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gerrit.named-data.net / NFD / 581cf00ee8366eef69611f03a082e8b17c3df520 / . / tests / daemon / fw / best-route-strategy2.t.cpp
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/* -*- 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/best-route-strategy2.hpp"
#include "tests/test-common.hpp"
#include "tests/daemon/face/dummy-face.hpp"
#include "strategy-tester.hpp"
#include "topology-tester.hpp"
namespace nfd {
namespace fw {
namespace tests {
using namespace nfd::tests;
BOOST_AUTO_TEST_SUITE(Fw)
class BestRouteStrategy2Fixture : public UnitTestTimeFixture
{
protected:
BestRouteStrategy2Fixture()
: strategy(forwarder)
, fib(forwarder.getFib())
, pit(forwarder.getPit())
, face1(make_shared<DummyFace>())
, face2(make_shared<DummyFace>())
, face3(make_shared<DummyFace>())
, face4(make_shared<DummyFace>())
, face5(make_shared<DummyFace>())
{
forwarder.addFace(face1);
forwarder.addFace(face2);
forwarder.addFace(face3);
forwarder.addFace(face4);
forwarder.addFace(face5);
}
public:
Forwarder forwarder;
StrategyTester<fw::BestRouteStrategy2> strategy;
Fib& fib;
Pit& pit;
shared_ptr<DummyFace> face1;
shared_ptr<DummyFace> face2;
shared_ptr<DummyFace> face3;
shared_ptr<DummyFace> face4;
shared_ptr<DummyFace> face5;
};
BOOST_FIXTURE_TEST_SUITE(TestBestRouteStrategy2, BestRouteStrategy2Fixture)
BOOST_AUTO_TEST_CASE(Forward)
{
fib::Entry& fibEntry = *fib.insert(Name()).first;
fibEntry.addNextHop(*face1, 10);
fibEntry.addNextHop(*face2, 20);
fibEntry.addNextHop(*face3, 30);
shared_ptr<Interest> interest = makeInterest("ndn:/BzgFBchqA");
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest).first;
const time::nanoseconds TICK = time::duration_cast<time::nanoseconds>(
BestRouteStrategy2::RETX_SUPPRESSION_INITIAL * 0.1);
// first Interest goes to nexthop with lowest FIB cost,
// however face1 is downstream so it cannot be used
pitEntry->insertOrUpdateInRecord(face1, *interest);
strategy.afterReceiveInterest(*face1, *interest, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.sendInterestHistory.size(), 1);
BOOST_CHECK_EQUAL(strategy.sendInterestHistory.back().outFaceId, face2->getId());
// downstream retransmits frequently, but the strategy should not send Interests
// more often than DEFAULT_MIN_RETX_INTERVAL
scheduler::EventId retxFrom4Evt;
size_t nSentLast = strategy.sendInterestHistory.size();
time::steady_clock::TimePoint timeSentLast = time::steady_clock::now();
function<void()> periodicalRetxFrom4; // let periodicalRetxFrom4 lambda capture itself
periodicalRetxFrom4 = [&] {
pitEntry->insertOrUpdateInRecord(face4, *interest);
strategy.afterReceiveInterest(*face4, *interest, pitEntry);
size_t nSent = strategy.sendInterestHistory.size();
if (nSent > nSentLast) {
BOOST_CHECK_EQUAL(nSent - nSentLast, 1);
time::steady_clock::TimePoint timeSent = time::steady_clock::now();
BOOST_CHECK_GE(timeSent - timeSentLast, TICK * 8);
nSentLast = nSent;
timeSentLast = timeSent;
}
retxFrom4Evt = scheduler::schedule(TICK * 5, periodicalRetxFrom4);
};
periodicalRetxFrom4();
this->advanceClocks(TICK, BestRouteStrategy2::RETX_SUPPRESSION_MAX * 16);
scheduler::cancel(retxFrom4Evt);
// nexthops for accepted retransmissions: follow FIB cost,
// later forward to an eligible upstream with earliest out-record
BOOST_REQUIRE_GE(strategy.sendInterestHistory.size(), 6);
BOOST_CHECK_EQUAL(strategy.sendInterestHistory[1].outFaceId, face1->getId());
BOOST_CHECK_EQUAL(strategy.sendInterestHistory[2].outFaceId, face3->getId());
BOOST_CHECK_EQUAL(strategy.sendInterestHistory[3].outFaceId, face2->getId());
BOOST_CHECK_EQUAL(strategy.sendInterestHistory[4].outFaceId, face1->getId());
BOOST_CHECK_EQUAL(strategy.sendInterestHistory[5].outFaceId, face3->getId());
fibEntry.removeNextHop(*face1);
strategy.sendInterestHistory.clear();
for (int i = 0; i < 3; ++i) {
this->advanceClocks(TICK, BestRouteStrategy2::RETX_SUPPRESSION_MAX * 2);
pitEntry->insertOrUpdateInRecord(face5, *interest);
strategy.afterReceiveInterest(*face5, *interest, pitEntry);
}
BOOST_REQUIRE_EQUAL(strategy.sendInterestHistory.size(), 3);
BOOST_CHECK_NE(strategy.sendInterestHistory[0].outFaceId, face1->getId());
BOOST_CHECK_NE(strategy.sendInterestHistory[1].outFaceId, face1->getId());
BOOST_CHECK_NE(strategy.sendInterestHistory[2].outFaceId, face1->getId());
// face1 cannot be used because it's gone from FIB entry
}
BOOST_AUTO_TEST_SUITE(NoRouteNack) // send Nack-NoRoute if there's no usable FIB nexthop
class EmptyNextHopList
{
public:
Name
getInterestName()
{
return "/P";
}
void
insertFibEntry(BestRouteStrategy2Fixture* fixture)
{
fixture->fib.insert(Name());
}
};
class NextHopIsDownstream
{
public:
Name
getInterestName()
{
return "/P";
}
void
insertFibEntry(BestRouteStrategy2Fixture* fixture)
{
fixture->fib.insert(Name()).first->addNextHop(*fixture->face1, 10);
}
};
class NextHopViolatesScope
{
public:
Name
getInterestName()
{
return "/localhop/P";
}
void
insertFibEntry(BestRouteStrategy2Fixture* fixture)
{
fixture->fib.insert("/localhop").first->addNextHop(*fixture->face2, 10);
// face1 and face2 are both non-local; Interest from face1 cannot be forwarded to face2
}
};
typedef boost::mpl::vector<EmptyNextHopList, NextHopIsDownstream, NextHopViolatesScope> NoRouteScenarios;
BOOST_AUTO_TEST_CASE_TEMPLATE(IncomingInterest, Scenario, NoRouteScenarios)
{
Scenario scenario;
scenario.insertFibEntry(this);
shared_ptr<Interest> interest = makeInterest(scenario.getInterestName());
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest).first;
pitEntry->insertOrUpdateInRecord(face1, *interest);
strategy.afterReceiveInterest(*face1, *interest, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.rejectPendingInterestHistory.size(), 1);
BOOST_CHECK_EQUAL(strategy.rejectPendingInterestHistory[0].pitEntry, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.sendNackHistory.size(), 1);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].pitEntry, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].outFaceId, face1->getId());
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].header.getReason(), lp::NackReason::NO_ROUTE);
}
BOOST_AUTO_TEST_SUITE_END() // NoRouteNack
BOOST_AUTO_TEST_SUITE(IncomingNack)
BOOST_AUTO_TEST_CASE(OneUpstream) // one upstream, send Nack when Nack arrives
{
fib::Entry& fibEntry = *fib.insert(Name()).first;
fibEntry.addNextHop(*face3, 10);
fibEntry.addNextHop(*face4, 20);
fibEntry.addNextHop(*face5, 30);
shared_ptr<Interest> interest1 = makeInterest("/McQYjMbm", 992);
shared_ptr<Interest> interest2 = makeInterest("/McQYjMbm", 114);
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest1).first;
pitEntry->insertOrUpdateInRecord(face1, *interest1);
pitEntry->insertOrUpdateInRecord(face2, *interest2);
pitEntry->insertOrUpdateOutRecord(face3, *interest1);
lp::Nack nack3 = makeNack("/McQYjMbm", 992, lp::NackReason::CONGESTION);
pitEntry->getOutRecord(*face3)->setIncomingNack(nack3);
strategy.afterReceiveNack(*face3, nack3, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.sendNackHistory.size(), 2);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].pitEntry, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].header.getReason(), lp::NackReason::CONGESTION);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[1].pitEntry, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[1].header.getReason(), lp::NackReason::CONGESTION);
std::unordered_set<FaceId> nackFaceIds{strategy.sendNackHistory[0].outFaceId,
strategy.sendNackHistory[1].outFaceId};
std::unordered_set<FaceId> expectedNackFaceIds{face1->getId(), face2->getId()};
BOOST_CHECK_EQUAL_COLLECTIONS(nackFaceIds.begin(), nackFaceIds.end(),
expectedNackFaceIds.begin(), expectedNackFaceIds.end());
}
BOOST_AUTO_TEST_CASE(TwoUpstreams) // two upstreams, send Nack when both Nacks arrive
{
fib::Entry& fibEntry = *fib.insert(Name()).first;
fibEntry.addNextHop(*face3, 10);
fibEntry.addNextHop(*face4, 20);
fibEntry.addNextHop(*face5, 30);
shared_ptr<Interest> interest1 = makeInterest("/aS9FAyUV19", 286);
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest1).first;
pitEntry->insertOrUpdateInRecord(face1, *interest1);
pitEntry->insertOrUpdateOutRecord(face3, *interest1);
pitEntry->insertOrUpdateOutRecord(face4, *interest1);
lp::Nack nack3 = makeNack("/aS9FAyUV19", 286, lp::NackReason::CONGESTION);
pitEntry->getOutRecord(*face3)->setIncomingNack(nack3);
strategy.afterReceiveNack(*face3, nack3, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory.size(), 0); // don't send Nack until all upstreams have Nacked
lp::Nack nack4 = makeNack("/aS9FAyUV19", 286, lp::NackReason::CONGESTION);
pitEntry->getOutRecord(*face4)->setIncomingNack(nack4);
strategy.afterReceiveNack(*face4, nack4, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.sendNackHistory.size(), 1);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].pitEntry, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].outFaceId, face1->getId());
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].header.getReason(), lp::NackReason::CONGESTION);
}
BOOST_AUTO_TEST_CASE(Timeout) // two upstreams, one times out, don't send Nack
{
fib::Entry& fibEntry = *fib.insert(Name()).first;
fibEntry.addNextHop(*face3, 10);
fibEntry.addNextHop(*face4, 20);
fibEntry.addNextHop(*face5, 30);
shared_ptr<Interest> interest1 = makeInterest("/sIYw0TXWDj", 115);
interest1->setInterestLifetime(time::milliseconds(400));
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest1).first;
pitEntry->insertOrUpdateInRecord(face1, *interest1);
pitEntry->insertOrUpdateOutRecord(face3, *interest1);
this->advanceClocks(time::milliseconds(300));
shared_ptr<Interest> interest2 = makeInterest("/sIYw0TXWDj", 223);
pitEntry->insertOrUpdateInRecord(face1, *interest2);
pitEntry->insertOrUpdateOutRecord(face4, *interest2);
this->advanceClocks(time::milliseconds(200)); // face3 has timed out
lp::Nack nack4 = makeNack("/sIYw0TXWDj", 223, lp::NackReason::CONGESTION);
pitEntry->getOutRecord(*face4)->setIncomingNack(nack4);
strategy.afterReceiveNack(*face4, nack4, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory.size(), 0);
}
BOOST_FIXTURE_TEST_CASE(LiveDeadlock, UnitTestTimeFixture) // #3033 note-7
{
/*
* /----------\
* | producer |
* \----------/
* |
* +---+
* | P |
* +---+
* |
* failed link
* |
* +---+
* | R |
* +---+
* ^ ^
* / \
* / \
* +---+ +---+
* | B | <---> | C |
* +---+ +---+
* ^ ^
* | |
* | |
* +---+ +---+
* | A | | D |
* +---+ +---+
* ^ ^
* | |
* /----------\ /----------\
* | consumer | | consumer |
* \----------/ \----------/
*/
TopologyTester topo;
TopologyNode nodeP = topo.addForwarder("P"),
nodeR = topo.addForwarder("R"),
nodeA = topo.addForwarder("A"),
nodeB = topo.addForwarder("B"),
nodeC = topo.addForwarder("C"),
nodeD = topo.addForwarder("D");
for (TopologyNode node : {nodeP, nodeR, nodeA, nodeB, nodeC, nodeD}) {
topo.setStrategy<BestRouteStrategy2>(node);
}
const time::milliseconds LINK_DELAY(10);
shared_ptr<TopologyLink> linkPR = topo.addLink("PR", LINK_DELAY, {nodeP, nodeR}),
linkRB = topo.addLink("RB", LINK_DELAY, {nodeR, nodeB}),
linkRC = topo.addLink("RC", LINK_DELAY, {nodeR, nodeC}),
linkBC = topo.addLink("BC", LINK_DELAY, {nodeB, nodeC}),
linkBA = topo.addLink("BA", LINK_DELAY, {nodeB, nodeA}),
linkCD = topo.addLink("CD", LINK_DELAY, {nodeC, nodeD});
// TODO register the prefix on R->P but then set the face DOWN
// topo.registerPrefix(nodeR, linkPR->getFace(nodeR), "ndn:/P", 10);
topo.registerPrefix(nodeB, linkRB->getFace(nodeB), "ndn:/P", 20);
topo.registerPrefix(nodeB, linkBC->getFace(nodeB), "ndn:/P", 30);
topo.registerPrefix(nodeC, linkRC->getFace(nodeC), "ndn:/P", 20);
topo.registerPrefix(nodeC, linkBC->getFace(nodeC), "ndn:/P", 30);
topo.registerPrefix(nodeA, linkBA->getFace(nodeA), "ndn:/P", 30);
topo.registerPrefix(nodeD, linkCD->getFace(nodeD), "ndn:/P", 30);
ndn::Face& appA = topo.addAppFace("A", nodeA)->getClientFace();
ndn::Face& appD = topo.addAppFace("D", nodeD)->getClientFace();
int nNacksA = 0, nNacksD = 0;
appA.expressInterest(Interest("/P/1"), bind([]{}), bind([&nNacksA]{ ++nNacksA; }), bind([]{}));
appD.expressInterest(Interest("/P/1"), bind([]{}), bind([&nNacksD]{ ++nNacksD; }), bind([]{}));
this->advanceClocks(time::milliseconds(1), time::milliseconds(5));
appA.expressInterest(Interest("/P/1"), bind([]{}), bind([&nNacksA]{ ++nNacksA; }), bind([]{}));
appD.expressInterest(Interest("/P/1"), bind([]{}), bind([&nNacksD]{ ++nNacksD; }), bind([]{}));
this->advanceClocks(time::milliseconds(1), time::milliseconds(100));
// As long as at least one Nack arrives at each client, strategy behavior is correct.
// Whether both Interests are Nacked is a client face behavior, not strategy behavior.
BOOST_CHECK_GT(nNacksA, 0);
BOOST_CHECK_GT(nNacksD, 0);
}
template<lp::NackReason X, lp::NackReason Y, lp::NackReason R>
struct NackReasonCombination
{
lp::NackReason
getX() const
{
return X;
}
lp::NackReason
getY() const
{
return Y;
}
lp::NackReason
getExpectedResult() const
{
return R;
}
};
typedef boost::mpl::vector<
NackReasonCombination<lp::NackReason::CONGESTION, lp::NackReason::CONGESTION, lp::NackReason::CONGESTION>,
NackReasonCombination<lp::NackReason::CONGESTION, lp::NackReason::DUPLICATE, lp::NackReason::CONGESTION>,
NackReasonCombination<lp::NackReason::CONGESTION, lp::NackReason::NO_ROUTE, lp::NackReason::CONGESTION>,
NackReasonCombination<lp::NackReason::DUPLICATE, lp::NackReason::CONGESTION, lp::NackReason::CONGESTION>,
NackReasonCombination<lp::NackReason::DUPLICATE, lp::NackReason::DUPLICATE, lp::NackReason::DUPLICATE>,
NackReasonCombination<lp::NackReason::DUPLICATE, lp::NackReason::NO_ROUTE, lp::NackReason::DUPLICATE>,
NackReasonCombination<lp::NackReason::NO_ROUTE, lp::NackReason::CONGESTION, lp::NackReason::CONGESTION>,
NackReasonCombination<lp::NackReason::NO_ROUTE, lp::NackReason::DUPLICATE, lp::NackReason::DUPLICATE>,
NackReasonCombination<lp::NackReason::NO_ROUTE, lp::NackReason::NO_ROUTE, lp::NackReason::NO_ROUTE>
> NackReasonCombinations;
BOOST_AUTO_TEST_CASE_TEMPLATE(CombineReasons, Combination, NackReasonCombinations)
{
Combination combination;
fib::Entry& fibEntry = *fib.insert(Name()).first;
fibEntry.addNextHop(*face3, 10);
fibEntry.addNextHop(*face4, 20);
fibEntry.addNextHop(*face5, 30);
shared_ptr<Interest> interest1 = makeInterest("/F6sEwB24I", 282);
shared_ptr<pit::Entry> pitEntry = pit.insert(*interest1).first;
pitEntry->insertOrUpdateInRecord(face1, *interest1);
pitEntry->insertOrUpdateOutRecord(face3, *interest1);
pitEntry->insertOrUpdateOutRecord(face4, *interest1);
lp::Nack nack3 = makeNack("/F6sEwB24I", 282, combination.getX());
pitEntry->getOutRecord(*face3)->setIncomingNack(nack3);
strategy.afterReceiveNack(*face3, nack3, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory.size(), 0);
lp::Nack nack4 = makeNack("/F6sEwB24I", 282, combination.getY());
pitEntry->getOutRecord(*face4)->setIncomingNack(nack4);
strategy.afterReceiveNack(*face4, nack4, pitEntry);
BOOST_REQUIRE_EQUAL(strategy.sendNackHistory.size(), 1);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].pitEntry, pitEntry);
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].outFaceId, face1->getId());
BOOST_CHECK_EQUAL(strategy.sendNackHistory[0].header.getReason(), combination.getExpectedResult());
}
BOOST_AUTO_TEST_SUITE_END() // IncomingNack
BOOST_AUTO_TEST_SUITE_END() // TestBestRouteStrategy2
BOOST_AUTO_TEST_SUITE_END() // Fw
} // namespace tests
} // namespace fw
} // namespace nfd