apps/ndn-consumer.cpp - ndnSIM - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2011-2015  Regents of the University of California.
  *
  * This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
  * contributors.
  *
  * ndnSIM is free software: you can redistribute it and/or modify it under the terms
  * of the GNU General Public License as published by the Free Software Foundation,
  * either version 3 of the License, or (at your option) any later version.
  *
  * ndnSIM 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
  * ndnSIM, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  **/

 #include "ndn-consumer.hpp"
 #include "ns3/ptr.h"
 #include "ns3/log.h"
 #include "ns3/simulator.h"
 #include "ns3/packet.h"
 #include "ns3/callback.h"
 #include "ns3/string.h"
 #include "ns3/boolean.h"
 #include "ns3/uinteger.h"
 #include "ns3/integer.h"
 #include "ns3/double.h"

 #include "utils/ndn-ns3-packet-tag.hpp"
 #include "utils/ndn-rtt-mean-deviation.hpp"

 #include <ndn-cxx/lp/tags.hpp>

 #include <boost/lexical_cast.hpp>
 #include <boost/ref.hpp>

 NS_LOG_COMPONENT_DEFINE("ndn.Consumer");

 namespace ns3 {
 namespace ndn {

 NS_OBJECT_ENSURE_REGISTERED(Consumer);

 TypeId
 Consumer::GetTypeId(void)
 {
   static TypeId tid =
     TypeId("ns3::ndn::Consumer")
       .SetGroupName("Ndn")
       .SetParent<App>()
       .AddAttribute("StartSeq", "Initial sequence number", IntegerValue(0),
                     MakeIntegerAccessor(&Consumer::m_seq), MakeIntegerChecker<int32_t>())

       .AddAttribute("Prefix", "Name of the Interest", StringValue("/"),
                     MakeNameAccessor(&Consumer::m_interestName), MakeNameChecker())
       .AddAttribute("LifeTime", "LifeTime for interest packet", StringValue("2s"),
                     MakeTimeAccessor(&Consumer::m_interestLifeTime), MakeTimeChecker())

       .AddAttribute("RetxTimer",
                     "Timeout defining how frequent retransmission timeouts should be checked",
                     StringValue("50ms"),
                     MakeTimeAccessor(&Consumer::GetRetxTimer, &Consumer::SetRetxTimer),
                     MakeTimeChecker())

       .AddTraceSource("LastRetransmittedInterestDataDelay",
                       "Delay between last retransmitted Interest and received Data",
                       MakeTraceSourceAccessor(&Consumer::m_lastRetransmittedInterestDataDelay),
                       "ns3::ndn::Consumer::LastRetransmittedInterestDataDelayCallback")

       .AddTraceSource("FirstInterestDataDelay",
                       "Delay between first transmitted Interest and received Data",
                       MakeTraceSourceAccessor(&Consumer::m_firstInterestDataDelay),
                       "ns3::ndn::Consumer::FirstInterestDataDelayCallback");

   return tid;
 }

 Consumer::Consumer()
   : m_rand(CreateObject<UniformRandomVariable>())
   , m_seq(0)
   , m_seqMax(0) // don't request anything
 {
   NS_LOG_FUNCTION_NOARGS();

   m_rtt = CreateObject<RttMeanDeviation>();
 }

 void
 Consumer::SetRetxTimer(Time retxTimer)
 {
   m_retxTimer = retxTimer;
   if (m_retxEvent.IsRunning()) {
     // m_retxEvent.Cancel (); // cancel any scheduled cleanup events
     Simulator::Remove(m_retxEvent); // slower, but better for memory
   }

   // schedule even with new timeout
   m_retxEvent = Simulator::Schedule(m_retxTimer, &Consumer::CheckRetxTimeout, this);
 }

 Time
 Consumer::GetRetxTimer() const
 {
   return m_retxTimer;
 }

 void
 Consumer::CheckRetxTimeout()
 {
   Time now = Simulator::Now();

   Time rto = m_rtt->RetransmitTimeout();
   // NS_LOG_DEBUG ("Current RTO: " << rto.ToDouble (Time::S) << "s");

   while (!m_seqTimeouts.empty()) {
     SeqTimeoutsContainer::index<i_timestamp>::type::iterator entry =
       m_seqTimeouts.get<i_timestamp>().begin();
     if (entry->time + rto <= now) // timeout expired?
     {
       uint32_t seqNo = entry->seq;
       m_seqTimeouts.get<i_timestamp>().erase(entry);
       OnTimeout(seqNo);
     }
     else
       break; // nothing else to do. All later packets need not be retransmitted
   }

   m_retxEvent = Simulator::Schedule(m_retxTimer, &Consumer::CheckRetxTimeout, this);
 }

 // Application Methods
 void
 Consumer::StartApplication() // Called at time specified by Start
 {
   NS_LOG_FUNCTION_NOARGS();

   // do base stuff
   App::StartApplication();

   ScheduleNextPacket();
 }

 void
 Consumer::StopApplication() // Called at time specified by Stop
 {
   NS_LOG_FUNCTION_NOARGS();

   // cancel periodic packet generation
   Simulator::Cancel(m_sendEvent);

   // cleanup base stuff
   App::StopApplication();
 }

 void
 Consumer::SendPacket()
 {
   if (!m_active)
     return;

   NS_LOG_FUNCTION_NOARGS();

   uint32_t seq = std::numeric_limits<uint32_t>::max(); // invalid

   while (m_retxSeqs.size()) {
     seq = *m_retxSeqs.begin();
     m_retxSeqs.erase(m_retxSeqs.begin());
     break;
   }

   if (seq == std::numeric_limits<uint32_t>::max()) {
     if (m_seqMax != std::numeric_limits<uint32_t>::max()) {
       if (m_seq >= m_seqMax) {
         return; // we are totally done
       }
     }

     seq = m_seq++;
   }

   //
   shared_ptr<Name> nameWithSequence = make_shared<Name>(m_interestName);
   nameWithSequence->appendSequenceNumber(seq);
   //

   // shared_ptr<Interest> interest = make_shared<Interest> ();
   shared_ptr<Interest> interest = make_shared<Interest>();
   interest->setNonce(m_rand->GetValue(0, std::numeric_limits<uint32_t>::max()));
   interest->setName(*nameWithSequence);
   time::milliseconds interestLifeTime(m_interestLifeTime.GetMilliSeconds());
   interest->setInterestLifetime(interestLifeTime);

   // NS_LOG_INFO ("Requesting Interest: \n" << *interest);
   NS_LOG_INFO("> Interest for " << seq);

   WillSendOutInterest(seq);

   m_transmittedInterests(interest, this, m_face);
   m_appLink->onReceiveInterest(*interest);

   ScheduleNextPacket();
 }

 ///////////////////////////////////////////////////
 //          Process incoming packets             //
 ///////////////////////////////////////////////////

 void
 Consumer::OnData(shared_ptr<const Data> data)
 {
   if (!m_active)
     return;

   App::OnData(data); // tracing inside

   NS_LOG_FUNCTION(this << data);

   // NS_LOG_INFO ("Received content object: " << boost::cref(*data));

   // This could be a problem......
   uint32_t seq = data->getName().at(-1).toSequenceNumber();
   NS_LOG_INFO("< DATA for " << seq);

   int hopCount = 0;
   auto hopCountTag = data->getTag<lp::HopCountTag>();
   if (hopCountTag != nullptr) { // e.g., packet came from local node's cache
     hopCount = *hopCountTag;
   }
   NS_LOG_DEBUG("Hop count: " << hopCount);

   SeqTimeoutsContainer::iterator entry = m_seqLastDelay.find(seq);
   if (entry != m_seqLastDelay.end()) {
     m_lastRetransmittedInterestDataDelay(this, seq, Simulator::Now() - entry->time, hopCount);
   }

   entry = m_seqFullDelay.find(seq);
   if (entry != m_seqFullDelay.end()) {
     m_firstInterestDataDelay(this, seq, Simulator::Now() - entry->time, m_seqRetxCounts[seq], hopCount);
   }

   m_seqRetxCounts.erase(seq);
   m_seqFullDelay.erase(seq);
   m_seqLastDelay.erase(seq);

   m_seqTimeouts.erase(seq);
   m_retxSeqs.erase(seq);

   m_rtt->AckSeq(SequenceNumber32(seq));
 }

 void
 Consumer::OnNack(shared_ptr<const lp::Nack> nack)
 {
   /// tracing inside
   App::OnNack(nack);

   NS_LOG_INFO("NACK received for: " << nack->getInterest().getName()
               << ", reason: " << nack->getReason());
 }

 void
 Consumer::OnTimeout(uint32_t sequenceNumber)
 {
   NS_LOG_FUNCTION(sequenceNumber);
   // std::cout << Simulator::Now () << ", TO: " << sequenceNumber << ", current RTO: " <<
   // m_rtt->RetransmitTimeout ().ToDouble (Time::S) << "s\n";

   m_rtt->IncreaseMultiplier(); // Double the next RTO
   m_rtt->SentSeq(SequenceNumber32(sequenceNumber),
                  1); // make sure to disable RTT calculation for this sample
   m_retxSeqs.insert(sequenceNumber);
   ScheduleNextPacket();
 }

 void
 Consumer::WillSendOutInterest(uint32_t sequenceNumber)
 {
   NS_LOG_DEBUG("Trying to add " << sequenceNumber << " with " << Simulator::Now() << ". already "
                                 << m_seqTimeouts.size() << " items");

   m_seqTimeouts.insert(SeqTimeout(sequenceNumber, Simulator::Now()));
   m_seqFullDelay.insert(SeqTimeout(sequenceNumber, Simulator::Now()));

   m_seqLastDelay.erase(sequenceNumber);
   m_seqLastDelay.insert(SeqTimeout(sequenceNumber, Simulator::Now()));

   m_seqRetxCounts[sequenceNumber]++;

   m_rtt->SentSeq(SequenceNumber32(sequenceNumber), 1);
 }

 } // namespace ndn
 } // namespace ns3
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2011-2015 Regents of the University of California.
	*
	* This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
	* contributors.
	*
	* ndnSIM is free software: you can redistribute it and/or modify it under the terms
	* of the GNU General Public License as published by the Free Software Foundation,
	* either version 3 of the License, or (at your option) any later version.
	*
	* ndnSIM 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
	* ndnSIM, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	**/

	#include "ndn-consumer.hpp"
	#include "ns3/ptr.h"
	#include "ns3/log.h"
	#include "ns3/simulator.h"
	#include "ns3/packet.h"
	#include "ns3/callback.h"
	#include "ns3/string.h"
	#include "ns3/boolean.h"
	#include "ns3/uinteger.h"
	#include "ns3/integer.h"
	#include "ns3/double.h"

	#include "utils/ndn-ns3-packet-tag.hpp"
	#include "utils/ndn-rtt-mean-deviation.hpp"

	#include <ndn-cxx/lp/tags.hpp>

	#include <boost/lexical_cast.hpp>
	#include <boost/ref.hpp>

	NS_LOG_COMPONENT_DEFINE("ndn.Consumer");

	namespace ns3 {
	namespace ndn {

	NS_OBJECT_ENSURE_REGISTERED(Consumer);

	TypeId
	Consumer::GetTypeId(void)
	{
	static TypeId tid =
	TypeId("ns3::ndn::Consumer")
	.SetGroupName("Ndn")
	.SetParent<App>()
	.AddAttribute("StartSeq", "Initial sequence number", IntegerValue(0),
	MakeIntegerAccessor(&Consumer::m_seq), MakeIntegerChecker<int32_t>())

	.AddAttribute("Prefix", "Name of the Interest", StringValue("/"),
	MakeNameAccessor(&Consumer::m_interestName), MakeNameChecker())
	.AddAttribute("LifeTime", "LifeTime for interest packet", StringValue("2s"),
	MakeTimeAccessor(&Consumer::m_interestLifeTime), MakeTimeChecker())

	.AddAttribute("RetxTimer",
	"Timeout defining how frequent retransmission timeouts should be checked",
	StringValue("50ms"),
	MakeTimeAccessor(&Consumer::GetRetxTimer, &Consumer::SetRetxTimer),
	MakeTimeChecker())

	.AddTraceSource("LastRetransmittedInterestDataDelay",
	"Delay between last retransmitted Interest and received Data",
	MakeTraceSourceAccessor(&Consumer::m_lastRetransmittedInterestDataDelay),
	"ns3::ndn::Consumer::LastRetransmittedInterestDataDelayCallback")

	.AddTraceSource("FirstInterestDataDelay",
	"Delay between first transmitted Interest and received Data",
	MakeTraceSourceAccessor(&Consumer::m_firstInterestDataDelay),
	"ns3::ndn::Consumer::FirstInterestDataDelayCallback");

	return tid;
	}

	Consumer::Consumer()
	: m_rand(CreateObject<UniformRandomVariable>())
	, m_seq(0)
	, m_seqMax(0) // don't request anything
	{
	NS_LOG_FUNCTION_NOARGS();

	m_rtt = CreateObject<RttMeanDeviation>();
	}

	void
	Consumer::SetRetxTimer(Time retxTimer)
	{
	m_retxTimer = retxTimer;
	if (m_retxEvent.IsRunning()) {
	// m_retxEvent.Cancel (); // cancel any scheduled cleanup events
	Simulator::Remove(m_retxEvent); // slower, but better for memory
	}

	// schedule even with new timeout
	m_retxEvent = Simulator::Schedule(m_retxTimer, &Consumer::CheckRetxTimeout, this);
	}

	Time
	Consumer::GetRetxTimer() const
	{
	return m_retxTimer;
	}

	void
	Consumer::CheckRetxTimeout()
	{
	Time now = Simulator::Now();

	Time rto = m_rtt->RetransmitTimeout();
	// NS_LOG_DEBUG ("Current RTO: " << rto.ToDouble (Time::S) << "s");

	while (!m_seqTimeouts.empty()) {
	SeqTimeoutsContainer::index<i_timestamp>::type::iterator entry =
	m_seqTimeouts.get<i_timestamp>().begin();
	if (entry->time + rto <= now) // timeout expired?
	{
	uint32_t seqNo = entry->seq;
	m_seqTimeouts.get<i_timestamp>().erase(entry);
	OnTimeout(seqNo);
	}
	else
	break; // nothing else to do. All later packets need not be retransmitted
	}

	m_retxEvent = Simulator::Schedule(m_retxTimer, &Consumer::CheckRetxTimeout, this);
	}

	// Application Methods
	void
	Consumer::StartApplication() // Called at time specified by Start
	{
	NS_LOG_FUNCTION_NOARGS();

	// do base stuff
	App::StartApplication();

	ScheduleNextPacket();
	}

	void
	Consumer::StopApplication() // Called at time specified by Stop
	{
	NS_LOG_FUNCTION_NOARGS();

	// cancel periodic packet generation
	Simulator::Cancel(m_sendEvent);

	// cleanup base stuff
	App::StopApplication();
	}

	void
	Consumer::SendPacket()
	{
	if (!m_active)
	return;

	NS_LOG_FUNCTION_NOARGS();

	uint32_t seq = std::numeric_limits<uint32_t>::max(); // invalid

	while (m_retxSeqs.size()) {
	seq = *m_retxSeqs.begin();
	m_retxSeqs.erase(m_retxSeqs.begin());
	break;
	}

	if (seq == std::numeric_limits<uint32_t>::max()) {
	if (m_seqMax != std::numeric_limits<uint32_t>::max()) {
	if (m_seq >= m_seqMax) {
	return; // we are totally done
	}
	}

	seq = m_seq++;
	}

	//
	shared_ptr<Name> nameWithSequence = make_shared<Name>(m_interestName);
	nameWithSequence->appendSequenceNumber(seq);
	//

	// shared_ptr<Interest> interest = make_shared<Interest> ();
	shared_ptr<Interest> interest = make_shared<Interest>();
	interest->setNonce(m_rand->GetValue(0, std::numeric_limits<uint32_t>::max()));
	interest->setName(*nameWithSequence);
	time::milliseconds interestLifeTime(m_interestLifeTime.GetMilliSeconds());
	interest->setInterestLifetime(interestLifeTime);

	// NS_LOG_INFO ("Requesting Interest: \n" << *interest);
	NS_LOG_INFO("> Interest for " << seq);

	WillSendOutInterest(seq);

	m_transmittedInterests(interest, this, m_face);
	m_appLink->onReceiveInterest(*interest);

	ScheduleNextPacket();
	}

	///////////////////////////////////////////////////
	// Process incoming packets //
	///////////////////////////////////////////////////

	void
	Consumer::OnData(shared_ptr<const Data> data)
	{
	if (!m_active)
	return;

	App::OnData(data); // tracing inside

	NS_LOG_FUNCTION(this << data);

	// NS_LOG_INFO ("Received content object: " << boost::cref(*data));

	// This could be a problem......
	uint32_t seq = data->getName().at(-1).toSequenceNumber();
	NS_LOG_INFO("< DATA for " << seq);

	int hopCount = 0;
	auto hopCountTag = data->getTag<lp::HopCountTag>();
	if (hopCountTag != nullptr) { // e.g., packet came from local node's cache
	hopCount = *hopCountTag;
	}
	NS_LOG_DEBUG("Hop count: " << hopCount);

	SeqTimeoutsContainer::iterator entry = m_seqLastDelay.find(seq);
	if (entry != m_seqLastDelay.end()) {
	m_lastRetransmittedInterestDataDelay(this, seq, Simulator::Now() - entry->time, hopCount);
	}

	entry = m_seqFullDelay.find(seq);
	if (entry != m_seqFullDelay.end()) {
	m_firstInterestDataDelay(this, seq, Simulator::Now() - entry->time, m_seqRetxCounts[seq], hopCount);
	}

	m_seqRetxCounts.erase(seq);
	m_seqFullDelay.erase(seq);
	m_seqLastDelay.erase(seq);

	m_seqTimeouts.erase(seq);
	m_retxSeqs.erase(seq);

	m_rtt->AckSeq(SequenceNumber32(seq));
	}

	void
	Consumer::OnNack(shared_ptr<const lp::Nack> nack)
	{
	/// tracing inside
	App::OnNack(nack);

	NS_LOG_INFO("NACK received for: " << nack->getInterest().getName()
	<< ", reason: " << nack->getReason());
	}

	void
	Consumer::OnTimeout(uint32_t sequenceNumber)
	{
	NS_LOG_FUNCTION(sequenceNumber);
	// std::cout << Simulator::Now () << ", TO: " << sequenceNumber << ", current RTO: " <<
	// m_rtt->RetransmitTimeout ().ToDouble (Time::S) << "s\n";

	m_rtt->IncreaseMultiplier(); // Double the next RTO
	m_rtt->SentSeq(SequenceNumber32(sequenceNumber),
	1); // make sure to disable RTT calculation for this sample
	m_retxSeqs.insert(sequenceNumber);
	ScheduleNextPacket();
	}

	void
	Consumer::WillSendOutInterest(uint32_t sequenceNumber)
	{
	NS_LOG_DEBUG("Trying to add " << sequenceNumber << " with " << Simulator::Now() << ". already "
	<< m_seqTimeouts.size() << " items");

	m_seqTimeouts.insert(SeqTimeout(sequenceNumber, Simulator::Now()));
	m_seqFullDelay.insert(SeqTimeout(sequenceNumber, Simulator::Now()));

	m_seqLastDelay.erase(sequenceNumber);
	m_seqLastDelay.insert(SeqTimeout(sequenceNumber, Simulator::Now()));

	m_seqRetxCounts[sequenceNumber]++;

	m_rtt->SentSeq(SequenceNumber32(sequenceNumber), 1);
	}

	} // namespace ndn
	} // namespace ns3