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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2019, Regents of the University of California,
* Arizona Board of Regents,
* Colorado State University,
* University Pierre & Marie Curie, Sorbonne University,
* Washington University in St. Louis,
* Beijing Institute of Technology,
* The University of Memphis.
*
* This file is part of NFD (Named Data Networking Forwarding Daemon).
* See AUTHORS.md for complete list of NFD authors and contributors.
*
* NFD 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.
*
* NFD 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
* NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
*/
#include "ncc-strategy.hpp"
#include "algorithm.hpp"
#include "common/global.hpp"
#include <ndn-cxx/util/random.hpp>
namespace nfd {
namespace fw {
NFD_REGISTER_STRATEGY(NccStrategy);
const time::microseconds NccStrategy::DEFER_FIRST_WITHOUT_BEST_FACE = 4_ms;
const time::microseconds NccStrategy::DEFER_RANGE_WITHOUT_BEST_FACE = 75_ms;
const time::nanoseconds NccStrategy::MEASUREMENTS_LIFETIME = 16_s;
NccStrategy::NccStrategy(Forwarder& forwarder, const Name& name)
: Strategy(forwarder)
{
ParsedInstanceName parsed = parseInstanceName(name);
if (!parsed.parameters.empty()) {
NDN_THROW(std::invalid_argument("NccStrategy does not accept parameters"));
}
if (parsed.version && *parsed.version != getStrategyName()[-1].toVersion()) {
NDN_THROW(std::invalid_argument(
"NccStrategy does not support version " + to_string(*parsed.version)));
}
this->setInstanceName(makeInstanceName(name, getStrategyName()));
}
const Name&
NccStrategy::getStrategyName()
{
static Name strategyName("/localhost/nfd/strategy/ncc/%FD%01");
return strategyName;
}
void
NccStrategy::afterReceiveInterest(const FaceEndpoint& ingress, const Interest& interest,
const shared_ptr<pit::Entry>& pitEntry)
{
const fib::Entry& fibEntry = this->lookupFib(*pitEntry);
const fib::NextHopList& nexthops = fibEntry.getNextHops();
if (nexthops.size() == 0) {
this->rejectPendingInterest(pitEntry);
return;
}
PitEntryInfo* pitEntryInfo = pitEntry->insertStrategyInfo<PitEntryInfo>().first;
bool isNewPitEntry = !hasPendingOutRecords(*pitEntry);
if (!isNewPitEntry) {
return;
}
MeasurementsEntryInfo& meInfo = this->getMeasurementsEntryInfo(pitEntry);
time::microseconds deferFirst = DEFER_FIRST_WITHOUT_BEST_FACE;
time::microseconds deferRange = DEFER_RANGE_WITHOUT_BEST_FACE;
size_t nUpstreams = nexthops.size();
shared_ptr<Face> bestFace = meInfo.getBestFace();
if (bestFace != nullptr && fibEntry.hasNextHop(*bestFace) &&
!wouldViolateScope(ingress.face, interest, *bestFace) &&
canForwardToLegacy(*pitEntry, *bestFace)) {
// TODO Should we use `randlow = 100 + nrand48(h->seed) % 4096U;` ?
deferFirst = meInfo.prediction;
deferRange = time::microseconds((deferFirst.count() + 1) / 2);
--nUpstreams;
this->sendInterest(pitEntry, FaceEndpoint(*bestFace, 0), interest);
pitEntryInfo->bestFaceTimeout = getScheduler().schedule(meInfo.prediction,
bind(&NccStrategy::timeoutOnBestFace, this, weak_ptr<pit::Entry>(pitEntry)));
}
else {
// use first eligible nexthop
auto firstEligibleNexthop = std::find_if(nexthops.begin(), nexthops.end(),
[&] (const fib::NextHop& nexthop) {
Face& outFace = nexthop.getFace();
return !wouldViolateScope(ingress.face, interest, outFace) &&
canForwardToLegacy(*pitEntry, outFace);
});
if (firstEligibleNexthop != nexthops.end()) {
this->sendInterest(pitEntry, FaceEndpoint(firstEligibleNexthop->getFace(), 0), interest);
}
else {
this->rejectPendingInterest(pitEntry);
return;
}
}
shared_ptr<Face> previousFace = meInfo.previousFace.lock();
if (previousFace != nullptr && fibEntry.hasNextHop(*previousFace) &&
!wouldViolateScope(ingress.face, interest, *previousFace) &&
canForwardToLegacy(*pitEntry, *previousFace)) {
--nUpstreams;
}
if (nUpstreams > 0) {
pitEntryInfo->maxInterval = std::max(1_us,
time::microseconds((2 * deferRange.count() + nUpstreams - 1) / nUpstreams));
}
else {
// Normally, maxInterval is unused if there aren't any face beyond best and previousBest.
// However, in case FIB entry gains a new nexthop before doPropagate executes (bug 1853),
// this maxInterval would be used to determine when the next doPropagate would happen.
pitEntryInfo->maxInterval = deferFirst;
}
pitEntryInfo->propagateTimer = getScheduler().schedule(deferFirst,
bind(&NccStrategy::doPropagate, this, ingress.face.getId(), weak_ptr<pit::Entry>(pitEntry)));
}
void
NccStrategy::doPropagate(FaceId inFaceId, weak_ptr<pit::Entry> pitEntryWeak)
{
Face* inFace = this->getFace(inFaceId);
if (inFace == nullptr) {
return;
}
shared_ptr<pit::Entry> pitEntry = pitEntryWeak.lock();
if (pitEntry == nullptr) {
return;
}
auto inRecord = pitEntry->getInRecord(*inFace, 0);
if (inRecord == pitEntry->in_end()) {
return;
}
const Interest& interest = inRecord->getInterest();
const fib::Entry& fibEntry = this->lookupFib(*pitEntry);
PitEntryInfo* pitEntryInfo = pitEntry->getStrategyInfo<PitEntryInfo>();
// pitEntryInfo is guaranteed to exist here, because doPropagate is triggered
// from a timer set by NccStrategy.
BOOST_ASSERT(pitEntryInfo != nullptr);
MeasurementsEntryInfo& meInfo = this->getMeasurementsEntryInfo(pitEntry);
shared_ptr<Face> previousFace = meInfo.previousFace.lock();
if (previousFace != nullptr && fibEntry.hasNextHop(*previousFace) &&
!wouldViolateScope(*inFace, interest, *previousFace) &&
canForwardToLegacy(*pitEntry, *previousFace)) {
this->sendInterest(pitEntry, FaceEndpoint(*previousFace, 0), interest);
}
bool isForwarded = false;
for (const auto& nexthop : fibEntry.getNextHops()) {
Face& face = nexthop.getFace();
if (!wouldViolateScope(*inFace, interest, face) &&
canForwardToLegacy(*pitEntry, face)) {
isForwarded = true;
this->sendInterest(pitEntry, FaceEndpoint(face, 0), interest);
break;
}
}
if (isForwarded) {
std::uniform_int_distribution<time::nanoseconds::rep> dist(0, pitEntryInfo->maxInterval.count() - 1);
time::nanoseconds deferNext(dist(ndn::random::getRandomNumberEngine()));
pitEntryInfo->propagateTimer = getScheduler().schedule(deferNext,
bind(&NccStrategy::doPropagate, this, inFaceId, weak_ptr<pit::Entry>(pitEntry)));
}
}
void
NccStrategy::timeoutOnBestFace(weak_ptr<pit::Entry> pitEntryWeak)
{
shared_ptr<pit::Entry> pitEntry = pitEntryWeak.lock();
if (pitEntry == nullptr) {
return;
}
measurements::Entry* measurementsEntry = this->getMeasurements().get(*pitEntry);
for (int i = 0; i < UPDATE_MEASUREMENTS_N_LEVELS; ++i) {
if (measurementsEntry == nullptr) {
// going out of this strategy's namespace
break;
}
this->getMeasurements().extendLifetime(*measurementsEntry, MEASUREMENTS_LIFETIME);
MeasurementsEntryInfo& meInfo = this->getMeasurementsEntryInfo(measurementsEntry);
meInfo.adjustPredictUp();
measurementsEntry = this->getMeasurements().getParent(*measurementsEntry);
}
}
void
NccStrategy::beforeSatisfyInterest(const shared_ptr<pit::Entry>& pitEntry,
const FaceEndpoint& ingress, const Data& data)
{
if (!pitEntry->hasInRecords()) {
// PIT entry has already been satisfied (and is now waiting for straggler timer to expire)
// NCC does not collect measurements for non-best face
return;
}
measurements::Entry* measurementsEntry = this->getMeasurements().get(*pitEntry);
for (int i = 0; i < UPDATE_MEASUREMENTS_N_LEVELS; ++i) {
if (measurementsEntry == nullptr) {
// going out of this strategy's namespace
return;
}
this->getMeasurements().extendLifetime(*measurementsEntry, MEASUREMENTS_LIFETIME);
MeasurementsEntryInfo& meInfo = this->getMeasurementsEntryInfo(measurementsEntry);
meInfo.updateBestFace(ingress.face);
measurementsEntry = this->getMeasurements().getParent(*measurementsEntry);
}
PitEntryInfo* pitEntryInfo = pitEntry->getStrategyInfo<PitEntryInfo>();
if (pitEntryInfo != nullptr) {
pitEntryInfo->propagateTimer.cancel();
// Verify that the best face satisfied the interest before canceling the timeout call
MeasurementsEntryInfo& meInfo = this->getMeasurementsEntryInfo(pitEntry);
shared_ptr<Face> bestFace = meInfo.getBestFace();
if (bestFace.get() == &ingress.face)
pitEntryInfo->bestFaceTimeout.cancel();
}
}
NccStrategy::MeasurementsEntryInfo&
NccStrategy::getMeasurementsEntryInfo(const shared_ptr<pit::Entry>& entry)
{
measurements::Entry* measurementsEntry = this->getMeasurements().get(*entry);
return this->getMeasurementsEntryInfo(measurementsEntry);
}
NccStrategy::MeasurementsEntryInfo&
NccStrategy::getMeasurementsEntryInfo(measurements::Entry* entry)
{
BOOST_ASSERT(entry != nullptr);
MeasurementsEntryInfo* info = nullptr;
bool isNew = false;
std::tie(info, isNew) = entry->insertStrategyInfo<MeasurementsEntryInfo>();
if (!isNew) {
return *info;
}
measurements::Entry* parentEntry = this->getMeasurements().getParent(*entry);
if (parentEntry != nullptr) {
MeasurementsEntryInfo& parentInfo = this->getMeasurementsEntryInfo(parentEntry);
info->inheritFrom(parentInfo);
}
return *info;
}
const time::microseconds NccStrategy::MeasurementsEntryInfo::INITIAL_PREDICTION = 8192_us;
const time::microseconds NccStrategy::MeasurementsEntryInfo::MIN_PREDICTION = 127_us;
const time::microseconds NccStrategy::MeasurementsEntryInfo::MAX_PREDICTION = 160_ms;
NccStrategy::MeasurementsEntryInfo::MeasurementsEntryInfo()
: prediction(INITIAL_PREDICTION)
{
}
void
NccStrategy::MeasurementsEntryInfo::inheritFrom(const MeasurementsEntryInfo& other)
{
this->operator=(other);
}
shared_ptr<Face>
NccStrategy::MeasurementsEntryInfo::getBestFace()
{
shared_ptr<Face> best = this->bestFace.lock();
if (best != nullptr) {
return best;
}
this->bestFace = best = this->previousFace.lock();
return best;
}
void
NccStrategy::MeasurementsEntryInfo::updateBestFace(const Face& face)
{
if (this->bestFace.expired()) {
this->bestFace = const_cast<Face&>(face).shared_from_this();
return;
}
shared_ptr<Face> bestFace = this->bestFace.lock();
if (bestFace.get() == &face) {
this->adjustPredictDown();
}
else {
this->previousFace = this->bestFace;
this->bestFace = const_cast<Face&>(face).shared_from_this();
}
}
void
NccStrategy::MeasurementsEntryInfo::adjustPredictDown()
{
prediction = std::max(MIN_PREDICTION,
time::microseconds(prediction.count() - (prediction.count() >> ADJUST_PREDICT_DOWN_SHIFT)));
}
void
NccStrategy::MeasurementsEntryInfo::adjustPredictUp()
{
prediction = std::min(MAX_PREDICTION,
time::microseconds(prediction.count() + (prediction.count() >> ADJUST_PREDICT_UP_SHIFT)));
}
void
NccStrategy::MeasurementsEntryInfo::ageBestFace()
{
this->previousFace = this->bestFace;
this->bestFace.reset();
}
NccStrategy::PitEntryInfo::~PitEntryInfo()
{
bestFaceTimeout.cancel();
propagateTimer.cancel();
}
} // namespace fw
} // namespace nfd