blob: 02c4319fdd2193021f2c3275ad840728ceab440b [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (C) 2014 Named Data Networking Project
* See COPYING for copyright and distribution information.
*/
#include "face/udp-factory.hpp"
#include "core/scheduler.hpp"
#include "core/face-uri.hpp"
#include "tests/test-common.hpp"
#include <ndn-cpp-dev/security/key-chain.hpp>
#include <boost/asio.hpp>
namespace nfd {
namespace tests {
BOOST_FIXTURE_TEST_SUITE(FaceUdp, BaseFixture)
class FactoryErrorCheck : protected BaseFixture
{
public:
bool isTheSameMulticastEndpoint(const UdpFactory::Error& e) {
return strcmp(e.what(),
"Cannot create the requested UDP unicast channel, local "
"endpoint is already allocated for a UDP multicast face") == 0;
}
bool isNotMulticastAddress(const UdpFactory::Error& e) {
return strcmp(e.what(),
"Cannot create the requested UDP multicast face, "
"the multicast group given as input is not a multicast address") == 0;
}
bool isTheSameUnicastEndpoint(const UdpFactory::Error& e) {
return strcmp(e.what(),
"Cannot create the requested UDP multicast face, local "
"endpoint is already allocated for a UDP unicast channel") == 0;
}
bool isLocalEndpointOnDifferentGroup(const UdpFactory::Error& e) {
return strcmp(e.what(),
"Cannot create the requested UDP multicast face, local "
"endpoint is already allocated for a UDP multicast face "
"on a different multicast group") == 0;
}
};
BOOST_FIXTURE_TEST_CASE(ChannelMapUdp, FactoryErrorCheck)
{
using boost::asio::ip::udp;
UdpFactory factory = UdpFactory();
//to instantiate multicast face on a specific ip address, change interfaceIp
std::string interfaceIp = "0.0.0.0";
shared_ptr<UdpChannel> channel1 = factory.createChannel("127.0.0.1", "20070");
shared_ptr<UdpChannel> channel1a = factory.createChannel("127.0.0.1", "20070");
BOOST_CHECK_EQUAL(channel1, channel1a);
shared_ptr<UdpChannel> channel2 = factory.createChannel("127.0.0.1", "20071");
BOOST_CHECK_NE(channel1, channel2);
shared_ptr<UdpChannel> channel3 = factory.createChannel(interfaceIp, "20070");
//same endpoint of a unicast channel
BOOST_CHECK_EXCEPTION(factory.createMulticastFace(interfaceIp,
"224.0.0.1",
"20070"),
UdpFactory::Error,
isTheSameUnicastEndpoint);
shared_ptr<MulticastUdpFace> multicastFace1 = factory.createMulticastFace(interfaceIp,
"224.0.0.1",
"20072");
shared_ptr<MulticastUdpFace> multicastFace1a = factory.createMulticastFace(interfaceIp,
"224.0.0.1",
"20072");
BOOST_CHECK_EQUAL(multicastFace1, multicastFace1a);
//same endpoint of a multicast face
BOOST_CHECK_EXCEPTION(factory.createChannel(interfaceIp, "20072"),
UdpFactory::Error,
isTheSameMulticastEndpoint);
//same multicast endpoint, different group
BOOST_CHECK_EXCEPTION(factory.createMulticastFace(interfaceIp,
"224.0.0.42",
"20072"),
UdpFactory::Error,
isLocalEndpointOnDifferentGroup);
BOOST_CHECK_EXCEPTION(factory.createMulticastFace(interfaceIp,
"192.168.10.15",
"20025"),
UdpFactory::Error,
isNotMulticastAddress);
// //Test commented because it required to be run in a machine that can resolve ipv6 query
// shared_ptr<UdpChannel> channel1v6 = factory.createChannel(//"::1",
// "fe80::5e96:9dff:fe7d:9c8d%en1",
// //"fe80::aa54:b2ff:fe08:27b8%wlan0",
// "20070");
//
// //the creation of multicastFace2 works properly. It has been disable because it needs an IP address of
// //an available network interface (different from the first one used)
// shared_ptr<MulticastUdpFace> multicastFace2 = factory.createMulticastFace("192.168.1.17",
// "224.0.0.1",
// "20073");
// BOOST_CHECK_NE(multicastFace1, multicastFace2);
//
//
// //ipv6 - work in progress
// shared_ptr<MulticastUdpFace> multicastFace3 = factory.createMulticastFace("fe80::5e96:9dff:fe7d:9c8d%en1",
// "FF01:0:0:0:0:0:0:2",
// "20073");
//
// shared_ptr<MulticastUdpFace> multicastFace4 = factory.createMulticastFace("fe80::aa54:b2ff:fe08:27b8%wlan0",
// "FF01:0:0:0:0:0:0:2",
// "20073");
//
// BOOST_CHECK_EQUAL(multicastFace3, multicastFace4);
//
// shared_ptr<MulticastUdpFace> multicastFace5 = factory.createMulticastFace("::1",
// "FF01:0:0:0:0:0:0:2",
// "20073");
//
// BOOST_CHECK_NE(multicastFace3, multicastFace5);
//
// //same local ipv6 endpoint for a different multicast group
// BOOST_CHECK_THROW(factory.createMulticastFace("fe80::aa54:b2ff:fe08:27b8%wlan0",
// "FE01:0:0:0:0:0:0:2",
// "20073"),
// UdpFactory::Error);
//
// //same local ipv6 (expect for th port number) endpoint for a different multicast group
// BOOST_CHECK_THROW(factory.createMulticastFace("fe80::aa54:b2ff:fe08:27b8%wlan0",
// "FE01:0:0:0:0:0:0:2",
// "20075"),
// UdpFactory::Error);
//
// BOOST_CHECK_THROW(factory.createMulticastFace("fa80::20a:9dff:fef6:12ff",
// "FE12:0:0:0:0:0:0:2",
// "20075"),
// UdpFactory::Error);
//
// //not a multicast ipv6
// BOOST_CHECK_THROW(factory.createMulticastFace("fa80::20a:9dff:fef6:12ff",
// "A112:0:0:0:0:0:0:2",
// "20075"),
// UdpFactory::Error);
}
class EndToEndFixture : protected BaseFixture
{
public:
void
channel1_onFaceCreated(const shared_ptr<UdpFace>& newFace)
{
BOOST_CHECK(!static_cast<bool>(m_face1));
m_face1 = newFace;
m_face1->onReceiveInterest +=
bind(&EndToEndFixture::face1_onReceiveInterest, this, _1);
m_face1->onReceiveData +=
bind(&EndToEndFixture::face1_onReceiveData, this, _1);
m_face1->onFail +=
bind(&EndToEndFixture::face1_onFail, this);
BOOST_CHECK_MESSAGE(true, "channel 1 face created");
m_faces.push_back(m_face1);
this->afterIo();
}
void
channel1_onConnectFailed(const std::string& reason)
{
BOOST_CHECK_MESSAGE(false, reason);
this->afterIo();
}
void
face1_onReceiveInterest(const Interest& interest)
{
m_face1_receivedInterests.push_back(interest);
this->afterIo();
}
void
face1_onReceiveData(const Data& data)
{
m_face1_receivedDatas.push_back(data);
this->afterIo();
}
void
face1_onFail()
{
m_face1.reset();
this->afterIo();
}
void
channel2_onFaceCreated(const shared_ptr<Face>& newFace)
{
BOOST_CHECK(!static_cast<bool>(m_face2));
m_face2 = newFace;
m_face2->onReceiveInterest +=
bind(&EndToEndFixture::face2_onReceiveInterest, this, _1);
m_face2->onReceiveData +=
bind(&EndToEndFixture::face2_onReceiveData, this, _1);
m_face2->onFail +=
bind(&EndToEndFixture::face2_onFail, this);
m_faces.push_back(m_face2);
BOOST_CHECK_MESSAGE(true, "channel 2 face created");
this->afterIo();
}
void
channel2_onConnectFailed(const std::string& reason)
{
BOOST_CHECK_MESSAGE(false, reason);
this->afterIo();
}
void
face2_onReceiveInterest(const Interest& interest)
{
m_face2_receivedInterests.push_back(interest);
this->afterIo();
}
void
face2_onReceiveData(const Data& data)
{
m_face2_receivedDatas.push_back(data);
this->afterIo();
}
void
face2_onFail()
{
m_face2.reset();
this->afterIo();
}
void
channel3_onFaceCreated(const shared_ptr<Face>& newFace)
{
BOOST_CHECK(!static_cast<bool>(m_face1));
m_face3 = newFace;
m_faces.push_back(newFace);
this->afterIo();
}
void
channel_onFaceCreated(const shared_ptr<UdpFace>& newFace)
{
m_faces.push_back(newFace);
this->afterIo();
}
void
channel_onConnectFailed(const std::string& reason)
{
BOOST_CHECK_MESSAGE(false, reason);
this->afterIo();
}
void
channel_onConnectFailedOk(const std::string& reason)
{
//it's ok, it was supposed to fail
this->afterIo();
}
void
checkFaceList(size_t shouldBe)
{
BOOST_CHECK_EQUAL(m_faces.size(), shouldBe);
}
void
abortTestCase(const std::string& message)
{
g_io.stop();
BOOST_FAIL(message);
}
private:
void
afterIo()
{
if (--m_ioRemaining <= 0) g_io.stop();
}
public:
int m_ioRemaining;
shared_ptr<Face> m_face1;
std::vector<Interest> m_face1_receivedInterests;
std::vector<Data> m_face1_receivedDatas;
shared_ptr<Face> m_face2;
std::vector<Interest> m_face2_receivedInterests;
std::vector<Data> m_face2_receivedDatas;
shared_ptr<Face> m_face3;
std::list< shared_ptr<Face> > m_faces;
};
BOOST_FIXTURE_TEST_CASE(EndToEnd, EndToEndFixture)
{
UdpFactory factory = UdpFactory();
Scheduler scheduler(g_io); // to limit the amount of time the test may take
EventId abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot connect or cannot accept connection"));
m_ioRemaining = 1;
shared_ptr<UdpChannel> channel2 = factory.createChannel("127.0.0.1", "20071");
//channel2->connect("127.0.0.1", "20070",
// bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel2_onConnectFailed, this, _1));
factory.createFace(FaceUri("udp4://127.0.0.1:20070"),
bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel2_onConnectFailed, this, _1));
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_REQUIRE(static_cast<bool>(m_face2));
shared_ptr<UdpChannel> channel1 = factory.createChannel("127.0.0.1", "20070");
channel1->listen(bind(&EndToEndFixture::channel1_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel1_onConnectFailed, this, _1));
abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot send or receive Interest/Data packets"));
Interest interest1("ndn:/TpnzGvW9R");
Data data1 ("ndn:/KfczhUqVix");
data1.setContent(0, 0);
Interest interest2("ndn:/QWiIMfj5sL");
Data data2 ("ndn:/XNBV796f");
data2.setContent(0, 0);
Interest interest3("ndn:/QWiIhjgkj5sL");
Data data3 ("ndn:/XNBV794f");
data3.setContent(0, 0);
ndn::SignatureSha256WithRsa fakeSignature;
fakeSignature.setValue(ndn::dataBlock(tlv::SignatureValue,
reinterpret_cast<const uint8_t*>(0),
0));
// set fake signature on data1 and data2
data1.setSignature(fakeSignature);
data2.setSignature(fakeSignature);
data3.setSignature(fakeSignature);
m_face2->sendInterest(interest2);
m_face2->sendData (data2 );
m_ioRemaining = 3; //2 send + 1 listen return
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_REQUIRE(static_cast<bool>(m_face1));
m_face1->sendInterest(interest1);
m_face1->sendData (data1 );
abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot send or receive Interest/Data packets"));
m_ioRemaining = 2;
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_REQUIRE_EQUAL(m_face1_receivedInterests.size(), 1);
BOOST_REQUIRE_EQUAL(m_face1_receivedDatas .size(), 1);
BOOST_REQUIRE_EQUAL(m_face2_receivedInterests.size(), 1);
BOOST_REQUIRE_EQUAL(m_face2_receivedDatas .size(), 1);
BOOST_CHECK_EQUAL(m_face1_receivedInterests[0].getName(), interest2.getName());
BOOST_CHECK_EQUAL(m_face1_receivedDatas [0].getName(), data2.getName());
BOOST_CHECK_EQUAL(m_face2_receivedInterests[0].getName(), interest1.getName());
BOOST_CHECK_EQUAL(m_face2_receivedDatas [0].getName(), data1.getName());
//checking if the connection accepting mechanism works properly.
m_face2->sendData (data3 );
m_face2->sendInterest(interest3);
abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot send or receive Interest/Data packets"));
m_ioRemaining = 2;
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_REQUIRE_EQUAL(m_face1_receivedInterests.size(), 2);
BOOST_REQUIRE_EQUAL(m_face1_receivedDatas .size(), 2);
BOOST_CHECK_EQUAL(m_face1_receivedInterests[1].getName(), interest3.getName());
BOOST_CHECK_EQUAL(m_face1_receivedDatas [1].getName(), data3.getName());
}
BOOST_FIXTURE_TEST_CASE(MultipleAccepts, EndToEndFixture)
{
Interest interest1("ndn:/TpnzGvW9R");
Interest interest2("ndn:/QWiIMfj5sL");
Interest interest3("ndn:/QWiIhjgkj5sL");
UdpFactory factory = UdpFactory();
Scheduler scheduler(g_io); // to limit the amount of time the test may take
EventId abortEvent =
scheduler.scheduleEvent(time::seconds(4),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot connect or cannot accept connection"));
shared_ptr<UdpChannel> channel1 = factory.createChannel("127.0.0.1", "20070");
shared_ptr<UdpChannel> channel2 = factory.createChannel("127.0.0.1", "20071");
channel1->listen(bind(&EndToEndFixture::channel_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
channel2->connect("127.0.0.1", "20070",
bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
m_ioRemaining = 1;
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_CHECK_EQUAL(m_faces.size(), 1);
shared_ptr<UdpChannel> channel3 = factory.createChannel("127.0.0.1", "20072");
channel3->connect("127.0.0.1", "20070",
bind(&EndToEndFixture::channel3_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
shared_ptr<UdpChannel> channel4 = factory.createChannel("127.0.0.1", "20073");
BOOST_CHECK_NE(channel3, channel4);
scheduler
.scheduleEvent
(time::seconds(0.5),
bind(&UdpChannel::connect, channel4,
"127.0.0.1", "20070",
// does not work without static_cast
static_cast<UdpChannel::FaceCreatedCallback>(bind(&EndToEndFixture::
channel_onFaceCreated,
this,
_1)),
static_cast<UdpChannel::ConnectFailedCallback>(bind(&EndToEndFixture::
channel_onConnectFailed,
this,
_1))));
m_ioRemaining = 2; // 2 connects
abortEvent =
scheduler.scheduleEvent(time::seconds(4),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot connect or cannot accept multiple connections"));
scheduler.scheduleEvent(time::seconds(0.4),
bind(&EndToEndFixture::checkFaceList, this, 2));
g_io.run();
g_io.reset();
BOOST_CHECK_EQUAL(m_faces.size(), 3);
m_face2->sendInterest(interest1);
abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot send or receive Interest/Data packets"));
m_ioRemaining = 1;
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_CHECK_EQUAL(m_faces.size(), 4);
m_face3->sendInterest(interest2);
abortEvent =
scheduler.scheduleEvent(time::seconds(1),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot send or receive Interest/Data packets"));
m_ioRemaining = 1;
g_io.run();
g_io.reset();
scheduler.cancelEvent(abortEvent);
//channel1 should have created 2 faces, one when m_face2 sent an interest, one when m_face3 sent an interest
BOOST_CHECK_EQUAL(m_faces.size(), 5);
BOOST_CHECK_THROW(channel1->listen(bind(&EndToEndFixture::channel_onFaceCreated,
this,
_1),
bind(&EndToEndFixture::channel_onConnectFailedOk,
this,
_1)),
UdpChannel::Error);
}
//Test commented because it required to be run in a machine that can resolve ipv6 query
//BOOST_FIXTURE_TEST_CASE(EndToEndIpv6, EndToEndFixture)
//{
// UdpFactory factory = UdpFactory();
// Scheduler scheduler(g_io); // to limit the amount of time the test may take
//
// EventId abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot connect or cannot accept connection"));
//
// m_ioRemaining = 1;
//
// shared_ptr<UdpChannel> channel1 = factory.createChannel("::1", "20070");
// shared_ptr<UdpChannel> channel2 = factory.createChannel("::1", "20071");
//
// channel1->listen(bind(&EndToEndFixture::channel1_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel1_onConnectFailed, this, _1));
//
// channel2->connect("::1", "20070",
// bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel2_onConnectFailed, this, _1));
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_REQUIRE(static_cast<bool>(m_face2));
//
// abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot send or receive Interest/Data packets"));
//
// Interest interest1("ndn:/TpnzGvW9R");
// Data data1 ("ndn:/KfczhUqVix");
// data1.setContent(0, 0);
// Interest interest2("ndn:/QWiIMfj5sL");
// Data data2 ("ndn:/XNBV796f");
// data2.setContent(0, 0);
// Interest interest3("ndn:/QWiIhjgkj5sL");
// Data data3 ("ndn:/XNBV794f");
// data3.setContent(0, 0);
//
// ndn::SignatureSha256WithRsa fakeSignature;
// fakeSignature.setValue(ndn::dataBlock(tlv::SignatureValue, reinterpret_cast<const uint8_t*>(0), 0));
//
// // set fake signature on data1 and data2
// data1.setSignature(fakeSignature);
// data2.setSignature(fakeSignature);
// data3.setSignature(fakeSignature);
//
// m_face2->sendInterest(interest2);
// m_face2->sendData (data2 );
//
// m_ioRemaining = 3; //2 send + 1 listen return
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_REQUIRE(static_cast<bool>(m_face1));
//
// m_face1->sendInterest(interest1);
// m_face1->sendData (data1 );
//
// abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot send or receive Interest/Data packets"));
// m_ioRemaining = 2;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_REQUIRE_EQUAL(m_face1_receivedInterests.size(), 1);
// BOOST_REQUIRE_EQUAL(m_face1_receivedDatas .size(), 1);
// BOOST_REQUIRE_EQUAL(m_face2_receivedInterests.size(), 1);
// BOOST_REQUIRE_EQUAL(m_face2_receivedDatas .size(), 1);
//
// BOOST_CHECK_EQUAL(m_face1_receivedInterests[0].getName(), interest2.getName());
// BOOST_CHECK_EQUAL(m_face1_receivedDatas [0].getName(), data2.getName());
// BOOST_CHECK_EQUAL(m_face2_receivedInterests[0].getName(), interest1.getName());
// BOOST_CHECK_EQUAL(m_face2_receivedDatas [0].getName(), data1.getName());
//
// //checking if the connection accepting mechanism works properly.
//
// m_face2->sendData (data3 );
// m_face2->sendInterest(interest3);
//
// abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot send or receive Interest/Data packets"));
// m_ioRemaining = 2;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_REQUIRE_EQUAL(m_face1_receivedInterests.size(), 2);
// BOOST_REQUIRE_EQUAL(m_face1_receivedDatas .size(), 2);
//
// BOOST_CHECK_EQUAL(m_face1_receivedInterests[1].getName(), interest3.getName());
// BOOST_CHECK_EQUAL(m_face1_receivedDatas [1].getName(), data3.getName());
//
//}
//Test commented because it required to be run in a machine that can resolve ipv6 query
//BOOST_FIXTURE_TEST_CASE(MultipleAcceptsIpv6, EndToEndFixture)
//{
// Interest interest1("ndn:/TpnzGvW9R");
// Interest interest2("ndn:/QWiIMfj5sL");
// Interest interest3("ndn:/QWiIhjgkj5sL");
//
// UdpFactory factory = UdpFactory();
// Scheduler scheduler(g_io); // to limit the amount of time the test may take
//
// EventId abortEvent =
// scheduler.scheduleEvent(time::seconds(4),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot connect or cannot accept connection"));
//
// shared_ptr<UdpChannel> channel1 = factory.createChannel("::1", "20070");
// shared_ptr<UdpChannel> channel2 = factory.createChannel("::1", "20071");
//
// channel1->listen(bind(&EndToEndFixture::channel_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
//
// channel2->connect("::1", "20070",
// bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
//
// m_ioRemaining = 1;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_CHECK_EQUAL(m_faces.size(), 1);
//
// shared_ptr<UdpChannel> channel3 = factory.createChannel("::1", "20072");
// channel3->connect("::1", "20070",
// bind(&EndToEndFixture::channel3_onFaceCreated, this, _1),
// bind(&EndToEndFixture::channel_onConnectFailed, this, _1));
//
// shared_ptr<UdpChannel> channel4 = factory.createChannel("::1", "20073");
//
// BOOST_CHECK_NE(channel3, channel4);
//
// scheduler
// .scheduleEvent(time::seconds(0.5),
// bind(&UdpChannel::connect, channel4,
// "::1", "20070",
// static_cast<UdpChannel::FaceCreatedCallback>(bind(&EndToEndFixture::
// channel_onFaceCreated, this, _1)),
// static_cast<UdpChannel::ConnectFailedCallback>(bind(&EndToEndFixture::
// channel_onConnectFailed, this, _1))));
//
// m_ioRemaining = 2; // 2 connects
// abortEvent =
// scheduler.scheduleEvent(time::seconds(4),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot connect or cannot accept multiple connections"));
//
// scheduler.scheduleEvent(time::seconds(0.4),
// bind(&EndToEndFixture::checkFaceList, this, 2));
//
// g_io.run();
// g_io.reset();
//
// BOOST_CHECK_EQUAL(m_faces.size(), 3);
//
//
// m_face2->sendInterest(interest1);
// abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot send or receive Interest/Data packets"));
// m_ioRemaining = 1;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_CHECK_EQUAL(m_faces.size(), 4);
//
// m_face3->sendInterest(interest2);
// abortEvent =
// scheduler.scheduleEvent(time::seconds(1),
// bind(&EndToEndFixture::abortTestCase, this,
// "UdpChannel error: cannot send or receive Interest/Data packets"));
// m_ioRemaining = 1;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// //channel1 should have created 2 faces, one when m_face2 sent an interest, one when m_face3 sent an interest
// BOOST_CHECK_EQUAL(m_faces.size(), 5);
// BOOST_CHECK_THROW(channel1->listen(bind(&EndToEndFixture::channel_onFaceCreated,
// this,
// _1),
// bind(&EndToEndFixture::channel_onConnectFailedOk,
// this,
// _1)),
// UdpChannel::Error);
//}
BOOST_FIXTURE_TEST_CASE(FaceClosing, EndToEndFixture)
{
UdpFactory factory = UdpFactory();
Scheduler scheduler(g_io); // to limit the amount of time the test may take
EventId abortEvent =
scheduler.scheduleEvent(time::seconds(4),
bind(&EndToEndFixture::abortTestCase, this,
"UdpChannel error: cannot connect or cannot accept connection"));
shared_ptr<UdpChannel> channel1 = factory.createChannel("127.0.0.1", "20070");
shared_ptr<UdpChannel> channel2 = factory.createChannel("127.0.0.1", "20071");
channel1->listen(bind(&EndToEndFixture::channel1_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel1_onConnectFailed, this, _1));
channel2->connect("127.0.0.1", "20070",
bind(&EndToEndFixture::channel2_onFaceCreated, this, _1),
bind(&EndToEndFixture::channel2_onConnectFailed, this, _1));
m_ioRemaining = 1;
BOOST_REQUIRE_NO_THROW(g_io.run());
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_CHECK_EQUAL(channel2->size(), 1);
abortEvent =
scheduler.scheduleEvent(time::seconds(4),
bind(&EndToEndFixture::abortTestCase, this,
"FaceClosing error: cannot properly close faces"));
BOOST_CHECK(static_cast<bool>(m_face2));
m_ioRemaining = 1;
// just double check that we are calling the virtual method
static_pointer_cast<Face>(m_face2)->close();
BOOST_REQUIRE_NO_THROW(g_io.run());
g_io.reset();
scheduler.cancelEvent(abortEvent);
BOOST_CHECK(!static_cast<bool>(m_face2));
BOOST_CHECK_EQUAL(channel2->size(), 0);
}
//BOOST_FIXTURE_TEST_CASE(MulticastFace, EndToEndFixture)
//{
// //to instantiate multicast face on a specific ip address, change interfaceIp
// std::string interfaceIp = "0.0.0.0";
//
// UdpFactory factory = UdpFactory();
// Scheduler scheduler(g_io); // to limit the amount of time the test may take
//
// shared_ptr<MulticastUdpFace> multicastFace1 =
// factory.createMulticastFace(interfaceIp, "224.0.0.1", "20072");
//
// BOOST_REQUIRE(static_cast<bool>(multicastFace1));
//
// channel1_onFaceCreated(multicastFace1);
//
//
// EventId abortEvent =
// scheduler.scheduleEvent(time::seconds(10),
// bind(&EndToEndFixture::abortTestCase, this,
// "MulticastFace error: cannot send or receive Interest/Data packets"));
//
// Interest interest1("ndn:/TpnzGvW9R");
// Data data1 ("ndn:/KfczhUqVix");
// data1.setContent(0, 0);
// Interest interest2("ndn:/QWiIMfj5sL");
// Data data2 ("ndn:/XNBV796f");
// data2.setContent(0, 0);
// Interest interest3("ndn:/QWiIhjgkj5sL");
// Data data3 ("ndn:/XNBV794f");
// data3.setContent(0, 0);
//
//
// ndn::SignatureSha256WithRsa fakeSignature;
// fakeSignature.setValue(ndn::dataBlock(tlv::SignatureValue, reinterpret_cast<const uint8_t*>(0), 0));
//
// // set fake signature on data1 and data2
// data1.setSignature(fakeSignature);
// data2.setSignature(fakeSignature);
// data3.setSignature(fakeSignature);
//
// multicastFace1->sendInterest(interest1);
// multicastFace1->sendData (data1 );
//
// g_io.reset();
// m_ioRemaining = 2;
// g_io.run();
// g_io.reset();
// scheduler.cancelEvent(abortEvent);
//
// BOOST_REQUIRE_EQUAL(m_face1_receivedInterests.size(), 1);
// BOOST_REQUIRE_EQUAL(m_face1_receivedDatas .size(), 1);
//
// BOOST_CHECK_EQUAL(m_face1_receivedInterests[0].getName(), interest1.getName());
// BOOST_CHECK_EQUAL(m_face1_receivedDatas [0].getName(), data1.getName());
//}
BOOST_AUTO_TEST_SUITE_END()
} // namespace tests
} // namespace nfd