3.36/doxygen/sixlowpan-fragmentation-test_8cc_source.html

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

/*

 * Copyright (c) 2013 Universita' di Firenze, Italy

 *

 * 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/config.h"

#include "ns3/uinteger.h"

#include "ns3/socket-factory.h"

#include "ns3/ipv6-raw-socket-factory.h"

#include "ns3/udp-socket-factory.h"

#include "ns3/simulator.h"

#include "ns3/simple-net-device.h"

#include "ns3/socket.h"

#include "ns3/udp-socket.h"


#include "ns3/log.h"

#include "ns3/node.h"

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

#include "ns3/boolean.h"


#include "ns3/sixlowpan-net-device.h"

#include "ns3/internet-stack-helper.h"

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

#include "ns3/error-channel.h"


#include <string>

#include <limits>

#include <netinet/in.h>


using namespace ns3;


class SixlowpanFragmentationTest : public TestCase

{

  Ptr<Packet> m_sentPacketClient;

  Ptr<Packet> m_receivedPacketClient;

  Ptr<Packet> m_receivedPacketServer;


  Ptr<Socket> m_socketServer;

  Ptr<Socket> m_socketClient;

  uint32_t m_dataSize;

  uint8_t *m_data;

  uint32_t m_size;

  uint8_t m_icmpType;

  uint8_t m_icmpCode;


public:

  virtual void DoRun (void);

  SixlowpanFragmentationTest ();

  ~SixlowpanFragmentationTest ();


  // server part


  void StartServer (Ptr<Node> serverNode);

  void HandleReadServer (Ptr<Socket> socket);


  // client part


  void StartClient (Ptr<Node> clientNode);

  void HandleReadClient (Ptr<Socket> socket);

  void HandleReadIcmpClient (Ipv6Address icmpSource, uint8_t icmpTtl, uint8_t icmpType,

                             uint8_t icmpCode, uint32_t icmpInfo);

  void SetFill (uint8_t *fill, uint32_t fillSize, uint32_t dataSize);

  Ptr<Packet> SendClient (void);


};


SixlowpanFragmentationTest::SixlowpanFragmentationTest ()

  : TestCase ("Verify the 6LoWPAN protocol fragmentation and reassembly")

{

  m_socketServer = 0;

  m_data = 0;

  m_dataSize = 0;

  m_size = 0;

  m_icmpType = 0;

  m_icmpCode = 0;

}


SixlowpanFragmentationTest::~SixlowpanFragmentationTest ()

{

  if ( m_data )

    {

      delete[] m_data;

    }

  m_data = 0;

  m_dataSize = 0;

}


void

SixlowpanFragmentationTest::StartServer (Ptr<Node> serverNode)

{


  if (m_socketServer == 0)

    {

      TypeId tid = TypeId::LookupByName ("ns3::UdpSocketFactory");

      m_socketServer = Socket::CreateSocket (serverNode, tid);

      Inet6SocketAddress local = Inet6SocketAddress (Ipv6Address ("2001:0100::1"), 9);

      m_socketServer->Bind (local);

      Ptr<UdpSocket> udpSocket = DynamicCast<UdpSocket> (m_socketServer);

    }


  m_socketServer->SetRecvCallback (MakeCallback (&SixlowpanFragmentationTest::HandleReadServer, this));

}


void

SixlowpanFragmentationTest::HandleReadServer (Ptr<Socket> socket)

{

  Ptr<Packet> packet;

  Address from;

  while ((packet = socket->RecvFrom (from)))

    {

      if (Inet6SocketAddress::IsMatchingType (from))

        {

          packet->RemoveAllPacketTags ();

          packet->RemoveAllByteTags ();


          m_receivedPacketServer = packet->Copy ();

        }

    }

}


void

SixlowpanFragmentationTest::StartClient (Ptr<Node> clientNode)

{


  if (m_socketClient == 0)

    {

      TypeId tid = TypeId::LookupByName ("ns3::UdpSocketFactory");

      m_socketClient = Socket::CreateSocket (clientNode, tid);

      m_socketClient->Bind (Inet6SocketAddress (Ipv6Address::GetAny (), 9));

      m_socketClient->Connect (Inet6SocketAddress (Ipv6Address ("2001:0100::1"), 9));

      CallbackValue cbValue = MakeCallback (&SixlowpanFragmentationTest::HandleReadIcmpClient, this);

      m_socketClient->SetAttribute ("IcmpCallback6", cbValue);

    }


  m_socketClient->SetRecvCallback (MakeCallback (&SixlowpanFragmentationTest::HandleReadClient, this));

}


void

SixlowpanFragmentationTest::HandleReadClient (Ptr<Socket> socket)

{

  Ptr<Packet> packet;

  Address from;

  while ((packet = socket->RecvFrom (from)))

    {

      if (Inet6SocketAddress::IsMatchingType (from))

        {

          m_receivedPacketClient = packet->Copy ();

        }

    }

}


void

SixlowpanFragmentationTest::HandleReadIcmpClient (Ipv6Address icmpSource,

                                                  uint8_t icmpTtl, uint8_t icmpType,

                                                  uint8_t icmpCode, uint32_t icmpInfo)

{

  m_icmpType = icmpType;

  m_icmpCode = icmpCode;

}


void

SixlowpanFragmentationTest::SetFill (uint8_t *fill, uint32_t fillSize, uint32_t dataSize)

{

  if (dataSize != m_dataSize)

    {

      delete [] m_data;

      m_data = new uint8_t [dataSize];

      m_dataSize = dataSize;

    }


  if (fillSize >= dataSize)

    {

      memcpy (m_data, fill, dataSize);

      return;

    }


  uint32_t filled = 0;

  while (filled + fillSize < dataSize)

    {

      memcpy (&m_data[filled], fill, fillSize);

      filled += fillSize;

    }


  memcpy (&m_data[filled], fill, dataSize - filled);


  m_size = dataSize;

}


Ptr<Packet> SixlowpanFragmentationTest::SendClient (void)

{

  Ptr<Packet> p;

  if (m_dataSize)

    {

      p = Create<Packet> (m_data, m_dataSize);

    }

  else

    {

      p = Create<Packet> (m_size);

    }

  m_socketClient->Send (p);


  return p;

}


void

SixlowpanFragmentationTest::DoRun (void)

{

  // Create topology

  InternetStackHelper internet;

  internet.SetIpv4StackInstall (false);

  Packet::EnablePrinting ();


  // Receiver Node

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

  internet.Install (serverNode);

  Ptr<SimpleNetDevice> serverDev;

  Ptr<BinaryErrorModel> serverDevErrorModel = CreateObject<BinaryErrorModel> ();

  {

    Ptr<Icmpv6L4Protocol> icmpv6l4 = serverNode->GetObject<Icmpv6L4Protocol> ();

    icmpv6l4->SetAttribute ("DAD", BooleanValue (false));


    serverDev = CreateObject<SimpleNetDevice> ();

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

    serverDev->SetMtu (1500);

    serverDev->SetReceiveErrorModel (serverDevErrorModel);

    serverDevErrorModel->Disable ();

    serverNode->AddDevice (serverDev);


    Ptr<SixLowPanNetDevice> serverSix = CreateObject<SixLowPanNetDevice> ();

    serverSix->SetAttribute ("ForceEtherType", BooleanValue (true) );

    serverNode->AddDevice (serverSix);

    serverSix->SetNetDevice (serverDev);


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

    ipv6->AddInterface (serverDev);

    uint32_t netdev_idx = ipv6->AddInterface (serverSix);

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

    ipv6->AddAddress (netdev_idx, ipv6Addr);

    ipv6->SetUp (netdev_idx);


  }

  StartServer (serverNode);


  // Sender Node

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

  internet.Install (clientNode);

  Ptr<SimpleNetDevice> clientDev;

  Ptr<BinaryErrorModel> clientDevErrorModel = CreateObject<BinaryErrorModel> ();

  {

    Ptr<Icmpv6L4Protocol> icmpv6l4 = clientNode->GetObject<Icmpv6L4Protocol> ();

    icmpv6l4->SetAttribute ("DAD", BooleanValue (false));


    clientDev = CreateObject<SimpleNetDevice> ();

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

    clientDev->SetMtu (150);

    clientDev->SetReceiveErrorModel (clientDevErrorModel);

    clientDevErrorModel->Disable ();

    clientNode->AddDevice (clientDev);


    Ptr<SixLowPanNetDevice> clientSix = CreateObject<SixLowPanNetDevice> ();

    clientSix->SetAttribute ("ForceEtherType", BooleanValue (true) );

    clientNode->AddDevice (clientSix);

    clientSix->SetNetDevice (clientDev);


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

    ipv6->AddInterface (clientDev);

    uint32_t netdev_idx = ipv6->AddInterface (clientSix);

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

    ipv6->AddAddress (netdev_idx, ipv6Addr);

    ipv6->SetUp (netdev_idx);

  }

  StartClient (clientNode);


  // link the two nodes

  Ptr<ErrorChannel> channel = CreateObject<ErrorChannel> ();

  serverDev->SetChannel (channel);

  clientDev->SetChannel (channel);


  // some small packets, some rather big ones

  uint32_t packetSizes[5] = {200, 300, 400, 500, 600};


  // using the alphabet

  uint8_t fillData[78];

  for ( uint32_t k = 48; k <= 125; k++ )

    {

      fillData[k - 48] = k;

    }


  // First test: normal channel, no errors, no delays

  for ( int i = 0; i < 5; i++)

    {

      uint32_t packetSize = packetSizes[i];


      SetFill (fillData, 78, packetSize);


      m_receivedPacketServer = Create<Packet> ();

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

                                      &SixlowpanFragmentationTest::SendClient, this);

      Simulator::Run ();


      uint8_t recvBuffer[65000];


      uint16_t recvSize = m_receivedPacketServer->GetSize ();


      NS_TEST_EXPECT_MSG_EQ (recvSize, packetSizes[i],

                             "Packet size not correct: recvSize: " << recvSize << " packetSizes[" << i << "]: " << packetSizes[i] );


      m_receivedPacketServer->CopyData (recvBuffer, 65000);

      NS_TEST_EXPECT_MSG_EQ (memcmp (m_data, recvBuffer, m_receivedPacketServer->GetSize ()),

                             0, "Packet content differs");

    }


  // Second test: normal channel, no errors, delays each 2 packets.

  // Each other fragment will arrive out-of-order.

  // The packets should be received correctly since reassembly will reorder the fragments.

  channel->SetJumpingMode (true);

  for ( int i = 0; i < 5; i++)

    {

      uint32_t packetSize = packetSizes[i];


      SetFill (fillData, 78, packetSize);


      m_receivedPacketServer = Create<Packet> ();

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

                                      &SixlowpanFragmentationTest::SendClient, this);

      Simulator::Run ();


      uint8_t recvBuffer[65000];


      uint16_t recvSize = m_receivedPacketServer->GetSize ();


      NS_TEST_EXPECT_MSG_EQ (recvSize, packetSizes[i],

                             "Packet size not correct: recvSize: " << recvSize << " packetSizes[" << i << "]: " << packetSizes[i] );


      m_receivedPacketServer->CopyData (recvBuffer, 65000);

      NS_TEST_EXPECT_MSG_EQ (memcmp (m_data, recvBuffer, m_receivedPacketServer->GetSize ()),

                             0, "Packet content differs");

    }

  channel->SetJumpingMode (false);


  // Third test: normal channel, some packets are duplicate.

  // The duplicate fragments should be discarded, so no error should be fired.

  channel->SetDuplicateMode (true);

  for ( int i = 1; i < 5; i++)

    {

      uint32_t packetSize = packetSizes[i];


      SetFill (fillData, 78, packetSize);


      // reset the model, we want to receive the very first fragment.

      serverDevErrorModel->Reset ();


      m_receivedPacketServer = Create<Packet> ();

      m_icmpType = 0;

      m_icmpCode = 0;

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

                                      &SixlowpanFragmentationTest::SendClient, this);

      Simulator::Run ();


      uint8_t recvBuffer[65000];


      uint16_t recvSize = m_receivedPacketServer->GetSize ();


      NS_TEST_EXPECT_MSG_EQ (recvSize, packetSizes[i],

                             "Packet size not correct: recvSize: " << recvSize << " packetSizes[" << i << "]: " << packetSizes[i] );


      m_receivedPacketServer->CopyData (recvBuffer, 65000);

      NS_TEST_EXPECT_MSG_EQ (memcmp (m_data, recvBuffer, m_receivedPacketServer->GetSize ()),

                             0, "Packet content differs");

    }

  channel->SetDuplicateMode (false);


  // Fourth test: normal channel, some errors, no delays.

  // The reassembly procedure does NOT fire any ICMP, so we do not expect any reply from the server.

  // Client -> Server : errors enabled

  // Server -> Client : errors disabled

  clientDevErrorModel->Disable ();

  serverDevErrorModel->Enable ();

  for ( int i = 1; i < 5; i++)

    {

      uint32_t packetSize = packetSizes[i];


      SetFill (fillData, 78, packetSize);


      // reset the model, we want to receive the very first fragment.

      serverDevErrorModel->Reset ();


      m_receivedPacketServer = Create<Packet> ();

      m_icmpType = 0;

      m_icmpCode = 0;

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

                                      &SixlowpanFragmentationTest::SendClient, this);

      Simulator::Run ();


      uint16_t recvSize = m_receivedPacketServer->GetSize ();


      NS_TEST_EXPECT_MSG_EQ ((recvSize == 0), true, "Server got a packet, something wrong");

      // Note that a 6LoWPAN fragment timeout does NOT send any ICMPv6.

    }


  Simulator::Destroy ();

}


class SixlowpanFragmentationTestSuite : public TestSuite

{

public:

  SixlowpanFragmentationTestSuite ();

private:

};


SixlowpanFragmentationTestSuite::SixlowpanFragmentationTestSuite ()

  : TestSuite ("sixlowpan-fragmentation", UNIT)

{

  AddTestCase (new SixlowpanFragmentationTest (), TestCase::QUICK);

}


static SixlowpanFragmentationTestSuite g_sixlowpanFragmentationTestSuite;

SixlowpanFragmentationTest
6LoWPAN Fragmentation Test
Definition: sixlowpan-fragmentation-test.cc:53

SixlowpanFragmentationTest::m_icmpType
uint8_t m_icmpType
ICMP type.
Definition: sixlowpan-fragmentation-test.cc:63

SixlowpanFragmentationTest::m_sentPacketClient
Ptr< Packet > m_sentPacketClient
Packet sent by client.
Definition: sixlowpan-fragmentation-test.cc:54

SixlowpanFragmentationTest::StartClient
void StartClient(Ptr< Node > clientNode)
Start the client node.
Definition: sixlowpan-fragmentation-test.cc:178

SixlowpanFragmentationTest::StartServer
void StartServer(Ptr< Node > serverNode)
Start the server node.
Definition: sixlowpan-fragmentation-test.cc:145

SixlowpanFragmentationTest::m_socketServer
Ptr< Socket > m_socketServer
Socket on the server.
Definition: sixlowpan-fragmentation-test.cc:58

SixlowpanFragmentationTest::m_socketClient
Ptr< Socket > m_socketClient
Socket on the client.
Definition: sixlowpan-fragmentation-test.cc:59

SixlowpanFragmentationTest::m_icmpCode
uint8_t m_icmpCode
ICMP code.
Definition: sixlowpan-fragmentation-test.cc:64

SixlowpanFragmentationTest::SetFill
void SetFill(uint8_t *fill, uint32_t fillSize, uint32_t dataSize)
Set the packet optional content.
Definition: sixlowpan-fragmentation-test.cc:218

SixlowpanFragmentationTest::HandleReadIcmpClient
void HandleReadIcmpClient(Ipv6Address icmpSource, uint8_t icmpTtl, uint8_t icmpType, uint8_t icmpCode, uint32_t icmpInfo)
Handles incoming ICMP packets in the client.
Definition: sixlowpan-fragmentation-test.cc:209

SixlowpanFragmentationTest::m_receivedPacketServer
Ptr< Packet > m_receivedPacketServer
packet received by the server.
Definition: sixlowpan-fragmentation-test.cc:56

SixlowpanFragmentationTest::HandleReadServer
void HandleReadServer(Ptr< Socket > socket)
Handles incoming packets in the server.
Definition: sixlowpan-fragmentation-test.cc:161

SixlowpanFragmentationTest::SixlowpanFragmentationTest
SixlowpanFragmentationTest()
Definition: sixlowpan-fragmentation-test.cc:122

SixlowpanFragmentationTest::m_dataSize
uint32_t m_dataSize
Size of the data (if any).
Definition: sixlowpan-fragmentation-test.cc:60

SixlowpanFragmentationTest::HandleReadClient
void HandleReadClient(Ptr< Socket > socket)
Handles incoming packets in the client.
Definition: sixlowpan-fragmentation-test.cc:195

SixlowpanFragmentationTest::SendClient
Ptr< Packet > SendClient(void)
Send a packet to the server.
Definition: sixlowpan-fragmentation-test.cc:245

SixlowpanFragmentationTest::m_size
uint32_t m_size
Size of the packet if no data has been provided.
Definition: sixlowpan-fragmentation-test.cc:62

SixlowpanFragmentationTest::~SixlowpanFragmentationTest
~SixlowpanFragmentationTest()
Definition: sixlowpan-fragmentation-test.cc:133

SixlowpanFragmentationTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: sixlowpan-fragmentation-test.cc:262

SixlowpanFragmentationTest::m_receivedPacketClient
Ptr< Packet > m_receivedPacketClient
Packet received by the client.
Definition: sixlowpan-fragmentation-test.cc:55

SixlowpanFragmentationTest::m_data
uint8_t * m_data
Data to be carried in the packet.
Definition: sixlowpan-fragmentation-test.cc:61

SixlowpanFragmentationTestSuite
6LoWPAN Fragmentation TestSuite
Definition: sixlowpan-fragmentation-test.cc:469

SixlowpanFragmentationTestSuite::SixlowpanFragmentationTestSuite
SixlowpanFragmentationTestSuite()
Definition: sixlowpan-fragmentation-test.cc:475

ns3::Address
a polymophic address class
Definition: address.h:91

ns3::BooleanValue
AttributeValue implementation for Boolean.
Definition: boolean.h:37

ns3::CallbackValue
AttributeValue implementation for Callback.
Definition: callback.h:1944

ns3::Icmpv6L4Protocol
An implementation of the ICMPv6 protocol.
Definition: icmpv6-l4-protocol.h:53

ns3::Inet6SocketAddress
An Inet6 address class.
Definition: inet6-socket-address.h:37

ns3::InternetStackHelper
aggregate IP/TCP/UDP functionality to existing Nodes.
Definition: internet-stack-helper.h:88

ns3::InternetStackHelper::SetIpv4StackInstall
void SetIpv4StackInstall(bool enable)
Enable/disable IPv4 stack install.
Definition: internet-stack-helper.cc:189

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:359

ns3::Ipv6Address
Describes an IPv6 address.
Definition: ipv6-address.h:50

ns3::Ipv6
Access to the IPv6 forwarding table, interfaces, and configuration.
Definition: ipv6.h:82

ns3::Ipv6InterfaceAddress
IPv6 address associated with an interface.
Definition: ipv6-interface-address.h:38

ns3::Ipv6Prefix
Describes an IPv6 prefix.
Definition: ipv6-address.h:456

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

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

ns3::ObjectBase::SetAttribute
void SetAttribute(std::string name, const AttributeValue &value)
Set a single attribute, raising fatal errors if unsuccessful.
Definition: object-base.cc:256

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

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

ns3::Packet::CopyData
uint32_t CopyData(uint8_t *buffer, uint32_t size) const
Copy the packet contents to a byte buffer.
Definition: packet.cc:378

ns3::Packet::RemoveAllPacketTags
void RemoveAllPacketTags(void)
Remove all packet tags.
Definition: packet.cc:984

ns3::Packet::Copy
Ptr< Packet > Copy(void) const
performs a COW copy of the packet.
Definition: packet.cc:121

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:856

ns3::Ptr< Packet >

ns3::Socket::Send
virtual int Send(Ptr< Packet > p, uint32_t flags)=0
Send data (or dummy data) to the remote host.

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

ns3::Socket::Connect
virtual int Connect(const Address &address)=0
Initiate a connection to a remote host.

ns3::Socket::SetRecvCallback
void SetRecvCallback(Callback< void, Ptr< Socket > > receivedData)
Notify application when new data is available to be read.
Definition: socket.cc:128

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

ns3::TestCase
encapsulates test code
Definition: test.h:994

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

ns3::TestSuite
A suite of tests to run.
Definition: test.h:1188

ns3::TypeId
a unique identifier for an interface.
Definition: type-id.h:59

uint32_t

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:240

ns3::Seconds
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1244

bianchi11ax.k
int k
Definition: bianchi11ax.py:129

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

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:1648

third.channel
channel
Definition: third.py:92

g_sixlowpanFragmentationTestSuite
static SixlowpanFragmentationTestSuite g_sixlowpanFragmentationTestSuite
Static variable for test initialization.
Definition: sixlowpan-fragmentation-test.cc:481

packetSize
static const uint32_t packetSize
Pcket size generated at the AP.
Definition: wifi-power-adaptation-distance.cc:113