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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014 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>
*
**/
#ifndef CONF_PARAMETER_HPP
#define CONF_PARAMETER_HPP
#include <iostream>
#include <boost/cstdint.hpp>
#include <ndn-cxx/common.hpp>
#include <ndn-cxx/face.hpp>
#include <ndn-cxx/util/time.hpp>
#include "logger.hpp"
namespace nlsr {
enum {
LSA_REFRESH_TIME_MIN = 240,
LSA_REFRESH_TIME_DEFAULT = 1800,
LSA_REFRESH_TIME_MAX = 7200
};
enum {
LSA_INTEREST_LIFETIME_MIN = 1,
LSA_INTEREST_LIFETIME_DEFAULT = 4,
LSA_INTEREST_LIFETIME_MAX = 60
};
enum {
ADJ_LSA_BUILD_INTERVAL_MIN = 0,
ADJ_LSA_BUILD_INTERVAL_DEFAULT = 5,
ADJ_LSA_BUILD_INTERVAL_MAX = 5
};
enum {
FIRST_HELLO_INTERVAL_MIN = 0,
FIRST_HELLO_INTERVAL_DEFAULT = 10,
FIRST_HELLO_INTERVAL_MAX = 10
};
enum {
ROUTING_CALC_INTERVAL_MIN = 0,
ROUTING_CALC_INTERVAL_DEFAULT = 15,
ROUTING_CALC_INTERVAL_MAX = 15
};
enum {
HELLO_RETRIES_MIN = 1,
HELLO_RETRIES_DEFAULT = 3,
HELLO_RETRIES_MAX = 15
};
enum {
HELLO_TIMEOUT_MIN = 1,
HELLO_TIMEOUT_DEFAULT = 3,
HELLO_TIMEOUT_MAX = 15
};
enum {
HELLO_INTERVAL_MIN = 30,
HELLO_INTERVAL_DEFAULT = 60,
HELLO_INTERVAL_MAX =90
};
enum {
MAX_FACES_PER_PREFIX_MIN = 0,
MAX_FACES_PER_PREFIX_DEFAULT = 0,
MAX_FACES_PER_PREFIX_MAX = 60
};
enum {
HYPERBOLIC_STATE_OFF = 0,
HYPERBOLIC_STATE_ON = 1,
HYPERBOLIC_STATE_DRY_RUN = 2,
HYPERBOLIC_STATE_DEFAULT = 0
};
class ConfParameter
{
public:
ConfParameter()
: m_lsaRefreshTime(LSA_REFRESH_TIME_DEFAULT)
, m_adjLsaBuildInterval(ADJ_LSA_BUILD_INTERVAL_DEFAULT)
, m_firstHelloInterval(FIRST_HELLO_INTERVAL_DEFAULT)
, m_routingCalcInterval(ROUTING_CALC_INTERVAL_DEFAULT)
, m_lsaInterestLifetime(ndn::time::seconds(static_cast<int>(LSA_INTEREST_LIFETIME_DEFAULT)))
, m_routerDeadInterval(2 * LSA_REFRESH_TIME_DEFAULT)
, m_logLevel("INFO")
, m_interestRetryNumber(HELLO_RETRIES_DEFAULT)
, m_interestResendTime(HELLO_TIMEOUT_DEFAULT)
, m_infoInterestInterval(HELLO_INTERVAL_DEFAULT)
, m_hyperbolicState(HYPERBOLIC_STATE_OFF)
, m_corR(0)
, m_corTheta(0)
, m_maxFacesPerPrefix(MAX_FACES_PER_PREFIX_MIN)
, m_isLog4cxxConfAvailable(false)
{
}
void
setNetwork(const ndn::Name& networkName)
{
m_network = networkName;
m_chronosyncPrefix = m_network;
m_chronosyncPrefix.append("NLSR");
m_chronosyncPrefix.append("sync");
m_lsaPrefix = m_network;
m_lsaPrefix.append("NLSR");
m_lsaPrefix.append("LSA");
}
const ndn::Name&
getNetwork() const
{
return m_network;
}
void
setRouterName(const ndn::Name& routerName)
{
m_routerName = routerName;
}
const ndn::Name&
getRouterName() const
{
return m_routerName;
}
void
setSiteName(const ndn::Name& siteName)
{
m_siteName = siteName;
}
const ndn::Name&
getSiteName() const
{
return m_siteName;
}
void
buildRouterPrefix()
{
m_routerPrefix = m_network;
m_routerPrefix.append(m_siteName);
m_routerPrefix.append(m_routerName);
}
const ndn::Name&
getRouterPrefix() const
{
return m_routerPrefix;
}
const ndn::Name&
getChronosyncPrefix() const
{
return m_chronosyncPrefix;
}
const ndn::Name&
getLsaPrefix() const
{
return m_lsaPrefix;
}
void
setLsaRefreshTime(uint32_t lrt)
{
m_lsaRefreshTime = lrt;
}
uint32_t
getLsaRefreshTime() const
{
return m_lsaRefreshTime;
}
void
setLsaInterestLifetime(const ndn::time::seconds& lifetime)
{
m_lsaInterestLifetime = lifetime;
}
const ndn::time::seconds&
getLsaInterestLifetime() const
{
return m_lsaInterestLifetime;
}
void
setAdjLsaBuildInterval(uint32_t interval)
{
m_adjLsaBuildInterval = interval;
}
uint32_t
getAdjLsaBuildInterval() const
{
return m_adjLsaBuildInterval;
}
void
setFirstHelloInterval(uint32_t interval)
{
m_firstHelloInterval = interval;
}
uint32_t
getFirstHelloInterval() const
{
return m_firstHelloInterval;
}
void
setRoutingCalcInterval(uint32_t interval)
{
m_routingCalcInterval = interval;
}
uint32_t
getRoutingCalcInterval() const
{
return m_routingCalcInterval;
}
void
setRouterDeadInterval(uint32_t rdt)
{
m_routerDeadInterval = rdt;
}
uint32_t
getRouterDeadInterval() const
{
return m_routerDeadInterval;
}
void
setLogLevel(const std::string& logLevel)
{
m_logLevel = logLevel;
}
const std::string&
getLogLevel() const
{
return m_logLevel;
}
void
setInterestRetryNumber(uint32_t irn)
{
m_interestRetryNumber = irn;
}
uint32_t
getInterestRetryNumber() const
{
return m_interestRetryNumber;
}
void
setInterestResendTime(uint32_t irt)
{
m_interestResendTime = irt;
}
uint32_t
getInterestResendTime() const
{
return m_interestResendTime;
}
uint32_t
getInfoInterestInterval() const
{
return m_infoInterestInterval;
}
void
setInfoInterestInterval(uint32_t iii)
{
m_infoInterestInterval = iii;
}
void
setHyperbolicState(int32_t ihc)
{
m_hyperbolicState = ihc;
}
int32_t
getHyperbolicState() const
{
return m_hyperbolicState;
}
bool
setCorR(double cr)
{
if ( cr >= 0 ) {
m_corR = cr;
return true;
}
return false;
}
double
getCorR() const
{
return m_corR;
}
void
setCorTheta(double ct)
{
m_corTheta = ct;
}
double
getCorTheta() const
{
return m_corTheta;
}
void
setMaxFacesPerPrefix(uint32_t mfpp)
{
m_maxFacesPerPrefix = mfpp;
}
uint32_t
getMaxFacesPerPrefix() const
{
return m_maxFacesPerPrefix;
}
void
setLogDir(const std::string& logDir)
{
m_logDir = logDir;
}
const std::string&
getLogDir() const
{
return m_logDir;
}
void
setSeqFileDir(const std::string& ssfd)
{
m_seqFileDir = ssfd;
}
const std::string&
getSeqFileDir() const
{
return m_seqFileDir;
}
bool
isLog4CxxConfAvailable() const
{
return m_isLog4cxxConfAvailable;
}
void
setLog4CxxConfPath(const std::string& path)
{
m_log4CxxConfPath = path;
m_isLog4cxxConfAvailable = true;
}
const std::string&
getLog4CxxConfPath() const
{
return m_log4CxxConfPath;
}
void
writeLog();
private:
ndn::Name m_routerName;
ndn::Name m_siteName;
ndn::Name m_network;
ndn::Name m_routerPrefix;
ndn::Name m_lsaRouterPrefix;
ndn::Name m_chronosyncPrefix;
ndn::Name m_lsaPrefix;
uint32_t m_lsaRefreshTime;
uint32_t m_adjLsaBuildInterval;
uint32_t m_firstHelloInterval;
uint32_t m_routingCalcInterval;
ndn::time::seconds m_lsaInterestLifetime;
uint32_t m_routerDeadInterval;
std::string m_logLevel;
uint32_t m_interestRetryNumber;
uint32_t m_interestResendTime;
uint32_t m_infoInterestInterval;
int32_t m_hyperbolicState;
double m_corR;
double m_corTheta;
uint32_t m_maxFacesPerPrefix;
std::string m_logDir;
std::string m_seqFileDir;
bool m_isLog4cxxConfAvailable;
std::string m_log4CxxConfPath;
};
} // namespace nlsr
#endif //CONF_PARAMETER_HPP