daemon/fw/self-learning-strategy.cpp - NFD - Gitiles

 /* -*- 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 "self-learning-strategy.hpp"
 #include "algorithm.hpp"

 #include "core/logger.hpp"
 #include "core/global-io.hpp"
 #include "rib/service.hpp"

 #include <ndn-cxx/lp/empty-value.hpp>
 #include <ndn-cxx/lp/prefix-announcement-header.hpp>
 #include <ndn-cxx/lp/tags.hpp>

 #include <boost/range/adaptor/reversed.hpp>

 namespace nfd {
 namespace fw {

 NFD_LOG_INIT(SelfLearningStrategy);
 NFD_REGISTER_STRATEGY(SelfLearningStrategy);

 const time::milliseconds SelfLearningStrategy::ROUTE_RENEW_LIFETIME(600_s);

 SelfLearningStrategy::SelfLearningStrategy(Forwarder& forwarder, const Name& name)
   : Strategy(forwarder)
 {
   ParsedInstanceName parsed = parseInstanceName(name);
   if (!parsed.parameters.empty()) {
     NDN_THROW(std::invalid_argument("SelfLearningStrategy does not accept parameters"));
   }
   if (parsed.version && *parsed.version != getStrategyName()[-1].toVersion()) {
     NDN_THROW(std::invalid_argument(
       "SelfLearningStrategy does not support version " + to_string(*parsed.version)));
   }
   this->setInstanceName(makeInstanceName(name, getStrategyName()));
 }

 const Name&
 SelfLearningStrategy::getStrategyName()
 {
   static Name strategyName("/localhost/nfd/strategy/self-learning/%FD%01");
   return strategyName;
 }

 void
 SelfLearningStrategy::afterReceiveInterest(const Face& inFace, const Interest& interest,
                                            const shared_ptr<pit::Entry>& pitEntry)
 {
   const fib::Entry& fibEntry = this->lookupFib(*pitEntry);
   const fib::NextHopList& nexthops = fibEntry.getNextHops();

   bool isNonDiscovery = interest.getTag<lp::NonDiscoveryTag>() != nullptr;
   auto inRecordInfo = pitEntry->getInRecord(inFace, 0)->insertStrategyInfo<InRecordInfo>().first;
   if (isNonDiscovery) { // "non-discovery" Interest
     inRecordInfo->isNonDiscoveryInterest = true;
     if (nexthops.empty()) { // return NACK if no matching FIB entry exists
       NFD_LOG_DEBUG("NACK non-discovery Interest=" << interest << " from=" << inFace.getId() << " noNextHop");
       lp::NackHeader nackHeader;
       nackHeader.setReason(lp::NackReason::NO_ROUTE);
       this->sendNack(pitEntry, inFace, nackHeader);
       this->rejectPendingInterest(pitEntry);
     }
     else { // multicast it if matching FIB entry exists
       multicastInterest(interest, inFace, pitEntry, nexthops);
     }
   }
   else { // "discovery" Interest
     inRecordInfo->isNonDiscoveryInterest = false;
     if (nexthops.empty()) { // broadcast it if no matching FIB entry exists
       broadcastInterest(interest, inFace, pitEntry);
     }
     else { // multicast it with "non-discovery" mark if matching FIB entry exists
       interest.setTag(make_shared<lp::NonDiscoveryTag>(lp::EmptyValue{}));
       multicastInterest(interest, inFace, pitEntry, nexthops);
     }
   }
 }

 void
 SelfLearningStrategy::afterReceiveData(const shared_ptr<pit::Entry>& pitEntry,
                                        const Face& inFace, const Data& data)
 {
   OutRecordInfo* outRecordInfo = pitEntry->getOutRecord(inFace, 0)->getStrategyInfo<OutRecordInfo>();
   if (outRecordInfo && outRecordInfo->isNonDiscoveryInterest) { // outgoing Interest was non-discovery
     if (!needPrefixAnn(pitEntry)) { // no need to attach a PA (common cases)
       sendDataToAll(pitEntry, inFace, data);
     }
     else { // needs a PA (to respond discovery Interest)
       asyncProcessData(pitEntry, inFace, data);
     }
   }
   else { // outgoing Interest was discovery
     auto paTag = data.getTag<lp::PrefixAnnouncementTag>();
     if (paTag != nullptr) {
       addRoute(pitEntry, inFace, data, *paTag->get().getPrefixAnn());
     }
     else { // Data contains no PrefixAnnouncement, upstreams do not support self-learning
     }
     sendDataToAll(pitEntry, inFace, data);
   }
 }

 void
 SelfLearningStrategy::afterReceiveNack(const Face& inFace, const lp::Nack& nack,
                                        const shared_ptr<pit::Entry>& pitEntry)
 {
   NFD_LOG_DEBUG("Nack for " << nack.getInterest() << " from=" << inFace.getId() << ": " << nack.getReason());
   if (nack.getReason() == lp::NackReason::NO_ROUTE) { // remove FIB entries
     BOOST_ASSERT(this->lookupFib(*pitEntry).hasNextHops());
     NFD_LOG_DEBUG("Send NACK to all downstreams");
     this->sendNacks(pitEntry, nack.getHeader());
     renewRoute(nack.getInterest().getName(), inFace.getId(), 0_ms);
   }
 }

 void
 SelfLearningStrategy::broadcastInterest(const Interest& interest, const Face& inFace,
                                         const shared_ptr<pit::Entry>& pitEntry)
 {
   for (auto& outFace : this->getFaceTable() | boost::adaptors::reversed) {
     if ((outFace.getId() == inFace.getId() && outFace.getLinkType() != ndn::nfd::LINK_TYPE_AD_HOC) ||
         wouldViolateScope(inFace, interest, outFace) || outFace.getScope() == ndn::nfd::FACE_SCOPE_LOCAL) {
       continue;
     }
     this->sendInterest(pitEntry, outFace, interest);
     pitEntry->getOutRecord(outFace, 0)->insertStrategyInfo<OutRecordInfo>().first->isNonDiscoveryInterest = false;
     NFD_LOG_DEBUG("send discovery Interest=" << interest << " from="
                   << inFace.getId() << " to=" << outFace.getId());
   }
 }

 void
 SelfLearningStrategy::multicastInterest(const Interest& interest, const Face& inFace,
                                         const shared_ptr<pit::Entry>& pitEntry,
                                         const fib::NextHopList& nexthops)
 {
   for (const auto& nexthop : nexthops) {
     Face& outFace = nexthop.getFace();
     if ((outFace.getId() == inFace.getId() && outFace.getLinkType() != ndn::nfd::LINK_TYPE_AD_HOC) ||
         wouldViolateScope(inFace, interest, outFace)) {
       continue;
     }
     this->sendInterest(pitEntry, outFace, interest);
     pitEntry->getOutRecord(outFace, 0)->insertStrategyInfo<OutRecordInfo>().first->isNonDiscoveryInterest = true;
     NFD_LOG_DEBUG("send non-discovery Interest=" << interest << " from="
                   << inFace.getId() << " to=" << outFace.getId());
   }
 }

 void
 SelfLearningStrategy::asyncProcessData(const shared_ptr<pit::Entry>& pitEntry, const Face& inFace, const Data& data)
 {
   // Given that this processing is asynchronous, the PIT entry's expiry timer is extended first
   // to ensure that the entry will not be removed before the whole processing is finished
   // (the PIT entry's expiry timer was set to 0 before dispatching)
   this->setExpiryTimer(pitEntry, 1_s);

   runOnRibIoService([pitEntryWeak = weak_ptr<pit::Entry>{pitEntry}, inFaceId = inFace.getId(), data, this] {
     rib::Service::get().getRibManager().slFindAnn(data.getName(),
       [pitEntryWeak, inFaceId, data, this] (optional<ndn::PrefixAnnouncement> paOpt) {
         if (paOpt) {
           runOnMainIoService([pitEntryWeak, inFaceId, data, pa = std::move(*paOpt), this] {
             auto pitEntry = pitEntryWeak.lock();
             auto inFace = this->getFace(inFaceId);
             if (pitEntry && inFace) {
               NFD_LOG_DEBUG("found PrefixAnnouncement=" << pa.getAnnouncedName());
               data.setTag(make_shared<lp::PrefixAnnouncementTag>(lp::PrefixAnnouncementHeader(pa)));
               this->sendDataToAll(pitEntry, *inFace, data);
               this->setExpiryTimer(pitEntry, 0_ms);
             }
             else {
               NFD_LOG_DEBUG("PIT entry or Face no longer exists");
             }
           });
         }
     });
   });
 }

 bool
 SelfLearningStrategy::needPrefixAnn(const shared_ptr<pit::Entry>& pitEntry)
 {
   bool hasDiscoveryInterest = false;
   bool directToConsumer = true;

   auto now = time::steady_clock::now();
   for (const auto& inRecord : pitEntry->getInRecords()) {
     if (inRecord.getExpiry() > now) {
       InRecordInfo* inRecordInfo = inRecord.getStrategyInfo<InRecordInfo>();
       if (inRecordInfo && !inRecordInfo->isNonDiscoveryInterest) {
         hasDiscoveryInterest = true;
       }
       if (inRecord.getFace().getScope() != ndn::nfd::FACE_SCOPE_LOCAL) {
         directToConsumer = false;
       }
     }
   }
   return hasDiscoveryInterest && !directToConsumer;
 }

 void
 SelfLearningStrategy::addRoute(const shared_ptr<pit::Entry>& pitEntry, const Face& inFace,
                                const Data& data, const ndn::PrefixAnnouncement& pa)
 {
   runOnRibIoService([pitEntryWeak = weak_ptr<pit::Entry>{pitEntry}, inFaceId = inFace.getId(), data, pa] {
     rib::Service::get().getRibManager().slAnnounce(pa, inFaceId, ROUTE_RENEW_LIFETIME,
       [] (rib::RibManager::SlAnnounceResult res) {
         NFD_LOG_DEBUG("Add route via PrefixAnnouncement with result=" << res);
       });
   });
 }

 void
 SelfLearningStrategy::renewRoute(const Name& name, FaceId inFaceId, time::milliseconds maxLifetime)
 {
   // renew route with PA or ignore PA (if route has no PA)
   runOnRibIoService([name, inFaceId, maxLifetime] {
     rib::Service::get().getRibManager().slRenew(name, inFaceId, maxLifetime,
       [] (rib::RibManager::SlAnnounceResult res) {
         NFD_LOG_DEBUG("Renew route with result=" << res);
       });
   });
 }

 } // namespace fw
 } // namespace nfd
	/* -- 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 "self-learning-strategy.hpp"
	#include "algorithm.hpp"

	#include "core/logger.hpp"
	#include "core/global-io.hpp"
	#include "rib/service.hpp"

	#include <ndn-cxx/lp/empty-value.hpp>
	#include <ndn-cxx/lp/prefix-announcement-header.hpp>
	#include <ndn-cxx/lp/tags.hpp>

	#include <boost/range/adaptor/reversed.hpp>

	namespace nfd {
	namespace fw {

	NFD_LOG_INIT(SelfLearningStrategy);
	NFD_REGISTER_STRATEGY(SelfLearningStrategy);

	const time::milliseconds SelfLearningStrategy::ROUTE_RENEW_LIFETIME(600_s);

	SelfLearningStrategy::SelfLearningStrategy(Forwarder& forwarder, const Name& name)
	: Strategy(forwarder)
	{
	ParsedInstanceName parsed = parseInstanceName(name);
	if (!parsed.parameters.empty()) {
	NDN_THROW(std::invalid_argument("SelfLearningStrategy does not accept parameters"));
	}
	if (parsed.version && *parsed.version != getStrategyName()[-1].toVersion()) {
	NDN_THROW(std::invalid_argument(
	"SelfLearningStrategy does not support version " + to_string(*parsed.version)));
	}
	this->setInstanceName(makeInstanceName(name, getStrategyName()));
	}

	const Name&
	SelfLearningStrategy::getStrategyName()
	{
	static Name strategyName("/localhost/nfd/strategy/self-learning/%FD%01");
	return strategyName;
	}

	void
	SelfLearningStrategy::afterReceiveInterest(const Face& inFace, const Interest& interest,
	const shared_ptr<pit::Entry>& pitEntry)
	{
	const fib::Entry& fibEntry = this->lookupFib(*pitEntry);
	const fib::NextHopList& nexthops = fibEntry.getNextHops();

	bool isNonDiscovery = interest.getTag<lp::NonDiscoveryTag>() != nullptr;
	auto inRecordInfo = pitEntry->getInRecord(inFace, 0)->insertStrategyInfo<InRecordInfo>().first;
	if (isNonDiscovery) { // "non-discovery" Interest
	inRecordInfo->isNonDiscoveryInterest = true;
	if (nexthops.empty()) { // return NACK if no matching FIB entry exists
	NFD_LOG_DEBUG("NACK non-discovery Interest=" << interest << " from=" << inFace.getId() << " noNextHop");
	lp::NackHeader nackHeader;
	nackHeader.setReason(lp::NackReason::NO_ROUTE);
	this->sendNack(pitEntry, inFace, nackHeader);
	this->rejectPendingInterest(pitEntry);
	}
	else { // multicast it if matching FIB entry exists
	multicastInterest(interest, inFace, pitEntry, nexthops);
	}
	}
	else { // "discovery" Interest
	inRecordInfo->isNonDiscoveryInterest = false;
	if (nexthops.empty()) { // broadcast it if no matching FIB entry exists
	broadcastInterest(interest, inFace, pitEntry);
	}
	else { // multicast it with "non-discovery" mark if matching FIB entry exists
	interest.setTag(make_shared<lp::NonDiscoveryTag>(lp::EmptyValue{}));
	multicastInterest(interest, inFace, pitEntry, nexthops);
	}
	}
	}

	void
	SelfLearningStrategy::afterReceiveData(const shared_ptr<pit::Entry>& pitEntry,
	const Face& inFace, const Data& data)
	{
	OutRecordInfo* outRecordInfo = pitEntry->getOutRecord(inFace, 0)->getStrategyInfo<OutRecordInfo>();
	if (outRecordInfo && outRecordInfo->isNonDiscoveryInterest) { // outgoing Interest was non-discovery
	if (!needPrefixAnn(pitEntry)) { // no need to attach a PA (common cases)
	sendDataToAll(pitEntry, inFace, data);
	}
	else { // needs a PA (to respond discovery Interest)
	asyncProcessData(pitEntry, inFace, data);
	}
	}
	else { // outgoing Interest was discovery
	auto paTag = data.getTag<lp::PrefixAnnouncementTag>();
	if (paTag != nullptr) {
	addRoute(pitEntry, inFace, data, *paTag->get().getPrefixAnn());
	}
	else { // Data contains no PrefixAnnouncement, upstreams do not support self-learning
	}
	sendDataToAll(pitEntry, inFace, data);
	}
	}

	void
	SelfLearningStrategy::afterReceiveNack(const Face& inFace, const lp::Nack& nack,
	const shared_ptr<pit::Entry>& pitEntry)
	{
	NFD_LOG_DEBUG("Nack for " << nack.getInterest() << " from=" << inFace.getId() << ": " << nack.getReason());
	if (nack.getReason() == lp::NackReason::NO_ROUTE) { // remove FIB entries
	BOOST_ASSERT(this->lookupFib(*pitEntry).hasNextHops());
	NFD_LOG_DEBUG("Send NACK to all downstreams");
	this->sendNacks(pitEntry, nack.getHeader());
	renewRoute(nack.getInterest().getName(), inFace.getId(), 0_ms);
	}
	}

	void
	SelfLearningStrategy::broadcastInterest(const Interest& interest, const Face& inFace,
	const shared_ptr<pit::Entry>& pitEntry)
	{
	for (auto& outFace : this->getFaceTable() \| boost::adaptors::reversed) {
	if ((outFace.getId() == inFace.getId() && outFace.getLinkType() != ndn::nfd::LINK_TYPE_AD_HOC) \|\|
	wouldViolateScope(inFace, interest, outFace) \|\| outFace.getScope() == ndn::nfd::FACE_SCOPE_LOCAL) {
	continue;
	}
	this->sendInterest(pitEntry, outFace, interest);
	pitEntry->getOutRecord(outFace, 0)->insertStrategyInfo<OutRecordInfo>().first->isNonDiscoveryInterest = false;
	NFD_LOG_DEBUG("send discovery Interest=" << interest << " from="
	<< inFace.getId() << " to=" << outFace.getId());
	}
	}

	void
	SelfLearningStrategy::multicastInterest(const Interest& interest, const Face& inFace,
	const shared_ptr<pit::Entry>& pitEntry,
	const fib::NextHopList& nexthops)
	{
	for (const auto& nexthop : nexthops) {
	Face& outFace = nexthop.getFace();
	if ((outFace.getId() == inFace.getId() && outFace.getLinkType() != ndn::nfd::LINK_TYPE_AD_HOC) \|\|
	wouldViolateScope(inFace, interest, outFace)) {
	continue;
	}
	this->sendInterest(pitEntry, outFace, interest);
	pitEntry->getOutRecord(outFace, 0)->insertStrategyInfo<OutRecordInfo>().first->isNonDiscoveryInterest = true;
	NFD_LOG_DEBUG("send non-discovery Interest=" << interest << " from="
	<< inFace.getId() << " to=" << outFace.getId());
	}
	}

	void
	SelfLearningStrategy::asyncProcessData(const shared_ptr<pit::Entry>& pitEntry, const Face& inFace, const Data& data)
	{
	// Given that this processing is asynchronous, the PIT entry's expiry timer is extended first
	// to ensure that the entry will not be removed before the whole processing is finished
	// (the PIT entry's expiry timer was set to 0 before dispatching)
	this->setExpiryTimer(pitEntry, 1_s);

	runOnRibIoService([pitEntryWeak = weak_ptr<pit::Entry>{pitEntry}, inFaceId = inFace.getId(), data, this] {
	rib::Service::get().getRibManager().slFindAnn(data.getName(),
	[pitEntryWeak, inFaceId, data, this] (optional<ndn::PrefixAnnouncement> paOpt) {
	if (paOpt) {
	runOnMainIoService([pitEntryWeak, inFaceId, data, pa = std::move(*paOpt), this] {
	auto pitEntry = pitEntryWeak.lock();
	auto inFace = this->getFace(inFaceId);
	if (pitEntry && inFace) {
	NFD_LOG_DEBUG("found PrefixAnnouncement=" << pa.getAnnouncedName());
	data.setTag(make_shared<lp::PrefixAnnouncementTag>(lp::PrefixAnnouncementHeader(pa)));
	this->sendDataToAll(pitEntry, *inFace, data);
	this->setExpiryTimer(pitEntry, 0_ms);
	}
	else {
	NFD_LOG_DEBUG("PIT entry or Face no longer exists");
	}
	});
	}
	});
	});
	}

	bool
	SelfLearningStrategy::needPrefixAnn(const shared_ptr<pit::Entry>& pitEntry)
	{
	bool hasDiscoveryInterest = false;
	bool directToConsumer = true;

	auto now = time::steady_clock::now();
	for (const auto& inRecord : pitEntry->getInRecords()) {
	if (inRecord.getExpiry() > now) {
	InRecordInfo* inRecordInfo = inRecord.getStrategyInfo<InRecordInfo>();
	if (inRecordInfo && !inRecordInfo->isNonDiscoveryInterest) {
	hasDiscoveryInterest = true;
	}
	if (inRecord.getFace().getScope() != ndn::nfd::FACE_SCOPE_LOCAL) {
	directToConsumer = false;
	}
	}
	}
	return hasDiscoveryInterest && !directToConsumer;
	}

	void
	SelfLearningStrategy::addRoute(const shared_ptr<pit::Entry>& pitEntry, const Face& inFace,
	const Data& data, const ndn::PrefixAnnouncement& pa)
	{
	runOnRibIoService([pitEntryWeak = weak_ptr<pit::Entry>{pitEntry}, inFaceId = inFace.getId(), data, pa] {
	rib::Service::get().getRibManager().slAnnounce(pa, inFaceId, ROUTE_RENEW_LIFETIME,
	[] (rib::RibManager::SlAnnounceResult res) {
	NFD_LOG_DEBUG("Add route via PrefixAnnouncement with result=" << res);
	});
	});
	}

	void
	SelfLearningStrategy::renewRoute(const Name& name, FaceId inFaceId, time::milliseconds maxLifetime)
	{
	// renew route with PA or ignore PA (if route has no PA)
	runOnRibIoService([name, inFaceId, maxLifetime] {
	rib::Service::get().getRibManager().slRenew(name, inFaceId, maxLifetime,
	[] (rib::RibManager::SlAnnounceResult res) {
	NFD_LOG_DEBUG("Renew route with result=" << res);
	});
	});
	}

	} // namespace fw
	} // namespace nfd