protocol", LOG_LEVEL_ALL); LogComponentEnable("Ipv6StaticRouting", LOG_LEVEL_ALL); LogComponentEnable("Ipv6Interface", LOG_LEVEL_ALL); LogComponentEnable("RadvdApplication", LOG_LEVEL_ALL); LogComponentEnable("Ping6Application", LOG_LEVEL_ALL); } NS_LOG_INFO("Create nodes."); Ptr n0 = CreateObject(); Ptr r = CreateObject(); Ptr n1 = CreateObject(); NodeContainer net1(n0, r); NodeContainer net2(r, n1); NodeContainer all(n0, r, n1); NS_LOG_INFO("Create IPv6 Internet Stack"); InternetStackHelper internetv6; internetv6.Install(all); NS_LOG_INFO("Create channels."); CsmaHelper csma; csma.SetChannelAttribute("DataRate", DataRateValue(5000000)); csma.SetChannelAttribute("Delay", TimeValue(MilliSeconds(2))); NetDeviceContainer d1 = csma.Install(net1); /* n0 - R */ NetDeviceContainer d2 = csma.Install(net2); /* R - n1 */ NS_LOG_INFO("Create networks and assign IPv6 Addresses."); Ipv6AddressHelper ipv6; /* first subnet */ ipv6.SetBase(Ipv6Address("2001:1::"), Ipv6Prefix(64)); NetDeviceContainer tmp; tmp.Add(d1.Get(0)); /* n0 */ Ipv6InterfaceContainer iic1 = ipv6.AssignWithoutAddress(tmp); /* n0 interface */ NetDeviceContainer tmp2; tmp2.Add(d1.Get(1)); /* R */ Ipv6InterfaceContainer iicr1 = ipv6.Assign(tmp2); /* R interface to the first subnet is just statically assigned */ iicr1.SetForwarding(0, true); iic1.Add(iicr1); /* add another IPv6 address for second prefix advertised on first subnet */ ipv6.SetBase(Ipv6Address("2001:ABCD::"), Ipv6Prefix(64)); ipv6.Assign(tmp2); /* second subnet R - n1 */ ipv6.SetBase(Ipv6Address("2001:2::"), Ipv6Prefix(64)); NetDeviceContainer tmp3; tmp3.Add(d2.Get(0)); /* R */ Ipv6InterfaceContainer iicr2 = ipv6.Assign(tmp3); /* R interface */ iicr2.SetForwarding(0, true); NetDeviceContainer tmp4; tmp4.Add(d2.Get(1)); /* n1 */ Ipv6InterfaceContainer iic2 = ipv6.AssignWithoutAddress(tmp4); iic2.Add(iicr2); /* radvd configuration */ RadvdHelper radvdHelper; /* R interface (n0 - R) */ radvdHelper.AddAnnouncedPrefix(iic1.GetInterfaceIndex(1), Ipv6Address("2001:ABCD::0"), 64); radvdHelper.AddAnnouncedPrefix(iic1.GetInterfaceIndex(1), Ipv6Address("2001:1::0"), 64); // Set some non-standard timers so the simulation is not taking ages Ptr routerInterface = radvdHelper.GetRadvdInterface(iic1.GetInterfaceIndex(1)); routerInterface->SetMaxRtrAdvInterval(2000); routerInterface->SetMinRtrAdvInterval(1000); RadvdInterface::RadvdPrefixList prefixList = routerInterface->GetPrefixes(); for (RadvdInterface::RadvdPrefixListI iter = prefixList.begin(); iter != prefixList.end(); iter++) { (*iter)->SetPreferredLifeTime(3); (*iter)->SetValidLifeTime(5); } /* R interface (R - n1) */ radvdHelper.AddAnnouncedPrefix(iic2.GetInterfaceIndex(1), Ipv6Address("2001:2::0"), 64); // Set some non-standard timers so the simulation is not taking ages routerInterface = radvdHelper.GetRadvdInterface(iic2.GetInterfaceIndex(1)); routerInterface->SetMaxRtrAdvInterval(2000); routerInterface->SetMinRtrAdvInterval(1000); prefixList = routerInterface->GetPrefixes(); for (RadvdInterface::RadvdPrefixListI iter = prefixList.begin(); iter != prefixList.end(); iter++) { (*iter)->SetPreferredLifeTime(3); (*iter)->SetValidLifeTime(5); } ApplicationContainer radvdApps = radvdHelper.Install(r); radvdApps.Start(Seconds(1.0)); radvdApps.Stop(Seconds(2.0)); /* Create a Ping6 application to send ICMPv6 echo request from n0 to n1 via R */ uint32_t packetSize = 1024; uint32_t maxPacketCount = 8; Time interPacketInterval = Seconds(1.); Ping6Helper ping6; /* ping6.SetLocal (iic1.GetAddress (0, 1)); */ ping6.SetRemote( Ipv6Address("2001:2::200:ff:fe00:4")); /* should be n1 address after autoconfiguration */ ping6.SetIfIndex(iic1.GetInterfaceIndex(0)); ping6.SetAttribute("MaxPackets", UintegerValue(maxPacketCount)); ping6.SetAttribute("Interval", TimeValue(interPacketInterval)); ping6.SetAttribute("PacketSize", UintegerValue(packetSize)); ApplicationContainer apps = ping6.Install(net1.Get(0)); apps.Start(Seconds(2.0)); apps.Stop(Seconds(9.0)); Ipv6StaticRoutingHelper routingHelper; Ptr routingStream = Create(&std::cout); routingHelper.PrintRoutingTableAt(Seconds(2.0), n0, routingStream); routingHelper.PrintRoutingTableAt(Seconds(10.0), n0, routingStream); IpAddressHelper ipAddressHelper; /* RA should be received, two prefixes + routes + default route should be present */ Simulator::Schedule(Seconds(2.0), &IpAddressHelper::PrintIpAddresses, &ipAddressHelper, n0); /* at the end, RA addresses and routes should be cleared */ Simulator::Schedule(Seconds(10.0), &IpAddressHelper::PrintIpAddresses, &ipAddressHelper, n0); AsciiTraceHelper ascii; csma.EnableAsciiAll(ascii.CreateFileStream("radvd-two-prefix.tr")); csma.EnablePcapAll(std::string("radvd-two-prefix"), true); NS_LOG_INFO("Run Simulation."); Simulator::Run(); Simulator::Destroy(); NS_LOG_INFO("Done."); return 0; }