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// Copyright (c) 2018-2023, The Monero Project

//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
//    conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
//    of conditions and the following disclaimer in the documentation and/or other
//    materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors may be
//    used to endorse or promote products derived from this software without specific
//    prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

#include <algorithm>
#include <atomic>
#include <boost/archive/portable_binary_oarchive.hpp>
#include <boost/archive/portable_binary_iarchive.hpp>
#include <boost/asio/buffer.hpp>
#include <boost/asio/io_service.hpp>
#include <boost/asio/ip/tcp.hpp>
#include <boost/asio/read.hpp>
#include <boost/asio/steady_timer.hpp>
#include <boost/asio/write.hpp>
#include <boost/endian/conversion.hpp>
#include <boost/range/adaptor/sliced.hpp>
#include <boost/range/combine.hpp>
#include <boost/system/error_code.hpp>
#include <boost/thread/scoped_thread.hpp>
#include <boost/thread/thread.hpp>
#include <boost/uuid/nil_generator.hpp>
#include <boost/uuid/random_generator.hpp>
#include <boost/uuid/uuid.hpp>
#include <cstdint>
#include <cstring>
#include <functional>
#include <gtest/gtest.h>
#include <map>
#include <memory>
#include <type_traits>

#include "crypto/crypto.h"
#include "net/dandelionpp.h"
#include "net/error.h"
#include "net/i2p_address.h"
#include "net/net_utils_base.h"
#include "net/socks.h"
#include "net/socks_connect.h"
#include "net/parse.h"
#include "net/tor_address.h"
#include "net/zmq.h"
#include "p2p/net_peerlist_boost_serialization.h"
#include "serialization/keyvalue_serialization.h"
#include "storages/portable_storage.h"

namespace
{
    static constexpr const char v2_onion[] =
        "xmrto2bturnore26.onion";
    static constexpr const char v3_onion[] =
        "vww6ybal4bd7szmgncyruucpgfkqahzddi37ktceo3ah7ngmcopnpyyd.onion";
    static constexpr const char v3_onion_2[] =
        "zpv4fa3szgel7vf6jdjeugizdclq2vzkelscs2bhbgnlldzzggcen3ad.onion";
}

TEST(tor_address, constants)
{
    static_assert(!net::tor_address::is_local(), "bad is_local() response");
    static_assert(!net::tor_address::is_loopback(), "bad is_loopback() response");
    static_assert(net::tor_address::get_type_id() == epee::net_utils::address_type::tor, "bad get_type_id() response");

    EXPECT_FALSE(net::tor_address::is_local());
    EXPECT_FALSE(net::tor_address::is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::tor, net::tor_address::get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::tor, net::tor_address::get_type_id());
}

TEST(tor_address, invalid)
{
    EXPECT_TRUE(net::tor_address::make("").has_error());
    EXPECT_TRUE(net::tor_address::make(":").has_error());
    EXPECT_TRUE(net::tor_address::make(".onion").has_error());
    EXPECT_TRUE(net::tor_address::make(".onion:").has_error());
    EXPECT_TRUE(net::tor_address::make(v3_onion + 1).has_error());
    EXPECT_TRUE(net::tor_address::make(boost::string_ref{v3_onion, sizeof(v3_onion) - 2}).has_error());
    EXPECT_TRUE(net::tor_address::make(std::string{v3_onion} + ":-").has_error());
    EXPECT_TRUE(net::tor_address::make(std::string{v3_onion} + ":900a").has_error());
    EXPECT_TRUE(net::tor_address::make(std::string{v3_onion} + ":65536").has_error());
    EXPECT_TRUE(net::tor_address::make(std::string{v3_onion} + ":-1").has_error());

    std::string onion{v3_onion};
    onion.at(10) = 1;
    EXPECT_TRUE(net::tor_address::make(onion).has_error());
}

TEST(tor_address, unblockable_types)
{
    net::tor_address tor{};

    ASSERT_NE(nullptr, tor.host_str());
    EXPECT_STREQ("<unknown tor host>", tor.host_str());
    EXPECT_STREQ("<unknown tor host>", tor.str().c_str());
    EXPECT_EQ(0u, tor.port());
    EXPECT_TRUE(tor.is_unknown());
    EXPECT_FALSE(tor.is_local());
    EXPECT_FALSE(tor.is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::tor, tor.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::tor, tor.get_zone());

    tor = net::tor_address::unknown();
    ASSERT_NE(nullptr, tor.host_str());
    EXPECT_STREQ("<unknown tor host>", tor.host_str());
    EXPECT_STREQ("<unknown tor host>", tor.str().c_str());
    EXPECT_EQ(0u, tor.port());
    EXPECT_TRUE(tor.is_unknown());
    EXPECT_FALSE(tor.is_local());
    EXPECT_FALSE(tor.is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::tor, tor.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::tor, tor.get_zone());

    EXPECT_EQ(net::tor_address{}, net::tor_address::unknown());
}

TEST(tor_address, valid)
{
    const auto address1 = net::tor_address::make(v3_onion);

    ASSERT_TRUE(address1.has_value());
    EXPECT_EQ(0u, address1->port());
    EXPECT_STREQ(v3_onion, address1->host_str());
    EXPECT_STREQ(v3_onion, address1->str().c_str());
    EXPECT_TRUE(address1->is_blockable());

    net::tor_address address2{*address1};

    EXPECT_EQ(0u, address2.port());
    EXPECT_STREQ(v3_onion, address2.host_str());
    EXPECT_STREQ(v3_onion, address2.str().c_str());
    EXPECT_TRUE(address2.is_blockable());
    EXPECT_TRUE(address2.equal(*address1));
    EXPECT_TRUE(address1->equal(address2));
    EXPECT_TRUE(address2 == *address1);
    EXPECT_TRUE(*address1 == address2);
    EXPECT_FALSE(address2 != *address1);
    EXPECT_FALSE(*address1 != address2);
    EXPECT_TRUE(address2.is_same_host(*address1));
    EXPECT_TRUE(address1->is_same_host(address2));
    EXPECT_FALSE(address2.less(*address1));
    EXPECT_FALSE(address1->less(address2));

    address2 = MONERO_UNWRAP(net::tor_address::make(std::string{v3_onion_2} + ":6545"));

    EXPECT_EQ(6545, address2.port());
    EXPECT_STREQ(v3_onion_2, address2.host_str());
    EXPECT_EQ(std::string{v3_onion_2} + ":6545", address2.str().c_str());
    EXPECT_TRUE(address2.is_blockable());
    EXPECT_FALSE(address2.equal(*address1));
    EXPECT_FALSE(address1->equal(address2));
    EXPECT_FALSE(address2 == *address1);
    EXPECT_FALSE(*address1 == address2);
    EXPECT_TRUE(address2 != *address1);
    EXPECT_TRUE(*address1 != address2);
    EXPECT_FALSE(address2.is_same_host(*address1));
    EXPECT_FALSE(address1->is_same_host(address2));
    EXPECT_FALSE(address2.less(*address1));
    EXPECT_TRUE(address1->less(address2));

    net::tor_address address3 = MONERO_UNWRAP(net::tor_address::make(std::string{v3_onion} + ":", 65535));

    EXPECT_EQ(65535, address3.port());
    EXPECT_STREQ(v3_onion, address3.host_str());
    EXPECT_EQ(std::string{v3_onion} + ":65535", address3.str().c_str());
    EXPECT_TRUE(address3.is_blockable());
    EXPECT_FALSE(address3.equal(*address1));
    EXPECT_FALSE(address1->equal(address3));
    EXPECT_FALSE(address3 == *address1);
    EXPECT_FALSE(*address1 == address3);
    EXPECT_TRUE(address3 != *address1);
    EXPECT_TRUE(*address1 != address3);
    EXPECT_TRUE(address3.is_same_host(*address1));
    EXPECT_TRUE(address1->is_same_host(address3));
    EXPECT_FALSE(address3.less(*address1));
    EXPECT_TRUE(address1->less(address3));

    EXPECT_FALSE(address3.equal(address2));
    EXPECT_FALSE(address2.equal(address3));
    EXPECT_FALSE(address3 == address2);
    EXPECT_FALSE(address2 == address3);
    EXPECT_TRUE(address3 != address2);
    EXPECT_TRUE(address2 != address3);
    EXPECT_FALSE(address3.is_same_host(address2));
    EXPECT_FALSE(address2.is_same_host(address3));
    EXPECT_TRUE(address3.less(address2));
    EXPECT_FALSE(address2.less(address3));
}

TEST(tor_address, generic_network_address)
{
    const epee::net_utils::network_address tor1{MONERO_UNWRAP(net::tor_address::make(v3_onion, 8080))};
    const epee::net_utils::network_address tor2{MONERO_UNWRAP(net::tor_address::make(v3_onion, 8080))};
    const epee::net_utils::network_address ip{epee::net_utils::ipv4_network_address{100, 200}};

    EXPECT_EQ(tor1, tor2);
    EXPECT_NE(ip, tor1);
    EXPECT_LT(ip, tor1);

    EXPECT_STREQ(v3_onion, tor1.host_str().c_str());
    EXPECT_EQ(std::string{v3_onion} + ":8080", tor1.str());
    EXPECT_EQ(epee::net_utils::address_type::tor, tor1.get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::tor, tor2.get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::ipv4, ip.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::tor, tor1.get_zone());
    EXPECT_EQ(epee::net_utils::zone::tor, tor2.get_zone());
    EXPECT_EQ(epee::net_utils::zone::public_, ip.get_zone());
    EXPECT_TRUE(tor1.is_blockable());
    EXPECT_TRUE(tor2.is_blockable());
    EXPECT_TRUE(ip.is_blockable());
}

namespace
{
    struct test_command_tor
    {
        net::tor_address tor;

        BEGIN_KV_SERIALIZE_MAP()
            KV_SERIALIZE(tor)
        END_KV_SERIALIZE_MAP()
    };
}

TEST(tor_address, epee_serializev_v3)
{
    epee::byte_slice buffer{};
    {
        test_command_tor command{MONERO_UNWRAP(net::tor_address::make(v3_onion, 10))};
        EXPECT_FALSE(command.tor.is_unknown());
        EXPECT_NE(net::tor_address{}, command.tor);
        EXPECT_STREQ(v3_onion, command.tor.host_str());
        EXPECT_EQ(10u, command.tor.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(command.store(stg));
        EXPECT_TRUE(stg.store_to_binary(buffer));
    }

    test_command_tor command{};
    {
        EXPECT_TRUE(command.tor.is_unknown());
        EXPECT_EQ(net::tor_address{}, command.tor);
        EXPECT_STREQ(net::tor_address::unknown_str(), command.tor.host_str());
        EXPECT_EQ(0u, command.tor.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(stg.load_from_binary(epee::to_span(buffer)));
        EXPECT_TRUE(command.load(stg));
    }
    EXPECT_FALSE(command.tor.is_unknown());
    EXPECT_NE(net::tor_address{}, command.tor);
    EXPECT_STREQ(v3_onion, command.tor.host_str());
    EXPECT_EQ(10u, command.tor.port());

    // make sure that exceeding max buffer doesn't destroy tor_address::_load
    {
        epee::serialization::portable_storage stg{};
        stg.load_from_binary(epee::to_span(buffer));

        std::string host{};
        ASSERT_TRUE(stg.get_value("host", host, stg.open_section("tor", nullptr, false)));
        EXPECT_EQ(std::strlen(v3_onion), host.size());

        host.push_back('k');
        EXPECT_TRUE(stg.set_value("host", std::move(host), stg.open_section("tor", nullptr, false)));
        EXPECT_TRUE(command.load(stg)); // poor error reporting from `KV_SERIALIZE`
    }

    EXPECT_TRUE(command.tor.is_unknown());
    EXPECT_EQ(net::tor_address{}, command.tor);
    EXPECT_STRNE(v3_onion, command.tor.host_str());
    EXPECT_EQ(0u, command.tor.port());
}

TEST(tor_address, epee_serialize_unknown)
{
    epee::byte_slice buffer{};
    {
        test_command_tor command{net::tor_address::unknown()};
        EXPECT_TRUE(command.tor.is_unknown());
        EXPECT_EQ(net::tor_address{}, command.tor);
        EXPECT_STREQ(net::tor_address::unknown_str(), command.tor.host_str());
        EXPECT_EQ(0u, command.tor.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(command.store(stg));
        EXPECT_TRUE(stg.store_to_binary(buffer));
    }

    test_command_tor command{};
    {
        EXPECT_TRUE(command.tor.is_unknown());
        EXPECT_EQ(net::tor_address{}, command.tor);
        EXPECT_STRNE(v3_onion, command.tor.host_str());
        EXPECT_EQ(0u, command.tor.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(stg.load_from_binary(epee::to_span(buffer)));
        EXPECT_TRUE(command.load(stg));
    }
    EXPECT_TRUE(command.tor.is_unknown());
    EXPECT_EQ(net::tor_address{}, command.tor);
    EXPECT_STREQ(net::tor_address::unknown_str(), command.tor.host_str());
    EXPECT_EQ(0u, command.tor.port());

    // make sure that exceeding max buffer doesn't destroy tor_address::_load
    {
        epee::serialization::portable_storage stg{};
        stg.load_from_binary(epee::to_span(buffer));

        std::string host{};
        ASSERT_TRUE(stg.get_value("host", host, stg.open_section("tor", nullptr, false)));
        EXPECT_EQ(std::strlen(net::tor_address::unknown_str()), host.size());

        host.push_back('k');
        EXPECT_TRUE(stg.set_value("host", std::move(host), stg.open_section("tor", nullptr, false)));
        EXPECT_TRUE(command.load(stg)); // poor error reporting from `KV_SERIALIZE`
    }

    EXPECT_TRUE(command.tor.is_unknown());
    EXPECT_EQ(net::tor_address{}, command.tor);
    EXPECT_STRNE(v3_onion, command.tor.host_str());
    EXPECT_EQ(0u, command.tor.port());
}

TEST(tor_address, boost_serialize_v3)
{
    std::string buffer{};
    {
        const net::tor_address tor = MONERO_UNWRAP(net::tor_address::make(v3_onion, 10));
        EXPECT_FALSE(tor.is_unknown());
        EXPECT_NE(net::tor_address{}, tor);
        EXPECT_STREQ(v3_onion, tor.host_str());
        EXPECT_EQ(10u, tor.port());

        std::ostringstream stream{};
        {
            boost::archive::portable_binary_oarchive archive{stream};
            archive << tor;
        }
        buffer = stream.str();
    }

    net::tor_address tor{};
    {
        EXPECT_TRUE(tor.is_unknown());
        EXPECT_EQ(net::tor_address{}, tor);
        EXPECT_STREQ(net::tor_address::unknown_str(), tor.host_str());
        EXPECT_EQ(0u, tor.port());

        std::istringstream stream{buffer};
        boost::archive::portable_binary_iarchive archive{stream};
        archive >> tor;
    }
    EXPECT_FALSE(tor.is_unknown());
    EXPECT_NE(net::tor_address{}, tor);
    EXPECT_STREQ(v3_onion, tor.host_str());
    EXPECT_EQ(10u, tor.port());
}

TEST(tor_address, boost_serialize_unknown)
{
    std::string buffer{};
    {
        const net::tor_address tor{};
        EXPECT_TRUE(tor.is_unknown());
        EXPECT_EQ(net::tor_address::unknown(), tor);
        EXPECT_STREQ(net::tor_address::unknown_str(), tor.host_str());
        EXPECT_EQ(0u, tor.port());

        std::ostringstream stream{};
        {
            boost::archive::portable_binary_oarchive archive{stream};
            archive << tor;
        }
        buffer = stream.str();
    }

    net::tor_address tor{};
    {
        EXPECT_TRUE(tor.is_unknown());
        EXPECT_EQ(net::tor_address{}, tor);
        EXPECT_STREQ(net::tor_address::unknown_str(), tor.host_str());
        EXPECT_EQ(0u, tor.port());

        std::istringstream stream{buffer};
        boost::archive::portable_binary_iarchive archive{stream};
        archive >> tor;
    }
    EXPECT_TRUE(tor.is_unknown());
    EXPECT_EQ(net::tor_address::unknown(), tor);
    EXPECT_STREQ(net::tor_address::unknown_str(), tor.host_str());
    EXPECT_EQ(0u, tor.port());
}

TEST(get_network_address, onion)
{
    expect<epee::net_utils::network_address> address =
        net::get_network_address("onion", 0);
    EXPECT_EQ(net::error::unsupported_address, address);

    address = net::get_network_address(".onion", 0);
    EXPECT_EQ(net::error::invalid_tor_address, address);

    address = net::get_network_address(v2_onion, 1000);
    EXPECT_EQ(net::error::invalid_tor_address, address);

    address = net::get_network_address(v3_onion, 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::tor, address->get_type_id());
    EXPECT_STREQ(v3_onion, address->host_str().c_str());
    EXPECT_EQ(std::string{v3_onion} + ":1000", address->str());

    address = net::get_network_address(std::string{v3_onion} + ":2000", 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::tor, address->get_type_id());
    EXPECT_STREQ(v3_onion, address->host_str().c_str());
    EXPECT_EQ(std::string{v3_onion} + ":2000", address->str());

    address = net::get_network_address(std::string{v3_onion} + ":65536", 1000);
    EXPECT_EQ(net::error::invalid_port, address);
}

namespace
{
    static constexpr const char b32_i2p[] =
        "vww6ybal4bd7szmgncyruucpgfkqahzddi37ktceo3ah7ngmcopn.b32.i2p";
    static constexpr const char b32_i2p_2[] =
        "xmrto2bturnore26xmrto2bturnore26xmrto2bturnore26xmr2.b32.i2p";
}

TEST(i2p_address, constants)
{
    static_assert(!net::i2p_address::is_local(), "bad is_local() response");
    static_assert(!net::i2p_address::is_loopback(), "bad is_loopback() response");
    static_assert(net::i2p_address::get_type_id() == epee::net_utils::address_type::i2p, "bad get_type_id() response");

    EXPECT_FALSE(net::i2p_address::is_local());
    EXPECT_FALSE(net::i2p_address::is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::i2p, net::i2p_address::get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::i2p, net::i2p_address::get_type_id());
}

TEST(i2p_address, invalid)
{
    EXPECT_TRUE(net::i2p_address::make("").has_error());
    EXPECT_TRUE(net::i2p_address::make(":").has_error());
    EXPECT_TRUE(net::i2p_address::make(".b32.i2p").has_error());
    EXPECT_TRUE(net::i2p_address::make(".b32.i2p:").has_error());
    EXPECT_TRUE(net::i2p_address::make(b32_i2p + 1).has_error());
    EXPECT_TRUE(net::i2p_address::make(boost::string_ref{b32_i2p, sizeof(b32_i2p) - 2}).has_error());

    std::string i2p{b32_i2p};
    i2p.at(10) = 1;
    EXPECT_TRUE(net::i2p_address::make(i2p).has_error());
}

TEST(i2p_address, unblockable_types)
{
    net::i2p_address i2p{};

    ASSERT_NE(nullptr, i2p.host_str());
    EXPECT_STREQ("<unknown i2p host>", i2p.host_str());
    EXPECT_STREQ("<unknown i2p host>", i2p.str().c_str());
    EXPECT_EQ(1u, i2p.port());
    EXPECT_TRUE(i2p.is_unknown());
    EXPECT_FALSE(i2p.is_local());
    EXPECT_FALSE(i2p.is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::i2p, i2p.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::i2p, i2p.get_zone());

    i2p = net::i2p_address::unknown();
    ASSERT_NE(nullptr, i2p.host_str());
    EXPECT_STREQ("<unknown i2p host>", i2p.host_str());
    EXPECT_STREQ("<unknown i2p host>", i2p.str().c_str());
    EXPECT_EQ(1u, i2p.port());
    EXPECT_TRUE(i2p.is_unknown());
    EXPECT_FALSE(i2p.is_local());
    EXPECT_FALSE(i2p.is_loopback());
    EXPECT_EQ(epee::net_utils::address_type::i2p, i2p.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::i2p, i2p.get_zone());

    EXPECT_EQ(net::i2p_address{}, net::i2p_address::unknown());
}

TEST(i2p_address, valid)
{
    const auto address1 = net::i2p_address::make(b32_i2p);

    ASSERT_TRUE(address1.has_value());
    EXPECT_EQ(1u, address1->port());
    EXPECT_STREQ(b32_i2p, address1->host_str());
    EXPECT_STREQ(b32_i2p, address1->str().c_str());
    EXPECT_TRUE(address1->is_blockable());

    net::i2p_address address2{*address1};

    EXPECT_EQ(1u, address2.port());
    EXPECT_STREQ(b32_i2p, address2.host_str());
    EXPECT_STREQ(b32_i2p, address2.str().c_str());
    EXPECT_TRUE(address2.is_blockable());
    EXPECT_TRUE(address2.equal(*address1));
    EXPECT_TRUE(address1->equal(address2));
    EXPECT_TRUE(address2 == *address1);
    EXPECT_TRUE(*address1 == address2);
    EXPECT_FALSE(address2 != *address1);
    EXPECT_FALSE(*address1 != address2);
    EXPECT_TRUE(address2.is_same_host(*address1));
    EXPECT_TRUE(address1->is_same_host(address2));
    EXPECT_FALSE(address2.less(*address1));
    EXPECT_FALSE(address1->less(address2));

    address2 = MONERO_UNWRAP(net::i2p_address::make(std::string{b32_i2p_2} + ":6545"));

    EXPECT_EQ(1u, address2.port());
    EXPECT_STREQ(b32_i2p_2, address2.host_str());
    EXPECT_EQ(std::string{b32_i2p_2}, address2.str().c_str());
    EXPECT_TRUE(address2.is_blockable());
    EXPECT_FALSE(address2.equal(*address1));
    EXPECT_FALSE(address1->equal(address2));
    EXPECT_FALSE(address2 == *address1);
    EXPECT_FALSE(*address1 == address2);
    EXPECT_TRUE(address2 != *address1);
    EXPECT_TRUE(*address1 != address2);
    EXPECT_FALSE(address2.is_same_host(*address1));
    EXPECT_FALSE(address1->is_same_host(address2));
    EXPECT_FALSE(address2.less(*address1));
    EXPECT_TRUE(address1->less(address2));

    net::i2p_address address3 = MONERO_UNWRAP(net::i2p_address::make(std::string{b32_i2p} + ":65535"));

    EXPECT_EQ(1u, address3.port());
    EXPECT_STREQ(b32_i2p, address3.host_str());
    EXPECT_EQ(std::string{b32_i2p}, address3.str().c_str());
    EXPECT_TRUE(address3.is_blockable());
    EXPECT_TRUE(address3.equal(*address1));
    EXPECT_TRUE(address1->equal(address3));
    EXPECT_TRUE(address3 == *address1);
    EXPECT_TRUE(*address1 == address3);
    EXPECT_FALSE(address3 != *address1);
    EXPECT_FALSE(*address1 != address3);
    EXPECT_TRUE(address3.is_same_host(*address1));
    EXPECT_TRUE(address1->is_same_host(address3));
    EXPECT_FALSE(address3.less(*address1));
    EXPECT_FALSE(address1->less(address3));

    EXPECT_FALSE(address3.equal(address2));
    EXPECT_FALSE(address2.equal(address3));
    EXPECT_FALSE(address3 == address2);
    EXPECT_FALSE(address2 == address3);
    EXPECT_TRUE(address3 != address2);
    EXPECT_TRUE(address2 != address3);
    EXPECT_FALSE(address3.is_same_host(address2));
    EXPECT_FALSE(address2.is_same_host(address3));
    EXPECT_TRUE(address3.less(address2));
    EXPECT_FALSE(address2.less(address3));
}

TEST(i2p_address, generic_network_address)
{
    const epee::net_utils::network_address i2p1{MONERO_UNWRAP(net::i2p_address::make(b32_i2p))};
    const epee::net_utils::network_address i2p2{MONERO_UNWRAP(net::i2p_address::make(b32_i2p))};
    const epee::net_utils::network_address ip{epee::net_utils::ipv4_network_address{100, 200}};

    EXPECT_EQ(i2p1, i2p2);
    EXPECT_NE(ip, i2p1);
    EXPECT_LT(ip, i2p1);

    EXPECT_STREQ(b32_i2p, i2p1.host_str().c_str());
    EXPECT_STREQ(b32_i2p, i2p1.str().c_str());
    EXPECT_EQ(epee::net_utils::address_type::i2p, i2p1.get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::i2p, i2p2.get_type_id());
    EXPECT_EQ(epee::net_utils::address_type::ipv4, ip.get_type_id());
    EXPECT_EQ(epee::net_utils::zone::i2p, i2p1.get_zone());
    EXPECT_EQ(epee::net_utils::zone::i2p, i2p2.get_zone());
    EXPECT_EQ(epee::net_utils::zone::public_, ip.get_zone());
    EXPECT_TRUE(i2p1.is_blockable());
    EXPECT_TRUE(i2p2.is_blockable());
    EXPECT_TRUE(ip.is_blockable());
}

namespace
{
    struct test_command_i2p
    {
        net::i2p_address i2p;

        BEGIN_KV_SERIALIZE_MAP()
            KV_SERIALIZE(i2p)
        END_KV_SERIALIZE_MAP()
    };
}

TEST(i2p_address, epee_serializev_b32)
{
    epee::byte_slice buffer{};
    {
        test_command_i2p command{MONERO_UNWRAP(net::i2p_address::make(b32_i2p))};
        EXPECT_FALSE(command.i2p.is_unknown());
        EXPECT_NE(net::i2p_address{}, command.i2p);
        EXPECT_STREQ(b32_i2p, command.i2p.host_str());
        EXPECT_EQ(1u, command.i2p.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(command.store(stg));
        EXPECT_TRUE(stg.store_to_binary(buffer));
    }

    test_command_i2p command{};
    {
        EXPECT_TRUE(command.i2p.is_unknown());
        EXPECT_EQ(net::i2p_address{}, command.i2p);
        EXPECT_STREQ(net::i2p_address::unknown_str(), command.i2p.host_str());
        EXPECT_EQ(1u, command.i2p.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(stg.load_from_binary(epee::to_span(buffer)));
        EXPECT_TRUE(command.load(stg));
    }
    EXPECT_FALSE(command.i2p.is_unknown());
    EXPECT_NE(net::i2p_address{}, command.i2p);
    EXPECT_STREQ(b32_i2p, command.i2p.host_str());
    EXPECT_EQ(1u, command.i2p.port());

    // make sure that exceeding max buffer doesn't destroy i2p_address::_load
    {
        epee::serialization::portable_storage stg{};
        stg.load_from_binary(epee::to_span(buffer));

        std::string host{};
        ASSERT_TRUE(stg.get_value("host", host, stg.open_section("i2p", nullptr, false)));
        EXPECT_EQ(std::strlen(b32_i2p), host.size());

        host.push_back('k');
        EXPECT_TRUE(stg.set_value("host", std::string{host}, stg.open_section("i2p", nullptr, false)));
        EXPECT_TRUE(command.load(stg)); // poor error reporting from `KV_SERIALIZE`
    }

    EXPECT_TRUE(command.i2p.is_unknown());
    EXPECT_EQ(net::i2p_address{}, command.i2p);
    EXPECT_STRNE(b32_i2p, command.i2p.host_str());
    EXPECT_EQ(1u, command.i2p.port());
}

TEST(i2p_address, epee_serialize_unknown)
{
    epee::byte_slice buffer{};
    {
        test_command_i2p command{net::i2p_address::unknown()};
        EXPECT_TRUE(command.i2p.is_unknown());
        EXPECT_EQ(net::i2p_address{}, command.i2p);
        EXPECT_STREQ(net::i2p_address::unknown_str(), command.i2p.host_str());
        EXPECT_EQ(1u, command.i2p.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(command.store(stg));
        EXPECT_TRUE(stg.store_to_binary(buffer));
    }

    test_command_i2p command{};
    {
        EXPECT_TRUE(command.i2p.is_unknown());
        EXPECT_EQ(net::i2p_address{}, command.i2p);
        EXPECT_STRNE(b32_i2p, command.i2p.host_str());
        EXPECT_EQ(1u, command.i2p.port());

        epee::serialization::portable_storage stg{};
        EXPECT_TRUE(stg.load_from_binary(epee::to_span(buffer)));
        EXPECT_TRUE(command.load(stg));
    }
    EXPECT_TRUE(command.i2p.is_unknown());
    EXPECT_EQ(net::i2p_address{}, command.i2p);
    EXPECT_STREQ(net::i2p_address::unknown_str(), command.i2p.host_str());
    EXPECT_EQ(1u, command.i2p.port());

    // make sure that exceeding max buffer doesn't destroy i2p_address::_load
    {
        epee::serialization::portable_storage stg{};
        stg.load_from_binary(epee::to_span(buffer));

        std::string host{};
        ASSERT_TRUE(stg.get_value("host", host, stg.open_section("i2p", nullptr, false)));
        EXPECT_EQ(std::strlen(net::i2p_address::unknown_str()), host.size());

        host.push_back('k');
        EXPECT_TRUE(stg.set_value("host", std::string{host}, stg.open_section("i2p", nullptr, false)));
        EXPECT_TRUE(command.load(stg)); // poor error reporting from `KV_SERIALIZE`
    }

    EXPECT_TRUE(command.i2p.is_unknown());
    EXPECT_EQ(net::i2p_address{}, command.i2p);
    EXPECT_STRNE(b32_i2p, command.i2p.host_str());
    EXPECT_EQ(1u, command.i2p.port());
}

TEST(i2p_address, boost_serialize_b32)
{
    std::string buffer{};
    {
        const net::i2p_address i2p = MONERO_UNWRAP(net::i2p_address::make(b32_i2p));
        EXPECT_FALSE(i2p.is_unknown());
        EXPECT_NE(net::i2p_address{}, i2p);
        EXPECT_STREQ(b32_i2p, i2p.host_str());
        EXPECT_EQ(1u, i2p.port());

        std::ostringstream stream{};
        {
            boost::archive::portable_binary_oarchive archive{stream};
            archive << i2p;
        }
        buffer = stream.str();
    }

    net::i2p_address i2p{};
    {
        EXPECT_TRUE(i2p.is_unknown());
        EXPECT_EQ(net::i2p_address{}, i2p);
        EXPECT_STREQ(net::i2p_address::unknown_str(), i2p.host_str());
        EXPECT_EQ(1u, i2p.port());

        std::istringstream stream{buffer};
        boost::archive::portable_binary_iarchive archive{stream};
        archive >> i2p;
    }
    EXPECT_FALSE(i2p.is_unknown());
    EXPECT_NE(net::i2p_address{}, i2p);
    EXPECT_STREQ(b32_i2p, i2p.host_str());
    EXPECT_EQ(1u, i2p.port());
}

TEST(i2p_address, boost_serialize_unknown)
{
    std::string buffer{};
    {
        const net::i2p_address i2p{};
        EXPECT_TRUE(i2p.is_unknown());
        EXPECT_EQ(net::i2p_address::unknown(), i2p);
        EXPECT_STREQ(net::i2p_address::unknown_str(), i2p.host_str());
        EXPECT_EQ(1u, i2p.port());

        std::ostringstream stream{};
        {
            boost::archive::portable_binary_oarchive archive{stream};
            archive << i2p;
        }
        buffer = stream.str();
    }

    net::i2p_address i2p{};
    {
        EXPECT_TRUE(i2p.is_unknown());
        EXPECT_EQ(net::i2p_address{}, i2p);
        EXPECT_STREQ(net::i2p_address::unknown_str(), i2p.host_str());
        EXPECT_EQ(1u, i2p.port());

        std::istringstream stream{buffer};
        boost::archive::portable_binary_iarchive archive{stream};
        archive >> i2p;
    }
    EXPECT_TRUE(i2p.is_unknown());
    EXPECT_EQ(net::i2p_address::unknown(), i2p);
    EXPECT_STREQ(net::i2p_address::unknown_str(), i2p.host_str());
    EXPECT_EQ(1u, i2p.port());
}

TEST(get_network_address, i2p)
{
    expect<epee::net_utils::network_address> address =
        net::get_network_address("i2p", 0);
    EXPECT_EQ(net::error::unsupported_address, address);

    address = net::get_network_address(".b32.i2p", 0);
    EXPECT_EQ(net::error::invalid_i2p_address, address);

    address = net::get_network_address(b32_i2p, 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::i2p, address->get_type_id());
    EXPECT_STREQ(b32_i2p, address->host_str().c_str());
    EXPECT_EQ(std::string{b32_i2p}, address->str());

    address = net::get_network_address(std::string{b32_i2p} + ":2000", 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::i2p, address->get_type_id());
    EXPECT_STREQ(b32_i2p, address->host_str().c_str());
    EXPECT_EQ(std::string{b32_i2p}, address->str());
}

TEST(get_network_address, ipv4)
{
    expect<epee::net_utils::network_address> address =
        net::get_network_address("0.0.0.", 0);
    EXPECT_EQ(net::error::unsupported_address, address);

    address = net::get_network_address("0.0.0.257", 0);
    EXPECT_EQ(net::error::unsupported_address, address);

    address = net::get_network_address("0.0.0.254", 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::ipv4, address->get_type_id());
    EXPECT_STREQ("0.0.0.254", address->host_str().c_str());
    EXPECT_STREQ("0.0.0.254:1000", address->str().c_str());

    address = net::get_network_address("23.0.0.254:2000", 1000);
    ASSERT_TRUE(bool(address));
    EXPECT_EQ(epee::net_utils::address_type::ipv4, address->get_type_id());
    EXPECT_STREQ("23.0.0.254", address->host_str().c_str());
    EXPECT_STREQ("23.0.0.254:2000", address->str().c_str());
}

TEST(get_network_address, ipv4subnet)
{
    expect<epee::net_utils::ipv4_network_subnet> address = net::get_ipv4_subnet_address("0.0.0.0", true);
    EXPECT_STREQ("0.0.0.0/32", address->str().c_str());

    address = net::get_ipv4_subnet_address("0.0.0.0");
    EXPECT_TRUE(!address);

    address = net::get_ipv4_subnet_address("0.0.0.0/32");
    EXPECT_STREQ("0.0.0.0/32", address->str().c_str());

    address = net::get_ipv4_subnet_address("0.0.0.0/0");
    EXPECT_STREQ("0.0.0.0/0", address->str().c_str());

    address = net::get_ipv4_subnet_address("12.34.56.78/16");
    EXPECT_STREQ("12.34.0.0/16", address->str().c_str());
}

namespace
{
    void na_host_and_port_test(std::string addr, std::string exp_host, std::string exp_port)
    {
        std::string host{"xxxxx"};
        std::string port{"xxxxx"};
        net::get_network_address_host_and_port(addr, host, port);
        EXPECT_EQ(exp_host, host);
        EXPECT_EQ(exp_port, port);
    }
} // anonymous namespace

TEST(get_network_address_host_and_port, ipv4)
{
    na_host_and_port_test("9.9.9.9", "9.9.9.9", "xxxxx");
    na_host_and_port_test("9.9.9.9:18081", "9.9.9.9", "18081");
}

TEST(get_network_address_host_and_port, ipv6)
{
    na_host_and_port_test("::ffff", "::ffff", "xxxxx");
    na_host_and_port_test("[::ffff]", "::ffff", "xxxxx");
    na_host_and_port_test("[::ffff]:00231", "::ffff", "00231");
    na_host_and_port_test("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff", "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff", "xxxxx");
    na_host_and_port_test("[7777:7777:7777:7777:7777:7777:7777:7777]", "7777:7777:7777:7777:7777:7777:7777:7777", "xxxxx");
    na_host_and_port_test("[7777:7777:7777:7777:7777:7777:7777:7777]:48080", "7777:7777:7777:7777:7777:7777:7777:7777", "48080");
}

TEST(get_network_address_host_and_port, hostname)
{
    na_host_and_port_test("localhost", "localhost", "xxxxx");
    na_host_and_port_test("bar:29080", "bar", "29080"); // Issue https://github.com/monero-project/monero/issues/8633
    na_host_and_port_test("xmrchain.net:18081", "xmrchain.net", "18081");
}

namespace
{
    using stream_type = boost::asio::ip::tcp;

    struct io_thread
    {
        boost::asio::io_service io_service;
        boost::asio::io_service::work work;
        stream_type::socket server;
        stream_type::acceptor acceptor;
        boost::thread io;
        std::atomic<bool> connected;

        io_thread()
          : io_service(),
            work(io_service),
            server(io_service),
            acceptor(io_service),
            io([this] () { try { this->io_service.run(); } catch (const std::exception& e) { MERROR(e.what()); }}),
            connected(false)
        {
            acceptor.open(boost::asio::ip::tcp::v4());
            acceptor.bind(stream_type::endpoint{boost::asio::ip::address_v4::loopback(), 0});
            acceptor.listen();
            acceptor.async_accept(server, [this] (boost::system::error_code error) {
                this->connected = true;
                if (error)
                    throw boost::system::system_error{error};
            });
        }

        ~io_thread() noexcept
        {
            io_service.stop();
            if (io.joinable())
                io.join();
        }
    };

    struct checked_client
    {
        std::atomic<bool>* called_;
        bool expected_;

        void operator()(boost::system::error_code error, net::socks::client::stream_type::socket&&) const
        {
            EXPECT_EQ(expected_, bool(error)) << "Socks server: " << error.message();
            ASSERT_TRUE(called_ != nullptr);
            (*called_) = true;
        }
    };
}

TEST(socks_client, unsupported_command)
{
    boost::asio::io_service io_service{};
    stream_type::socket client{io_service};

    auto test_client = net::socks::make_connect_client(
        std::move(client), net::socks::version::v4, std::bind( [] {} )
    );
    ASSERT_TRUE(bool(test_client));
    EXPECT_TRUE(test_client->buffer().empty());

    EXPECT_FALSE(test_client->set_connect_command("example.com", 8080));
    EXPECT_TRUE(test_client->buffer().empty());

    EXPECT_FALSE(test_client->set_resolve_command("example.com"));
    EXPECT_TRUE(test_client->buffer().empty());
}

TEST(socks_client, no_command)
{
    boost::asio::io_service io_service{};
    stream_type::socket client{io_service};

    auto test_client = net::socks::make_connect_client(
        std::move(client), net::socks::version::v4a, std::bind( [] {} )
    );
    ASSERT_TRUE(bool(test_client));
    EXPECT_FALSE(net::socks::client::send(std::move(test_client)));
}

TEST(socks_client, connect_command)
{
    io_thread io{};
    stream_type::socket client{io.io_service};

    std::atomic<bool> called{false};
    auto test_client = net::socks::make_connect_client(
        std::move(client), net::socks::version::v4a, checked_client{std::addressof(called), false}
    );
    ASSERT_TRUE(bool(test_client));

    ASSERT_TRUE(test_client->set_connect_command("example.com", 8080));
    EXPECT_FALSE(test_client->buffer().empty());
    ASSERT_TRUE(net::socks::client::connect_and_send(std::move(test_client), io.acceptor.local_endpoint()));
    while (!io.connected)
        ASSERT_FALSE(called);

    const std::uint8_t expected_bytes[] = {
        4, 1, 0x1f, 0x90, 0x00, 0x00, 0x00, 0x01, 0x00,
        'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm', 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    const std::uint8_t reply_bytes[] = {0, 90, 0, 0, 0, 0, 0, 0};
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    // yikes!
    while (!called);
}

TEST(socks_client, connect_command_failed)
{
    io_thread io{};
    stream_type::socket client{io.io_service};

    std::atomic<bool> called{false};
    auto test_client = net::socks::make_connect_client(
        std::move(client), net::socks::version::v4, checked_client{std::addressof(called), true}
    );
    ASSERT_TRUE(bool(test_client));

    ASSERT_TRUE(
        test_client->set_connect_command(
            epee::net_utils::ipv4_network_address{boost::endian::native_to_big(std::uint32_t(5000)), 3000}
        )
    );
    EXPECT_FALSE(test_client->buffer().empty());
    ASSERT_TRUE(net::socks::client::connect_and_send(std::move(test_client), io.acceptor.local_endpoint()));
    while (!io.connected)
        ASSERT_FALSE(called);

    const std::uint8_t expected_bytes[] = {
        4, 1, 0x0b, 0xb8, 0x00, 0x00, 0x13, 0x88, 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    const std::uint8_t reply_bytes[] = {0, 91, 0, 0, 0, 0, 0, 0};
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    // yikes!
    while (!called);
}

TEST(socks_client, resolve_command)
{
    static std::uint8_t reply_bytes[] = {0, 90, 0, 0, 0xff, 0, 0xad, 0};

    struct resolve_client : net::socks::client
    {
        std::atomic<unsigned> called_;
        bool expected_;

        resolve_client(stream_type::socket&& proxy)
          : net::socks::client(std::move(proxy), net::socks::version::v4a_tor)
          , called_(0)
          , expected_(false)
        {};

        virtual void done(boost::system::error_code error, std::shared_ptr<client> self) override
        {
            EXPECT_EQ(this, self.get());
            EXPECT_EQ(expected_, bool(error)) << "Resolve failure: " << error.message();

            if (!error)
            {
                ASSERT_EQ(sizeof(reply_bytes), buffer().size());
                EXPECT_EQ(0u, std::memcmp(buffer().data(), reply_bytes, sizeof(reply_bytes)));
            }

            ++called_;
        }
    };

    io_thread io{};
    stream_type::socket client{io.io_service};

    auto test_client = std::make_shared<resolve_client>(std::move(client));
    ASSERT_TRUE(bool(test_client));

    ASSERT_TRUE(test_client->set_resolve_command("example.com"));
    EXPECT_FALSE(test_client->buffer().empty());
    ASSERT_TRUE(net::socks::client::connect_and_send(test_client, io.acceptor.local_endpoint()));
    while (!io.connected)
        ASSERT_EQ(0u, test_client->called_);

    const std::uint8_t expected_bytes[] = {
        4, 0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00,
        'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm', 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    // yikes!
    while (test_client->called_ == 0);

    test_client->expected_ = true;
    ASSERT_TRUE(test_client->set_resolve_command("example.com"));
    EXPECT_FALSE(test_client->buffer().empty());
    ASSERT_TRUE(net::socks::client::send(test_client));

    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    reply_bytes[1] = 91;
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    // yikes!
    while (test_client->called_ == 1);
}

TEST(socks_connector, host)
{
    io_thread io{};
    boost::asio::steady_timer timeout{io.io_service};
    timeout.expires_from_now(std::chrono::seconds{5});

    boost::unique_future<boost::asio::ip::tcp::socket> sock =
        net::socks::connector{io.acceptor.local_endpoint()}("example.com", "8080", timeout);

    while (!io.connected)
        ASSERT_FALSE(sock.is_ready());
    const std::uint8_t expected_bytes[] = {
        4, 1, 0x1f, 0x90, 0x00, 0x00, 0x00, 0x01, 0x00,
        'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm', 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    const std::uint8_t reply_bytes[] = {0, 90, 0, 0, 0, 0, 0, 0};
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    ASSERT_EQ(boost::future_status::ready, sock.wait_for(boost::chrono::seconds{3}));
    EXPECT_TRUE(sock.get().is_open());
}

TEST(socks_connector, ipv4)
{
    io_thread io{};
    boost::asio::steady_timer timeout{io.io_service};
    timeout.expires_from_now(std::chrono::seconds{5});

    boost::unique_future<boost::asio::ip::tcp::socket> sock =
        net::socks::connector{io.acceptor.local_endpoint()}("250.88.125.99", "8080", timeout);

    while (!io.connected)
        ASSERT_FALSE(sock.is_ready());
    const std::uint8_t expected_bytes[] = {
        4, 1, 0x1f, 0x90, 0xfa, 0x58, 0x7d, 0x63, 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    const std::uint8_t reply_bytes[] = {0, 90, 0, 0, 0, 0, 0, 0};
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    ASSERT_EQ(boost::future_status::ready, sock.wait_for(boost::chrono::seconds{3}));
    EXPECT_TRUE(sock.get().is_open());
}

TEST(socks_connector, error)
{
    io_thread io{};
    boost::asio::steady_timer timeout{io.io_service};
    timeout.expires_from_now(std::chrono::seconds{5});

    boost::unique_future<boost::asio::ip::tcp::socket> sock =
        net::socks::connector{io.acceptor.local_endpoint()}("250.88.125.99", "8080", timeout);

    while (!io.connected)
        ASSERT_FALSE(sock.is_ready());
    const std::uint8_t expected_bytes[] = {
        4, 1, 0x1f, 0x90, 0xfa, 0x58, 0x7d, 0x63, 0x00
    };

    std::uint8_t actual_bytes[sizeof(expected_bytes)];
    boost::asio::read(io.server, boost::asio::buffer(actual_bytes));
    EXPECT_TRUE(std::memcmp(expected_bytes, actual_bytes, sizeof(actual_bytes)) == 0);

    const std::uint8_t reply_bytes[] = {0, 91, 0, 0, 0, 0, 0, 0};
    boost::asio::write(io.server, boost::asio::buffer(reply_bytes));

    ASSERT_EQ(boost::future_status::ready, sock.wait_for(boost::chrono::seconds{3}));
    EXPECT_THROW(sock.get().is_open(), boost::system::system_error);
}

TEST(socks_connector, timeout)
{
    io_thread io{};
    boost::asio::steady_timer timeout{io.io_service};
    timeout.expires_from_now(std::chrono::milliseconds{10});

    boost::unique_future<boost::asio::ip::tcp::socket> sock =
        net::socks::connector{io.acceptor.local_endpoint()}("250.88.125.99", "8080", timeout);

    ASSERT_EQ(boost::future_status::ready, sock.wait_for(boost::chrono::seconds{3}));
    EXPECT_THROW(sock.get().is_open(), boost::system::system_error);
}

TEST(dandelionpp_map, traits)
{
    EXPECT_TRUE(std::is_default_constructible<net::dandelionpp::connection_map>());
    EXPECT_TRUE(std::is_move_constructible<net::dandelionpp::connection_map>());
    EXPECT_TRUE(std::is_move_assignable<net::dandelionpp::connection_map>());
    EXPECT_FALSE(std::is_copy_constructible<net::dandelionpp::connection_map>());
    EXPECT_FALSE(std::is_copy_assignable<net::dandelionpp::connection_map>());
}

TEST(dandelionpp_map, empty)
{
    const net::dandelionpp::connection_map mapper{};

    EXPECT_EQ(mapper.begin(), mapper.end());
    EXPECT_EQ(0u, mapper.size());

    const net::dandelionpp::connection_map cloned = mapper.clone();
    EXPECT_EQ(cloned.begin(), cloned.end());
    EXPECT_EQ(0u, cloned.size());
}

TEST(dandelionpp_map, zero_stems)
{
    std::vector<boost::uuids::uuid> connections{6};
    for (auto &c: connections)
      c = boost::uuids::random_generator{}();

    net::dandelionpp::connection_map mapper{connections, 0};
    EXPECT_EQ(mapper.begin(), mapper.end());
    EXPECT_EQ(0u, mapper.size());

    for (const boost::uuids::uuid& connection : connections)
        EXPECT_TRUE(mapper.get_stem(connection).is_nil());

    EXPECT_FALSE(mapper.update(connections));
    EXPECT_EQ(mapper.begin(), mapper.end());
    EXPECT_EQ(0u, mapper.size());

    for (const boost::uuids::uuid& connection : connections)
        EXPECT_TRUE(mapper.get_stem(connection).is_nil());

    const net::dandelionpp::connection_map cloned = mapper.clone();
    EXPECT_EQ(cloned.end(), cloned.begin());
    EXPECT_EQ(0u, cloned.size());
}

TEST(dandelionpp_map, dropped_connection)
{
    std::vector<boost::uuids::uuid> connections{6};
    for (auto &c: connections)
      c = boost::uuids::random_generator{}();
    std::sort(connections.begin(), connections.end());

    // select 3 of 6 outgoing connections
    net::dandelionpp::connection_map mapper{connections, 3};
    EXPECT_EQ(3u, mapper.size());
    EXPECT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    {
        const net::dandelionpp::connection_map cloned = mapper.clone();
        EXPECT_EQ(3u, cloned.size());
        ASSERT_EQ(mapper.end() - mapper.begin(), cloned.end() - cloned.begin());
        for (auto elem : boost::combine(mapper, cloned))
            EXPECT_EQ(boost::get<0>(elem), boost::get<1>(elem));
    }
    EXPECT_FALSE(mapper.update(connections));
    EXPECT_EQ(3u, mapper.size());
    ASSERT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    std::map<boost::uuids::uuid, boost::uuids::uuid> mapping;
    std::vector<boost::uuids::uuid> in_connections{9};
    for (auto &c: in_connections)
      c = boost::uuids::random_generator{}();
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        std::multimap<boost::uuids::uuid, boost::uuids::uuid> inverse_mapping;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            EXPECT_TRUE(mapping.emplace(connection, out).second);
            inverse_mapping.emplace(out, connection);
            used[out]++;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(3u, entry.second);

        for (const boost::uuids::uuid& connection : in_connections)
            EXPECT_EQ(mapping[connection], mapper.get_stem(connection));

        // drop 1 connection, and select replacement from 1 of unused 3.
        const boost::uuids::uuid lost_connection = *(++mapper.begin());
        const auto elem = std::lower_bound(connections.begin(), connections.end(), lost_connection);
        ASSERT_NE(connections.end(), elem);
        ASSERT_EQ(lost_connection, *elem);
        connections.erase(elem);

        EXPECT_TRUE(mapper.update(connections));
        EXPECT_EQ(3u, mapper.size());
        ASSERT_EQ(3, mapper.end() - mapper.begin());

        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_NE(lost_connection, connection);
        }

        const boost::uuids::uuid newly_mapped = *(++mapper.begin());
        EXPECT_FALSE(newly_mapped.is_nil());
        EXPECT_NE(lost_connection, newly_mapped);

        for (auto elems = inverse_mapping.equal_range(lost_connection); elems.first != elems.second; ++elems.first)
            mapping[elems.first->second] = newly_mapped;
    }
    {
        const net::dandelionpp::connection_map cloned = mapper.clone();
        EXPECT_EQ(3u, cloned.size());
        ASSERT_EQ(mapper.end() - mapper.begin(), cloned.end() - cloned.begin());
        for (auto elem : boost::combine(mapper, cloned))
            EXPECT_EQ(boost::get<0>(elem), boost::get<1>(elem));
    }
    // mappings should remain evenly distributed amongst 2, with 3 sitting in waiting
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid& out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            EXPECT_EQ(mapping[connection], out);
            used[out]++;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(3u, entry.second);
    }
    {
        const net::dandelionpp::connection_map cloned = mapper.clone();
        EXPECT_EQ(3u, cloned.size());
        ASSERT_EQ(mapper.end() - mapper.begin(), cloned.end() - cloned.begin());
        for (auto elem : boost::combine(mapper, cloned))
            EXPECT_EQ(boost::get<0>(elem), boost::get<1>(elem));
    }
}

TEST(dandelionpp_map, dropped_connection_remapped)
{
    boost::uuids::random_generator random_uuid{};

    std::vector<boost::uuids::uuid> connections{3};
    for (auto &e: connections)
      e = random_uuid();
    std::sort(connections.begin(), connections.end());

    // select 3 of 3 outgoing connections
    net::dandelionpp::connection_map mapper{connections, 3};
    EXPECT_EQ(3u, mapper.size());
    EXPECT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    EXPECT_FALSE(mapper.update(connections));
    EXPECT_EQ(3u, mapper.size());
    ASSERT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    std::map<boost::uuids::uuid, boost::uuids::uuid> mapping;
    std::vector<boost::uuids::uuid> in_connections{9};
    for (auto &e: in_connections)
      e = random_uuid();
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        std::multimap<boost::uuids::uuid, boost::uuids::uuid> inverse_mapping;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            EXPECT_TRUE(mapping.emplace(connection, out).second);
            inverse_mapping.emplace(out, connection);
            used[out]++;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(3u, entry.second);

        for (const boost::uuids::uuid& connection : in_connections)
            EXPECT_EQ(mapping[connection], mapper.get_stem(connection));

        // drop 1 connection leaving "hole"
        const boost::uuids::uuid lost_connection = *(++mapper.begin());
        const auto elem = std::lower_bound(connections.begin(), connections.end(), lost_connection);
        ASSERT_NE(connections.end(), elem);
        ASSERT_EQ(lost_connection, *elem);
        connections.erase(elem);

        EXPECT_TRUE(mapper.update(connections));
        EXPECT_EQ(2u, mapper.size());
        EXPECT_EQ(3, mapper.end() - mapper.begin());

        for (auto elems = inverse_mapping.equal_range(lost_connection); elems.first != elems.second; ++elems.first)
            mapping[elems.first->second] = boost::uuids::nil_uuid();
    }
    // remap 3 connections and map 1 new connection to 2 remaining out connections
    in_connections.resize(10);
    in_connections[9] = random_uuid();
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid& out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            used[out]++;

            boost::uuids::uuid& expected = mapping[connection];
            if (!expected.is_nil())
                EXPECT_EQ(expected, out);
            else
                expected = out;
        }

        EXPECT_EQ(2u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(5u, entry.second);
    }
    // select 3 of 3 connections but do not remap existing links
    connections.resize(3);
    connections[2] = random_uuid();
    EXPECT_TRUE(mapper.update(connections));
    EXPECT_EQ(3u, mapper.size());
    EXPECT_EQ(3, mapper.end() - mapper.begin());
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid& out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            used[out]++;

            EXPECT_EQ(mapping[connection], out);
        }

        EXPECT_EQ(2u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(5u, entry.second);
    }
    // map 8 new incoming connections across 3 outgoing links
    in_connections.resize(18);
    for (size_t i = 10; i < in_connections.size(); ++i)
      in_connections[i] = random_uuid();
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid& out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            used[out]++;

            boost::uuids::uuid& expected = mapping[connection];
            if (!expected.is_nil())
                EXPECT_EQ(expected, out);
            else
                expected = out;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(6u, entry.second);
    }
}

TEST(dandelionpp_map, dropped_all_connections)
{
    boost::uuids::random_generator random_uuid{};

    std::vector<boost::uuids::uuid> connections{8};
    for (auto &e: connections)
      e = random_uuid();
    std::sort(connections.begin(), connections.end());

    // select 3 of 8 outgoing connections
    net::dandelionpp::connection_map mapper{connections, 3};
    EXPECT_EQ(3u, mapper.size());
    EXPECT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    EXPECT_FALSE(mapper.update(connections));
    EXPECT_EQ(3u, mapper.size());
    ASSERT_EQ(3, mapper.end() - mapper.begin());
    {
        std::set<boost::uuids::uuid> used;
        for (const boost::uuids::uuid& connection : mapper)
        {
            EXPECT_FALSE(connection.is_nil());
            EXPECT_TRUE(used.insert(connection).second);
            EXPECT_TRUE(std::binary_search(connections.begin(), connections.end(), connection));
        }
    }
    std::vector<boost::uuids::uuid> in_connections{9};
    for (auto &e: in_connections)
      e = random_uuid();
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        std::map<boost::uuids::uuid, boost::uuids::uuid> mapping;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            EXPECT_TRUE(mapping.emplace(connection, out).second);
            used[out]++;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(3u, entry.second);

        for (const boost::uuids::uuid& connection : in_connections)
            EXPECT_EQ(mapping[connection], mapper.get_stem(connection));

        // drop all connections
        connections.clear();

        EXPECT_TRUE(mapper.update(connections));
        EXPECT_EQ(0u, mapper.size());
        EXPECT_EQ(3, mapper.end() - mapper.begin());
    }
    // remap 7 connections to nothing
    for (const boost::uuids::uuid& connection : boost::adaptors::slice(in_connections, 0, 7))
        EXPECT_TRUE(mapper.get_stem(connection).is_nil());

    // select 3 of 30 connections, only 7 should be remapped to new indexes (but all to new uuids)
    connections.resize(30);
    for (auto &e: connections)
      e = random_uuid();
    EXPECT_TRUE(mapper.update(connections));
    {
        std::map<boost::uuids::uuid, std::size_t> used;
        for (const boost::uuids::uuid& connection : in_connections)
        {
            const boost::uuids::uuid& out = mapper.get_stem(connection);
            EXPECT_FALSE(out.is_nil());
            used[out]++;
        }

        EXPECT_EQ(3u, used.size());
        for (const std::pair<const boost::uuids::uuid, std::size_t>& entry : used)
            EXPECT_EQ(3u, entry.second);
    }
}

TEST(zmq, error_codes)
{
    EXPECT_EQ(
        std::addressof(net::zmq::error_category()),
        std::addressof(net::zmq::make_error_code(0).category())
    );
    EXPECT_EQ(
        std::make_error_condition(std::errc::not_a_socket),
        net::zmq::make_error_code(ENOTSOCK)
    );

    EXPECT_TRUE(
        []() -> expect<void>
        {
            MONERO_ZMQ_CHECK(zmq_msg_send(nullptr, nullptr, 0));
            return success();
        }().matches(std::errc::not_a_socket)
    );

    bool thrown = false;
    try
    {
        MONERO_ZMQ_THROW("stuff");
    }
    catch (const std::system_error& e)
    {
        thrown = true;
        EXPECT_EQ(std::make_error_condition(std::errc::not_a_socket), e.code());
    }
    EXPECT_TRUE(thrown);
}

TEST(zmq, read_write)
{
    net::zmq::context context{zmq_init(1)};
    ASSERT_NE(nullptr, context);

    net::zmq::socket send_socket{zmq_socket(context.get(), ZMQ_REQ)};
    net::zmq::socket recv_socket{zmq_socket(context.get(), ZMQ_REP)};
    ASSERT_NE(nullptr, send_socket);
    ASSERT_NE(nullptr, recv_socket);

    ASSERT_EQ(0u, zmq_bind(recv_socket.get(), "inproc://testing"));
    ASSERT_EQ(0u, zmq_connect(send_socket.get(), "inproc://testing"));

    std::string message;
    message.resize(1024);
    crypto::rand(message.size(), reinterpret_cast<std::uint8_t*>(std::addressof(message[0])));

    ASSERT_TRUE(bool(net::zmq::send(epee::strspan<std::uint8_t>(message), send_socket.get())));

    const expect<std::string> received = net::zmq::receive(recv_socket.get());
    ASSERT_TRUE(bool(received));
    EXPECT_EQ(message, *received);
}

TEST(zmq, read_write_slice)
{
    net::zmq::context context{zmq_init(1)};
    ASSERT_NE(nullptr, context);

    net::zmq::socket send_socket{zmq_socket(context.get(), ZMQ_REQ)};
    net::zmq::socket recv_socket{zmq_socket(context.get(), ZMQ_REP)};
    ASSERT_NE(nullptr, send_socket);
    ASSERT_NE(nullptr, recv_socket);

    ASSERT_EQ(0u, zmq_bind(recv_socket.get(), "inproc://testing"));
    ASSERT_EQ(0u, zmq_connect(send_socket.get(), "inproc://testing"));

    std::string message;
    message.resize(1024);
    crypto::rand(message.size(), reinterpret_cast<std::uint8_t*>(std::addressof(message[0])));

    {
        epee::byte_slice slice_message{{epee::strspan<std::uint8_t>(message)}};
        ASSERT_TRUE(bool(net::zmq::send(std::move(slice_message), send_socket.get())));
        EXPECT_TRUE(slice_message.empty());
    }

    const expect<std::string> received = net::zmq::receive(recv_socket.get());
    ASSERT_TRUE(bool(received));
    EXPECT_EQ(message, *received);
}

TEST(zmq, write_slice_fail)
{
    std::string message;
    message.resize(1024);
    crypto::rand(message.size(), reinterpret_cast<std::uint8_t*>(std::addressof(message[0])));

    epee::byte_slice slice_message{std::move(message)};
    EXPECT_FALSE(bool(net::zmq::send(std::move(slice_message), nullptr)));
    EXPECT_TRUE(slice_message.empty());
}

TEST(zmq, read_write_multipart)
{
    net::zmq::context context{zmq_init(1)};
    ASSERT_NE(nullptr, context);

    net::zmq::socket send_socket{zmq_socket(context.get(), ZMQ_REQ)};
    net::zmq::socket recv_socket{zmq_socket(context.get(), ZMQ_REP)};
    ASSERT_NE(nullptr, send_socket);
    ASSERT_NE(nullptr, recv_socket);

    ASSERT_EQ(0u, zmq_bind(recv_socket.get(), "inproc://testing"));
    ASSERT_EQ(0u, zmq_connect(send_socket.get(), "inproc://testing"));

    std::string message;
    message.resize(999);
    crypto::rand(message.size(), reinterpret_cast<std::uint8_t*>(std::addressof(message[0])));

    for (unsigned i = 0; i < 3; ++i)
    {
        const expect<std::string> received = net::zmq::receive(recv_socket.get(), ZMQ_DONTWAIT);
        ASSERT_FALSE(bool(received));
        EXPECT_EQ(net::zmq::make_error_code(EAGAIN), received.error());

        const epee::span<const std::uint8_t> bytes{
            reinterpret_cast<const std::uint8_t*>(std::addressof(message[0])) + (i * 333), 333
        };
        ASSERT_TRUE(bool(net::zmq::send(bytes, send_socket.get(), (i == 2 ? 0 : ZMQ_SNDMORE))));
    }

    const expect<std::string> received = net::zmq::receive(recv_socket.get(), ZMQ_DONTWAIT);
    ASSERT_TRUE(bool(received));
    EXPECT_EQ(message, *received);
}

TEST(zmq, read_write_termination)
{
    net::zmq::context context{zmq_init(1)};
    ASSERT_NE(nullptr, context);

    // must be declared before sockets and after context
    boost::scoped_thread<> thread{};

    net::zmq::socket send_socket{zmq_socket(context.get(), ZMQ_REQ)};
    net::zmq::socket recv_socket{zmq_socket(context.get(), ZMQ_REP)};
    ASSERT_NE(nullptr, send_socket);
    ASSERT_NE(nullptr, recv_socket);

    ASSERT_EQ(0u, zmq_bind(recv_socket.get(), "inproc://testing"));
    ASSERT_EQ(0u, zmq_connect(send_socket.get(), "inproc://testing"));

    std::string message;
    message.resize(1024);
    crypto::rand(message.size(), reinterpret_cast<std::uint8_t*>(std::addressof(message[0])));

    ASSERT_TRUE(bool(net::zmq::send(epee::strspan<std::uint8_t>(message), send_socket.get(), ZMQ_SNDMORE)));

    expect<std::string> received = net::zmq::receive(recv_socket.get(), ZMQ_DONTWAIT);
    ASSERT_FALSE(bool(received));
    EXPECT_EQ(net::zmq::make_error_code(EAGAIN), received.error());

    thread = boost::scoped_thread<>{
        boost::thread{
            [&context] () { context.reset(); }
        }
    };

    received = net::zmq::receive(recv_socket.get());
    ASSERT_FALSE(bool(received));
    EXPECT_EQ(net::zmq::make_error_code(ETERM), received.error());
}