tests/daemon/fw/asf-strategy.t.cpp - NFD - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014-2016,  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/>.
  */

 #include "fw/asf-strategy.hpp"

 #include "tests/test-common.hpp"
 #include "strategy-tester.hpp"
 #include "topology-tester.hpp"

 namespace nfd {
 namespace fw {
 namespace asf {
 namespace tests {

 using namespace nfd::fw::tests;

 // The tester is unused in this file, but it's used in various templated test suites.
 typedef StrategyTester<AsfStrategy> AsfStrategyTester;
 NFD_REGISTER_STRATEGY(AsfStrategyTester);

 BOOST_AUTO_TEST_SUITE(Fw)
 BOOST_FIXTURE_TEST_SUITE(TestAsfStrategy, UnitTestTimeFixture)

 BOOST_AUTO_TEST_CASE(Registration)
 {
   BOOST_CHECK_EQUAL(Strategy::listRegistered().count(AsfStrategy::getStrategyName()), 1);
 }

 class AsfGridFixture : public UnitTestTimeFixture
 {
 protected:
   AsfGridFixture()
   {
     /*
      *                  +---------+
      *           +----->|  nodeB  |<------+
      *           |      +---------+       |
      *      10ms |                        | 10ms
      *           v                        v
      *      +---------+              +---------+
      *      |  nodeA  |              |  nodeC  |
      *      +---------+              +---------+
      *           ^                        ^
      *     100ms |                        | 100ms
      *           |      +---------+       |
      *           +----->|  nodeD  |<------+
      *                  +---------+
      */

     nodeA = topo.addForwarder("A");
     nodeB = topo.addForwarder("B");
     nodeC = topo.addForwarder("C");
     nodeD = topo.addForwarder("D");

     topo.setStrategy<fw::AsfStrategy>(nodeA);
     topo.setStrategy<fw::AsfStrategy>(nodeB);
     topo.setStrategy<fw::AsfStrategy>(nodeC);
     topo.setStrategy<fw::AsfStrategy>(nodeD);

     linkAB = topo.addLink("AB", time::milliseconds(10), {nodeA, nodeB});
     linkAD = topo.addLink("AD", time::milliseconds(100), {nodeA, nodeD});
     linkBC = topo.addLink("BC", time::milliseconds(10), {nodeB, nodeC});
     linkCD = topo.addLink("CD", time::milliseconds(100), {nodeC, nodeD});

     consumer = topo.addAppFace("c", nodeA);
     producer = topo.addAppFace("p", nodeC, PRODUCER_PREFIX);
     topo.addEchoProducer(producer->getClientFace());

     // Register producer prefix on consumer node
     topo.registerPrefix(nodeA, linkAB->getFace(nodeA), PRODUCER_PREFIX, 10);
     topo.registerPrefix(nodeA, linkAD->getFace(nodeA), PRODUCER_PREFIX, 5);
   }

   void
   runConsumer()
   {
     topo.addIntervalConsumer(consumer->getClientFace(), PRODUCER_PREFIX, time::seconds(1), 30);
     this->advanceClocks(time::milliseconds(10), time::seconds(30));
   }

 protected:
   TopologyTester topo;

   TopologyNode nodeA;
   TopologyNode nodeB;
   TopologyNode nodeC;
   TopologyNode nodeD;

   shared_ptr<TopologyLink> linkAB;
   shared_ptr<TopologyLink> linkAD;
   shared_ptr<TopologyLink> linkBC;
   shared_ptr<TopologyLink> linkCD;

   shared_ptr<TopologyAppLink> consumer;
   shared_ptr<TopologyAppLink> producer;

   static const Name PRODUCER_PREFIX;
 };

 const Name AsfGridFixture::PRODUCER_PREFIX = Name("ndn:/hr/C");

 BOOST_FIXTURE_TEST_CASE(Basic, AsfGridFixture)
 {
   // Both nodeB and nodeD have FIB entries to reach the producer
   topo.registerPrefix(nodeB, linkBC->getFace(nodeB), PRODUCER_PREFIX);
   topo.registerPrefix(nodeD, linkCD->getFace(nodeD), PRODUCER_PREFIX);

   runConsumer();

   // ASF should use the Face to nodeD because it has lower routing cost.
   // After 5 seconds, a probe Interest should be sent to the Face to nodeB,
   // and the probe should return Data quicker. ASF should then use the Face
   // to nodeB to forward the remaining Interests.
   BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 30);
   BOOST_CHECK_GE(linkAB->getFace(nodeA).getCounters().nOutInterests, 24);
   BOOST_CHECK_LE(linkAD->getFace(nodeA).getCounters().nOutInterests, 6);

   // If the link from nodeA to nodeB fails, ASF should start using the Face
   // to nodeD again.
   linkAB->fail();

   runConsumer();

   // Only 59 Data because the first Interest to nodeB after the failure should timeout
   BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 59);
   BOOST_CHECK_LE(linkAB->getFace(nodeA).getCounters().nOutInterests, 30);
   BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 30);

   // If the link from nodeA to nodeB recovers, ASF should probe the Face
   // to nodeB and start using it again.
   linkAB->recover();

   // Advance time to ensure probing is due
   this->advanceClocks(time::milliseconds(10), time::seconds(10));

   runConsumer();

   BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 89);
   BOOST_CHECK_GE(linkAB->getFace(nodeA).getCounters().nOutInterests, 50);
   BOOST_CHECK_LE(linkAD->getFace(nodeA).getCounters().nOutInterests, 40);

   // If both links fail, nodeA should forward to the next hop with the lowest cost
   linkAB->fail();
   linkAD->fail();

   runConsumer();

   BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 89);
   BOOST_CHECK_LE(linkAB->getFace(nodeA).getCounters().nOutInterests, 61); // FIXME #3830
   BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 59); // FIXME #3830
 }

 BOOST_FIXTURE_TEST_CASE(Nack, AsfGridFixture)
 {
   // nodeB has a FIB entry to reach the producer, but nodeD does not
   topo.registerPrefix(nodeB, linkBC->getFace(nodeB), PRODUCER_PREFIX);

   // The strategy should first try to send to nodeD. But since nodeD does not have a route for
   // the producer's prefix, it should return a NO_ROUTE Nack. The strategy should then start using the Face to
   // nodeB.
   runConsumer();

   BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nInNacks, 1);
   BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 29);
   BOOST_CHECK_EQUAL(linkAB->getFace(nodeA).getCounters().nOutInterests, 29);

   // nodeD should receive 2 Interests: one for the very first Interest and
   // another from a probe
   BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 2);
 }

 BOOST_AUTO_TEST_CASE(NoPitOutRecordAndProbeInterestNewNonce)
 {
   /*                 +---------+
   *                  |  nodeD  |
   *                  +---------+
   *                       |
   *                       | 80ms
   *                       |
   *                       |
   *                  +---------+
   *           +----->|  nodeB  |<------+
   *           |      +---------+       |
   *      15ms |                        | 16ms
   *           v                        v
   *      +---------+              +---------+
   *      |  nodeA  |--------------|  nodeC  |
   *      +---------+     14ms      +---------+
   */

   const Name PRODUCER_PREFIX = "/ndn/edu/nodeD/ping";

   TopologyTester topo;
   TopologyNode nodeA = topo.addForwarder("A"),
                nodeB = topo.addForwarder("B"),
                nodeC = topo.addForwarder("C"),
                nodeD = topo.addForwarder("D");

   for (TopologyNode node : {nodeA, nodeB, nodeC, nodeD}) {
     topo.setStrategy<fw::AsfStrategy>(node);
   }

   shared_ptr<TopologyLink> linkAB = topo.addLink("AB", time::milliseconds(15), {nodeA, nodeB}),
                            linkAC = topo.addLink("AC", time::milliseconds(14), {nodeA, nodeC}),
                            linkBC = topo.addLink("BC", time::milliseconds(16), {nodeB, nodeC}),
                            linkBD = topo.addLink("BD", time::milliseconds(80), {nodeB, nodeD});

   shared_ptr<TopologyAppLink> ping = topo.addAppFace("c", nodeA),
                         pingServer = topo.addAppFace("p", nodeD, PRODUCER_PREFIX);
   topo.addEchoProducer(pingServer->getClientFace());

   // Register prefixes
   topo.registerPrefix(nodeA, linkAB->getFace(nodeA), PRODUCER_PREFIX, 15);
   topo.registerPrefix(nodeA, linkAC->getFace(nodeA), PRODUCER_PREFIX, 14);
   topo.registerPrefix(nodeC, linkBC->getFace(nodeC), PRODUCER_PREFIX, 16);
   topo.registerPrefix(nodeB, linkBD->getFace(nodeB), PRODUCER_PREFIX, 80);

   uint32_t nonce;

   // Send 6 interest since probes can be scheduled b/w 0-5 seconds
   for (int i = 1; i < 7; i++) {
     // Send ping number i
     Name name(PRODUCER_PREFIX);
     name.appendTimestamp();
     shared_ptr<Interest> interest = makeInterest(name);
     ping->getClientFace().expressInterest(*interest, nullptr, nullptr, nullptr);
     nonce = interest->getNonce();

     // Don't know when the probe will be triggered since it is random between 0-5 seconds
     // or whether it will be triggered for this interest
     int j = 1;
     while (linkAB->getFace(nodeA).getCounters().nOutInterests != 1) {
       this->advanceClocks(time::milliseconds(1));
       ++j;
       // Probe was not scheduled with this ping interest
       if (j > 1000) {
         break;
       }
     }

     // Check if probe is sent to B else send another ping
     if (linkAB->getFace(nodeA).getCounters().nOutInterests == 1) {
       // Get pitEntry of node A
       shared_ptr<pit::Entry> pitEntry = topo.getForwarder(nodeA).getPit().find(*interest);
       //get outRecord associated with face towards B
       pit::OutRecordCollection::const_iterator outRecord = pitEntry->getOutRecord(linkAB->getFace(nodeA));

       BOOST_CHECK(outRecord != pitEntry->out_end());

       //Check that Nonce of interest is not equal to Nonce of Probe
       BOOST_CHECK_NE(nonce, outRecord->getLastNonce());

       // B should not have received the probe interest yet
       BOOST_CHECK_EQUAL(linkAB->getFace(nodeB).getCounters().nInInterests, 0);

       // i-1 interests through B when no probe
       BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nOutInterests, i - 1);

       // After 15ms, B should get the probe interest
       this->advanceClocks(time::milliseconds(1), time::milliseconds(15));
       BOOST_CHECK_EQUAL(linkAB->getFace(nodeB).getCounters().nInInterests, 1);
       BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nOutInterests, i);

       pitEntry = topo.getForwarder(nodeB).getPit().find(*interest);

       // Get outRecord associated with face towards D.
       outRecord = pitEntry->getOutRecord(linkBD->getFace(nodeB));

       BOOST_CHECK(outRecord != pitEntry->out_end());

       // RTT between B and D
       this->advanceClocks(time::milliseconds(5), time::milliseconds(160));
       outRecord = pitEntry->getOutRecord(linkBD->getFace(nodeB));

       BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nInData, i);

       BOOST_CHECK(outRecord == pitEntry->out_end());

       // Data is returned for the ping after 15 ms - will result in false measurement
       // 14+16-15 = 15ms
       // Since outRecord == pitEntry->out_end()
       this->advanceClocks(time::milliseconds(1), time::milliseconds(15));
       BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nInData, i+1);

       break;
     }
   }
 }

 BOOST_AUTO_TEST_SUITE_END() // TestAsfStrategy
 BOOST_AUTO_TEST_SUITE_END() // Fw

 } // namespace tests
 } // namespace asf
 } // namespace fw
 } // namespace nfd
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014-2016, 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/>.
	*/

	#include "fw/asf-strategy.hpp"

	#include "tests/test-common.hpp"
	#include "strategy-tester.hpp"
	#include "topology-tester.hpp"

	namespace nfd {
	namespace fw {
	namespace asf {
	namespace tests {

	using namespace nfd::fw::tests;

	// The tester is unused in this file, but it's used in various templated test suites.
	typedef StrategyTester<AsfStrategy> AsfStrategyTester;
	NFD_REGISTER_STRATEGY(AsfStrategyTester);

	BOOST_AUTO_TEST_SUITE(Fw)
	BOOST_FIXTURE_TEST_SUITE(TestAsfStrategy, UnitTestTimeFixture)

	BOOST_AUTO_TEST_CASE(Registration)
	{
	BOOST_CHECK_EQUAL(Strategy::listRegistered().count(AsfStrategy::getStrategyName()), 1);
	}

	class AsfGridFixture : public UnitTestTimeFixture
	{
	protected:
	AsfGridFixture()
	{
	/*
	* +---------+
	* +----->\| nodeB \|<------+
	* \| +---------+ \|
	* 10ms \| \| 10ms
	* v v
	* +---------+ +---------+
	* \| nodeA \| \| nodeC \|
	* +---------+ +---------+
	* ^ ^
	* 100ms \| \| 100ms
	* \| +---------+ \|
	* +----->\| nodeD \|<------+
	* +---------+
	*/

	nodeA = topo.addForwarder("A");
	nodeB = topo.addForwarder("B");
	nodeC = topo.addForwarder("C");
	nodeD = topo.addForwarder("D");

	topo.setStrategy<fw::AsfStrategy>(nodeA);
	topo.setStrategy<fw::AsfStrategy>(nodeB);
	topo.setStrategy<fw::AsfStrategy>(nodeC);
	topo.setStrategy<fw::AsfStrategy>(nodeD);

	linkAB = topo.addLink("AB", time::milliseconds(10), {nodeA, nodeB});
	linkAD = topo.addLink("AD", time::milliseconds(100), {nodeA, nodeD});
	linkBC = topo.addLink("BC", time::milliseconds(10), {nodeB, nodeC});
	linkCD = topo.addLink("CD", time::milliseconds(100), {nodeC, nodeD});

	consumer = topo.addAppFace("c", nodeA);
	producer = topo.addAppFace("p", nodeC, PRODUCER_PREFIX);
	topo.addEchoProducer(producer->getClientFace());

	// Register producer prefix on consumer node
	topo.registerPrefix(nodeA, linkAB->getFace(nodeA), PRODUCER_PREFIX, 10);
	topo.registerPrefix(nodeA, linkAD->getFace(nodeA), PRODUCER_PREFIX, 5);
	}

	void
	runConsumer()
	{
	topo.addIntervalConsumer(consumer->getClientFace(), PRODUCER_PREFIX, time::seconds(1), 30);
	this->advanceClocks(time::milliseconds(10), time::seconds(30));
	}

	protected:
	TopologyTester topo;

	TopologyNode nodeA;
	TopologyNode nodeB;
	TopologyNode nodeC;
	TopologyNode nodeD;

	shared_ptr<TopologyLink> linkAB;
	shared_ptr<TopologyLink> linkAD;
	shared_ptr<TopologyLink> linkBC;
	shared_ptr<TopologyLink> linkCD;

	shared_ptr<TopologyAppLink> consumer;
	shared_ptr<TopologyAppLink> producer;

	static const Name PRODUCER_PREFIX;
	};

	const Name AsfGridFixture::PRODUCER_PREFIX = Name("ndn:/hr/C");

	BOOST_FIXTURE_TEST_CASE(Basic, AsfGridFixture)
	{
	// Both nodeB and nodeD have FIB entries to reach the producer
	topo.registerPrefix(nodeB, linkBC->getFace(nodeB), PRODUCER_PREFIX);
	topo.registerPrefix(nodeD, linkCD->getFace(nodeD), PRODUCER_PREFIX);

	runConsumer();

	// ASF should use the Face to nodeD because it has lower routing cost.
	// After 5 seconds, a probe Interest should be sent to the Face to nodeB,
	// and the probe should return Data quicker. ASF should then use the Face
	// to nodeB to forward the remaining Interests.
	BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 30);
	BOOST_CHECK_GE(linkAB->getFace(nodeA).getCounters().nOutInterests, 24);
	BOOST_CHECK_LE(linkAD->getFace(nodeA).getCounters().nOutInterests, 6);

	// If the link from nodeA to nodeB fails, ASF should start using the Face
	// to nodeD again.
	linkAB->fail();

	runConsumer();

	// Only 59 Data because the first Interest to nodeB after the failure should timeout
	BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 59);
	BOOST_CHECK_LE(linkAB->getFace(nodeA).getCounters().nOutInterests, 30);
	BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 30);

	// If the link from nodeA to nodeB recovers, ASF should probe the Face
	// to nodeB and start using it again.
	linkAB->recover();

	// Advance time to ensure probing is due
	this->advanceClocks(time::milliseconds(10), time::seconds(10));

	runConsumer();

	BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 89);
	BOOST_CHECK_GE(linkAB->getFace(nodeA).getCounters().nOutInterests, 50);
	BOOST_CHECK_LE(linkAD->getFace(nodeA).getCounters().nOutInterests, 40);

	// If both links fail, nodeA should forward to the next hop with the lowest cost
	linkAB->fail();
	linkAD->fail();

	runConsumer();

	BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 89);
	BOOST_CHECK_LE(linkAB->getFace(nodeA).getCounters().nOutInterests, 61); // FIXME #3830
	BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 59); // FIXME #3830
	}

	BOOST_FIXTURE_TEST_CASE(Nack, AsfGridFixture)
	{
	// nodeB has a FIB entry to reach the producer, but nodeD does not
	topo.registerPrefix(nodeB, linkBC->getFace(nodeB), PRODUCER_PREFIX);

	// The strategy should first try to send to nodeD. But since nodeD does not have a route for
	// the producer's prefix, it should return a NO_ROUTE Nack. The strategy should then start using the Face to
	// nodeB.
	runConsumer();

	BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nInNacks, 1);
	BOOST_CHECK_EQUAL(consumer->getForwarderFace().getCounters().nOutData, 29);
	BOOST_CHECK_EQUAL(linkAB->getFace(nodeA).getCounters().nOutInterests, 29);

	// nodeD should receive 2 Interests: one for the very first Interest and
	// another from a probe
	BOOST_CHECK_GE(linkAD->getFace(nodeA).getCounters().nOutInterests, 2);
	}

	BOOST_AUTO_TEST_CASE(NoPitOutRecordAndProbeInterestNewNonce)
	{
	/* +---------+
	* \| nodeD \|
	* +---------+
	* \|
	* \| 80ms
	* \|
	* \|
	* +---------+
	* +----->\| nodeB \|<------+
	* \| +---------+ \|
	* 15ms \| \| 16ms
	* v v
	* +---------+ +---------+
	* \| nodeA \|--------------\| nodeC \|
	* +---------+ 14ms +---------+
	*/

	const Name PRODUCER_PREFIX = "/ndn/edu/nodeD/ping";

	TopologyTester topo;
	TopologyNode nodeA = topo.addForwarder("A"),
	nodeB = topo.addForwarder("B"),
	nodeC = topo.addForwarder("C"),
	nodeD = topo.addForwarder("D");

	for (TopologyNode node : {nodeA, nodeB, nodeC, nodeD}) {
	topo.setStrategy<fw::AsfStrategy>(node);
	}

	shared_ptr<TopologyLink> linkAB = topo.addLink("AB", time::milliseconds(15), {nodeA, nodeB}),
	linkAC = topo.addLink("AC", time::milliseconds(14), {nodeA, nodeC}),
	linkBC = topo.addLink("BC", time::milliseconds(16), {nodeB, nodeC}),
	linkBD = topo.addLink("BD", time::milliseconds(80), {nodeB, nodeD});

	shared_ptr<TopologyAppLink> ping = topo.addAppFace("c", nodeA),
	pingServer = topo.addAppFace("p", nodeD, PRODUCER_PREFIX);
	topo.addEchoProducer(pingServer->getClientFace());

	// Register prefixes
	topo.registerPrefix(nodeA, linkAB->getFace(nodeA), PRODUCER_PREFIX, 15);
	topo.registerPrefix(nodeA, linkAC->getFace(nodeA), PRODUCER_PREFIX, 14);
	topo.registerPrefix(nodeC, linkBC->getFace(nodeC), PRODUCER_PREFIX, 16);
	topo.registerPrefix(nodeB, linkBD->getFace(nodeB), PRODUCER_PREFIX, 80);

	uint32_t nonce;

	// Send 6 interest since probes can be scheduled b/w 0-5 seconds
	for (int i = 1; i < 7; i++) {
	// Send ping number i
	Name name(PRODUCER_PREFIX);
	name.appendTimestamp();
	shared_ptr<Interest> interest = makeInterest(name);
	ping->getClientFace().expressInterest(*interest, nullptr, nullptr, nullptr);
	nonce = interest->getNonce();

	// Don't know when the probe will be triggered since it is random between 0-5 seconds
	// or whether it will be triggered for this interest
	int j = 1;
	while (linkAB->getFace(nodeA).getCounters().nOutInterests != 1) {
	this->advanceClocks(time::milliseconds(1));
	++j;
	// Probe was not scheduled with this ping interest
	if (j > 1000) {
	break;
	}
	}

	// Check if probe is sent to B else send another ping
	if (linkAB->getFace(nodeA).getCounters().nOutInterests == 1) {
	// Get pitEntry of node A
	shared_ptr<pit::Entry> pitEntry = topo.getForwarder(nodeA).getPit().find(*interest);
	//get outRecord associated with face towards B
	pit::OutRecordCollection::const_iterator outRecord = pitEntry->getOutRecord(linkAB->getFace(nodeA));

	BOOST_CHECK(outRecord != pitEntry->out_end());

	//Check that Nonce of interest is not equal to Nonce of Probe
	BOOST_CHECK_NE(nonce, outRecord->getLastNonce());

	// B should not have received the probe interest yet
	BOOST_CHECK_EQUAL(linkAB->getFace(nodeB).getCounters().nInInterests, 0);

	// i-1 interests through B when no probe
	BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nOutInterests, i - 1);

	// After 15ms, B should get the probe interest
	this->advanceClocks(time::milliseconds(1), time::milliseconds(15));
	BOOST_CHECK_EQUAL(linkAB->getFace(nodeB).getCounters().nInInterests, 1);
	BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nOutInterests, i);

	pitEntry = topo.getForwarder(nodeB).getPit().find(*interest);

	// Get outRecord associated with face towards D.
	outRecord = pitEntry->getOutRecord(linkBD->getFace(nodeB));

	BOOST_CHECK(outRecord != pitEntry->out_end());

	// RTT between B and D
	this->advanceClocks(time::milliseconds(5), time::milliseconds(160));
	outRecord = pitEntry->getOutRecord(linkBD->getFace(nodeB));

	BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nInData, i);

	BOOST_CHECK(outRecord == pitEntry->out_end());

	// Data is returned for the ping after 15 ms - will result in false measurement
	// 14+16-15 = 15ms
	// Since outRecord == pitEntry->out_end()
	this->advanceClocks(time::milliseconds(1), time::milliseconds(15));
	BOOST_CHECK_EQUAL(linkBD->getFace(nodeB).getCounters().nInData, i+1);

	break;
	}
	}
	}

	BOOST_AUTO_TEST_SUITE_END() // TestAsfStrategy
	BOOST_AUTO_TEST_SUITE_END() // Fw

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