tests/daemon/fw/topology-tester.hpp - NFD - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014-2015,  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/>.
  */

 /** \file
  *  \brief allows testing forwarding in a network topology
  */

 #ifndef NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP
 #define NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP

 #include <unordered_map>
 #include <ndn-cxx/util/dummy-client-face.hpp>
 #include "fw/strategy.hpp"
 #include "tests/test-common.hpp"
 #include "../face/dummy-face.hpp"

 namespace nfd {
 namespace fw {
 namespace tests {

 using ndn::util::DummyClientFace;
 using namespace nfd::tests;

 /** \brief identifies a node (forwarder) in the topology
  */
 typedef size_t TopologyNode;

 /** \brief represents a network or local-app link
  */
 class TopologyLinkBase : noncopyable
 {
 public:
   TopologyLinkBase()
     : m_isUp(true)
   {
   }

   /** \brief fail the link, cause packets to be dropped silently
    */
   void
   fail()
   {
     m_isUp = false;
   }

   /** \brief recover the link from a failure
    */
   void
   recover()
   {
     m_isUp = true;
   }

 protected:
   bool m_isUp;
 };

 /** \brief represents a network link in the topology which connects two or more nodes
  */
 class TopologyLink : public TopologyLinkBase
 {
 public:
   /** \return a face of forwarder \p i which is attached to this link
    */
   shared_ptr<DummyFace>
   getFace(TopologyNode i)
   {
     return m_faces.at(i)->face;
   }

 private:
   explicit
   TopologyLink(const time::nanoseconds& delay)
     : m_delay(delay)
   {
     BOOST_ASSERT(delay >= time::nanoseconds::zero());
   }

   struct LinkFace
   {
     shared_ptr<DummyFace> face;
   };

   void
   addFace(TopologyNode i, shared_ptr<DummyFace> face)
   {
     BOOST_ASSERT(m_faces.count(i) == 0);

     LinkFace* lf = new LinkFace();
     lf->face = face;
     face->onSendInterest.connect(bind(&TopologyLink::transmitInterest, this, i, _1));
     face->onSendData.connect(bind(&TopologyLink::transmitData, this, i, _1));

     m_faces[i].reset(lf);
   }

   friend class TopologyTester;

 private:
   void
   transmitInterest(TopologyNode i, const Interest& interest)
   {
     if (!m_isUp) {
       return;
     }

     // Interest object cannot be shared between faces because
     // Forwarder can set different IncomingFaceId.
     Block wire = interest.wireEncode();
     for (auto&& p : m_faces) {
       if (p.first == i) {
         continue;
       }
       shared_ptr<DummyFace> face = p.second->face;
       scheduler::schedule(m_delay, [wire, face] {
         auto interest = make_shared<Interest>(wire);
         face->receiveInterest(*interest);
       });
     }
   }

   void
   transmitData(TopologyNode i, const Data& data)
   {
     if (!m_isUp) {
       return;
     }

     // Data object cannot be shared between faces because
     // Forwarder can set different IncomingFaceId.
     Block wire = data.wireEncode();
     for (auto&& p : m_faces) {
       if (p.first == i) {
         continue;
       }
       shared_ptr<DummyFace> face = p.second->face;
       scheduler::schedule(m_delay, [wire, face] {
         auto data = make_shared<Data>(wire);
         face->receiveData(*data);
       });
     }
   }

 private:
   time::nanoseconds m_delay;
   std::unordered_map<TopologyNode, unique_ptr<LinkFace>> m_faces;
 };

 /** \brief represents a link to a local application
  */
 class TopologyAppLink : public TopologyLinkBase
 {
 public:
   /** \return face on forwarder side
    */
   shared_ptr<DummyLocalFace>
   getForwarderFace()
   {
     return m_face;
   }

   /** \return face on application side
    */
   shared_ptr<DummyClientFace>
   getClientFace()
   {
     return m_client;
   }

 private:
   explicit
   TopologyAppLink(shared_ptr<DummyLocalFace> face)
     : m_face(face)
     , m_client(ndn::util::makeDummyClientFace(getGlobalIoService(), {false, false}))
   {
     m_client->onSendInterest.connect([this] (const Interest& interest) {
       if (!m_isUp) {
         return;
       }
       auto interest2 = interest.shared_from_this();
       getGlobalIoService().post([=] { m_face->receiveInterest(*interest2); });
     });

     m_client->onSendData.connect([this] (const Data& data) {
       if (!m_isUp) {
         return;
       }
       auto data2 = data.shared_from_this();
       getGlobalIoService().post([=] { m_face->receiveData(*data2); });
     });

     m_face->onSendInterest.connect([this] (const Interest& interest) {
       if (!m_isUp) {
         return;
       }
       auto interest2 = interest.shared_from_this();
       getGlobalIoService().post([=] { m_client->receive(*interest2); });
     });

     m_face->onSendData.connect([this] (const Data& data) {
       if (!m_isUp) {
         return;
       }
       auto data2 = data.shared_from_this();
       getGlobalIoService().post([=] { m_client->receive(*data2); });
     });
   }

   friend class TopologyTester;

 private:
   shared_ptr<DummyLocalFace> m_face;
   shared_ptr<DummyClientFace> m_client;
 };

 /** \brief builds a topology for forwarding tests
  */
 class TopologyTester : noncopyable
 {
 public:
   /** \brief creates a forwarder
    *  \return index of new forwarder
    */
   TopologyNode
   addForwarder()
   {
     size_t i = m_forwarders.size();
     m_forwarders.push_back(std::move(unique_ptr<Forwarder>(new Forwarder())));
     return i;
   }

   /** \return forwarder instance \p i
    */
   Forwarder&
   getForwarder(TopologyNode i)
   {
     return *m_forwarders.at(i);
   }

   /** \brief sets strategy on forwarder \p i
    *  \tparam the strategy type
    *  \note Test scenario can also access StrategyChoice table directly.
    */
   template<typename S>
   void
   setStrategy(TopologyNode i, Name prefix = Name("ndn:/"))
   {
     Forwarder& forwarder = this->getForwarder(i);
     StrategyChoice& strategyChoice = forwarder.getStrategyChoice();
     shared_ptr<S> strategy = make_shared<S>(ref(forwarder));
     strategyChoice.install(strategy);
     strategyChoice.insert(prefix, strategy->getName());
   }

   /** \brief makes a link that interconnects two or more forwarders
    *
    *  A face is created on each of \p forwarders .
    *  When a packet is sent onto one of the faces on this link,
    *  this packet will be received by all other faces on this link after \p delay .
    */
   shared_ptr<TopologyLink>
   addLink(const time::nanoseconds& delay, std::initializer_list<TopologyNode> forwarders)
   {
     auto link = shared_ptr<TopologyLink>(new TopologyLink(delay));
     for (TopologyNode i : forwarders) {
       Forwarder& forwarder = this->getForwarder(i);
       shared_ptr<DummyFace> face = make_shared<DummyFace>();
       forwarder.addFace(face);
       link->addFace(i, face);
     }
     return link;
   }

   /** \brief makes a link to local application
    */
   shared_ptr<TopologyAppLink>
   addAppFace(TopologyNode i)
   {
     Forwarder& forwarder = this->getForwarder(i);
     auto face = make_shared<DummyLocalFace>();
     forwarder.addFace(face);

     return shared_ptr<TopologyAppLink>(new TopologyAppLink(face));
   }

   /** \brief makes a link to local application, and register a prefix
    */
   shared_ptr<TopologyAppLink>
   addAppFace(TopologyNode i, const Name& prefix, uint64_t cost = 0)
   {
     shared_ptr<TopologyAppLink> al = this->addAppFace(i);
     this->registerPrefix(i, al->getForwarderFace(), prefix, cost);
     return al;
   }

   /** \brief registers a prefix on a face
    *  \tparam F either DummyFace or DummyLocalFace
    */
   template<typename F>
   void
   registerPrefix(TopologyNode i, shared_ptr<F> face, const Name& prefix, uint64_t cost = 0)
   {
     Forwarder& forwarder = this->getForwarder(i);
     Fib& fib = forwarder.getFib();
     shared_ptr<fib::Entry> fibEntry = fib.insert(prefix).first;
     fibEntry->addNextHop(face, cost);
   }

   /** \brief creates a producer application that answers every Interest with Data of same Name
    */
   void
   addEchoProducer(DummyClientFace& face, const Name& prefix = "/")
   {
     face.setInterestFilter(prefix,
         [&face] (const ndn::InterestFilter&, const Interest& interest) {
           shared_ptr<Data> data = makeData(interest.getName());
           face.put(*data);
         });
   }

   /** \brief creates a consumer application that sends \p n Interests under \p prefix
    *         at \p interval fixed rate.
    */
   void
   addIntervalConsumer(DummyClientFace& face, const Name& prefix,
                       const time::nanoseconds& interval, size_t n)
   {
     Name name(prefix);
     name.appendTimestamp();
     shared_ptr<Interest> interest = makeInterest(name);
     face.expressInterest(*interest, bind([]{}));

     if (n > 1) {
       scheduler::schedule(interval, bind(&TopologyTester::addIntervalConsumer, this,
                                          ref(face), prefix, interval, n - 1));
     }
   }

 private:
   std::vector<unique_ptr<Forwarder>> m_forwarders;
 };

 } // namespace tests
 } // namespace fw
 } // namespace nfd

 #endif // NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014-2015, 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/>.
	*/

	/** \file
	* \brief allows testing forwarding in a network topology
	*/

	#ifndef NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP
	#define NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP

	#include <unordered_map>
	#include <ndn-cxx/util/dummy-client-face.hpp>
	#include "fw/strategy.hpp"
	#include "tests/test-common.hpp"
	#include "../face/dummy-face.hpp"

	namespace nfd {
	namespace fw {
	namespace tests {

	using ndn::util::DummyClientFace;
	using namespace nfd::tests;

	/** \brief identifies a node (forwarder) in the topology
	*/
	typedef size_t TopologyNode;

	/** \brief represents a network or local-app link
	*/
	class TopologyLinkBase : noncopyable
	{
	public:
	TopologyLinkBase()
	: m_isUp(true)
	{
	}

	/** \brief fail the link, cause packets to be dropped silently
	*/
	void
	fail()
	{
	m_isUp = false;
	}

	/** \brief recover the link from a failure
	*/
	void
	recover()
	{
	m_isUp = true;
	}

	protected:
	bool m_isUp;
	};

	/** \brief represents a network link in the topology which connects two or more nodes
	*/
	class TopologyLink : public TopologyLinkBase
	{
	public:
	/** \return a face of forwarder \p i which is attached to this link
	*/
	shared_ptr<DummyFace>
	getFace(TopologyNode i)
	{
	return m_faces.at(i)->face;
	}

	private:
	explicit
	TopologyLink(const time::nanoseconds& delay)
	: m_delay(delay)
	{
	BOOST_ASSERT(delay >= time::nanoseconds::zero());
	}

	struct LinkFace
	{
	shared_ptr<DummyFace> face;
	};

	void
	addFace(TopologyNode i, shared_ptr<DummyFace> face)
	{
	BOOST_ASSERT(m_faces.count(i) == 0);

	LinkFace* lf = new LinkFace();
	lf->face = face;
	face->onSendInterest.connect(bind(&TopologyLink::transmitInterest, this, i, _1));
	face->onSendData.connect(bind(&TopologyLink::transmitData, this, i, _1));

	m_faces[i].reset(lf);
	}

	friend class TopologyTester;

	private:
	void
	transmitInterest(TopologyNode i, const Interest& interest)
	{
	if (!m_isUp) {
	return;
	}

	// Interest object cannot be shared between faces because
	// Forwarder can set different IncomingFaceId.
	Block wire = interest.wireEncode();
	for (auto&& p : m_faces) {
	if (p.first == i) {
	continue;
	}
	shared_ptr<DummyFace> face = p.second->face;
	scheduler::schedule(m_delay, [wire, face] {
	auto interest = make_shared<Interest>(wire);
	face->receiveInterest(*interest);
	});
	}
	}

	void
	transmitData(TopologyNode i, const Data& data)
	{
	if (!m_isUp) {
	return;
	}

	// Data object cannot be shared between faces because
	// Forwarder can set different IncomingFaceId.
	Block wire = data.wireEncode();
	for (auto&& p : m_faces) {
	if (p.first == i) {
	continue;
	}
	shared_ptr<DummyFace> face = p.second->face;
	scheduler::schedule(m_delay, [wire, face] {
	auto data = make_shared<Data>(wire);
	face->receiveData(*data);
	});
	}
	}

	private:
	time::nanoseconds m_delay;
	std::unordered_map<TopologyNode, unique_ptr<LinkFace>> m_faces;
	};

	/** \brief represents a link to a local application
	*/
	class TopologyAppLink : public TopologyLinkBase
	{
	public:
	/** \return face on forwarder side
	*/
	shared_ptr<DummyLocalFace>
	getForwarderFace()
	{
	return m_face;
	}

	/** \return face on application side
	*/
	shared_ptr<DummyClientFace>
	getClientFace()
	{
	return m_client;
	}

	private:
	explicit
	TopologyAppLink(shared_ptr<DummyLocalFace> face)
	: m_face(face)
	, m_client(ndn::util::makeDummyClientFace(getGlobalIoService(), {false, false}))
	{
	m_client->onSendInterest.connect([this] (const Interest& interest) {
	if (!m_isUp) {
	return;
	}
	auto interest2 = interest.shared_from_this();
	getGlobalIoService().post([=] { m_face->receiveInterest(*interest2); });
	});

	m_client->onSendData.connect([this] (const Data& data) {
	if (!m_isUp) {
	return;
	}
	auto data2 = data.shared_from_this();
	getGlobalIoService().post([=] { m_face->receiveData(*data2); });
	});

	m_face->onSendInterest.connect([this] (const Interest& interest) {
	if (!m_isUp) {
	return;
	}
	auto interest2 = interest.shared_from_this();
	getGlobalIoService().post([=] { m_client->receive(*interest2); });
	});

	m_face->onSendData.connect([this] (const Data& data) {
	if (!m_isUp) {
	return;
	}
	auto data2 = data.shared_from_this();
	getGlobalIoService().post([=] { m_client->receive(*data2); });
	});
	}

	friend class TopologyTester;

	private:
	shared_ptr<DummyLocalFace> m_face;
	shared_ptr<DummyClientFace> m_client;
	};

	/** \brief builds a topology for forwarding tests
	*/
	class TopologyTester : noncopyable
	{
	public:
	/** \brief creates a forwarder
	* \return index of new forwarder
	*/
	TopologyNode
	addForwarder()
	{
	size_t i = m_forwarders.size();
	m_forwarders.push_back(std::move(unique_ptr<Forwarder>(new Forwarder())));
	return i;
	}

	/** \return forwarder instance \p i
	*/
	Forwarder&
	getForwarder(TopologyNode i)
	{
	return *m_forwarders.at(i);
	}

	/** \brief sets strategy on forwarder \p i
	* \tparam the strategy type
	* \note Test scenario can also access StrategyChoice table directly.
	*/
	template<typename S>
	void
	setStrategy(TopologyNode i, Name prefix = Name("ndn:/"))
	{
	Forwarder& forwarder = this->getForwarder(i);
	StrategyChoice& strategyChoice = forwarder.getStrategyChoice();
	shared_ptr<S> strategy = make_shared<S>(ref(forwarder));
	strategyChoice.install(strategy);
	strategyChoice.insert(prefix, strategy->getName());
	}

	/** \brief makes a link that interconnects two or more forwarders
	*
	* A face is created on each of \p forwarders .
	* When a packet is sent onto one of the faces on this link,
	* this packet will be received by all other faces on this link after \p delay .
	*/
	shared_ptr<TopologyLink>
	addLink(const time::nanoseconds& delay, std::initializer_list<TopologyNode> forwarders)
	{
	auto link = shared_ptr<TopologyLink>(new TopologyLink(delay));
	for (TopologyNode i : forwarders) {
	Forwarder& forwarder = this->getForwarder(i);
	shared_ptr<DummyFace> face = make_shared<DummyFace>();
	forwarder.addFace(face);
	link->addFace(i, face);
	}
	return link;
	}

	/** \brief makes a link to local application
	*/
	shared_ptr<TopologyAppLink>
	addAppFace(TopologyNode i)
	{
	Forwarder& forwarder = this->getForwarder(i);
	auto face = make_shared<DummyLocalFace>();
	forwarder.addFace(face);

	return shared_ptr<TopologyAppLink>(new TopologyAppLink(face));
	}

	/** \brief makes a link to local application, and register a prefix
	*/
	shared_ptr<TopologyAppLink>
	addAppFace(TopologyNode i, const Name& prefix, uint64_t cost = 0)
	{
	shared_ptr<TopologyAppLink> al = this->addAppFace(i);
	this->registerPrefix(i, al->getForwarderFace(), prefix, cost);
	return al;
	}

	/** \brief registers a prefix on a face
	* \tparam F either DummyFace or DummyLocalFace
	*/
	template<typename F>
	void
	registerPrefix(TopologyNode i, shared_ptr<F> face, const Name& prefix, uint64_t cost = 0)
	{
	Forwarder& forwarder = this->getForwarder(i);
	Fib& fib = forwarder.getFib();
	shared_ptr<fib::Entry> fibEntry = fib.insert(prefix).first;
	fibEntry->addNextHop(face, cost);
	}

	/** \brief creates a producer application that answers every Interest with Data of same Name
	*/
	void
	addEchoProducer(DummyClientFace& face, const Name& prefix = "/")
	{
	face.setInterestFilter(prefix,
	[&face] (const ndn::InterestFilter&, const Interest& interest) {
	shared_ptr<Data> data = makeData(interest.getName());
	face.put(*data);
	});
	}

	/** \brief creates a consumer application that sends \p n Interests under \p prefix
	* at \p interval fixed rate.
	*/
	void
	addIntervalConsumer(DummyClientFace& face, const Name& prefix,
	const time::nanoseconds& interval, size_t n)
	{
	Name name(prefix);
	name.appendTimestamp();
	shared_ptr<Interest> interest = makeInterest(name);
	face.expressInterest(*interest, bind([]{}));

	if (n > 1) {
	scheduler::schedule(interval, bind(&TopologyTester::addIntervalConsumer, this,
	ref(face), prefix, interval, n - 1));
	}
	}

	private:
	std::vector<unique_ptr<Forwarder>> m_forwarders;
	};

	} // namespace tests
	} // namespace fw
	} // namespace nfd

	#endif // NFD_TESTS_NFD_FW_TOPOLOGY_TESTER_HPP