Gitiles
Code Review Sign In
gerrit.named-data.net / ndnSIM / b1ec249f05bff0c2fbdd894330993f0a785b5967 / . / model / fw / per-fib-limits.cc
blob: 5c2d3a2404379463841b046817ad63b51474ba19 [file] [log] [blame]
/* -*- 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>
*/
#include "per-fib-limits.h"
#include "ns3/ndn-l3-protocol.h"
#include "ns3/ndn-interest-header.h"
#include "ns3/ndn-content-object-header.h"
#include "ns3/ndn-pit.h"
#include "ns3/ndn-pit-entry.h"
#include "ns3/assert.h"
#include "ns3/log.h"
#include "ns3/simulator.h"
#include "ns3/random-variable.h"
#include "ns3/double.h"
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/lambda/lambda.hpp>
#include <boost/lambda/bind.hpp>
namespace ll = boost::lambda;
NS_LOG_COMPONENT_DEFINE ("ndn.fw.PerFibLimits");
namespace ns3 {
namespace ndn {
namespace fw {
NS_OBJECT_ENSURE_REGISTERED (PerFibLimits);
TypeId
PerFibLimits::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::ndn::fw::PerFibLimits")
.SetGroupName ("Ndn")
.SetParent <super> ()
.AddConstructor <PerFibLimits> ()
;
return tid;
}
PerFibLimits::PerFibLimits ()
{
}
void
PerFibLimits::DoDispose ()
{
m_announceEvent.Cancel ();
super::DoDispose ();
}
void
PerFibLimits::NotifyNewAggregate ()
{
super::NotifyNewAggregate ();
if (m_pit != 0 && m_fib != 0)
{
m_announceEvent = Simulator::Schedule (Seconds (1.0),
&PerFibLimits::AnnounceLimits, this);
}
}
void
PerFibLimits::RemoveFace (Ptr<Face> face)
{
for (PitQueueMap::iterator item = m_pitQueues.begin ();
item != m_pitQueues.end ();
item ++)
{
item->second.Remove (face);
}
m_pitQueues.erase (face);
super::RemoveFace (face);
}
void
PerFibLimits::OnInterest (Ptr<Face> face,
Ptr<const InterestHeader> header,
Ptr<const Packet> origPacket)
{
if (header->GetScope () != 0)
super::OnInterest (face, header, origPacket);
else
ApplyAnnouncedLimit (face, header);
}
bool
PerFibLimits::TrySendOutInterest (Ptr<Face> inFace,
Ptr<Face> outFace,
Ptr<const InterestHeader> header,
Ptr<const Packet> origPacket,
Ptr<pit::Entry> pitEntry)
{
NS_LOG_FUNCTION (this << pitEntry->GetPrefix ());
// totally override all (if any) parent processing
if (pitEntry->GetFwTag<PitQueueTag> () != boost::shared_ptr<PitQueueTag> ())
{
pitEntry->UpdateLifetime (Seconds (0.10));
NS_LOG_DEBUG ("Packet is still in queue and is waiting for its processing");
return true; // already in the queue
}
if (header->GetInterestLifetime () < Seconds (0.1))
{
NS_LOG_DEBUG( "What the fuck? Why interest lifetime is so short? [" << header->GetInterestLifetime ().ToDouble (Time::S) << "s]");
}
pit::Entry::out_iterator outgoing =
pitEntry->GetOutgoing ().find (outFace);
if (outgoing != pitEntry->GetOutgoing ().end ())
{
// just suppress without any other action
return false;
}
NS_LOG_DEBUG ("Limit: " << outFace->GetLimits ().m_curMaxLimit << ", outstanding: " << outFace->GetLimits ().m_outstanding);
if (outFace->GetLimits ().IsBelowLimit ())
{
pitEntry->AddOutgoing (outFace);
//transmission
Ptr<Packet> packetToSend = origPacket->Copy ();
outFace->Send (packetToSend);
DidSendOutInterest (outFace, header, origPacket, pitEntry);
return true;
}
else
{
NS_LOG_DEBUG ("Face limit for " << header->GetName ());
}
// hack
// offset lifetime, so we don't keep entries in queue for too long
// pitEntry->OffsetLifetime (Seconds (0.010) + );
// std::cerr << (pitEntry->GetExpireTime () - Simulator::Now ()).ToDouble (Time::S) * 1000 << "ms" << std::endl;
pitEntry->OffsetLifetime (Seconds (-pitEntry->GetInterest ()->GetInterestLifetime ().ToDouble (Time::S)));
pitEntry->UpdateLifetime (Seconds (0.10));
// const ndnSIM::LoadStatsFace &stats = GetStatsTree ()[header->GetName ()].incoming ().find (inFace)->second;
// const ndnSIM::LoadStatsFace &stats = GetStatsTree ()["/"].incoming ().find (inFace)->second;
// double weight = std::min (1.0, stats.GetSatisfiedRatio ().get<0> ());
bool enqueued = m_pitQueues[outFace].Enqueue (inFace, pitEntry, 1);
if (enqueued)
{
NS_LOG_DEBUG ("PIT entry is enqueued for delayed processing. Telling that we forwarding possible");
return true;
}
else
return false;
}
void
PerFibLimits::WillEraseTimedOutPendingInterest (Ptr<pit::Entry> pitEntry)
{
NS_LOG_FUNCTION (this << pitEntry->GetPrefix ());
super::WillEraseTimedOutPendingInterest (pitEntry);
// if (pitEntry->GetOutgoing ().size () == 0)
// {
// Ptr<InterestHeader> nackHeader = Create<InterestHeader> (*pitEntry->GetInterest ());
// NS_ASSERT (pitEntry->GetFwTag<PitQueueTag> () != boost::shared_ptr<PitQueueTag> ());
// if (pitEntry->GetFwTag<PitQueueTag> ()->IsLastOneInQueues ())
// {
// nackHeader->SetNack (100);
// }
// else
// {
// nackHeader->SetNack (101);
// }
// Ptr<Packet> pkt = Create<Packet> ();
// pkt->AddHeader (*nackHeader);
// for (pit::Entry::in_container::iterator face = pitEntry->GetIncoming ().begin ();
// face != pitEntry->GetIncoming ().end ();
// face ++)
// {
// face->m_face->Send (pkt->Copy ());
// }
// }
PitQueue::Remove (pitEntry);
for (pit::Entry::out_container::iterator face = pitEntry->GetOutgoing ().begin ();
face != pitEntry->GetOutgoing ().end ();
face ++)
{
face->m_face->GetLimits ().RemoveOutstanding ();
}
ProcessFromQueue ();
}
void
PerFibLimits::WillSatisfyPendingInterest (Ptr<Face> inFace,
Ptr<pit::Entry> pitEntry)
{
NS_LOG_FUNCTION (this << pitEntry->GetPrefix ());
super::WillSatisfyPendingInterest (inFace, pitEntry);
PitQueue::Remove (pitEntry);
for (pit::Entry::out_container::iterator face = pitEntry->GetOutgoing ().begin ();
face != pitEntry->GetOutgoing ().end ();
face ++)
{
face->m_face->GetLimits ().RemoveOutstanding ();
}
ProcessFromQueue ();
}
void
PerFibLimits::ProcessFromQueue ()
{
NS_LOG_FUNCTION (this);
for (PitQueueMap::iterator queue = m_pitQueues.begin ();
queue != m_pitQueues.end ();
queue++)
{
Ptr<Face> outFace = queue->first;
NS_LOG_DEBUG ("Processing " << *outFace);
while (!queue->second.IsEmpty () && outFace->GetLimits ().IsBelowLimit ())
{
// now we have enqueued packet and have slot available. Send out delayed packet
Ptr<pit::Entry> pitEntry = queue->second.Pop ();
if (pitEntry == 0)
{
outFace->GetLimits ().RemoveOutstanding ();
NS_LOG_DEBUG ("Though there are Interests in queue, weighted round robin decided that packet is not allowed yet");
break;
}
// hack
// offset lifetime back, so PIT entry wouldn't prematurely expire
// std::cerr << Simulator::GetContext () << ", Lifetime before " << (pitEntry->GetExpireTime () - Simulator::Now ()).ToDouble (Time::S) << "s" << std::endl;
pitEntry->OffsetLifetime (Seconds (-0.10) + Seconds (pitEntry->GetInterest ()->GetInterestLifetime ().ToDouble (Time::S)));
// std::cerr << Simulator::GetContext () << ", Lifetime after " << (pitEntry->GetExpireTime () - Simulator::Now ()).ToDouble (Time::S) << "s" << std::endl;
pitEntry->AddOutgoing (outFace);
Ptr<Packet> packetToSend = Create<Packet> ();
Ptr<InterestHeader> header = Create<InterestHeader> (*pitEntry->GetInterest ());
NS_LOG_DEBUG ("Adjust interest lifetime to " << pitEntry->GetExpireTime () - Simulator::Now () << "s");
// header->SetInterestLifetime (
// // header->GetInterestLifetime () - ()
// pitEntry->GetExpireTime () - Simulator::Now ()
// );
// std::cerr << "New lifetime: " << (pitEntry->GetExpireTime () - Simulator::Now ()).ToDouble (Time::S) << "s" << std::endl;
packetToSend->AddHeader (*header);
NS_LOG_DEBUG ("Delayed sending for " << pitEntry->GetPrefix ());
outFace->Send (packetToSend);
DidSendOutInterest (outFace, pitEntry->GetInterest (), packetToSend, pitEntry);
}
}
}
void
PerFibLimits::DidReceiveValidNack (Ptr<Face> inFace,
uint32_t nackCode,
Ptr<pit::Entry> pitEntry)
{
// super::DidReceiveValidNack (inFace, nackCode, pitEntry);
// // NS_LOG_FUNCTION (this << pitEntry->GetPrefix ());
// PitQueue::Remove (pitEntry);
// Ptr<InterestHeader> nackHeader = Create<InterestHeader> (*pitEntry->GetInterest ());
// // nackHeader->SetNack (100);
// Ptr<Packet> pkt = Create<Packet> ();
// pkt->AddHeader (*nackHeader);
// for (pit::Entry::in_container::iterator face = pitEntry->GetIncoming ().begin ();
// face != pitEntry->GetIncoming ().end ();
// face ++)
// {
// face->m_face->Send (pkt->Copy ());
// }
// for (pit::Entry::out_container::iterator face = pitEntry->GetOutgoing ().begin ();
// face != pitEntry->GetOutgoing ().end ();
// face ++)
// {
// face->m_face->GetLimits ().RemoveOutstanding ();
// }
// m_pit->MarkErased (pitEntry);
// ProcessFromQueue ();
}
void
PerFibLimits::AnnounceLimits ()
{
Ptr<L3Protocol> l3 = GetObject<L3Protocol> ();
NS_ASSERT (l3 != 0);
if (l3->GetNFaces () < 2)
{
m_announceEvent = Simulator::Schedule (Seconds (1.0),
&PerFibLimits::AnnounceLimits, this);
return;
}
double sumOfWeights = 0;
double weightNormalization = 1.0;
for (uint32_t faceId = 0; faceId < l3->GetNFaces (); faceId ++)
{
Ptr<Face> inFace = l3->GetFace (faceId);
const ndnSIM::LoadStatsFace &stats = GetStatsTree ()["/"].incoming ().find (inFace)->second;
double weight = std::min (1.0, stats.GetSatisfiedRatio ().get<0> ());
if (weight < 0) weight = 0.5;
sumOfWeights += weight;
}
if (sumOfWeights >= 1)
{
// disable normalization (not necessary)
weightNormalization = 1.0;
}
else
{
// sumOfWeights /= (l3->GetNFaces ());
weightNormalization = 1 / sumOfWeights;
}
for (Ptr<fib::Entry> entry = m_fib->Begin ();
entry != m_fib->End ();
entry = m_fib->Next (entry))
{
InterestHeader announceInterest;
announceInterest.SetScope (0); // link-local
uint32_t totalAllowance = 0;
for (fib::FaceMetricContainer::type::iterator fibFace = entry->m_faces.begin ();
fibFace != entry->m_faces.end ();
fibFace ++)
{
totalAllowance += fibFace->m_face->GetLimits ().GetMaxLimit ();
}
if (totalAllowance == 0)
{
// don't announce anything, there is no limit
continue;
}
for (uint32_t faceId = 0; faceId < l3->GetNFaces (); faceId ++)
{
Ptr<Face> inFace = l3->GetFace (faceId);
const ndnSIM::LoadStatsFace &stats = GetStatsTree ()["/"].incoming ().find (inFace)->second;
double weight = std::min (1.0, stats.GetSatisfiedRatio ().get<0> ());
if (weight < 0) weight = 0.5;
Ptr<NameComponents> prefixWithLimit = Create<NameComponents> (entry->GetPrefix ());
(*prefixWithLimit)
("limit")
(static_cast<uint32_t> (std::max (1.0, weightNormalization * weight * totalAllowance)));
announceInterest.SetName (prefixWithLimit);
// lifetime is 0
Ptr<Packet> pkt = Create<Packet> ();
pkt->AddHeader (announceInterest);
inFace->Send (pkt);
}
}
m_announceEvent = Simulator::Schedule (Seconds (1.0),
&PerFibLimits::AnnounceLimits, this);
}
void
PerFibLimits::ApplyAnnouncedLimit (Ptr<Face> inFace,
Ptr<const InterestHeader> header)
{
// Ptr<fib::Entry> fibEntry = m_fib->LongestPrefixMatch (header);
// if (fibEntry == 0)
// return;
uint32_t limit = boost::lexical_cast<uint32_t> (header->GetName ().GetLastComponent ());
inFace->GetLimits ().SetMaxLimit (limit);
// if (Simulator::GetContext () == 6 || Simulator::GetContext () == 4)
// {
// std::cerr << Simulator::Now ().ToDouble (Time::S) << "s from:" << *inFace << " " << *header << std::endl;
// std::cerr << header->GetName ().GetLastComponent () << ", " << boost::lexical_cast<uint32_t> (header->GetName ().GetLastComponent ()) << std::endl;
// }
}
} // namespace fw
} // namespace ndn
} // namespace ns3