src/route/routing-table-calculator.hpp - NLSR - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2014-2021,  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/>.
  */

 #ifndef NLSR_ROUTING_TABLE_CALCULATOR_HPP
 #define NLSR_ROUTING_TABLE_CALCULATOR_HPP

 #include "common.hpp"
 #include "lsa/lsa.hpp"
 #include "lsa/adj-lsa.hpp"
 #include "lsdb.hpp"
 #include "conf-parameter.hpp"

 #include <list>

 namespace nlsr {

 class Map;
 class RoutingTable;

 class RoutingTableCalculator
 {
 public:
   RoutingTableCalculator(size_t nRouters)
   {
     m_nRouters = nRouters;
   }

 protected:
   /*! \brief Allocate the space needed for the adj. matrix. */
   void
   allocateAdjMatrix();

   /*! \brief set NON_ADJACENT_COST i.e. -12345 to every cell of the matrix to
     ensure that the memory is safe. This is also to incorporate zero cost links */
   void
   initMatrix();

   /*! \brief Constructs an adj. matrix to calculate with.
     \param lsdb Reference to the Lsdb
     \param pMap The map to populate with the adj. data.
   */
   void
   makeAdjMatrix(const Lsdb& lsdb, Map& pMap);

   /*! \brief Writes a formated adjacent matrix to DEBUG log
     \param map The map containing adjacent matrix data
   */
   void
   writeAdjMatrixLog(const Map& map) const;

   /*! \brief Returns how many links a router in the matrix has.
     \param sRouter The router to count the links of.
   */
   int
   getNumOfLinkfromAdjMatrix(int sRouter);

   void
   freeAdjMatrix();
   /*! \brief Adjust a link cost in the adj. matrix
     \param source The source router whose adjacency to adjust.
     \param link The adjacency of the source to adjust.
     \param linkCost The cost to change to.
   */
   void
   adjustAdMatrix(int source, int link, double linkCost);

   /*! \brief Populates temp. variables with the link costs for some router.
     \param source The router whose values are to be adjusted.
     \param links An integer pointer array for the link mappingNos.
     \param linkCosts A double pointer array that stores the link costs.

     Obtains a sparse list of adjacencies and link costs for some
     router. Since this is sparse, that means while generating these
     arrays, if there is no adjacency at i in the matrix, these
     temporary variables will not contain a NON_ADJACENT_COST (-12345) at i,
     but rather will contain the values for the next valid adjacency.
   */
   void
   getLinksFromAdjMatrix(int* links, double* linkCosts, int source);

   /*! Allocates an array large enough to hold multipath calculation temps. */
   void
   allocateLinks();

   void
   allocateLinkCosts();

   void
   freeLinks();

   void
   freeLinksCosts();

   void
   setNoLink(int nl)
   {
     vNoLink = nl;
   }

 protected:
   double** adjMatrix;
   size_t m_nRouters;

   int vNoLink;
   int* links;
   double* linkCosts;

 };

 class LinkStateRoutingTableCalculator: public RoutingTableCalculator
 {
 public:
   LinkStateRoutingTableCalculator(size_t nRouters)
     : RoutingTableCalculator(nRouters)
   {
   }

   void
   calculatePath(Map& pMap, RoutingTable& rt, ConfParameter& confParam,
                 const Lsdb& lsdb);

 private:
   /*! \brief Performs a Dijkstra's calculation over the adjacency matrix.
     \param sourceRouter The origin router to compute paths from.
   */
   void
   doDijkstraPathCalculation(int sourceRouter);

   /*! \brief Sort the elements of a list.
     \param Q The array that contains the elements to sort.
     \param dist The array that contains the distances.
     \param start The first element in the list to sort.
     \param element The last element in the list to sort through.

     Sorts the list based on distance. The distances are indexed by
     their mappingNo in dist. Currently uses an insertion sort.

     The cost between two nodes can be zero or greater than zero.

   */
   void
   sortQueueByDistance(int* Q, double* dist, int start, int element);

   /*! \brief Returns whether an element has been visited yet.
     \param Q The list of elements to look through.
     \param u The element to check.
     \param start The start of list to look through.
     \param element The end of the list to look through.
   */
   int
   isNotExplored(int* Q, int u, int start, int element);

   void
   addAllLsNextHopsToRoutingTable(AdjacencyList& adjacencies, RoutingTable& rt,
                                  Map& pMap, uint32_t sourceRouter);

   /*! \brief Determines a destination's next hop.
     \param dest The router whose next hop we want to determine.
     \param source The router to determine a next path to.
   */
   int
   getLsNextHop(int dest, int source);

   void
   allocateParent();

   void
   allocateDistance();

   void
   freeParent();

   void
   freeDistance();

 private:
   int* m_parent;
   double* m_distance;

   static const int EMPTY_PARENT;
   static const double INF_DISTANCE;
   static const int NO_MAPPING_NUM;
 public:
   static const int NO_NEXT_HOP;

 };

 class AdjacencyList;
 class Lsdb;

 class HyperbolicRoutingCalculator
 {
 public:
   HyperbolicRoutingCalculator(size_t nRouters, bool isDryRun, ndn::Name thisRouterName)
     : m_nRouters(nRouters)
     , m_isDryRun(isDryRun)
     , m_thisRouterName(thisRouterName)
   {
   }

   void
   calculatePath(Map& map, RoutingTable& rt, Lsdb& lsdb, AdjacencyList& adjacencies);

 private:
   double
   getHyperbolicDistance(Lsdb& lsdb, ndn::Name src, ndn::Name dest);

   void
   addNextHop(ndn::Name destinationRouter, std::string faceUri, double cost, RoutingTable& rt);

   double
   calculateHyperbolicDistance(double rI, double rJ, double deltaTheta);

   double
   calculateAngularDistance(std::vector<double> angleVectorI,
                            std::vector<double> angleVectorJ);

 private:
   const size_t m_nRouters;
   const bool m_isDryRun;
   const ndn::Name m_thisRouterName;

   static const double MATH_PI;
   static const double UNKNOWN_DISTANCE;
   static const double UNKNOWN_RADIUS;
 };

 } // namespace nlsr

 #endif // NLSR_ROUTING_TABLE_CALCULATOR_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2014-2021, 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/>.
	*/

	#ifndef NLSR_ROUTING_TABLE_CALCULATOR_HPP
	#define NLSR_ROUTING_TABLE_CALCULATOR_HPP

	#include "common.hpp"
	#include "lsa/lsa.hpp"
	#include "lsa/adj-lsa.hpp"
	#include "lsdb.hpp"
	#include "conf-parameter.hpp"

	#include <list>

	namespace nlsr {

	class Map;
	class RoutingTable;

	class RoutingTableCalculator
	{
	public:
	RoutingTableCalculator(size_t nRouters)
	{
	m_nRouters = nRouters;
	}

	protected:
	/! \brief Allocate the space needed for the adj. matrix. /
	void
	allocateAdjMatrix();

	/*! \brief set NON_ADJACENT_COST i.e. -12345 to every cell of the matrix to
	ensure that the memory is safe. This is also to incorporate zero cost links */
	void
	initMatrix();

	/*! \brief Constructs an adj. matrix to calculate with.
	\param lsdb Reference to the Lsdb
	\param pMap The map to populate with the adj. data.
	*/
	void
	makeAdjMatrix(const Lsdb& lsdb, Map& pMap);

	/*! \brief Writes a formated adjacent matrix to DEBUG log
	\param map The map containing adjacent matrix data
	*/
	void
	writeAdjMatrixLog(const Map& map) const;

	/*! \brief Returns how many links a router in the matrix has.
	\param sRouter The router to count the links of.
	*/
	int
	getNumOfLinkfromAdjMatrix(int sRouter);

	void
	freeAdjMatrix();
	/*! \brief Adjust a link cost in the adj. matrix
	\param source The source router whose adjacency to adjust.
	\param link The adjacency of the source to adjust.
	\param linkCost The cost to change to.
	*/
	void
	adjustAdMatrix(int source, int link, double linkCost);

	/*! \brief Populates temp. variables with the link costs for some router.
	\param source The router whose values are to be adjusted.
	\param links An integer pointer array for the link mappingNos.
	\param linkCosts A double pointer array that stores the link costs.

	Obtains a sparse list of adjacencies and link costs for some
	router. Since this is sparse, that means while generating these
	arrays, if there is no adjacency at i in the matrix, these
	temporary variables will not contain a NON_ADJACENT_COST (-12345) at i,
	but rather will contain the values for the next valid adjacency.
	*/
	void
	getLinksFromAdjMatrix(int* links, double* linkCosts, int source);

	/! Allocates an array large enough to hold multipath calculation temps. /
	void
	allocateLinks();

	void
	allocateLinkCosts();

	void
	freeLinks();

	void
	freeLinksCosts();

	void
	setNoLink(int nl)
	{
	vNoLink = nl;
	}

	protected:
	double** adjMatrix;
	size_t m_nRouters;

	int vNoLink;
	int* links;
	double* linkCosts;

	};

	class LinkStateRoutingTableCalculator: public RoutingTableCalculator
	{
	public:
	LinkStateRoutingTableCalculator(size_t nRouters)
	: RoutingTableCalculator(nRouters)
	{
	}

	void
	calculatePath(Map& pMap, RoutingTable& rt, ConfParameter& confParam,
	const Lsdb& lsdb);

	private:
	/*! \brief Performs a Dijkstra's calculation over the adjacency matrix.
	\param sourceRouter The origin router to compute paths from.
	*/
	void
	doDijkstraPathCalculation(int sourceRouter);

	/*! \brief Sort the elements of a list.
	\param Q The array that contains the elements to sort.
	\param dist The array that contains the distances.
	\param start The first element in the list to sort.
	\param element The last element in the list to sort through.

	Sorts the list based on distance. The distances are indexed by
	their mappingNo in dist. Currently uses an insertion sort.

	The cost between two nodes can be zero or greater than zero.

	*/
	void
	sortQueueByDistance(int* Q, double* dist, int start, int element);

	/*! \brief Returns whether an element has been visited yet.
	\param Q The list of elements to look through.
	\param u The element to check.
	\param start The start of list to look through.
	\param element The end of the list to look through.
	*/
	int
	isNotExplored(int* Q, int u, int start, int element);

	void
	addAllLsNextHopsToRoutingTable(AdjacencyList& adjacencies, RoutingTable& rt,
	Map& pMap, uint32_t sourceRouter);

	/*! \brief Determines a destination's next hop.
	\param dest The router whose next hop we want to determine.
	\param source The router to determine a next path to.
	*/
	int
	getLsNextHop(int dest, int source);

	void
	allocateParent();

	void
	allocateDistance();

	void
	freeParent();

	void
	freeDistance();

	private:
	int* m_parent;
	double* m_distance;

	static const int EMPTY_PARENT;
	static const double INF_DISTANCE;
	static const int NO_MAPPING_NUM;
	public:
	static const int NO_NEXT_HOP;

	};

	class AdjacencyList;
	class Lsdb;

	class HyperbolicRoutingCalculator
	{
	public:
	HyperbolicRoutingCalculator(size_t nRouters, bool isDryRun, ndn::Name thisRouterName)
	: m_nRouters(nRouters)
	, m_isDryRun(isDryRun)
	, m_thisRouterName(thisRouterName)
	{
	}

	void
	calculatePath(Map& map, RoutingTable& rt, Lsdb& lsdb, AdjacencyList& adjacencies);

	private:
	double
	getHyperbolicDistance(Lsdb& lsdb, ndn::Name src, ndn::Name dest);

	void
	addNextHop(ndn::Name destinationRouter, std::string faceUri, double cost, RoutingTable& rt);

	double
	calculateHyperbolicDistance(double rI, double rJ, double deltaTheta);

	double
	calculateAngularDistance(std::vector<double> angleVectorI,
	std::vector<double> angleVectorJ);

	private:
	const size_t m_nRouters;
	const bool m_isDryRun;
	const ndn::Name m_thisRouterName;

	static const double MATH_PI;
	static const double UNKNOWN_DISTANCE;
	static const double UNKNOWN_RADIUS;
	};

	} // namespace nlsr

	#endif // NLSR_ROUTING_TABLE_CALCULATOR_HPP