// This file Copyright © Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include // std::all_of #include #include #include #include #include #include #include // std::move #ifdef _WIN32 #include #else #include #include #endif #include #include "libtransmission/ip-cache.h" #include "libtransmission/log.h" #include "libtransmission/tr-assert.h" #include "libtransmission/utils.h" #include "libtransmission/web.h" namespace { using namespace std::literals; static_assert(TR_AF_INET == 0); static_assert(TR_AF_INET6 == 1); auto constexpr IPQueryServices = std::array{ std::array{ "https://ip4.transmissionbt.com/"sv }, std::array{ "https://ip6.transmissionbt.com/"sv } }; auto constexpr UpkeepInterval = 30min; auto constexpr RetryUpkeepInterval = 30s; // Normally there should only ever be 1 cache instance during the entire program execution // This is a counter only to cater for SessionTest.honorsSettings std::size_t cache_exists = 0; } // namespace namespace { // Functions contained in global_source_ip_helpers are modified from code // by Juliusz Chroboczek and is covered under the same license as dht.cc. // Please feel free to copy them into your software if it can help // unbreaking the double-stack Internet. namespace global_source_ip_helpers { // Get the source address used for a given destination address. // Since there is no official interface to get this information, // we create a connected UDP socket (connected UDP... hmm...) // and check its source address. // // Since it's a UDP socket, this doesn't actually send any packets [[nodiscard]] std::optional get_source_address( tr_address const& dst_addr, tr_port dst_port, tr_address const& bind_addr, int& err_out) noexcept { TR_ASSERT(dst_addr.type == bind_addr.type); auto const save = errno; auto const [dst_ss, dst_sslen] = tr_socket_address::to_sockaddr(dst_addr, dst_port); auto const [bind_ss, bind_sslen] = tr_socket_address::to_sockaddr(bind_addr, {}); if (auto const sock = socket(dst_ss.ss_family, SOCK_DGRAM, 0); sock != TR_BAD_SOCKET) { if (bind(sock, reinterpret_cast(&bind_ss), bind_sslen) == 0) { if (connect(sock, reinterpret_cast(&dst_ss), dst_sslen) == 0) { auto src_ss = sockaddr_storage{}; auto src_sslen = socklen_t{ sizeof(src_ss) }; if (getsockname(sock, reinterpret_cast(&src_ss), &src_sslen) == 0) { if (auto const addrport = tr_socket_address::from_sockaddr(reinterpret_cast(&src_ss)); addrport) { tr_net_close_socket(sock); errno = save; return addrport->address(); } } } } tr_net_close_socket(sock); } err_out = errno; errno = save; return {}; } [[nodiscard]] std::optional get_global_source_address(tr_address const& bind_addr, int& err_out) noexcept { // Pick some destination address to pretend to send a packet to static auto constexpr DstIP = std::array{ "91.121.74.28"sv, "2001:1890:1112:1::20"sv }; auto const dst_addr = tr_address::from_string(DstIP[bind_addr.type]); auto const dst_port = tr_port::from_host(6969); // In order for address selection to work right, // this should be a global unicast address, not Teredo or 6to4 TR_ASSERT(dst_addr && dst_addr->is_global_unicast_address()); if (dst_addr) { return get_source_address(*dst_addr, dst_port, bind_addr, err_out); } return {}; } } // namespace global_source_ip_helpers } // namespace tr_ip_cache::tr_ip_cache(Mediator& mediator_in) : mediator_{ mediator_in } , upkeep_timers_{ mediator_in.timer_maker().create(), mediator_in.timer_maker().create() } { static_assert(TR_AF_INET == 0); static_assert(TR_AF_INET6 == 1); static_assert(NUM_TR_AF_INET_TYPES == 2); for (std::size_t i = 0; i < NUM_TR_AF_INET_TYPES; ++i) { auto const type = static_cast(i); auto const cb = [this, type]() { update_addr(type); }; upkeep_timers_[i]->set_callback(cb); start_timer(type, UpkeepInterval); } ++cache_exists; } tr_ip_cache::~tr_ip_cache() { // Destroying mutex while someone owns it is undefined behaviour, so we acquire it first auto const locks = std::scoped_lock{ global_addr_mutex_[TR_AF_INET], global_addr_mutex_[TR_AF_INET6], source_addr_mutex_[TR_AF_INET], source_addr_mutex_[TR_AF_INET6] }; if (!std::all_of( std::begin(is_updating_), std::end(is_updating_), [](is_updating_t const& v) { return v == is_updating_t::ABORT; })) { tr_logAddDebug("Destructed while some global IP queries were pending."); } --cache_exists; } bool tr_ip_cache::try_shutdown() noexcept { for (auto& timer : upkeep_timers_) { timer->stop(); } for (std::size_t i = 0; i < NUM_TR_AF_INET_TYPES; ++i) { if (is_updating_[i] == is_updating_t::YES) { return false; } is_updating_[i] = is_updating_t::ABORT; // Abort any future updates } return true; } tr_address tr_ip_cache::bind_addr(tr_address_type type) const noexcept { if (tr_address::is_valid(type)) { if (auto const addr = tr_address::from_string(mediator_.settings_bind_addr(type)); addr && type == addr->type) { return *addr; } return tr_address::any(type); } TR_ASSERT_MSG(false, "invalid type"); return {}; } bool tr_ip_cache::set_global_addr(tr_address_type type, tr_address const& addr) noexcept { if (type == addr.type && addr.is_global_unicast_address()) { auto const lock = std::scoped_lock{ global_addr_mutex_[addr.type] }; global_addr_[addr.type] = addr; tr_logAddTrace(fmt::format("Cached global address {}", addr.display_name())); return true; } return false; } void tr_ip_cache::update_addr(tr_address_type type) noexcept { update_source_addr(type); if (global_source_addr(type)) { update_global_addr(type); } } void tr_ip_cache::update_global_addr(tr_address_type type) noexcept { auto const ix_service = ix_service_[type]; TR_ASSERT(has_ip_protocol_[type]); TR_ASSERT(ix_service < std::size(IPQueryServices[type])); if (ix_service == 0U && !set_is_updating(type)) { return; } TR_ASSERT(is_updating_[type] == is_updating_t::YES); // Update global address static auto constexpr IPProtocolMap = std::array{ tr_web::FetchOptions::IPProtocol::V4, tr_web::FetchOptions::IPProtocol::V6 }; auto options = tr_web::FetchOptions{ IPQueryServices[type][ix_service], [this, type](tr_web::FetchResponse const& response) { // Check to avoid segfault if (cache_exists != 0) { this->on_response_ip_query(type, response); } }, nullptr }; options.ip_proto = IPProtocolMap[type]; options.sndbuf = 4096; options.rcvbuf = 4096; mediator_.fetch(std::move(options)); } void tr_ip_cache::update_source_addr(tr_address_type type) noexcept { using namespace global_source_ip_helpers; auto& has_ip_protocol = has_ip_protocol_[type]; TR_ASSERT(has_ip_protocol); if (!set_is_updating(type)) { return; } TR_ASSERT(is_updating_[type] == is_updating_t::YES); auto const protocol = tr_ip_protocol_to_sv(type); auto err = 0; auto const& source_addr = get_global_source_address(bind_addr(type), err); if (source_addr) { set_source_addr(*source_addr); tr_logAddDebug(fmt::format( _("Successfully updated source {protocol} address to {ip}"), fmt::arg("protocol", protocol), fmt::arg("ip", source_addr->display_name()))); } else { // Stop the update process since we have no public internet connectivity unset_addr(type); upkeep_timers_[type]->set_interval(RetryUpkeepInterval); tr_logAddDebug(fmt::format("Couldn't obtain source {} address", protocol)); if (err == EAFNOSUPPORT) { stop_timer(type); // No point in retrying has_ip_protocol = false; tr_logAddInfo(fmt::format(_("Your machine does not support {protocol}"), fmt::arg("protocol", protocol))); } } unset_is_updating(type); } void tr_ip_cache::on_response_ip_query(tr_address_type type, tr_web::FetchResponse const& response) noexcept { auto& ix_service = ix_service_[type]; TR_ASSERT(is_updating_[type] == is_updating_t::YES); TR_ASSERT(ix_service < std::size(IPQueryServices[type])); auto const protocol = tr_ip_protocol_to_sv(type); auto success = false; if (response.status == 200 /* HTTP_OK */) { // Update member if (auto const addr = tr_address::from_string(tr_strv_strip(response.body)); addr && set_global_addr(type, *addr)) { success = true; upkeep_timers_[type]->set_interval(UpkeepInterval); tr_logAddDebug(fmt::format( _("Successfully updated global {type} address to {ip} using {url}"), fmt::arg("type", protocol), fmt::arg("ip", addr->display_name()), fmt::arg("url", IPQueryServices[type][ix_service]))); } } // Try next IP query URL if (!success) { if (++ix_service < std::size(IPQueryServices[type])) { update_global_addr(type); return; } tr_logAddDebug(fmt::format("Couldn't obtain global {} address", protocol)); unset_global_addr(type); upkeep_timers_[type]->set_interval(RetryUpkeepInterval); } ix_service = 0U; unset_is_updating(type); } void tr_ip_cache::unset_global_addr(tr_address_type type) noexcept { auto const lock = std::scoped_lock{ global_addr_mutex_[type] }; global_addr_[type].reset(); tr_logAddTrace(fmt::format("Unset {} global address cache", tr_ip_protocol_to_sv(type))); } void tr_ip_cache::set_source_addr(tr_address const& addr) noexcept { auto const lock = std::scoped_lock{ source_addr_mutex_[addr.type] }; source_addr_[addr.type] = addr; tr_logAddTrace(fmt::format("Cached source address {}", addr.display_name())); } void tr_ip_cache::unset_addr(tr_address_type type) noexcept { auto const lock = std::scoped_lock{ source_addr_mutex_[type] }; source_addr_[type].reset(); tr_logAddTrace(fmt::format("Unset {} source address cache", tr_ip_protocol_to_sv(type))); // No public internet connectivity means no global IP address unset_global_addr(type); } bool tr_ip_cache::set_is_updating(tr_address_type type) noexcept { if (is_updating_[type] != is_updating_t::NO) { return false; } is_updating_[type] = is_updating_t::YES; return true; } void tr_ip_cache::unset_is_updating(tr_address_type type) noexcept { TR_ASSERT(is_updating_[type] == is_updating_t::YES); is_updating_[type] = is_updating_t::NO; }