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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014-2017, The University of Memphis,
* Regents of the University of California,
* Arizona Board of Regents.
*
* This file is part of NLSR (Named-data Link State Routing).
* See AUTHORS.md for complete list of NLSR authors and contributors.
*
* NLSR 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.
*
* NLSR 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
* NLSR, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
**/
#include "nlsr.hpp"
#include "test-common.hpp"
#include "control-commands.hpp"
#include <ndn-cxx/mgmt/nfd/face-event-notification.hpp>
namespace nlsr {
namespace test {
using std::shared_ptr;
class NlsrFixture : public MockNfdMgmtFixture
{
public:
NlsrFixture()
: nlsr(g_ioService, g_scheduler, std::ref(*face), g_keyChain)
, lsdb(nlsr.getLsdb())
, neighbors(nlsr.getAdjacencyList())
, nSuccessCallbacks(0)
, nFailureCallbacks(0)
{
}
void
receiveHelloData(const ndn::Name& sender, const ndn::Name& receiver)
{
ndn::Name dataName(sender);
dataName.append("NLSR").append("INFO").append(receiver.wireEncode()).appendVersion();
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>(dataName);
nlsr.m_helloProtocol.onContentValidated(data);
}
public:
Nlsr nlsr;
Lsdb& lsdb;
AdjacencyList& neighbors;
uint32_t nSuccessCallbacks;
uint32_t nFailureCallbacks;
};
BOOST_FIXTURE_TEST_SUITE(TestNlsr, NlsrFixture)
BOOST_AUTO_TEST_CASE(HyperbolicOn_ZeroCostNeighbors)
{
// Simulate loading configuration file
Adjacent neighborA("/ndn/neighborA", ndn::util::FaceUri("udp4://10.0.0.1"), 25, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
Adjacent neighborB("/ndn/neighborB", ndn::util::FaceUri("udp4://10.0.0.2"), 10, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborB);
Adjacent neighborC("/ndn/neighborC", ndn::util::FaceUri("udp4://10.0.0.3"), 17, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborC);
nlsr.getConfParameter().setHyperbolicState(HYPERBOLIC_STATE_ON);
nlsr.getConfParameter().setNetwork(ndn::Name("/test"));
nlsr.initialize();
std::list<Adjacent> neighborList = neighbors.getAdjList();
for (std::list<Adjacent>::iterator it = neighborList.begin(); it != neighborList.end(); ++it) {
BOOST_CHECK_EQUAL(it->getLinkCost(), 0);
}
}
BOOST_AUTO_TEST_CASE(HyperbolicOff_LinkStateCost)
{
// Simulate loading configuration file
Adjacent neighborA("/ndn/neighborA", ndn::util::FaceUri("udp4://10.0.0.1"), 25, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
Adjacent neighborB("/ndn/neighborB", ndn::util::FaceUri("udp4://10.0.0.2"), 10, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborB);
Adjacent neighborC("/ndn/neighborC", ndn::util::FaceUri("udp4://10.0.0.3"), 17, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborC);
nlsr.initialize();
std::list<Adjacent> neighborList = neighbors.getAdjList();
for (std::list<Adjacent>::iterator it = neighborList.begin(); it != neighborList.end(); ++it) {
BOOST_CHECK(it->getLinkCost() != 0);
}
}
BOOST_AUTO_TEST_CASE(SetEventIntervals)
{
// Simulate loading configuration file
ConfParameter& conf = nlsr.getConfParameter();
conf.setAdjLsaBuildInterval(3);
conf.setFirstHelloInterval(6);
conf.setRoutingCalcInterval(9);
nlsr.initialize();
const Lsdb& lsdb = nlsr.getLsdb();
const RoutingTable& rt = nlsr.getRoutingTable();
BOOST_CHECK_EQUAL(lsdb.getAdjLsaBuildInterval(), ndn::time::seconds(3));
BOOST_CHECK_EQUAL(nlsr.getFirstHelloInterval(), 6);
BOOST_CHECK_EQUAL(rt.getRoutingCalcInterval(), ndn::time::seconds(9));
}
BOOST_AUTO_TEST_CASE(FaceCreateEvent)
{
// Setting constants for the unit test
const uint32_t faceId = 1;
const std::string faceUri = "udp4://10.0.0.1:6363";
Adjacent neighbor("/ndn/neighborA", ndn::util::FaceUri(faceUri), 10, Adjacent::STATUS_INACTIVE, 0, 0);
BOOST_REQUIRE_EQUAL(nlsr.getAdjacencyList().insert(neighbor), 0);
this->advanceClocks(ndn::time::milliseconds(1));
// Build, sign, and send the Face Event
ndn::nfd::FaceEventNotification event;
event.setKind(ndn::nfd::FACE_EVENT_CREATED)
.setRemoteUri(faceUri)
.setFaceId(faceId);
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>("/localhost/nfd/faces/events/%FE%00");
data->setContent(event.wireEncode());
nlsr.getKeyChain().sign(*data);
face->receive(*data);
// Move the clocks forward so that the Face processes the event.
this->advanceClocks(ndn::time::milliseconds(1));
// Need to explicitly provide a FaceUri object, because the
// conversion will attempt to create Name objects.
auto iterator = nlsr.getAdjacencyList().findAdjacent(ndn::util::FaceUri(faceUri));
BOOST_REQUIRE(iterator != nlsr.getAdjacencyList().end());
BOOST_CHECK_EQUAL(iterator->getFaceId(), faceId);
}
BOOST_AUTO_TEST_CASE(FaceCreateEventNoMatch)
{
// Setting constants for the unit test
const uint32_t faceId = 1;
const std::string eventUri = "udp4://10.0.0.1:6363";
const std::string neighborUri = "udp4://10.0.0.2:6363";
Adjacent neighbor("/ndn/neighborA", ndn::util::FaceUri(neighborUri), 10, Adjacent::STATUS_INACTIVE, 0, 0);
nlsr.getAdjacencyList().insert(neighbor);
// Build, sign, and send the Face Event
ndn::nfd::FaceEventNotification event;
event.setKind(ndn::nfd::FACE_EVENT_CREATED)
.setRemoteUri(eventUri)
.setFaceId(faceId);
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>("/localhost/nfd/faces/events/%FE%00");
data->setContent(event.wireEncode());
nlsr.getKeyChain().sign(*data);
face->receive(*data);
// Move the clocks forward so that the Face processes the event.
this->advanceClocks(ndn::time::milliseconds(1));
// The Face URIs did not match, so this neighbor should be unconfigured.
auto iterator = nlsr.getAdjacencyList().findAdjacent(ndn::util::FaceUri(neighborUri));
BOOST_REQUIRE(iterator != nlsr.getAdjacencyList().end());
BOOST_CHECK_EQUAL(iterator->getFaceId(), 0);
}
BOOST_AUTO_TEST_CASE(FaceCreateEventAlreadyConfigured)
{
// Setting constants for the unit test
const uint32_t eventFaceId = 1;
const uint32_t neighborFaceId = 2;
const std::string faceUri = "udp4://10.0.0.1:6363";
Adjacent neighbor("/ndn/neighborA", ndn::util::FaceUri(faceUri), 10, Adjacent::STATUS_ACTIVE, 0, neighborFaceId);
nlsr.getAdjacencyList().insert(neighbor);
// Build, sign, and send the Face Event
ndn::nfd::FaceEventNotification event;
event.setKind(ndn::nfd::FACE_EVENT_CREATED)
.setRemoteUri(faceUri)
.setFaceId(eventFaceId);
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>("/localhost/nfd/faces/events/%FE%00");
data->setContent(event.wireEncode());
nlsr.getKeyChain().sign(*data);
face->receive(*data);
// Move the clocks forward so that the Face processes the event.
this->advanceClocks(ndn::time::milliseconds(1));
// Since the neighbor was already configured, this (simply erroneous) event should have no effect.
auto iterator = nlsr.getAdjacencyList().findAdjacent(ndn::util::FaceUri(faceUri));
BOOST_REQUIRE(iterator != nlsr.getAdjacencyList().end());
BOOST_CHECK_EQUAL(iterator->getFaceId(), neighborFaceId);
}
BOOST_FIXTURE_TEST_CASE(FaceDestroyEvent, UnitTestTimeFixture)
{
std::shared_ptr<ndn::util::DummyClientFace> face = std::make_shared<ndn::util::DummyClientFace>(g_ioService);
Nlsr nlsr(g_ioService, g_scheduler, std::ref(*face), g_keyChain);
Lsdb& lsdb = nlsr.getLsdb();
// Simulate loading configuration file
ConfParameter& conf = nlsr.getConfParameter();
conf.setNetwork("/ndn");
conf.setSiteName("/site");
conf.setRouterName("/%C1.router/this-router");
conf.setAdjLsaBuildInterval(0);
conf.setRoutingCalcInterval(0);
// Add active neighbors
AdjacencyList& neighbors = nlsr.getAdjacencyList();
uint64_t destroyFaceId = 128;
// Create a neighbor whose Face will be destroyed
Adjacent failNeighbor("/ndn/neighborA", ndn::util::FaceUri("udp4://10.0.0.1"), 10, Adjacent::STATUS_ACTIVE, 0,
destroyFaceId);
neighbors.insert(failNeighbor);
// Create an additional neighbor so an adjacency LSA can be built after the face is destroyed
Adjacent otherNeighbor("/ndn/neighborB", ndn::util::FaceUri("udp4://10.0.0.2"), 10, Adjacent::STATUS_ACTIVE, 0, 256);
neighbors.insert(otherNeighbor);
nlsr.initialize();
// Simulate successful HELLO responses
lsdb.scheduleAdjLsaBuild();
// Set up adjacency LSAs
// This router
Adjacent thisRouter(conf.getRouterPrefix(), ndn::util::FaceUri("udp4://10.0.0.3"), 10, Adjacent::STATUS_ACTIVE, 0, 256);
AdjLsa ownAdjLsa(conf.getRouterPrefix(), 10, ndn::time::system_clock::now(), 1, neighbors);
lsdb.installAdjLsa(ownAdjLsa);
// Router that will fail
AdjacencyList failAdjacencies;
failAdjacencies.insert(thisRouter);
AdjLsa failAdjLsa("/ndn/neighborA", 10,
ndn::time::system_clock::now() + ndn::time::seconds(3600), 1, failAdjacencies);
lsdb.installAdjLsa(failAdjLsa);
// Other router
AdjacencyList otherAdjacencies;
otherAdjacencies.insert(thisRouter);
AdjLsa otherAdjLsa("/ndn/neighborB", 10,
ndn::time::system_clock::now() + ndn::time::seconds(3600), 1, otherAdjacencies);
lsdb.installAdjLsa(otherAdjLsa);
// Run the scheduler to build an adjacency LSA
this->advanceClocks(ndn::time::milliseconds(1));
// Make sure an adjacency LSA was built
ndn::Name key = ndn::Name(nlsr.getConfParameter().getRouterPrefix()).append(AdjLsa::TYPE_STRING);
AdjLsa* lsa = lsdb.findAdjLsa(key);
BOOST_REQUIRE(lsa != nullptr);
uint32_t lastAdjLsaSeqNo = lsa->getLsSeqNo();
nlsr.getLsdb().getSequencingManager().setAdjLsaSeq(lastAdjLsaSeqNo);
// Make sure the routing table was calculated
RoutingTableEntry* rtEntry = nlsr.getRoutingTable().findRoutingTableEntry(failNeighbor.getName());
BOOST_REQUIRE(rtEntry != nullptr);
BOOST_REQUIRE_EQUAL(rtEntry->getNexthopList().getSize(), 1);
// Receive FaceEventDestroyed notification
ndn::nfd::FaceEventNotification event;
event.setKind(ndn::nfd::FACE_EVENT_DESTROYED)
.setFaceId(destroyFaceId);
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>("/localhost/nfd/faces/events/%FE%00");
data->setContent(event.wireEncode());
nlsr.getKeyChain().sign(*data);
face->receive(*data);
// Run the scheduler to build an adjacency LSA
this->advanceClocks(ndn::time::milliseconds(1));
Adjacent updatedNeighbor = neighbors.getAdjacent(failNeighbor.getName());
BOOST_CHECK_EQUAL(updatedNeighbor.getFaceId(), 0);
BOOST_CHECK_EQUAL(updatedNeighbor.getInterestTimedOutNo(),
nlsr.getConfParameter().getInterestRetryNumber());
BOOST_CHECK_EQUAL(updatedNeighbor.getStatus(), Adjacent::STATUS_INACTIVE);
lsa = lsdb.findAdjLsa(key);
BOOST_REQUIRE(lsa != nullptr);
BOOST_CHECK_EQUAL(lsa->getLsSeqNo(), lastAdjLsaSeqNo + 1);
// Make sure the routing table was recalculated
rtEntry = nlsr.getRoutingTable().findRoutingTableEntry(failNeighbor.getName());
BOOST_CHECK(rtEntry == nullptr);
}
// Bug #2733
// This test checks that when a face for an inactive node is destroyed, an
// Adjacency LSA build does not postpone the LSA refresh and cause RIB
// entries for other nodes' name prefixes to not be refreshed.
//
// This test is invalid when Issue #2732 is implemented since an Adjacency LSA
// refresh will not cause RIB entries for other nodes' name prefixes to be refreshed.
BOOST_FIXTURE_TEST_CASE(FaceDestroyEventInactive, UnitTestTimeFixture)
{
std::shared_ptr<ndn::util::DummyClientFace> face = std::make_shared<ndn::util::DummyClientFace>(g_ioService);
Nlsr nlsr(g_ioService, g_scheduler, std::ref(*face), g_keyChain);
Lsdb& lsdb = nlsr.getLsdb();
// Simulate loading configuration file
ConfParameter& conf = nlsr.getConfParameter();
conf.setNetwork("/ndn");
conf.setSiteName("/site");
conf.setRouterName("/%C1.router/this-router");
conf.setFirstHelloInterval(0);
conf.setAdjLsaBuildInterval(0);
conf.setRoutingCalcInterval(0);
// Add neighbors
AdjacencyList& neighbors = nlsr.getAdjacencyList();
uint64_t destroyFaceId = 128;
// Create an inactive neighbor whose Face will be destroyed
Adjacent failNeighbor("/ndn/neighborA", ndn::util::FaceUri("udp4://10.0.0.1"), 10, Adjacent::STATUS_INACTIVE, 3,
destroyFaceId);
neighbors.insert(failNeighbor);
// Create an additional active neighbor so an adjacency LSA can be built
Adjacent otherNeighbor("/ndn/neighborB", ndn::util::FaceUri("udp4://10.0.0.2"), 25, Adjacent::STATUS_ACTIVE, 0, 256);
neighbors.insert(otherNeighbor);
// Add a name for the neighbor to advertise
NamePrefixList nameList;
ndn::Name nameToAdvertise("/ndn/neighborB/name");
nameList.insert(nameToAdvertise);
NameLsa nameLsa("/ndn/neighborB", 25, ndn::time::system_clock::now(), nameList);
lsdb.installNameLsa(nameLsa);
nlsr.initialize();
// Simulate successful HELLO responses from neighbor B
lsdb.scheduleAdjLsaBuild();
// Set up adjacency LSAs
// This router
Adjacent thisRouter(conf.getRouterPrefix(), ndn::util::FaceUri("udp4://10.0.0.2"), 25, Adjacent::STATUS_ACTIVE, 0, 256);
AdjLsa ownAdjLsa(conf.getRouterPrefix(), 10, ndn::time::system_clock::now(), 1, neighbors);
lsdb.installAdjLsa(ownAdjLsa);
// Other ACTIVE router
AdjacencyList otherAdjacencies;
otherAdjacencies.insert(thisRouter);
AdjLsa otherAdjLsa("/ndn/neighborB", 10,
ndn::time::system_clock::now() + ndn::time::seconds(3600), 1, otherAdjacencies);
lsdb.installAdjLsa(otherAdjLsa);
// Run the scheduler to build an adjacency LSA
this->advanceClocks(ndn::time::milliseconds(1));
ndn::Name key = ndn::Name(nlsr.getConfParameter().getRouterPrefix()).append(AdjLsa::TYPE_STRING);
AdjLsa* lsa = lsdb.findAdjLsa(key);
BOOST_REQUIRE(lsa != nullptr);
// Cancel previous LSA expiration event
g_scheduler.cancelEvent(lsa->getExpiringEventId());
// Set expiration time for own Adjacency LSA to earlier value for unit-test
//
// Expiration time is negative to offset the GRACE_PERIOD (10 seconds) automatically applied
// to expiration times
ndn::EventId id = lsdb.scheduleAdjLsaExpiration(key, lsa->getLsSeqNo(), -ndn::time::seconds(9));
lsa->setExpiringEventId(id);
// Generate a FaceEventDestroyed notification
ndn::nfd::FaceEventNotification event;
event.setKind(ndn::nfd::FACE_EVENT_DESTROYED)
.setFaceId(destroyFaceId);
std::shared_ptr<ndn::Data> data = std::make_shared<ndn::Data>("/localhost/nfd/faces/events/%FE%00");
data->setContent(event.wireEncode());
nlsr.getKeyChain().sign(*data);
// Receive the FaceEventDestroyed notification
face->receive(*data);
// Run the scheduler to expire the Adjacency LSA. The expiration should refresh the RIB
// entries associated with Neighbor B's advertised prefix.
face->sentInterests.clear();
this->advanceClocks(ndn::time::seconds(1));
// The Face should have two sent Interests: the face event and a RIB registration
BOOST_REQUIRE(face->sentInterests.size() > 0);
const ndn::Interest& interest = face->sentInterests.back();
ndn::nfd::ControlParameters parameters;
ndn::Name::Component verb;
BOOST_REQUIRE_NO_THROW(extractRibCommandParameters(interest,
verb,
parameters));
BOOST_CHECK_EQUAL(verb, ndn::Name::Component("register"));
BOOST_CHECK_EQUAL(parameters.getName(), nameToAdvertise);
}
BOOST_AUTO_TEST_CASE(GetCertificate)
{
// Create certificate
ndn::Name identity("/TestNLSR/identity");
identity.appendVersion();
ndn::KeyChain keyChain;
keyChain.createIdentity(identity);
ndn::Name certName = keyChain.getDefaultCertificateNameForIdentity(identity);
std::shared_ptr<ndn::IdentityCertificate> certificate = keyChain.getCertificate(certName);
const ndn::Name certKey = certificate->getName().getPrefix(-1);
BOOST_CHECK(nlsr.getCertificate(certKey) == nullptr);
// Certificate should be retrievable from the CertificateStore
nlsr.loadCertToPublish(certificate);
BOOST_CHECK(nlsr.getCertificate(certKey) != nullptr);
nlsr.getCertificateStore().clear();
// Certificate should be retrievable from the cache
nlsr.addCertificateToCache(certificate);
this->advanceClocks(ndn::time::milliseconds(10));
BOOST_CHECK(nlsr.getCertificate(certKey) != nullptr);
}
BOOST_AUTO_TEST_CASE(SetRouterCommandPrefix)
{
// Simulate loading configuration file
ConfParameter& conf = nlsr.getConfParameter();
conf.setNetwork("/ndn");
conf.setSiteName("/site");
conf.setRouterName("/%C1.router/this-router");
nlsr.initialize();
BOOST_CHECK_EQUAL(nlsr.getLsdbDatasetHandler().getRouterNameCommandPrefix(),
ndn::Name("/ndn/site/%C1.router/this-router/lsdb"));
}
BOOST_AUTO_TEST_CASE(BuildAdjLsaAfterHelloResponse)
{
// Configure NLSR
ConfParameter& conf = nlsr.getConfParameter();
conf.setNetwork("/ndn");
conf.setSiteName("/site");
ndn::Name routerName("/%C1.Router/this-router");
conf.setRouterName(routerName);
conf.setAdjLsaBuildInterval(1);
// Add neighbors
// Router A
ndn::Name neighborAName("/ndn/site/%C1.router/routerA");
Adjacent neighborA(neighborAName, ndn::util::FaceUri("udp4://10.0.0.1"), 0, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
// Router B
ndn::Name neighborBName("/ndn/site/%C1.router/routerB");
Adjacent neighborB(neighborBName, ndn::util::FaceUri("udp4://10.0.0.1"), 0, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborB);
nlsr.initialize();
this->advanceClocks(ndn::time::milliseconds(1));
// Receive HELLO response from Router A
receiveHelloData(neighborAName, conf.getRouterPrefix());
this->advanceClocks(ndn::time::seconds(1));
ndn::Name lsaKey = ndn::Name(conf.getRouterPrefix()).append(AdjLsa::TYPE_STRING);
// Adjacency LSA should be built even though other router is INACTIVE
AdjLsa* lsa = lsdb.findAdjLsa(lsaKey);
BOOST_REQUIRE(lsa != nullptr);
BOOST_CHECK_EQUAL(lsa->getAdl().getSize(), 1);
// Receive HELLO response from Router B
receiveHelloData(neighborBName, conf.getRouterPrefix());
// Both routers become INACTIVE and HELLO Interests have timed out
for (Adjacent& adjacency : neighbors.getAdjList()) {
adjacency.setStatus(Adjacent::STATUS_INACTIVE);
adjacency.setInterestTimedOutNo(HELLO_RETRIES_DEFAULT);
}
this->advanceClocks(ndn::time::seconds(1));
// Adjacency LSA should have been removed since this router's adjacencies are INACTIVE
// and have timed out
lsa = lsdb.findAdjLsa(lsaKey);
BOOST_CHECK(lsa == nullptr);
// Receive HELLO response from Router A and B
receiveHelloData(neighborAName, conf.getRouterPrefix());
receiveHelloData(neighborBName, conf.getRouterPrefix());
this->advanceClocks(ndn::time::seconds(1));
// Adjacency LSA should be built
lsa = lsdb.findAdjLsa(lsaKey);
BOOST_REQUIRE(lsa != nullptr);
BOOST_CHECK_EQUAL(lsa->getAdl().getSize(), 2);
}
BOOST_AUTO_TEST_CASE(CanonizeUris)
{
ndn::Name neighborAName("/ndn/site/%C1.router/routerA");
ndn::util::FaceUri faceUriA("udp://10.0.0.1");
Adjacent neighborA(neighborAName, faceUriA, 0, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
ndn::Name neighborBName("/ndn/site/%C1.router/routerB");
ndn::util::FaceUri faceUriB("udp://10.0.0.2");
Adjacent neighborB(neighborBName, faceUriB, 0, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborB);
int nCanonizationsLeft = nlsr.getAdjacencyList().getAdjList().size();
std::function<void(std::list<Adjacent>::iterator)> thenCallback =
[this, &thenCallback, &nCanonizationsLeft] (std::list<Adjacent>::iterator iterator) {
nCanonizationsLeft--;
nlsr.canonizeNeighborUris(iterator, thenCallback);
};
nlsr.canonizeNeighborUris(nlsr.getAdjacencyList().getAdjList().begin(),
[thenCallback] (std::list<Adjacent>::iterator iterator) {
thenCallback(iterator);
});
while (nCanonizationsLeft != 0) {
this->advanceClocks(ndn::time::milliseconds(1));
}
BOOST_CHECK_EQUAL(nlsr.getAdjacencyList().getAdjacent(neighborAName).getFaceUri(),
ndn::util::FaceUri("udp4://10.0.0.1:6363"));
BOOST_CHECK_EQUAL(nlsr.getAdjacencyList().getAdjacent(neighborBName).getFaceUri(),
ndn::util::FaceUri("udp4://10.0.0.2:6363"));
}
BOOST_AUTO_TEST_CASE(FaceDatasetFetchSuccess)
{
bool hasResult = false;
nlsr.m_validator.m_shouldValidate = false;
nlsr.initializeFaces([&hasResult] (const std::vector<ndn::nfd::FaceStatus>& faces) {
hasResult = true;
BOOST_CHECK_EQUAL(faces.size(), 2);
BOOST_CHECK_EQUAL(faces.front().getFaceId(), 25401);
BOOST_CHECK_EQUAL(faces.back().getFaceId(), 25402);
},
[] (uint32_t code, const std::string& reason) {});
this->advanceClocks(ndn::time::milliseconds(500));
ndn::nfd::FaceStatus payload1;
payload1.setFaceId(25401);
ndn::nfd::FaceStatus payload2;
payload2.setFaceId(25402);
this->sendDataset("/localhost/nfd/faces/list", payload1, payload2);
this->advanceClocks(ndn::time::milliseconds(500));
BOOST_CHECK(hasResult);
}
BOOST_AUTO_TEST_CASE(FaceDatasetFetchFailure)
{
nlsr.m_validator.m_shouldValidate = false;
nlsr.initializeFaces([](const std::vector<ndn::nfd::FaceStatus>& faces) {},
[this](uint32_t code, const std::string& reason){
this->nFailureCallbacks++;
});
this->advanceClocks(ndn::time::milliseconds(500));
ndn::Name payload;
this->sendDataset("/localhost/nfd/faces/list", payload);
this->advanceClocks(ndn::time::milliseconds(500));
BOOST_CHECK_EQUAL(nFailureCallbacks, 1);
BOOST_CHECK_EQUAL(nSuccessCallbacks, 0);
}
BOOST_AUTO_TEST_CASE(FaceDatasetProcess)
{
Adjacent neighborA("/ndn/neighborA", ndn::util::FaceUri("udp4://192.168.0.100:6363"), 25, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
Adjacent neighborB("/ndn/neighborB", ndn::util::FaceUri("udp4://192.168.0.101:6363"), 10, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborB);
ndn::nfd::FaceStatus payload1;
payload1.setFaceId(1)
.setRemoteUri("udp4://192.168.0.100:6363");
ndn::nfd::FaceStatus payload2;
payload2.setFaceId(2)
.setRemoteUri("udp4://192.168.0.101:6363");
std::vector<ndn::nfd::FaceStatus> faceStatuses = {payload1, payload2};
nlsr.processFaceDataset(faceStatuses);
this->advanceClocks(ndn::time::milliseconds(100));
AdjacencyList adjList = nlsr.getAdjacencyList();
BOOST_CHECK_EQUAL(adjList.getAdjacent("/ndn/neighborA").getFaceId(), payload1.getFaceId());
BOOST_CHECK_EQUAL(adjList.getAdjacent("/ndn/neighborB").getFaceId(), payload2.getFaceId());
}
BOOST_AUTO_TEST_CASE(UnconfiguredNeighbor)
{
Adjacent neighborA("/ndn/neighborA", ndn::util::FaceUri("udp4://192.168.0.100:6363"), 25, Adjacent::STATUS_INACTIVE, 0, 0);
neighbors.insert(neighborA);
ndn::nfd::FaceStatus payload;
payload.setFaceId(1)
.setRemoteUri("udp4://192.168.0.101:6363"); // Note dissimilar Face URI.
std::vector<ndn::nfd::FaceStatus> faceStatuses = {payload};
nlsr.processFaceDataset(faceStatuses);
this->advanceClocks(ndn::time::milliseconds(100));
AdjacencyList adjList = nlsr.getAdjacencyList();
BOOST_CHECK_EQUAL(adjList.getAdjacent("/ndn/neighborA").getFaceId(), 0);
}
BOOST_AUTO_TEST_CASE(FaceDatasetPeriodicFetch)
{
int nNameMatches = 0;
ndn::Name datasetPrefix("/localhost/nfd/faces/list");
ndn::nfd::CommandOptions options;
ndn::time::milliseconds defaultTimeout = options.getTimeout();
int fetchInterval(1);
ConfParameter& conf = nlsr.getConfParameter();
conf.setFaceDatasetFetchInterval(fetchInterval);
conf.setFaceDatasetFetchTries(0);
nlsr.initializeFaces(std::bind(&Nlsr::processFaceDataset, &nlsr, _1),
std::bind(&Nlsr::onFaceDatasetFetchTimeout, &nlsr, _1, _2, 0));
// Elapse the default timeout time of the interest.
this->advanceClocks(defaultTimeout);
// Check that we have one interest for face list in the sent interests.
for (const ndn::Interest& interest : face->sentInterests) {
if (datasetPrefix.isPrefixOf(interest.getName())) {
nNameMatches++;
}
}
BOOST_CHECK_EQUAL(nNameMatches, 1);
// Elapse the clock by the reschedule time (that we set)
this->advanceClocks(ndn::time::seconds(fetchInterval));
// Elapse the default timeout on the interest.
this->advanceClocks(defaultTimeout);
// Plus a little more to let the events process.
this->advanceClocks(ndn::time::seconds(1));
// Check that we now have two interests
nNameMatches = 0;
for (const ndn::Interest& interest : face->sentInterests) {
if (datasetPrefix.isPrefixOf(interest.getName())) {
nNameMatches++;
}
}
BOOST_CHECK_EQUAL(nNameMatches, 2);
}
BOOST_AUTO_TEST_SUITE_END()
} // namespace test
} // namespace nlsr