cfg_hosts_unittest.cc 32.2 KB
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// Copyright (C) 2014-2018 Internet Systems Consortium, Inc. ("ISC")
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//
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// 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/.
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#include <config.h>
#include <asiolink/io_address.h>
#include <dhcp/duid.h>
#include <dhcp/hwaddr.h>
#include <dhcpsrv/cfg_hosts.h>
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#include <dhcpsrv/cfg_hosts_util.h>
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#include <dhcpsrv/host.h>
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#include <dhcpsrv/cfgmgr.h>
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#include <gtest/gtest.h>
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#include <sstream>
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#include <set>
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using namespace isc;
using namespace isc::dhcp;
using namespace isc::asiolink;

namespace {

/// @brief Test fixture class for testing @c CfgHost object holding
/// host reservations specified in the configuration file.
class CfgHostsTest : public ::testing::Test {
public:

    /// @brief Constructor.
    ///
    /// This constructor allocates a collection of @c HWAddr and @c DuidPtr
    /// objects used by the unit tests.
    ///
    /// The allocated HW addresses use the following pattern: 01:02:0A:BB:03:XX
    /// where XX is a number between 0 and 0x32. All of them are of the
    /// HTYPE_ETHER type.
    ///
    /// The allocated DUID LLTs use the following pattern:
    /// 01:02:03:04:05:06:07:08:09:0A:XX where the XX is a number between
    /// 0 and 0x32.
    CfgHostsTest();

    /// @brief Increases last byte of an address.
    ///
    /// @param address Address to be increased.
    IOAddress increase(const IOAddress& address, const uint8_t num) const;

    /// @brief Collection of HW address objects allocated for unit tests.
    std::vector<HWAddrPtr> hwaddrs_;
    /// @brief Collection of DUIDs allocated for unit tests.
    std::vector<DuidPtr> duids_;
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    /// @brief Collection of IPv4 address objects allocated for unit tests.
    std::vector<IOAddress> addressesa_;
    std::vector<IOAddress> addressesb_;
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};

CfgHostsTest::CfgHostsTest() {
    const uint8_t mac_template[] = {
        0x01, 0x02, 0x0A, 0xBB, 0x03, 0x00
    };
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    for (unsigned i = 0; i < 50; ++i) {
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        std::vector<uint8_t> vec(mac_template,
                                 mac_template + sizeof(mac_template));
        vec[vec.size() - 1] = i;
        HWAddrPtr hwaddr(new HWAddr(vec, HTYPE_ETHER));
        hwaddrs_.push_back(hwaddr);
    }

    const uint8_t duid_template[] = {
        0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x00
    };
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    for (unsigned i = 0; i < 50; ++i) {
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        std::vector<uint8_t> vec(duid_template,
                                 duid_template + sizeof(mac_template));
        vec[vec.size() - 1] = i;
        DuidPtr duid(new DUID(vec));
        duids_.push_back(duid);
    }
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    const uint32_t addra_template = 0xc0000205; // 192.0.2.5
    const uint32_t addrb_template = 0xc00a020a; // 192.10.2.10
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    for (unsigned i = 0; i < 50; ++i) {
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        IOAddress addra(addra_template + i);
        addressesa_.push_back(addra);
        IOAddress addrb(addrb_template + i);
        addressesb_.push_back(addrb);
    }
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}

IOAddress
CfgHostsTest::increase(const IOAddress& address, const uint8_t num) const {
    std::vector<uint8_t> vec = address.toBytes();
    if (!vec.empty()) {
        vec[vec.size() - 1] += num;
        return (IOAddress::fromBytes(address.getFamily(), &vec[0]));
    }
    return (address);
}

// This test checks that hosts with unique HW addresses and DUIDs can be
// retrieved from the host configuration.
TEST_F(CfgHostsTest, getAllNonRepeatingHosts) {
    CfgHosts cfg;
    // Add 25 hosts identified by HW address and 25 hosts identified by
    // DUID. They are added to different subnets.
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    for (unsigned i = 0; i < 25; ++i) {
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        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
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                                 SubnetID(i % 10 + 1), SubnetID(i % 5 + 1),
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                                 addressesa_[i])));
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        cfg.add(HostPtr(new Host(duids_[i]->toText(), "duid",
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                                 SubnetID(i % 5 + 1), SubnetID(i % 10 + 1),
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                                 addressesb_[i])));
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    }

    // Try to retrieve each added reservation using HW address and DUID. Do it
    // in the reverse order to make sure that the order doesn't matter.
    for (int i = 24; i >= 0; --i) {
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        // Get host identified by HW address.
        HostCollection hosts = cfg.getAll(Host::IDENT_HWADDR,
                                          &hwaddrs_[i]->hwaddr_[0],
                                          hwaddrs_[i]->hwaddr_.size());
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        ASSERT_EQ(1, hosts.size());
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        EXPECT_EQ(i % 10 + 1, hosts[0]->getIPv4SubnetID());
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        EXPECT_EQ(addressesa_[i].toText(),
                  hosts[0]->getIPv4Reservation().toText());
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        // Get host identified by DUID.
        hosts = cfg.getAll(Host::IDENT_DUID,
                           &duids_[i]->getDuid()[0],
                           duids_[i]->getDuid().size());
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        ASSERT_EQ(1, hosts.size());
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        EXPECT_EQ(i % 5 + 1, hosts[0]->getIPv4SubnetID());
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        EXPECT_EQ(addressesb_[i].toText(),
                  hosts[0]->getIPv4Reservation().toText());
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    }

    // Make sure that the reservations do not exist for the hardware addresses
    // and DUIDs from the range of 25 to 49.
    for (int i = 49; i >= 25; --i) {
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        EXPECT_TRUE(cfg.getAll(Host::IDENT_HWADDR, &hwaddrs_[i]->hwaddr_[0],
                               hwaddrs_[i]->hwaddr_.size()).empty());
        EXPECT_TRUE(cfg.getAll(Host::IDENT_DUID, &duids_[i]->getDuid()[0],
                               duids_[i]->getDuid().size()).empty());
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    }
}

// This test verifies that the host can be added to multiple subnets and
// that the getAll message retrieves all instances of the host.
TEST_F(CfgHostsTest, getAllRepeatingHosts) {
    CfgHosts cfg;
    // Add hosts.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add two hosts, using the same HW address to two distinct subnets.
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        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
                                 SubnetID(1), SubnetID(2),
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                                 addressesa_[i])));
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        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
                                 SubnetID(2), SubnetID(3),
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                                 addressesb_[i])));
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        // Add two hosts, using the same DUID to two distinct subnets.
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        cfg.add(HostPtr(new Host(duids_[i]->toText(), "duid",
                                 SubnetID(1), SubnetID(2),
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                                 addressesb_[i])));
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        cfg.add(HostPtr(new Host(duids_[i]->toText(), "duid",
                                 SubnetID(2), SubnetID(3),
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                                 addressesa_[i])));
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    }

    // Verify that hosts can be retrieved.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Get host by HW address.
        HostCollection hosts = cfg.getAll(Host::IDENT_HWADDR,
                                          &hwaddrs_[i]->hwaddr_[0],
                                          hwaddrs_[i]->hwaddr_.size());
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        ASSERT_EQ(2, hosts.size());
        EXPECT_EQ(1, hosts[0]->getIPv4SubnetID());
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        EXPECT_EQ(addressesa_[i], hosts[0]->getIPv4Reservation().toText());
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        EXPECT_EQ(2, hosts[1]->getIPv4SubnetID());
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        EXPECT_EQ(addressesb_[i], hosts[1]->getIPv4Reservation().toText());
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        // The HW address is non-null but there are no reservations
        // for the HW addresses from the range of 25 to 49.
        hosts = cfg.getAll(Host::IDENT_HWADDR,
                           &hwaddrs_[i + 25]->hwaddr_[0],
                           hwaddrs_[i + 25]->hwaddr_.size());
        EXPECT_TRUE(hosts.empty());

        // Get host by DUID.
        hosts = cfg.getAll(Host::IDENT_DUID,
                           &duids_[i]->getDuid()[0],
                           duids_[i]->getDuid().size());
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        // The DUID is non-null but there are no reservations
        // for the DUIDs from the range of 25 to 49.
        hosts = cfg.getAll(Host::IDENT_DUID,
                           &duids_[i + 25]->getDuid()[0],
                           duids_[i + 25]->getDuid().size());
        EXPECT_TRUE(hosts.empty());
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    }
}

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// This test checks that all reservations for the specified IPv4 address can
// be retrieved.
TEST_F(CfgHostsTest, getAll4ByAddress) {
    CfgHosts cfg;
    // Add hosts.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add host identified by the HW address.
        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
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                                 SubnetID(1 + i), SUBNET_ID_UNUSED,
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                                 IOAddress("192.0.2.5"))));
        // Add host identified by the DUID.
        cfg.add(HostPtr(new Host(duids_[i]->toText(),
                                 "duid",
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                                 SubnetID(1 + i), SUBNET_ID_UNUSED,
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                                 IOAddress("192.0.2.10"))));
    }

    HostCollection hosts = cfg.getAll4(IOAddress("192.0.2.10"));
    std::set<uint32_t> subnet_ids;
    for (HostCollection::const_iterator host = hosts.begin(); host != hosts.end();
         ++host) {
        subnet_ids.insert((*host)->getIPv4SubnetID());
    }
    ASSERT_EQ(25, subnet_ids.size());
    EXPECT_EQ(1, *subnet_ids.begin());
    EXPECT_EQ(25, *subnet_ids.rbegin());
}

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// This test checks that the reservations can be retrieved for the particular
// host connected to the specific IPv4 subnet (by subnet id).
TEST_F(CfgHostsTest, get4) {
    CfgHosts cfg;
    // Add hosts.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add host identified by HW address.
        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
                                 SubnetID(1 + i % 2), SubnetID(13),
                                 increase(IOAddress("192.0.2.5"), i))));

        // Add host identified by DUID.
        cfg.add(HostPtr(new Host(duids_[i]->toText(), "duid",
                                 SubnetID(1 + i % 2), SubnetID(13),
                                 increase(IOAddress("192.0.2.100"), i))));
    }

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    for (unsigned i = 0; i < 25; ++i) {
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        // Retrieve host by HW address.
        HostPtr host = cfg.get4(SubnetID(1 + i % 2), Host::IDENT_HWADDR,
                                &hwaddrs_[i]->hwaddr_[0],
                                hwaddrs_[i]->hwaddr_.size());
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        ASSERT_TRUE(host);
        EXPECT_EQ(1 + i % 2, host->getIPv4SubnetID());
        EXPECT_EQ(increase(IOAddress("192.0.2.5"), i),
                  host->getIPv4Reservation());

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        // Retrieve host by DUID.
        host = cfg.get4(SubnetID(1 + i % 2), Host::IDENT_DUID,
                        &duids_[i]->getDuid()[0], duids_[i]->getDuid().size());
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        ASSERT_TRUE(host);
        EXPECT_EQ(1 + i % 2, host->getIPv4SubnetID());
        EXPECT_EQ(increase(IOAddress("192.0.2.100"), i),
                  host->getIPv4Reservation());

    }
}

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// This test checks that the DHCPv4 reservations can be unparsed
TEST_F(CfgHostsTest, unparsed4) {
    CfgMgr::instance().setFamily(AF_INET);
    CfgHosts cfg;
    CfgHostsList list;
    // Add hosts.
    for (unsigned i = 0; i < 25; ++i) {
        // Add host identified by HW address.
        cfg.add(HostPtr(new Host(hwaddrs_[i]->toText(false),
                                 "hw-address",
                                 SubnetID(1 + i), SubnetID(13),
                                 increase(IOAddress("192.0.2.5"), i))));

        // Add host identified by DUID.
        cfg.add(HostPtr(new Host(duids_[i]->toText(), "duid",
                                 SubnetID(1 + i), SubnetID(13),
                                 increase(IOAddress("192.0.2.100"), i))));
    }

    using namespace isc::data;
    ConstElementPtr cfg_unparsed;
    ASSERT_NO_THROW(cfg_unparsed = cfg.toElement());
    ASSERT_NO_THROW(list.internalize(cfg_unparsed));
    for (unsigned i = 0; i < 25; ++i) {
        ConstElementPtr unparsed = list.get(SubnetID(1 + i));
        ASSERT_TRUE(unparsed);
        ASSERT_EQ(Element::list, unparsed->getType());
        EXPECT_EQ(2, unparsed->size());
        ASSERT_NE(0, unparsed->size());

        // Check by HW address entries
        bool checked_hw = false;
        for (unsigned j = 0; j < unparsed->size(); ++j) {
            ConstElementPtr host = unparsed->get(j);
            ASSERT_TRUE(host);
            ASSERT_EQ(Element::map, host->getType());
            if (!host->contains("hw-address")) {
                continue;
            }
            checked_hw = true;
            // Not both hw-address and duid
            EXPECT_FALSE(host->contains("duid"));
            // Check the HW address
            ConstElementPtr hw = host->get("hw-address");
            ASSERT_TRUE(hw);
            ASSERT_EQ(Element::string, hw->getType());
            EXPECT_EQ(hwaddrs_[i]->toText(false), hw->stringValue());
            // Check the reservation
            ConstElementPtr resv = host->get("ip-address");
            ASSERT_TRUE(resv);
            ASSERT_EQ(Element::string, resv->getType());
            EXPECT_EQ(increase(IOAddress("192.0.2.5"), i),
                          IOAddress(resv->stringValue()));
        }
        ASSERT_TRUE(checked_hw);

        // Check by DUID entries
        bool checked_duid = false;
        for (unsigned j = 0; j < unparsed->size(); ++j) {
            ConstElementPtr host = unparsed->get(j);
            ASSERT_TRUE(host);
            ASSERT_EQ(Element::map, host->getType());
            if (!host->contains("duid")) {
                continue;
            }
            checked_duid = true;
            // Not both hw-address and duid
            EXPECT_FALSE(host->contains("hw-address"));
            // Check the DUID
            ConstElementPtr duid = host->get("duid");
            ASSERT_TRUE(duid);
            ASSERT_EQ(Element::string, duid->getType());
            EXPECT_EQ(duids_[i]->toText(), duid->stringValue());
            // Check the reservation
            ConstElementPtr resv = host->get("ip-address");
            ASSERT_TRUE(resv);
            ASSERT_EQ(Element::string, resv->getType());
            EXPECT_EQ(increase(IOAddress("192.0.2.100"), i),
                      IOAddress(resv->stringValue()));
        }
        ASSERT_TRUE(checked_duid);
    }
}

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// This test checks that the reservations can be retrieved for the particular
// host connected to the specific IPv6 subnet (by subnet id).
TEST_F(CfgHostsTest, get6) {
    CfgHosts cfg;
    // Add hosts.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add host identified by HW address.
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        HostPtr host = HostPtr(new Host(hwaddrs_[i]->toText(false),
                                        "hw-address",
                                        SubnetID(10), SubnetID(1 + i % 2),
                                        IOAddress("0.0.0.0")));
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        host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                       increase(IOAddress("2001:db8:1::1"),
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                                                i)));
        cfg.add(host);
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        // Add host identified by DUID.
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        host = HostPtr(new Host(duids_[i]->toText(), "duid",
                                SubnetID(10), SubnetID(1 + i % 2),
                                IOAddress("0.0.0.0")));
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        host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                       increase(IOAddress("2001:db8:2::1"),
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                                                i)));
        cfg.add(host);
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    }

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    for (unsigned i = 0; i < 25; ++i) {
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        // Retrieve host by HW address.
        HostPtr host = cfg.get6(SubnetID(1 + i % 2), Host::IDENT_HWADDR,
                                &hwaddrs_[i]->hwaddr_[0],
                                hwaddrs_[i]->hwaddr_.size());
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        ASSERT_TRUE(host);
        EXPECT_EQ(1 + i % 2, host->getIPv6SubnetID());
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        IPv6ResrvRange reservations =
            host->getIPv6Reservations(IPv6Resrv::TYPE_NA);
        ASSERT_EQ(1, std::distance(reservations.first, reservations.second));
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        EXPECT_EQ(increase(IOAddress("2001:db8:1::1"), i),
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                  reservations.first->second.getPrefix());
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        // Retrieve host by DUID.
        host = cfg.get6(SubnetID(1 + i % 2), Host::IDENT_DUID,
                        &duids_[i]->getDuid()[0], duids_[i]->getDuid().size());
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        ASSERT_TRUE(host);
        EXPECT_EQ(1 + i % 2, host->getIPv6SubnetID());
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        reservations = host->getIPv6Reservations(IPv6Resrv::TYPE_NA);
        ASSERT_EQ(1, std::distance(reservations.first, reservations.second));
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        EXPECT_EQ(increase(IOAddress("2001:db8:2::1"), i),
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                  reservations.first->second.getPrefix());
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    }
}

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// This test checks that the DHCPv6 reservations can be unparsed
TEST_F(CfgHostsTest, unparse6) {
    CfgMgr::instance().setFamily(AF_INET6);
    CfgHosts cfg;
    CfgHostsList list;
    // Add hosts.
    for (unsigned i = 0; i < 25; ++i) {
        // Add host identified by HW address.
        HostPtr host = HostPtr(new Host(hwaddrs_[i]->toText(false),
                                        "hw-address",
                                        SubnetID(10), SubnetID(1 + i),
                                        IOAddress("0.0.0.0")));
        host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                       increase(IOAddress("2001:db8:1::1"),
                                                i)));
        cfg.add(host);

        // Add host identified by DUID.
        host = HostPtr(new Host(duids_[i]->toText(), "duid",
                                SubnetID(10), SubnetID(1 + i),
                                IOAddress("0.0.0.0")));
        host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                       increase(IOAddress("2001:db8:2::1"),
                                                i)));
        cfg.add(host);
    }

    using namespace isc::data;
    ConstElementPtr cfg_unparsed;
    ASSERT_NO_THROW(cfg_unparsed = cfg.toElement());
    ASSERT_NO_THROW(list.internalize(cfg_unparsed));
    for (unsigned i = 0; i < 25; ++i) {
        ConstElementPtr unparsed = list.get(SubnetID(1 + i));
        ASSERT_TRUE(unparsed);
        ASSERT_EQ(Element::list, unparsed->getType());
        EXPECT_EQ(2, unparsed->size());
        ASSERT_NE(0, unparsed->size());

        // Check by HW address entries
        bool checked_hw = false;
        for (unsigned j = 0; j < unparsed->size(); ++j) {
            ConstElementPtr host = unparsed->get(j);
            ASSERT_TRUE(host);
            ASSERT_EQ(Element::map, host->getType());
            if (!host->contains("hw-address")) {
                continue;
            }
            checked_hw = true;
            // Not both hw-address and duid
            EXPECT_FALSE(host->contains("duid"));
            // Check the HW address
            ConstElementPtr hw = host->get("hw-address");
            ASSERT_TRUE(hw);
            ASSERT_EQ(Element::string, hw->getType());
            EXPECT_EQ(hwaddrs_[i]->toText(false), hw->stringValue());
            // Check the reservation
            ConstElementPtr resvs = host->get("ip-addresses");
            ASSERT_TRUE(resvs);
            ASSERT_EQ(Element::list, resvs->getType());
            EXPECT_EQ(1, resvs->size());
            ASSERT_GE(1, resvs->size());
            ConstElementPtr resv = resvs->get(0);
            ASSERT_TRUE(resv);
            ASSERT_EQ(Element::string, resv->getType());
            EXPECT_EQ(increase(IOAddress("2001:db8:1::1"), i),
                          IOAddress(resv->stringValue()));
        }
        ASSERT_TRUE(checked_hw);

        // Check by DUID entries
        bool checked_duid = false;
        for (unsigned j = 0; j < unparsed->size(); ++j) {
            ConstElementPtr host = unparsed->get(j);
            ASSERT_TRUE(host);
            ASSERT_EQ(Element::map, host->getType());
            if (!host->contains("duid")) {
                continue;
            }
            checked_duid = true;
            // Not both hw-address and duid
            EXPECT_FALSE(host->contains("hw-address"));
            // Check the DUID
            ConstElementPtr duid = host->get("duid");
            ASSERT_TRUE(duid);
            ASSERT_EQ(Element::string, duid->getType());
            EXPECT_EQ(duids_[i]->toText(), duid->stringValue());
            // Check the reservation
            ConstElementPtr resvs = host->get("ip-addresses");
            ASSERT_TRUE(resvs);
            ASSERT_EQ(Element::list, resvs->getType());
            EXPECT_EQ(1, resvs->size());
            ASSERT_GE(1, resvs->size());
            ConstElementPtr resv = resvs->get(0);
            ASSERT_TRUE(resv);
            ASSERT_EQ(Element::string, resv->getType());
            EXPECT_EQ(increase(IOAddress("2001:db8:2::1"), i),
                      IOAddress(resv->stringValue()));
        }
        ASSERT_TRUE(checked_duid);
    }
}

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// This test checks that the IPv6 reservations can be retrieved for a particular
// (subnet-id, address) tuple.
TEST_F(CfgHostsTest, get6ByAddr) {
    CfgHosts cfg;
    // Add hosts.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add host identified by DUID.
        HostPtr host = HostPtr(new Host(duids_[i]->toText(), "duid",
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                                        SUBNET_ID_UNUSED, SubnetID(1 + i % 2),
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                                        IOAddress("0.0.0.0")));
        host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                       increase(IOAddress("2001:db8:2::1"),
                                                i)));
        cfg.add(host);
    }

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    for (unsigned i = 0; i < 25; ++i) {
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        // Retrieve host by (subnet-id,address).
        HostPtr host = cfg.get6(SubnetID(1 + i % 2),
                                increase(IOAddress("2001:db8:2::1"), i));
        ASSERT_TRUE(host);

        EXPECT_EQ(1 + i % 2, host->getIPv6SubnetID());
        IPv6ResrvRange reservations =
            host->getIPv6Reservations(IPv6Resrv::TYPE_NA);
        ASSERT_EQ(1, std::distance(reservations.first, reservations.second));
        EXPECT_EQ(increase(IOAddress("2001:db8:2::1"), i),
                  reservations.first->second.getPrefix());
    }
}

// This test checks that the IPv6 reservations can be retrieved for a particular
// (subnet-id, address) tuple.
TEST_F(CfgHostsTest, get6MultipleAddrs) {
    CfgHosts cfg;

    // Add 25 hosts. Each host has reservations for 5 addresses.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Add host identified by DUID.
        HostPtr host = HostPtr(new Host(duids_[i]->toText(), "duid",
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                                        SUBNET_ID_UNUSED, SubnetID(1 + i % 2),
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                                        IOAddress("0.0.0.0")));

        // Generate 5 unique addresses for this host.
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        for (unsigned j = 0; j < 5; ++j) {
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            std::stringstream address_stream;
            address_stream << "2001:db8:" << i << "::" << j;
            host->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                           address_stream.str()));
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        }
        cfg.add(host);
    }

    // Now check if we can retrieve each of those 25 hosts by using each
    // of their addresses.
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    for (unsigned i = 0; i < 25; ++i) {
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        // Check that the host is there.
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        HostPtr by_duid = cfg.get6(SubnetID(1 + i % 2), Host::IDENT_DUID,
                                   &duids_[i]->getDuid()[0],
                                   duids_[i]->getDuid().size());
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        ASSERT_TRUE(by_duid);

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        for (unsigned j = 0; j < 5; ++j) {
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            std::stringstream address_stream;
            address_stream << "2001:db8:" << i << "::" << j;
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            // Retrieve host by (subnet-id,address).
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            HostPtr by_addr = cfg.get6(SubnetID(1 + i % 2),
                                       address_stream.str());
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            ASSERT_TRUE(by_addr);

            // The pointers should match. Maybe we should compare contents
            // rather than just pointers? I think there's no reason why
            // the code would make any copies of the Host object, so
            // the pointers should always point to the same object.
            EXPECT_EQ(by_duid, by_addr);
        }
    }
}


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// Checks that it's not possible for a second host to reserve an address
// which is already reserved.
TEST_F(CfgHostsTest, add4AlreadyReserved) {
    CfgHosts cfg;

    // First host has a reservation for address 192.0.2.1
    HostPtr host1 = HostPtr(new Host(hwaddrs_[0]->toText(false),
                                     "hw-address",
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                                     SubnetID(1), SubnetID(SUBNET_ID_UNUSED),
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                                     IOAddress("192.0.2.1")));
    // Adding this should work.
    EXPECT_NO_THROW(cfg.add(host1));

    // The second host has a reservation for the same address.
    HostPtr host2 = HostPtr(new Host(hwaddrs_[1]->toText(false),
                                     "hw-address",
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                                     SubnetID(1), SUBNET_ID_UNUSED,
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                                     IOAddress("192.0.2.1")));

    // This second host has a reservation for an address that is already
    // reserved for the first host, so it should be rejected.
    EXPECT_THROW(cfg.add(host2), isc::dhcp::ReservedAddress);
}

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// Checks that it's not possible for two hosts to have the same address
// reserved at the same time.
TEST_F(CfgHostsTest, add6Invalid2Hosts) {
    CfgHosts cfg;

    // First host has a reservation for address 2001:db8::1
    HostPtr host1 = HostPtr(new Host(duids_[0]->toText(), "duid",
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                                     SUBNET_ID_UNUSED, SubnetID(1),
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                                     IOAddress("0.0.0.0")));
    host1->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                    IOAddress("2001:db8::1")));
    // Adding this should work.
    EXPECT_NO_THROW(cfg.add(host1));

    // The second host has a reservation for the same address.
    HostPtr host2 = HostPtr(new Host(duids_[1]->toText(), "duid",
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                                     SUBNET_ID_UNUSED, SubnetID(1),
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                                     IOAddress("0.0.0.0")));
    host2->addReservation(IPv6Resrv(IPv6Resrv::TYPE_NA,
                                    IOAddress("2001:db8::1")));

    // This second host has a reservation for an address that is already
    // reserved for the first host, so it should be rejected.
    EXPECT_THROW(cfg.add(host2), isc::dhcp::DuplicateHost);
}

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// Check that no error is reported when adding a host with subnet
// ids equal to global.
TEST_F(CfgHostsTest, globalSubnetIDs) {
    CfgHosts cfg;
    ASSERT_NO_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                             "hw-address",
                                             SUBNET_ID_GLOBAL, SUBNET_ID_GLOBAL,
                                             IOAddress("10.0.0.1")))));
}


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// Check that error is reported when trying to add a host with subnet
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// ids equal to unused.
TEST_F(CfgHostsTest, unusedSubnetIDs) {
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    CfgHosts cfg;
    ASSERT_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                          "hw-address",
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                                          SUBNET_ID_UNUSED, SUBNET_ID_UNUSED,
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                                          IOAddress("10.0.0.1")))),
                 isc::BadValue);
}

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// This test verifies that it is not possible to add the same Host to the
// same IPv4 subnet twice.
TEST_F(CfgHostsTest, duplicatesSubnet4HWAddr) {
    CfgHosts cfg;
    // Add a host.
    ASSERT_NO_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                             "hw-address",
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                                             SubnetID(10), SUBNET_ID_UNUSED,
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                                             IOAddress("10.0.0.1")))));

    // Try to add the host with the same HW address to the same subnet. The fact
    // that the IP address is different here shouldn't really matter.
    EXPECT_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                          "hw-address",
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                                          SubnetID(10), SUBNET_ID_UNUSED,
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                                          IOAddress("10.0.0.10")))),
                 isc::dhcp::DuplicateHost);

    // Now try to add it to a different subnet. It should go through.
    EXPECT_NO_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                             "hw-address",
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                                             SubnetID(11), SUBNET_ID_UNUSED,
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                                             IOAddress("10.0.0.10")))));
}

// This test verifies that it is not possible to add the same Host to the
// same IPv4 subnet twice.
TEST_F(CfgHostsTest, duplicatesSubnet4DUID) {
    CfgHosts cfg;
    // Add a host.
    ASSERT_NO_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                             "duid",
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                                             SubnetID(10), SUBNET_ID_UNUSED,
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                                             IOAddress("10.0.0.1")))));

    // Try to add the host with the same DUID to the same subnet. The fact
    // that the IP address is different here shouldn't really matter.
    EXPECT_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                          "duid",
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                                          SubnetID(10), SUBNET_ID_UNUSED,
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                                          IOAddress("10.0.0.10")))),
                 isc::dhcp::DuplicateHost);

    // Now try to add it to a different subnet. It should go through.
    EXPECT_NO_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                             "duid",
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                                             SubnetID(11), SUBNET_ID_UNUSED,
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                                             IOAddress("10.0.0.10")))));
}

// This test verifies that it is not possible to add the same Host to the
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// same IPv6 subnet twice.
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TEST_F(CfgHostsTest, duplicatesSubnet6HWAddr) {
    CfgHosts cfg;
    // Add a host.
    ASSERT_NO_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                             "hw-address",
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                                             SUBNET_ID_UNUSED, SubnetID(1),
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                                             IOAddress("0.0.0.0"),
                                             "foo.example.com"))));
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    // Try to add the host with the same HW address to the same subnet. The fact
    // that the IP address is different here shouldn't really matter.
    EXPECT_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                          "hw-address",
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                                          SUBNET_ID_UNUSED, SubnetID(1),
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                                          IOAddress("0.0.0.0"),
                                          "foo.example.com"))),
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                 isc::dhcp::DuplicateHost);

    // Now try to add it to a different subnet. It should go through.
    EXPECT_NO_THROW(cfg.add(HostPtr(new Host(hwaddrs_[0]->toText(false),
                                             "hw-address",
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                                             SUBNET_ID_UNUSED, SubnetID(2),
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                                             IOAddress("0.0.0.0"),
                                             "foo.example.com"))));
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}

// This test verifies that it is not possible to add the same Host to the
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// same IPv6 subnet twice.
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TEST_F(CfgHostsTest, duplicatesSubnet6DUID) {
    CfgHosts cfg;
    // Add a host.
    ASSERT_NO_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                             "duid",
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                                             SUBNET_ID_UNUSED, SubnetID(1),
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                                             IOAddress("0.0.0.0"),
                                             "foo.example.com"))));
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    // Try to add the host with the same DUID to the same subnet. The fact
    // that the IP address is different here shouldn't really matter.
    EXPECT_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                          "duid",
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                                          SUBNET_ID_UNUSED, SubnetID(1),
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                                          IOAddress("0.0.0.0"),
                                          "foo.example.com"))),
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                 isc::dhcp::DuplicateHost);

    // Now try to add it to a different subnet. It should go through.
    EXPECT_NO_THROW(cfg.add(HostPtr(new Host(duids_[0]->toText(),
                                             "duid",
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                                             SUBNET_ID_UNUSED, SubnetID(2),
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                                             IOAddress("0.0.0.0"),
                                             "foo.example.com"))));
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}


} // end of anonymous namespace