daemon/fw/strategy.hpp - NFD - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2014-2021,  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_FW_STRATEGY_HPP
 #define NFD_DAEMON_FW_STRATEGY_HPP

 #include "forwarder.hpp"
 #include "table/measurements-accessor.hpp"

 namespace nfd {
 namespace fw {

 /**
  * \brief Represents a forwarding strategy
  */
 class Strategy : noncopyable
 {
 public: // registry
   /** \brief Register a strategy type
    *  \tparam S subclass of Strategy
    *  \param strategyName strategy program name, must contain version
    *  \note It is permitted to register the same strategy type under multiple names,
    *        which is useful in tests and for creating aliases.
    */
   template<typename S>
   static void
   registerType(const Name& strategyName = S::getStrategyName())
   {
     BOOST_ASSERT(strategyName.size() > 1);
     BOOST_ASSERT(strategyName.at(-1).isVersion());
     Registry& registry = getRegistry();
     BOOST_ASSERT(registry.count(strategyName) == 0);
     registry[strategyName] = [] (auto&&... args) {
       return make_unique<S>(std::forward<decltype(args)>(args)...);
     };
   }

   /** \return Whether a strategy instance can be created from \p instanceName
    *  \param instanceName strategy instance name, may contain version and parameters
    *  \note This function finds a strategy type using same rules as \p create ,
    *        but does not attempt to construct an instance.
    */
   static bool
   canCreate(const Name& instanceName);

   /** \return A strategy instance created from \p instanceName
    *  \retval nullptr if !canCreate(instanceName)
    *  \throw std::invalid_argument strategy type constructor does not accept
    *                               specified version or parameters
    */
   static unique_ptr<Strategy>
   create(const Name& instanceName, Forwarder& forwarder);

   /** \return Whether \p instanceNameA and \p instanceNameA will initiate same strategy type
    */
   static bool
   areSameType(const Name& instanceNameA, const Name& instanceNameB);

   /** \return Registered versioned strategy names
    */
   static std::set<Name>
   listRegistered();

 public: // constructor, destructor, strategy info
   /** \brief Construct a strategy instance.
    *  \param forwarder a reference to the forwarder, used to enable actions and accessors.
    *  \note Strategy subclass constructor must not retain a reference to \p forwarder.
    */
   explicit
   Strategy(Forwarder& forwarder);

   virtual
   ~Strategy();

 #ifdef DOXYGEN
   /** \return Strategy program name
    *
    *  The strategy name is defined by the strategy program.
    *  It must end with a version component.
    */
   static const Name&
   getStrategyName();
 #endif

   /** \return Strategy instance name
    *
    *  The instance name is assigned during instantiation.
    *  It contains a version component, and may have extra parameter components.
    */
   const Name&
   getInstanceName() const
   {
     return m_name;
   }

 public: // triggers
   /**
    * \brief Trigger after an Interest is received.
    *
    * The Interest:
    *  - has not exceeded HopLimit
    *  - does not violate Scope
    *  - is not looped
    *  - cannot be satisfied by ContentStore
    *  - is under a namespace managed by this strategy
    *
    * The PIT entry is set to expire after InterestLifetime has elapsed at each downstream.
    *
    * The strategy should decide whether and where to forward this Interest.
    *  - If the strategy decides to forward this Interest,
    *    invoke sendInterest() for each upstream, either now or shortly after via a scheduler event,
    *    but before the PIT entry expires.
    *    Optionally, the strategy can invoke setExpiryTimer() to adjust how long it would wait for a response.
    *  - If the strategy has already forwarded this Interest previously and decides to continue
    *    waiting, do nothing.
    *    Optionally, the strategy can invoke setExpiryTimer() to adjust how long it would wait for a response.
    *  - If the strategy concludes that this Interest cannot be satisfied,
    *    invoke rejectPendingInterest() to erase the PIT entry.
    *
    * \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
    *          returns, otherwise undefined behavior may occur. However, the strategy is allowed to
    *          construct and keep a weak_ptr to \p pitEntry.
    */
   virtual void
   afterReceiveInterest(const Interest& interest, const FaceEndpoint& ingress,
                        const shared_ptr<pit::Entry>& pitEntry) = 0;

   /**
    * \brief Trigger after a matching Data is found in the Content Store.
    *
    * In the base class, this method sends \p data to \p ingress.
    *
    * \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
    *          returns, otherwise undefined behavior may occur. However, the strategy is allowed to
    *          construct and keep a weak_ptr to \p pitEntry.
    */
   virtual void
   afterContentStoreHit(const Data& data, const FaceEndpoint& ingress,
                        const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Trigger before a PIT entry is satisfied.
    *
    * This trigger is invoked when an incoming Data satisfies more than one PIT entry.
    * The strategy can collect measurements information, but cannot manipulate Data forwarding.
    * When an incoming Data satisfies only one PIT entry, afterReceiveData() is invoked instead
    * and given full control over Data forwarding. If a strategy does not override afterReceiveData(),
    * the default implementation invokes beforeSatisfyInterest().
    *
    * Normally, PIT entries are erased after receiving the first matching Data.
    * If the strategy wishes to collect responses from additional upstream nodes,
    * it should invoke setExpiryTimer() within this function to prolong the PIT entry lifetime.
    * If a Data arrives from another upstream during the extended PIT entry lifetime, this trigger
    * will be invoked again. At that time, the strategy must invoke setExpiryTimer() again to
    * continue collecting more responses.
    *
    * In the base class, this method does nothing.
    *
    * \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
    *          returns, otherwise undefined behavior may occur. However, the strategy is allowed to
    *          construct and keep a weak_ptr to \p pitEntry.
    */
   virtual void
   beforeSatisfyInterest(const Data& data, const FaceEndpoint& ingress,
                         const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Trigger after Data is received.
    *
    * This trigger is invoked when an incoming Data satisfies exactly one PIT entry,
    * and gives the strategy full control over Data forwarding.
    *
    * When this trigger is invoked:
    *  - The Data has been verified to satisfy the PIT entry.
    *  - The PIT entry expiry timer is set to now
    *
    * Inside this function:
    *  - A strategy should return Data to downstream nodes via sendData() or sendDataToAll().
    *  - A strategy can modify the Data as long as it still satisfies the PIT entry, such as
    *    adding or removing congestion marks.
    *  - A strategy can delay Data forwarding by prolonging the PIT entry lifetime via setExpiryTimer(),
    *    and later forward the Data before the PIT entry is erased.
    *  - A strategy can collect measurements about the upstream.
    *  - A strategy can collect responses from additional upstream nodes by prolonging the PIT entry
    *    lifetime via setExpiryTimer() every time a Data is received. Note that only one Data should
    *    be returned to each downstream node.
    *
    * In the base class, this method invokes beforeSatisfyInterest() and then returns the Data
    * to all downstream faces via sendDataToAll().
    *
    * \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
    *          returns, otherwise undefined behavior may occur. However, the strategy is allowed to
    *          construct and keep a weak_ptr to \p pitEntry.
    */
   virtual void
   afterReceiveData(const Data& data, const FaceEndpoint& ingress,
                    const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Trigger after a Nack is received.
    *
    * This trigger is invoked when an incoming Nack is received in response to
    * an forwarded Interest.
    * The Nack has been confirmed to be a response to the last Interest forwarded
    * to that upstream, i.e. the PIT out-record exists and has a matching Nonce.
    * The NackHeader has been recorded in the PIT out-record.
    *
    * If the PIT entry is not yet satisfied, its expiry timer remains unchanged.
    * Otherwise, the PIT entry will normally expire immediately after this function returns.
    *
    * If the strategy wishes to collect responses from additional upstream nodes,
    * it should invoke setExpiryTimer() within this function to prolong the PIT entry lifetime.
    * If a Nack arrives from another upstream during the extended PIT entry lifetime, this trigger
    * will be invoked again. At that time, the strategy must invoke setExpiryTimer() again to
    * continue collecting more responses.
    *
    * In the base class, this method does nothing.
    *
    * \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
    *          returns, otherwise undefined behavior may occur. However, the strategy is allowed to
    *          construct and keep a weak_ptr to \p pitEntry.
    */
   virtual void
   afterReceiveNack(const lp::Nack& nack, const FaceEndpoint& ingress,
                    const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Trigger after an Interest is dropped (e.g., for exceeding allowed retransmissions).
    *
    * In the base class, this method does nothing.
    */
   virtual void
   onDroppedInterest(const Interest& interest, Face& egress);

   /**
    * \brief Trigger after a new nexthop is added.
    *
    * The strategy should decide whether to send the buffered Interests to the new nexthop.
    *
    * In the base class, this method does nothing.
    */
   virtual void
   afterNewNextHop(const fib::NextHop& nextHop, const shared_ptr<pit::Entry>& pitEntry);

 protected: // actions
   /**
    * \brief Send an Interest packet.
    * \param interest the Interest packet
    * \param egress face through which to send out the Interest
    * \param pitEntry the PIT entry
    * \return A pointer to the out-record created or nullptr if the Interest was dropped
    */
   NFD_VIRTUAL_WITH_TESTS pit::OutRecord*
   sendInterest(const Interest& interest, Face& egress, const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Send a Data packet.
    * \param data the Data packet
    * \param egress face through which to send out the Data
    * \param pitEntry the PIT entry
    * \return Whether the Data was sent (true) or dropped (false)
    */
   NFD_VIRTUAL_WITH_TESTS bool
   sendData(const Data& data, Face& egress, const shared_ptr<pit::Entry>& pitEntry);

   /**
    * \brief Send a Data packet to all matched and qualified faces.
    *
    * A matched face qualifies if it is ad-hoc OR it is NOT \p inFace.
    *
    * \param data the Data packet
    * \param pitEntry the PIT entry
    * \param inFace face on which the Data arrived
    */
   NFD_VIRTUAL_WITH_TESTS void
   sendDataToAll(const Data& data, const shared_ptr<pit::Entry>& pitEntry, const Face& inFace);

   /**
    * \brief Schedule the PIT entry for immediate deletion.
    *
    * This helper function sets the PIT entry expiry time to zero.
    * The strategy should invoke this function when it concludes that the Interest cannot
    * be forwarded and it does not want to wait for responses from existing upstream nodes.
    */
   NFD_VIRTUAL_WITH_TESTS void
   rejectPendingInterest(const shared_ptr<pit::Entry>& pitEntry)
   {
     this->setExpiryTimer(pitEntry, 0_ms);
   }

   /**
    * \brief Send a Nack packet.
    *
    * The egress face must have a PIT in-record, otherwise this method has no effect.
    *
    * \param header the Nack header
    * \param egress face through which to send out the Nack
    * \param pitEntry the PIT entry
    * \return Whether the Nack was sent (true) or dropped (false)
    */
   NFD_VIRTUAL_WITH_TESTS bool
   sendNack(const lp::NackHeader& header, Face& egress, const shared_ptr<pit::Entry>& pitEntry)
   {
     return m_forwarder.onOutgoingNack(header, egress, pitEntry);
   }

   /**
    * \brief Send Nack to every face that has an in-record, except those in \p exceptFaces
    * \param header the Nack header
    * \param pitEntry the PIT entry
    * \param exceptFaces list of faces that should be excluded from sending Nacks
    * \note This is not an action, but a helper that invokes the sendNack() action.
    */
   void
   sendNacks(const lp::NackHeader& header, const shared_ptr<pit::Entry>& pitEntry,
             std::initializer_list<const Face*> exceptFaces = {});

   /**
    * \brief Schedule the PIT entry to be erased after \p duration.
    */
   void
   setExpiryTimer(const shared_ptr<pit::Entry>& pitEntry, time::milliseconds duration)
   {
     m_forwarder.setExpiryTimer(pitEntry, duration);
   }

 protected: // accessors
   /**
    * \brief Performs a FIB lookup, considering Link object if present.
    */
   const fib::Entry&
   lookupFib(const pit::Entry& pitEntry) const;

   MeasurementsAccessor&
   getMeasurements()
   {
     return m_measurements;
   }

   Face*
   getFace(FaceId id) const
   {
     return getFaceTable().get(id);
   }

   const FaceTable&
   getFaceTable() const
   {
     return m_forwarder.m_faceTable;
   }

 protected: // instance name
   struct ParsedInstanceName
   {
     Name strategyName; ///< strategy name without parameters
     optional<uint64_t> version; ///< whether strategyName contains a version component
     PartialName parameters; ///< parameter components
   };

   /** \brief Parse a strategy instance name
    *  \param input strategy instance name, may contain version and parameters
    *  \throw std::invalid_argument input format is unacceptable
    */
   static ParsedInstanceName
   parseInstanceName(const Name& input);

   /** \brief Construct a strategy instance name
    *  \param input strategy instance name, may contain version and parameters
    *  \param strategyName strategy name with version but without parameters;
    *                      typically this should be \p getStrategyName()
    *
    *  If \p input contains a version component, return \p input unchanged.
    *  Otherwise, return \p input plus the version component taken from \p strategyName.
    *  This allows a strategy instance to be constructed with an unversioned name,
    *  but its final instance name should contain the version.
    */
   static Name
   makeInstanceName(const Name& input, const Name& strategyName);

   /** \brief Set strategy instance name
    *  \note This must be called by strategy subclass constructor.
    */
   void
   setInstanceName(const Name& name)
   {
     m_name = name;
   }

 private: // registry
   using CreateFunc = std::function<unique_ptr<Strategy>(Forwarder&, const Name& /*strategyName*/)>;
   using Registry = std::map<Name, CreateFunc>; // indexed by strategy name

   static Registry&
   getRegistry();

   static Registry::const_iterator
   find(const Name& instanceName);

 protected: // accessors
   signal::Signal<FaceTable, Face>& afterAddFace;
   signal::Signal<FaceTable, Face>& beforeRemoveFace;

 private: // instance fields
   Name m_name;
   Forwarder& m_forwarder;
   MeasurementsAccessor m_measurements;
 };

 } // namespace fw
 } // namespace nfd

 /** \brief Registers a strategy
  *
  *  This macro should appear once in .cpp of each strategy.
  */
 #define NFD_REGISTER_STRATEGY(S)                       \
 static class NfdAuto ## S ## StrategyRegistrationClass \
 {                                                      \
 public:                                                \
   NfdAuto ## S ## StrategyRegistrationClass()          \
   {                                                    \
     ::nfd::fw::Strategy::registerType<S>();            \
   }                                                    \
 } g_nfdAuto ## S ## StrategyRegistrationVariable

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

	#include "forwarder.hpp"
	#include "table/measurements-accessor.hpp"

	namespace nfd {
	namespace fw {

	/**
	* \brief Represents a forwarding strategy
	*/
	class Strategy : noncopyable
	{
	public: // registry
	/** \brief Register a strategy type
	* \tparam S subclass of Strategy
	* \param strategyName strategy program name, must contain version
	* \note It is permitted to register the same strategy type under multiple names,
	* which is useful in tests and for creating aliases.
	*/
	template<typename S>
	static void
	registerType(const Name& strategyName = S::getStrategyName())
	{
	BOOST_ASSERT(strategyName.size() > 1);
	BOOST_ASSERT(strategyName.at(-1).isVersion());
	Registry& registry = getRegistry();
	BOOST_ASSERT(registry.count(strategyName) == 0);
	registry[strategyName] = [] (auto&&... args) {
	return make_unique<S>(std::forward<decltype(args)>(args)...);
	};
	}

	/** \return Whether a strategy instance can be created from \p instanceName
	* \param instanceName strategy instance name, may contain version and parameters
	* \note This function finds a strategy type using same rules as \p create ,
	* but does not attempt to construct an instance.
	*/
	static bool
	canCreate(const Name& instanceName);

	/** \return A strategy instance created from \p instanceName
	* \retval nullptr if !canCreate(instanceName)
	* \throw std::invalid_argument strategy type constructor does not accept
	* specified version or parameters
	*/
	static unique_ptr<Strategy>
	create(const Name& instanceName, Forwarder& forwarder);

	/** \return Whether \p instanceNameA and \p instanceNameA will initiate same strategy type
	*/
	static bool
	areSameType(const Name& instanceNameA, const Name& instanceNameB);

	/** \return Registered versioned strategy names
	*/
	static std::set<Name>
	listRegistered();

	public: // constructor, destructor, strategy info
	/** \brief Construct a strategy instance.
	* \param forwarder a reference to the forwarder, used to enable actions and accessors.
	* \note Strategy subclass constructor must not retain a reference to \p forwarder.
	*/
	explicit
	Strategy(Forwarder& forwarder);

	virtual
	~Strategy();

	#ifdef DOXYGEN
	/** \return Strategy program name
	*
	* The strategy name is defined by the strategy program.
	* It must end with a version component.
	*/
	static const Name&
	getStrategyName();
	#endif

	/** \return Strategy instance name
	*
	* The instance name is assigned during instantiation.
	* It contains a version component, and may have extra parameter components.
	*/
	const Name&
	getInstanceName() const
	{
	return m_name;
	}

	public: // triggers
	/**
	* \brief Trigger after an Interest is received.
	*
	* The Interest:
	* - has not exceeded HopLimit
	* - does not violate Scope
	* - is not looped
	* - cannot be satisfied by ContentStore
	* - is under a namespace managed by this strategy
	*
	* The PIT entry is set to expire after InterestLifetime has elapsed at each downstream.
	*
	* The strategy should decide whether and where to forward this Interest.
	* - If the strategy decides to forward this Interest,
	* invoke sendInterest() for each upstream, either now or shortly after via a scheduler event,
	* but before the PIT entry expires.
	* Optionally, the strategy can invoke setExpiryTimer() to adjust how long it would wait for a response.
	* - If the strategy has already forwarded this Interest previously and decides to continue
	* waiting, do nothing.
	* Optionally, the strategy can invoke setExpiryTimer() to adjust how long it would wait for a response.
	* - If the strategy concludes that this Interest cannot be satisfied,
	* invoke rejectPendingInterest() to erase the PIT entry.
	*
	* \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
	* returns, otherwise undefined behavior may occur. However, the strategy is allowed to
	* construct and keep a weak_ptr to \p pitEntry.
	*/
	virtual void
	afterReceiveInterest(const Interest& interest, const FaceEndpoint& ingress,
	const shared_ptr<pit::Entry>& pitEntry) = 0;

	/**
	* \brief Trigger after a matching Data is found in the Content Store.
	*
	* In the base class, this method sends \p data to \p ingress.
	*
	* \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
	* returns, otherwise undefined behavior may occur. However, the strategy is allowed to
	* construct and keep a weak_ptr to \p pitEntry.
	*/
	virtual void
	afterContentStoreHit(const Data& data, const FaceEndpoint& ingress,
	const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Trigger before a PIT entry is satisfied.
	*
	* This trigger is invoked when an incoming Data satisfies more than one PIT entry.
	* The strategy can collect measurements information, but cannot manipulate Data forwarding.
	* When an incoming Data satisfies only one PIT entry, afterReceiveData() is invoked instead
	* and given full control over Data forwarding. If a strategy does not override afterReceiveData(),
	* the default implementation invokes beforeSatisfyInterest().
	*
	* Normally, PIT entries are erased after receiving the first matching Data.
	* If the strategy wishes to collect responses from additional upstream nodes,
	* it should invoke setExpiryTimer() within this function to prolong the PIT entry lifetime.
	* If a Data arrives from another upstream during the extended PIT entry lifetime, this trigger
	* will be invoked again. At that time, the strategy must invoke setExpiryTimer() again to
	* continue collecting more responses.
	*
	* In the base class, this method does nothing.
	*
	* \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
	* returns, otherwise undefined behavior may occur. However, the strategy is allowed to
	* construct and keep a weak_ptr to \p pitEntry.
	*/
	virtual void
	beforeSatisfyInterest(const Data& data, const FaceEndpoint& ingress,
	const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Trigger after Data is received.
	*
	* This trigger is invoked when an incoming Data satisfies exactly one PIT entry,
	* and gives the strategy full control over Data forwarding.
	*
	* When this trigger is invoked:
	* - The Data has been verified to satisfy the PIT entry.
	* - The PIT entry expiry timer is set to now
	*
	* Inside this function:
	* - A strategy should return Data to downstream nodes via sendData() or sendDataToAll().
	* - A strategy can modify the Data as long as it still satisfies the PIT entry, such as
	* adding or removing congestion marks.
	* - A strategy can delay Data forwarding by prolonging the PIT entry lifetime via setExpiryTimer(),
	* and later forward the Data before the PIT entry is erased.
	* - A strategy can collect measurements about the upstream.
	* - A strategy can collect responses from additional upstream nodes by prolonging the PIT entry
	* lifetime via setExpiryTimer() every time a Data is received. Note that only one Data should
	* be returned to each downstream node.
	*
	* In the base class, this method invokes beforeSatisfyInterest() and then returns the Data
	* to all downstream faces via sendDataToAll().
	*
	* \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
	* returns, otherwise undefined behavior may occur. However, the strategy is allowed to
	* construct and keep a weak_ptr to \p pitEntry.
	*/
	virtual void
	afterReceiveData(const Data& data, const FaceEndpoint& ingress,
	const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Trigger after a Nack is received.
	*
	* This trigger is invoked when an incoming Nack is received in response to
	* an forwarded Interest.
	* The Nack has been confirmed to be a response to the last Interest forwarded
	* to that upstream, i.e. the PIT out-record exists and has a matching Nonce.
	* The NackHeader has been recorded in the PIT out-record.
	*
	* If the PIT entry is not yet satisfied, its expiry timer remains unchanged.
	* Otherwise, the PIT entry will normally expire immediately after this function returns.
	*
	* If the strategy wishes to collect responses from additional upstream nodes,
	* it should invoke setExpiryTimer() within this function to prolong the PIT entry lifetime.
	* If a Nack arrives from another upstream during the extended PIT entry lifetime, this trigger
	* will be invoked again. At that time, the strategy must invoke setExpiryTimer() again to
	* continue collecting more responses.
	*
	* In the base class, this method does nothing.
	*
	* \warning The strategy must not retain a copy of the \p pitEntry shared_ptr after this function
	* returns, otherwise undefined behavior may occur. However, the strategy is allowed to
	* construct and keep a weak_ptr to \p pitEntry.
	*/
	virtual void
	afterReceiveNack(const lp::Nack& nack, const FaceEndpoint& ingress,
	const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Trigger after an Interest is dropped (e.g., for exceeding allowed retransmissions).
	*
	* In the base class, this method does nothing.
	*/
	virtual void
	onDroppedInterest(const Interest& interest, Face& egress);

	/**
	* \brief Trigger after a new nexthop is added.
	*
	* The strategy should decide whether to send the buffered Interests to the new nexthop.
	*
	* In the base class, this method does nothing.
	*/
	virtual void
	afterNewNextHop(const fib::NextHop& nextHop, const shared_ptr<pit::Entry>& pitEntry);

	protected: // actions
	/**
	* \brief Send an Interest packet.
	* \param interest the Interest packet
	* \param egress face through which to send out the Interest
	* \param pitEntry the PIT entry
	* \return A pointer to the out-record created or nullptr if the Interest was dropped
	*/
	NFD_VIRTUAL_WITH_TESTS pit::OutRecord*
	sendInterest(const Interest& interest, Face& egress, const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Send a Data packet.
	* \param data the Data packet
	* \param egress face through which to send out the Data
	* \param pitEntry the PIT entry
	* \return Whether the Data was sent (true) or dropped (false)
	*/
	NFD_VIRTUAL_WITH_TESTS bool
	sendData(const Data& data, Face& egress, const shared_ptr<pit::Entry>& pitEntry);

	/**
	* \brief Send a Data packet to all matched and qualified faces.
	*
	* A matched face qualifies if it is ad-hoc OR it is NOT \p inFace.
	*
	* \param data the Data packet
	* \param pitEntry the PIT entry
	* \param inFace face on which the Data arrived
	*/
	NFD_VIRTUAL_WITH_TESTS void
	sendDataToAll(const Data& data, const shared_ptr<pit::Entry>& pitEntry, const Face& inFace);

	/**
	* \brief Schedule the PIT entry for immediate deletion.
	*
	* This helper function sets the PIT entry expiry time to zero.
	* The strategy should invoke this function when it concludes that the Interest cannot
	* be forwarded and it does not want to wait for responses from existing upstream nodes.
	*/
	NFD_VIRTUAL_WITH_TESTS void
	rejectPendingInterest(const shared_ptr<pit::Entry>& pitEntry)
	{
	this->setExpiryTimer(pitEntry, 0_ms);
	}

	/**
	* \brief Send a Nack packet.
	*
	* The egress face must have a PIT in-record, otherwise this method has no effect.
	*
	* \param header the Nack header
	* \param egress face through which to send out the Nack
	* \param pitEntry the PIT entry
	* \return Whether the Nack was sent (true) or dropped (false)
	*/
	NFD_VIRTUAL_WITH_TESTS bool
	sendNack(const lp::NackHeader& header, Face& egress, const shared_ptr<pit::Entry>& pitEntry)
	{
	return m_forwarder.onOutgoingNack(header, egress, pitEntry);
	}

	/**
	* \brief Send Nack to every face that has an in-record, except those in \p exceptFaces
	* \param header the Nack header
	* \param pitEntry the PIT entry
	* \param exceptFaces list of faces that should be excluded from sending Nacks
	* \note This is not an action, but a helper that invokes the sendNack() action.
	*/
	void
	sendNacks(const lp::NackHeader& header, const shared_ptr<pit::Entry>& pitEntry,
	std::initializer_list<const Face*> exceptFaces = {});

	/**
	* \brief Schedule the PIT entry to be erased after \p duration.
	*/
	void
	setExpiryTimer(const shared_ptr<pit::Entry>& pitEntry, time::milliseconds duration)
	{
	m_forwarder.setExpiryTimer(pitEntry, duration);
	}

	protected: // accessors
	/**
	* \brief Performs a FIB lookup, considering Link object if present.
	*/
	const fib::Entry&
	lookupFib(const pit::Entry& pitEntry) const;

	MeasurementsAccessor&
	getMeasurements()
	{
	return m_measurements;
	}

	Face*
	getFace(FaceId id) const
	{
	return getFaceTable().get(id);
	}

	const FaceTable&
	getFaceTable() const
	{
	return m_forwarder.m_faceTable;
	}

	protected: // instance name
	struct ParsedInstanceName
	{
	Name strategyName; ///< strategy name without parameters
	optional<uint64_t> version; ///< whether strategyName contains a version component
	PartialName parameters; ///< parameter components
	};

	/** \brief Parse a strategy instance name
	* \param input strategy instance name, may contain version and parameters
	* \throw std::invalid_argument input format is unacceptable
	*/
	static ParsedInstanceName
	parseInstanceName(const Name& input);

	/** \brief Construct a strategy instance name
	* \param input strategy instance name, may contain version and parameters
	* \param strategyName strategy name with version but without parameters;
	* typically this should be \p getStrategyName()
	*
	* If \p input contains a version component, return \p input unchanged.
	* Otherwise, return \p input plus the version component taken from \p strategyName.
	* This allows a strategy instance to be constructed with an unversioned name,
	* but its final instance name should contain the version.
	*/
	static Name
	makeInstanceName(const Name& input, const Name& strategyName);

	/** \brief Set strategy instance name
	* \note This must be called by strategy subclass constructor.
	*/
	void
	setInstanceName(const Name& name)
	{
	m_name = name;
	}

	private: // registry
	using CreateFunc = std::function<unique_ptr<Strategy>(Forwarder&, const Name& /strategyName/)>;
	using Registry = std::map<Name, CreateFunc>; // indexed by strategy name

	static Registry&
	getRegistry();

	static Registry::const_iterator
	find(const Name& instanceName);

	protected: // accessors
	signal::Signal<FaceTable, Face>& afterAddFace;
	signal::Signal<FaceTable, Face>& beforeRemoveFace;

	private: // instance fields
	Name m_name;
	Forwarder& m_forwarder;
	MeasurementsAccessor m_measurements;
	};

	} // namespace fw
	} // namespace nfd

	/** \brief Registers a strategy
	*
	* This macro should appear once in .cpp of each strategy.
	*/
	#define NFD_REGISTER_STRATEGY(S) \
	static class NfdAuto ## S ## StrategyRegistrationClass \
	{ \
	public: \
	NfdAuto ## S ## StrategyRegistrationClass() \
	{ \
	::nfd::fw::Strategy::registerType<S>(); \
	} \
	} g_nfdAuto ## S ## StrategyRegistrationVariable

	#endif // NFD_DAEMON_FW_STRATEGY_HPP