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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014-2018, 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 "sync-logic-handler.hpp"
#include "common.hpp"
#include "conf-parameter.hpp"
#include "lsa.hpp"
#include "logger.hpp"
#include "utility/name-helper.hpp"
namespace nlsr {
const std::string NLSR_COMPONENT = "nlsr";
const std::string LSA_COMPONENT = "LSA";
INIT_LOGGER(SyncLogicHandler);
template<class T>
class NullDeleter
{
public:
void
operator()(T*)
{
}
};
SyncLogicHandler::SyncLogicHandler(ndn::Face& face, const IsLsaNew& isLsaNew,
const ConfParameter& conf)
: onNewLsa(std::make_unique<OnNewLsa>())
, m_syncFace(face)
, m_isLsaNew(isLsaNew)
, m_confParam(conf)
{
}
void
SyncLogicHandler::createSyncLogic(const ndn::Name& syncPrefix, const ndn::time::milliseconds& syncInterestLifetime)
{
if (m_syncLogic != nullptr) {
NLSR_LOG_WARN("Trying to create Sync Logic object, but Sync Logic object already exists");
return;
}
// Build LSA sync update prefix
buildUpdatePrefix();
NLSR_LOG_DEBUG("Creating Sync Logic object. Sync Prefix: " << syncPrefix);
// The face's lifetime is managed in main.cpp; Logic should not manage the memory
// of the object
std::shared_ptr<ndn::Face> facePtr(&m_syncFace, NullDeleter<ndn::Face>());
m_syncLogic = std::make_shared<SyncProtocolAdapter>(*facePtr,
m_confParam.getSyncProtocol(),
syncPrefix,
m_nameLsaUserPrefix,
syncInterestLifetime,
std::bind(&SyncLogicHandler::processUpdate, this, _1, _2));
if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_OFF) {
m_syncLogic->addUserNode(m_adjLsaUserPrefix);
}
else if (m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
m_syncLogic->addUserNode(m_coorLsaUserPrefix);
}
else {
m_syncLogic->addUserNode(m_adjLsaUserPrefix);
m_syncLogic->addUserNode(m_coorLsaUserPrefix);
}
}
void
SyncLogicHandler::processUpdate(const ndn::Name& updateName, uint64_t highSeq)
{
NLSR_LOG_DEBUG("Update Name: " << updateName << " Seq no: " << highSeq);
int32_t nlsrPosition = util::getNameComponentPosition(updateName, nlsr::NLSR_COMPONENT);
int32_t lsaPosition = util::getNameComponentPosition(updateName, nlsr::LSA_COMPONENT);
if (nlsrPosition < 0 || lsaPosition < 0) {
NLSR_LOG_WARN("Received malformed sync update");
return;
}
ndn::Name networkName = updateName.getSubName(1, nlsrPosition-1);
ndn::Name routerName = updateName.getSubName(lsaPosition + 1).getPrefix(-1);
ndn::Name originRouter = networkName;
originRouter.append(routerName);
processUpdateFromSync(originRouter, updateName, highSeq);
}
void
SyncLogicHandler::processUpdateFromSync(const ndn::Name& originRouter,
const ndn::Name& updateName, uint64_t seqNo)
{
NLSR_LOG_DEBUG("Origin Router of update: " << originRouter);
// A router should not try to fetch its own LSA
if (originRouter != m_confParam.getRouterPrefix()) {
Lsa::Type lsaType;
std::istringstream(updateName.get(updateName.size()-1).toUri()) >> lsaType;
NLSR_LOG_DEBUG("Received sync update with higher " << lsaType
<< " sequence number than entry in LSDB");
if (m_isLsaNew(originRouter, lsaType, seqNo)) {
if (lsaType == Lsa::Type::ADJACENCY && seqNo != 0 &&
m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_ON) {
NLSR_LOG_ERROR("Got an update for adjacency LSA when hyperbolic routing"
<< " is enabled. Not going to fetch.");
return;
}
if (lsaType == Lsa::Type::COORDINATE && seqNo != 0 &&
m_confParam.getHyperbolicState() == HYPERBOLIC_STATE_OFF) {
NLSR_LOG_ERROR("Got an update for coordinate LSA when link-state"
<< " is enabled. Not going to fetch.");
return;
}
(*onNewLsa)(updateName, seqNo);
}
}
}
void
SyncLogicHandler::publishRoutingUpdate(const Lsa::Type& type, const uint64_t& seqNo)
{
if (m_syncLogic == nullptr) {
NLSR_LOG_FATAL("Cannot publish routing update; SyncLogic does not exist");
BOOST_THROW_EXCEPTION(SyncLogicHandler::Error("Cannot publish routing update; SyncLogic does not exist"));
}
switch (type) {
case Lsa::Type::ADJACENCY:
m_syncLogic->publishUpdate(m_adjLsaUserPrefix, seqNo);
break;
case Lsa::Type::COORDINATE:
m_syncLogic->publishUpdate(m_coorLsaUserPrefix, seqNo);
break;
case Lsa::Type::NAME:
m_syncLogic->publishUpdate(m_nameLsaUserPrefix, seqNo);
break;
default:
break;
}
}
void
SyncLogicHandler::buildUpdatePrefix()
{
ndn::Name updatePrefix = m_confParam.getLsaPrefix();
updatePrefix.append(m_confParam.getSiteName());
updatePrefix.append(m_confParam.getRouterName());
m_nameLsaUserPrefix = updatePrefix;
m_nameLsaUserPrefix.append(std::to_string(Lsa::Type::NAME));
m_adjLsaUserPrefix = updatePrefix;
m_adjLsaUserPrefix.append(std::to_string(Lsa::Type::ADJACENCY));
m_coorLsaUserPrefix = updatePrefix;
m_coorLsaUserPrefix.append(std::to_string(Lsa::Type::COORDINATE));
}
} // namespace nlsr