daemon/table/dead-nonce-list.hpp - ndnSIM - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014,  Regents of the University of California,
  *                      Arizona Board of Regents,
  *                      Colorado State University,
  *                      University Pierre & Marie Curie, Sorbonne University,
  *                      Washington University in St. Louis,
  *                      Beijing Institute of Technology,
  *                      The University of Memphis
  *
  * This file is part of NFD (Named Data Networking Forwarding Daemon).
  * See AUTHORS.md for complete list of NFD authors and contributors.
  *
  * NFD 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.
  *
  * NFD 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
  * NFD, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  */

 #ifndef NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP
 #define NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP

 #include "common.hpp"
 #include <boost/multi_index_container.hpp>
 #include <boost/multi_index/sequenced_index.hpp>
 #include <boost/multi_index/hashed_index.hpp>
 #include "core/scheduler.hpp"

 namespace nfd {

 /** \brief represents the Dead Nonce list
  *
  *  The Dead Nonce List is a global table that supplements PIT for loop detection.
  *  When a Nonce is erased (dead) from PIT entry, the Nonce and the Interest Name is added to
  *  Dead Nonce List, and kept for a duration in which most loops are expected to have occured.
  *
  *  To reduce memory usage, the Interest Name and Nonce are stored as a 64-bit hash.
  *  There could be false positives (non-looping Interest could be considered looping),
  *  but the probability is small, and the error is recoverable when consumer retransmits
  *  with a different Nonce.
  *
  *  To reduce memory usage, entries do not have associated timestamps. Instead,
  *  lifetime of entries is controlled by dynamically adjusting the capacity of the container.
  *  At fixed intervals, the MARK, an entry with a special value, is inserted into the container.
  *  The number of MARKs stored in the container reflects the lifetime of entries,
  *  because MARKs are inserted at fixed intervals.
  */
 class DeadNonceList : noncopyable
 {
 public:
   /** \brief constructs the Dead Nonce List
    *  \param lifetime duration of the expected lifetime of each nonce,
    *         must be no less than MIN_LIFETIME.
    *         This should be set to the duration in which most loops would have occured.
    *         A loop cannot be detected if delay of the cycle is greater than lifetime.
    *  \throw std::invalid_argument if lifetime is less than MIN_LIFETIME
    */
   explicit
   DeadNonceList(const time::nanoseconds& lifetime = DEFAULT_LIFETIME);

   ~DeadNonceList();

   /** \brief determines if name+nonce exists
    *  \return true if name+nonce exists
    */
   bool
   has(const Name& name, uint32_t nonce) const;

   /** \brief records name+nonce
    */
   void
   add(const Name& name, uint32_t nonce);

   /** \return number of stored Nonces
    *  \note The return value does not contain non-Nonce entries in the index, if any.
    */
   size_t
   size() const;

 private: // Entry and Index
   typedef uint64_t Entry;

   static Entry
   makeEntry(const Name& name, uint32_t nonce);

   typedef boost::multi_index_container<
     Entry,
     boost::multi_index::indexed_by<
       boost::multi_index::sequenced<>,
       boost::multi_index::hashed_non_unique<
         boost::multi_index::identity<Entry>
       >
     >
   > Index;

   typedef Index::nth_index<0>::type Queue;
   typedef Index::nth_index<1>::type Hashtable;

 private: // actual lifetime estimation and capacity control
   /** \return number of MARKs in the index
    */
   size_t
   countMarks() const;

   /** \brief add a MARK, then record number of MARKs in m_actualMarkCounts
    */
   void
   mark();

   /** \brief adjust capacity according to m_actualMarkCounts
    *
    *  If all counts are above EXPECTED_MARK_COUNT, reduce capacity to m_capacity * CAPACITY_DOWN.
    *  If all counts are below EXPECTED_MARK_COUNT, increase capacity to m_capacity * CAPACITY_UP.
    */
   void
   adjustCapacity();

   /** \brief evict some entries if index is over capacity
    */
   void
   evictEntries();

 public:
   /// default entry lifetime
   static const time::nanoseconds DEFAULT_LIFETIME;

   /// minimum entry lifetime
   static const time::nanoseconds MIN_LIFETIME;

 private:
   time::nanoseconds m_lifetime;
   Index m_index;
   Queue& m_queue;
   Hashtable& m_ht;

 PUBLIC_WITH_TESTS_ELSE_PRIVATE: // actual lifetime estimation and capacity control

   // ---- current capacity and hard limits

   /** \brief current capacity of index
    *
    *  The index size is maintained to be near this capacity.
    *
    *  The capacity is adjusted so that every Entry is expected to be kept for m_lifetime.
    *  This is achieved by mark() and adjustCapacity().
    */
   size_t m_capacity;

   static const size_t INITIAL_CAPACITY;

   /** \brief minimum capacity
    *
    *  This is to ensure correct algorithm operations.
    */
   static const size_t MIN_CAPACITY;

   /** \brief maximum capacity
    *
    *  This is to limit memory usage.
    */
   static const size_t MAX_CAPACITY;

   // ---- actual entry lifetime estimation

   /** \brief the MARK for capacity
    *
    *  The MARK doesn't have a distinct type.
    *  Entry is a hash. The hash function should have non-invertible property,
    *  so it's unlikely for a usual Entry to have collision with the MARK.
    */
   static const Entry MARK;

   /** \brief expected number of MARKs in the index
    */
   static const size_t EXPECTED_MARK_COUNT;

   /** \brief number of MARKs in the index after each MARK insertion
    *
    *  adjustCapacity uses this to determine whether and how to adjust capcity,
    *  and then clears this list.
    */
   std::multiset<size_t> m_actualMarkCounts;

   time::nanoseconds m_markInterval;

   scheduler::EventId m_markEvent;

   // ---- capacity adjustments

   static const double CAPACITY_UP;

   static const double CAPACITY_DOWN;

   time::nanoseconds m_adjustCapacityInterval;

   scheduler::EventId m_adjustCapacityEvent;

   /** \brief maximum number of entries to evict at each operation if index is over capacity
    */
   static const size_t EVICT_LIMIT;
 };

 } // namespace nfd

 #endif // NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014, Regents of the University of California,
	* Arizona Board of Regents,
	* Colorado State University,
	* University Pierre & Marie Curie, Sorbonne University,
	* Washington University in St. Louis,
	* Beijing Institute of Technology,
	* The University of Memphis
	*
	* This file is part of NFD (Named Data Networking Forwarding Daemon).
	* See AUTHORS.md for complete list of NFD authors and contributors.
	*
	* NFD 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.
	*
	* NFD 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
	* NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	*/

	#ifndef NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP
	#define NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP

	#include "common.hpp"
	#include <boost/multi_index_container.hpp>
	#include <boost/multi_index/sequenced_index.hpp>
	#include <boost/multi_index/hashed_index.hpp>
	#include "core/scheduler.hpp"

	namespace nfd {

	/** \brief represents the Dead Nonce list
	*
	* The Dead Nonce List is a global table that supplements PIT for loop detection.
	* When a Nonce is erased (dead) from PIT entry, the Nonce and the Interest Name is added to
	* Dead Nonce List, and kept for a duration in which most loops are expected to have occured.
	*
	* To reduce memory usage, the Interest Name and Nonce are stored as a 64-bit hash.
	* There could be false positives (non-looping Interest could be considered looping),
	* but the probability is small, and the error is recoverable when consumer retransmits
	* with a different Nonce.
	*
	* To reduce memory usage, entries do not have associated timestamps. Instead,
	* lifetime of entries is controlled by dynamically adjusting the capacity of the container.
	* At fixed intervals, the MARK, an entry with a special value, is inserted into the container.
	* The number of MARKs stored in the container reflects the lifetime of entries,
	* because MARKs are inserted at fixed intervals.
	*/
	class DeadNonceList : noncopyable
	{
	public:
	/** \brief constructs the Dead Nonce List
	* \param lifetime duration of the expected lifetime of each nonce,
	* must be no less than MIN_LIFETIME.
	* This should be set to the duration in which most loops would have occured.
	* A loop cannot be detected if delay of the cycle is greater than lifetime.
	* \throw std::invalid_argument if lifetime is less than MIN_LIFETIME
	*/
	explicit
	DeadNonceList(const time::nanoseconds& lifetime = DEFAULT_LIFETIME);

	~DeadNonceList();

	/** \brief determines if name+nonce exists
	* \return true if name+nonce exists
	*/
	bool
	has(const Name& name, uint32_t nonce) const;

	/** \brief records name+nonce
	*/
	void
	add(const Name& name, uint32_t nonce);

	/** \return number of stored Nonces
	* \note The return value does not contain non-Nonce entries in the index, if any.
	*/
	size_t
	size() const;

	private: // Entry and Index
	typedef uint64_t Entry;

	static Entry
	makeEntry(const Name& name, uint32_t nonce);

	typedef boost::multi_index_container<
	Entry,
	boost::multi_index::indexed_by<
	boost::multi_index::sequenced<>,
	boost::multi_index::hashed_non_unique<
	boost::multi_index::identity<Entry>
	>
	>
	> Index;

	typedef Index::nth_index<0>::type Queue;
	typedef Index::nth_index<1>::type Hashtable;

	private: // actual lifetime estimation and capacity control
	/** \return number of MARKs in the index
	*/
	size_t
	countMarks() const;

	/** \brief add a MARK, then record number of MARKs in m_actualMarkCounts
	*/
	void
	mark();

	/** \brief adjust capacity according to m_actualMarkCounts
	*
	* If all counts are above EXPECTED_MARK_COUNT, reduce capacity to m_capacity * CAPACITY_DOWN.
	* If all counts are below EXPECTED_MARK_COUNT, increase capacity to m_capacity * CAPACITY_UP.
	*/
	void
	adjustCapacity();

	/** \brief evict some entries if index is over capacity
	*/
	void
	evictEntries();

	public:
	/// default entry lifetime
	static const time::nanoseconds DEFAULT_LIFETIME;

	/// minimum entry lifetime
	static const time::nanoseconds MIN_LIFETIME;

	private:
	time::nanoseconds m_lifetime;
	Index m_index;
	Queue& m_queue;
	Hashtable& m_ht;

	PUBLIC_WITH_TESTS_ELSE_PRIVATE: // actual lifetime estimation and capacity control

	// ---- current capacity and hard limits

	/** \brief current capacity of index
	*
	* The index size is maintained to be near this capacity.
	*
	* The capacity is adjusted so that every Entry is expected to be kept for m_lifetime.
	* This is achieved by mark() and adjustCapacity().
	*/
	size_t m_capacity;

	static const size_t INITIAL_CAPACITY;

	/** \brief minimum capacity
	*
	* This is to ensure correct algorithm operations.
	*/
	static const size_t MIN_CAPACITY;

	/** \brief maximum capacity
	*
	* This is to limit memory usage.
	*/
	static const size_t MAX_CAPACITY;

	// ---- actual entry lifetime estimation

	/** \brief the MARK for capacity
	*
	* The MARK doesn't have a distinct type.
	* Entry is a hash. The hash function should have non-invertible property,
	* so it's unlikely for a usual Entry to have collision with the MARK.
	*/
	static const Entry MARK;

	/** \brief expected number of MARKs in the index
	*/
	static const size_t EXPECTED_MARK_COUNT;

	/** \brief number of MARKs in the index after each MARK insertion
	*
	* adjustCapacity uses this to determine whether and how to adjust capcity,
	* and then clears this list.
	*/
	std::multiset<size_t> m_actualMarkCounts;

	time::nanoseconds m_markInterval;

	scheduler::EventId m_markEvent;

	// ---- capacity adjustments

	static const double CAPACITY_UP;

	static const double CAPACITY_DOWN;

	time::nanoseconds m_adjustCapacityInterval;

	scheduler::EventId m_adjustCapacityEvent;

	/** \brief maximum number of entries to evict at each operation if index is over capacity
	*/
	static const size_t EVICT_LIMIT;
	};

	} // namespace nfd

	#endif // NFD_DAEMON_TABLE_DEAD_NONCE_LIST_HPP