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gerrit.named-data.net / ndnSIM / ff8c5d644ef5f5e1f61915020dfd468541fa3743 / . / model / ccnx-l3-protocol.cc
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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2011 University of California, Los Angeles
*
* 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: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
* Ilya Moiseenko <iliamo@cs.ucla.edu>
*/
#include "ccnx-l3-protocol.h"
#include "ns3/packet.h"
#include "ns3/node.h"
#include "ns3/log.h"
#include "ns3/callback.h"
#include "ns3/uinteger.h"
#include "ns3/trace-source-accessor.h"
#include "ns3/object-vector.h"
#include "ns3/pointer.h"
#include "ns3/boolean.h"
#include "ns3/string.h"
#include "ns3/simulator.h"
#include "ns3/random-variable.h"
#include "ns3/ccnx-header-helper.h"
#include "ccnx-face.h"
#include "ccnx-forwarding-strategy.h"
#include "ccnx-interest-header.h"
#include "ccnx-content-object-header.h"
#include "ccnx-net-device-face.h"
#include <boost/foreach.hpp>
#include <boost/lambda/lambda.hpp>
#include <boost/lambda/bind.hpp>
using namespace boost::tuples;
namespace ll = boost::lambda;
NS_LOG_COMPONENT_DEFINE ("CcnxL3Protocol");
namespace ns3 {
const uint16_t CcnxL3Protocol::ETHERNET_FRAME_TYPE = 0x7777;
NS_OBJECT_ENSURE_REGISTERED (CcnxL3Protocol);
TypeId
CcnxL3Protocol::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::CcnxL3Protocol")
.SetParent<Ccnx> ()
.SetGroupName ("Ccnx")
.AddConstructor<CcnxL3Protocol> ()
.AddAttribute ("FaceList", "List of faces associated with CCNx stack",
ObjectVectorValue (),
MakeObjectVectorAccessor (&CcnxL3Protocol::m_faces),
MakeObjectVectorChecker<CcnxFace> ())
.AddAttribute ("ForwardingStrategy", "Forwarding strategy used by CCNx stack",
PointerValue (),
MakePointerAccessor (&CcnxL3Protocol::SetForwardingStrategy, &CcnxL3Protocol::GetForwardingStrategy),
MakePointerChecker<CcnxForwardingStrategy> ())
.AddAttribute ("EnableNACKs", "Enabling support of NACKs",
BooleanValue (false),
MakeBooleanAccessor (&CcnxL3Protocol::m_nacksEnabled),
MakeBooleanChecker ())
.AddAttribute ("CacheUnsolicitedData", "Cache overheard data that have not been requested",
BooleanValue (false),
MakeBooleanAccessor (&CcnxL3Protocol::m_cacheUnsolicitedData),
MakeBooleanChecker ())
.AddAttribute ("RandomDataDelaying", "Delaying data processing",
BooleanValue (false),
MakeBooleanAccessor (&CcnxL3Protocol::m_delayingDataProcessing),
MakeBooleanChecker ())
;
return tid;
}
CcnxL3Protocol::CcnxL3Protocol()
: m_faceCounter (0)
{
NS_LOG_FUNCTION (this);
m_pit = CreateObject<CcnxPit> ();
m_contentStore = CreateObject<CcnxContentStore> ();
}
CcnxL3Protocol::~CcnxL3Protocol ()
{
NS_LOG_FUNCTION (this);
}
void
CcnxL3Protocol::SetNode (Ptr<Node> node)
{
m_node = node;
m_fib = m_node->GetObject<CcnxFib> ();
NS_ASSERT_MSG (m_fib != 0, "FIB should be created and aggregated to a node before calling Ccnx::SetNode");
m_pit->SetFib (m_fib);
}
/*
* This method is called by AddAgregate and completes the aggregation
* by setting the node in the ccnx stack
*/
void
CcnxL3Protocol::NotifyNewAggregate ()
{
if (m_node == 0)
{
Ptr<Node>node = this->GetObject<Node>();
// verify that it's a valid node and that
// the node has not been set before
if (node != 0)
{
this->SetNode (node);
}
}
Object::NotifyNewAggregate ();
}
void
CcnxL3Protocol::DoDispose (void)
{
NS_LOG_FUNCTION (this);
for (CcnxFaceList::iterator i = m_faces.begin (); i != m_faces.end (); ++i)
{
*i = 0;
}
m_faces.clear ();
m_node = 0;
// Force delete on objects
m_forwardingStrategy = 0; // there is a reference to PIT stored in here
m_pit = 0;
m_contentStore = 0;
m_fib = 0;
// m_forwardingStrategy = 0;
Object::DoDispose ();
}
void
CcnxL3Protocol::SetForwardingStrategy (Ptr<CcnxForwardingStrategy> forwardingStrategy)
{
NS_LOG_FUNCTION (this);
m_forwardingStrategy = forwardingStrategy;
m_forwardingStrategy->SetPit (m_pit);
}
Ptr<CcnxForwardingStrategy>
CcnxL3Protocol::GetForwardingStrategy (void) const
{
return m_forwardingStrategy;
}
uint32_t
CcnxL3Protocol::AddFace (const Ptr<CcnxFace> &face)
{
NS_LOG_FUNCTION (this << &face);
face->SetId (m_faceCounter); // sets a unique ID of the face. This ID serves only informational purposes
// ask face to register in lower-layer stack
face->RegisterProtocolHandler (MakeCallback (&CcnxL3Protocol::Receive, this));
m_faces.push_back (face);
m_faceCounter++;
return face->GetId ();
}
void
CcnxL3Protocol::RemoveFace (Ptr<CcnxFace> face)
{
// ask face to register in lower-layer stack
face->RegisterProtocolHandler (MakeNullCallback<void,const Ptr<CcnxFace>&,const Ptr<const Packet>&> ());
// just to be on a safe side. Do the process in two steps
std::list<boost::reference_wrapper<const CcnxPitEntry> > entriesToRemoves;
BOOST_FOREACH (const CcnxPitEntry &pitEntry, *m_pit)
{
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::RemoveAllReferencesToFace, ll::_1, face));
// If this face is the only for the associated FIB entry, then FIB entry will be removed soon.
// Thus, we have to remove the whole PIT entry
if (pitEntry.m_fibEntry.m_faces.size () == 1 &&
pitEntry.m_fibEntry.m_faces.begin ()->m_face == face)
{
entriesToRemoves.push_back (boost::cref (pitEntry));
}
}
BOOST_FOREACH (const CcnxPitEntry &removedEntry, entriesToRemoves)
{
m_pit->erase (m_pit->iterator_to (removedEntry));
}
CcnxFaceList::iterator face_it = find (m_faces.begin(), m_faces.end(), face);
NS_ASSERT_MSG (face_it != m_faces.end (), "Attempt to remove face that doesn't exist");
m_faces.erase (face_it);
}
Ptr<CcnxFace>
CcnxL3Protocol::GetFace (uint32_t index) const
{
BOOST_FOREACH (const Ptr<CcnxFace> &face, m_faces) // this function is not supposed to be called often, so linear search is fine
{
if (face->GetId () == index)
return face;
}
return 0;
}
Ptr<CcnxFace>
CcnxL3Protocol::GetFaceByNetDevice (Ptr<NetDevice> netDevice) const
{
BOOST_FOREACH (const Ptr<CcnxFace> &face, m_faces) // this function is not supposed to be called often, so linear search is fine
{
Ptr<CcnxNetDeviceFace> netDeviceFace = DynamicCast<CcnxNetDeviceFace> (face);
if (netDeviceFace == 0) continue;
if (netDeviceFace->GetNetDevice () == netDevice)
return face;
}
return 0;
}
uint32_t
CcnxL3Protocol::GetNFaces (void) const
{
return m_faces.size ();
}
// Callback from lower layer
void
CcnxL3Protocol::Receive (const Ptr<CcnxFace> &face, const Ptr<const Packet> &p)
{
NS_LOG_LOGIC ("Packet from face " << *face << " received on node " << m_node->GetId ());
Ptr<Packet> packet = p->Copy (); // give upper layers a rw copy of the packet
try
{
CcnxHeaderHelper::Type type = CcnxHeaderHelper::GetCcnxHeaderType (p);
switch (type)
{
case CcnxHeaderHelper::INTEREST:
{
Ptr<CcnxInterestHeader> header = Create<CcnxInterestHeader> ();
// Deserialization. Exception may be thrown
packet->RemoveHeader (*header);
NS_ASSERT_MSG (packet->GetSize () == 0, "Payload of Interests should be zero");
if (header->GetNack () > 0)
OnNack (face, header, p/*original packet*/);
else
OnInterest (face, header, p/*original packet*/);
break;
}
case CcnxHeaderHelper::CONTENT_OBJECT:
{
Ptr<CcnxContentObjectHeader> header = Create<CcnxContentObjectHeader> ();
static CcnxContentObjectTail contentObjectTrailer; //there is no data in this object
// Deserialization. Exception may be thrown
packet->RemoveHeader (*header);
packet->RemoveTrailer (contentObjectTrailer);
OnData (face, header, packet/*payload*/, p/*original packet*/);
break;
}
}
// exception will be thrown if packet is not recognized
}
catch (CcnxUnknownHeaderException)
{
NS_ASSERT_MSG (false, "Unknown CCNx header. Should not happen");
}
}
void
CcnxL3Protocol::OnNack (const Ptr<CcnxFace> &incomingFace,
Ptr<CcnxInterestHeader> &header,
const Ptr<const Packet> &packet)
{
NS_LOG_FUNCTION (incomingFace << header << packet);
m_inNacks (header, incomingFace);
tuple<const CcnxPitEntry&,bool,bool> ret = m_pit->Lookup (*header);
CcnxPitEntry const& pitEntry = ret.get<0> ();
bool isNew = ret.get<1> ();
bool isDuplicated = ret.get<2> ();
if (isNew || !isDuplicated) // potential flow
{
// somebody is doing something bad
m_dropNacks (header, NON_DUPLICATED, incomingFace);
return;
}
// CcnxPitEntryIncomingFaceContainer::type::iterator inFace = pitEntry.m_incoming.find (incomingFace);
CcnxPitEntryOutgoingFaceContainer::type::iterator outFace = pitEntry.m_outgoing.find (incomingFace);
if (outFace == pitEntry.m_outgoing.end ())
{
// NS_ASSERT_MSG (false,
// "Node " << GetObject<Node> ()->GetId () << ", outgoing entry should exist for face " << boost::cref(*incomingFace) << "\n" <<
// "size: " << pitEntry.m_outgoing.size ());
// m_dropNacks (header, NON_DUPLICATE, incomingFace);
return;
}
// This was done in error. Never, never do anything, except normal leakage. This way we ensure that we will not have losses,
// at least when there is only one client
//
// incomingFace->LeakBucketByOnePacket ();
NS_LOG_ERROR ("Nack on " << boost::cref(*incomingFace));
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::SetWaitingInVain, ll::_1, outFace));
// If NACK is NACK_GIVEUP_PIT, then neighbor gave up trying to and removed it's PIT entry.
// So, if we had an incoming entry to this neighbor, then we can remove it now
if (header->GetNack () == CcnxInterestHeader::NACK_GIVEUP_PIT)
{
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::RemoveIncoming, ll::_1, incomingFace));
}
m_fib->m_fib.modify (m_fib->m_fib.iterator_to (pitEntry.m_fibEntry),
ll::bind (&CcnxFibEntry::UpdateStatus,
ll::_1, incomingFace, CcnxFibFaceMetric::NDN_FIB_YELLOW));
if (pitEntry.m_incoming.size () == 0) // interest was actually satisfied
{
// no need to do anything
m_dropNacks (header, AFTER_SATISFIED, incomingFace);
return;
}
if (!pitEntry.AreAllOutgoingInVain ()) // not all ougtoing are in vain
{
NS_LOG_DEBUG ("Not all outgoing are in vain");
// suppress
// Don't do anything, we are still expecting data from some other face
m_dropNacks (header, SUPPRESSED, incomingFace);
return;
}
NS_ASSERT_MSG (m_forwardingStrategy != 0, "Need a forwarding protocol object to process packets");
Ptr<Packet> nonNackInterest = Create<Packet> ();
header->SetNack (CcnxInterestHeader::NORMAL_INTEREST);
nonNackInterest->AddHeader (*header);
bool propagated = m_forwardingStrategy->
PropagateInterest (pitEntry, incomingFace, header, nonNackInterest);
// // ForwardingStrategy will try its best to forward packet to at least one interface.
// // If no interests was propagated, then there is not other option for forwarding or
// // ForwardingStrategy failed to find it.
if (!propagated)
{
m_dropNacks (header, NO_FACES, incomingFace); // this headers doesn't have NACK flag set
GiveUpInterest (pitEntry, header);
}
}
// Processing Interests
//
// !!! Key point.
// !!! All interests should be answerred!!! Either later with data, immediately with data, or immediately with NACK
void CcnxL3Protocol::OnInterest (const Ptr<CcnxFace> &incomingFace,
Ptr<CcnxInterestHeader> &header,
const Ptr<const Packet> &packet)
{
NS_LOG_FUNCTION (incomingFace << header << packet << header->GetName ());
m_inInterests (header, incomingFace);
// NS_LOG_DEBUG (*m_pit);
// Lookup of Pit (and associated Fib) entry for this Interest
tuple<const CcnxPitEntry&,bool,bool> ret = m_pit->Lookup (*header);
CcnxPitEntry const& pitEntry = ret.get<0> ();
bool isNew = ret.get<1> ();
bool isDuplicated = ret.get<2> ();
// NS_LOG_DEBUG ("isNew: " << isNew << ", isDup: " << isDuplicated);
if (isDuplicated)
{
m_dropInterests (header, DUPLICATED, incomingFace);
/**
* This condition will handle "routing" loops and also recently satisfied interests.
* Every time interest is satisfied, PIT entry (with empty incoming and outgoing faces)
* is kept for another small chunk of time.
*/
if (m_nacksEnabled)
{
NS_LOG_DEBUG ("Sending NACK_LOOP");
header->SetNack (CcnxInterestHeader::NACK_LOOP);
Ptr<Packet> nack = Create<Packet> ();
nack->AddHeader (*header);
incomingFace->Send (nack);
m_outNacks (header, incomingFace);
}
return;
}
Ptr<Packet> contentObject;
Ptr<const CcnxContentObjectHeader> contentObjectHeader; // used for tracing
Ptr<const Packet> payload; // used for tracing
tie (contentObject, contentObjectHeader, payload) = m_contentStore->Lookup (header);
if (contentObject != 0)
{
NS_ASSERT (contentObjectHeader != 0);
NS_LOG_LOGIC("Found in cache");
incomingFace->Send (contentObject);
m_outData (contentObjectHeader, payload, true, incomingFace);
// Set pruning timout on PIT entry (instead of deleting the record)
m_pit->modify (m_pit->iterator_to (pitEntry),
bind (&CcnxPitEntry::SetExpireTime, ll::_1,
Simulator::Now () + m_pit->GetPitEntryPruningTimeout ()));
return;
}
// \todo Detect retransmissions. Not yet sure how...
// Data is not in cache
CcnxPitEntryIncomingFaceContainer::type::iterator inFace = pitEntry.m_incoming.find (incomingFace);
CcnxPitEntryOutgoingFaceContainer::type::iterator outFace = pitEntry.m_outgoing.find (incomingFace);
bool isRetransmitted = false;
if (inFace != pitEntry.m_incoming.end ())
{
// CcnxPitEntryIncomingFace.m_arrivalTime keeps track arrival time of the first packet... why?
isRetransmitted = true;
// this is almost definitely a retransmission. But should we trust the user on that?
}
else
{
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::var(inFace) = ll::bind (&CcnxPitEntry::AddIncoming, ll::_1, incomingFace));
}
// NS_LOG_DEBUG ("IsRetx: " << isRetransmitted);
// NS_LOG_DEBUG (*m_pit);
// update PIT entry lifetime
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::UpdateLifetime, ll::_1,
header->GetInterestLifetime ()));
if (outFace != pitEntry.m_outgoing.end ())
{
NS_LOG_DEBUG ("Non duplicate interests from the face we have sent interest to. Don't suppress");
// got a non-duplicate interest from the face we have sent interest to
// Probably, there is no point in waiting data from that face... Not sure yet
// If we're expecting data from the interface we got the interest from ("producer" asks us for "his own" data)
// Mark interface YELLOW, but keep a small hope that data will come eventually.
// ?? not sure if we need to do that ?? ...
m_fib->m_fib.modify(m_fib->m_fib.iterator_to (pitEntry.m_fibEntry),
ll::bind (&CcnxFibEntry::UpdateStatus,
ll::_1, incomingFace, CcnxFibFaceMetric::NDN_FIB_YELLOW));
}
else
if (!isNew && !isRetransmitted)
{
// Suppress this interest if we're still expecting data from some other face
NS_LOG_DEBUG ("Suppress interests");
m_dropInterests (header, SUPPRESSED, incomingFace);
return;
}
/////////////////////////////////////////////////////////////////////
// Propagate
/////////////////////////////////////////////////////////////////////
NS_ASSERT_MSG (m_forwardingStrategy != 0, "Need a forwarding protocol object to process packets");
bool propagated = m_forwardingStrategy->
PropagateInterest (pitEntry, incomingFace, header, packet);
if (isRetransmitted) //give another chance if retransmitted
{
// increase max number of allowed retransmissions
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::IncreaseAllowedRetxCount, ll::_1));
// try again
propagated = m_forwardingStrategy->
PropagateInterest (pitEntry, incomingFace, header, packet);
}
// ForwardingStrategy will try its best to forward packet to at least one interface.
// If no interests was propagated, then there is not other option for forwarding or
// ForwardingStrategy failed to find it.
if (!propagated)
{
NS_LOG_DEBUG ("Not propagated");
m_dropInterests (header, NO_FACES, incomingFace);
GiveUpInterest (pitEntry, header);
}
}
void
CcnxL3Protocol::OnDataDelayed (Ptr<CcnxContentObjectHeader> header,
Ptr<Packet> payload,
const Ptr<const Packet> &packet)
{
if (m_delayingDataProcessing)
{
NS_LOG_DEBUG ("Delayed processing " << header->GetName ());
// NS_LOG_DEBUG (*m_pit);
}
// 1. Lookup PIT entry
try
{
CcnxPitEntryContainer::type::iterator pitEntry = m_pit->Lookup (*header);
//satisfy all pending incoming Interests
BOOST_FOREACH (const CcnxPitEntryIncomingFace &incoming, pitEntry->m_incoming)
{
incoming.m_face->Send (packet->Copy ());
m_outData (header, payload, false, incoming.m_face);
NS_LOG_DEBUG ("Satisfy " << *incoming.m_face);
// successfull forwarded data trace
}
if (pitEntry->m_incoming.size () > 0)
{
// All incoming interests are satisfied. Remove them
m_pit->modify (pitEntry,
ll::bind (&CcnxPitEntry::ClearIncoming, ll::_1));
// Remove all outgoing faces
m_pit->modify (pitEntry,
ll::bind (&CcnxPitEntry::ClearOutgoing, ll::_1));
// Set pruning timout on PIT entry (instead of deleting the record)
m_pit->modify (pitEntry,
ll::bind (&CcnxPitEntry::SetExpireTime, ll::_1,
Simulator::Now () + m_pit->GetPitEntryPruningTimeout ()));
}
}
catch (CcnxPitEntryNotFound)
{
NS_LOG_DEBUG ("Pit entry not found (was satisfied and removed before)");
return; // do not process unsoliced data packets
}
}
// Processing ContentObjects
void
CcnxL3Protocol::OnData (const Ptr<CcnxFace> &incomingFace,
Ptr<CcnxContentObjectHeader> &header,
Ptr<Packet> &payload,
const Ptr<const Packet> &packet)
{
NS_LOG_FUNCTION (incomingFace << header->GetName () << payload << packet);
m_inData (header, payload, incomingFace);
// NS_LOG_DEBUG (*m_pit);
// 1. Lookup PIT entry
try
{
CcnxPitEntryContainer::type::iterator pitEntry = m_pit->Lookup (*header);
// Note that with MultiIndex we need to modify entries indirectly
CcnxPitEntryOutgoingFaceContainer::type::iterator out = pitEntry->m_outgoing.find (incomingFace);
// If we have sent interest for this data via this face, then update stats.
if (out != pitEntry->m_outgoing.end ())
{
m_fib->m_fib.modify (m_fib->m_fib.iterator_to (pitEntry->m_fibEntry),
ll::bind (&CcnxFibEntry::UpdateFaceRtt,
ll::_1,
incomingFace,
Simulator::Now () - out->m_sendTime));
}
else
{
// Unsolicited data, but we're interested in it... should we get it?
// Potential hole for attacks
if (m_cacheUnsolicitedData)
{
// Optimistically add or update entry in the content store
m_contentStore->Add (header, payload);
}
else
{
NS_LOG_ERROR ("Node "<< m_node->GetId() <<
". PIT entry for "<< header->GetName ()<<" is valid, "
"but outgoing entry for interface "<< boost::cref(*incomingFace) <<" doesn't exist\n");
}
// ignore unsolicited data
return;
}
// Update metric status for the incoming interface in the corresponding FIB entry
m_fib->m_fib.modify (m_fib->m_fib.iterator_to (pitEntry->m_fibEntry),
ll::bind (&CcnxFibEntry::UpdateStatus, ll::_1,
incomingFace, CcnxFibFaceMetric::NDN_FIB_GREEN));
// Add or update entry in the content store
m_contentStore->Add (header, payload);
m_pit->modify (pitEntry,
ll::bind (&CcnxPitEntry::RemoveIncoming, ll::_1, incomingFace));
if (pitEntry->m_incoming.size () == 0)
{
// Set pruning timout on PIT entry (instead of deleting the record)
m_pit->modify (pitEntry,
ll::bind (&CcnxPitEntry::SetExpireTime, ll::_1,
Simulator::Now () + m_pit->GetPitEntryPruningTimeout ()));
}
else
{
if (!m_delayingDataProcessing)
{
OnDataDelayed (header, payload, packet);
}
else
{
NS_LOG_DEBUG ("Delaying Data forwarding " << header->GetName ());
UniformVariable delay (0.0001, 0.002);
Simulator::Schedule (Seconds (delay.GetValue ()),
&CcnxL3Protocol::OnDataDelayed, this, header, payload, packet);
}
}
}
catch (CcnxPitEntryNotFound)
{
NS_LOG_DEBUG ("Pit entry not found");
if (m_cacheUnsolicitedData)
{
// Optimistically add or update entry in the content store
m_contentStore->Add (header, payload);
}
else
{
// Drop data packet if PIT entry is not found
// (unsolicited data packets should not "poison" content store)
//drop dulicated or not requested data packet
m_dropData (header, payload, UNSOLICITED, incomingFace);
}
return; // do not process unsoliced data packets
}
}
void
CcnxL3Protocol::GiveUpInterest (const CcnxPitEntry &pitEntry,
Ptr<CcnxInterestHeader> header)
{
NS_LOG_FUNCTION (this << &pitEntry);
// NS_LOG_DEBUG (*m_pit);
if (m_nacksEnabled)
{
Ptr<Packet> packet = Create<Packet> ();
header->SetNack (CcnxInterestHeader::NACK_GIVEUP_PIT);
packet->AddHeader (*header);
BOOST_FOREACH (const CcnxPitEntryIncomingFace &incoming, pitEntry.m_incoming)
{
NS_LOG_DEBUG ("Send NACK for " << boost::cref (header->GetName ()) << " to " << boost::cref (*incoming.m_face));
incoming.m_face->Send (packet->Copy ());
m_outNacks (header, incoming.m_face);
}
// All incoming interests cannot be satisfied. Remove them
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::ClearIncoming, ll::_1));
// Remove also outgoing
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::ClearOutgoing, ll::_1));
// Set pruning timout on PIT entry (instead of deleting the record)
m_pit->modify (m_pit->iterator_to (pitEntry),
ll::bind (&CcnxPitEntry::SetExpireTime, ll::_1,
Simulator::Now () + m_pit->GetPitEntryPruningTimeout ()));
}
}
} //namespace ns3