summaryrefslogtreecommitdiffstats
path: root/src/bin/dhcp6/tests/dhcp6_srv_unittest.cc
blob: 64c974b1b548ec6eae95a5981c7f31cc66b42524 (plain)
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// Copyright (C) 2011-2023 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.

#include <config.h>

#include <asiolink/io_address.h>
#include <cc/command_interpreter.h>
#include <config/command_mgr.h>
#include <config_backend/base_config_backend.h>
#include <dhcp6/json_config_parser.h>
#include <dhcp6/tests/dhcp6_test_utils.h>
#include <dhcp6/tests/dhcp6_client.h>
#include <dhcp/tests/pkt_captures.h>
#include <dhcp/dhcp6.h>
#include <dhcp/duid.h>
#include <dhcp/option.h>
#include <dhcp/option6_addrlst.h>
#include <dhcp/option6_ia.h>
#include <dhcp/option6_iaaddr.h>
#include <dhcp/option_int.h>
#include <dhcp/option_int_array.h>
#include <dhcp/option_string.h>
#include <dhcp/iface_mgr.h>
#include <dhcp/docsis3_option_defs.h>
#include <dhcp/tests/iface_mgr_test_config.h>
#include <dhcpsrv/cfgmgr.h>
#include <dhcpsrv/lease_mgr.h>
#include <dhcpsrv/lease_mgr_factory.h>
#include <dhcpsrv/host_mgr.h>
#include <dhcpsrv/utils.h>
#include <stats/stats_mgr.h>
#include <testutils/gtest_utils.h>
#include <util/buffer.h>
#include <util/range_utilities.h>
#include <util/encode/hex.h>

#ifdef HAVE_MYSQL
#include <mysql/testutils/mysql_schema.h>
#endif

#ifdef HAVE_PGSQL
#include <pgsql/testutils/pgsql_schema.h>
#endif

#include <boost/pointer_cast.hpp>
#include <boost/scoped_ptr.hpp>

#include <fstream>
#include <iostream>
#include <sstream>

#include <dirent.h>
#include <unistd.h>

using namespace isc;
using namespace isc::asiolink;
using namespace isc::cb;
using namespace isc::config;
using namespace isc::data;
using namespace isc::dhcp;
using namespace isc::dhcp::test;
using namespace isc::util;
using namespace std;

namespace {

const char* CONFIGS[] = {
    // Configuration 0:
    // - used in advertiseOptions
    "{ \"interfaces-config\": {"
    "  \"interfaces\": [ \"*\" ]"
    "},"
    "\"preferred-lifetime\": 3000,"
    "\"rebind-timer\": 2000, "
    "\"renew-timer\": 1000, "
    "\"subnet6\": [ { "
    "    \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ],"
    "    \"subnet\": \"2001:db8:1::/48\", "
    "    \"interface\": \"eth0\", "
    "    \"option-data\": [ {"
    "          \"name\": \"dns-servers\","
    "          \"data\": \"2001:db8:1234:FFFF::1, 2001:db8:1234:FFFF::2\""
    "        },"
    "        {"
    "          \"name\": \"subscriber-id\","
    "          \"data\": \"1234\","
    "          \"csv-format\": false"
    "        } ]"
    " } ],"
    "\"valid-lifetime\": 4000 }",

    // Configuration 1:
    // - a single subnet
    // - MySQL host data source
    "{ \"interfaces-config\": {"
    "  \"interfaces\": [ \"*\" ]"
    "},"
    "\"hosts-database\": {"
    "    \"type\": \"mysql\","
    "    \"name\": \"keatest\","
    "    \"user\": \"keatest\","
    "    \"password\": \"keatest\""
    "},"
    "\"preferred-lifetime\": 3000,"
    "\"rebind-timer\": 2000, "
    "\"renew-timer\": 1000, "
    "\"subnet6\": [ { "
    "    \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ],"
    "    \"subnet\": \"2001:db8:1::/48\" "
    " } ],"
    "\"valid-lifetime\": 4000 }",

    // Configuration 2:
    // - a single subnet
    // - two global options (one enforced with always-send)
    "{"
    "    \"interfaces-config\": { \"interfaces\": [ \"*\" ] }, "
    "    \"preferred-lifetime\": 3000, "
    "    \"rebind-timer\": 2000, "
    "    \"renew-timer\": 1000, "
    "    \"valid-lifetime\": 4000, "
    "    \"subnet6\": [ {"
    "       \"interface\": \"eth0\", "
    "       \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ], "
    "       \"subnet\": \"2001:db8:1::/48\""
    "    } ], "
    "    \"option-data\": ["
    "    {"
    "        \"name\": \"dns-servers\", "
    "        \"data\": \"2001:db8:1234:FFFF::1\""
    "    }, "
    "    {"
    "        \"name\": \"subscriber-id\", "
    "         \"data\": \"1234\", "
    "         \"always-send\": true"
    "    }"
    "    ]"
    "}",

    // Configuration 3:
    // - a single subnet with one option cancelled with never-send.
    // - two global options (one enforced with always-send)
    "{"
    "    \"interfaces-config\": { \"interfaces\": [ \"*\" ] }, "
    "    \"preferred-lifetime\": 3000, "
    "    \"rebind-timer\": 2000, "
    "    \"renew-timer\": 1000, "
    "    \"valid-lifetime\": 4000, "
    "    \"subnet6\": [ {"
    "       \"interface\": \"eth0\", "
    "       \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ], "
    "       \"subnet\": \"2001:db8:1::/48\", "
    "       \"option-data\": ["
    "       {"
    "           \"name\": \"subscriber-id\", "
    "           \"never-send\": true"
    "       } ]"
    "    } ], "
    "    \"option-data\": ["
    "    {"
    "        \"name\": \"dns-servers\", "
    "        \"data\": \"2001:db8:1234:FFFF::1\""
    "    }, "
    "    {"
    "        \"name\": \"subscriber-id\", "
    "         \"data\": \"1234\", "
    "         \"always-send\": true"
    "    }"
    "    ]"
    "}",

    // Configuration 4:
    // - one subnet with one address pool and one prefix pool
    // - user-contexts defined in subnet and each pool
    "{"
    "    \"subnet6\": [ {"
    "       \"pools\": [ {"
    "           \"pool\": \"2001:db8:1::/64\","
    "           \"user-context\": { \"value\": 42 }"
    "       } ], "
    "       \"pd-pools\": [ {"
    "           \"prefix\": \"2001:db8:abcd::\","
    "           \"prefix-len\": 48,"
    "           \"delegated-len\": 64,"
    "           \"user-context\": { \"type\": \"prefixes\" }"
    "        } ],"
    "       \"subnet\": \"2001:db8:1::/48\","
    "       \"user-context\": { \"secure\": false }"
    "    } ] "
    "}"
};

} // namespace

namespace isc {
namespace dhcp {
namespace test {

/// @brief Remove TLS parameters from configuration element.
void removeTlsParameters(ConstElementPtr elem) {
    if (elem) {
        ElementPtr mutable_elem = boost::const_pointer_cast<Element>(elem);
        std::vector<std::string> tls_parameters= {
            "trust-anchor",
            "cert-file",
            "key-file",
            "cipher-list"
        };
        for (auto const& parameter : tls_parameters) {
            mutable_elem->remove(parameter);
        }
    }
}

void
Dhcpv6SrvTest::loadConfigFile(const string& path) {
    CfgMgr::instance().clear();

    LibDHCP::clearRuntimeOptionDefs();

    IfaceMgrTestConfig test_config(true);

    // Do not use DHCP6_SERVER_PORT here as 0 means don't open sockets.
    NakedDhcpv6Srv srv(0);
    EXPECT_EQ(0, srv.server_port_);

    ConfigBackendDHCPv6Mgr::instance().registerBackendFactory("mysql",
            [](const db::DatabaseConnection::ParameterMap&) -> ConfigBackendDHCPv6Ptr {
                return (ConfigBackendDHCPv6Ptr());
            });

    ConfigBackendDHCPv6Mgr::instance().registerBackendFactory("postgresql",
            [](const db::DatabaseConnection::ParameterMap&) -> ConfigBackendDHCPv6Ptr {
                return (ConfigBackendDHCPv6Ptr());
            });

    // TimerMgr uses IO service to run asynchronous timers.
    TimerMgr::instance()->setIOService(srv.getIOService());

    // CommandMgr uses IO service to run asynchronous socket operations.
    CommandMgr::instance().setIOService(srv.getIOService());

    // LeaseMgr uses IO service to run asynchronous timers.
    LeaseMgr::setIOService(srv.getIOService());

    // HostMgr uses IO service to run asynchronous timers.
    HostMgr::setIOService(srv.getIOService());

    Parser6Context parser;
    ConstElementPtr json;
    ASSERT_NO_THROW(json = parser.parseFile(path, Parser6Context::PARSER_DHCP6));
    ASSERT_TRUE(json);

    // Check the logic next.
    ConstElementPtr dhcp6 = json->get("Dhcp6");
    ASSERT_TRUE(dhcp6);
    ElementPtr mutable_config = boost::const_pointer_cast<Element>(dhcp6);
    mutable_config->set(string("hooks-libraries"), Element::createList());
    // Remove TLS parameters
    ConstElementPtr hosts = dhcp6->get("hosts-database");
    removeTlsParameters(hosts);
    hosts = dhcp6->get("hosts-databases");
    if (hosts) {
        for (auto& host : hosts->listValue()) {
            removeTlsParameters(host);
        }
    }
    ASSERT_NO_THROW(Dhcpv6SrvTest::configure(dhcp6->str(), true, true, true, true));

    LeaseMgrFactory::destroy();
    HostMgr::create();

    TimerMgr::instance()->unregisterTimers();

    // Close the command socket (if it exists).
    CommandMgr::instance().closeCommandSocket();

    // Reset CommandMgr IO service.
    CommandMgr::instance().setIOService(IOServicePtr());

    // Reset LeaseMgr IO service.
    LeaseMgr::setIOService(IOServicePtr());

    // Reset HostMgr IO service.
    HostMgr::setIOService(IOServicePtr());
}

/// @brief Class which handles initialization of database
/// backend for testing configurations.
class DBInitializer {
    public:
        /// @brief Constructor.
        ///
        /// Created database schema.
        DBInitializer() {
#if defined (HAVE_MYSQL)
            db::test::createMySQLSchema();
#endif
#if defined (HAVE_PGSQL)
            db::test::createPgSQLSchema();
#endif
        }

        /// @brief Destructor.
        ///
        /// Destroys database schema.
        ~DBInitializer() {
#if defined (HAVE_MYSQL)
            db::test::destroyMySQLSchema();
#endif
#if defined (HAVE_PGSQL)
            db::test::destroyPgSQLSchema();
#endif
        }
};

void
Dhcpv6SrvTest::checkConfigFiles() {
    DBInitializer dbi;
    IfaceMgrTestConfig test_config(true);
    string path = CFG_EXAMPLES;
    vector<string> examples = {
        "advanced.json",
#if defined (HAVE_MYSQL) && defined (HAVE_PGSQL)
        "all-keys.json",
        "all-keys-netconf.json",
        "all-options.json",
#endif
        "backends.json",
        "classify.json",
        "classify2.json",
        "comments.json",
#if defined (HAVE_MYSQL)
        "config-backend.json",
#endif
        "dhcpv4-over-dhcpv6.json",
        "duid.json",
        "global-reservations.json",
        "ha-hot-standby-server1-with-tls.json",
        "ha-hot-standby-server2.json",
        "hooks.json",
        "iPXE.json",
        "leases-expiration.json",
        "multiple-options.json",
#if defined (HAVE_MYSQL)
        "mysql-reservations.json",
#endif
#if defined (HAVE_PGSQL)
        "pgsql-reservations.json",
#endif
        "reservations.json",
        "several-subnets.json",
        "shared-network.json",
        "simple.json",
        "softwire46.json",
        "stateless.json",
        "tee-times.json",
        "with-ddns.json",
    };
    vector<string> files;
    for (string example : examples) {
        string file = path + "/" + example;
        files.push_back(file);
    }
    for (const auto& file: files) {
        string label("Checking configuration from file: ");
        label += file;
        SCOPED_TRACE(label);
        loadConfigFile(file);
    }
}

} // end of isc::dhcp::test namespace
} // end of isc::dhcp namespace
} // end of isc namespace

namespace {

// This test verifies that incoming SOLICIT can be handled properly when
// there are no subnets configured.
//
// This test sends a SOLICIT and the expected response
// is an ADVERTISE with STATUS_NoAddrsAvail and no address provided in the
// response
TEST_F(NakedDhcpv6SrvTest, SolicitNoSubnet) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check that we get the right NAK
    checkNakResponse(reply, DHCPV6_ADVERTISE, 1234, STATUS_NoAddrsAvail,
                     0, 0);
}

// This test verifies that incoming REQUEST can be handled properly when
// there are no subnets configured.
//
// This test sends a REQUEST and the expected response
// is an REPLY with STATUS_NoAddrsAvail and no address provided in the
// response
TEST_F(NakedDhcpv6SrvTest, RequestNoSubnet) {
    NakedDhcpv6Srv srv(0);

    // Let's create a REQUEST
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, 234, 1500, 3000);

    // with a hint
    IOAddress hint("2001:db8:1:1::dead:beef");
    OptionPtr hint_opt(new Option6IAAddr(D6O_IAADDR, hint, 300, 500));
    ia->addOption(hint_opt);
    req->addOption(ia);
    OptionPtr clientid = generateClientId();
    req->addOption(clientid);

    // server-id is mandatory in REQUEST
    req->addOption(srv.getServerID());

    // Pass it to the server and hope for a REPLY
    Pkt6Ptr reply = srv.processRequest(req);

    // check that we get the right NAK
    checkNakResponse (reply, DHCPV6_REPLY, 1234, STATUS_NoAddrsAvail,
                      0, 0);
}

// This test verifies that incoming RENEW can be handled properly, even when
// no subnets are configured.
//
// This test sends a RENEW and the expected response
// is an REPLY with STATUS_NoBinding and no address provided in the
// response
TEST_F(NakedDhcpv6SrvTest, RenewNoSubnet) {
    NakedDhcpv6Srv srv(0);

    const IOAddress addr("2001:db8:1:1::cafe:babe");
    const uint32_t iaid = 234;

    // Generate client-id also duid_
    OptionPtr clientid = generateClientId();

    // Let's create a RENEW
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, iaid, 1500, 3000);

    OptionPtr renewed_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500));
    ia->addOption(renewed_addr_opt);
    req->addOption(ia);
    req->addOption(clientid);

    // Server-id is mandatory in RENEW
    req->addOption(srv.getServerID());

    // Pass it to the server and hope for a REPLY
    Pkt6Ptr reply = srv.processRenew(req);

    // check that we get the right NAK
    checkNakResponse (reply, DHCPV6_REPLY, 1234, STATUS_NoBinding,
                      0, 0);
}

// This test verifies that incoming RELEASE can be handled properly, even when
// no subnets are configured.
//
// This test sends a RELEASE and the expected response
// is an REPLY with STATUS_NoBinding and no address provided in the
// response
TEST_F(NakedDhcpv6SrvTest, ReleaseNoSubnet) {
    NakedDhcpv6Srv srv(0);

    const IOAddress addr("2001:db8:1:1::cafe:babe");
    const uint32_t iaid = 234;

    // Generate client-id also duid_
    OptionPtr clientid = generateClientId();

    // Let's create a RELEASE
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, iaid, 1500, 3000);

    OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500));
    ia->addOption(released_addr_opt);
    req->addOption(ia);
    req->addOption(clientid);

    // Server-id is mandatory in RELEASE
    req->addOption(srv.getServerID());

    // Pass it to the server and hope for a REPLY
    Pkt6Ptr reply = srv.processRelease(req);

    // check that we get the right NAK
    checkNakResponse (reply, DHCPV6_REPLY, 1234, STATUS_NoBinding, 0, 0);
}

// Test verifies that the Dhcpv6_srv class can be instantiated. It checks a mode
// without open sockets and with sockets opened on a high port (to not require
// root privileges).
TEST_F(Dhcpv6SrvTest, basic) {
    boost::scoped_ptr<Dhcpv6Srv> srv;

    ASSERT_NO_THROW( {
        // Skip opening any sockets
        srv.reset(new NakedDhcpv6Srv(0));
    });
    srv.reset();
    ASSERT_NO_THROW({
        // open an unprivileged port
        srv.reset(new NakedDhcpv6Srv(DHCP6_SERVER_PORT + 10000));
    });
}

// Test checks that DUID is generated properly
TEST_F(Dhcpv6SrvTest, DUID) {

    boost::scoped_ptr<Dhcpv6Srv> srv;
    ASSERT_NO_THROW( {
        srv.reset(new NakedDhcpv6Srv(0));
    });

    OptionPtr srvid = srv->getServerID();
    ASSERT_TRUE(srvid);

    EXPECT_EQ(D6O_SERVERID, srvid->getType());

    OutputBuffer buf(32);
    srvid->pack(buf);

    // length of the actual DUID
    size_t len = buf.getLength() - srvid->getHeaderLen();

    InputBuffer data(buf.getData(), buf.getLength());

    // ignore first four bytes (standard DHCPv6 header)
    data.readUint32();

    uint16_t duid_type = data.readUint16();
    cout << "Duid-type=" << duid_type << endl;
    switch(duid_type) {
    case DUID::DUID_LLT: {
        // DUID must contain at least 6 bytes long MAC
        // + 8 bytes of fixed header
        EXPECT_GE(len, 14);

        uint16_t hw_type = data.readUint16();
        // there's no real way to find out "correct"
        // hardware type
        EXPECT_GT(hw_type, 0);

        // check that timer is counted since 1.1.2000,
        // not from 1.1.1970.
        uint32_t seconds = data.readUint32();
        EXPECT_LE(seconds, DUID_TIME_EPOCH);
        // this test will start failing after 2030.
        // Hopefully we will be at BIND12 by then.

        // MAC must not be zeros
        vector<uint8_t> mac(len-8);
        vector<uint8_t> zeros(len-8, 0);
        data.readVector(mac, len-8);
        EXPECT_TRUE(mac != zeros);
        break;
    }
    case DUID::DUID_EN: {
        // there's not much we can check. Just simple
        // check if it is not all zeros
        vector<uint8_t> content(len-2);
        data.readVector(content, len-2);
        EXPECT_FALSE(isRangeZero(content.begin(), content.end()));
        break;
    }
    case DUID::DUID_LL: {
        // not supported yet
        cout << "Test not implemented for DUID-LL." << endl;

        // No failure here. There's really no way for test LL DUID. It doesn't
        // even make sense to check if that Link Layer is actually present on
        // a physical interface. RFC 8415 says a server should write its DUID
        // and keep it despite hardware changes.
        break;
    }
    case DUID::DUID_UUID: // not supported yet
    default:
        ADD_FAILURE() << "Not supported duid type=" << duid_type << endl;
        break;
    }
}

// This test checks if Option Request Option (ORO) is parsed correctly
// and the requested options are actually assigned.
TEST_F(Dhcpv6SrvTest, advertiseOptions) {

    IfaceMgrTestConfig test_config(true);

    ConstElementPtr x;
    ASSERT_NO_THROW(configure(CONFIGS[0]));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv_.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr adv = srv_.processSolicit(ctx);

    // check if we get response at all
    ASSERT_TRUE(adv);

    // We have not requested any options so they should not
    // be included in the response.
    ASSERT_FALSE(adv->getOption(D6O_SUBSCRIBER_ID));
    ASSERT_FALSE(adv->getOption(D6O_NAME_SERVERS));

    // Let's now request some options. We expect that the server
    // will include them in its response.
    boost::shared_ptr<OptionIntArray<uint16_t> >
        option_oro(new OptionIntArray<uint16_t>(Option::V6, D6O_ORO));
    // Create vector with two option codes.
    std::vector<uint16_t> codes(2);
    codes[0] = D6O_SUBSCRIBER_ID;
    codes[1] = D6O_NAME_SERVERS;
    // Pass this code to option.
    option_oro->setValues(codes);
    // Append ORO to SOLICIT message.
    sol->addOption(option_oro);

    // Need to process SOLICIT again after requesting new option.
    AllocEngine::ClientContext6 ctx2;
    drop = !srv_.earlyGHRLookup(sol, ctx2);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx2, drop);
    ASSERT_FALSE(drop);
    adv = srv_.processSolicit(ctx2);
    ASSERT_TRUE(adv);

    OptionPtr tmp = adv->getOption(D6O_NAME_SERVERS);
    ASSERT_TRUE(tmp);

    boost::shared_ptr<Option6AddrLst> reply_nameservers =
        boost::dynamic_pointer_cast<Option6AddrLst>(tmp);
    ASSERT_TRUE(reply_nameservers);

    Option6AddrLst::AddressContainer addrs = reply_nameservers->getAddresses();
    ASSERT_EQ(2, addrs.size());
    EXPECT_TRUE(addrs[0] == IOAddress("2001:db8:1234:FFFF::1"));
    EXPECT_TRUE(addrs[1] == IOAddress("2001:db8:1234:FFFF::2"));

    // There is a dummy option with code 1000 we requested from a server.
    // Expect that this option is in server's response.
    tmp = adv->getOption(D6O_SUBSCRIBER_ID);
    ASSERT_TRUE(tmp);

    // Check that the option contains valid data (from configuration).
    std::vector<uint8_t> data = tmp->getData();
    ASSERT_EQ(2, data.size());

    const uint8_t foo_expected[] = {
        0x12, 0x34
    };
    EXPECT_EQ(0, memcmp(&data[0], foo_expected, 2));

    // more checks to be implemented
}

// There are no dedicated tests for Dhcpv6Srv::handleIA_NA and Dhcpv6Srv::assignLeases
// as they are indirectly tested in Solicit and Request tests.

// This test verifies that incoming SOLICIT can be handled properly, that an
// ADVERTISE is generated, that the response has an address and that address
// really belongs to the configured pool.
//
// This test sends a SOLICIT without any hint in IA_NA.
//
// constructed very simple SOLICIT message with:
// - client-id option (mandatory)
// - IA option (a request for address, without any addresses)
//
// expected returned ADVERTISE message:
// - copy of client-id
// - server-id
// - IA that includes IAADDR
TEST_F(Dhcpv6SrvTest, SolicitBasic) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                       subnet_->getT2());
    ASSERT_TRUE(addr);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr, addr->getAddress(), Lease::TYPE_NA);

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming SOLICIT can be handled properly, that an
// ADVERTISE is generated, that the response has a prefix and that prefix
// really belongs to the configured pool.
//
// This test sends a SOLICIT without any hint in IA_PD.
//
// constructed very simple SOLICIT message with:
// - client-id option (mandatory)
// - IA option (a request for address, without any addresses)
//
// expected returned ADVERTISE message:
// - copy of client-id
// - server-id
// - IA that includes IAPREFIX
TEST_F(Dhcpv6SrvTest, pdSolicitBasic) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_PD, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAPrefix> prefix = checkIA_PD(reply, 234, subnet_->getT1(),
                                                           subnet_->getT2());
    ASSERT_TRUE(prefix);

    // Check that the assigned prefix is indeed from the configured pool
    checkIAAddr(prefix, prefix->getAddress(), Lease::TYPE_PD);
    EXPECT_EQ(pd_pool_->getLength(), prefix->getLength());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that ADVERTISE returns default lifetimes when
// the client does not add an IAADDR sub option.
TEST_F(Dhcpv6SrvTest, defaultLifetimeSolicit) {
    NakedDhcpv6Srv srv(0);

    subnet_->setPreferred(Triplet<uint32_t>(2000, 3000, 4000));
    subnet_->setValid(Triplet<uint32_t>(3000, 4000, 5000));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Add no IAADDR sub option.

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr, addr->getAddress(), Lease::TYPE_NA,
                subnet_->getPreferred(), subnet_->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that ADVERTISE returns default lifetimes when
// the client adds an IAPREFIX sub option with zero lifetime hints.
TEST_F(Dhcpv6SrvTest, hintZeroLifetimeSolicit) {
    NakedDhcpv6Srv srv(0);

    subnet_->setPreferred(Triplet<uint32_t>(2000, 3000, 4000));
    subnet_->setValid(Triplet<uint32_t>(3000, 4000, 5000));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    OptionPtr iapd = generateIA(D6O_IA_PD, 234, 1500, 3000);
    sol->addOption(iapd);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Add an IAPREFIX sub option with zero preferred and valid lifetimes.
    OptionPtr subopt(new Option6IAPrefix(D6O_IAPREFIX,
                                         IOAddress("::"),
                                         0, 0, 0));
    iapd->addOption(subopt);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_PD was returned and that there's an address included
    boost::shared_ptr<Option6IAPrefix> prefix = checkIA_PD(reply, 234,
                                                           subnet_->getT1(),
                                                           subnet_->getT2());
    ASSERT_TRUE(prefix);

    // Check that the assigned prefix is indeed from the configured pool
    checkIAAddr(prefix, prefix->getAddress(), Lease::TYPE_PD,
                subnet_->getPreferred(), subnet_->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that ADVERTISE returns specified lifetimes when
// the client adds an IAADDR sub option with in-bound lifetime hints.
TEST_F(Dhcpv6SrvTest, hintLifetimeSolicit) {
    NakedDhcpv6Srv srv(0);

    subnet_->setPreferred(Triplet<uint32_t>(2000, 3000, 4000));
    subnet_->setValid(Triplet<uint32_t>(3000, 4000, 5000));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    OptionPtr iana = generateIA(D6O_IA_NA, 234, 1500, 3000);
    sol->addOption(iana);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Add an IAADDR sub option.
    uint32_t hint_pref = 3001;
    uint32_t hint_valid = 3999;
    OptionPtr subopt(new Option6IAAddr(D6O_IAADDR, IOAddress("::"),
                                       hint_pref, hint_valid));
    iana->addOption(subopt);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr, addr->getAddress(), Lease::TYPE_NA,
                hint_pref, hint_valid);

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that ADVERTISE returns min lifetimes when
// the client adds an IAPREFIX sub option with too small lifetime hints.
TEST_F(Dhcpv6SrvTest, minLifetimeSolicit) {
    NakedDhcpv6Srv srv(0);

    subnet_->setPreferred(Triplet<uint32_t>(2000, 3000, 4000));
    subnet_->setValid(Triplet<uint32_t>(3000, 4000, 5000));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    OptionPtr iapd = generateIA(D6O_IA_PD, 234, 1500, 3000);
    sol->addOption(iapd);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Add an IAPREFIX sub option with too small hints so min values will
    // be returned in the ADVERTISE.
    OptionPtr subopt(new Option6IAPrefix(D6O_IAPREFIX,  IOAddress("::"), 0,
                                         1000, 2000));
    iapd->addOption(subopt);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_PD was returned and that there's an address included
    boost::shared_ptr<Option6IAPrefix> prefix = checkIA_PD(reply, 234,
                                                           subnet_->getT1(),
                                                           subnet_->getT2());
    ASSERT_TRUE(prefix);

    // Check that the assigned prefix is indeed from the configured pool
    checkIAAddr(prefix, prefix->getAddress(), Lease::TYPE_PD,
                subnet_->getPreferred().getMin(),
                subnet_->getValid().getMin());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that ADVERTISE returns max lifetimes when
// the client adds an IAADDR sub option with too large lifetime hints.
TEST_F(Dhcpv6SrvTest, maxLifetimeSolicit) {
    NakedDhcpv6Srv srv(0);

    subnet_->setPreferred(Triplet<uint32_t>(2000, 3000, 4000));
    subnet_->setValid(Triplet<uint32_t>(3000, 4000, 5000));

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    OptionPtr iana = generateIA(D6O_IA_NA, 234, 1500, 3000);
    sol->addOption(iana);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Add an IAADDR sub option with too large hints so max values will
    // be returned in the ADVERTISE.
    OptionPtr subopt(new Option6IAAddr(D6O_IAADDR, IOAddress("::"),
                                       5000, 6000));
    iana->addOption(subopt);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr, addr->getAddress(), Lease::TYPE_NA,
                subnet_->getPreferred().getMax(),
                subnet_->getValid().getMax());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming SOLICIT can be handled properly, that an
// ADVERTISE is generated, that the response has an address and that address
// really belongs to the configured pool.
//
// This test sends a SOLICIT with IA_NA that contains a valid hint.
//
// constructed very simple SOLICIT message with:
// - client-id option (mandatory)
// - IA option (a request for address, with an address that belongs to the
//              configured pool, i.e. is valid as hint)
//
// expected returned ADVERTISE message:
// - copy of client-id
// - server-id
// - IA that includes IAADDR
TEST_F(Dhcpv6SrvTest, SolicitHint) {
    NakedDhcpv6Srv srv(0);

    // Let's create a SOLICIT
    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, 234, 1500, 3000);

    // with a valid hint
    IOAddress hint("2001:db8:1:1::dead:beef");
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, hint));
    OptionPtr hint_opt(new Option6IAAddr(D6O_IAADDR, hint, 300, 500));
    ia->addOption(hint_opt);
    sol->addOption(ia);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    OptionPtr tmp = reply->getOption(D6O_IA_NA);
    ASSERT_TRUE(tmp);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr);

    // check that we've got the address we requested
    checkIAAddr(addr, hint, Lease::TYPE_NA);

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming SOLICIT can be handled properly, that an
// ADVERTISE is generated, that the response has an address and that address
// really belongs to the configured pool.
//
// This test sends a SOLICIT with IA_NA that contains an invalid hint.
//
// constructed very simple SOLICIT message with:
// - client-id option (mandatory)
// - IA option (a request for address, with an address that does not
//              belong to the configured pool, i.e. is valid as hint)
//
// expected returned ADVERTISE message:
// - copy of client-id
// - server-id
// - IA that includes IAADDR
TEST_F(Dhcpv6SrvTest, SolicitInvalidHint) {
    NakedDhcpv6Srv srv(0);

    // Let's create a SOLICIT
    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, 234, 1500, 3000);
    IOAddress hint("2001:db8:1::cafe:babe");
    ASSERT_FALSE(subnet_->inPool(Lease::TYPE_NA, hint));
    OptionPtr hint_opt(new Option6IAAddr(D6O_IAADDR, hint, 300, 500));
    ia->addOption(hint_opt);
    sol->addOption(ia);
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr, addr->getAddress(), Lease::TYPE_NA);
    EXPECT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr->getAddress()));

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

/// @todo: Add a test that client sends hint that is in pool, but currently
/// being used by a different client.

// This test checks that the server is offering different addresses to different
// clients in ADVERTISEs. Please note that ADVERTISE is not a guarantee that such
// an address will be assigned. Had the pool was very small and contained only
// 2 addresses, the third client would get the same advertise as the first one
// and this is a correct behavior. It is REQUEST that will fail for the third
// client. ADVERTISE is basically saying "if you send me a request, you will
// probably get an address like this" (there are no guarantees).
TEST_F(Dhcpv6SrvTest, ManySolicits) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr sol1 = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    Pkt6Ptr sol2 = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 2345));
    Pkt6Ptr sol3 = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 3456));

    sol1->setRemoteAddr(IOAddress("fe80::abcd"));
    sol2->setRemoteAddr(IOAddress("fe80::1223"));
    sol3->setRemoteAddr(IOAddress("fe80::3467"));

    sol1->setIface("eth0");
    sol1->setIndex(ETH0_INDEX);
    sol2->setIface("eth0");
    sol2->setIndex(ETH0_INDEX);
    sol3->setIface("eth0");
    sol3->setIndex(ETH0_INDEX);

    sol1->addOption(generateIA(D6O_IA_NA, 1, 1500, 3000));
    sol2->addOption(generateIA(D6O_IA_NA, 2, 1500, 3000));
    sol3->addOption(generateIA(D6O_IA_NA, 3, 1500, 3000));

    // different client-id sizes
    OptionPtr clientid1 = generateClientId(12);
    OptionPtr clientid2 = generateClientId(14);
    OptionPtr clientid3 = generateClientId(16);

    sol1->addOption(clientid1);
    sol2->addOption(clientid2);
    sol3->addOption(clientid3);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx1;
    bool drop = !srv.earlyGHRLookup(sol1, ctx1);
    ASSERT_FALSE(drop);
    srv.initContext(sol1, ctx1, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply1 = srv.processSolicit(ctx1);
    AllocEngine::ClientContext6 ctx2;
    drop = !srv.earlyGHRLookup(sol2, ctx2);
    ASSERT_FALSE(drop);
    srv.initContext(sol2, ctx2, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply2 = srv.processSolicit(ctx2);
    AllocEngine::ClientContext6 ctx3;
    drop = !srv.earlyGHRLookup(sol3, ctx3);
    ASSERT_FALSE(drop);
    srv.initContext(sol3, ctx3, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply3 = srv.processSolicit(ctx3);

    // check if we get response at all
    checkResponse(reply1, DHCPV6_ADVERTISE, 1234);
    checkResponse(reply2, DHCPV6_ADVERTISE, 2345);
    checkResponse(reply3, DHCPV6_ADVERTISE, 3456);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr1 = checkIA_NA(reply1, 1, subnet_->getT1(),
                                                subnet_->getT2());
    boost::shared_ptr<Option6IAAddr> addr2 = checkIA_NA(reply2, 2, subnet_->getT1(),
                                                subnet_->getT2());
    boost::shared_ptr<Option6IAAddr> addr3 = checkIA_NA(reply3, 3, subnet_->getT1(),
                                                subnet_->getT2());
    ASSERT_TRUE(addr1);
    ASSERT_TRUE(addr2);
    ASSERT_TRUE(addr3);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr1, addr1->getAddress(), Lease::TYPE_NA);
    checkIAAddr(addr2, addr2->getAddress(), Lease::TYPE_NA);
    checkIAAddr(addr3, addr3->getAddress(), Lease::TYPE_NA);

    // check DUIDs
    checkServerId(reply1, srv.getServerID());
    checkServerId(reply2, srv.getServerID());
    checkServerId(reply3, srv.getServerID());
    checkClientId(reply1, clientid1);
    checkClientId(reply2, clientid2);
    checkClientId(reply3, clientid3);

    // Finally check that the addresses offered are different
    EXPECT_NE(addr1->getAddress(), addr2->getAddress());
    EXPECT_NE(addr2->getAddress(), addr3->getAddress());
    EXPECT_NE(addr3->getAddress(), addr1->getAddress());
    cout << "Offered address to client1=" << addr1->getAddress() << endl;
    cout << "Offered address to client2=" << addr2->getAddress() << endl;
    cout << "Offered address to client3=" << addr3->getAddress() << endl;
}

// This test verifies that incoming SOLICIT can't reuse an existing lease
// and simply return it, i.e. fake allocation ignores the cache feature.
TEST_F(Dhcpv6SrvTest, SolicitCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress addr("2001:db8:1:1::cafe:babe");
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the address we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr));

    Lease6Ptr used(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, pref, valid,
                              subnet_->getID()));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a SOLICIT.
    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> iaaddr =
        checkIA_NA(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iaaddr);

    // Check the address.
    EXPECT_EQ(addr, iaaddr->getAddress());
    EXPECT_EQ(pref, iaaddr->getPreferred());
    EXPECT_EQ(valid, iaaddr->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming SOLICIT can't reuse an existing lease
// and simply return it, i.e. fake allocation ignores the cache feature.
// Prefix variant.
TEST_F(Dhcpv6SrvTest, pdSolicitCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress prefix("2001:db8:1:2::");
    const uint8_t prefixlen = pd_pool_->getLength();
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the prefix we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix));

    Lease6Ptr used(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, pref, valid,
                              subnet_->getID(), HWAddrPtr(), prefixlen));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a SOLICIT.
    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_PD, 234, 1500, 3000));
    sol->addOption(clientid);

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processSolicit(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_ADVERTISE, 1234);

    // check that IA_PD was returned and that there's a prefix included
    boost::shared_ptr<Option6IAPrefix> iapref =
        checkIA_PD(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iapref);

    // Check the prefix.
    EXPECT_EQ(prefix, iapref->getAddress());
    EXPECT_EQ(prefixlen, iapref->getLength());
    EXPECT_EQ(pref, iapref->getPreferred());
    EXPECT_EQ(valid, iapref->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming REQUEST can be handled properly, that a
// REPLY is generated, that the response has an address and that address
// really belongs to the configured pool.
//
// This test sends a REQUEST with IA_NA that contains a valid hint.
//
// constructed very simple REQUEST message with:
// - client-id option (mandatory)
// - IA option (a request for address, with an address that belongs to the
//              configured pool, i.e. is valid as hint)
//
// expected returned REPLY message:
// - copy of client-id
// - server-id
// - IA that includes IAADDR
TEST_F(Dhcpv6SrvTest, RequestBasic) {
    NakedDhcpv6Srv srv(0);

    // Let's create a REQUEST
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_NA, 234, 1500, 3000);

    // with a valid hint
    IOAddress hint("2001:db8:1:1::dead:beef");
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, hint));
    OptionPtr hint_opt(new Option6IAAddr(D6O_IAADDR, hint, 300, 500));
    ia->addOption(hint_opt);
    req->addOption(ia);
    OptionPtr clientid = generateClientId();
    req->addOption(clientid);

    // server-id is mandatory in REQUEST
    req->addOption(srv.getServerID());

    // Pass it to the server and hope for a REPLY
    Pkt6Ptr reply = srv.processRequest(req);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    OptionPtr tmp = reply->getOption(D6O_IA_NA);
    ASSERT_TRUE(tmp);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr = checkIA_NA(reply, 234,
                                                       subnet_->getT1(),
                                                       subnet_->getT2());
    ASSERT_TRUE(addr);

    // check that we've got the address we requested
    checkIAAddr(addr, hint, Lease::TYPE_NA);

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);

    // check that the lease is really in the database
    Lease6Ptr l = checkLease(duid_, reply->getOption(D6O_IA_NA), addr);
    EXPECT_TRUE(l);
    Lease6Ptr lease = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA,
                                                            addr->getAddress());
    EXPECT_TRUE(LeaseMgrFactory::instance().deleteLease(lease));
}

// This test verifies that incoming REQUEST can be handled properly, that a
// REPLY is generated, that the response has a prefix and that prefix
// really belongs to the configured pool.
//
// This test sends a REQUEST with IA_PD that contains a valid hint.
//
// constructed very simple REQUEST message with:
// - client-id option (mandatory)
// - IA option (a request for address, with an address that belongs to the
//              configured pool, i.e. is valid as hint)
//
// expected returned REPLY message:
// - copy of client-id
// - server-id
// - IA that includes IAPREFIX
TEST_F(Dhcpv6SrvTest, pdRequestBasic) {
    NakedDhcpv6Srv srv(0);

    // Let's create a REQUEST
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    boost::shared_ptr<Option6IA> ia = generateIA(D6O_IA_PD, 234, 1500, 3000);

    // with a valid hint
    IOAddress hint("2001:db8:1:2:f::");
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, hint));
    OptionPtr hint_opt(new Option6IAPrefix(D6O_IAPREFIX, hint, 64, 300, 500));
    ia->addOption(hint_opt);
    req->addOption(ia);
    OptionPtr clientid = generateClientId();
    req->addOption(clientid);

    // server-id is mandatory in REQUEST
    req->addOption(srv.getServerID());

    // Pass it to the server and hope for a REPLY
    Pkt6Ptr reply = srv.processRequest(req);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    OptionPtr tmp = reply->getOption(D6O_IA_PD);
    ASSERT_TRUE(tmp);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAPrefix> prf = checkIA_PD(reply, 234,
                                                        subnet_->getT1(),
                                                        subnet_->getT2());
    ASSERT_TRUE(prf);

    // check that we've got the address we requested
    checkIAAddr(prf, hint, Lease::TYPE_PD);
    EXPECT_EQ(pd_pool_->getLength(), prf->getLength());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);

    // check that the lease is really in the database
    Lease6Ptr l = checkPdLease(duid_, reply->getOption(D6O_IA_PD), prf);
    EXPECT_TRUE(l);
    Lease6Ptr lease = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD,
                                                            prf->getAddress());
    EXPECT_TRUE(LeaseMgrFactory::instance().deleteLease(lease));
}

// This test checks that the server is offering different addresses to different
// clients in REQUEST. Please note that ADVERTISE is not a guarantee that such
// and address will be assigned. Had the pool was very small and contained only
// 2 addresses, the third client would get the same advertise as the first one
// and this is a correct behavior. It is REQUEST that will fail for the third
// client. ADVERTISE is basically saying "if you send me a request, you will
// probably get an address like this" (there are no guarantees).
TEST_F(Dhcpv6SrvTest, ManyRequests) {
    NakedDhcpv6Srv srv(0);

    ASSERT_TRUE(subnet_);

    Pkt6Ptr req1 = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    Pkt6Ptr req2 = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 2345));
    Pkt6Ptr req3 = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 3456));

    req1->setRemoteAddr(IOAddress("fe80::abcd"));
    req2->setRemoteAddr(IOAddress("fe80::1223"));
    req3->setRemoteAddr(IOAddress("fe80::3467"));

    req1->setIface("eth0");
    req1->setIndex(ETH0_INDEX);
    req2->setIface("eth0");
    req2->setIndex(ETH0_INDEX);
    req3->setIface("eth0");
    req3->setIndex(ETH0_INDEX);

    req1->addOption(generateIA(D6O_IA_NA, 1, 1500, 3000));
    req2->addOption(generateIA(D6O_IA_NA, 2, 1500, 3000));
    req3->addOption(generateIA(D6O_IA_NA, 3, 1500, 3000));

    // different client-id sizes
    OptionPtr clientid1 = generateClientId(12);
    OptionPtr clientid2 = generateClientId(14);
    OptionPtr clientid3 = generateClientId(16);

    req1->addOption(clientid1);
    req2->addOption(clientid2);
    req3->addOption(clientid3);

    // server-id is mandatory in REQUEST
    req1->addOption(srv.getServerID());
    req2->addOption(srv.getServerID());
    req3->addOption(srv.getServerID());

    // Pass it to the server and get an advertise
    Pkt6Ptr reply1 = srv.processRequest(req1);
    Pkt6Ptr reply2 = srv.processRequest(req2);
    Pkt6Ptr reply3 = srv.processRequest(req3);

    // check if we get response at all
    checkResponse(reply1, DHCPV6_REPLY, 1234);
    checkResponse(reply2, DHCPV6_REPLY, 2345);
    checkResponse(reply3, DHCPV6_REPLY, 3456);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> addr1 = checkIA_NA(reply1, 1, subnet_->getT1(),
                                                subnet_->getT2());
    boost::shared_ptr<Option6IAAddr> addr2 = checkIA_NA(reply2, 2, subnet_->getT1(),
                                                subnet_->getT2());
    boost::shared_ptr<Option6IAAddr> addr3 = checkIA_NA(reply3, 3, subnet_->getT1(),
                                                subnet_->getT2());

    ASSERT_TRUE(addr1);
    ASSERT_TRUE(addr2);
    ASSERT_TRUE(addr3);

    // Check that the assigned address is indeed from the configured pool
    checkIAAddr(addr1, addr1->getAddress(), Lease::TYPE_NA);
    checkIAAddr(addr2, addr2->getAddress(), Lease::TYPE_NA);
    checkIAAddr(addr3, addr3->getAddress(), Lease::TYPE_NA);

    // check DUIDs
    checkServerId(reply1, srv.getServerID());
    checkServerId(reply2, srv.getServerID());
    checkServerId(reply3, srv.getServerID());
    checkClientId(reply1, clientid1);
    checkClientId(reply2, clientid2);
    checkClientId(reply3, clientid3);

    // Finally check that the addresses offered are different
    EXPECT_NE(addr1->getAddress(), addr2->getAddress());
    EXPECT_NE(addr2->getAddress(), addr3->getAddress());
    EXPECT_NE(addr3->getAddress(), addr1->getAddress());
    cout << "Assigned address to client1=" << addr1->getAddress() << endl;
    cout << "Assigned address to client2=" << addr2->getAddress() << endl;
    cout << "Assigned address to client3=" << addr3->getAddress() << endl;
}

// This test verifies that incoming REQUEST can reuse an existing lease.
TEST_F(Dhcpv6SrvTest, RequestCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress addr("2001:db8:1:1::cafe:babe");
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the address we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr));

    Lease6Ptr used(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, pref, valid,
                              subnet_->getID()));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a REQUEST.
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    req->addOption(createIA(Lease::TYPE_NA, addr, 128, iaid));
    req->addOption(clientid);
    req->addOption(srv.getServerID());

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(req, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(req, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processRequest(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> iaaddr =
        checkIA_NA(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iaaddr);

    // Check the address.
    EXPECT_EQ(addr, iaaddr->getAddress());
    EXPECT_EQ(pref - delta, iaaddr->getPreferred());
    EXPECT_EQ(valid - delta, iaaddr->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming REQUEST can reuse an existing lease.
// Prefix variant.
TEST_F(Dhcpv6SrvTest, pdRequestCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress prefix("2001:db8:1:2::");
    const uint8_t prefixlen = pd_pool_->getLength();
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the prefix we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix));

    Lease6Ptr used(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, pref, valid,
                              subnet_->getID(), HWAddrPtr(), prefixlen));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a REQUEST.
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    req->addOption(createIA(Lease::TYPE_PD, prefix, prefixlen, iaid));
    req->addOption(clientid);
    req->addOption(srv.getServerID());

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(req, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(req, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processRequest(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    // check that IA_PD was returned and that there's a prefix included
    boost::shared_ptr<Option6IAPrefix> iapref =
        checkIA_PD(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iapref);

    // Check the prefix.
    EXPECT_EQ(prefix, iapref->getAddress());
    EXPECT_EQ(prefixlen, iapref->getLength());
    EXPECT_EQ(pref - delta, iapref->getPreferred());
    EXPECT_EQ(valid - delta, iapref->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming (positive) RENEW can be handled properly, that a
// REPLY is generated, that the response has an address and that address
// really belongs to the configured pool and that lease is actually renewed.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_NA that includes IAADDR
// - lease is actually renewed in LeaseMgr
TEST_F(Dhcpv6SrvTest, renewBasic) {
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128);
}

// This test verifies that incoming (positive) PD RENEW can be handled properly,
// that a REPLY is generated, that the response has a prefix and that prefix
// really belongs to the configured pool and that lease is actually renewed.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_PD that includes IAPREFIX
// - lease is actually renewed in LeaseMgr
TEST_F(Dhcpv6SrvTest, pdRenewBasic) {
    testRenewBasic(Lease::TYPE_PD, "2001:db8:1:2::",
                   "2001:db8:1:2::", pd_pool_->getLength());
}

// This test verifies that incoming (invalid) RENEW with an address
// can be handled properly. This has changed with #3565. The server
// is now able to allocate a lease in Renew if it's available.
// Previous testRenewReject is now split into 3 tests.
//
// This test checks the first scenario: There is no lease at all.
// The server will try to assign it. Since it is not used by anyone else,
// the server will assign it. This is convenient for various types
// of recoveries, e.g. when the server lost its database.
TEST_F(Dhcpv6SrvTest, RenewUnknown) {
    // False means that the lease should not be created before renewal attempt
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::abc", "2001:db8:1:1::abc",
                   128, false);
}

// This test checks that a client that renews existing lease, but uses
// a wrong IAID, will be processed correctly. As there is no lease for
// this (duid, type, iaid) tuple, this is treated as a new IA, regardless
// if the client inserted an address that is used in a different IA.
// After #3565 was implemented, the server will attempt to assign a lease.
// The one that client requested is already used with different IAID, so
// it will just pick a different lease. This is the second out of three
// scenarios tests by old RenewReject test.
TEST_F(Dhcpv6SrvTest, RenewWrongIAID) {
    testRenewWrongIAID(Lease::TYPE_NA, IOAddress("2001:db8:1:1::abc"));
}

// This test checks whether client A can renew an address that is currently
// leased by client B. The server should detect that the lease belong to
// someone else and assign a different lease. This is the third out of three
// scenarios tests by old RenewReject test.
TEST_F(Dhcpv6SrvTest, RenewSomeoneElesesLease) {
    testRenewSomeoneElsesLease(Lease::TYPE_NA, IOAddress("2001:db8::1"));
}

// This test verifies that a renewal returns default lifetimes when
// the client adds an IAPREFIX sub option with zero lifetime hints.
TEST_F(Dhcpv6SrvTest, defaultLifetimeRenew) {
    // Defaults are 3000 and 4000.
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, false, 0, 0, 3000, 4000);
}

// This test verifies that a renewal returns specified lifetimes when
// the client adds an IAPREFIX sub option with in-bound lifetime hints.
TEST_F(Dhcpv6SrvTest, hintLifetimeRenew) {
    testRenewBasic(Lease::TYPE_PD, "2001:db8:1:2::",
                   "2001:db8:1:2::", pd_pool_->getLength(),
                   true, false, 2999, 4001, 2999, 4001);
}

// This test verifies that a renewal returns min lifetimes when
// the client adds an IAADDR sub option with too small lifetime hints.
TEST_F(Dhcpv6SrvTest, minLifetimeRenew) {
    // Min values are 2000 and 3000.
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, false, 1000, 2000, 2000, 3000);
}

// This test verifies that a renewal returns max ifetimes when
// the client adds an IAPREFIX sub option with too large lifetime hints.
TEST_F(Dhcpv6SrvTest, maxLifetimeRenew) {
    // Max  values are 4000 and 5000.
    testRenewBasic(Lease::TYPE_PD, "2001:db8:1:2::",
                   "2001:db8:1:2::", pd_pool_->getLength(),
                   true, false, 5000, 6000, 4000, 5000);
}

// This test is a mixed of FqdnDhcpv6SrvTest.processRequestReuseExpiredLease
// and testRenewBasic. The idea is to force the reuse of an expired lease
// so the allocation engine reuseExpiredLease routine is called instead
// of the two other routines computing lease lifetimes createLease6
// and extendLease6.
TEST_F(Dhcpv6SrvTest, reuseExpiredBasic) {
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128, true, true);
}

// This test verifies that an expired reuse returns default lifetimes when
// the client adds an IAADDR sub option with zero lifetime hints.
TEST_F(Dhcpv6SrvTest, defaultLifetimeReuseExpired) {
    // Defaults are 3000 and 4000.
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, true, 0, 0, 3000, 4000);
}

// This test verifies that an expired reuse returns specified lifetimes when
// the client adds an IAADDR sub option with in-bound lifetime hints.
TEST_F(Dhcpv6SrvTest, hintLifetimeReuseExpired) {
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, true, 2999, 4001, 2999, 4001);
}

// This test verifies that an expired reuse returns min lifetimes when
// the client adds an IAADDR sub option with too small lifetime hints.
TEST_F(Dhcpv6SrvTest, minLifetimeReuseExpired) {
    // Min values are 2000 and 3000.
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, true, 1000, 2000, 2000, 3000);
}

// This test verifies that an expired reuse returns max lifetimes when
// the client adds an IAADDR sub option with too large lifetime hints.
TEST_F(Dhcpv6SrvTest, maxLifetimeReuseExpired) {
    // Max  values are 4000 and 5000.
    testRenewBasic(Lease::TYPE_NA, "2001:db8:1:1::cafe:babe",
                   "2001:db8:1:1::cafe:babe", 128,
                   true, true, 5000, 6000, 4000, 5000);
}

// This test verifies that incoming RENEW can reuse an existing lease.
TEST_F(Dhcpv6SrvTest, RenewCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress addr("2001:db8:1:1::cafe:babe");
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the address we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr));

    Lease6Ptr used(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, pref, valid,
                              subnet_->getID()));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a RENEW.
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    req->addOption(createIA(Lease::TYPE_NA, addr, 128, iaid));
    req->addOption(clientid);
    req->addOption(srv.getServerID());

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(req, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(req, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processRenew(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    // check that IA_NA was returned and that there's an address included
    boost::shared_ptr<Option6IAAddr> iaaddr =
        checkIA_NA(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iaaddr);

    // Check the address.
    EXPECT_EQ(addr, iaaddr->getAddress());
    EXPECT_EQ(pref - delta, iaaddr->getPreferred());
    EXPECT_EQ(valid - delta, iaaddr->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming RENEW can reuse an existing lease.
// Prefix variant.
TEST_F(Dhcpv6SrvTest, pdRenewCache) {
    NakedDhcpv6Srv srv(0);

    // Enable lease reuse.
    subnet_->setCacheThreshold(.1);

    const IOAddress prefix("2001:db8:1:2::");
    const uint8_t prefixlen = pd_pool_->getLength();
    const uint32_t iaid = 234;
    const uint32_t pref = subnet_->getPreferred();
    const uint32_t valid = subnet_->getValid();
    const int delta = 100;
    const time_t timestamp = time(NULL) - delta;

    // Generate client-id also duid_.
    OptionPtr clientid = generateClientId();

    // Check that the prefix we are about to use is indeed in pool.
    ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix));

    Lease6Ptr used(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, pref, valid,
                              subnet_->getID(), HWAddrPtr(), prefixlen));
    used->cltt_ = timestamp;
    ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));

    // Check that the lease is really in the database.
    Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix);
    ASSERT_TRUE(l);

    // Check that preferred, valid and cltt really set.
    // Constructed lease looks as if it was assigned 100 seconds ago.
    EXPECT_EQ(l->preferred_lft_, pref);
    EXPECT_EQ(l->valid_lft_, valid);
    EXPECT_EQ(l->cltt_, timestamp);

    // Let's create a RENEW.
    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234));
    req->setRemoteAddr(IOAddress("fe80::abcd"));
    req->setIface("eth0");
    req->setIndex(ETH0_INDEX);
    req->addOption(createIA(Lease::TYPE_PD, prefix, prefixlen, iaid));
    req->addOption(clientid);
    req->addOption(srv.getServerID());

    // Pass it to the server and get an advertise
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv.earlyGHRLookup(req, ctx);
    ASSERT_FALSE(drop);
    srv.initContext(req, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr reply = srv.processRenew(ctx);

    // check if we get response at all
    checkResponse(reply, DHCPV6_REPLY, 1234);

    // check that IA_PD was returned and that there's a prefix included
    boost::shared_ptr<Option6IAPrefix> iapref =
        checkIA_PD(reply, 234, subnet_->getT1(), subnet_->getT2());
    ASSERT_TRUE(iapref);

    // Check the prefix.
    EXPECT_EQ(prefix, iapref->getAddress());
    EXPECT_EQ(prefixlen, iapref->getLength());
    EXPECT_EQ(pref - delta, iapref->getPreferred());
    EXPECT_EQ(valid - delta, iapref->getValid());

    // check DUIDs
    checkServerId(reply, srv.getServerID());
    checkClientId(reply, clientid);
}

// This test verifies that incoming (positive) RELEASE with address can be
// handled properly, that a REPLY is generated, that the response has status
// code and that the lease is indeed removed from the database.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_NA that does not include an IAADDR
// - lease is actually removed from LeaseMgr
// - assigned-nas stats counter is properly decremented
TEST_F(Dhcpv6SrvTest, ReleaseBasic) {
    testReleaseBasic(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                     IOAddress("2001:db8:1:1::cafe:babe"), LEASE_AFFINITY_DISABLED);
}

// This test verifies that incoming (positive) RELEASE with address can be
// handled properly, that a REPLY is generated, that the response has status
// code and that the lease is expired and not removed from the database.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_NA that does not include an IAADDR
// - lease is actually expired instead of being removed from LeaseMgr
// - assigned-nas stats counter is unchanged
TEST_F(Dhcpv6SrvTest, ReleaseBasicNoDelete) {
    testReleaseBasic(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                     IOAddress("2001:db8:1:1::cafe:babe"), LEASE_AFFINITY_ENABLED);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a SOLICIT does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, ReleaseBasicNoDeleteSolicit) {
    testReleaseNoDelete(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                        DHCPV6_SOLICIT);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a REQUEST does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, ReleaseBasicNoDeleteRequest) {
    testReleaseNoDelete(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                        DHCPV6_REQUEST);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a RENEW does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, ReleaseBasicNoDeleteRenew) {
    testReleaseNoDelete(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                        DHCPV6_REQUEST);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a REBIND does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, ReleaseBasicNoDeleteRebind) {
    testReleaseNoDelete(Lease::TYPE_NA, IOAddress("2001:db8:1:1::cafe:babe"),
                        DHCPV6_REBIND);
}

// This test verifies that incoming (positive) RELEASE with prefix can be
// handled properly, that a REPLY is generated, that the response has
// status code and that the lease is indeed removed from the database.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_PD that does not include an IAPREFIX
// - lease is actually removed from LeaseMgr
// - assigned-pds stats counter is properly decremented
TEST_F(Dhcpv6SrvTest, pdReleaseBasic) {
    testReleaseBasic(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                     IOAddress("2001:db8:1:2::"), LEASE_AFFINITY_DISABLED);
}

// This test verifies that incoming (positive) RELEASE with prefix can be
// handled properly, that a REPLY is generated, that the response has
// status code and that the lease is expired and not removed from the database.
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_PD that does not include an IAPREFIX
// - lease is actually expired instead of being removed from LeaseMgr
// - assigned-pds stats counter is unchanged
TEST_F(Dhcpv6SrvTest, pdReleaseBasicNoDelete) {
    testReleaseBasic(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                     IOAddress("2001:db8:1:2::"), LEASE_AFFINITY_ENABLED);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a SOLICIT does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, pdReleaseBasicNoDeleteSolicit) {
    testReleaseNoDelete(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                        DHCPV6_REQUEST);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a REQUEST does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, pdReleaseBasicNoDeleteRequest) {
    testReleaseNoDelete(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                        DHCPV6_REQUEST);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a RENEW does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, pdReleaseBasicNoDeleteRenew) {
    testReleaseNoDelete(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                        DHCPV6_REQUEST);
}

// This test verifies that after a RELEASE which expired a lease the response
// to a REBIND does not get zero lifetimes.
TEST_F(Dhcpv6SrvTest, pdReleaseBasicNoDeleteRebind) {
    testReleaseNoDelete(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"),
                        DHCPV6_REBIND);
}

// This test verifies that incoming (invalid) RELEASE with an address
// can be handled properly.
//
// This test checks 3 scenarios:
// 1. there is no such lease at all
// 2. there is such a lease, but it is assigned to a different IAID
// 3. there is such a lease, but it belongs to a different client
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_NA that includes STATUS-CODE
// - No lease in LeaseMgr
// - assigned-nas stats counter is properly not decremented
TEST_F(Dhcpv6SrvTest, ReleaseReject) {
    testReleaseReject(Lease::TYPE_NA, IOAddress("2001:db8:1:1::dead"));
}

// This test verifies that incoming (invalid) RELEASE with a prefix can be
// handled properly.
//
// This test checks 3 scenarios:
// 1. there is no such lease at all
// 2. there is such a lease, but it is assigned to a different IAID
// 3. there is such a lease, but it belongs to a different client
//
// expected:
// - returned REPLY message has copy of client-id
// - returned REPLY message has server-id
// - returned REPLY message has IA_PD that includes STATUS-CODE
// - No lease in LeaseMgr
// - assigned-pds stats counter is properly not decremented
TEST_F(Dhcpv6SrvTest, pdReleaseReject) {
    testReleaseReject(Lease::TYPE_PD, IOAddress("2001:db8:1:2::"));
}

// This test verifies if the sanityCheck() really checks options presence.
TEST_F(Dhcpv6SrvTest, sanityCheck) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));

    // Set link-local sender address, so appropriate subnet can be
    // selected for this packet.
    pkt->setRemoteAddr(IOAddress("fe80::abcd"));

    // client-id is optional for information-request, so
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::OPTIONAL, Dhcpv6Srv::OPTIONAL));

    // empty packet, no client-id, no server-id
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN),
                 RFCViolation);

    // This doesn't make much sense, but let's check it for completeness
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::FORBIDDEN));

    OptionPtr clientid = generateClientId();
    pkt->addOption(clientid);

    // client-id is mandatory, server-id is forbidden (as in SOLICIT or REBIND)
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN));

    pkt->addOption(srv.getServerID());

    // both client-id and server-id are mandatory (as in REQUEST, RENEW, RELEASE, DECLINE)
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::MANDATORY));

    // sane section ends here, let's do some negative tests as well

    pkt->addOption(clientid);
    pkt->addOption(clientid);

    // with more than one client-id it should throw, no matter what
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::OPTIONAL, Dhcpv6Srv::OPTIONAL),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::OPTIONAL),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::OPTIONAL, Dhcpv6Srv::MANDATORY),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::MANDATORY),
                 RFCViolation);

    pkt->delOption(D6O_CLIENTID);
    pkt->delOption(D6O_CLIENTID);

    // again we have only one client-id

    // let's try different type of insanity - several server-ids
    pkt->addOption(srv.getServerID());
    pkt->addOption(srv.getServerID());

    // with more than one server-id it should throw, no matter what
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::OPTIONAL, Dhcpv6Srv::OPTIONAL),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::OPTIONAL),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::OPTIONAL, Dhcpv6Srv::MANDATORY),
                 RFCViolation);
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::MANDATORY),
                 RFCViolation);
}

// This test verifies that sanity checking against valid and invalid
// client ids
TEST_F(Dhcpv6SrvTest, sanityCheckClientId) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));

    // Case 1: completely empty (size 0)
    pkt->addOption(generateBinaryOption(D6O_CLIENTID, 0));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN),
                 RFCViolation);

    // Case 2: too short (at the very least 3 bytes are needed)
    pkt->delOption(D6O_CLIENTID);
    pkt->addOption(generateBinaryOption(D6O_CLIENTID, 2));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN),
                 RFCViolation);

    // Case 3: the shortest DUID possible (3 bytes) is ok:
    pkt->delOption(D6O_CLIENTID);
    pkt->addOption(generateBinaryOption(D6O_CLIENTID, 3));
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN));

    // Case 4: longest possible is 128, should be ok
    pkt->delOption(D6O_CLIENTID);
    pkt->addOption(generateBinaryOption(D6O_CLIENTID, DUID::MAX_DUID_LEN));
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN));

    // Case 5: too long
    pkt->delOption(D6O_CLIENTID);
    pkt->addOption(generateBinaryOption(D6O_CLIENTID, DUID::MAX_DUID_LEN + 1));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::MANDATORY, Dhcpv6Srv::FORBIDDEN),
                 RFCViolation);
}

// This test verifies that sanity checking against valid and invalid
// server ids
TEST_F(Dhcpv6SrvTest, sanityCheckServerId) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));

    // Case 1: completely empty (size 0)
    pkt->addOption(generateBinaryOption(D6O_SERVERID, 0));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::MANDATORY),
                 RFCViolation);

    // Case 2: too short (at the very least 3 bytes are needed)
    pkt->delOption(D6O_SERVERID);
    pkt->addOption(generateBinaryOption(D6O_SERVERID, 2));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::MANDATORY),
                 RFCViolation);

    // Case 3: the shortest DUID possible (3 bytes) is ok:
    pkt->delOption(D6O_SERVERID);
    pkt->addOption(generateBinaryOption(D6O_SERVERID, 3));
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::MANDATORY));

    // Case 4: longest possible is 128, should be ok
    pkt->delOption(D6O_SERVERID);
    pkt->addOption(generateBinaryOption(D6O_SERVERID, DUID::MAX_DUID_LEN));
    EXPECT_NO_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::MANDATORY));

    // Case 5: too long
    pkt->delOption(D6O_SERVERID);
    pkt->addOption(generateBinaryOption(D6O_SERVERID, DUID::MAX_DUID_LEN + 1));
    EXPECT_THROW(srv.sanityCheck(pkt, Dhcpv6Srv::FORBIDDEN, Dhcpv6Srv::MANDATORY),
                 RFCViolation);
}

// Check that the server is testing if server identifier received in the
// query, matches server identifier used by the server.
TEST_F(Dhcpv6SrvTest, testServerID) {
    NakedDhcpv6Srv srv(0);

    Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REQUEST, 1234));
    std::vector<uint8_t> bin;

    // duid_llt constructed with: time = 0, macaddress = 00:00:00:00:00:00
    // it's necessary to generate server identifier option
    isc::util::encode::decodeHex("0001000100000000000000000000", bin);
    // Now create server identifier option
    OptionPtr serverid = OptionPtr(new Option(Option::V6, D6O_SERVERID, bin));

    // Server identifier option is MANDATORY in Request message.
    // Add server identifier option with different value from one that
    // server is using.
    req->addOption(serverid);

    // Message should be dropped
    EXPECT_FALSE(srv.testServerID(req));

    // Delete server identifier option and add new one, with same value as
    // server's server identifier.
    req->delOption(D6O_SERVERID);
    req->addOption(srv.getServerID());

    // With proper server identifier we expect true
    EXPECT_TRUE(srv.testServerID(req));

    // server-id MUST NOT appear in Solicit, so check if server is
    // not dropping a message without server id.
    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));

    EXPECT_TRUE(srv.testServerID(req));
}

// Test that some messages are discarded by the server if they are sent to
// unicast address.
TEST_F(Dhcpv6SrvTest, testUnicast) {
    NakedDhcpv6Srv srv(0);
    // Explicitly list client's message types which must be discarded if
    // sent to unicast address.
    const uint8_t not_allowed_unicast[] = {
        DHCPV6_SOLICIT,
        DHCPV6_CONFIRM,
        DHCPV6_REBIND,
        DHCPV6_INFORMATION_REQUEST
    };
    // Iterate over these messages and make sure they are discarded.
    for (int i = 0; i < sizeof(not_allowed_unicast); ++i) {
        Pkt6Ptr msg = Pkt6Ptr(new Pkt6(not_allowed_unicast[i], 1234));
        msg->setLocalAddr(IOAddress("2001:db8:1::1"));
        EXPECT_FALSE(srv.testUnicast(msg))
            << "server accepts message type "
            << static_cast<int>(not_allowed_unicast[i])
            << "being sent to unicast address; this message should"
            " be discarded according to section 18.4 of RFC 8415";
    }
    // Explicitly list client/relay message types which are allowed to
    // be sent to unicast.
    const uint8_t allowed_unicast[] = {
        DHCPV6_REQUEST,
        DHCPV6_RENEW,
        DHCPV6_RELEASE,
        DHCPV6_DECLINE,
        DHCPV6_RELAY_FORW
    };
    // Iterate over these messages and check that they are accepted being
    // sent to unicast.
    for (int i = 0; i < sizeof(allowed_unicast); ++i) {
        Pkt6Ptr msg = Pkt6Ptr(new Pkt6(allowed_unicast[i], 1234));
        msg->setLocalAddr(IOAddress("2001:db8:1::1"));
        msg->addOption(srv.getServerID());
        EXPECT_TRUE(srv.testUnicast(msg))
            << "server doesn't accept message type "
            << static_cast<int>(allowed_unicast[i])
            << "being sent to unicast address";
    }
}

// This test verifies if selectSubnet() selects proper subnet for a given
// source address.
TEST_F(Dhcpv6SrvTest, selectSubnetAddr) {
    NakedDhcpv6Srv srv(0);

    auto subnet1 = Subnet6::create(IOAddress("2001:db8:1::"), 48, 1, 2, 3, 4);
    auto subnet2 = Subnet6::create(IOAddress("2001:db8:2::"), 48, 1, 2, 3, 4);
    auto subnet3 = Subnet6::create(IOAddress("2001:db8:3::"), 48, 1, 2, 3, 4);

    // CASE 1: We have only one subnet defined and we received local traffic.
    // The only available subnet used to be picked, but not anymore
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    pkt->setRemoteAddr(IOAddress("fe80::abcd"));

    // The clause for assuming local subnet if there is only one subnet is was
    // removed.
    bool drop = false;
    EXPECT_FALSE(srv.selectSubnet(pkt, drop));
    EXPECT_FALSE(drop);

    // CASE 2: We have only one subnet defined and we received relayed traffic.
    // We should NOT select it.

    // Identical steps as in case 1, but repeated for clarity
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();
    pkt->setRemoteAddr(IOAddress("2001:db8:abcd::2345"));
    Subnet6Ptr selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);

    // CASE 3: We have three subnets defined and we received local traffic.
    // Nothing should be selected.
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    pkt->setRemoteAddr(IOAddress("fe80::abcd"));
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);

    // CASE 4: We have three subnets defined and we received relayed traffic
    // that came out of subnet 2. We should select subnet2 then
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    pkt->setRemoteAddr(IOAddress("2001:db8:2::baca"));
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // CASE 5: We have three subnets defined and we received relayed traffic
    // that came out of undefined subnet. We should select nothing
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    pkt->setRemoteAddr(IOAddress("2001:db8:4::baca"));
    EXPECT_FALSE(srv.selectSubnet(pkt, drop));
    EXPECT_FALSE(drop);
}

// This test verifies if selectSubnet() selects proper subnet for a given
// network interface name.
TEST_F(Dhcpv6SrvTest, selectSubnetIface) {
    NakedDhcpv6Srv srv(0);

    auto subnet1 = Subnet6::create(IOAddress("2001:db8:1::"), 48, 1, 2, 3, 4);
    auto subnet2 = Subnet6::create(IOAddress("2001:db8:2::"), 48, 1, 2, 3, 4);
    auto subnet3 = Subnet6::create(IOAddress("2001:db8:3::"), 48, 1, 2, 3, 4);

    subnet1->setIface("eth0");
    subnet3->setIface("wifi1");

    // CASE 1: We have only one subnet defined and it is available via eth0.
    // Packet came from eth0. The only available subnet should be selected
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    pkt->setIface("eth0");
    pkt->setIndex(ETH0_INDEX);

    bool drop = false;
    Subnet6Ptr selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet1);
    EXPECT_FALSE(drop);

    // CASE 2: We have only one subnet defined and it is available via eth0.
    // Packet came from eth1. We should not select it
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();

    pkt->setIface("eth1");
    pkt->setIndex(ETH1_INDEX);

    selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);

    // CASE 3: We have only 3 subnets defined, one over eth0, one remote and
    // one over wifi1.
    // Packet came from eth1. We should not select it
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();

    pkt->setIface("eth0");
    pkt->setIndex(ETH0_INDEX);
    EXPECT_EQ(subnet1, srv.selectSubnet(pkt, drop));
    EXPECT_FALSE(drop);

    pkt->setIface("eth3"); // no such interface
    pkt->setIndex(3);
    EXPECT_EQ(Subnet6Ptr(), srv.selectSubnet(pkt, drop)); // nothing selected
    EXPECT_FALSE(drop);

    pkt->setIface("wifi1");
    pkt->setIndex(101); // arbitrary value
    EXPECT_EQ(subnet3, srv.selectSubnet(pkt, drop));
    EXPECT_FALSE(drop);
}

// This test verifies if selectSubnet() selects proper subnet for a given
// linkaddr in RELAY-FORW message
TEST_F(Dhcpv6SrvTest, selectSubnetRelayLinkaddr) {
    NakedDhcpv6Srv srv(0);

    auto subnet1 = Subnet6::create(IOAddress("2001:db8:1::"), 48, 1, 2, 3, 4);
    auto subnet2 = Subnet6::create(IOAddress("2001:db8:2::"), 48, 1, 2, 3, 4);
    auto subnet3 = Subnet6::create(IOAddress("2001:db8:3::"), 48, 1, 2, 3, 4);

    Pkt6::RelayInfo relay;
    relay.linkaddr_ = IOAddress("2001:db8:2::1234");
    relay.peeraddr_ = IOAddress("fe80::1");

    // CASE 1: We have only one subnet defined and we received relayed traffic.
    // The only available subnet should NOT be selected.
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    pkt->relay_info_.push_back(relay);

    bool drop = false;
    Subnet6Ptr selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);

    // CASE 2: We have three subnets defined and we received relayed traffic
    // that came out of subnet 2. We should select subnet2 then
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // Source of the packet should have no meaning. Selection is based
    // on linkaddr field in the relay
    pkt->setRemoteAddr(IOAddress("2001:db8:1::baca"));
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // But not when this linkaddr field is not usable.
    Pkt6::RelayInfo relay2;
    relay2.peeraddr_ = IOAddress("fe80::1");
    pkt->relay_info_.clear();
    pkt->relay_info_.push_back(relay2);
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet1);
    EXPECT_FALSE(drop);

    // CASE 3: We have three subnets defined and we received relayed traffic
    // that came out a layer 2 relay on subnet 2. We should select subnet2 then
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    pkt->relay_info_.clear();
    pkt->relay_info_.push_back(relay);
    relay2.hop_count_ = 1;
    pkt->relay_info_.push_back(relay2);
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // The number of level 2 relay doesn't matter
    pkt->relay_info_.clear();
    Pkt6::RelayInfo relay20;
    relay20.peeraddr_ = IOAddress("fe80::1");
    pkt->relay_info_.push_back(relay20);
    Pkt6::RelayInfo relay21;
    relay21.peeraddr_ = IOAddress("fe80::1");
    relay21.hop_count_ = 1;
    pkt->relay_info_.push_back(relay21);
    relay.hop_count_ = 2;
    pkt->relay_info_.push_back(relay);
    Pkt6::RelayInfo relay22;
    relay22.peeraddr_ = IOAddress("fe80::1");
    relay22.hop_count_ = 3;
    pkt->relay_info_.push_back(relay22);
    Pkt6::RelayInfo relay23;
    relay23.peeraddr_ = IOAddress("fe80::1");
    relay23.hop_count_ = 4;
    pkt->relay_info_.push_back(relay23);
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // Only the inner/last relay with a usable address matters
    pkt->relay_info_.clear();
    pkt->relay_info_.push_back(relay20);
    pkt->relay_info_.push_back(relay21);
    pkt->relay_info_.push_back(relay);
    pkt->relay_info_.push_back(relay22);
    Pkt6::RelayInfo relay3;
    relay3.linkaddr_ = IOAddress("2001:db8:3::1234");
    relay3.peeraddr_ = IOAddress("fe80::1");
    relay3.hop_count_ = 4;
    pkt->relay_info_.push_back(relay3);
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet3);
    EXPECT_FALSE(drop);

    // CASE 4: We have three subnets defined and we received relayed traffic
    // that came out of undefined subnet. We should select nothing
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();
    pkt->relay_info_.clear();
    relay.hop_count_ = 0;
    relay.linkaddr_ = IOAddress("2001:db8:4::1234");
    pkt->relay_info_.push_back(relay);
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);
}

// This test verifies if selectSubnet() selects proper subnet for a given
// interface-id option
TEST_F(Dhcpv6SrvTest, selectSubnetRelayInterfaceId) {
    NakedDhcpv6Srv srv(0);

    auto subnet1 = Subnet6::create(IOAddress("2001:db8:1::"), 48, 1, 2, 3, 4);
    auto subnet2 = Subnet6::create(IOAddress("2001:db8:2::"), 48, 1, 2, 3, 4);
    auto subnet3 = Subnet6::create(IOAddress("2001:db8:3::"), 48, 1, 2, 3, 4);

    subnet1->setInterfaceId(generateInterfaceId("relay1"));
    subnet2->setInterfaceId(generateInterfaceId("relay2"));

    // CASE 1: We have only one subnet defined and it is for interface-id "relay1"
    // Packet came with interface-id "relay2". We should not select subnet1
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1); // just a single subnet
    CfgMgr::instance().commit();

    Pkt6Ptr pkt = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    Pkt6::RelayInfo relay;
    relay.linkaddr_ = IOAddress("2001:db8:2::1234");
    relay.peeraddr_ = IOAddress("fe80::1");
    OptionPtr opt = generateInterfaceId("relay2");
    relay.options_.insert(make_pair(opt->getType(), opt));
    pkt->relay_info_.push_back(relay);

    // There is only one subnet configured and we are outside of that subnet
    bool drop = false;
    Subnet6Ptr selected = srv.selectSubnet(pkt, drop);
    EXPECT_FALSE(selected);
    EXPECT_FALSE(drop);

    // CASE 2: We have only one subnet defined and it is for interface-id "relay2"
    // Packet came with interface-id "relay2". We should select it
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2); // just a single subnet
    CfgMgr::instance().commit();
    selected = srv.selectSubnet(pkt, drop);
    EXPECT_EQ(selected, subnet2);
    EXPECT_FALSE(drop);

    // CASE 3: We have only 3 subnets defined: one remote for interface-id "relay1",
    // one remote for interface-id "relay2" and third local
    // packet comes with interface-id "relay2". We should select subnet2
    CfgMgr::instance().clear();
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet1);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet2);
    CfgMgr::instance().getStagingCfg()->getCfgSubnets6()->add(subnet3);
    CfgMgr::instance().commit();

    EXPECT_EQ(subnet2, srv.selectSubnet(pkt, drop));
    EXPECT_FALSE(drop);
}

// Checks if server responses are sent to the proper port.
TEST_F(Dhcpv6SrvTest, portsClientPort) {
    NakedDhcpv6Srv srv(0);

    // Enforce a specific client port value.
    EXPECT_EQ(0, srv.client_port_);
    srv.client_port_ = 1234;

    // Let's create a simple SOLICIT
    Pkt6Ptr sol = PktCaptures::captureSimpleSolicit();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Get Advertise...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);

    // This is sent back to client directly, should be port 546
    EXPECT_EQ(srv.client_port_, adv->getRemotePort());
}

// Checks if server responses are sent to the proper port.
TEST_F(Dhcpv6SrvTest, portsServerPort) {
    // Create the test server in test mode.
    NakedDhcpv6Srv srv(0);

    // Enforce a specific server port value.
    EXPECT_EQ(0, srv.server_port_);
    srv.server_port_ = 1234;

    // Let's create a simple SOLICIT
    Pkt6Ptr sol = PktCaptures::captureSimpleSolicit();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Get Advertise...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);

    // Verify the local port: it must be the server port.
    EXPECT_EQ(srv.server_port_, adv->getLocalPort());
}

// Checks if server responses are sent to the proper port.
TEST_F(Dhcpv6SrvTest, portsDirectTraffic) {
    NakedDhcpv6Srv srv(0);

    // Let's create a simple SOLICIT
    Pkt6Ptr sol = PktCaptures::captureSimpleSolicit();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Get Advertise...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);

    // This is sent back to client directly, should be port 546
    EXPECT_EQ(DHCP6_CLIENT_PORT, adv->getRemotePort());
}

// Checks if server responses are sent to the proper port.
TEST_F(Dhcpv6SrvTest, portsRelayedTraffic) {
    NakedDhcpv6Srv srv(0);

    // Let's create a simple SOLICIT
    Pkt6Ptr sol = PktCaptures::captureRelayedSolicit();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Get Advertise...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);

    // This is sent back to relay, so port is 547
    EXPECT_EQ(DHCP6_SERVER_PORT, adv->getRemotePort());
}

// Test that the server processes relay-source-port option correctly.
TEST_F(Dhcpv6SrvTest, relaySourcePort) {
    NakedDhcpv6Srv srv(0);

    string config =
        "{"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, srv));

    // Create a solicit
    Pkt6Ptr sol(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Pretend the packet came via one relay.
    Pkt6::RelayInfo relay;
    relay.msg_type_ = DHCPV6_RELAY_FORW;
    relay.hop_count_ = 1;
    relay.linkaddr_ = IOAddress("2001:db8::1");
    relay.peeraddr_ = IOAddress("fe80::1");

    // Set the source port
    sol->setRemotePort(1234);

    // Simulate that we have received that traffic
    sol->pack();

    // Add a relay-source-port option
    OptionBuffer zero(2, 0);
    OptionPtr opt(new Option(Option::V6, D6O_RELAY_SOURCE_PORT, zero));
    relay.options_.insert(make_pair(opt->getType(), opt));
    sol->relay_info_.push_back(relay);

    // Simulate that we have received that traffic
    sol->pack();
    EXPECT_EQ(DHCPV6_RELAY_FORW, sol->getBuffer()[0]);
    Pkt6Ptr query(new Pkt6(static_cast<const uint8_t*>
                           (sol->getBuffer().getData()),
                           sol->getBuffer().getLength()));
    query->setRemoteAddr(sol->getRemoteAddr());
    query->setRemotePort(sol->getRemotePort());
    query->setLocalAddr(sol->getLocalAddr());
    query->setLocalPort(sol->getLocalPort());
    query->setIface(sol->getIface());
    query->setIndex(sol->getIndex());

    srv.fakeReceive(query);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Check trace of processing
    EXPECT_EQ(1234, query->getRemotePort());
    ASSERT_EQ(1, query->relay_info_.size());
    EXPECT_TRUE(query->getRelayOption(D6O_RELAY_SOURCE_PORT, 0));

    // Get Response...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr rsp = srv.fake_sent_.front();
    ASSERT_TRUE(rsp);

    // Check it
    EXPECT_EQ(1234, rsp->getRemotePort());
    EXPECT_EQ(DHCPV6_RELAY_REPL, rsp->getBuffer()[0]);

    // Get Advertise
    Pkt6Ptr adv(new Pkt6(static_cast<const uint8_t*>
                         (rsp->getBuffer().getData()),
                         rsp->getBuffer().getLength()));
    adv->unpack();

    // Check it
    EXPECT_EQ(DHCPV6_ADVERTISE, adv->getType());
    ASSERT_EQ(1, adv->relay_info_.size());
    EXPECT_TRUE(adv->getRelayOption(D6O_RELAY_SOURCE_PORT, 0));
}

// Checks effect of persistency (aka always-send) flag on the ORO
TEST_F(Dhcpv6SrvTest, prlPersistency) {
    IfaceMgrTestConfig test_config(true);

    ASSERT_NO_THROW(configure(CONFIGS[2]));

    // Create a packet with enough to select the subnet and go through
    // the SOLICIT processing
    Pkt6Ptr sol(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Create and add an ORO for another option
    OptionUint16ArrayPtr oro(new OptionUint16Array(Option::V6, D6O_ORO));
    ASSERT_TRUE(oro);
    oro->addValue(D6O_SNTP_SERVERS);
    sol->addOption(oro);

    // Let the server process it and generate a response.
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv_.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr response = srv_.processSolicit(ctx);

    // The server should add a subscriber-id option
    ASSERT_TRUE(response->getOption(D6O_SUBSCRIBER_ID));
    // But no dns-servers
    ASSERT_FALSE(response->getOption(D6O_NAME_SERVERS));
    // Nor a sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));

    // Reset ORO adding dns-servers
    sol->delOption(D6O_ORO);
    oro->addValue(D6O_NAME_SERVERS);
    sol->addOption(oro);

    // Let the server process it again. This time the name-servers
    // option should be present.
    AllocEngine::ClientContext6 ctx2;
    drop = !srv_.earlyGHRLookup(sol, ctx2);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx2, drop);
    ASSERT_FALSE(drop);
    response = srv_.processSolicit(ctx2);

    // Processing should add a subscriber-id option
    ASSERT_TRUE(response->getOption(D6O_SUBSCRIBER_ID));
    // and now a dns-servers
    ASSERT_TRUE(response->getOption(D6O_NAME_SERVERS));
    // and still no sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));

    // Reset ORO adding subscriber-id
    sol->delOption(D6O_ORO);
    OptionUint16ArrayPtr oro2(new OptionUint16Array(Option::V6, D6O_ORO));
    ASSERT_TRUE(oro2);
    oro2->addValue(D6O_SUBSCRIBER_ID);
    sol->addOption(oro2);

    // Let the server process it again.
    AllocEngine::ClientContext6 ctx3;
    drop = !srv_.earlyGHRLookup(sol, ctx3);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx3, drop);
    ASSERT_FALSE(drop);
    response = srv_.processSolicit(ctx3);

    // The subscriber-id option should be present but only once despite
    // it is both requested and has always-send.
    const OptionCollection& sifs = response->getOptions(D6O_SUBSCRIBER_ID);
    ASSERT_EQ(1, sifs.size());
    // But no dns-servers
    ASSERT_FALSE(response->getOption(D6O_NAME_SERVERS));
    // Nor a sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));
}

// Checks effect of cancellation (aka never-send) flag.
TEST_F(Dhcpv6SrvTest, neverSend) {
    IfaceMgrTestConfig test_config(true);

    ASSERT_NO_THROW(configure(CONFIGS[3]));

    // Create a packet with enough to select the subnet and go through
    // the SOLICIT processing
    Pkt6Ptr sol(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Create and add an ORO for another option
    OptionUint16ArrayPtr oro(new OptionUint16Array(Option::V6, D6O_ORO));
    ASSERT_TRUE(oro);
    oro->addValue(D6O_SNTP_SERVERS);
    sol->addOption(oro);

    // Let the server process it and generate a response.
    AllocEngine::ClientContext6 ctx;
    bool drop = !srv_.earlyGHRLookup(sol, ctx);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx, drop);
    ASSERT_FALSE(drop);
    Pkt6Ptr response = srv_.processSolicit(ctx);

    // The server should not add a subscriber-id option
    ASSERT_FALSE(response->getOption(D6O_SUBSCRIBER_ID));
    // And no dns-servers
    ASSERT_FALSE(response->getOption(D6O_NAME_SERVERS));
    // Nor a sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));

    // Reset ORO adding dns-servers
    sol->delOption(D6O_ORO);
    oro->addValue(D6O_NAME_SERVERS);
    sol->addOption(oro);

    // Let the server process it again. This time the name-servers
    // option should be present.
    AllocEngine::ClientContext6 ctx2;
    drop = !srv_.earlyGHRLookup(sol, ctx2);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx2, drop);
    ASSERT_FALSE(drop);
    response = srv_.processSolicit(ctx2);

    // Processing should not add a subscriber-id option
    ASSERT_FALSE(response->getOption(D6O_SUBSCRIBER_ID));
    // But now a dns-servers
    ASSERT_TRUE(response->getOption(D6O_NAME_SERVERS));
    // And still no sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));

    // Reset ORO adding subscriber-id
    sol->delOption(D6O_ORO);
    OptionUint16ArrayPtr oro2(new OptionUint16Array(Option::V6, D6O_ORO));
    ASSERT_TRUE(oro2);
    oro2->addValue(D6O_SUBSCRIBER_ID);
    sol->addOption(oro2);

    // Let the server process it again.
    AllocEngine::ClientContext6 ctx3;
    drop = !srv_.earlyGHRLookup(sol, ctx3);
    ASSERT_FALSE(drop);
    srv_.initContext(sol, ctx3, drop);
    ASSERT_FALSE(drop);
    response = srv_.processSolicit(ctx3);

    // The subscriber-id option should still not be present.
    ASSERT_FALSE(response->getOption(D6O_SUBSCRIBER_ID));
    // And no dns-servers
    ASSERT_FALSE(response->getOption(D6O_NAME_SERVERS));
    // Nor a sntp-servers
    ASSERT_FALSE(response->getOption(D6O_SNTP_SERVERS));
}

// Checks if server is able to handle a relayed traffic from DOCSIS3.0 modems
// @todo Uncomment this test as part of #3180 work.
// Kea code currently fails to handle docsis traffic.
TEST_F(Dhcpv6SrvTest, docsisTraffic) {
    NakedDhcpv6Srv srv(0);

    // Let's get a traffic capture from DOCSIS3.0 modem
    Pkt6Ptr sol = PktCaptures::captureDocsisRelayedSolicit();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // We should have an Advertise in response
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);
}

// Checks if relay IP address specified in the relay-info structure in
// subnet6 is being used properly.
TEST_F(Dhcpv6SrvTest, relayOverride) {

    // We have 2 subnets defined. Note that both have a relay address
    // defined. Both are not belonging to the subnets. That is
    // important, because if the relay belongs to the subnet, there's
    // no need to specify relay override.
    string config = "{ \"interfaces-config\": {"
        "  \"interfaces\": [ \"*\" ]"
        "},"
        "\"preferred-lifetime\": 3000,"
        "\"rebind-timer\": 2000, "
        "\"renew-timer\": 1000, "
        "\"subnet6\": [ "
        " {  \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ],"
        "    \"subnet\": \"2001:db8:1::/48\", "
        "    \"relay\": { "
        "        \"ip-address\": \"2001:db8:3::1\""
        "    }"
        " }, "
        " {  \"pools\": [ { \"pool\": \"2001:db8:2::/64\" } ],"
        "    \"subnet\": \"2001:db8:2::/48\", "
        "    \"relay\": { "
        "        \"ip-address\": \"2001:db8:3::2\""
        "    }"
        " } "
        "],"
        "\"valid-lifetime\": 4000 }";

    // Use this config to set up the server
    ASSERT_NO_THROW(configure(config));

    // Let's get the subnet configuration objects
    const Subnet6Collection* subnets =
        CfgMgr::instance().getCurrentCfg()->getCfgSubnets6()->getAll();
    ASSERT_EQ(2, subnets->size());

    // Let's get them for easy reference
    Subnet6Ptr subnet1 = *subnets->begin();
    Subnet6Ptr subnet2 = *std::next(subnets->begin());
    ASSERT_TRUE(subnet1);
    ASSERT_TRUE(subnet2);

    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("2001:db8:1::3"));
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);

    // Now pretend the packet came via one relay.
    Pkt6::RelayInfo relay;
    relay.linkaddr_ = IOAddress("2001:db8:1::1");
    relay.peeraddr_ = IOAddress("fe80::1");

    sol->relay_info_.push_back(relay);

    // This is just a sanity check, we're using regular method: the relay
    // belongs to the first (2001:db8:1::/64) subnet, so it's an easy decision.
    bool drop = false;
    EXPECT_TRUE(subnet1 == srv_.selectSubnet(sol, drop));
    EXPECT_FALSE(drop);

    // Relay belongs to the second subnet, so it should be selected.
    sol->relay_info_.back().linkaddr_ = IOAddress("2001:db8:2::1");
    EXPECT_TRUE(subnet2 == srv_.selectSubnet(sol, drop));
    EXPECT_FALSE(drop);

    // Now let's check if the relay override for the first subnets works
    sol->relay_info_.back().linkaddr_ = IOAddress("2001:db8:3::1");
    EXPECT_TRUE(subnet1 == srv_.selectSubnet(sol, drop));
    EXPECT_FALSE(drop);

    // Now repeat that for relay matching the second subnet.
    sol->relay_info_.back().linkaddr_ = IOAddress("2001:db8:3::2");
    EXPECT_TRUE(subnet2 == srv_.selectSubnet(sol, drop));
    EXPECT_FALSE(drop);

    // Finally, let's check that completely mismatched relay will not get us
    // anything
    sol->relay_info_.back().linkaddr_ = IOAddress("2001:db8:1234::1");
    EXPECT_FALSE(srv_.selectSubnet(sol, drop));
    EXPECT_FALSE(drop);
}

/// @brief Creates RSOO option with suboptions
///
/// Creates Relay-Supplied Options option that includes nested options. The
/// codes of those nested options are specified in codes parameter. Content of
/// the options is controlled with payload parameter. When it is zero, option
/// code will be used (e.g. option 100 will contain repeating bytes of value 100).
/// When non-zero is used, payload will be used. Each suboption length is always
/// set to the arbitrarily chosen value of 10.
///
/// @param codes a vector of option codes to be created
/// @param payload specified payload (0 = fill payload with repeating option code)
/// @return RSOO with nested options
OptionPtr createRSOO(const std::vector<uint16_t>& codes, uint8_t payload = 0) {
    OptionDefinitionPtr def = LibDHCP::getOptionDef(DHCP6_OPTION_SPACE, D6O_RSOO);
    if (!def) {
        isc_throw(BadValue, "Can't find RSOO definition");
    }
    OptionPtr rsoo_container(new OptionCustom(*def, Option::V6));

    for (size_t i = 0; i < codes.size(); ++i) {
        OptionBuffer buf(10, payload ? payload : codes[i]); // let's make the option 10 bytes long
        rsoo_container->addOption(OptionPtr(new Option(Option::V6, codes[i], buf)));
    }

    return (rsoo_container);
}

// Test that the server processes RSOO (Relay Supplied Options option) correctly,
// i.e. it includes in its response the options that are inserted by the relay.
// The server must do this only for options that are RSOO-enabled.
TEST_F(Dhcpv6SrvTest, rsoo) {

    Dhcp6Client client;

    string config =
        "{"
        "    \"relay-supplied-options\": [ \"110\", \"120\", \"130\" ],"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Now pretend the packet came via one relay.
    Pkt6::RelayInfo relay;
    relay.msg_type_ = DHCPV6_RELAY_FORW;
    relay.hop_count_ = 1;
    relay.linkaddr_ = IOAddress("2001:db8::1");
    relay.peeraddr_ = IOAddress("fe80::1");
    vector<uint16_t> rsoo1;
    rsoo1.push_back(109);
    rsoo1.push_back(110);
    rsoo1.push_back(111);

    // The relay will request echoing back 3 options: 109, 110, 111.
    // The configuration allows echoing back only 110.
    OptionPtr opt = createRSOO(rsoo1);
    relay.options_.insert(make_pair(opt->getType(), opt));
    client.relay_info_.push_back(relay);

    client.doSARR();

    // Option 110 should be copied to the client
    EXPECT_FALSE(client.config_.options_.find(110) == client.config_.options_.end());

    // Options 109 and 111 should not be copied (they are not RSOO-enabled)
    EXPECT_TRUE(client.config_.options_.find(109) == client.config_.options_.end());
    EXPECT_TRUE(client.config_.options_.find(111) == client.config_.options_.end());
}

// Test that the server processes RSOO (Relay Supplied Options option) correctly
// when there are more relays. In particular, the following case is tested:
// if relay1 inserts option A and B, relay2 inserts option B and C, the response
// should include options A, B and C. The server must use instance of option B
// that comes from the first relay, not the second one.
TEST_F(Dhcpv6SrvTest, rsoo2relays) {

    Dhcp6Client client;

    string config =
        "{"
        "    \"relay-supplied-options\": [ \"110\", \"120\", \"130\" ],"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Now pretend the packet came via two relays.

    // This situation reflects the following case:
    // client----relay1----relay2----server

    // Fabricate the first relay.
    Pkt6::RelayInfo relay1;
    relay1.msg_type_ = DHCPV6_RELAY_FORW;
    relay1.hop_count_ = 1;
    relay1.linkaddr_ = IOAddress("2001:db8::1");
    relay1.peeraddr_ = IOAddress("fe80::1");
    vector<uint16_t> rsoo1;
    rsoo1.push_back(110); // The relay1 will send 2 options: 110, 120
    rsoo1.push_back(120);
    OptionPtr opt = createRSOO(rsoo1, 1); // use 0x1 as payload
    relay1.options_.insert(make_pair(opt->getType(), opt));

    // Now the second relay.
    Pkt6::RelayInfo relay2;
    relay2.msg_type_ = DHCPV6_RELAY_FORW;
    relay2.hop_count_ = 2;
    relay2.linkaddr_ = IOAddress("2001:db8::2");
    relay2.peeraddr_ = IOAddress("fe80::2");
    vector<uint16_t> rsoo2;
    rsoo2.push_back(120); // The relay2 will send 2 options: 120, 130
    rsoo2.push_back(130);
    opt = createRSOO(rsoo2, 2); // use 0x2 as payload
    relay2.options_.insert(make_pair(opt->getType(), opt));

    // The relays encapsulate packet in this order: relay1, relay2,
    // but the server decapsulates the packet in reverse order.
    client.relay_info_.push_back(relay2);
    client.relay_info_.push_back(relay1);

    // There's a conflict here. Both relays want the server to echo back option
    // 120. According to RFC6422, section 6:
    //
    // When such a conflict exists, the DHCP server MUST choose no more than
    // one of these options to forward to the client.  The DHCP server MUST
    // NOT forward more than one of these options to the client.
    //
    // By default, the DHCP server MUST choose the innermost value -- the
    // value supplied by the relay agent closest to the DHCP client -- to
    // forward to the DHCP client.

    // Let the client do his thing.
    client.doSARR();

    int count110 = 0; // Let's count how many times option 110 was echoed back
    int count120 = 0; // Let's count how many times option 120 was echoed back
    int count130 = 0; // Let's count how many times option 130 was echoed back
    OptionPtr opt120;
    for (OptionCollection::const_iterator it = client.config_.options_.begin();
         it != client.config_.options_.end(); ++it) {
        switch (it->second->getType()) {
        case 110:
            count110++;
            break;
        case 120:
            count120++;
            opt120 = it->second;
            break;
        case 130:
            count130++;
            break;
        default:
            break;
        }
    }

    // We expect to have exactly one instance of each option code.
    EXPECT_EQ(1, count110);
    EXPECT_EQ(1, count120);
    EXPECT_EQ(1, count130);

    // Now, let's check if the proper instance of option 120 was sent. It should
    // match the content of what the first relay had sent.
    ASSERT_TRUE(opt120);
    vector<uint8_t> expected(10, 1);
    EXPECT_TRUE(expected == opt120->getData());
}

// This test verifies that the server will send the option for which it
// has a candidate, rather than the option sent by the relay in the RSOO.
TEST_F(Dhcpv6SrvTest, rsooOverride) {
    Dhcp6Client client;
    // The client will be requesting specific options.
    client.useORO(true);

    // The following configuration enables RSOO options: 110 and 120.
    // It also configures the server with option 120 which should
    // "override" the option 120 sent in the RSOO by the relay.
    string config =
        "{"
        "    \"relay-supplied-options\": [ \"110\", \"120\" ],"
        "    \"option-def\": [ {"
        "      \"name\": \"foo\","
        "      \"code\": 120,"
        "      \"type\": \"binary\""
        "    } ],"
        "    \"option-data\": [ {"
        "      \"code\": 120,"
        "      \"csv-format\": false,"
        "      \"data\": \"05\""
        "    } ],"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Fabricate the relay.
    Pkt6::RelayInfo relay;
    relay.msg_type_ = DHCPV6_RELAY_FORW;
    relay.hop_count_ = 1;
    relay.linkaddr_ = IOAddress("2001:db8::1");
    relay.peeraddr_ = IOAddress("fe80::1");
    vector<uint16_t> rsoo;
    // The relay will send 2 options: 110, 120
    rsoo.push_back(110);
    rsoo.push_back(120);
    // Use 0x1 as payload
    OptionPtr opt = createRSOO(rsoo, 1);
    relay.options_.insert(make_pair(opt->getType(), opt));
    client.relay_info_.push_back(relay);

    // Client should request option 120 in the ORO so as the server
    // sends the configured option 120 to the client.
    client.requestOption(120);
    client.doSARR();

    // The option 110 should be the one injected by the relay.
    opt = client.config_.findOption(110);
    ASSERT_TRUE(opt);
    // We check that this is the option injected by the relay by
    // checking option length. It should have 10 bytes long payload.
    ASSERT_EQ(10, opt->getData().size());

    // The second option should be the one configured on the server,
    // rather than the one injected by the relay.
    opt = client.config_.findOption(120);
    ASSERT_TRUE(opt);
    // It should have the size of 1.
    ASSERT_EQ(1, opt->getData().size());
}

// Test checks if pkt6-advertise-received is bumped up correctly.
// Note that in properly configured network the server never receives Advertise
// messages.
TEST_F(Dhcpv6SrvTest, receiveAdvertiseStat) {
    testReceiveStats(DHCPV6_ADVERTISE, "pkt6-advertise-received");
}

// Test checks if pkt6-reply-received is bumped up correctly.
// Note that in properly configured network the server never receives Reply
// messages.
TEST_F(Dhcpv6SrvTest, receiveReplyStat) {
    testReceiveStats(DHCPV6_REPLY, "pkt6-reply-received");
}

// Test checks if pkt6-dhcpv4-response-received is bumped up correctly.
// Note that in properly configured network the server never receives
// Dhcpv4-Response messages.
TEST_F(Dhcpv6SrvTest, receiveDhcpv4ResponseStat) {
    testReceiveStats(DHCPV6_DHCPV4_RESPONSE, "pkt6-dhcpv4-response-received");
}

// Test checks if pkt6-unknown-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveUnknownStat) {
    testReceiveStats(123, "pkt6-unknown-received");
}

// Test checks if pkt6-renew-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveRenewStat) {
    testReceiveStats(DHCPV6_RENEW, "pkt6-renew-received");
}

// Test checks if pkt6-rebind-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveRebindStat) {
    testReceiveStats(DHCPV6_REBIND, "pkt6-rebind-received");
}

// Test checks if pkt6-release-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveReleaseStat) {
    testReceiveStats(DHCPV6_RELEASE, "pkt6-release-received");
}

// Test checks if pkt6-decline-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveDeclineStat) {
    testReceiveStats(DHCPV6_DECLINE, "pkt6-decline-received");
}

// Test checks if pkt6-dhcpv4-query-received is bumped up correctly.
TEST_F(Dhcpv6SrvTest, receiveDhcpv4QueryStat) {
    testReceiveStats(DHCPV6_DHCPV4_QUERY, "pkt6-dhcpv4-query-received");
}

// Test checks if reception of a malformed packet increases pkt-parse-failed
// and pkt6-receive-drop
TEST_F(Dhcpv6SrvTest, receiveParseFailedStat) {
    using namespace isc::stats;
    StatsMgr& mgr = StatsMgr::instance();
    NakedDhcpv6Srv srv(0);

    // Let's get a simple SOLICIT...
    Pkt6Ptr pkt = PktCaptures::captureSimpleSolicit();

    // And pretend its packet is only 3 bytes long.
    pkt->data_.resize(3);

    // Check that the tested statistics is initially set to 0
    ObservationPtr pkt6_rcvd = mgr.getObservation("pkt6-received");
    ObservationPtr parse_fail = mgr.getObservation("pkt6-parse-failed");
    ObservationPtr recv_drop = mgr.getObservation("pkt6-receive-drop");
    ASSERT_TRUE(pkt6_rcvd);
    ASSERT_TRUE(parse_fail);
    ASSERT_TRUE(recv_drop);
    EXPECT_EQ(0, pkt6_rcvd->getInteger().first);
    EXPECT_EQ(0, parse_fail->getInteger().first);
    EXPECT_EQ(0, recv_drop->getInteger().first);

    // Simulate that we have received that traffic
    srv.fakeReceive(pkt);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // All expected statistics must be present.
    pkt6_rcvd = mgr.getObservation("pkt6-received");
    parse_fail = mgr.getObservation("pkt6-parse-failed");
    recv_drop = mgr.getObservation("pkt6-receive-drop");
    ASSERT_TRUE(pkt6_rcvd);
    ASSERT_TRUE(parse_fail);
    ASSERT_TRUE(recv_drop);

    // They also must have expected values.
    EXPECT_EQ(1, pkt6_rcvd->getInteger().first);
    EXPECT_EQ(1, parse_fail->getInteger().first);
    EXPECT_EQ(1, recv_drop->getInteger().first);
}

// This test verifies that the server is able to handle an empty DUID (client-id)
// in incoming client message.
TEST_F(Dhcpv6SrvTest, emptyClientId) {
    Dhcp6Client client;

    // The following configuration enables RSOO options: 110 and 120.
    // It also configures the server with option 120 which should
    // "override" the option 120 sent in the RSOO by the relay.
    string config =
        "{"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Tell the client to not send client-id on its own.
    client.useClientId(false);

    // Instead, tell him to send this extra option, which happens to be
    // an empty client-id.
    OptionPtr empty_client_id(new Option(Option::V6, D6O_CLIENTID));
    client.addExtraOption(empty_client_id);

    // Let's check whether the server is able to process this packet without
    // throwing any exceptions. We don't care whether the server sent any
    // responses or not. The goal is to check that the server didn't throw
    // any exceptions.
    EXPECT_NO_THROW(client.doSARR());
}

// This test verifies that the server is able to handle an empty DUID (server-id)
// in incoming client message.
TEST_F(Dhcpv6SrvTest, emptyServerId) {
    Dhcp6Client client;

    // The following configuration enables RSOO options: 110 and 120.
    // It also configures the server with option 120 which should
    // "override" the option 120 sent in the RSOO by the relay.
    string config =
        "{"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Tell the client to use this specific server-id.
    OptionPtr empty_server_id(new Option(Option::V6, D6O_SERVERID));
    client.useServerId(empty_server_id);

    // Let's check whether the server is able to process this packet without
    // throwing any exceptions. We don't care whether the server sent any
    // responses or not. The goal is to check that the server didn't throw
    // any exceptions.
    EXPECT_NO_THROW(client.doSARR());
}

// This test verifies that the server is able to handle a too large DUID (server-id)
// in incoming client message.
TEST_F(Dhcpv6SrvTest, tooLongServerId) {
    Dhcp6Client client;

    // The following configuration enables RSOO options: 110 and 120.
    // It also configures the server with option 120 which should
    // "override" the option 120 sent in the RSOO by the relay.
    string config =
        "{"
        "    \"preferred-lifetime\": 3000,"
        "    \"rebind-timer\": 2000, "
        "    \"renew-timer\": 1000, "
        "    \"subnet6\": [ { "
        "        \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],"
        "        \"subnet\": \"2001:db8::/48\" "
        "     } ],"
        "    \"valid-lifetime\": 4000"
        "}";

    EXPECT_NO_THROW(configure(config, *client.getServer()));

    // Tell the client to use this specific server-id.
    std::vector<uint8_t> data(250, 250);
    OptionPtr long_server_id(new Option(Option::V6, D6O_SERVERID, data));
    client.useServerId(long_server_id);

    // Let's check whether the server is able to process this packet without
    // throwing any exceptions. We don't care whether the server sent any
    // responses or not. The goal is to check that the server didn't throw
    // any exceptions.
    EXPECT_NO_THROW(client.doSARR());
}

// Checks if user-contexts are parsed properly.
TEST_F(Dhcpv6SrvTest, userContext) {
    IfaceMgrTestConfig test_config(true);

    NakedDhcpv6Srv srv(0);

    // This config has one subnet with user-context with one
    // pool (also with context). Make sure the configuration could be accepted.
    EXPECT_NO_THROW(configure(CONFIGS[4]));

    // Now make sure the data was not lost.
    ConstSrvConfigPtr cfg = CfgMgr::instance().getCurrentCfg();
    const Subnet6Collection* subnets = cfg->getCfgSubnets6()->getAll();
    ASSERT_TRUE(subnets);
    ASSERT_EQ(1, subnets->size());

    // Let's get the subnet and check its context.
    Subnet6Ptr subnet1 = (*subnets->begin());
    ASSERT_TRUE(subnet1);
    ASSERT_TRUE(subnet1->getContext());
    EXPECT_EQ("{ \"secure\": false }", subnet1->getContext()->str());

    // Ok, not get the address pool in it and check its context, too.
    PoolCollection pools = subnet1->getPools(Lease::TYPE_NA);
    ASSERT_EQ(1, pools.size());
    ASSERT_TRUE(pools[0]);
    ASSERT_TRUE(pools[0]->getContext());
    EXPECT_EQ("{ \"value\": 42 }", pools[0]->getContext()->str());

    // Ok, not get the prefix pool in it and check its context, too.
    pools = subnet1->getPools(Lease::TYPE_PD);
    ASSERT_EQ(1, pools.size());
    ASSERT_TRUE(pools[0]);
    ASSERT_TRUE(pools[0]->getContext());
    EXPECT_EQ("{ \"type\": \"prefixes\" }", pools[0]->getContext()->str());
}

// Verifies that the server will still process a packet which fails to
// parse with a SkipRemainingOptions exception
TEST_F(Dhcpv6SrvTest, truncatedVIVSO) {
    NakedDhcpv6Srv srv(0);

    // Let's create a SOLICIT with a VIVSO whose length is too short
    Pkt6Ptr sol = PktCaptures::captureSolicitWithTruncatedVIVSO();

    // Simulate that we have received that traffic
    srv.fakeReceive(sol);

    // Server will now process to run its normal loop, but instead of calling
    // IfaceMgr::receive6(), it will read all packets from the list set by
    // fakeReceive()
    srv.run();

    // Make sure we got an Advertise...
    ASSERT_FALSE(srv.fake_sent_.empty());
    Pkt6Ptr adv = srv.fake_sent_.front();
    ASSERT_TRUE(adv);
}

// Check that T1 and T2 values are set correctly.
TEST_F(Dhcpv6SrvTest, calculateTeeTimers) {
    NakedDhcpv6Srv srv(0);

    // Struct for describing an individual timer test scenario
    struct TimerTest {
        // logged test description
        std::string description_;
        // configured value for subnet's T1
        Triplet<uint32_t> cfg_t1_;
        // configured value for subnet's T1
        Triplet<uint32_t> cfg_t2_;
        // whether or not calculation is enabled
        bool calculate_tee_times;
        // configured value for subnet's t1_percent.
        double t1_percent_;
        // configured value for subnet's t2_percent.
        double t2_percent_;
        // expected value for T1 in server response.
        // A value of 0 means server should not have sent T1.
        uint32_t t1_exp_value_;
        // expected value for T2 in server response.
        // A value of 0 means server should not have sent T2.
        uint32_t t2_exp_value_;
    };

    // Handy constants
    Triplet<uint32_t> unspecified;
    Triplet<uint32_t> preferred_lft(1000);
    bool calculate_enabled = true;

    // Test scenarios
    std::vector<TimerTest> tests = {
    // Tests with calculation disabled
    {
        "T1 and T2 calculated",
        unspecified, unspecified,
        calculate_enabled,
        0.4, 0.8,
        400, 800
    },
    {
        "preferred < T1 specified < T2 specified",
        preferred_lft + 1,  preferred_lft + 2,
        calculate_enabled,
        0.4, 0.8,
        preferred_lft + 1, preferred_lft + 2
    },
    {
        "T1 should be calculated, T2 specified",
        unspecified, preferred_lft - 1,
        calculate_enabled,
        0.4, 0.8,
        400, preferred_lft - 1
    },
    {
        "T1 specified, T2 should be calculated",
        299, unspecified,
        calculate_enabled,
        0.4, 0.8,
        299, 800
    },
    {
        "T1 specified insane (> T2), T2 should be calculated",
        preferred_lft - 1, unspecified,
        calculate_enabled,
        0.4, 0.8,
        0, 800
    },
    // Tests with calculation disabled
    {
        "T1 and T2 unspecified, (no calculation)",
        unspecified, unspecified,
        !calculate_enabled,
        0.4, 0.8,
        0, 0
    },
    {
        // cannot set T1 > 0 when T2 is 0
        "T1 specified, T2 unspecified (no calculation)",
        preferred_lft - 1, unspecified,
        !calculate_enabled,
        0.4, 0.8,
        //preferred_lft - 1, 0
        0, 0
    },
    {
        "both T1 and T2 specified sane (no calculation)",
        preferred_lft - 2, preferred_lft - 1,
        !calculate_enabled,
        0.4, 0.8,
        preferred_lft - 2, preferred_lft - 1
    },
    {
        "both T1 and T2 specified equal to preferred",
        preferred_lft, preferred_lft,
        !calculate_enabled,
        0.4, 0.8,
        // T1 must be less than T2
        0, preferred_lft
    },
    {
        "T1 specified insane (> lease T2), T2 specified (no calculation)",
        preferred_lft - 1, preferred_lft - 2,
        !calculate_enabled,
        0.4, 0.8,
        0, preferred_lft - 2
    },
    {
        "T1 specified insane (> lease time), T2 not specified (no calculation)",
        preferred_lft + 1, unspecified,
        !calculate_enabled,
        0.4, 0.8,
        0, 0
    }
    };

    // Calculation is enabled for all the scenarios.
    subnet_->setPreferred(preferred_lft);

    // Create a discover packet to use
    Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234));
    sol->setRemoteAddr(IOAddress("fe80::abcd"));
    sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000));
    OptionPtr clientid = generateClientId();
    sol->addOption(clientid);
    sol->setIface("eth0");
    sol->setIndex(ETH0_INDEX);

    // Iterate over the test scenarios.
    for (auto test = tests.begin(); test != tests.end(); ++test) {
        {
            SCOPED_TRACE((*test).description_);
            // Configure subnet for the scenario
            subnet_->setT1((*test).cfg_t1_);
            subnet_->setT2((*test).cfg_t2_);
            subnet_->setCalculateTeeTimes((*test).calculate_tee_times);
            subnet_->setT1Percent((*test).t1_percent_);
            subnet_->setT2Percent((*test).t2_percent_);
            AllocEngine::ClientContext6 ctx;
            bool drop = !srv.earlyGHRLookup(sol, ctx);
            ASSERT_FALSE(drop);
            srv.initContext(sol, ctx, drop);
            ASSERT_FALSE(drop);
            Pkt6Ptr reply = srv.processSolicit(ctx);

            // check if we get response at all
            checkResponse(reply, DHCPV6_ADVERTISE, 1234);

            // check that IA_NA was returned and T1 and T2 are correct.
            checkIA_NA(reply, 234, (*test).t1_exp_value_, (*test).t2_exp_value_);
        }
    }
}

/// @brief Check that example files from documentation are valid (can be parsed
/// and loaded).
TEST_F(Dhcpv6SrvTest, checkConfigFiles) {
    checkConfigFiles();
}

/// @todo: Add more negative tests for processX(), e.g. extend sanityCheck() test
/// to call processX() methods.

/// @todo: Implement proper tests for MySQL lease/host database,
///        see ticket #4214.

}  // namespace