3.18/doxygen/udp-test_8cc_source.html

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */

 /*

  * Copyright (c) 2007 Georgia Tech Research Corporation

  *

  * 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: Raj Bhattacharjea <raj.b@gatech.edu>

  */

 #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/drop-tail-queue.h"

 #include "ns3/socket.h"


 #include "ns3/log.h"

 #include "ns3/node.h"

 #include "ns3/inet-socket-address.h"

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


 #include "ns3/arp-l3-protocol.h"

 #include "ns3/ipv4-l3-protocol.h"

 #include "ns3/ipv6-l3-protocol.h"

 #include "ns3/icmpv4-l4-protocol.h"

 #include "ns3/icmpv6-l4-protocol.h"

 #include "ns3/udp-l4-protocol.h"

 #include "ns3/tcp-l4-protocol.h"

 #include "ns3/ipv4-list-routing.h"

 #include "ns3/ipv4-static-routing.h"

 #include "ns3/ipv6-list-routing.h"

 #include "ns3/ipv6-static-routing.h"


 #include <string>

 #include <limits>


 using namespace ns3;


 static void

 AddInternetStack (Ptr<Node> node)

 {

   //ARP

   Ptr<ArpL3Protocol> arp = CreateObject<ArpL3Protocol> ();

   node->AggregateObject (arp);

   //IPV4

   Ptr<Ipv4L3Protocol> ipv4 = CreateObject<Ipv4L3Protocol> ();

   //Routing for Ipv4

   Ptr<Ipv4ListRouting> ipv4Routing = CreateObject<Ipv4ListRouting> ();

   ipv4->SetRoutingProtocol (ipv4Routing);

   Ptr<Ipv4StaticRouting> ipv4staticRouting = CreateObject<Ipv4StaticRouting> ();

   ipv4Routing->AddRoutingProtocol (ipv4staticRouting, 0);

   node->AggregateObject (ipv4);

   //ICMP

   Ptr<Icmpv4L4Protocol> icmp = CreateObject<Icmpv4L4Protocol> ();

   node->AggregateObject (icmp);

   //UDP

   Ptr<UdpL4Protocol> udp = CreateObject<UdpL4Protocol> ();

   node->AggregateObject (udp);

   //TCP

   Ptr<TcpL4Protocol> tcp = CreateObject<TcpL4Protocol> ();

   node->AggregateObject (tcp);

 }


 static void

 AddInternetStack6 (Ptr<Node> node)

 {

   //IPV6

   Ptr<Ipv6L3Protocol> ipv6 = CreateObject<Ipv6L3Protocol> ();

   //Routing for Ipv6

   Ptr<Ipv6ListRouting> ipv6Routing = CreateObject<Ipv6ListRouting> ();

   ipv6->SetRoutingProtocol (ipv6Routing);

   Ptr<Ipv6StaticRouting> ipv6staticRouting = CreateObject<Ipv6StaticRouting> ();

   ipv6Routing->AddRoutingProtocol (ipv6staticRouting, 0);

   node->AggregateObject (ipv6);

   //ICMP

   Ptr<Icmpv6L4Protocol> icmp = CreateObject<Icmpv6L4Protocol> ();

   node->AggregateObject (icmp);

   //Ipv6 Extensions

   ipv6->RegisterExtensions ();

   ipv6->RegisterOptions ();

   //UDP

   Ptr<UdpL4Protocol> udp = CreateObject<UdpL4Protocol> ();

   node->AggregateObject (udp);

   //TCP

   Ptr<TcpL4Protocol> tcp = CreateObject<TcpL4Protocol> ();

   node->AggregateObject (tcp);

 }


 class UdpSocketLoopbackTest : public TestCase

 {

 public:

   UdpSocketLoopbackTest ();

   virtual void DoRun (void);


   void ReceivePkt (Ptr<Socket> socket);

   Ptr<Packet> m_receivedPacket;

 };


 UdpSocketLoopbackTest::UdpSocketLoopbackTest ()

   : TestCase ("UDP loopback test")

 {

 }


 void UdpSocketLoopbackTest::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 ());

 }


 void

 UdpSocketLoopbackTest::DoRun ()

 {

   Ptr<Node> rxNode = CreateObject<Node> ();

   AddInternetStack (rxNode);


   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();

   rxSocket->Bind (InetSocketAddress (Ipv4Address::GetAny (), 80));

   rxSocket->SetRecvCallback (MakeCallback (&UdpSocketLoopbackTest::ReceivePkt, this));


   Ptr<Socket> txSocket = rxSocketFactory->CreateSocket ();

   txSocket->SendTo (Create<Packet> (246), 0, InetSocketAddress ("127.0.0.1", 80));

   Simulator::Run ();

   Simulator::Destroy ();

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 246, "first socket should not receive it (it is bound specifically to the second interface's address");

 }


 class Udp6SocketLoopbackTest : public TestCase

 {

 public:

   Udp6SocketLoopbackTest ();

   virtual void DoRun (void);


   void ReceivePkt (Ptr<Socket> socket);

   Ptr<Packet> m_receivedPacket;

 };


 Udp6SocketLoopbackTest::Udp6SocketLoopbackTest ()

   : TestCase ("UDP6 loopback test")

 {

 }


 void Udp6SocketLoopbackTest::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

 Udp6SocketLoopbackTest::DoRun ()

 {

   Ptr<Node> rxNode = CreateObject<Node> ();

   AddInternetStack6 (rxNode);


   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();

   rxSocket->Bind (Inet6SocketAddress (Ipv6Address::GetAny (), 80));

   rxSocket->SetRecvCallback (MakeCallback (&Udp6SocketLoopbackTest::ReceivePkt, this));


   Ptr<Socket> txSocket = rxSocketFactory->CreateSocket ();

   txSocket->SendTo (Create<Packet> (246), 0, Inet6SocketAddress ("::1", 80));

   Simulator::Run ();

   Simulator::Destroy ();

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 246, "first socket should not receive it (it is bound specifically to the second interface's address");

 }


 class UdpSocketImplTest : public TestCase

 {

   Ptr<Packet> m_receivedPacket;

   Ptr<Packet> m_receivedPacket2;

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

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


 public:

   virtual void DoRun (void);

   UdpSocketImplTest ();


   void ReceivePacket (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from);

   void ReceivePacket2 (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from);

   void ReceivePkt (Ptr<Socket> socket);

   void ReceivePkt2 (Ptr<Socket> socket);

 };


 UdpSocketImplTest::UdpSocketImplTest ()

   : TestCase ("UDP socket implementation")

 {

 }


 void UdpSocketImplTest::ReceivePacket (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from)

 {

   m_receivedPacket = packet;

 }


 void UdpSocketImplTest::ReceivePacket2 (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from)

 {

   m_receivedPacket2 = packet;

 }


 void UdpSocketImplTest::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 ());

 }


 void UdpSocketImplTest::ReceivePkt2 (Ptr<Socket> socket)

 {

   uint32_t availableData;

   availableData = socket->GetRxAvailable ();

   m_receivedPacket2 = socket->Recv (std::numeric_limits<uint32_t>::max (), 0);

   NS_ASSERT (availableData == m_receivedPacket2->GetSize ());

 }


 void

 UdpSocketImplTest::DoSendData (Ptr<Socket> socket, std::string to)

 {

   Address realTo = InetSocketAddress (Ipv4Address (to.c_str ()), 1234);

   NS_TEST_EXPECT_MSG_EQ (socket->SendTo (Create<Packet> (123), 0, realTo),

                          123, "100");

 }


 void

 UdpSocketImplTest::SendData (Ptr<Socket> socket, std::string to)

 {

   m_receivedPacket = Create<Packet> ();

   m_receivedPacket2 = Create<Packet> ();

   Simulator::ScheduleWithContext (socket->GetNode ()->GetId (), Seconds (0),

                                   &UdpSocketImplTest::DoSendData, this, socket, to);

   Simulator::Run ();

 }


 void

 UdpSocketImplTest::DoRun (void)

 {

   // Create topology


   // Receiver Node

   Ptr<Node> rxNode = CreateObject<Node> ();

   AddInternetStack (rxNode);

   Ptr<SimpleNetDevice> rxDev1, rxDev2;

   { // first interface

     rxDev1 = CreateObject<SimpleNetDevice> ();

     rxDev1->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     rxNode->AddDevice (rxDev1);

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

     uint32_t netdev_idx = ipv4->AddInterface (rxDev1);

     Ipv4InterfaceAddress ipv4Addr = Ipv4InterfaceAddress (Ipv4Address ("10.0.0.1"), Ipv4Mask (0xffff0000U));

     ipv4->AddAddress (netdev_idx, ipv4Addr);

     ipv4->SetUp (netdev_idx);

   }


   { // second interface

     rxDev2 = CreateObject<SimpleNetDevice> ();

     rxDev2->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     rxNode->AddDevice (rxDev2);

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

     uint32_t netdev_idx = ipv4->AddInterface (rxDev2);

     Ipv4InterfaceAddress ipv4Addr = Ipv4InterfaceAddress (Ipv4Address ("10.0.1.1"), Ipv4Mask (0xffff0000U));

     ipv4->AddAddress (netdev_idx, ipv4Addr);

     ipv4->SetUp (netdev_idx);

   }


   // Sender Node

   Ptr<Node> txNode = CreateObject<Node> ();

   AddInternetStack (txNode);

   Ptr<SimpleNetDevice> txDev1;

   {

     txDev1 = CreateObject<SimpleNetDevice> ();

     txDev1->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     txNode->AddDevice (txDev1);

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

     uint32_t netdev_idx = ipv4->AddInterface (txDev1);

     Ipv4InterfaceAddress ipv4Addr = Ipv4InterfaceAddress (Ipv4Address ("10.0.0.2"), Ipv4Mask (0xffff0000U));

     ipv4->AddAddress (netdev_idx, ipv4Addr);

     ipv4->SetUp (netdev_idx);

   }

   Ptr<SimpleNetDevice> txDev2;

   {

     txDev2 = CreateObject<SimpleNetDevice> ();

     txDev2->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     txNode->AddDevice (txDev2);

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

     uint32_t netdev_idx = ipv4->AddInterface (txDev2);

     Ipv4InterfaceAddress ipv4Addr = Ipv4InterfaceAddress (Ipv4Address ("10.0.1.2"), Ipv4Mask (0xffff0000U));

     ipv4->AddAddress (netdev_idx, ipv4Addr);

     ipv4->SetUp (netdev_idx);

   }


   // link the two nodes

   Ptr<SimpleChannel> channel1 = CreateObject<SimpleChannel> ();

   rxDev1->SetChannel (channel1);

   txDev1->SetChannel (channel1);


   Ptr<SimpleChannel> channel2 = CreateObject<SimpleChannel> ();

   rxDev2->SetChannel (channel2);

   txDev2->SetChannel (channel2);


   // Create the UDP sockets

   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();

   NS_TEST_EXPECT_MSG_EQ (rxSocket->Bind (InetSocketAddress (Ipv4Address ("10.0.0.1"), 1234)), 0, "trivial");

   rxSocket->SetRecvCallback (MakeCallback (&UdpSocketImplTest::ReceivePkt, this));


   Ptr<Socket> rxSocket2 = rxSocketFactory->CreateSocket ();

   rxSocket2->SetRecvCallback (MakeCallback (&UdpSocketImplTest::ReceivePkt2, this));

   NS_TEST_EXPECT_MSG_EQ (rxSocket2->Bind (InetSocketAddress (Ipv4Address ("10.0.1.1"), 1234)), 0, "trivial");


   Ptr<SocketFactory> txSocketFactory = txNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> txSocket = txSocketFactory->CreateSocket ();

   txSocket->SetAllowBroadcast (true);


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


   // Unicast test

   SendData (txSocket, "10.0.0.1");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 123, "trivial");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 0, "second interface should receive it");


   m_receivedPacket->RemoveAllByteTags ();

   m_receivedPacket2->RemoveAllByteTags ();


   // Simple broadcast test


   SendData (txSocket, "255.255.255.255");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 123, "trivial");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 0, "second socket should not receive it (it is bound specifically to the second interface's address");


   m_receivedPacket->RemoveAllByteTags ();

   m_receivedPacket2->RemoveAllByteTags ();


   // Broadcast test with multiple receiving sockets


   // When receiving broadcast packets, all sockets sockets bound to

   // the address/port should receive a copy of the same packet -- if

   // the socket address matches.

   rxSocket2->Dispose ();

   rxSocket2 = rxSocketFactory->CreateSocket ();

   rxSocket2->SetRecvCallback (MakeCallback (&UdpSocketImplTest::ReceivePkt2, this));

   NS_TEST_EXPECT_MSG_EQ (rxSocket2->Bind (InetSocketAddress (Ipv4Address ("0.0.0.0"), 1234)), 0, "trivial");


   SendData (txSocket, "255.255.255.255");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 123, "trivial");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 123, "trivial");


   m_receivedPacket = 0;

   m_receivedPacket2 = 0;


   // Simple Link-local multicast test


   txSocket->BindToNetDevice (txDev1);

   SendData (txSocket, "224.0.0.9");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 0, "first socket should not receive it (it is bound specifically to the second interface's address");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 123, "recv2: 224.0.0.9");


   m_receivedPacket->RemoveAllByteTags ();

   m_receivedPacket2->RemoveAllByteTags ();


   Simulator::Destroy ();


 }


 class Udp6SocketImplTest : public TestCase

 {

   Ptr<Packet> m_receivedPacket;

   Ptr<Packet> m_receivedPacket2;

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

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


 public:

   virtual void DoRun (void);

   Udp6SocketImplTest ();


   void ReceivePacket (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from);

   void ReceivePacket2 (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from);

   void ReceivePkt (Ptr<Socket> socket);

   void ReceivePkt2 (Ptr<Socket> socket);

 };


 Udp6SocketImplTest::Udp6SocketImplTest ()

   : TestCase ("UDP6 socket implementation")

 {

 }


 void Udp6SocketImplTest::ReceivePacket (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from)

 {

   m_receivedPacket = packet;

 }


 void Udp6SocketImplTest::ReceivePacket2 (Ptr<Socket> socket, Ptr<Packet> packet, const Address &from)

 {

   m_receivedPacket2 = packet;

 }


 void Udp6SocketImplTest::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 Udp6SocketImplTest::ReceivePkt2 (Ptr<Socket> socket)

 {

   uint32_t availableData;

   availableData = socket->GetRxAvailable ();

   m_receivedPacket2 = socket->Recv (std::numeric_limits<uint32_t>::max (), 0);

   NS_ASSERT (availableData == m_receivedPacket2->GetSize ());

   //cast availableData to void, to suppress 'availableData' set but not used

   //compiler warning

   (void) availableData;

 }


 void

 Udp6SocketImplTest::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, "200");

 }


 void

 Udp6SocketImplTest::SendData (Ptr<Socket> socket, std::string to)

 {

   m_receivedPacket = Create<Packet> ();

   m_receivedPacket2 = Create<Packet> ();

   Simulator::ScheduleWithContext (socket->GetNode ()->GetId (), Seconds (0),

                                   &Udp6SocketImplTest::DoSendData, this, socket, to);

   Simulator::Run ();

 }


 void

 Udp6SocketImplTest::DoRun (void)

 {

   // Create topology


   // Receiver Node

   Ptr<Node> rxNode = CreateObject<Node> ();

   AddInternetStack6 (rxNode);

   Ptr<SimpleNetDevice> rxDev1, rxDev2;

   { // first interface

     rxDev1 = CreateObject<SimpleNetDevice> ();

     rxDev1->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     rxNode->AddDevice (rxDev1);

     Ptr<Ipv6> ipv6 = rxNode->GetObject<Ipv6> ();

     uint32_t netdev_idx = ipv6->AddInterface (rxDev1);

     Ipv6InterfaceAddress ipv6Addr = Ipv6InterfaceAddress (Ipv6Address ("2001:0100::1"), Ipv6Prefix (64));

     ipv6->AddAddress (netdev_idx, ipv6Addr);

     ipv6->SetUp (netdev_idx);

   }

   { // second interface

     rxDev2 = CreateObject<SimpleNetDevice> ();

     rxDev2->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     rxNode->AddDevice (rxDev2);

     Ptr<Ipv6> ipv6 = rxNode->GetObject<Ipv6> ();

     uint32_t netdev_idx = ipv6->AddInterface (rxDev2);

     Ipv6InterfaceAddress ipv6Addr = Ipv6InterfaceAddress (Ipv6Address ("2001:0100:1::1"), Ipv6Prefix (64));

     ipv6->AddAddress (netdev_idx, ipv6Addr);

     ipv6->SetUp (netdev_idx);

   }


   // Sender Node

   Ptr<Node> txNode = CreateObject<Node> ();

   AddInternetStack6 (txNode);

   Ptr<SimpleNetDevice> txDev1;

   {

     txDev1 = CreateObject<SimpleNetDevice> ();

     txDev1->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     txNode->AddDevice (txDev1);

     Ptr<Ipv6> ipv6 = txNode->GetObject<Ipv6> ();

     uint32_t netdev_idx = ipv6->AddInterface (txDev1);

     Ipv6InterfaceAddress ipv6Addr = Ipv6InterfaceAddress (Ipv6Address ("2001:0100::2"), Ipv6Prefix (64));

     ipv6->AddAddress (netdev_idx, ipv6Addr);

     ipv6->SetUp (netdev_idx);

   }

   Ptr<SimpleNetDevice> txDev2;

   {

     txDev2 = CreateObject<SimpleNetDevice> ();

     txDev2->SetAddress (Mac48Address::ConvertFrom (Mac48Address::Allocate ()));

     txNode->AddDevice (txDev2);

     Ptr<Ipv6> ipv6 = txNode->GetObject<Ipv6> ();

     uint32_t netdev_idx = ipv6->AddInterface (txDev2);

     Ipv6InterfaceAddress ipv6Addr = Ipv6InterfaceAddress (Ipv6Address ("2001:0100:1::2"), Ipv6Prefix (64));

     ipv6->AddAddress (netdev_idx, ipv6Addr);

     ipv6->SetUp (netdev_idx);

   }


   // link the two nodes

   Ptr<SimpleChannel> channel1 = CreateObject<SimpleChannel> ();

   rxDev1->SetChannel (channel1);

   txDev1->SetChannel (channel1);


   Ptr<SimpleChannel> channel2 = CreateObject<SimpleChannel> ();

   rxDev2->SetChannel (channel2);

   txDev2->SetChannel (channel2);


   // Create the UDP sockets

   Ptr<SocketFactory> rxSocketFactory = rxNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> rxSocket = rxSocketFactory->CreateSocket ();

   NS_TEST_EXPECT_MSG_EQ (rxSocket->Bind (Inet6SocketAddress (Ipv6Address ("2001:0100::1"), 1234)), 0, "trivial");

   rxSocket->SetRecvCallback (MakeCallback (&Udp6SocketImplTest::ReceivePkt, this));


   Ptr<Socket> rxSocket2 = rxSocketFactory->CreateSocket ();

   rxSocket2->SetRecvCallback (MakeCallback (&Udp6SocketImplTest::ReceivePkt2, this));

   NS_TEST_EXPECT_MSG_EQ (rxSocket2->Bind (Inet6SocketAddress (Ipv6Address ("2001:0100:1::1"), 1234)), 0, "trivial");


   Ptr<SocketFactory> txSocketFactory = txNode->GetObject<UdpSocketFactory> ();

   Ptr<Socket> txSocket = txSocketFactory->CreateSocket ();

   txSocket->SetAllowBroadcast (true);

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


   // Unicast test

   SendData (txSocket, "2001:0100::1");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 123, "trivial");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 0, "second interface should receive it");


   m_receivedPacket->RemoveAllByteTags ();

   m_receivedPacket2->RemoveAllByteTags ();


   // Simple Link-local multicast test


   // When receiving broadcast packets, all sockets sockets bound to

   // the address/port should receive a copy of the same packet -- if

   // the socket address matches.

   rxSocket2->Dispose ();

   rxSocket2 = rxSocketFactory->CreateSocket ();

   rxSocket2->SetRecvCallback (MakeCallback (&Udp6SocketImplTest::ReceivePkt2, this));

   NS_TEST_EXPECT_MSG_EQ (rxSocket2->Bind (Inet6SocketAddress (Ipv6Address ("::"), 1234)), 0, "trivial");


   txSocket->BindToNetDevice (txDev1);

   SendData (txSocket, "ff02::1");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket->GetSize (), 0, "first socket should not receive it (it is bound specifically to the second interface's address");

   NS_TEST_EXPECT_MSG_EQ (m_receivedPacket2->GetSize (), 123, "recv2: ff02::1");


   m_receivedPacket->RemoveAllByteTags ();

   m_receivedPacket2->RemoveAllByteTags ();


   Simulator::Destroy ();


 }


 //-----------------------------------------------------------------------------

 class UdpTestSuite : public TestSuite

 {

 public:

   UdpTestSuite () : TestSuite ("udp", UNIT)

   {

     AddTestCase (new UdpSocketImplTest, TestCase::QUICK);

     AddTestCase (new UdpSocketLoopbackTest, TestCase::QUICK);

     AddTestCase (new Udp6SocketImplTest, TestCase::QUICK);

     AddTestCase (new Udp6SocketLoopbackTest, TestCase::QUICK);

   }

 } g_udpTestSuite;

Udp6SocketLoopbackTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Definition: udp-test.cc:163

ns3::Ipv4::AddInterface
virtual uint32_t AddInterface(Ptr< NetDevice > device)=0

AddInternetStack6
static void AddInternetStack6(Ptr< Node > node)
Definition: udp-test.cc:82

Udp6SocketImplTest::Udp6SocketImplTest
Udp6SocketImplTest()
Definition: udp-test.cc:406

ns3::InetSocketAddress
an Inet address class
Definition: inet-socket-address.h:40

ns3::Ptr< Node >

Udp6SocketLoopbackTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: udp-test.cc:175

ns3::Ipv6
Access to the IPv6 forwarding table, interfaces, and configuration.
Definition: ipv6.h:79

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

ns3::Ipv4Mask
a class to represent an Ipv4 address mask
Definition: ipv4-address.h:210

ns3::TestSuite
A suite of tests to run.
Definition: test.h:1025

UdpSocketImplTest
Definition: udp-test.cc:192

NS_ASSERT
#define NS_ASSERT(condition)
Definition: assert.h:64

ns3::Ipv6InterfaceAddress
IPv6 address associated with an interface.
Definition: ipv6-interface-address.h:36

UdpSocketImplTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: udp-test.cc:259

ns3::Packet::GetSize
uint32_t GetSize(void) const
Definition: packet.h:650

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

AddInternetStack
static void AddInternetStack(Ptr< Node > node)
Definition: udp-test.cc:57

ns3::TestCase
encapsulates test code
Definition: test.h:849

UdpSocketImplTest::m_receivedPacket2
Ptr< Packet > m_receivedPacket2
Definition: udp-test.cc:195

UdpSocketImplTest::UdpSocketImplTest
UdpSocketImplTest()
Definition: udp-test.cc:209

ns3::Address
a polymophic address class
Definition: address.h:86

UdpSocketImplTest::DoSendData
void DoSendData(Ptr< Socket > socket, std::string to)
Definition: udp-test.cc:241

UdpSocketImplTest::SendData
void SendData(Ptr< Socket > socket, std::string to)
Definition: udp-test.cc:249

UdpSocketLoopbackTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Definition: udp-test.cc:122

Udp6SocketImplTest::ReceivePacket2
void ReceivePacket2(Ptr< Socket > socket, Ptr< Packet > packet, const Address &from)
Definition: udp-test.cc:416

UdpSocketLoopbackTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Definition: udp-test.cc:114

Udp6SocketLoopbackTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Definition: udp-test.cc:155

UdpTestSuite::UdpTestSuite
UdpTestSuite()
Definition: udp-test.cc:577

Udp6SocketImplTest
Definition: udp-test.cc:389

ns3::Ipv4::SetUp
virtual void SetUp(uint32_t interface)=0

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:244

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

UdpSocketImplTest::ReceivePacket
void ReceivePacket(Ptr< Socket > socket, Ptr< Packet > packet, const Address &from)
Definition: udp-test.cc:214

ns3::MakeCallback
Callback< R > MakeCallback(R(T::*memPtr)(void), OBJ objPtr)
Definition: callback.h:1238

ns3::Socket::SetRecvCallback
void SetRecvCallback(Callback< void, Ptr< Socket > >)
Notify application when new data is available to be read.
Definition: socket.cc:127

ns3::Socket::CreateSocket
static Ptr< Socket > CreateSocket(Ptr< Node > node, TypeId tid)
Definition: socket.cc:70

ns3::Object::AggregateObject
void AggregateObject(Ptr< Object > other)
Definition: object.cc:242

Udp6SocketImplTest::ReceivePkt2
void ReceivePkt2(Ptr< Socket > socket)
Definition: udp-test.cc:432

ns3::Ipv4
Access to the Ipv4 forwarding table, interfaces, and configuration.
Definition: ipv4.h:75

UdpSocketImplTest::ReceivePkt2
void ReceivePkt2(Ptr< Socket > socket)
Definition: udp-test.cc:232

ns3::Socket::Bind
virtual int Bind(const Address &address)=0
Allocate a local endpoint for this socket.

Udp6SocketLoopbackTest
Definition: udp-test.cc:148

Udp6SocketImplTest::DoSendData
void DoSendData(Ptr< Socket > socket, std::string to)
Definition: udp-test.cc:444

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

ns3::TestCase::AddTestCase
void AddTestCase(TestCase *testCase) NS_DEPRECATED
Add an individual child TestCase case to this TestCase.
Definition: test.cc:172

UdpSocketImplTest::ReceivePacket2
void ReceivePacket2(Ptr< Socket > socket, Ptr< Packet > packet, const Address &from)
Definition: udp-test.cc:219

Udp6SocketImplTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Definition: udp-test.cc:421

ns3::Ipv6::AddInterface
virtual uint32_t AddInterface(Ptr< NetDevice > device)=0
Add a NetDevice interface.

g_udpTestSuite
UdpTestSuite g_udpTestSuite

Udp6SocketImplTest::m_receivedPacket2
Ptr< Packet > m_receivedPacket2
Definition: udp-test.cc:392

Udp6SocketImplTest::SendData
void SendData(Ptr< Socket > socket, std::string to)
Definition: udp-test.cc:452

ns3::Ipv6L3Protocol::RegisterExtensions
virtual void RegisterExtensions()
Register the IPv6 Extensions.
Definition: ipv6-l3-protocol.cc:1223

ns3::Ipv6Address
Describes an IPv6 address.
Definition: ipv6-address.h:46

ns3::Ipv4Address
Ipv4 addresses are stored in host order in this class.
Definition: ipv4-address.h:38

ns3::Ipv6L3Protocol::SetRoutingProtocol
void SetRoutingProtocol(Ptr< Ipv6RoutingProtocol > routingProtocol)
Set routing protocol for this stack.
Definition: ipv6-l3-protocol.cc:142

ns3::Node::AddDevice
uint32_t AddDevice(Ptr< NetDevice > device)
Definition: node.cc:117

ns3::Node::GetId
uint32_t GetId(void) const
Definition: node.cc:103

ns3::Ipv4InterfaceAddress
a class to store IPv4 address information on an interface
Definition: ipv4-interface-address.h:42

ns3::Socket::GetNode
virtual Ptr< Node > GetNode(void) const =0

UdpSocketImplTest::ReceivePkt
void ReceivePkt(Ptr< Socket > socket)
Definition: udp-test.cc:224

ns3::SimpleNetDevice::SetAddress
virtual void SetAddress(Address address)
Definition: simple-net-device.cc:132

ns3::Packet::RemoveAllByteTags
void RemoveAllByteTags(void)
Definition: packet.cc:361

Udp6SocketImplTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Definition: udp-test.cc:391

UdpSocketImplTest::m_receivedPacket
Ptr< Packet > m_receivedPacket
Definition: udp-test.cc:194

ns3::Ipv6L3Protocol::RegisterOptions
virtual void RegisterOptions()
Register the IPv6 Options.
Definition: ipv6-l3-protocol.cc:1256

ns3::Ipv6Prefix
Describes an IPv6 prefix. It is just a bitmask like Ipv4Mask.
Definition: ipv6-address.h:364

UdpSocketLoopbackTest
Definition: udp-test.cc:107

ns3::Ipv4::AddAddress
virtual bool AddAddress(uint32_t interface, Ipv4InterfaceAddress address)=0

ns3::Ipv6::AddAddress
virtual bool AddAddress(uint32_t interface, Ipv6InterfaceAddress address)=0
Add an address on the specified IPv6 interface.

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

Udp6SocketImplTest::ReceivePacket
void ReceivePacket(Ptr< Socket > socket, Ptr< Packet > packet, const Address &from)
Definition: udp-test.cc:411

UdpSocketLoopbackTest::UdpSocketLoopbackTest
UdpSocketLoopbackTest()
Definition: udp-test.cc:117

ns3::UdpSocketFactory
API to create UDP socket instances.
Definition: udp-socket-factory.h:40

ns3::TestSuite::UNIT
This test suite implements a Unit Test.
Definition: test.h:1035

Udp6SocketLoopbackTest::Udp6SocketLoopbackTest
Udp6SocketLoopbackTest()
Definition: udp-test.cc:158

UdpTestSuite
Definition: udp-test.cc:574

ns3::SimpleNetDevice::SetChannel
void SetChannel(Ptr< SimpleChannel > channel)
Definition: simple-net-device.cc:99

ns3::Object::GetObject
Ptr< T > GetObject(void) const
Definition: object.h:360

Udp6SocketImplTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: udp-test.cc:462

ns3::Object::Dispose
void Dispose(void)
Definition: object.cc:204

UdpSocketLoopbackTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: udp-test.cc:131

ns3::Ipv6::SetUp
virtual void SetUp(uint32_t interface)=0
Set the interface into the "up" state.

ns3::Socket::GetRxAvailable
virtual uint32_t GetRxAvailable(void) const =0

ns3::Ipv4L3Protocol::SetRoutingProtocol
void SetRoutingProtocol(Ptr< Ipv4RoutingProtocol > routingProtocol)
Register a new routing protocol to be used by this Ipv4 stack.
Definition: ipv4-l3-protocol.cc:184