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gerrit.named-data.net / ndnSIM / 88d693768533275c671c7b2cee86fda0e45d2a3b / . / tests / core / resolver.cpp
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/* -*- 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 "core/resolver.hpp"
#include "core/logger.hpp"
#include <boost/test/unit_test.hpp>
#include "tests/test-common.hpp"
namespace nfd {
namespace tests {
NFD_LOG_INIT("tests.CoreResolver");
using boost::asio::ip::address_v4;
using boost::asio::ip::address_v6;
using boost::asio::ip::tcp;
using boost::asio::ip::udp;
BOOST_FIXTURE_TEST_SUITE(CoreResolver, BaseFixture)
template<class Protocol>
class ResolverFixture : protected BaseFixture
{
public:
ResolverFixture()
: m_nFailures(0)
, m_nSuccesses(0)
{
}
void
onSuccess(const typename Protocol::endpoint& resolvedEndpoint,
const typename Protocol::endpoint& expectedEndpoint,
bool isValid, bool wantCheckAddress = false)
{
NFD_LOG_DEBUG("Resolved to: " << resolvedEndpoint);
++m_nSuccesses;
if (!isValid)
{
BOOST_FAIL("Resolved to " + boost::lexical_cast<std::string>(resolvedEndpoint)
+ ", but it should have failed");
}
BOOST_CHECK_EQUAL(resolvedEndpoint.port(), expectedEndpoint.port());
BOOST_CHECK_EQUAL(resolvedEndpoint.address().is_v4(), expectedEndpoint.address().is_v4());
// checking address is not deterministic and should be enabled only
// if only one IP address will be returned by resolution
if (wantCheckAddress)
{
BOOST_CHECK_EQUAL(resolvedEndpoint.address(), expectedEndpoint.address());
}
}
void
onFailure(bool isValid)
{
++m_nFailures;
if (!isValid)
BOOST_FAIL("Resolution should not have failed");
BOOST_CHECK_MESSAGE(true, "Resolution failed as expected");
}
uint32_t m_nFailures;
uint32_t m_nSuccesses;
};
BOOST_FIXTURE_TEST_CASE(Tcp, ResolverFixture<tcp>)
{
TcpResolver::asyncResolve("www.named-data.net", "6363",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v4(), 6363), true, false),
bind(&ResolverFixture<tcp>::onFailure, this, false));
TcpResolver::asyncResolve("www.named-data.net", "notport",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v4(), 0), false, false),
bind(&ResolverFixture<tcp>::onFailure, this, true)); // should fail
TcpResolver::asyncResolve("nothost.nothost.nothost.arpa", "6363",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v4(), 6363), false, false),
bind(&ResolverFixture<tcp>::onFailure, this, true)); // should fail
TcpResolver::asyncResolve("www.google.com", "80",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v4(), 80), true, false),
bind(&ResolverFixture<tcp>::onFailure, this, false),
resolver::Ipv4Address()); // request IPv4 address
TcpResolver::asyncResolve("www.google.com", "80",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<tcp>::onFailure, this, false),
resolver::Ipv6Address()); // request IPv6 address
TcpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<tcp>::onFailure, this, false));
TcpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<tcp>::onFailure, this, false),
resolver::Ipv6Address());
TcpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v6(), 80), false, false),
bind(&ResolverFixture<tcp>::onFailure, this, true), // should fail
resolver::Ipv4Address());
TcpResolver::asyncResolve("192.0.2.1", "80",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v4::from_string("192.0.2.1"), 80), true, true),
bind(&ResolverFixture<tcp>::onFailure, this, false));
TcpResolver::asyncResolve("2001:db8:3f9:0:3025:ccc5:eeeb:86d3", "80",
bind(&ResolverFixture<tcp>::onSuccess, this, _1,
tcp::endpoint(address_v6::
from_string("2001:db8:3f9:0:3025:ccc5:eeeb:86d3"),
80), true, true),
bind(&ResolverFixture<tcp>::onFailure, this, false));
g_io.run();
BOOST_CHECK_EQUAL(m_nFailures, 3);
BOOST_CHECK_EQUAL(m_nSuccesses, 7);
}
BOOST_AUTO_TEST_CASE(SyncTcp)
{
tcp::endpoint endpoint;
BOOST_CHECK_NO_THROW(endpoint = TcpResolver::syncResolve("www.named-data.net", "6363"));
NFD_LOG_DEBUG("Resolved to: " << endpoint);
BOOST_CHECK_EQUAL(endpoint.address().is_v4(), true);
BOOST_CHECK_EQUAL(endpoint.port(), 6363);
}
BOOST_FIXTURE_TEST_CASE(Udp, ResolverFixture<udp>)
{
UdpResolver::asyncResolve("www.named-data.net", "6363",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v4(), 6363), true, false),
bind(&ResolverFixture<udp>::onFailure, this, false));
UdpResolver::asyncResolve("www.named-data.net", "notport",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v4(), 0), false, false),
bind(&ResolverFixture<udp>::onFailure, this, true)); // should fail
UdpResolver::asyncResolve("nothost.nothost.nothost.arpa", "6363",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v4(), 6363), false, false),
bind(&ResolverFixture<udp>::onFailure, this, true)); // should fail
UdpResolver::asyncResolve("www.google.com", "80",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v4(), 80), true, false),
bind(&ResolverFixture<udp>::onFailure, this, false),
resolver::Ipv4Address()); // request IPv4 address
UdpResolver::asyncResolve("www.google.com", "80",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<udp>::onFailure, this, false),
resolver::Ipv6Address()); // request IPv6 address
UdpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<udp>::onFailure, this, false));
UdpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v6(), 80), true, false),
bind(&ResolverFixture<udp>::onFailure, this, false),
resolver::Ipv6Address());
UdpResolver::asyncResolve("ipv6.google.com", "80", // only IPv6 address should be available
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v6(), 80), false, false),
bind(&ResolverFixture<udp>::onFailure, this, true), // should fail
resolver::Ipv4Address());
UdpResolver::asyncResolve("192.0.2.1", "80",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v4::from_string("192.0.2.1"), 80), true, true),
bind(&ResolverFixture<udp>::onFailure, this, false));
UdpResolver::asyncResolve("2001:db8:3f9:0:3025:ccc5:eeeb:86d3", "80",
bind(&ResolverFixture<udp>::onSuccess, this, _1,
udp::endpoint(address_v6::
from_string("2001:db8:3f9:0:3025:ccc5:eeeb:86d3"),
80), true, true),
bind(&ResolverFixture<udp>::onFailure, this, false));
g_io.run();
BOOST_CHECK_EQUAL(m_nFailures, 3);
BOOST_CHECK_EQUAL(m_nSuccesses, 7);
}
BOOST_AUTO_TEST_CASE(SyncUdp)
{
udp::endpoint endpoint;
BOOST_CHECK_NO_THROW(endpoint = UdpResolver::syncResolve("www.named-data.net", "6363"));
NFD_LOG_DEBUG("Resolved to: " << endpoint);
BOOST_CHECK_EQUAL(endpoint.address().is_v4(), true);
BOOST_CHECK_EQUAL(endpoint.port(), 6363);
}
BOOST_AUTO_TEST_SUITE_END()
} // namespace tests
} // namespace nfd