tests/chunks/pipeline-interests-aimd.t.cpp - ndn-tools - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2016,  Regents of the University of California,
  *                      Colorado State University,
  *                      University Pierre & Marie Curie, Sorbonne University.
  *
  * This file is part of ndn-tools (Named Data Networking Essential Tools).
  * See AUTHORS.md for complete list of ndn-tools authors and contributors.
  *
  * ndn-tools 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.
  *
  * ndn-tools 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
  * ndn-tools, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  *
  * See AUTHORS.md for complete list of ndn-cxx authors and contributors.
  *
  * @author Weiwei Liu
  */

 #include "tools/chunks/catchunks/pipeline-interests-aimd.hpp"
 #include "tools/chunks/catchunks/options.hpp"

 #include "pipeline-interests-fixture.hpp"

 namespace ndn {
 namespace chunks {
 namespace aimd {
 namespace tests {

 using namespace ndn::tests;

 class PipelineInterestAimdFixture : public ndn::chunks::tests::PipelineInterestsFixture
 {
 public:
   PipelineInterestAimdFixture()
     : PipelineInterestsFixture()
     , opt(makePipelineOptions())
     , rttEstimator(makeRttEstimatorOptions())
   {
     auto pline = make_unique<PipelineInterestsAimd>(face, rttEstimator, opt);
     aimdPipeline = pline.get();
     setPipeline(std::move(pline));
   }

 private:
   static PipelineInterestsAimdOptions
   makePipelineOptions()
   {
     PipelineInterestsAimdOptions pipelineOptions;
     pipelineOptions.disableCwa = false;
     pipelineOptions.resetCwndToInit = false;
     pipelineOptions.initCwnd = 1.0;
     pipelineOptions.aiStep = 1.0;
     pipelineOptions.mdCoef = 0.5;
     pipelineOptions.initSsthresh = std::numeric_limits<int>::max();
     return pipelineOptions;
   }

   static RttEstimator::Options
   makeRttEstimatorOptions()
   {
     RttEstimator::Options rttOptions;
     rttOptions.alpha = 0.125;
     rttOptions.beta = 0.25;
     rttOptions.k = 4;
     rttOptions.minRto = Milliseconds(200);
     rttOptions.maxRto = Milliseconds(4000);
     return rttOptions;
   }

 protected:
   PipelineInterestsAimdOptions opt;
   RttEstimator rttEstimator;
   PipelineInterestsAimd* aimdPipeline;
 };

 BOOST_AUTO_TEST_SUITE(Chunks)
 BOOST_FIXTURE_TEST_SUITE(TestPipelineInterestsAimd, PipelineInterestAimdFixture)

 BOOST_AUTO_TEST_CASE(SlowStart)
 {
   nDataSegments = 4;
   aimdPipeline->m_ssthresh = 8.0;
   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

   double preCwnd = aimdPipeline->m_cwnd;
   runWithData(*makeDataWithSegment(0));
   advanceClocks(io, time::nanoseconds(1));
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

   for (uint64_t i = 1; i < nDataSegments - 1; ++i) {
     face.receive(*makeDataWithSegment(i));
     advanceClocks(io, time::nanoseconds(1));
     BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd - preCwnd, 1, 0.1);
     preCwnd = aimdPipeline->m_cwnd;
   }
 }

 BOOST_AUTO_TEST_CASE(CongestionAvoidance)
 {
   nDataSegments = 8;
   aimdPipeline->m_ssthresh = 4.0;
   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

   double preCwnd = aimdPipeline->m_cwnd;
   runWithData(*makeDataWithSegment(0));
   advanceClocks(io, time::nanoseconds(1));
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

   for (uint64_t i = 1; i < aimdPipeline->m_ssthresh; ++i) { // slow start
     face.receive(*makeDataWithSegment(i));
     advanceClocks(io, time::nanoseconds(1));
     preCwnd = aimdPipeline->m_cwnd;
   }

   BOOST_REQUIRE_CLOSE(preCwnd, aimdPipeline->m_ssthresh, 0.1);

   for (uint64_t i = aimdPipeline->m_ssthresh; i < nDataSegments - 1; ++i) { // congestion avoidance
     face.receive(*makeDataWithSegment(i));
     advanceClocks(io, time::nanoseconds(1));
     BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd - preCwnd, opt.aiStep / floor(aimdPipeline->m_cwnd), 0.1);
     preCwnd = aimdPipeline->m_cwnd;
   }
 }

 BOOST_AUTO_TEST_CASE(Timeout)
 {
   nDataSegments = 8;
   aimdPipeline->m_ssthresh = 4.0;
   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

   runWithData(*makeDataWithSegment(0));
   advanceClocks(io, time::nanoseconds(1));
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

   // receive segment 1 and segment 2
   for (uint64_t i = 1; i < 3; ++i) {
     face.receive(*makeDataWithSegment(i));
     advanceClocks(io, time::nanoseconds(1));
   }

   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 3, 0.1);
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 5); // request for segment 5 has been sent

   advanceClocks(io, time::milliseconds(100));

   // receive segment 4
   face.receive(*makeDataWithSegment(4));
   advanceClocks(io, time::nanoseconds(1));

   // receive segment 5
   face.receive(*makeDataWithSegment(5));
   advanceClocks(io, time::nanoseconds(1));

   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 4.25, 0.1);
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 7); // all the segment requests have been sent

   // timeout segment 3
   advanceClocks(io, time::milliseconds(150));

   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 2.125, 0.1); // window size drop to 1/2 of previous size
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 1);

   // receive segment 6, retransmit 3
   face.receive(*makeDataWithSegment(6));
   advanceClocks(io, time::nanoseconds(1));

   BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 2.625, 0.1); // congestion avoidance
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 0);
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);
 }

 BOOST_AUTO_TEST_CASE(Nack)
 {
   nDataSegments = 5;
   aimdPipeline->m_cwnd = 10.0;
   runWithData(*makeDataWithSegment(0));
   advanceClocks(io, time::nanoseconds(1));

   face.receive(*makeDataWithSegment(1));
   advanceClocks(io, time::nanoseconds(1));
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 4);

   // receive a nack with NackReason::DUPLICATE for segment 2
   auto nack1 = makeNack(face.sentInterests[1], lp::NackReason::DUPLICATE);
   face.receive(nack1);
   advanceClocks(io, time::nanoseconds(1));

   // nack1 is ignored
   BOOST_CHECK_EQUAL(hasFailed, false);
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 0);

   // receive a nack with NackReason::CONGESTION for segment 3
   auto nack2 = makeNack(face.sentInterests[2], lp::NackReason::CONGESTION);
   face.receive(nack2);
   advanceClocks(io, time::nanoseconds(1));

   // segment 3 is retransmitted
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);

   // receive a nack with NackReason::NONE for segment 4
   auto nack3 = makeNack(face.sentInterests[3], lp::NackReason::NONE);
   face.receive(nack3);
   advanceClocks(io, time::nanoseconds(1));

   // Other types of Nack will trigger a failure
   BOOST_CHECK_EQUAL(hasFailed, true);
 }

 BOOST_AUTO_TEST_CASE(FinalBlockIdNotSetAtBeginning)
 {
   nDataSegments = 4;
   aimdPipeline->m_cwnd = 4;
   runWithData(*makeDataWithSegment(0, false));
   advanceClocks(io, time::nanoseconds(1));

   // receive segment 1 without FinalBlockId
   face.receive(*makeDataWithSegment(1, false));
   advanceClocks(io, time::nanoseconds(1));

   // interests for segment 1 - 6 have been sent
   BOOST_CHECK_EQUAL(face.sentInterests.size(), 6);
   BOOST_CHECK_EQUAL(aimdPipeline->m_hasFinalBlockId, false);
   // pending interests: segment 2, 3, 4, 5, 6
   BOOST_CHECK_EQUAL(face.getNPendingInterests(), 5);

   // receive segment 2 with FinalBlockId
   face.receive(*makeDataWithSegment(2));
   advanceClocks(io, time::nanoseconds(1));
   BOOST_CHECK_EQUAL(aimdPipeline->m_hasFinalBlockId, true);

   // pending interests for segment 2, 4, 5, 6 haven been removed
   BOOST_CHECK_EQUAL(face.getNPendingInterests(), 1);
 }

 BOOST_AUTO_TEST_CASE(FailureBeforeFinalBlockIdReceived)
 {
   // failed to retrieve segNo while the FinalBlockId has not yet been
   // set, and later received a FinalBlockId >= segNo, i.e. segNo is
   // part of the content.

   nDataSegments = 4;
   aimdPipeline->m_cwnd = 4;
   runWithData(*makeDataWithSegment(0, false));
   advanceClocks(io, time::nanoseconds(1));

   // receive segment 1 without FinalBlockId
   face.receive(*makeDataWithSegment(1, false));
   advanceClocks(io, time::nanoseconds(1));
   // interests for segment 1 - 6 have been sent
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 6);

   // receive nack with NackReason::NONE for segment 3
   auto nack = makeNack(face.sentInterests[2], lp::NackReason::NONE);
   face.receive(nack);
   advanceClocks(io, time::nanoseconds(1));

   // error not triggered
   // pending interests for segment > 3 haven been removed
   BOOST_CHECK_EQUAL(hasFailed, false);
   BOOST_CHECK_EQUAL(face.getNPendingInterests(), 1);

   // receive segment 2 with FinalBlockId
   face.receive(*makeDataWithSegment(2));
   advanceClocks(io, time::nanoseconds(1));

   // error triggered since segment 3 is part of the content
   BOOST_CHECK_EQUAL(hasFailed, true);
 }

 BOOST_AUTO_TEST_CASE(SpuriousFailureBeforeFinalBlockIdReceived)
 {
   // failed to retrieve segNo while the FinalBlockId has not yet been
   // set, and later received a FinalBlockId < segNo, i.e. segNo is
   // not part of the content, and it was actually a spurious failure

   nDataSegments = 4;
   aimdPipeline->m_cwnd = 4;
   runWithData(*makeDataWithSegment(0, false));
   advanceClocks(io, time::nanoseconds(1));

   // receive segment 1 without FinalBlockId
   face.receive(*makeDataWithSegment(1, false));
   advanceClocks(io, time::nanoseconds(1));
   // interests for segment 1 - 6 have been sent
   BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 6);

   // receive nack with NackReason::NONE for segment 4
   auto nack= makeNack(face.sentInterests[3], lp::NackReason::NONE);
   face.receive(nack);
   advanceClocks(io, time::nanoseconds(1));

   // error not triggered
   // pending interests for segment > 4 haven been removed
   BOOST_CHECK_EQUAL(hasFailed, false);
   BOOST_CHECK_EQUAL(face.getNPendingInterests(), 2);

   // receive segment 2 with FinalBlockId
   face.receive(*makeDataWithSegment(2));
   advanceClocks(io, time::nanoseconds(1));

   // timeout segment 3
   advanceClocks(io, time::milliseconds(250));

   // segment 3 is retransmitted
   BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);

   // receive segment 3
   face.receive(*makeDataWithSegment(3));
   advanceClocks(io, time::nanoseconds(1));

   BOOST_CHECK_EQUAL(hasFailed, false);
 }

 BOOST_AUTO_TEST_SUITE_END() // TestPipelineInterestsAimd
 BOOST_AUTO_TEST_SUITE_END() // Chunks

 } // namespace tests
 } // namespace aimd
 } // namespace chunks
 } // namespace ndn
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2016, Regents of the University of California,
	* Colorado State University,
	* University Pierre & Marie Curie, Sorbonne University.
	*
	* This file is part of ndn-tools (Named Data Networking Essential Tools).
	* See AUTHORS.md for complete list of ndn-tools authors and contributors.
	*
	* ndn-tools 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.
	*
	* ndn-tools 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
	* ndn-tools, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	*
	* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
	*
	* @author Weiwei Liu
	*/

	#include "tools/chunks/catchunks/pipeline-interests-aimd.hpp"
	#include "tools/chunks/catchunks/options.hpp"

	#include "pipeline-interests-fixture.hpp"

	namespace ndn {
	namespace chunks {
	namespace aimd {
	namespace tests {

	using namespace ndn::tests;

	class PipelineInterestAimdFixture : public ndn::chunks::tests::PipelineInterestsFixture
	{
	public:
	PipelineInterestAimdFixture()
	: PipelineInterestsFixture()
	, opt(makePipelineOptions())
	, rttEstimator(makeRttEstimatorOptions())
	{
	auto pline = make_unique<PipelineInterestsAimd>(face, rttEstimator, opt);
	aimdPipeline = pline.get();
	setPipeline(std::move(pline));
	}

	private:
	static PipelineInterestsAimdOptions
	makePipelineOptions()
	{
	PipelineInterestsAimdOptions pipelineOptions;
	pipelineOptions.disableCwa = false;
	pipelineOptions.resetCwndToInit = false;
	pipelineOptions.initCwnd = 1.0;
	pipelineOptions.aiStep = 1.0;
	pipelineOptions.mdCoef = 0.5;
	pipelineOptions.initSsthresh = std::numeric_limits<int>::max();
	return pipelineOptions;
	}

	static RttEstimator::Options
	makeRttEstimatorOptions()
	{
	RttEstimator::Options rttOptions;
	rttOptions.alpha = 0.125;
	rttOptions.beta = 0.25;
	rttOptions.k = 4;
	rttOptions.minRto = Milliseconds(200);
	rttOptions.maxRto = Milliseconds(4000);
	return rttOptions;
	}

	protected:
	PipelineInterestsAimdOptions opt;
	RttEstimator rttEstimator;
	PipelineInterestsAimd* aimdPipeline;
	};

	BOOST_AUTO_TEST_SUITE(Chunks)
	BOOST_FIXTURE_TEST_SUITE(TestPipelineInterestsAimd, PipelineInterestAimdFixture)

	BOOST_AUTO_TEST_CASE(SlowStart)
	{
	nDataSegments = 4;
	aimdPipeline->m_ssthresh = 8.0;
	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

	double preCwnd = aimdPipeline->m_cwnd;
	runWithData(*makeDataWithSegment(0));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

	for (uint64_t i = 1; i < nDataSegments - 1; ++i) {
	face.receive(*makeDataWithSegment(i));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd - preCwnd, 1, 0.1);
	preCwnd = aimdPipeline->m_cwnd;
	}
	}

	BOOST_AUTO_TEST_CASE(CongestionAvoidance)
	{
	nDataSegments = 8;
	aimdPipeline->m_ssthresh = 4.0;
	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

	double preCwnd = aimdPipeline->m_cwnd;
	runWithData(*makeDataWithSegment(0));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

	for (uint64_t i = 1; i < aimdPipeline->m_ssthresh; ++i) { // slow start
	face.receive(*makeDataWithSegment(i));
	advanceClocks(io, time::nanoseconds(1));
	preCwnd = aimdPipeline->m_cwnd;
	}

	BOOST_REQUIRE_CLOSE(preCwnd, aimdPipeline->m_ssthresh, 0.1);

	for (uint64_t i = aimdPipeline->m_ssthresh; i < nDataSegments - 1; ++i) { // congestion avoidance
	face.receive(*makeDataWithSegment(i));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd - preCwnd, opt.aiStep / floor(aimdPipeline->m_cwnd), 0.1);
	preCwnd = aimdPipeline->m_cwnd;
	}
	}

	BOOST_AUTO_TEST_CASE(Timeout)
	{
	nDataSegments = 8;
	aimdPipeline->m_ssthresh = 4.0;
	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 1, 0.1);

	runWithData(*makeDataWithSegment(0));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 1);

	// receive segment 1 and segment 2
	for (uint64_t i = 1; i < 3; ++i) {
	face.receive(*makeDataWithSegment(i));
	advanceClocks(io, time::nanoseconds(1));
	}

	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 3, 0.1);
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 5); // request for segment 5 has been sent

	advanceClocks(io, time::milliseconds(100));

	// receive segment 4
	face.receive(*makeDataWithSegment(4));
	advanceClocks(io, time::nanoseconds(1));

	// receive segment 5
	face.receive(*makeDataWithSegment(5));
	advanceClocks(io, time::nanoseconds(1));

	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 4.25, 0.1);
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 7); // all the segment requests have been sent

	// timeout segment 3
	advanceClocks(io, time::milliseconds(150));

	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 2.125, 0.1); // window size drop to 1/2 of previous size
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 1);

	// receive segment 6, retransmit 3
	face.receive(*makeDataWithSegment(6));
	advanceClocks(io, time::nanoseconds(1));

	BOOST_REQUIRE_CLOSE(aimdPipeline->m_cwnd, 2.625, 0.1); // congestion avoidance
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 0);
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);
	}

	BOOST_AUTO_TEST_CASE(Nack)
	{
	nDataSegments = 5;
	aimdPipeline->m_cwnd = 10.0;
	runWithData(*makeDataWithSegment(0));
	advanceClocks(io, time::nanoseconds(1));

	face.receive(*makeDataWithSegment(1));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 4);

	// receive a nack with NackReason::DUPLICATE for segment 2
	auto nack1 = makeNack(face.sentInterests[1], lp::NackReason::DUPLICATE);
	face.receive(nack1);
	advanceClocks(io, time::nanoseconds(1));

	// nack1 is ignored
	BOOST_CHECK_EQUAL(hasFailed, false);
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxQueue.size(), 0);

	// receive a nack with NackReason::CONGESTION for segment 3
	auto nack2 = makeNack(face.sentInterests[2], lp::NackReason::CONGESTION);
	face.receive(nack2);
	advanceClocks(io, time::nanoseconds(1));

	// segment 3 is retransmitted
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);

	// receive a nack with NackReason::NONE for segment 4
	auto nack3 = makeNack(face.sentInterests[3], lp::NackReason::NONE);
	face.receive(nack3);
	advanceClocks(io, time::nanoseconds(1));

	// Other types of Nack will trigger a failure
	BOOST_CHECK_EQUAL(hasFailed, true);
	}

	BOOST_AUTO_TEST_CASE(FinalBlockIdNotSetAtBeginning)
	{
	nDataSegments = 4;
	aimdPipeline->m_cwnd = 4;
	runWithData(*makeDataWithSegment(0, false));
	advanceClocks(io, time::nanoseconds(1));

	// receive segment 1 without FinalBlockId
	face.receive(*makeDataWithSegment(1, false));
	advanceClocks(io, time::nanoseconds(1));

	// interests for segment 1 - 6 have been sent
	BOOST_CHECK_EQUAL(face.sentInterests.size(), 6);
	BOOST_CHECK_EQUAL(aimdPipeline->m_hasFinalBlockId, false);
	// pending interests: segment 2, 3, 4, 5, 6
	BOOST_CHECK_EQUAL(face.getNPendingInterests(), 5);

	// receive segment 2 with FinalBlockId
	face.receive(*makeDataWithSegment(2));
	advanceClocks(io, time::nanoseconds(1));
	BOOST_CHECK_EQUAL(aimdPipeline->m_hasFinalBlockId, true);

	// pending interests for segment 2, 4, 5, 6 haven been removed
	BOOST_CHECK_EQUAL(face.getNPendingInterests(), 1);
	}

	BOOST_AUTO_TEST_CASE(FailureBeforeFinalBlockIdReceived)
	{
	// failed to retrieve segNo while the FinalBlockId has not yet been
	// set, and later received a FinalBlockId >= segNo, i.e. segNo is
	// part of the content.

	nDataSegments = 4;
	aimdPipeline->m_cwnd = 4;
	runWithData(*makeDataWithSegment(0, false));
	advanceClocks(io, time::nanoseconds(1));

	// receive segment 1 without FinalBlockId
	face.receive(*makeDataWithSegment(1, false));
	advanceClocks(io, time::nanoseconds(1));
	// interests for segment 1 - 6 have been sent
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 6);

	// receive nack with NackReason::NONE for segment 3
	auto nack = makeNack(face.sentInterests[2], lp::NackReason::NONE);
	face.receive(nack);
	advanceClocks(io, time::nanoseconds(1));

	// error not triggered
	// pending interests for segment > 3 haven been removed
	BOOST_CHECK_EQUAL(hasFailed, false);
	BOOST_CHECK_EQUAL(face.getNPendingInterests(), 1);

	// receive segment 2 with FinalBlockId
	face.receive(*makeDataWithSegment(2));
	advanceClocks(io, time::nanoseconds(1));

	// error triggered since segment 3 is part of the content
	BOOST_CHECK_EQUAL(hasFailed, true);
	}

	BOOST_AUTO_TEST_CASE(SpuriousFailureBeforeFinalBlockIdReceived)
	{
	// failed to retrieve segNo while the FinalBlockId has not yet been
	// set, and later received a FinalBlockId < segNo, i.e. segNo is
	// not part of the content, and it was actually a spurious failure

	nDataSegments = 4;
	aimdPipeline->m_cwnd = 4;
	runWithData(*makeDataWithSegment(0, false));
	advanceClocks(io, time::nanoseconds(1));

	// receive segment 1 without FinalBlockId
	face.receive(*makeDataWithSegment(1, false));
	advanceClocks(io, time::nanoseconds(1));
	// interests for segment 1 - 6 have been sent
	BOOST_REQUIRE_EQUAL(face.sentInterests.size(), 6);

	// receive nack with NackReason::NONE for segment 4
	auto nack= makeNack(face.sentInterests[3], lp::NackReason::NONE);
	face.receive(nack);
	advanceClocks(io, time::nanoseconds(1));

	// error not triggered
	// pending interests for segment > 4 haven been removed
	BOOST_CHECK_EQUAL(hasFailed, false);
	BOOST_CHECK_EQUAL(face.getNPendingInterests(), 2);

	// receive segment 2 with FinalBlockId
	face.receive(*makeDataWithSegment(2));
	advanceClocks(io, time::nanoseconds(1));

	// timeout segment 3
	advanceClocks(io, time::milliseconds(250));

	// segment 3 is retransmitted
	BOOST_CHECK_EQUAL(aimdPipeline->m_retxCount[3], 1);

	// receive segment 3
	face.receive(*makeDataWithSegment(3));
	advanceClocks(io, time::nanoseconds(1));

	BOOST_CHECK_EQUAL(hasFailed, false);
	}

	BOOST_AUTO_TEST_SUITE_END() // TestPipelineInterestsAimd
	BOOST_AUTO_TEST_SUITE_END() // Chunks

	} // namespace tests
	} // namespace aimd
	} // namespace chunks
	} // namespace ndn