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gerrit.named-data.net / NFD / 9d283adac450171c65bb020ebb55df838609b6d7 / . / tests / daemon / fw / forwarder.t.cpp
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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2020, 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/forwarder.hpp"
#include "common/global.hpp"
#include "tests/test-common.hpp"
#include "tests/daemon/global-io-fixture.hpp"
#include "tests/daemon/face/dummy-face.hpp"
#include "choose-strategy.hpp"
#include "dummy-strategy.hpp"
#include <ndn-cxx/lp/tags.hpp>
namespace nfd {
namespace tests {
class ForwarderFixture : public GlobalIoTimeFixture
{
protected:
template<typename ...Args>
shared_ptr<DummyFace>
addFace(Args&&... args)
{
auto face = make_shared<DummyFace>(std::forward<Args>(args)...);
faceTable.add(face);
return face;
}
protected:
FaceTable faceTable;
Forwarder forwarder{faceTable};
};
BOOST_AUTO_TEST_SUITE(Fw)
BOOST_FIXTURE_TEST_SUITE(TestForwarder, ForwarderFixture)
BOOST_AUTO_TEST_CASE(SimpleExchange)
{
auto face1 = addFace();
auto face2 = addFace();
Fib& fib = forwarder.getFib();
fib::Entry* entry = fib.insert("/A").first;
fib.addOrUpdateNextHop(*entry, *face2, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nInInterests, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nOutInterests, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsHits, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsMisses, 0);
face1->receiveInterest(*makeInterest("/A/B"), 0);
this->advanceClocks(100_ms, 1_s);
BOOST_REQUIRE_EQUAL(face2->sentInterests.size(), 1);
BOOST_CHECK_EQUAL(face2->sentInterests[0].getName(), "/A/B");
BOOST_REQUIRE(face2->sentInterests[0].getTag<lp::IncomingFaceIdTag>() != nullptr);
BOOST_CHECK_EQUAL(*face2->sentInterests[0].getTag<lp::IncomingFaceIdTag>(), face1->getId());
BOOST_CHECK_EQUAL(forwarder.getCounters().nInInterests, 1);
BOOST_CHECK_EQUAL(forwarder.getCounters().nOutInterests, 1);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsHits, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsMisses, 1);
BOOST_CHECK_EQUAL(forwarder.getCounters().nInData, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nOutData, 0);
face2->receiveData(*makeData("/A/B"), 0);
this->advanceClocks(100_ms, 1_s);
BOOST_REQUIRE_EQUAL(face1->sentData.size(), 1);
BOOST_CHECK_EQUAL(face1->sentData[0].getName(), "/A/B");
BOOST_REQUIRE(face1->sentData[0].getTag<lp::IncomingFaceIdTag>() != nullptr);
BOOST_CHECK_EQUAL(*face1->sentData[0].getTag<lp::IncomingFaceIdTag>(), face2->getId());
BOOST_CHECK_EQUAL(forwarder.getCounters().nInData, 1);
BOOST_CHECK_EQUAL(forwarder.getCounters().nOutData, 1);
}
BOOST_AUTO_TEST_CASE(CsMatched)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace();
Fib& fib = forwarder.getFib();
fib::Entry* entry = fib.insert("/A").first;
fib.addOrUpdateNextHop(*entry, *face2, 0);
Pit& pit = forwarder.getPit();
BOOST_CHECK_EQUAL(pit.size(), 0);
auto data = makeData("/A/B");
data->setTag(make_shared<lp::IncomingFaceIdTag>(face3->getId()));
forwarder.getCs().insert(*data);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsHits, 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsMisses, 0);
face1->receiveInterest(*makeInterest("/A", true), 0);
this->advanceClocks(1_ms, 5_ms);
// Interest matching ContentStore should not be forwarded
BOOST_REQUIRE_EQUAL(face2->sentInterests.size(), 0);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsHits, 1);
BOOST_CHECK_EQUAL(forwarder.getCounters().nCsMisses, 0);
BOOST_REQUIRE_EQUAL(face1->sentData.size(), 1);
// IncomingFaceId field should be reset to represent CS
BOOST_CHECK_EQUAL(face1->sentData[0].getName(), "/A/B");
BOOST_REQUIRE(face1->sentData[0].getTag<lp::IncomingFaceIdTag>() != nullptr);
BOOST_CHECK_EQUAL(*face1->sentData[0].getTag<lp::IncomingFaceIdTag>(), face::FACEID_CONTENT_STORE);
this->advanceClocks(100_ms, 500_ms);
// PIT entry should not be left behind
BOOST_CHECK_EQUAL(pit.size(), 0);
}
BOOST_AUTO_TEST_CASE(OutgoingInterest)
{
auto face1 = addFace();
auto face2 = addFace();
Pit& pit = forwarder.getPit();
auto interestA1 = makeInterest("/A", false, nullopt, 8378);
shared_ptr<pit::Entry> pitA = pit.insert(*interestA1).first;
pitA->insertOrUpdateInRecord(*face1, *interestA1);
auto interestA2 = makeInterest("/A", false, nullopt, 1698);
forwarder.onOutgoingInterest(pitA, FaceEndpoint(*face2, 0), *interestA2);
pit::OutRecordCollection::iterator outA2 = pitA->getOutRecord(*face2);
BOOST_REQUIRE(outA2 != pitA->out_end());
BOOST_CHECK_EQUAL(outA2->getLastNonce(), 1698);
BOOST_REQUIRE_EQUAL(face2->sentInterests.size(), 1);
BOOST_CHECK_EQUAL(face2->sentInterests.back().getNonce(), 1698);
}
BOOST_AUTO_TEST_CASE(NextHopFaceId)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace();
Fib& fib = forwarder.getFib();
fib::Entry* entry = fib.insert("/A").first;
fib.addOrUpdateNextHop(*entry, *face3, 0);
auto interest = makeInterest("/A/B");
interest->setTag(make_shared<lp::NextHopFaceIdTag>(face2->getId()));
face1->receiveInterest(*interest, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(face3->sentInterests.size(), 0);
BOOST_REQUIRE_EQUAL(face2->sentInterests.size(), 1);
BOOST_CHECK_EQUAL(face2->sentInterests.front().getName(), "/A/B");
}
BOOST_AUTO_TEST_CASE(HopLimit)
{
auto faceIn = addFace();
auto faceRemote = addFace("dummy://", "dummy://", ndn::nfd::FACE_SCOPE_NON_LOCAL);
auto faceLocal = addFace("dummy://", "dummy://", ndn::nfd::FACE_SCOPE_LOCAL);
Fib& fib = forwarder.getFib();
fib::Entry* entryRemote = fib.insert("/remote").first;
fib.addOrUpdateNextHop(*entryRemote, *faceRemote, 0);
fib::Entry* entryLocal = fib.insert("/local").first;
fib.addOrUpdateNextHop(*entryLocal, *faceLocal, 0);
// Incoming interest w/o HopLimit will not be dropped on send or receive paths
auto interestNoHopLimit = makeInterest("/remote/abcdefgh");
faceIn->receiveInterest(*interestNoHopLimit, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(faceRemote->sentInterests.size(), 1);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nInHopLimitZero, 0);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutHopLimitZero, 0);
BOOST_REQUIRE_EQUAL(faceRemote->sentInterests.size(), 1);
BOOST_CHECK(!faceRemote->sentInterests.back().getHopLimit());
// Incoming interest w/ HopLimit > 1 will not be dropped on send/receive
auto interestHopLimit2 = makeInterest("/remote/ijklmnop");
interestHopLimit2->setHopLimit(2);
faceIn->receiveInterest(*interestHopLimit2, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutInterests, 2);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nInHopLimitZero, 0);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutHopLimitZero, 0);
BOOST_REQUIRE_EQUAL(faceRemote->sentInterests.size(), 2);
BOOST_REQUIRE(faceRemote->sentInterests.back().getHopLimit());
BOOST_CHECK_EQUAL(*faceRemote->sentInterests.back().getHopLimit(), 1);
// Incoming interest w/ HopLimit == 1 will be dropped on send path if going out on remote face
auto interestHopLimit1Remote = makeInterest("/remote/qrstuvwx");
interestHopLimit1Remote->setHopLimit(1);
faceIn->receiveInterest(*interestHopLimit1Remote, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutInterests, 2);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nInHopLimitZero, 0);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutHopLimitZero, 1);
BOOST_CHECK_EQUAL(faceRemote->sentInterests.size(), 2);
// Incoming interest w/ HopLimit == 1 will not be dropped on send path if going out on local face
auto interestHopLimit1Local = makeInterest("/local/abcdefgh");
interestHopLimit1Local->setHopLimit(1);
faceIn->receiveInterest(*interestHopLimit1Local, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(faceLocal->getCounters().nOutInterests, 1);
BOOST_CHECK_EQUAL(faceLocal->getCounters().nInHopLimitZero, 0);
BOOST_CHECK_EQUAL(faceLocal->getCounters().nOutHopLimitZero, 0);
BOOST_REQUIRE_EQUAL(faceLocal->sentInterests.size(), 1);
BOOST_REQUIRE(faceLocal->sentInterests.back().getHopLimit());
BOOST_CHECK_EQUAL(*faceLocal->sentInterests.back().getHopLimit(), 0);
// Interest w/ HopLimit == 0 will be dropped on receive path
auto interestHopLimit0 = makeInterest("/remote/yzabcdef");
interestHopLimit0->setHopLimit(0);
faceIn->receiveInterest(*interestHopLimit0, 0);
this->advanceClocks(100_ms, 1_s);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutInterests, 2);
BOOST_CHECK_EQUAL(faceIn->getCounters().nInHopLimitZero, 1);
BOOST_CHECK_EQUAL(faceRemote->getCounters().nOutHopLimitZero, 1);
BOOST_CHECK_EQUAL(faceRemote->sentInterests.size(), 2);
}
class ScopeLocalhostIncomingTestForwarder : public Forwarder
{
public:
using Forwarder::Forwarder;
void
onDataUnsolicited(const FaceEndpoint&, const Data&) final
{
++onDataUnsolicited_count;
}
protected:
void
dispatchToStrategy(pit::Entry&, std::function<void(fw::Strategy&)>) final
{
++dispatchToStrategy_count;
}
public:
int dispatchToStrategy_count = 0;
int onDataUnsolicited_count = 0;
};
BOOST_FIXTURE_TEST_CASE(ScopeLocalhostIncoming, GlobalIoTimeFixture)
{
FaceTable faceTable;
ScopeLocalhostIncomingTestForwarder forwarder(faceTable);
auto face1 = make_shared<DummyFace>("dummy://", "dummy://", ndn::nfd::FACE_SCOPE_LOCAL);
auto face2 = make_shared<DummyFace>();
faceTable.add(face1);
faceTable.add(face2);
// local face, /localhost: OK
forwarder.dispatchToStrategy_count = 0;
auto i1 = makeInterest("/localhost/A1");
forwarder.onIncomingInterest(FaceEndpoint(*face1, 0), *i1);
BOOST_CHECK_EQUAL(forwarder.dispatchToStrategy_count, 1);
// non-local face, /localhost: violate
forwarder.dispatchToStrategy_count = 0;
auto i2 = makeInterest("/localhost/A2");
forwarder.onIncomingInterest(FaceEndpoint(*face2, 0), *i2);
BOOST_CHECK_EQUAL(forwarder.dispatchToStrategy_count, 0);
// local face, non-/localhost: OK
forwarder.dispatchToStrategy_count = 0;
auto i3 = makeInterest("/A3");
forwarder.onIncomingInterest(FaceEndpoint(*face1, 0), *i3);
BOOST_CHECK_EQUAL(forwarder.dispatchToStrategy_count, 1);
// non-local face, non-/localhost: OK
forwarder.dispatchToStrategy_count = 0;
auto i4 = makeInterest("/A4");
forwarder.onIncomingInterest(FaceEndpoint(*face2, 0), *i4);
BOOST_CHECK_EQUAL(forwarder.dispatchToStrategy_count, 1);
// local face, /localhost: OK
forwarder.onDataUnsolicited_count = 0;
auto d1 = makeData("/localhost/B1");
forwarder.onIncomingData(FaceEndpoint(*face1, 0), *d1);
BOOST_CHECK_EQUAL(forwarder.onDataUnsolicited_count, 1);
// non-local face, /localhost: OK
forwarder.onDataUnsolicited_count = 0;
auto d2 = makeData("/localhost/B2");
forwarder.onIncomingData(FaceEndpoint(*face2, 0), *d2);
BOOST_CHECK_EQUAL(forwarder.onDataUnsolicited_count, 0);
// local face, non-/localhost: OK
forwarder.onDataUnsolicited_count = 0;
auto d3 = makeData("/B3");
forwarder.onIncomingData(FaceEndpoint(*face1, 0), *d3);
BOOST_CHECK_EQUAL(forwarder.onDataUnsolicited_count, 1);
// non-local face, non-/localhost: OK
forwarder.onDataUnsolicited_count = 0;
auto d4 = makeData("/B4");
forwarder.onIncomingData(FaceEndpoint(*face2, 0), *d4);
BOOST_CHECK_EQUAL(forwarder.onDataUnsolicited_count, 1);
}
BOOST_AUTO_TEST_CASE(IncomingInterestStrategyDispatch)
{
auto face1 = addFace();
auto face2 = addFace();
DummyStrategy& strategyA = choose<DummyStrategy>(forwarder, "/", DummyStrategy::getStrategyName());
DummyStrategy& strategyB = choose<DummyStrategy>(forwarder, "/B", DummyStrategy::getStrategyName());
auto interest1 = makeInterest("/A/1");
strategyA.afterReceiveInterest_count = 0;
strategyA.interestOutFace = face2;
forwarder.startProcessInterest(FaceEndpoint(*face1, 0), *interest1);
BOOST_CHECK_EQUAL(strategyA.afterReceiveInterest_count, 1);
auto interest2 = makeInterest("/B/2", true);
strategyB.afterReceiveInterest_count = 0;
strategyB.interestOutFace = face2;
forwarder.startProcessInterest(FaceEndpoint(*face1, 0), *interest2);
BOOST_CHECK_EQUAL(strategyB.afterReceiveInterest_count, 1);
this->advanceClocks(1_ms, 5_ms);
auto data1 = makeData("/A/1");
strategyA.beforeSatisfyInterest_count = 0;
forwarder.startProcessData(FaceEndpoint(*face2, 0), *data1);
BOOST_CHECK_EQUAL(strategyA.beforeSatisfyInterest_count, 1);
auto data2 = makeData("/B/2/b");
strategyB.beforeSatisfyInterest_count = 0;
forwarder.startProcessData(FaceEndpoint(*face2, 0), *data2);
BOOST_CHECK_EQUAL(strategyB.beforeSatisfyInterest_count, 1);
auto interest3 = makeInterest("/A/3", false, 30_ms);
forwarder.startProcessInterest(FaceEndpoint(*face1, 0), *interest3);
auto interest4 = makeInterest("/B/4", false, 5_s);
forwarder.startProcessInterest(FaceEndpoint(*face1, 0), *interest4);
}
BOOST_AUTO_TEST_CASE(IncomingData)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace();
auto face4 = addFace();
Pit& pit = forwarder.getPit();
auto interestD = makeInterest("/A/B/C/D");
shared_ptr<pit::Entry> pitD = pit.insert(*interestD).first;
pitD->insertOrUpdateInRecord(*face1, *interestD);
auto interestA = makeInterest("/A", true);
shared_ptr<pit::Entry> pitA = pit.insert(*interestA).first;
pitA->insertOrUpdateInRecord(*face2, *interestA);
pitA->insertOrUpdateInRecord(*face3, *interestA);
auto interestC = makeInterest("/A/B/C", true);
shared_ptr<pit::Entry> pitC = pit.insert(*interestC).first;
pitC->insertOrUpdateInRecord(*face3, *interestC);
pitC->insertOrUpdateInRecord(*face4, *interestC);
auto dataD = makeData("/A/B/C/D");
forwarder.onIncomingData(FaceEndpoint(*face3, 0), *dataD);
this->advanceClocks(1_ms, 5_ms);
BOOST_CHECK_EQUAL(face1->sentData.size(), 1);
BOOST_CHECK_EQUAL(face2->sentData.size(), 1);
BOOST_CHECK_EQUAL(face3->sentData.size(), 0);
BOOST_CHECK_EQUAL(face4->sentData.size(), 1);
}
BOOST_AUTO_TEST_CASE(IncomingNack)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace("dummy://", "dummy://",
ndn::nfd::FACE_SCOPE_NON_LOCAL,
ndn::nfd::FACE_PERSISTENCY_PERSISTENT,
ndn::nfd::LINK_TYPE_MULTI_ACCESS);
DummyStrategy& strategyA = choose<DummyStrategy>(forwarder, "/", DummyStrategy::getStrategyName());
DummyStrategy& strategyB = choose<DummyStrategy>(forwarder, "/B", DummyStrategy::getStrategyName());
Pit& pit = forwarder.getPit();
// dispatch to the correct strategy
auto interest1 = makeInterest("/A/AYJqayrzF", false, nullopt, 562);
shared_ptr<pit::Entry> pit1 = pit.insert(*interest1).first;
pit1->insertOrUpdateOutRecord(*face1, *interest1);
auto interest2 = makeInterest("/B/EVyP73ru", false, nullopt, 221);
shared_ptr<pit::Entry> pit2 = pit.insert(*interest2).first;
pit2->insertOrUpdateOutRecord(*face1, *interest2);
lp::Nack nack1 = makeNack(*interest1, lp::NackReason::CONGESTION);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face1, 0), nack1);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 1);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 0);
lp::Nack nack2 = makeNack(*interest2, lp::NackReason::CONGESTION);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face1, 0), nack2);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 0);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 1);
// record Nack on PIT out-record
pit::OutRecordCollection::iterator outRecord1 = pit1->getOutRecord(*face1);
BOOST_REQUIRE(outRecord1 != pit1->out_end());
BOOST_REQUIRE(outRecord1->getIncomingNack() != nullptr);
BOOST_CHECK_EQUAL(outRecord1->getIncomingNack()->getReason(), lp::NackReason::CONGESTION);
// drop if no PIT entry
lp::Nack nack3 = makeNack(*makeInterest("/yEcw5HhdM", false, nullopt, 243), lp::NackReason::CONGESTION);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face1, 0), nack3);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 0);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 0);
// drop if no out-record
auto interest4 = makeInterest("/Etab4KpY", false, nullopt, 157);
shared_ptr<pit::Entry> pit4 = pit.insert(*interest4).first;
pit4->insertOrUpdateOutRecord(*face1, *interest4);
lp::Nack nack4a = makeNack(*interest4, lp::NackReason::CONGESTION);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face2, 0), nack4a);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 0);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 0);
// drop if Nonce does not match out-record
lp::Nack nack4b = makeNack(*makeInterest("/Etab4KpY", false, nullopt, 294), lp::NackReason::CONGESTION);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face1, 0), nack4b);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 0);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 0);
// drop if inFace is multi-access
pit4->insertOrUpdateOutRecord(*face3, *interest4);
strategyA.afterReceiveNack_count = 0;
strategyB.afterReceiveNack_count = 0;
forwarder.onIncomingNack(FaceEndpoint(*face3, 0), nack4a);
BOOST_CHECK_EQUAL(strategyA.afterReceiveNack_count, 0);
BOOST_CHECK_EQUAL(strategyB.afterReceiveNack_count, 0);
}
BOOST_AUTO_TEST_CASE(OutgoingNack)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace("dummy://", "dummy://",
ndn::nfd::FACE_SCOPE_NON_LOCAL,
ndn::nfd::FACE_PERSISTENCY_PERSISTENT,
ndn::nfd::LINK_TYPE_MULTI_ACCESS);
Pit& pit = forwarder.getPit();
lp::NackHeader nackHeader;
nackHeader.setReason(lp::NackReason::CONGESTION);
// don't send Nack if there's no in-record
auto interest1 = makeInterest("/fM5IVEtC", false, nullopt, 719);
shared_ptr<pit::Entry> pit1 = pit.insert(*interest1).first;
pit1->insertOrUpdateInRecord(*face1, *interest1);
face2->sentNacks.clear();
forwarder.onOutgoingNack(pit1, FaceEndpoint(*face2, 0), nackHeader);
BOOST_CHECK_EQUAL(face2->sentNacks.size(), 0);
// send Nack with correct Nonce
auto interest2a = makeInterest("/Vi8tRm9MG3", false, nullopt, 152);
shared_ptr<pit::Entry> pit2 = pit.insert(*interest2a).first;
pit2->insertOrUpdateInRecord(*face1, *interest2a);
auto interest2b = makeInterest("/Vi8tRm9MG3", false, nullopt, 808);
pit2->insertOrUpdateInRecord(*face2, *interest2b);
face1->sentNacks.clear();
forwarder.onOutgoingNack(pit2, FaceEndpoint(*face1, 0), nackHeader);
BOOST_REQUIRE_EQUAL(face1->sentNacks.size(), 1);
BOOST_CHECK_EQUAL(face1->sentNacks.back().getReason(), lp::NackReason::CONGESTION);
BOOST_CHECK_EQUAL(face1->sentNacks.back().getInterest().getNonce(), 152);
// erase in-record
pit::InRecordCollection::iterator inRecord2a = pit2->getInRecord(*face1);
BOOST_CHECK(inRecord2a == pit2->in_end());
// send Nack with correct Nonce
face2->sentNacks.clear();
forwarder.onOutgoingNack(pit2, FaceEndpoint(*face2, 0), nackHeader);
BOOST_REQUIRE_EQUAL(face2->sentNacks.size(), 1);
BOOST_CHECK_EQUAL(face2->sentNacks.back().getReason(), lp::NackReason::CONGESTION);
BOOST_CHECK_EQUAL(face2->sentNacks.back().getInterest().getNonce(), 808);
// erase in-record
pit::InRecordCollection::iterator inRecord2b = pit2->getInRecord(*face1);
BOOST_CHECK(inRecord2b == pit2->in_end());
// don't send Nack to multi-access face
auto interest2c = makeInterest("/Vi8tRm9MG3", false, nullopt, 228);
pit2->insertOrUpdateInRecord(*face3, *interest2c);
face3->sentNacks.clear();
forwarder.onOutgoingNack(pit1, FaceEndpoint(*face3, 0), nackHeader);
BOOST_CHECK_EQUAL(face3->sentNacks.size(), 0);
}
BOOST_AUTO_TEST_CASE(InterestLoopNack)
{
auto face1 = addFace();
auto face2 = addFace();
auto face3 = addFace("dummy://", "dummy://",
ndn::nfd::FACE_SCOPE_NON_LOCAL,
ndn::nfd::FACE_PERSISTENCY_PERSISTENT,
ndn::nfd::LINK_TYPE_MULTI_ACCESS);
auto face4 = addFace();
Fib& fib = forwarder.getFib();
fib::Entry* entry = fib.insert("/zT4XwK0Hnx").first;
fib.addOrUpdateNextHop(*entry, *face4, 0);
// receive Interest on face1
face1->sentNacks.clear();
auto interest1a = makeInterest("/zT4XwK0Hnx/28JBUvbEzc", false, nullopt, 732);
face1->receiveInterest(*interest1a, 0);
BOOST_CHECK(face1->sentNacks.empty());
// receive Interest with duplicate Nonce on face1: legit retransmission
face1->sentNacks.clear();
auto interest1b = makeInterest("/zT4XwK0Hnx/28JBUvbEzc", false, nullopt, 732);
face1->receiveInterest(*interest1b, 0);
BOOST_CHECK(face1->sentNacks.empty());
// receive Interest with duplicate Nonce on face2
face2->sentNacks.clear();
auto interest2a = makeInterest("/zT4XwK0Hnx/28JBUvbEzc", false, nullopt, 732);
face2->receiveInterest(*interest2a, 0);
BOOST_REQUIRE_EQUAL(face2->sentNacks.size(), 1);
BOOST_CHECK_EQUAL(face2->sentNacks.back().getInterest().wireEncode(), interest2a->wireEncode());
BOOST_CHECK_EQUAL(face2->sentNacks.back().getReason(), lp::NackReason::DUPLICATE);
// receive Interest with new Nonce on face2
face2->sentNacks.clear();
auto interest2b = makeInterest("/zT4XwK0Hnx/28JBUvbEzc", false, nullopt, 944);
face2->receiveInterest(*interest2b, 0);
BOOST_CHECK(face2->sentNacks.empty());
// receive Interest with duplicate Nonce on face3, don't send Nack to multi-access face
face3->sentNacks.clear();
auto interest3a = makeInterest("/zT4XwK0Hnx/28JBUvbEzc", false, nullopt, 732);
face3->receiveInterest(*interest3a, 0);
BOOST_CHECK(face3->sentNacks.empty());
}
BOOST_AUTO_TEST_CASE(InterestLoopWithShortLifetime) // Bug 1953
{
auto face1 = addFace();
auto face2 = addFace();
// cause an Interest sent out of face2 to loop back into face1 after a delay
face2->afterSend.connect([face1, face2] (uint32_t pktType) {
if (pktType == tlv::Interest) {
auto interest = make_shared<Interest>(face2->sentInterests.back());
getScheduler().schedule(170_ms, [face1, interest] { face1->receiveInterest(*interest, 0); });
}
});
Fib& fib = forwarder.getFib();
fib::Entry* entry = fib.insert("/A").first;
fib.addOrUpdateNextHop(*entry, *face2, 0);
// receive an Interest
auto interest = makeInterest("/A/1", false, 50_ms, 82101183);
face1->receiveInterest(*interest, 0);
// interest should be forwarded only once, as long as Nonce is in Dead Nonce List
BOOST_ASSERT(25_ms * 40 < forwarder.getDeadNonceList().getLifetime());
this->advanceClocks(25_ms, 40);
BOOST_CHECK_EQUAL(face2->sentInterests.size(), 1);
// It's unnecessary to check that Interest with duplicate Nonce can be forwarded again
// after it's gone from Dead Nonce List, because the entry lifetime of Dead Nonce List
// is an implementation decision. NDN protocol requires Name+Nonce to be unique,
// without specifying when Name+Nonce could repeat. Forwarder is permitted to suppress
// an Interest if its Name+Nonce has appeared any point in the past.
}
BOOST_AUTO_TEST_CASE(PitLeak) // Bug 3484
{
auto face1 = addFace();
auto interest = makeInterest("/hcLSAsQ9A", false, 2_s, 61883075);
DeadNonceList& dnl = forwarder.getDeadNonceList();
dnl.add(interest->getName(), interest->getNonce());
Pit& pit = forwarder.getPit();
BOOST_REQUIRE_EQUAL(pit.size(), 0);
forwarder.startProcessInterest(FaceEndpoint(*face1, 0), *interest);
this->advanceClocks(100_ms, 20_s);
BOOST_CHECK_EQUAL(pit.size(), 0);
}
BOOST_AUTO_TEST_SUITE_END() // TestForwarder
BOOST_AUTO_TEST_SUITE_END() // Fw
} // namespace tests
} // namespace nfd