src/route/fib.cpp - NLSR - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014-2018,  The University of Memphis,
  *                           Regents of the University of California
  *
  * This file is part of NLSR (Named-data Link State Routing).
  * See AUTHORS.md for complete list of NLSR authors and contributors.
  *
  * NLSR 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.
  *
  * NLSR 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
  * NLSR, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  **/

 #include "fib.hpp"
 #include "adjacency-list.hpp"
 #include "conf-parameter.hpp"
 #include "logger.hpp"
 #include "nexthop-list.hpp"

 #include <map>
 #include <cmath>
 #include <algorithm>
 #include <iterator>

 namespace nlsr {

 INIT_LOGGER(route.Fib);

 const uint64_t Fib::GRACE_PERIOD = 10;

 void
 Fib::remove(const ndn::Name& name)
 {
   NLSR_LOG_DEBUG("Fib::remove called");
   std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);
   if (it != m_table.end()) {
     for (std::set<NextHop, NextHopComparator>::iterator nhit =
            (it->second).getNexthopList().getNextHops().begin();
          nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
       //remove entry from NDN-FIB
       // Only unregister the prefix if it ISN'T a neighbor.
       if (isPrefixUpdatable((it->second).getName())) {
         unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
       }
     }
     cancelEntryRefresh(it->second);
     m_table.erase(it);
   }
 }

 void
 Fib::addNextHopsToFibEntryAndNfd(FibEntry& entry, NexthopList& hopsToAdd)
 {
   const ndn::Name& name = entry.getName();

   for (NexthopList::iterator it = hopsToAdd.begin(); it != hopsToAdd.end(); ++it)
   {
     // Add nexthop to FIB entry
     entry.getNexthopList().addNextHop(*it);

     if (isPrefixUpdatable(name)) {
       // Add nexthop to NDN-FIB
       registerPrefix(name, ndn::FaceUri(it->getConnectingFaceUri()),
                      it->getRouteCostAsAdjustedInteger(),
                      ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
                      ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
     }
   }
 }

 void
 Fib::update(const ndn::Name& name, NexthopList& allHops)
 {
   NLSR_LOG_DEBUG("Fib::update called");

   // Get the max possible faces which is the minumum of the configuration setting and
   // the length of the list of all next hops.
   unsigned int maxFaces = getNumberOfFacesForName(allHops);

   NexthopList hopsToAdd;
   unsigned int nFaces = 0;

   // Create a list of next hops to be installed with length == maxFaces
   for (NexthopList::iterator it = allHops.begin(); it != allHops.end() && nFaces < maxFaces;
        ++it, ++nFaces) {
     hopsToAdd.addNextHop(*it);
   }

   std::map<ndn::Name, FibEntry>::iterator entryIt = m_table.find(name);

   // New FIB entry that has nextHops
   if (entryIt == m_table.end() && hopsToAdd.size() != 0) {
     NLSR_LOG_DEBUG("New FIB Entry");

     FibEntry entry(name);

     addNextHopsToFibEntryAndNfd(entry, hopsToAdd);

     m_table.emplace(name, entry);

     entryIt = m_table.find(name);
   }
   // Existing FIB entry that may or may not have nextHops
   else {
     // Existing FIB entry
     NLSR_LOG_DEBUG("Existing FIB Entry");

     // Remove empty FIB entry
     if (hopsToAdd.size() == 0) {
       remove(name);
       return;
     }

     FibEntry& entry = (entryIt->second);
     addNextHopsToFibEntryAndNfd(entry, hopsToAdd);

     std::set<NextHop, NextHopComparator> hopsToRemove;
     std::set_difference(entry.getNexthopList().begin(), entry.getNexthopList().end(),
                         hopsToAdd.begin(), hopsToAdd.end(),
                         std::inserter(hopsToRemove, hopsToRemove.end()), NextHopComparator());

     bool isUpdatable = isPrefixUpdatable(entry.getName());
     // Remove the uninstalled next hops from NFD and FIB entry
     for (const auto& hop: hopsToRemove){
       if (isUpdatable) {
         unregisterPrefix(entry.getName(), hop.getConnectingFaceUri());
       }
       NLSR_LOG_DEBUG("Removing " << hop.getConnectingFaceUri() << " from " << entry.getName());
       entry.getNexthopList().removeNextHop(hop);
     }

     // Increment sequence number
     entry.setSeqNo(entry.getSeqNo() + 1);

     entryIt = m_table.find(name);

   }
   if (entryIt != m_table.end() && !entryIt->second.getRefreshEventId()) {
     scheduleEntryRefresh(entryIt->second,
                          [this] (FibEntry& entry) {
                            scheduleLoop(entry);
                          });
   }
 }

 void
 Fib::clean()
 {
   NLSR_LOG_DEBUG("Fib::clean called");
   for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
        it != m_table.end();
        ++it) {
     NLSR_LOG_DEBUG("Cancelling Scheduled event. Name: " << it->second.getName());
     cancelEntryRefresh(it->second);
     for (std::set<NextHop, NextHopComparator>::iterator nhit =
          (it->second).getNexthopList().getNextHops().begin();
          nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
       //Remove entry from NDN-FIB
       unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
     }
   }
   if (m_table.size() > 0) {
     m_table.clear();
   }
 }

 unsigned int
 Fib::getNumberOfFacesForName(NexthopList& nextHopList)
 {
   uint32_t nNextHops = static_cast<uint32_t>(nextHopList.getNextHops().size());
   uint32_t nMaxFaces = m_confParameter.getMaxFacesPerPrefix();

   // Allow all faces
   if (nMaxFaces == 0) {
     return nNextHops;
   }
   else {
     return std::min(nNextHops, nMaxFaces);
   }
 }

 bool
 Fib::isPrefixUpdatable(const ndn::Name& name) {
   if (!m_adjacencyList.isNeighbor(name)) {
     return true;
   }

   return false;
 }

 void
 Fib::registerPrefix(const ndn::Name& namePrefix, const ndn::FaceUri& faceUri,
                     uint64_t faceCost,
                     const ndn::time::milliseconds& timeout,
                     uint64_t flags, uint8_t times)
 {
   uint64_t faceId = m_adjacencyList.getFaceId(ndn::FaceUri(faceUri));

   if (faceId != 0) {
     ndn::nfd::ControlParameters faceParameters;
     faceParameters
      .setName(namePrefix)
      .setFaceId(faceId)
      .setFlags(flags)
      .setCost(faceCost)
      .setExpirationPeriod(timeout)
      .setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);

     NLSR_LOG_DEBUG("Registering prefix: " << faceParameters.getName() << " faceUri: " << faceUri);
     m_controller.start<ndn::nfd::RibRegisterCommand>(faceParameters,
                                                    std::bind(&Fib::onRegistrationSuccess, this, _1,
                                                              "Successful in name registration",
                                                              faceUri),
                                                    std::bind(&Fib::onRegistrationFailure,
                                                              this, _1,
                                                              "Failed in name registration",
                                                              faceParameters,
                                                              faceUri, times));
   }
   else {
     NLSR_LOG_WARN("Error: No Face Id for face uri: " << faceUri);
   }
 }

 void
 Fib::onRegistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
                            const std::string& message, const ndn::FaceUri& faceUri)
 {
   NLSR_LOG_DEBUG(message << ": " << commandSuccessResult.getName() <<
              " Face Uri: " << faceUri << " faceId: " << commandSuccessResult.getFaceId());

   AdjacencyList::iterator adjacent = m_adjacencyList.findAdjacent(faceUri);
   if (adjacent != m_adjacencyList.end()) {
     adjacent->setFaceId(commandSuccessResult.getFaceId());
   }

   // Update the fast-access FaceMap with the new Face ID, too
   m_faceMap.update(faceUri.toString(), commandSuccessResult.getFaceId());
   m_faceMap.writeLog();
 }

 void
 Fib::onRegistrationFailure(const ndn::nfd::ControlResponse& response,
                            const std::string& message,
                            const ndn::nfd::ControlParameters& parameters,
                            const ndn::FaceUri& faceUri,
                            uint8_t times)
 {
   NLSR_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
   NLSR_LOG_DEBUG("Prefix: " << parameters.getName() << " failed for: " << times);
   if (times < 3) {
     NLSR_LOG_DEBUG("Trying to register again...");
     registerPrefix(parameters.getName(), faceUri,
                    parameters.getCost(),
                    parameters.getExpirationPeriod(),
                    parameters.getFlags(), times+1);
   }
   else {
     NLSR_LOG_DEBUG("Registration trial given up");
   }
 }

 void
 Fib::unregisterPrefix(const ndn::Name& namePrefix, const std::string& faceUri)
 {
   uint32_t faceId = m_faceMap.getFaceId(faceUri);
   NLSR_LOG_DEBUG("Unregister prefix: " << namePrefix << " Face Uri: " << faceUri);
   if (faceId > 0) {
     ndn::nfd::ControlParameters controlParameters;
     controlParameters
       .setName(namePrefix)
       .setFaceId(faceId)
       .setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
     m_controller.start<ndn::nfd::RibUnregisterCommand>(controlParameters,
                                                        std::bind(&Fib::onUnregistrationSuccess, this, _1,
                                                                  "Successful in unregistering name"),
                                                        std::bind(&Fib::onUnregistrationFailure,
                                                                  this, _1,
                                                                  "Failed in unregistering name"));
   }
 }

 void
 Fib::onUnregistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
                              const std::string& message)
 {
   NLSR_LOG_DEBUG("Unregister successful Prefix: " << commandSuccessResult.getName() <<
              " Face Id: " << commandSuccessResult.getFaceId());
 }

 void
 Fib::onUnregistrationFailure(const ndn::nfd::ControlResponse& response,
                              const std::string& message)
 {
   NLSR_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
 }

 void
 Fib::setStrategy(const ndn::Name& name, const std::string& strategy, uint32_t count)
 {
   ndn::nfd::ControlParameters parameters;
   parameters
     .setName(name)
     .setStrategy(strategy);

   m_controller.start<ndn::nfd::StrategyChoiceSetCommand>(parameters,
                                                          std::bind(&Fib::onSetStrategySuccess, this, _1,
                                                               "Successfully set strategy choice"),
                                                          std::bind(&Fib::onSetStrategyFailure, this, _1,
                                                               parameters,
                                                               count,
                                                               "Failed to set strategy choice"));
 }

 void
 Fib::onSetStrategySuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
                          const std::string& message)
 {
   NLSR_LOG_DEBUG(message << ": " << commandSuccessResult.getStrategy() << " "
             << "for name: " << commandSuccessResult.getName());
 }

 void
 Fib::onSetStrategyFailure(const ndn::nfd::ControlResponse& response,
                           const ndn::nfd::ControlParameters& parameters,
                           uint32_t count,
                           const std::string& message)
 {
   NLSR_LOG_DEBUG(message << ": " << parameters.getStrategy() << " "
             << "for name: " << parameters.getName());
   if (count < 3) {
     setStrategy(parameters.getName(), parameters.getStrategy().toUri(),count+1);
   }
 }

 void
 Fib::scheduleEntryRefresh(FibEntry& entry, const afterRefreshCallback& refreshCallback)
 {
   NLSR_LOG_DEBUG("Scheduling refresh for " << entry.getName()
                                        << " Seq Num: " << entry.getSeqNo()
                                        << " in " << m_refreshTime << " seconds");

   entry.setRefreshEventId(m_scheduler.scheduleEvent(ndn::time::seconds(m_refreshTime),
                                                     std::bind(&Fib::refreshEntry, this,
                                                               entry.getName(), refreshCallback)));
 }

 void
 Fib::scheduleLoop(FibEntry& entry)
 {
   scheduleEntryRefresh(entry,
                        std::bind(&Fib::scheduleLoop, this, _1));
 }

 void
 Fib::cancelEntryRefresh(const FibEntry& entry)
 {
   NLSR_LOG_DEBUG("Cancelling refresh for " << entry.getName() << " Seq Num: " << entry.getSeqNo());

   m_scheduler.cancelEvent(entry.getRefreshEventId());
   entry.getRefreshEventId().reset();
 }

 void
 Fib::refreshEntry(const ndn::Name& name, afterRefreshCallback refreshCb)
 {
   std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);

   if (it == m_table.end()) {
     return;
   }

   FibEntry& entry = it->second;
   NLSR_LOG_DEBUG("Refreshing " << entry.getName() << " Seq Num: " << entry.getSeqNo());

   // Increment sequence number
     entry.setSeqNo(entry.getSeqNo() + 1);

   for (const NextHop& hop : entry) {
     registerPrefix(entry.getName(),
                    ndn::FaceUri(hop.getConnectingFaceUri()),
                    hop.getRouteCostAsAdjustedInteger(),
                    ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
                    ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
   }

   refreshCb(entry);
 }

 void
 Fib::writeLog()
 {
   NLSR_LOG_DEBUG("-------------------FIB-----------------------------");
   for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
        it != m_table.end();
        ++it) {
     (it->second).writeLog();
   }
 }

 } // namespace nlsr
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014-2018, The University of Memphis,
	* Regents of the University of California
	*
	* This file is part of NLSR (Named-data Link State Routing).
	* See AUTHORS.md for complete list of NLSR authors and contributors.
	*
	* NLSR 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.
	*
	* NLSR 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
	* NLSR, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	**/

	#include "fib.hpp"
	#include "adjacency-list.hpp"
	#include "conf-parameter.hpp"
	#include "logger.hpp"
	#include "nexthop-list.hpp"

	#include <map>
	#include <cmath>
	#include <algorithm>
	#include <iterator>

	namespace nlsr {

	INIT_LOGGER(route.Fib);

	const uint64_t Fib::GRACE_PERIOD = 10;

	void
	Fib::remove(const ndn::Name& name)
	{
	NLSR_LOG_DEBUG("Fib::remove called");
	std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);
	if (it != m_table.end()) {
	for (std::set<NextHop, NextHopComparator>::iterator nhit =
	(it->second).getNexthopList().getNextHops().begin();
	nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
	//remove entry from NDN-FIB
	// Only unregister the prefix if it ISN'T a neighbor.
	if (isPrefixUpdatable((it->second).getName())) {
	unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
	}
	}
	cancelEntryRefresh(it->second);
	m_table.erase(it);
	}
	}

	void
	Fib::addNextHopsToFibEntryAndNfd(FibEntry& entry, NexthopList& hopsToAdd)
	{
	const ndn::Name& name = entry.getName();

	for (NexthopList::iterator it = hopsToAdd.begin(); it != hopsToAdd.end(); ++it)
	{
	// Add nexthop to FIB entry
	entry.getNexthopList().addNextHop(*it);

	if (isPrefixUpdatable(name)) {
	// Add nexthop to NDN-FIB
	registerPrefix(name, ndn::FaceUri(it->getConnectingFaceUri()),
	it->getRouteCostAsAdjustedInteger(),
	ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
	ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
	}
	}
	}

	void
	Fib::update(const ndn::Name& name, NexthopList& allHops)
	{
	NLSR_LOG_DEBUG("Fib::update called");

	// Get the max possible faces which is the minumum of the configuration setting and
	// the length of the list of all next hops.
	unsigned int maxFaces = getNumberOfFacesForName(allHops);

	NexthopList hopsToAdd;
	unsigned int nFaces = 0;

	// Create a list of next hops to be installed with length == maxFaces
	for (NexthopList::iterator it = allHops.begin(); it != allHops.end() && nFaces < maxFaces;
	++it, ++nFaces) {
	hopsToAdd.addNextHop(*it);
	}

	std::map<ndn::Name, FibEntry>::iterator entryIt = m_table.find(name);

	// New FIB entry that has nextHops
	if (entryIt == m_table.end() && hopsToAdd.size() != 0) {
	NLSR_LOG_DEBUG("New FIB Entry");

	FibEntry entry(name);

	addNextHopsToFibEntryAndNfd(entry, hopsToAdd);

	m_table.emplace(name, entry);

	entryIt = m_table.find(name);
	}
	// Existing FIB entry that may or may not have nextHops
	else {
	// Existing FIB entry
	NLSR_LOG_DEBUG("Existing FIB Entry");

	// Remove empty FIB entry
	if (hopsToAdd.size() == 0) {
	remove(name);
	return;
	}

	FibEntry& entry = (entryIt->second);
	addNextHopsToFibEntryAndNfd(entry, hopsToAdd);

	std::set<NextHop, NextHopComparator> hopsToRemove;
	std::set_difference(entry.getNexthopList().begin(), entry.getNexthopList().end(),
	hopsToAdd.begin(), hopsToAdd.end(),
	std::inserter(hopsToRemove, hopsToRemove.end()), NextHopComparator());

	bool isUpdatable = isPrefixUpdatable(entry.getName());
	// Remove the uninstalled next hops from NFD and FIB entry
	for (const auto& hop: hopsToRemove){
	if (isUpdatable) {
	unregisterPrefix(entry.getName(), hop.getConnectingFaceUri());
	}
	NLSR_LOG_DEBUG("Removing " << hop.getConnectingFaceUri() << " from " << entry.getName());
	entry.getNexthopList().removeNextHop(hop);
	}

	// Increment sequence number
	entry.setSeqNo(entry.getSeqNo() + 1);

	entryIt = m_table.find(name);

	}
	if (entryIt != m_table.end() && !entryIt->second.getRefreshEventId()) {
	scheduleEntryRefresh(entryIt->second,
	[this] (FibEntry& entry) {
	scheduleLoop(entry);
	});
	}
	}

	void
	Fib::clean()
	{
	NLSR_LOG_DEBUG("Fib::clean called");
	for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
	it != m_table.end();
	++it) {
	NLSR_LOG_DEBUG("Cancelling Scheduled event. Name: " << it->second.getName());
	cancelEntryRefresh(it->second);
	for (std::set<NextHop, NextHopComparator>::iterator nhit =
	(it->second).getNexthopList().getNextHops().begin();
	nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
	//Remove entry from NDN-FIB
	unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
	}
	}
	if (m_table.size() > 0) {
	m_table.clear();
	}
	}

	unsigned int
	Fib::getNumberOfFacesForName(NexthopList& nextHopList)
	{
	uint32_t nNextHops = static_cast<uint32_t>(nextHopList.getNextHops().size());
	uint32_t nMaxFaces = m_confParameter.getMaxFacesPerPrefix();

	// Allow all faces
	if (nMaxFaces == 0) {
	return nNextHops;
	}
	else {
	return std::min(nNextHops, nMaxFaces);
	}
	}

	bool
	Fib::isPrefixUpdatable(const ndn::Name& name) {
	if (!m_adjacencyList.isNeighbor(name)) {
	return true;
	}

	return false;
	}

	void
	Fib::registerPrefix(const ndn::Name& namePrefix, const ndn::FaceUri& faceUri,
	uint64_t faceCost,
	const ndn::time::milliseconds& timeout,
	uint64_t flags, uint8_t times)
	{
	uint64_t faceId = m_adjacencyList.getFaceId(ndn::FaceUri(faceUri));

	if (faceId != 0) {
	ndn::nfd::ControlParameters faceParameters;
	faceParameters
	.setName(namePrefix)
	.setFaceId(faceId)
	.setFlags(flags)
	.setCost(faceCost)
	.setExpirationPeriod(timeout)
	.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);

	NLSR_LOG_DEBUG("Registering prefix: " << faceParameters.getName() << " faceUri: " << faceUri);
	m_controller.start<ndn::nfd::RibRegisterCommand>(faceParameters,
	std::bind(&Fib::onRegistrationSuccess, this, _1,
	"Successful in name registration",
	faceUri),
	std::bind(&Fib::onRegistrationFailure,
	this, _1,
	"Failed in name registration",
	faceParameters,
	faceUri, times));
	}
	else {
	NLSR_LOG_WARN("Error: No Face Id for face uri: " << faceUri);
	}
	}

	void
	Fib::onRegistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
	const std::string& message, const ndn::FaceUri& faceUri)
	{
	NLSR_LOG_DEBUG(message << ": " << commandSuccessResult.getName() <<
	" Face Uri: " << faceUri << " faceId: " << commandSuccessResult.getFaceId());

	AdjacencyList::iterator adjacent = m_adjacencyList.findAdjacent(faceUri);
	if (adjacent != m_adjacencyList.end()) {
	adjacent->setFaceId(commandSuccessResult.getFaceId());
	}

	// Update the fast-access FaceMap with the new Face ID, too
	m_faceMap.update(faceUri.toString(), commandSuccessResult.getFaceId());
	m_faceMap.writeLog();
	}

	void
	Fib::onRegistrationFailure(const ndn::nfd::ControlResponse& response,
	const std::string& message,
	const ndn::nfd::ControlParameters& parameters,
	const ndn::FaceUri& faceUri,
	uint8_t times)
	{
	NLSR_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
	NLSR_LOG_DEBUG("Prefix: " << parameters.getName() << " failed for: " << times);
	if (times < 3) {
	NLSR_LOG_DEBUG("Trying to register again...");
	registerPrefix(parameters.getName(), faceUri,
	parameters.getCost(),
	parameters.getExpirationPeriod(),
	parameters.getFlags(), times+1);
	}
	else {
	NLSR_LOG_DEBUG("Registration trial given up");
	}
	}

	void
	Fib::unregisterPrefix(const ndn::Name& namePrefix, const std::string& faceUri)
	{
	uint32_t faceId = m_faceMap.getFaceId(faceUri);
	NLSR_LOG_DEBUG("Unregister prefix: " << namePrefix << " Face Uri: " << faceUri);
	if (faceId > 0) {
	ndn::nfd::ControlParameters controlParameters;
	controlParameters
	.setName(namePrefix)
	.setFaceId(faceId)
	.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
	m_controller.start<ndn::nfd::RibUnregisterCommand>(controlParameters,
	std::bind(&Fib::onUnregistrationSuccess, this, _1,
	"Successful in unregistering name"),
	std::bind(&Fib::onUnregistrationFailure,
	this, _1,
	"Failed in unregistering name"));
	}
	}

	void
	Fib::onUnregistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
	const std::string& message)
	{
	NLSR_LOG_DEBUG("Unregister successful Prefix: " << commandSuccessResult.getName() <<
	" Face Id: " << commandSuccessResult.getFaceId());
	}

	void
	Fib::onUnregistrationFailure(const ndn::nfd::ControlResponse& response,
	const std::string& message)
	{
	NLSR_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
	}

	void
	Fib::setStrategy(const ndn::Name& name, const std::string& strategy, uint32_t count)
	{
	ndn::nfd::ControlParameters parameters;
	parameters
	.setName(name)
	.setStrategy(strategy);

	m_controller.start<ndn::nfd::StrategyChoiceSetCommand>(parameters,
	std::bind(&Fib::onSetStrategySuccess, this, _1,
	"Successfully set strategy choice"),
	std::bind(&Fib::onSetStrategyFailure, this, _1,
	parameters,
	count,
	"Failed to set strategy choice"));
	}

	void
	Fib::onSetStrategySuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
	const std::string& message)
	{
	NLSR_LOG_DEBUG(message << ": " << commandSuccessResult.getStrategy() << " "
	<< "for name: " << commandSuccessResult.getName());
	}

	void
	Fib::onSetStrategyFailure(const ndn::nfd::ControlResponse& response,
	const ndn::nfd::ControlParameters& parameters,
	uint32_t count,
	const std::string& message)
	{
	NLSR_LOG_DEBUG(message << ": " << parameters.getStrategy() << " "
	<< "for name: " << parameters.getName());
	if (count < 3) {
	setStrategy(parameters.getName(), parameters.getStrategy().toUri(),count+1);
	}
	}

	void
	Fib::scheduleEntryRefresh(FibEntry& entry, const afterRefreshCallback& refreshCallback)
	{
	NLSR_LOG_DEBUG("Scheduling refresh for " << entry.getName()
	<< " Seq Num: " << entry.getSeqNo()
	<< " in " << m_refreshTime << " seconds");

	entry.setRefreshEventId(m_scheduler.scheduleEvent(ndn::time::seconds(m_refreshTime),
	std::bind(&Fib::refreshEntry, this,
	entry.getName(), refreshCallback)));
	}

	void
	Fib::scheduleLoop(FibEntry& entry)
	{
	scheduleEntryRefresh(entry,
	std::bind(&Fib::scheduleLoop, this, _1));
	}

	void
	Fib::cancelEntryRefresh(const FibEntry& entry)
	{
	NLSR_LOG_DEBUG("Cancelling refresh for " << entry.getName() << " Seq Num: " << entry.getSeqNo());

	m_scheduler.cancelEvent(entry.getRefreshEventId());
	entry.getRefreshEventId().reset();
	}

	void
	Fib::refreshEntry(const ndn::Name& name, afterRefreshCallback refreshCb)
	{
	std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);

	if (it == m_table.end()) {
	return;
	}

	FibEntry& entry = it->second;
	NLSR_LOG_DEBUG("Refreshing " << entry.getName() << " Seq Num: " << entry.getSeqNo());

	// Increment sequence number
	entry.setSeqNo(entry.getSeqNo() + 1);

	for (const NextHop& hop : entry) {
	registerPrefix(entry.getName(),
	ndn::FaceUri(hop.getConnectingFaceUri()),
	hop.getRouteCostAsAdjustedInteger(),
	ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
	ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
	}

	refreshCb(entry);
	}

	void
	Fib::writeLog()
	{
	NLSR_LOG_DEBUG("-------------------FIB-----------------------------");
	for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
	it != m_table.end();
	++it) {
	(it->second).writeLog();
	}
	}

	} // namespace nlsr