Gitiles
Code Review Sign In
gerrit.named-data.net / NLSR / 0421bc6bcd239f5bd422cd2ad8087368cdc5535f / . / src / lsdb.cpp
blob: 9913751c145ae58de7cc5455f3e6d24263bbe791 [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2020, The University of Memphis,
* Regents of the University of California,
* Arizona Board of Regents.
*
* 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 "lsdb.hpp"
#include "logger.hpp"
#include "nlsr.hpp"
#include "utility/name-helper.hpp"
#include <ndn-cxx/security/signing-helpers.hpp>
namespace nlsr {
INIT_LOGGER(Lsdb);
const ndn::Name::Component Lsdb::NAME_COMPONENT = ndn::Name::Component("lsdb");
const ndn::time::seconds Lsdb::GRACE_PERIOD = ndn::time::seconds(10);
const ndn::time::steady_clock::TimePoint Lsdb::DEFAULT_LSA_RETRIEVAL_DEADLINE =
ndn::time::steady_clock::TimePoint::min();
Lsdb::Lsdb(ndn::Face& face, ndn::KeyChain& keyChain, ConfParameter& confParam,
NamePrefixTable& namePrefixTable, RoutingTable& routingTable)
: m_face(face)
, m_scheduler(face.getIoService())
, m_confParam(confParam)
, m_namePrefixTable(namePrefixTable)
, m_routingTable(routingTable)
, m_sync(m_face,
[this] (const ndn::Name& routerName, const Lsa::Type& lsaType,
const uint64_t& sequenceNumber) {
return isLsaNew(routerName, lsaType, sequenceNumber);
}, m_confParam)
, m_lsaRefreshTime(ndn::time::seconds(m_confParam.getLsaRefreshTime()))
, m_thisRouterPrefix(m_confParam.getRouterPrefix().toUri())
, m_adjLsaBuildInterval(m_confParam.getAdjLsaBuildInterval())
, m_sequencingManager(m_confParam.getStateFileDir(), m_confParam.getHyperbolicState())
, m_onNewLsaConnection(m_sync.onNewLsa->connect(
[this] (const ndn::Name& updateName, uint64_t sequenceNumber,
const ndn::Name& originRouter) {
ndn::Name lsaInterest{updateName};
lsaInterest.appendNumber(sequenceNumber);
expressInterest(lsaInterest, 0);
}))
, m_segmentPublisher(m_face, keyChain)
, m_isBuildAdjLsaSheduled(false)
, m_adjBuildCount(0)
{
}
Lsdb::~Lsdb()
{
for (const auto& sp : m_fetchers) {
sp->stop();
}
}
void
Lsdb::onFetchLsaError(uint32_t errorCode,
const std::string& msg,
const ndn::Name& interestName,
uint32_t retransmitNo,
const ndn::time::steady_clock::TimePoint& deadline,
ndn::Name lsaName,
uint64_t seqNo)
{
NLSR_LOG_DEBUG("Failed to fetch LSA: " << lsaName << ", Error code: " << errorCode
<< ", Message: " << msg);
if (ndn::time::steady_clock::now() < deadline) {
auto it = m_highestSeqNo.find(lsaName);
if (it != m_highestSeqNo.end() && it->second == seqNo) {
// If the SegmentFetcher failed due to an Interest timeout, it is safe to re-express
// immediately since at the least the LSA Interest lifetime has elapsed.
// Otherwise, it is necessary to delay the Interest re-expression to prevent
// the potential for constant Interest flooding.
ndn::time::seconds delay = m_confParam.getLsaInterestLifetime();
if (errorCode == ndn::util::SegmentFetcher::ErrorCode::INTEREST_TIMEOUT) {
delay = ndn::time::seconds(0);
}
m_scheduler.schedule(delay, std::bind(&Lsdb::expressInterest, this,
interestName, retransmitNo + 1, deadline));
}
}
}
void
Lsdb::afterFetchLsa(const ndn::ConstBufferPtr& bufferPtr, const ndn::Name& interestName)
{
NLSR_LOG_DEBUG("Received data for LSA interest: " << interestName);
ndn::Name lsaName = interestName.getSubName(0, interestName.size()-1);
uint64_t seqNo = interestName[-1].toNumber();
if (m_highestSeqNo.find(lsaName) == m_highestSeqNo.end()) {
m_highestSeqNo[lsaName] = seqNo;
}
else if (seqNo > m_highestSeqNo[lsaName]) {
m_highestSeqNo[lsaName] = seqNo;
NLSR_LOG_TRACE("SeqNo for LSA(name): " << interestName << " updated");
}
else if (seqNo < m_highestSeqNo[lsaName]) {
return;
}
std::string chkString("LSA");
int32_t lsaPosition = util::getNameComponentPosition(interestName, chkString);
if (lsaPosition >= 0) {
// Extracts the prefix of the originating router from the data.
ndn::Name originRouter = m_confParam.getNetwork();
originRouter.append(interestName.getSubName(lsaPosition + 1,
interestName.size() - lsaPosition - 3));
try {
ndn::Block block(bufferPtr);
Lsa::Type interestedLsType;
std::istringstream(interestName[-2].toUri()) >> interestedLsType;
if (interestedLsType == Lsa::Type::NAME) {
processContentNameLsa(originRouter.append(boost::lexical_cast<std::string>(interestedLsType)),
seqNo,
block);
}
else if (interestedLsType == Lsa::Type::ADJACENCY) {
processContentAdjacencyLsa(originRouter.append(boost::lexical_cast<std::string>(interestedLsType)),
seqNo,
block);
}
else if (interestedLsType == Lsa::Type::COORDINATE) {
processContentCoordinateLsa(originRouter.append(boost::lexical_cast<std::string>(interestedLsType)),
seqNo,
block);
}
else {
NLSR_LOG_WARN("Received unrecognized LSA Type: " << interestedLsType);
}
}
catch (const std::exception& e) {
NLSR_LOG_TRACE("LSA data decoding error :( " << e.what());
return;
}
lsaIncrementSignal(Statistics::PacketType::RCV_LSA_DATA);
}
}
/*! \brief Compares if a name LSA is the same as the one specified by key
\param nlsa1 A name LSA object
\param key A key of an originating router to compare to nlsa1
*/
static bool
nameLsaCompareByKey(const NameLsa& nlsa1, const ndn::Name& key)
{
return nlsa1.getKey() == key;
}
bool
Lsdb::buildAndInstallOwnNameLsa()
{
NameLsa nameLsa(m_confParam.getRouterPrefix(),
m_sequencingManager.getNameLsaSeq() + 1,
getLsaExpirationTimePoint(),
m_confParam.getNamePrefixList());
m_sequencingManager.increaseNameLsaSeq();
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::NAME, m_sequencingManager.getNameLsaSeq());
return installNameLsa(nameLsa);
}
NameLsa*
Lsdb::findNameLsa(const ndn::Name& key)
{
auto it = std::find_if(m_nameLsdb.begin(), m_nameLsdb.end(),
std::bind(nameLsaCompareByKey, _1, key));
if (it != m_nameLsdb.end()) {
return &*it;
}
return nullptr;
}
bool
Lsdb::isNameLsaNew(const ndn::Name& key, uint64_t seqNo)
{
NameLsa* nameLsaCheck = findNameLsa(key);
// Is the name in the LSDB
if (nameLsaCheck != nullptr) {
// And the supplied seq no is the highest so far
if (nameLsaCheck->getSeqNo() < seqNo) {
return true;
}
else {
return false;
}
}
return true;
}
ndn::scheduler::EventId
Lsdb::scheduleNameLsaExpiration(const ndn::Name& key, int seqNo,
const ndn::time::seconds& expTime)
{
return m_scheduler.schedule(expTime + GRACE_PERIOD,
std::bind(&Lsdb::expireOrRefreshNameLsa, this, key, seqNo));
}
bool
Lsdb::installNameLsa(NameLsa& nlsa)
{
NLSR_LOG_TRACE("installNameLsa");
ndn::time::seconds timeToExpire = m_lsaRefreshTime;
NameLsa* chkNameLsa = findNameLsa(nlsa.getKey());
// Determines if the name LSA is new or not.
if (chkNameLsa == nullptr) {
addNameLsa(nlsa);
NLSR_LOG_DEBUG("New Name LSA");
NLSR_LOG_DEBUG("Adding Name Lsa");
NLSR_LOG_DEBUG(nlsa);
NLSR_LOG_TRACE("nlsa.getOriginRouter(): " << nlsa.getOriginRouter());
NLSR_LOG_TRACE("m_confParam.getRouterPrefix(): " << m_confParam.getRouterPrefix());
if (nlsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
// If this name LSA is from another router, add the advertised
// prefixes to the NPT.
m_namePrefixTable.addEntry(nlsa.getOriginRouter(), nlsa.getOriginRouter());
for (const auto& name : nlsa.getNpl().getNames()) {
if (name != m_confParam.getRouterPrefix()) {
m_namePrefixTable.addEntry(name, nlsa.getOriginRouter());
}
}
auto duration = nlsa.getExpirationTimePoint() - ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
nlsa.setExpiringEventId(scheduleNameLsaExpiration(nlsa.getKey(),
nlsa.getSeqNo(),
timeToExpire));
}
// Else this is a known name LSA, so we are updating it.
else {
NLSR_LOG_TRACE("Known name lsa");
NLSR_LOG_TRACE("chkNameLsa->getSeqNo(): " << chkNameLsa->getSeqNo());
NLSR_LOG_TRACE("nlsa.getSeqNo(): " << nlsa.getSeqNo());
if (chkNameLsa->getSeqNo() < nlsa.getSeqNo()) {
NLSR_LOG_DEBUG("Updated Name LSA. Updating LSDB");
NLSR_LOG_DEBUG("Deleting Name Lsa");
NLSR_LOG_DEBUG(chkNameLsa);
chkNameLsa->setSeqNo(nlsa.getSeqNo());
chkNameLsa->setExpirationTimePoint(nlsa.getExpirationTimePoint());
chkNameLsa->getNpl().sort();
nlsa.getNpl().sort();
// Obtain the set difference of the current and the incoming
// name prefix sets, and add those.
std::list<ndn::Name> newNames = nlsa.getNpl().getNames();
std::list<ndn::Name> oldNames = chkNameLsa->getNpl().getNames();
std::list<ndn::Name> namesToAdd;
std::set_difference(newNames.begin(), newNames.end(), oldNames.begin(), oldNames.end(),
std::inserter(namesToAdd, namesToAdd.begin()));
for (const auto& name : namesToAdd) {
chkNameLsa->addName(name);
if (nlsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
if (name != m_confParam.getRouterPrefix()) {
m_namePrefixTable.addEntry(name, nlsa.getOriginRouter());
}
}
}
chkNameLsa->getNpl().sort();
// Also remove any names that are no longer being advertised.
std::list<ndn::Name> namesToRemove;
std::set_difference(oldNames.begin(), oldNames.end(), newNames.begin(), newNames.end(),
std::inserter(namesToRemove, namesToRemove.begin()));
for (const auto& name : namesToRemove) {
NLSR_LOG_DEBUG("Removing name LSA no longer advertised: " << name);
chkNameLsa->removeName(name);
if (nlsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
if (name != m_confParam.getRouterPrefix()) {
m_namePrefixTable.removeEntry(name, nlsa.getOriginRouter());
}
}
}
if (nlsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
auto duration = nlsa.getExpirationTimePoint() - ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
chkNameLsa->getExpiringEventId().cancel();
chkNameLsa->setExpiringEventId(scheduleNameLsaExpiration(nlsa.getKey(),
nlsa.getSeqNo(),
timeToExpire));
NLSR_LOG_DEBUG("Adding Name Lsa");
NLSR_LOG_DEBUG(chkNameLsa);
}
}
return true;
}
bool
Lsdb::addNameLsa(NameLsa& nlsa)
{
auto it = std::find_if(m_nameLsdb.begin(), m_nameLsdb.end(),
std::bind(nameLsaCompareByKey, _1, nlsa.getKey()));
if (it == m_nameLsdb.end()) {
m_nameLsdb.push_back(nlsa);
return true;
}
return false;
}
bool
Lsdb::removeNameLsa(const ndn::Name& key)
{
auto it = std::find_if(m_nameLsdb.begin(), m_nameLsdb.end(),
std::bind(nameLsaCompareByKey, _1, key));
if (it != m_nameLsdb.end()) {
NLSR_LOG_DEBUG("Deleting Name Lsa");
NLSR_LOG_DEBUG(*it);
// If the requested name LSA is not ours, we also need to remove
// its entries from the NPT.
if (it->getOriginRouter() != m_confParam.getRouterPrefix()) {
m_namePrefixTable.removeEntry(it->getOriginRouter(), it->getOriginRouter());
for (const auto& name : it->getNpl().getNames()) {
if (name != m_confParam.getRouterPrefix()) {
m_namePrefixTable.removeEntry(name, it->getOriginRouter());
}
}
}
m_nameLsdb.erase(it);
return true;
}
return false;
}
bool
Lsdb::doesNameLsaExist(const ndn::Name& key)
{
auto it = std::find_if(m_nameLsdb.begin(), m_nameLsdb.end(),
std::bind(nameLsaCompareByKey, _1, key));
return it != m_nameLsdb.end();
}
void
Lsdb::writeNameLsdbLog()
{
NLSR_LOG_TRACE("---------------Name LSDB-------------------");
for (const auto& nlsa : m_nameLsdb) {
NLSR_LOG_TRACE(nlsa);
}
}
const std::list<NameLsa>&
Lsdb::getNameLsdb() const
{
return m_nameLsdb;
}
// Cor LSA and LSDB related Functions start here
/*! \brief Compares whether an LSA object is the same as a key.
\param clsa The cor. LSA to check the identity of.
\param key The key of the publishing router to check against.
*/
static bool
corLsaCompareByKey(const CoordinateLsa& clsa, const ndn::Name& key)
{
return clsa.getKey() == key;
}
bool
Lsdb::buildAndInstallOwnCoordinateLsa()
{
CoordinateLsa corLsa(m_confParam.getRouterPrefix(),
m_sequencingManager.getCorLsaSeq() + 1,
getLsaExpirationTimePoint(),
m_confParam.getCorR(),
m_confParam.getCorTheta());
// Sync coordinate LSAs if using HR or HR dry run.
if (m_confParam.getHyperbolicState() != HYPERBOLIC_STATE_OFF) {
m_sequencingManager.increaseCorLsaSeq();
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::COORDINATE, m_sequencingManager.getCorLsaSeq());
}
installCoordinateLsa(corLsa);
return true;
}
CoordinateLsa*
Lsdb::findCoordinateLsa(const ndn::Name& key)
{
auto it = std::find_if(m_corLsdb.begin(), m_corLsdb.end(),
std::bind(corLsaCompareByKey, _1, key));
if (it != m_corLsdb.end()) {
return &*it;
}
return nullptr;
}
bool
Lsdb::isCoordinateLsaNew(const ndn::Name& key, uint64_t seqNo)
{
CoordinateLsa* clsa = findCoordinateLsa(key);
// Is the coordinate LSA in the LSDB already
if (clsa != nullptr) {
// And the seq no is newer (higher) than the current one
if (clsa->getSeqNo() < seqNo) {
return true;
}
else {
return false;
}
}
return true;
}
// Schedules a refresh/expire event in the scheduler.
// \param key The name of the router that published the LSA.
// \param seqNo the seq. no. associated with the LSA to check.
// \param expTime How long to wait before triggering the event.
ndn::scheduler::EventId
Lsdb::scheduleCoordinateLsaExpiration(const ndn::Name& key, int seqNo,
const ndn::time::seconds& expTime)
{
return m_scheduler.schedule(expTime + GRACE_PERIOD,
std::bind(&Lsdb::expireOrRefreshCoordinateLsa, this, key, seqNo));
}
bool
Lsdb::installCoordinateLsa(CoordinateLsa& clsa)
{
ndn::time::seconds timeToExpire = m_lsaRefreshTime;
CoordinateLsa* chkCorLsa = findCoordinateLsa(clsa.getKey());
// Checking whether the LSA is new or not.
if (chkCorLsa == nullptr) {
NLSR_LOG_DEBUG("New Coordinate LSA. Adding to LSDB");
NLSR_LOG_DEBUG("Adding Coordinate Lsa");
NLSR_LOG_DEBUG(clsa);
addCoordinateLsa(clsa);
// Register the LSA's origin router prefix
if (clsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
m_namePrefixTable.addEntry(clsa.getOriginRouter(), clsa.getOriginRouter());
}
if (m_confParam.getHyperbolicState() != HYPERBOLIC_STATE_OFF) {
m_routingTable.scheduleRoutingTableCalculation();
}
// Set the expiration time for the new LSA.
if (clsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
auto duration = clsa.getExpirationTimePoint() - ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
scheduleCoordinateLsaExpiration(clsa.getKey(), clsa.getSeqNo(), timeToExpire);
}
// We are just updating this LSA.
else {
if (chkCorLsa->getSeqNo() < clsa.getSeqNo()) {
NLSR_LOG_DEBUG("Updated Coordinate LSA. Updating LSDB");
NLSR_LOG_DEBUG("Deleting Coordinate Lsa");
NLSR_LOG_DEBUG(chkCorLsa);
chkCorLsa->setSeqNo(clsa.getSeqNo());
chkCorLsa->setExpirationTimePoint(clsa.getExpirationTimePoint());
// If the new LSA contains new routing information, update the LSDB with it.
if (!chkCorLsa->isEqualContent(clsa)) {
chkCorLsa->setCorRadius(clsa.getCorRadius());
chkCorLsa->setCorTheta(clsa.getCorTheta());
if (m_confParam.getHyperbolicState() >= HYPERBOLIC_STATE_ON) {
m_routingTable.scheduleRoutingTableCalculation();
}
}
// If this is an LSA from another router, refresh its expiration time.
if (clsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
auto duration = clsa.getExpirationTimePoint() - ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
chkCorLsa->getExpiringEventId().cancel();
chkCorLsa->setExpiringEventId(scheduleCoordinateLsaExpiration(clsa.getKey(),
clsa.getSeqNo(),
timeToExpire));
NLSR_LOG_DEBUG("Adding Coordinate Lsa");
NLSR_LOG_DEBUG(chkCorLsa);
}
}
return true;
}
bool
Lsdb::addCoordinateLsa(CoordinateLsa& clsa)
{
auto it = std::find_if(m_corLsdb.begin(), m_corLsdb.end(),
std::bind(corLsaCompareByKey, _1, clsa.getKey()));
if (it == m_corLsdb.end()) {
m_corLsdb.push_back(clsa);
return true;
}
return false;
}
bool
Lsdb::removeCoordinateLsa(const ndn::Name& key)
{
auto it = std::find_if(m_corLsdb.begin(), m_corLsdb.end(),
std::bind(corLsaCompareByKey, _1, key));
if (it != m_corLsdb.end()) {
NLSR_LOG_DEBUG("Deleting Coordinate Lsa");
NLSR_LOG_DEBUG(*it);
if (it->getOriginRouter() != m_confParam.getRouterPrefix()) {
m_namePrefixTable.removeEntry(it->getOriginRouter(), it->getOriginRouter());
}
m_corLsdb.erase(it);
return true;
}
return false;
}
bool
Lsdb::doesCoordinateLsaExist(const ndn::Name& key)
{
auto it = std::find_if(m_corLsdb.begin(), m_corLsdb.end(),
std::bind(corLsaCompareByKey, _1, key));
return it != m_corLsdb.end();
}
void
Lsdb::writeCorLsdbLog()
{
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_OFF) {
return;
}
NLSR_LOG_DEBUG("---------------Cor LSDB-------------------");
for (const auto& corLsa : m_corLsdb) {
NLSR_LOG_DEBUG(corLsa);
}
}
const std::list<CoordinateLsa>&
Lsdb::getCoordinateLsdb() const
{
return m_corLsdb;
}
// Adj LSA and LSDB related function starts here
/*! \brief Returns whether an adj. LSA object is from some router.
\param alsa The adj. LSA object.
\param key The router name that you want to compare the LSA with.
*/
static bool
adjLsaCompareByKey(AdjLsa& alsa, const ndn::Name& key)
{
return alsa.getKey() == key;
}
void
Lsdb::scheduleAdjLsaBuild()
{
m_adjBuildCount++;
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
// Don't build adjacency LSAs in hyperbolic routing
NLSR_LOG_DEBUG("Adjacency LSA not built. Currently in hyperbolic routing state.");
return;
}
if (m_isBuildAdjLsaSheduled) {
NLSR_LOG_DEBUG("Rescheduling Adjacency LSA build in " << m_adjLsaBuildInterval);
}
else {
NLSR_LOG_DEBUG("Scheduling Adjacency LSA build in " << m_adjLsaBuildInterval);
m_isBuildAdjLsaSheduled = true;
}
m_scheduledAdjLsaBuild = m_scheduler.schedule(m_adjLsaBuildInterval, [this] { buildAdjLsa(); });
}
void
Lsdb::buildAdjLsa()
{
NLSR_LOG_TRACE("Lsdb::buildAdjLsa called");
m_isBuildAdjLsaSheduled = false;
if (m_confParam.getAdjacencyList().isAdjLsaBuildable(m_confParam.getInterestRetryNumber())) {
int adjBuildCount = m_adjBuildCount;
// Only do the adjLsa build if there's one scheduled
if (adjBuildCount > 0) {
// It only makes sense to do the adjLsa build if we have neighbors
if (m_confParam.getAdjacencyList().getNumOfActiveNeighbor() > 0) {
NLSR_LOG_DEBUG("Building and installing own Adj LSA");
buildAndInstallOwnAdjLsa();
}
// We have no active neighbors, meaning no one can route through
// us. So delete our entry in the LSDB. This prevents this
// router from refreshing the LSA, eventually causing other
// routers to delete it, too.
else {
NLSR_LOG_DEBUG("Removing own Adj LSA; no ACTIVE neighbors");
// Get this router's key
ndn::Name key = m_confParam.getRouterPrefix();
key.append(boost::lexical_cast<std::string>(Lsa::Type::ADJACENCY));
removeAdjLsa(key);
// Recompute routing table after removal
m_routingTable.scheduleRoutingTableCalculation();
}
// In the case that during building the adj LSA, the FIB has to
// wait on an Interest response, the number of scheduled adj LSA
// builds could change, so we shouldn't just set it to 0.
m_adjBuildCount = m_adjBuildCount - adjBuildCount;
}
}
// We are still waiting to know the adjacency status of some
// neighbor, so schedule a build for later (when all that has
// hopefully finished)
else {
m_isBuildAdjLsaSheduled = true;
auto schedulingTime = ndn::time::seconds(m_confParam.getInterestRetryNumber() *
m_confParam.getInterestResendTime());
m_scheduledAdjLsaBuild = m_scheduler.schedule(schedulingTime, [this] { buildAdjLsa(); });
}
}
bool
Lsdb::addAdjLsa(AdjLsa& alsa)
{
auto it = std::find_if(m_adjLsdb.begin(), m_adjLsdb.end(),
std::bind(adjLsaCompareByKey, _1, alsa.getKey()));
if (it == m_adjLsdb.end()) {
m_adjLsdb.push_back(alsa);
// Add any new name prefixes to the NPT
// Only add NPT entries if this is an adj LSA from another router.
if (alsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
// Pass the originating router as both the name to register and
// where it came from.
m_namePrefixTable.addEntry(alsa.getOriginRouter(), alsa.getOriginRouter());
}
return true;
}
return false;
}
AdjLsa*
Lsdb::findAdjLsa(const ndn::Name& key)
{
auto it = std::find_if(m_adjLsdb.begin(), m_adjLsdb.end(),
std::bind(adjLsaCompareByKey, _1, key));
if (it != m_adjLsdb.end()) {
return &*it;
}
return nullptr;
}
bool
Lsdb::isAdjLsaNew(const ndn::Name& key, uint64_t seqNo)
{
AdjLsa* adjLsaCheck = findAdjLsa(key);
// If it is in the LSDB
if (adjLsaCheck != nullptr) {
// And the supplied seq no is newer (higher) than the current one.
if (adjLsaCheck->getSeqNo() < seqNo) {
return true;
}
else {
return false;
}
}
return true;
}
ndn::scheduler::EventId
Lsdb::scheduleAdjLsaExpiration(const ndn::Name& key, int seqNo,
const ndn::time::seconds& expTime)
{
return m_scheduler.schedule(expTime + GRACE_PERIOD,
std::bind(&Lsdb::expireOrRefreshAdjLsa, this, key, seqNo));
}
bool
Lsdb::installAdjLsa(AdjLsa& alsa)
{
ndn::time::seconds timeToExpire = m_lsaRefreshTime;
AdjLsa* chkAdjLsa = findAdjLsa(alsa.getKey());
// If this adj. LSA is not in the LSDB already
if (chkAdjLsa == nullptr) {
NLSR_LOG_DEBUG("New Adj LSA. Adding to LSDB");
NLSR_LOG_DEBUG("Adding Adj Lsa");
NLSR_LOG_DEBUG(alsa);
addAdjLsa(alsa);
m_routingTable.scheduleRoutingTableCalculation();
if (alsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
ndn::time::system_clock::Duration duration = alsa.getExpirationTimePoint() -
ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
scheduleAdjLsaExpiration(alsa.getKey(), alsa.getSeqNo(), timeToExpire);
}
else {
if (chkAdjLsa->getSeqNo() < alsa.getSeqNo()) {
NLSR_LOG_DEBUG("Updated Adj LSA. Updating LSDB");
NLSR_LOG_DEBUG("Deleting Adj Lsa");
NLSR_LOG_DEBUG(chkAdjLsa);
chkAdjLsa->setSeqNo(alsa.getSeqNo());
chkAdjLsa->setExpirationTimePoint(alsa.getExpirationTimePoint());
// If the new adj LSA has new content, update the contents of
// the LSDB entry. Additionally, since we've changed the
// contents of the LSDB, we have to schedule a routing
// calculation.
if (!chkAdjLsa->isEqualContent(alsa)) {
chkAdjLsa->resetAdl();
for (const auto& adjacent : alsa.getAdl()) {
chkAdjLsa->addAdjacent(adjacent);
}
m_routingTable.scheduleRoutingTableCalculation();
}
if (alsa.getOriginRouter() != m_confParam.getRouterPrefix()) {
auto duration = alsa.getExpirationTimePoint() - ndn::time::system_clock::now();
timeToExpire = ndn::time::duration_cast<ndn::time::seconds>(duration);
}
chkAdjLsa->getExpiringEventId().cancel();
chkAdjLsa->setExpiringEventId(scheduleAdjLsaExpiration(alsa.getKey(),
alsa.getSeqNo(),
timeToExpire));
NLSR_LOG_DEBUG("Adding Adj Lsa");
NLSR_LOG_DEBUG(chkAdjLsa);
}
}
return true;
}
bool
Lsdb::buildAndInstallOwnAdjLsa()
{
AdjLsa adjLsa(m_confParam.getRouterPrefix(),
m_sequencingManager.getAdjLsaSeq() + 1,
getLsaExpirationTimePoint(),
m_confParam.getAdjacencyList().getNumOfActiveNeighbor(),
m_confParam.getAdjacencyList());
//Sync adjacency LSAs if link-state or dry-run HR is enabled.
if (m_confParam.getHyperbolicState() != HYPERBOLIC_STATE_ON) {
m_sequencingManager.increaseAdjLsaSeq();
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::ADJACENCY, m_sequencingManager.getAdjLsaSeq());
}
return installAdjLsa(adjLsa);
}
bool
Lsdb::removeAdjLsa(const ndn::Name& key)
{
auto it = std::find_if(m_adjLsdb.begin(), m_adjLsdb.end(),
std::bind(adjLsaCompareByKey, _1, key));
if (it != m_adjLsdb.end()) {
NLSR_LOG_DEBUG("Deleting Adj Lsa");
NLSR_LOG_DEBUG(*it);
if (it->getOriginRouter() != m_confParam.getRouterPrefix()) {
m_namePrefixTable.removeEntry(it->getOriginRouter(), it->getOriginRouter());
}
m_adjLsdb.erase(it);
return true;
}
return false;
}
bool
Lsdb::doesAdjLsaExist(const ndn::Name& key)
{
auto it = std::find_if(m_adjLsdb.begin(), m_adjLsdb.end(),
std::bind(adjLsaCompareByKey, _1, key));
return it != m_adjLsdb.end();
}
const std::list<AdjLsa>&
Lsdb::getAdjLsdb() const
{
return m_adjLsdb;
}
// This function determines whether a name LSA should be refreshed
// or expired. The conditions for getting refreshed are: it is still
// in the LSDB, it hasn't been updated by something else already (as
// evidenced by its seq. no.), and this is the originating router for
// the LSA. Is it let expire in all other cases.
// lsaKey is the key of the LSA's publishing router.
// seqNo is the seq. no. of the candidate LSA.
void
Lsdb::expireOrRefreshNameLsa(const ndn::Name& lsaKey, uint64_t seqNo)
{
NLSR_LOG_DEBUG("Lsdb::expireOrRefreshNameLsa Called");
NLSR_LOG_DEBUG("LSA Key : " << lsaKey << " Seq No: " << seqNo);
NameLsa* chkNameLsa = findNameLsa(lsaKey);
// If this name LSA exists in the LSDB
if (chkNameLsa != nullptr) {
NLSR_LOG_DEBUG("LSA Exists with seq no: " << chkNameLsa->getSeqNo());
// If its seq no is the one we are expecting.
if (chkNameLsa->getSeqNo() == seqNo) {
if (chkNameLsa->getOriginRouter() == m_thisRouterPrefix) {
NLSR_LOG_DEBUG("Own Name LSA, so refreshing it");
NLSR_LOG_DEBUG("Deleting Name Lsa");
NLSR_LOG_DEBUG(chkNameLsa);
chkNameLsa->setSeqNo(chkNameLsa->getSeqNo() + 1);
m_sequencingManager.setNameLsaSeq(chkNameLsa->getSeqNo());
chkNameLsa->setExpirationTimePoint(getLsaExpirationTimePoint());
NLSR_LOG_DEBUG("Adding Name Lsa");
NLSR_LOG_DEBUG(chkNameLsa);
// schedule refreshing event again
chkNameLsa->setExpiringEventId(scheduleNameLsaExpiration(chkNameLsa->getKey(),
chkNameLsa->getSeqNo(),
m_lsaRefreshTime));
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::NAME, m_sequencingManager.getNameLsaSeq());
}
// Since we cannot refresh other router's LSAs, our only choice is to expire.
else {
NLSR_LOG_DEBUG("Other's Name LSA, so removing from LSDB");
removeNameLsa(lsaKey);
}
}
}
}
// This function determines whether an adj. LSA should be refreshed
// or expired. The conditions for getting refreshed are: it is still
// in the LSDB, it hasn't been updated by something else already (as
// evidenced by its seq. no.), and this is the originating router for
// the LSA. Is it let expire in all other cases.
// lsaKey is the key of the LSA's publishing router.
// seqNo is the seq. no. of the candidate LSA.
void
Lsdb::expireOrRefreshAdjLsa(const ndn::Name& lsaKey, uint64_t seqNo)
{
NLSR_LOG_DEBUG("Lsdb::expireOrRefreshAdjLsa Called");
NLSR_LOG_DEBUG("LSA Key: " << lsaKey << " Seq No: " << seqNo);
AdjLsa* chkAdjLsa = findAdjLsa(lsaKey);
// If this is a valid LSA
if (chkAdjLsa != nullptr) {
NLSR_LOG_DEBUG("LSA Exists with seq no: " << chkAdjLsa->getSeqNo());
// And if it hasn't been updated for some other reason
if (chkAdjLsa->getSeqNo() == seqNo) {
// If it is our own LSA
if (chkAdjLsa->getOriginRouter() == m_thisRouterPrefix) {
NLSR_LOG_DEBUG("Own Adj LSA, so refreshing it");
NLSR_LOG_DEBUG("Deleting Adj Lsa");
NLSR_LOG_DEBUG(chkAdjLsa);
chkAdjLsa->setSeqNo(chkAdjLsa->getSeqNo() + 1);
m_sequencingManager.setAdjLsaSeq(chkAdjLsa->getSeqNo());
chkAdjLsa->setExpirationTimePoint(getLsaExpirationTimePoint());
NLSR_LOG_DEBUG("Adding Adj Lsa");
NLSR_LOG_DEBUG(chkAdjLsa);
// schedule refreshing event again
chkAdjLsa->setExpiringEventId(scheduleAdjLsaExpiration(chkAdjLsa->getKey(),
chkAdjLsa->getSeqNo(),
m_lsaRefreshTime));
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::ADJACENCY, m_sequencingManager.getAdjLsaSeq());
}
// An LSA from another router is expiring
else {
NLSR_LOG_DEBUG("Other's Adj LSA, so removing from LSDB");
removeAdjLsa(lsaKey);
}
// We have changed the contents of the LSDB, so we have to
// schedule a routing calculation
m_routingTable.scheduleRoutingTableCalculation();
}
}
}
// This function determines whether an adj. LSA should be refreshed
// or expired. The conditions for getting refreshed are: it is still
// in the LSDB, it hasn't been updated by something else already (as
// evidenced by its seq. no.), and this is the originating router for
// the LSA. It is let expire in all other cases.
// lsaKey is the key of the LSA's publishing router.
// seqNo is the seq. no. of the candidate LSA.
void
Lsdb::expireOrRefreshCoordinateLsa(const ndn::Name& lsaKey,
uint64_t seqNo)
{
NLSR_LOG_DEBUG("Lsdb::expireOrRefreshCorLsa Called ");
NLSR_LOG_DEBUG("LSA Key : " << lsaKey << " Seq No: " << seqNo);
CoordinateLsa* chkCorLsa = findCoordinateLsa(lsaKey);
// Whether the LSA is in the LSDB or not.
if (chkCorLsa != nullptr) {
NLSR_LOG_DEBUG("LSA Exists with seq no: " << chkCorLsa->getSeqNo());
// Whether the LSA has been updated without our knowledge.
if (chkCorLsa->getSeqNo() == seqNo) {
if (chkCorLsa->getOriginRouter() == m_thisRouterPrefix) {
NLSR_LOG_DEBUG("Own Cor LSA, so refreshing it");
NLSR_LOG_DEBUG("Deleting Coordinate Lsa");
NLSR_LOG_DEBUG(chkCorLsa);
chkCorLsa->setSeqNo(chkCorLsa->getSeqNo() + 1);
if (m_confParam.getHyperbolicState() != HYPERBOLIC_STATE_OFF) {
m_sequencingManager.setCorLsaSeq(chkCorLsa->getSeqNo());
}
chkCorLsa->setExpirationTimePoint(getLsaExpirationTimePoint());
NLSR_LOG_DEBUG("Adding Coordinate Lsa");
NLSR_LOG_DEBUG(chkCorLsa);
// schedule refreshing event again
chkCorLsa->setExpiringEventId(scheduleCoordinateLsaExpiration(
chkCorLsa->getKey(),
chkCorLsa->getSeqNo(),
m_lsaRefreshTime));
// Only sync coordinate LSAs if link-state routing is disabled
if (m_confParam.getHyperbolicState() != HYPERBOLIC_STATE_OFF) {
m_sequencingManager.writeSeqNoToFile();
m_sync.publishRoutingUpdate(Lsa::Type::COORDINATE, m_sequencingManager.getCorLsaSeq());
}
}
// We can't refresh other router's LSAs, so we remove it.
else {
NLSR_LOG_DEBUG("Other's Cor LSA, so removing from LSDB");
removeCoordinateLsa(lsaKey);
}
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
m_routingTable.scheduleRoutingTableCalculation();
}
}
}
}
void
Lsdb::expressInterest(const ndn::Name& interestName, uint32_t timeoutCount,
ndn::time::steady_clock::TimePoint deadline)
{
// increment SENT_LSA_INTEREST
lsaIncrementSignal(Statistics::PacketType::SENT_LSA_INTEREST);
if (deadline == DEFAULT_LSA_RETRIEVAL_DEADLINE) {
deadline = ndn::time::steady_clock::now() + ndn::time::seconds(static_cast<int>(LSA_REFRESH_TIME_MAX));
}
// The first component of the interest is the name.
ndn::Name lsaName = interestName.getSubName(0, interestName.size()-1);
// The seq no is the last
uint64_t seqNo = interestName[-1].toNumber();
// If the LSA is not found in the list currently.
if (m_highestSeqNo.find(lsaName) == m_highestSeqNo.end()) {
m_highestSeqNo[lsaName] = seqNo;
}
// If the new seq no is higher, that means the LSA is valid
else if (seqNo > m_highestSeqNo[lsaName]) {
m_highestSeqNo[lsaName] = seqNo;
}
// Otherwise, its an old/invalid LSA
else if (seqNo < m_highestSeqNo[lsaName]) {
return;
}
ndn::Interest interest(interestName);
ndn::util::SegmentFetcher::Options options;
options.interestLifetime = m_confParam.getLsaInterestLifetime();
NLSR_LOG_DEBUG("Fetching Data for LSA: " << interestName << " Seq number: " << seqNo);
auto fetcher = ndn::util::SegmentFetcher::start(m_face, interest,
m_confParam.getValidator(), options);
auto it = m_fetchers.insert(fetcher).first;
fetcher->afterSegmentValidated.connect([this] (const ndn::Data& data) {
// Nlsr class subscribes to this to fetch certificates
afterSegmentValidatedSignal(data);
// If we don't do this IMS throws: std::bad_weak_ptr: bad_weak_ptr
auto lsaSegment = std::make_shared<const ndn::Data>(data);
m_lsaStorage.insert(*lsaSegment);
const ndn::Name& segmentName = lsaSegment->getName();
// Schedule deletion of the segment
m_scheduler.schedule(ndn::time::seconds(LSA_REFRESH_TIME_DEFAULT),
[this, segmentName] { m_lsaStorage.erase(segmentName); });
});
fetcher->onComplete.connect([=] (const ndn::ConstBufferPtr& bufferPtr) {
m_lsaStorage.erase(ndn::Name(lsaName).appendNumber(seqNo - 1));
afterFetchLsa(bufferPtr, interestName);
m_fetchers.erase(it);
});
fetcher->onError.connect([=] (uint32_t errorCode, const std::string& msg) {
onFetchLsaError(errorCode, msg, interestName, timeoutCount, deadline, lsaName, seqNo);
m_fetchers.erase(it);
});
// increment a specific SENT_LSA_INTEREST
Lsa::Type lsaType;
std::istringstream(interestName[-2].toUri()) >> lsaType;
switch (lsaType) {
case Lsa::Type::ADJACENCY:
lsaIncrementSignal(Statistics::PacketType::SENT_ADJ_LSA_INTEREST);
break;
case Lsa::Type::COORDINATE:
lsaIncrementSignal(Statistics::PacketType::SENT_COORD_LSA_INTEREST);
break;
case Lsa::Type::NAME:
lsaIncrementSignal(Statistics::PacketType::SENT_NAME_LSA_INTEREST);
break;
default:
NLSR_LOG_ERROR("lsaType " << lsaType << " not recognized; failed Statistics::PacketType conversion");
}
}
void
Lsdb::processInterest(const ndn::Name& name, const ndn::Interest& interest)
{
ndn::Name interestName(interest.getName());
NLSR_LOG_DEBUG("Interest received for LSA: " << interestName);
if (interestName[-2].isVersion()) {
// Interest for particular segment
if (m_segmentPublisher.replyFromStore(interestName)) {
NLSR_LOG_TRACE("Reply from SegmentPublisher storage");
return;
}
// Remove version and segment
interestName = interestName.getSubName(0, interestName.size() - 2);
NLSR_LOG_TRACE("Interest w/o segment and version: " << interestName);
}
// increment RCV_LSA_INTEREST
lsaIncrementSignal(Statistics::PacketType::RCV_LSA_INTEREST);
std::string chkString("LSA");
int32_t lsaPosition = util::getNameComponentPosition(interestName, chkString);
// Forms the name of the router that the Interest packet came from.
ndn::Name originRouter = m_confParam.getNetwork();
originRouter.append(interestName.getSubName(lsaPosition + 1,
interestName.size() - lsaPosition - 3));
// if the interest is for this router's LSA
if (originRouter == m_confParam.getRouterPrefix() && lsaPosition >= 0) {
uint64_t seqNo = interestName[-1].toNumber();
NLSR_LOG_DEBUG("LSA sequence number from interest: " << seqNo);
std::string lsaType = interestName[-2].toUri();
Lsa::Type interestedLsType;
std::istringstream(lsaType) >> interestedLsType;
if (interestedLsType == Lsa::Type::NAME) {
processInterestForNameLsa(interest, originRouter.append(lsaType), seqNo);
}
else if (interestedLsType == Lsa::Type::ADJACENCY) {
processInterestForAdjacencyLsa(interest, originRouter.append(lsaType), seqNo);
}
else if (interestedLsType == Lsa::Type::COORDINATE) {
processInterestForCoordinateLsa(interest, originRouter.append(lsaType), seqNo);
}
else {
NLSR_LOG_WARN("Received unrecognized LSA type: " << interestedLsType);
}
lsaIncrementSignal(Statistics::PacketType::SENT_LSA_DATA);
}
else { // else the interest is for other router's lsa, serve from LsaSegmentStorage
std::shared_ptr<const ndn::Data> lsaSegment = m_lsaStorage.find(interest);
if (lsaSegment) {
NLSR_LOG_TRACE("Found data in lsa storage. Sending the data for " << interest.getName());
m_face.put(*lsaSegment);
}
else {
NLSR_LOG_TRACE(interest << " was not found in this lsa storage.");
}
}
}
// \brief Finds and sends a requested name LSA.
// \param interest The interest that seeks the name LSA.
// \param lsaKey The LSA that the Interest is seeking.
// \param seqNo A sequence number to ensure that we are sending the
// version that was requested.
void
Lsdb::processInterestForNameLsa(const ndn::Interest& interest,
const ndn::Name& lsaKey,
uint64_t seqNo)
{
// increment RCV_NAME_LSA_INTEREST
lsaIncrementSignal(Statistics::PacketType::RCV_NAME_LSA_INTEREST);
NLSR_LOG_DEBUG("nameLsa interest " << interest << " received");
NameLsa* nameLsa = findNameLsa(lsaKey);
if (nameLsa != nullptr) {
NLSR_LOG_TRACE("Verifying SeqNo for NameLsa is same as requested.");
if (nameLsa->getSeqNo() == seqNo) {
m_segmentPublisher.publish(interest.getName(), interest.getName(),
nameLsa->wireEncode(),
m_lsaRefreshTime, m_confParam.getSigningInfo());
lsaIncrementSignal(Statistics::PacketType::SENT_NAME_LSA_DATA);
}
else {
NLSR_LOG_TRACE("SeqNo for nameLsa does not match");
}
}
else {
NLSR_LOG_TRACE(interest << " was not found in this lsdb");
}
}
// \brief Finds and sends a requested adj. LSA.
// \param interest The interest that seeks the adj. LSA.
// \param lsaKey The LSA that the Interest is seeking.
// \param seqNo A sequence number to ensure that we are sending the
// version that was requested.
void
Lsdb::processInterestForAdjacencyLsa(const ndn::Interest& interest,
const ndn::Name& lsaKey,
uint64_t seqNo)
{
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
NLSR_LOG_ERROR("Received interest for an adjacency LSA when hyperbolic routing is enabled");
}
lsaIncrementSignal(Statistics::PacketType::RCV_ADJ_LSA_INTEREST);
NLSR_LOG_DEBUG("AdjLsa interest " << interest << " received");
AdjLsa* adjLsa = findAdjLsa(lsaKey);
if (adjLsa != nullptr) {
NLSR_LOG_TRACE("Verifying SeqNo for AdjLsa is same as requested.");
if (adjLsa->getSeqNo() == seqNo) {
m_segmentPublisher.publish(interest.getName(), interest.getName(),
adjLsa->wireEncode(),
m_lsaRefreshTime, m_confParam.getSigningInfo());
lsaIncrementSignal(Statistics::PacketType::SENT_ADJ_LSA_DATA);
}
else {
NLSR_LOG_TRACE("SeqNo for AdjLsa does not match");
}
}
else {
NLSR_LOG_TRACE(interest << " was not found in this lsdb");
}
}
// \brief Finds and sends a requested cor. LSA.
// \param interest The interest that seeks the cor. LSA.
// \param lsaKey The LSA that the Interest is seeking.
// \param seqNo A sequence number to ensure that we are sending the
// version that was requested.
void
Lsdb::processInterestForCoordinateLsa(const ndn::Interest& interest,
const ndn::Name& lsaKey,
uint64_t seqNo)
{
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_OFF) {
NLSR_LOG_ERROR("Received Interest for a coordinate LSA when link-state routing is enabled");
}
lsaIncrementSignal(Statistics::PacketType::RCV_COORD_LSA_INTEREST);
NLSR_LOG_DEBUG("CoordinateLsa interest " << interest << " received");
CoordinateLsa* corLsa = findCoordinateLsa(lsaKey);
if (corLsa != nullptr) {
NLSR_LOG_TRACE("Verifying SeqNo for CoordinateLsa is same as requested.");
if (corLsa->getSeqNo() == seqNo) {
m_segmentPublisher.publish(interest.getName(), interest.getName(),
corLsa->wireEncode(),
m_lsaRefreshTime, m_confParam.getSigningInfo());
lsaIncrementSignal(Statistics::PacketType::SENT_COORD_LSA_DATA);
}
else {
NLSR_LOG_TRACE("SeqNo for CoordinateLsa does not match");
}
}
else {
NLSR_LOG_TRACE(interest << " was not found in this lsdb");
}
}
void
Lsdb::processContentNameLsa(const ndn::Name& lsaKey,
uint64_t lsSeqNo, const ndn::Block& block)
{
lsaIncrementSignal(Statistics::PacketType::RCV_NAME_LSA_DATA);
if (isNameLsaNew(lsaKey, lsSeqNo)) {
NameLsa nameLsa(block);
installNameLsa(nameLsa);
}
}
void
Lsdb::processContentAdjacencyLsa(const ndn::Name& lsaKey,
uint64_t lsSeqNo, const ndn::Block& block)
{
lsaIncrementSignal(Statistics::PacketType::RCV_ADJ_LSA_DATA);
if (isAdjLsaNew(lsaKey, lsSeqNo)) {
AdjLsa adjLsa(block);
installAdjLsa(adjLsa);
}
}
void
Lsdb::processContentCoordinateLsa(const ndn::Name& lsaKey,
uint64_t lsSeqNo, const ndn::Block& block)
{
lsaIncrementSignal(Statistics::PacketType::RCV_COORD_LSA_DATA);
if (isCoordinateLsaNew(lsaKey, lsSeqNo)) {
CoordinateLsa corLsa(block);
installCoordinateLsa(corLsa);
}
}
ndn::time::system_clock::TimePoint
Lsdb::getLsaExpirationTimePoint()
{
ndn::time::system_clock::TimePoint expirationTimePoint = ndn::time::system_clock::now();
expirationTimePoint = expirationTimePoint +
ndn::time::seconds(m_confParam.getRouterDeadInterval());
return expirationTimePoint;
}
void
Lsdb::writeAdjLsdbLog()
{
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
return;
}
NLSR_LOG_TRACE("---------------Adj LSDB-------------------");
for (const auto& adj : m_adjLsdb) {
NLSR_LOG_TRACE(adj);
}
}
//-----utility function -----
bool
Lsdb::doesLsaExist(const ndn::Name& key, const Lsa::Type& lsType)
{
switch (lsType) {
case Lsa::Type::ADJACENCY:
return doesAdjLsaExist(key);
case Lsa::Type::COORDINATE:
return doesCoordinateLsaExist(key);
case Lsa::Type::NAME:
return doesNameLsaExist(key);
default:
return false;
}
}
bool
Lsdb::isLsaNew(const ndn::Name& routerName, const Lsa::Type& lsaType,
const uint64_t& sequenceNumber) {
ndn::Name lsaKey = routerName;
lsaKey.append(boost::lexical_cast<std::string>(lsaType));
switch (lsaType) {
case Lsa::Type::ADJACENCY:
return isAdjLsaNew(lsaKey, sequenceNumber);
case Lsa::Type::COORDINATE:
return isCoordinateLsaNew(lsaKey, sequenceNumber);
case Lsa::Type::NAME:
return isNameLsaNew(lsaKey, sequenceNumber);
default:
return false;
}
}
} // namespace nlsr