blob: b1e02dcaa44e3482606ec6aca2ab61e531c191fc [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014-2017, 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/>.
*
* \author A K M Mahmudul Hoque <ahoque1@memphis.edu>
*
**/
#include <iostream>
#include <string>
#include <list>
#include "routing-table.hpp"
#include "nlsr.hpp"
#include "map.hpp"
#include "conf-parameter.hpp"
#include "routing-table-calculator.hpp"
#include "routing-table-entry.hpp"
#include "name-prefix-table.hpp"
#include "logger.hpp"
namespace nlsr {
INIT_LOGGER("RoutingTable");
using namespace std;
void
RoutingTable::calculate(Nlsr& pnlsr)
{
pnlsr.getLsdb().writeCorLsdbLog();
pnlsr.getLsdb().writeNameLsdbLog();
pnlsr.getLsdb().writeAdjLsdbLog();
pnlsr.getNamePrefixTable().writeLog();
if (pnlsr.getIsRoutingTableCalculating() == false) {
//setting routing table calculation
pnlsr.setIsRoutingTableCalculating(true);
bool isHrEnabled = pnlsr.getConfParameter().getHyperbolicState() != HYPERBOLIC_STATE_OFF;
if ((!isHrEnabled
&&
pnlsr.getLsdb()
.doesLsaExist(pnlsr.getConfParameter().getRouterPrefix().toUri()
+ "/" + "adjacency", std::string("adjacency")))
||
(isHrEnabled
&&
pnlsr.getLsdb()
.doesLsaExist(pnlsr.getConfParameter().getRouterPrefix().toUri()
+ "/" + "coordinate", std::string("coordinate")))) {
if (pnlsr.getIsBuildAdjLsaSheduled() != 1) {
_LOG_TRACE("Clearing old routing table");
clearRoutingTable();
// for dry run options
clearDryRoutingTable();
_LOG_DEBUG("Calculating routing table");
// calculate Link State routing
if ((pnlsr.getConfParameter().getHyperbolicState() == HYPERBOLIC_STATE_OFF)
|| (pnlsr.getConfParameter().getHyperbolicState() == HYPERBOLIC_STATE_DRY_RUN)) {
calculateLsRoutingTable(pnlsr);
}
//calculate hyperbolic routing
if (pnlsr.getConfParameter().getHyperbolicState() == HYPERBOLIC_STATE_ON) {
calculateHypRoutingTable(pnlsr);
}
//calculate dry hyperbolic routing
if (pnlsr.getConfParameter().getHyperbolicState() == HYPERBOLIC_STATE_DRY_RUN) {
calculateHypDryRoutingTable(pnlsr);
}
// Inform the NPT that updates have been made
_LOG_DEBUG("Calling Update NPT With new Route");
pnlsr.getNamePrefixTable().updateWithNewRoute();
writeLog(pnlsr.getConfParameter().getHyperbolicState());
pnlsr.getNamePrefixTable().writeLog();
pnlsr.getFib().writeLog();
}
else {
_LOG_DEBUG("Adjacency building is scheduled, so"
" routing table can not be calculated :(");
}
}
else {
_LOG_DEBUG("No Adj LSA of router itself,"
" so Routing table can not be calculated :(");
clearRoutingTable();
clearDryRoutingTable(); // for dry run options
// need to update NPT here
_LOG_DEBUG("Calling Update NPT With new Route");
pnlsr.getNamePrefixTable().updateWithNewRoute();
writeLog(pnlsr.getConfParameter().getHyperbolicState());
pnlsr.getNamePrefixTable().writeLog();
pnlsr.getFib().writeLog();
//debugging purpose end
}
pnlsr.setIsRouteCalculationScheduled(false); //clear scheduled flag
pnlsr.setIsRoutingTableCalculating(false); //unsetting routing table calculation
}
else {
scheduleRoutingTableCalculation(pnlsr);
}
}
void
RoutingTable::calculateLsRoutingTable(Nlsr& nlsr)
{
_LOG_DEBUG("RoutingTable::calculateLsRoutingTable Called");
Map map;
map.createFromAdjLsdb(nlsr);
map.writeLog();
size_t nRouters = map.getMapSize();
LinkStateRoutingTableCalculator calculator(nRouters);
calculator.calculatePath(map, std::ref(*this), nlsr);
}
void
RoutingTable::calculateHypRoutingTable(Nlsr& nlsr)
{
Map map;
map.createFromCoordinateLsdb(nlsr);
map.writeLog();
size_t nRouters = map.getMapSize();
HyperbolicRoutingCalculator calculator(nRouters, false,
nlsr.getConfParameter().getRouterPrefix());
calculator.calculatePaths(map, std::ref(*this),
nlsr.getLsdb(), nlsr.getAdjacencyList());
}
void
RoutingTable::calculateHypDryRoutingTable(Nlsr& nlsr)
{
Map map;
map.createFromAdjLsdb(nlsr);
map.writeLog();
size_t nRouters = map.getMapSize();
HyperbolicRoutingCalculator calculator(nRouters, true,
nlsr.getConfParameter().getRouterPrefix());
calculator.calculatePaths(map, std::ref(*this),
nlsr.getLsdb(), nlsr.getAdjacencyList());
}
void
RoutingTable::scheduleRoutingTableCalculation(Nlsr& pnlsr)
{
if (pnlsr.getIsRouteCalculationScheduled() != true) {
_LOG_DEBUG("Scheduling routing table calculation in " << m_routingCalcInterval);
m_scheduler.scheduleEvent(m_routingCalcInterval,
std::bind(&RoutingTable::calculate, this, std::ref(pnlsr)));
pnlsr.setIsRouteCalculationScheduled(true);
}
}
static bool
routingTableEntryCompare(RoutingTableEntry& rte, ndn::Name& destRouter)
{
return rte.getDestination() == destRouter;
}
void
RoutingTable::addNextHop(const ndn::Name& destRouter, NextHop& nh)
{
_LOG_DEBUG("Adding " << nh << " for destination: " << destRouter);
RoutingTableEntry* rteChk = findRoutingTableEntry(destRouter);
if (rteChk == 0) {
RoutingTableEntry rte(destRouter);
rte.getNexthopList().addNextHop(nh);
m_rTable.push_back(rte);
}
else {
rteChk->getNexthopList().addNextHop(nh);
}
}
RoutingTableEntry*
RoutingTable::findRoutingTableEntry(const ndn::Name& destRouter)
{
std::list<RoutingTableEntry>::iterator it = std::find_if(m_rTable.begin(),
m_rTable.end(),
std::bind(&routingTableEntryCompare,
_1, destRouter));
if (it != m_rTable.end()) {
return &(*it);
}
return 0;
}
void
RoutingTable::writeLog(int hyperbolicState)
{
_LOG_DEBUG("---------------Routing Table------------------");
for (std::list<RoutingTableEntry>::iterator it = m_rTable.begin() ;
it != m_rTable.end(); ++it) {
_LOG_DEBUG("Destination: " << (*it).getDestination());
_LOG_DEBUG("Nexthops: ");
(*it).getNexthopList().writeLog();
}
if (hyperbolicState == HYPERBOLIC_STATE_DRY_RUN) {
_LOG_DEBUG("--------Hyperbolic Routing Table(Dry)---------");
for (std::list<RoutingTableEntry>::iterator it = m_dryTable.begin() ;
it != m_dryTable.end(); ++it) {
_LOG_DEBUG("Destination: " << (*it).getDestination());
_LOG_DEBUG("Nexthops: ");
(*it).getNexthopList().writeLog();
}
}
}
void
RoutingTable::addNextHopToDryTable(const ndn::Name& destRouter, NextHop& nh)
{
_LOG_DEBUG("Adding " << nh << " to dry table for destination: " << destRouter);
std::list<RoutingTableEntry>::iterator it = std::find_if(m_dryTable.begin(),
m_dryTable.end(),
std::bind(&routingTableEntryCompare,
_1, destRouter));
if (it == m_dryTable.end()) {
RoutingTableEntry rte(destRouter);
rte.getNexthopList().addNextHop(nh);
m_dryTable.push_back(rte);
}
else {
(*it).getNexthopList().addNextHop(nh);
}
}
void
RoutingTable::clearRoutingTable()
{
if (m_rTable.size() > 0) {
m_rTable.clear();
}
}
void
RoutingTable::clearDryRoutingTable()
{
if (m_dryTable.size() > 0) {
m_dryTable.clear();
}
}
} // namespace nlsr