// This file Copyright © 2008-2022 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::partial_sort(), std::min(), std::max() #include /* INT_MAX */ #include #include #include #include // atoi() #include #include // for std::back_inserter #include #include #include // for std::accumulate() #include #include #include #include #include #ifndef _WIN32 #include /* umask() */ #include /* umask() */ #endif #include #include #include #include #include // fmt::ptr #include "transmission.h" #include "announcer.h" #include "bandwidth.h" #include "blocklist.h" #include "cache.h" #include "crypto-utils.h" #include "error-types.h" #include "error.h" #include "file.h" #include "log.h" #include "net.h" #include "peer-io.h" #include "peer-mgr.h" #include "port-forwarding.h" #include "rpc-server.h" #include "session-id.h" #include "session.h" #include "timer-ev.h" #include "torrent.h" #include "tr-assert.h" #include "tr-lpd.h" #include "tr-strbuf.h" #include "tr-utp.h" #include "trevent.h" #include "utils.h" #include "variant.h" #include "verify.h" #include "version.h" #include "web.h" using namespace std::literals; std::recursive_mutex tr_session::session_mutex_; static auto constexpr DefaultBindAddressIpv4 = "0.0.0.0"sv; static auto constexpr DefaultBindAddressIpv6 = "::"sv; static auto constexpr DefaultRpcHostWhitelist = ""sv; #ifdef TR_LIGHTWEIGHT static auto constexpr DefaultCacheSizeMB = int{ 2 }; static auto constexpr DefaultPrefetchEnabled = bool{ false }; #else static auto constexpr DefaultCacheSizeMB = int{ 4 }; static auto constexpr DefaultPrefetchEnabled = bool{ true }; #endif static auto constexpr DefaultUmask = int{ 022 }; static auto constexpr SaveIntervalSecs = 360s; static void bandwidthGroupRead(tr_session* session, std::string_view config_dir); static int bandwidthGroupWrite(tr_session const* session, std::string_view config_dir); static auto constexpr BandwidthGroupsFilename = "bandwidth-groups.json"sv; tr_port tr_session::randomPort() const { auto const lower = std::min(random_port_low_.host(), random_port_high_.host()); auto const upper = std::max(random_port_low_.host(), random_port_high_.host()); auto const range = upper - lower; return tr_port::fromHost(lower + tr_rand_int_weak(range + 1)); } /* Generate a peer id : "-TRxyzb-" + 12 random alphanumeric characters, where x is the major version number, y is the minor version number, z is the maintenance number, and b designates beta (Azureus-style) */ tr_peer_id_t tr_peerIdInit() { auto peer_id = tr_peer_id_t{}; auto* it = std::data(peer_id); // starts with -TRXXXX- auto constexpr Prefix = std::string_view{ PEERID_PREFIX }; auto const* const end = it + std::size(peer_id); it = std::copy_n(std::data(Prefix), std::size(Prefix), it); // remainder is randomly-generated characters auto constexpr Pool = std::string_view{ "0123456789abcdefghijklmnopqrstuvwxyz" }; auto total = int{ 0 }; tr_rand_buffer(it, end - it); while (it + 1 < end) { int const val = *it % std::size(Pool); total += val; *it++ = Pool[val]; } int const val = total % std::size(Pool) != 0 ? std::size(Pool) - total % std::size(Pool) : 0; *it = Pool[val]; return peer_id; } /*** **** ***/ bool tr_session::LpdMediator::onPeerFound(std::string_view info_hash_str, tr_address address, tr_port port) { auto const digest = tr_sha1_from_string(info_hash_str); if (!digest) { return false; } tr_torrent* const tor = session_.torrents_.get(*digest); if (!tr_isTorrent(tor) || !tor->allowsLpd()) { return false; } // we found a suitable peer, add it to the torrent auto pex = tr_pex{ address, port }; tr_peerMgrAddPex(tor, TR_PEER_FROM_LPD, &pex, 1U); tr_logAddDebugTor(tor, fmt::format(FMT_STRING("Found a local peer from LPD ({:s})"), address.readable(port))); return true; } std::vector tr_session::LpdMediator::torrents() const { auto ret = std::vector{}; ret.reserve(std::size(session_.torrents())); for (auto const* const tor : session_.torrents()) { auto info = tr_lpd::Mediator::TorrentInfo{}; info.info_hash_str = tor->infoHashString(); info.activity = tr_torrentGetActivity(tor); info.allows_lpd = tor->allowsLpd(); info.announce_after = tor->lpdAnnounceAt; ret.emplace_back(info); } return ret; } void tr_session::LpdMediator::setNextAnnounceTime(std::string_view info_hash_str, time_t announce_after) { if (auto digest = tr_sha1_from_string(info_hash_str); digest) { if (tr_torrent* const tor = session_.torrents_.get(*digest); tr_isTorrent(tor)) { tor->lpdAnnounceAt = announce_after; } } } /*** **** ***/ std::optional tr_session::WebMediator::cookieFile() const { auto const path = tr_pathbuf{ session_->configDir(), "/cookies.txt"sv }; if (!tr_sys_path_exists(path)) { return {}; } return std::string{ path }; } std::optional tr_session::WebMediator::userAgent() const { return TR_NAME "/" SHORT_VERSION_STRING; } std::optional tr_session::WebMediator::publicAddressV4() const { auto const [addr, is_default_value] = session_->publicAddress(TR_AF_INET); if (!is_default_value) { return addr.readable(); } return std::nullopt; } std::optional tr_session::WebMediator::publicAddressV6() const { auto const [addr, is_default_value] = session_->publicAddress(TR_AF_INET6); if (!is_default_value) { return addr.readable(); } return std::nullopt; } unsigned int tr_session::WebMediator::clamp(int torrent_id, unsigned int byte_count) const { auto const lock = session_->unique_lock(); auto const* const tor = session_->torrents().get(torrent_id); return tor == nullptr ? 0U : tor->bandwidth_.clamp(TR_DOWN, byte_count); } void tr_session::WebMediator::notifyBandwidthConsumed(int torrent_id, size_t byte_count) { auto const lock = session_->unique_lock(); if (auto* const tor = session_->torrents().get(torrent_id); tor != nullptr) { tor->bandwidth_.notifyBandwidthConsumed(TR_DOWN, byte_count, true, tr_time_msec()); } } void tr_session::WebMediator::run(tr_web::FetchDoneFunc&& func, tr_web::FetchResponse&& response) const { tr_runInEventThread(session_, std::move(func), std::move(response)); } void tr_sessionFetch(tr_session* session, tr_web::FetchOptions&& options) { session->web->fetch(std::move(options)); } /*** **** ***/ tr_encryption_mode tr_sessionGetEncryption(tr_session const* session) { TR_ASSERT(session != nullptr); return session->encryptionMode(); } void tr_sessionSetEncryption(tr_session* session, tr_encryption_mode mode) { TR_ASSERT(session != nullptr); TR_ASSERT(mode == TR_ENCRYPTION_PREFERRED || mode == TR_ENCRYPTION_REQUIRED || mode == TR_CLEAR_PREFERRED); session->encryption_mode_ = mode; } /*** **** ***/ void tr_bindinfo::close() { if (ev_ != nullptr) { event_free(ev_); ev_ = nullptr; } if (socket_ != TR_BAD_SOCKET) { tr_netCloseSocket(socket_); socket_ = TR_BAD_SOCKET; } } static void acceptIncomingPeer(evutil_socket_t fd, short /*what*/, void* vsession) { auto* session = static_cast(vsession); auto client_addr = tr_address{}; auto client_port = tr_port{}; auto const client_socket = tr_netAccept(session, fd, &client_addr, &client_port); if (client_socket != TR_BAD_SOCKET) { tr_logAddTrace(fmt::format("new incoming connection {} ({})", client_socket, client_addr.readable(client_port))); tr_peerMgrAddIncoming(session->peerMgr, &client_addr, client_port, tr_peer_socket_tcp_create(client_socket)); } } void tr_bindinfo::bindAndListenForIncomingPeers(tr_session* session) { TR_ASSERT(session->allowsTCP()); socket_ = tr_netBindTCP(&addr_, session->private_peer_port, false); if (socket_ != TR_BAD_SOCKET) { tr_logAddInfo(fmt::format( _("Listening to incoming peer connections on {hostport}"), fmt::arg("hostport", addr_.readable(session->private_peer_port)))); ev_ = event_new(session->eventBase(), socket_, EV_READ | EV_PERSIST, acceptIncomingPeer, session); event_add(ev_, nullptr); } } static void close_incoming_peer_port(tr_session* session) { session->bind_ipv4.close(); session->bind_ipv6.close(); } static void open_incoming_peer_port(tr_session* session) { TR_ASSERT(session->allowsTCP()); session->bind_ipv4.bindAndListenForIncomingPeers(session); if (tr_net_hasIPv6(session->private_peer_port)) { session->bind_ipv6.bindAndListenForIncomingPeers(session); } } tr_session::PublicAddressResult tr_session::publicAddress(tr_address_type type) const noexcept { switch (type) { case TR_AF_INET: return { bind_ipv4.addr_, bind_ipv4.addr_.readable() == DefaultBindAddressIpv4 }; case TR_AF_INET6: return { bind_ipv6.addr_, bind_ipv6.addr_.readable() == DefaultBindAddressIpv6 }; default: TR_ASSERT_MSG(false, "invalid type"); return {}; } } /*** **** ***/ #ifdef TR_LIGHTWEIGHT #define TR_DEFAULT_ENCRYPTION TR_CLEAR_PREFERRED #else #define TR_DEFAULT_ENCRYPTION TR_ENCRYPTION_PREFERRED #endif void tr_sessionGetDefaultSettings(tr_variant* setme_dictionary) { auto const download_dir = tr_getDefaultDownloadDir(); auto* const d = setme_dictionary; TR_ASSERT(tr_variantIsDict(d)); tr_variantDictReserve(d, 71); tr_variantDictAddBool(d, TR_KEY_blocklist_enabled, false); tr_variantDictAddStrView(d, TR_KEY_blocklist_url, "http://www.example.com/blocklist"sv); tr_variantDictAddInt(d, TR_KEY_cache_size_mb, DefaultCacheSizeMB); tr_variantDictAddBool(d, TR_KEY_dht_enabled, true); tr_variantDictAddBool(d, TR_KEY_utp_enabled, true); tr_variantDictAddBool(d, TR_KEY_lpd_enabled, false); tr_variantDictAddStr(d, TR_KEY_download_dir, download_dir); tr_variantDictAddStr(d, TR_KEY_default_trackers, ""); tr_variantDictAddInt(d, TR_KEY_speed_limit_down, 100); tr_variantDictAddBool(d, TR_KEY_speed_limit_down_enabled, false); tr_variantDictAddInt(d, TR_KEY_encryption, TR_DEFAULT_ENCRYPTION); tr_variantDictAddInt(d, TR_KEY_idle_seeding_limit, 30); tr_variantDictAddBool(d, TR_KEY_idle_seeding_limit_enabled, false); tr_variantDictAddStr(d, TR_KEY_incomplete_dir, download_dir); tr_variantDictAddBool(d, TR_KEY_incomplete_dir_enabled, false); tr_variantDictAddInt(d, TR_KEY_message_level, TR_LOG_INFO); tr_variantDictAddInt(d, TR_KEY_download_queue_size, 5); tr_variantDictAddBool(d, TR_KEY_download_queue_enabled, true); tr_variantDictAddInt(d, TR_KEY_peer_limit_global, *tr_parseNum(TR_DEFAULT_PEER_LIMIT_GLOBAL_STR)); tr_variantDictAddInt(d, TR_KEY_peer_limit_per_torrent, *tr_parseNum(TR_DEFAULT_PEER_LIMIT_TORRENT_STR)); tr_variantDictAddInt(d, TR_KEY_peer_port, *tr_parseNum(TR_DEFAULT_PEER_PORT_STR)); tr_variantDictAddBool(d, TR_KEY_peer_port_random_on_start, false); tr_variantDictAddInt(d, TR_KEY_peer_port_random_low, 49152); tr_variantDictAddInt(d, TR_KEY_peer_port_random_high, 65535); tr_variantDictAddStrView(d, TR_KEY_peer_socket_tos, TR_DEFAULT_PEER_SOCKET_TOS_STR); tr_variantDictAddBool(d, TR_KEY_pex_enabled, true); tr_variantDictAddBool(d, TR_KEY_port_forwarding_enabled, true); tr_variantDictAddInt(d, TR_KEY_preallocation, TR_PREALLOCATE_SPARSE); tr_variantDictAddBool(d, TR_KEY_prefetch_enabled, DefaultPrefetchEnabled); tr_variantDictAddInt(d, TR_KEY_peer_id_ttl_hours, 6); tr_variantDictAddBool(d, TR_KEY_queue_stalled_enabled, true); tr_variantDictAddInt(d, TR_KEY_queue_stalled_minutes, 30); tr_variantDictAddReal(d, TR_KEY_ratio_limit, 2.0); tr_variantDictAddBool(d, TR_KEY_ratio_limit_enabled, false); tr_variantDictAddBool(d, TR_KEY_rename_partial_files, true); tr_variantDictAddBool(d, TR_KEY_rpc_authentication_required, false); tr_variantDictAddStrView(d, TR_KEY_rpc_bind_address, "0.0.0.0"); tr_variantDictAddBool(d, TR_KEY_rpc_enabled, false); tr_variantDictAddStrView(d, TR_KEY_rpc_password, ""); tr_variantDictAddStrView(d, TR_KEY_rpc_username, ""); tr_variantDictAddStrView(d, TR_KEY_rpc_whitelist, TR_DEFAULT_RPC_WHITELIST); tr_variantDictAddBool(d, TR_KEY_rpc_whitelist_enabled, true); tr_variantDictAddStrView(d, TR_KEY_rpc_host_whitelist, DefaultRpcHostWhitelist); tr_variantDictAddBool(d, TR_KEY_rpc_host_whitelist_enabled, true); tr_variantDictAddInt(d, TR_KEY_rpc_port, TR_DEFAULT_RPC_PORT); tr_variantDictAddStrView(d, TR_KEY_rpc_url, TR_DEFAULT_RPC_URL_STR); tr_variantDictAddStr(d, TR_KEY_rpc_socket_mode, fmt::format("{:03o}", tr_rpc_server::DefaultRpcSocketMode)); tr_variantDictAddBool(d, TR_KEY_scrape_paused_torrents_enabled, true); tr_variantDictAddStrView(d, TR_KEY_script_torrent_added_filename, ""); tr_variantDictAddBool(d, TR_KEY_script_torrent_added_enabled, false); tr_variantDictAddStrView(d, TR_KEY_script_torrent_done_filename, ""); tr_variantDictAddBool(d, TR_KEY_script_torrent_done_enabled, false); tr_variantDictAddStrView(d, TR_KEY_script_torrent_done_seeding_filename, ""); tr_variantDictAddBool(d, TR_KEY_script_torrent_done_seeding_enabled, false); tr_variantDictAddInt(d, TR_KEY_seed_queue_size, 10); tr_variantDictAddBool(d, TR_KEY_seed_queue_enabled, false); tr_variantDictAddBool(d, TR_KEY_alt_speed_enabled, false); tr_variantDictAddInt(d, TR_KEY_alt_speed_up, 50); /* half the regular */ tr_variantDictAddInt(d, TR_KEY_alt_speed_down, 50); /* half the regular */ tr_variantDictAddInt(d, TR_KEY_alt_speed_time_begin, 540); /* 9am */ tr_variantDictAddBool(d, TR_KEY_alt_speed_time_enabled, false); tr_variantDictAddInt(d, TR_KEY_alt_speed_time_end, 1020); /* 5pm */ tr_variantDictAddInt(d, TR_KEY_alt_speed_time_day, TR_SCHED_ALL); tr_variantDictAddInt(d, TR_KEY_speed_limit_up, 100); tr_variantDictAddBool(d, TR_KEY_speed_limit_up_enabled, false); tr_variantDictAddStr(d, TR_KEY_umask, fmt::format("{:03o}", DefaultUmask)); tr_variantDictAddInt(d, TR_KEY_upload_slots_per_torrent, 8); tr_variantDictAddStrView(d, TR_KEY_bind_address_ipv4, DefaultBindAddressIpv4); tr_variantDictAddStrView(d, TR_KEY_bind_address_ipv6, DefaultBindAddressIpv6); tr_variantDictAddBool(d, TR_KEY_start_added_torrents, true); tr_variantDictAddBool(d, TR_KEY_trash_original_torrent_files, false); tr_variantDictAddInt(d, TR_KEY_anti_brute_force_threshold, 100); tr_variantDictAddBool(d, TR_KEY_anti_brute_force_enabled, true); tr_variantDictAddStrView(d, TR_KEY_announce_ip, ""); tr_variantDictAddBool(d, TR_KEY_announce_ip_enabled, false); } void tr_sessionGetSettings(tr_session const* s, tr_variant* setme_dictionary) { auto* const d = setme_dictionary; TR_ASSERT(tr_variantIsDict(d)); tr_variantDictReserve(d, 70); tr_variantDictAddBool(d, TR_KEY_blocklist_enabled, s->useBlocklist()); tr_variantDictAddStr(d, TR_KEY_blocklist_url, s->blocklistUrl()); tr_variantDictAddInt(d, TR_KEY_cache_size_mb, tr_sessionGetCacheLimit_MB(s)); tr_variantDictAddBool(d, TR_KEY_dht_enabled, s->allowsDHT()); tr_variantDictAddBool(d, TR_KEY_utp_enabled, s->allowsUTP()); tr_variantDictAddBool(d, TR_KEY_lpd_enabled, s->allowsLPD()); tr_variantDictAddBool(d, TR_KEY_tcp_enabled, s->allowsTCP()); tr_variantDictAddStr(d, TR_KEY_download_dir, tr_sessionGetDownloadDir(s)); tr_variantDictAddStr(d, TR_KEY_default_trackers, s->defaultTrackersStr()); tr_variantDictAddInt(d, TR_KEY_download_queue_size, s->queueSize(TR_DOWN)); tr_variantDictAddBool(d, TR_KEY_download_queue_enabled, s->queueEnabled(TR_DOWN)); tr_variantDictAddInt(d, TR_KEY_speed_limit_down, tr_sessionGetSpeedLimit_KBps(s, TR_DOWN)); tr_variantDictAddBool(d, TR_KEY_speed_limit_down_enabled, s->isSpeedLimited(TR_DOWN)); tr_variantDictAddInt(d, TR_KEY_encryption, s->encryptionMode()); tr_variantDictAddInt(d, TR_KEY_idle_seeding_limit, s->idleLimitMinutes()); tr_variantDictAddBool(d, TR_KEY_idle_seeding_limit_enabled, s->isIdleLimited()); tr_variantDictAddStr(d, TR_KEY_incomplete_dir, tr_sessionGetIncompleteDir(s)); tr_variantDictAddBool(d, TR_KEY_incomplete_dir_enabled, tr_sessionIsIncompleteDirEnabled(s)); tr_variantDictAddInt(d, TR_KEY_message_level, tr_logGetLevel()); tr_variantDictAddInt(d, TR_KEY_peer_limit_global, s->peerLimit()); tr_variantDictAddInt(d, TR_KEY_peer_limit_per_torrent, s->peerLimitPerTorrent()); tr_variantDictAddInt(d, TR_KEY_peer_port, s->peerPort().host()); tr_variantDictAddBool(d, TR_KEY_peer_port_random_on_start, s->isPortRandom()); tr_variantDictAddInt(d, TR_KEY_peer_port_random_low, s->random_port_low_.host()); tr_variantDictAddInt(d, TR_KEY_peer_port_random_high, s->random_port_high_.host()); tr_variantDictAddStr(d, TR_KEY_peer_socket_tos, tr_netTosToName(s->peer_socket_tos_)); tr_variantDictAddStr(d, TR_KEY_peer_congestion_algorithm, s->peerCongestionAlgorithm()); tr_variantDictAddBool(d, TR_KEY_pex_enabled, s->allowsPEX()); tr_variantDictAddBool(d, TR_KEY_port_forwarding_enabled, tr_sessionIsPortForwardingEnabled(s)); tr_variantDictAddInt(d, TR_KEY_preallocation, s->preallocationMode()); tr_variantDictAddBool(d, TR_KEY_prefetch_enabled, s->allowsPrefetch()); tr_variantDictAddInt(d, TR_KEY_peer_id_ttl_hours, s->peerIdTTLHours()); tr_variantDictAddBool(d, TR_KEY_queue_stalled_enabled, s->queueStalledEnabled()); tr_variantDictAddInt(d, TR_KEY_queue_stalled_minutes, s->queueStalledMinutes()); tr_variantDictAddReal(d, TR_KEY_ratio_limit, s->desiredRatio()); tr_variantDictAddBool(d, TR_KEY_ratio_limit_enabled, s->isRatioLimited()); tr_variantDictAddBool(d, TR_KEY_rename_partial_files, s->isIncompleteFileNamingEnabled()); tr_variantDictAddBool(d, TR_KEY_rpc_authentication_required, tr_sessionIsRPCPasswordEnabled(s)); tr_variantDictAddStr(d, TR_KEY_rpc_bind_address, s->rpc_server_->getBindAddress()); tr_variantDictAddBool(d, TR_KEY_rpc_enabled, tr_sessionIsRPCEnabled(s)); tr_variantDictAddStr(d, TR_KEY_rpc_password, tr_sessionGetRPCPassword(s)); tr_variantDictAddInt(d, TR_KEY_rpc_port, tr_sessionGetRPCPort(s)); tr_variantDictAddStr(d, TR_KEY_rpc_socket_mode, fmt::format("{:#o}", s->rpc_server_->socket_mode_)); tr_variantDictAddStr(d, TR_KEY_rpc_url, s->rpc_server_->url()); tr_variantDictAddStr(d, TR_KEY_rpc_username, tr_sessionGetRPCUsername(s)); tr_variantDictAddStr(d, TR_KEY_rpc_whitelist, tr_sessionGetRPCWhitelist(s)); tr_variantDictAddBool(d, TR_KEY_rpc_whitelist_enabled, tr_sessionGetRPCWhitelistEnabled(s)); tr_variantDictAddBool(d, TR_KEY_scrape_paused_torrents_enabled, s->shouldScrapePausedTorrents()); tr_variantDictAddInt(d, TR_KEY_seed_queue_size, s->queueSize(TR_UP)); tr_variantDictAddBool(d, TR_KEY_seed_queue_enabled, s->queueEnabled(TR_UP)); tr_variantDictAddBool(d, TR_KEY_alt_speed_enabled, tr_sessionUsesAltSpeed(s)); tr_variantDictAddInt(d, TR_KEY_alt_speed_up, tr_sessionGetAltSpeed_KBps(s, TR_UP)); tr_variantDictAddInt(d, TR_KEY_alt_speed_down, tr_sessionGetAltSpeed_KBps(s, TR_DOWN)); tr_variantDictAddInt(d, TR_KEY_alt_speed_time_begin, tr_sessionGetAltSpeedBegin(s)); tr_variantDictAddBool(d, TR_KEY_alt_speed_time_enabled, tr_sessionUsesAltSpeedTime(s)); tr_variantDictAddInt(d, TR_KEY_alt_speed_time_end, tr_sessionGetAltSpeedEnd(s)); tr_variantDictAddInt(d, TR_KEY_alt_speed_time_day, tr_sessionGetAltSpeedDay(s)); tr_variantDictAddInt(d, TR_KEY_speed_limit_up, tr_sessionGetSpeedLimit_KBps(s, TR_UP)); tr_variantDictAddBool(d, TR_KEY_speed_limit_up_enabled, s->isSpeedLimited(TR_UP)); tr_variantDictAddStr(d, TR_KEY_umask, fmt::format("{:#o}", s->umask_)); tr_variantDictAddInt(d, TR_KEY_upload_slots_per_torrent, s->uploadSlotsPerTorrent()); tr_variantDictAddStr(d, TR_KEY_bind_address_ipv4, s->bind_ipv4.readable()); tr_variantDictAddStr(d, TR_KEY_bind_address_ipv6, s->bind_ipv6.readable()); tr_variantDictAddBool(d, TR_KEY_start_added_torrents, !s->shouldPauseAddedTorrents()); tr_variantDictAddBool(d, TR_KEY_trash_original_torrent_files, tr_sessionGetDeleteSource(s)); tr_variantDictAddInt(d, TR_KEY_anti_brute_force_threshold, tr_sessionGetAntiBruteForceThreshold(s)); tr_variantDictAddBool(d, TR_KEY_anti_brute_force_enabled, tr_sessionGetAntiBruteForceEnabled(s)); tr_variantDictAddStr(d, TR_KEY_announce_ip, s->announceIP()); tr_variantDictAddBool(d, TR_KEY_announce_ip_enabled, s->useAnnounceIP()); for (auto const& [enabled_key, script_key, script] : tr_session::Scripts) { tr_variantDictAddBool(d, enabled_key, s->useScript(script)); tr_variantDictAddStr(d, script_key, s->script(script)); } } static void getSettingsFilename(tr_pathbuf& setme, char const* config_dir, char const* appname) { if (!tr_str_is_empty(config_dir)) { setme.assign(std::string_view{ config_dir }, "/settings.json"sv); return; } auto const default_config_dir = tr_getDefaultConfigDir(appname); setme.assign(std::string_view{ default_config_dir }, "/settings.json"sv); } bool tr_sessionLoadSettings(tr_variant* dict, char const* config_dir, char const* app_name) { TR_ASSERT(tr_variantIsDict(dict)); /* initializing the defaults: caller may have passed in some app-level defaults. * preserve those and use the session defaults to fill in any missing gaps. */ auto old_dict = *dict; tr_variantInitDict(dict, 0); tr_sessionGetDefaultSettings(dict); tr_variantMergeDicts(dict, &old_dict); tr_variantClear(&old_dict); /* file settings override the defaults */ auto success = bool{}; auto filename = tr_pathbuf{}; getSettingsFilename(filename, config_dir, app_name); if (!tr_sys_path_exists(filename)) { success = true; } else if (auto file_settings = tr_variant{}; tr_variantFromFile(&file_settings, TR_VARIANT_PARSE_JSON, filename)) { tr_variantMergeDicts(dict, &file_settings); tr_variantClear(&file_settings); success = true; } else { success = false; } /* cleanup */ return success; } void tr_sessionSaveSettings(tr_session* session, char const* config_dir, tr_variant const* client_settings) { TR_ASSERT(tr_variantIsDict(client_settings)); tr_variant settings; auto const filename = tr_pathbuf{ config_dir, "/settings.json"sv }; tr_variantInitDict(&settings, 0); /* the existing file settings are the fallback values */ if (auto file_settings = tr_variant{}; tr_variantFromFile(&file_settings, TR_VARIANT_PARSE_JSON, filename)) { tr_variantMergeDicts(&settings, &file_settings); tr_variantClear(&file_settings); } /* the client's settings override the file settings */ tr_variantMergeDicts(&settings, client_settings); /* the session's true values override the file & client settings */ { auto session_settings = tr_variant{}; tr_variantInitDict(&session_settings, 0); tr_sessionGetSettings(session, &session_settings); tr_variantMergeDicts(&settings, &session_settings); tr_variantClear(&session_settings); } /* save the result */ tr_variantToFile(&settings, TR_VARIANT_FMT_JSON, filename); /* cleanup */ tr_variantClear(&settings); /* Write bandwidth groups limits to file */ bandwidthGroupWrite(session, config_dir); } /*** **** ***/ struct tr_session::init_data { bool message_queuing_enabled; std::string_view config_dir; tr_variant* client_settings; std::condition_variable_any done_cv; }; tr_session* tr_sessionInit(char const* config_dir, bool message_queueing_enabled, tr_variant* client_settings) { TR_ASSERT(tr_variantIsDict(client_settings)); tr_timeUpdate(time(nullptr)); /* initialize the bare skeleton of the session object */ auto* const session = new tr_session{ config_dir }; session->cache = std::make_unique(session->torrents(), 1024 * 1024 * 2); bandwidthGroupRead(session, config_dir); /* nice to start logging at the very beginning */ if (auto i = int64_t{}; tr_variantDictFindInt(client_settings, TR_KEY_message_level, &i)) { tr_logSetLevel(tr_log_level(i)); } /* start the libtransmission thread */ tr_net_init(); /* must go before tr_eventInit */ tr_eventInit(session); TR_ASSERT(session->events != nullptr); auto data = tr_session::init_data{}; data.config_dir = config_dir; data.message_queuing_enabled = message_queueing_enabled; data.client_settings = client_settings; // run it in the libtransmission thread if (tr_amInEventThread(session)) { session->initImpl(data); } else { auto lock = session->unique_lock(); tr_runInEventThread(session, [&session, &data]() { session->initImpl(data); }); data.done_cv.wait(lock); // wait for the session to be ready } return session; } static void turtleCheckClock(tr_session* s, struct tr_turtle_info* t); void tr_session::onNowTimer() { TR_ASSERT(now_timer_); // tr_session upkeep tasks to perform once per second tr_timeUpdate(time(nullptr)); udp_core_->dhtUpkeep(); if (turtle.isClockEnabled) { turtleCheckClock(this, &this->turtle); } // TODO: this seems a little silly. Why do we increment this // every second instead of computing the value as needed by // subtracting the current time from a start time? for (auto* const tor : torrents()) { if (tor->isRunning) { if (tor->isDone()) { ++tor->secondsSeeding; } else { ++tor->secondsDownloading; } } } // set the timer to kick again right after (10ms after) the next second auto const now = std::chrono::system_clock::now(); auto const target_time = std::chrono::time_point_cast(now) + 1s + 10ms; auto target_interval = target_time - now; if (target_interval < 100ms) { target_interval += 1s; } now_timer_->setInterval(std::chrono::duration_cast(target_interval)); } void tr_session::initImpl(init_data& data) { auto lock = unique_lock(); TR_ASSERT(tr_amInEventThread(this)); tr_variant const* const client_settings = data.client_settings; TR_ASSERT(tr_variantIsDict(client_settings)); tr_logAddTrace(fmt::format("tr_sessionInit: the session's top-level bandwidth object is {}", fmt::ptr(&top_bandwidth_))); auto settings = tr_variant{}; tr_variantInitDict(&settings, 0); tr_sessionGetDefaultSettings(&settings); tr_variantMergeDicts(&settings, client_settings); #ifndef _WIN32 /* Don't exit when writing on a broken socket */ (void)signal(SIGPIPE, SIG_IGN); #endif tr_logSetQueueEnabled(data.message_queuing_enabled); this->peerMgr = tr_peerMgrNew(this); this->port_forwarding_ = tr_port_forwarding::create(*this); /** *** Blocklist **/ tr_sys_dir_create(tr_pathbuf{ configDir(), "/blocklists"sv }, TR_SYS_DIR_CREATE_PARENTS, 0777); loadBlocklists(); tr_announcerInit(this); tr_logAddInfo(fmt::format(_("Transmission version {version} starting"), fmt::arg("version", LONG_VERSION_STRING))); tr_sessionSet(this, &settings); this->udp_core_ = std::make_unique(*this); this->web = tr_web::create(this->web_mediator_); if (this->allowsLPD()) { this->lpd_ = tr_lpd::create(lpd_mediator_, timerMaker(), eventBase()); } tr_utpInit(this); /* cleanup */ tr_variantClear(&settings); data.done_cv.notify_one(); } static void turtleBootstrap(tr_session* /*session*/, struct tr_turtle_info* /*turtle*/); static void setPeerPort(tr_session* session, tr_port port); void tr_session::setImpl(init_data& data) { TR_ASSERT(tr_amInEventThread(this)); tr_variant* const settings = data.client_settings; TR_ASSERT(tr_variantIsDict(settings)); auto d = double{}; auto i = int64_t{}; auto sv = std::string_view{}; if (tr_variantDictFindInt(settings, TR_KEY_message_level, &i)) { tr_logSetLevel(tr_log_level(i)); } #ifndef _WIN32 if (tr_variantDictFindStrView(settings, TR_KEY_umask, &sv)) { /* Read a umask as a string representing an octal number. */ this->umask_ = static_cast(tr_parseNum(sv, nullptr, 8).value_or(DefaultUmask)); ::umask(this->umask_); } else if (tr_variantDictFindInt(settings, TR_KEY_umask, &i)) { /* Or as a base 10 integer to remain compatible with the old settings format. */ this->umask_ = (mode_t)i; ::umask(this->umask_); } #endif /* misc features */ if (tr_variantDictFindInt(settings, TR_KEY_cache_size_mb, &i)) { tr_sessionSetCacheLimit_MB(this, i); } if (tr_variantDictFindStrView(settings, TR_KEY_default_trackers, &sv)) { setDefaultTrackers(sv); } if (tr_variantDictFindInt(settings, TR_KEY_peer_limit_per_torrent, &i)) { tr_sessionSetPeerLimitPerTorrent(this, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_pex_enabled, &val)) { tr_sessionSetPexEnabled(this, val); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_dht_enabled, &val)) { tr_sessionSetDHTEnabled(this, val); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_tcp_enabled, &val)) { is_tcp_enabled_ = val; } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_utp_enabled, &val)) { tr_sessionSetUTPEnabled(this, val); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_lpd_enabled, &val)) { tr_sessionSetLPDEnabled(this, val); } if (tr_variantDictFindInt(settings, TR_KEY_encryption, &i)) { tr_sessionSetEncryption(this, tr_encryption_mode(i)); } if (tr_variantDictFindInt(settings, TR_KEY_peer_socket_tos, &i)) { peer_socket_tos_ = i; } else if (tr_variantDictFindStrView(settings, TR_KEY_peer_socket_tos, &sv)) { if (auto ip_tos = tr_netTosFromName(sv); ip_tos) { peer_socket_tos_ = *ip_tos; } } sv = ""sv; (void)tr_variantDictFindStrView(settings, TR_KEY_peer_congestion_algorithm, &sv); setPeerCongestionAlgorithm(sv); if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_blocklist_enabled, &val)) { useBlocklist(val); } if (tr_variantDictFindStrView(settings, TR_KEY_blocklist_url, &sv)) { setBlocklistUrl(sv); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_start_added_torrents, &val)) { tr_sessionSetPaused(this, !val); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_trash_original_torrent_files, &val)) { tr_sessionSetDeleteSource(this, val); } if (tr_variantDictFindInt(settings, TR_KEY_peer_id_ttl_hours, &i)) { this->peer_id_ttl_hours_ = i; } /* torrent queues */ if (tr_variantDictFindInt(settings, TR_KEY_queue_stalled_minutes, &i)) { tr_sessionSetQueueStalledMinutes(this, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_queue_stalled_enabled, &val)) { tr_sessionSetQueueStalledEnabled(this, val); } if (tr_variantDictFindInt(settings, TR_KEY_download_queue_size, &i)) { tr_sessionSetQueueSize(this, TR_DOWN, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_download_queue_enabled, &val)) { tr_sessionSetQueueEnabled(this, TR_DOWN, val); } if (tr_variantDictFindInt(settings, TR_KEY_seed_queue_size, &i)) { tr_sessionSetQueueSize(this, TR_UP, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_seed_queue_enabled, &val)) { tr_sessionSetQueueEnabled(this, TR_UP, val); } /* files and directories */ if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_prefetch_enabled, &val)) { this->is_prefetch_enabled_ = val; } if (tr_variantDictFindInt(settings, TR_KEY_preallocation, &i)) { this->preallocation_mode_ = tr_preallocation_mode(i); } if (tr_variantDictFindStrView(settings, TR_KEY_download_dir, &sv)) { this->setDownloadDir(sv); } if (tr_variantDictFindStrView(settings, TR_KEY_incomplete_dir, &sv)) { this->setIncompleteDir(sv); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_incomplete_dir_enabled, &val)) { this->useIncompleteDir(val); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_rename_partial_files, &val)) { tr_sessionSetIncompleteFileNamingEnabled(this, val); } /* rpc server */ this->rpc_server_ = std::make_unique(this, settings); /* public addresses */ close_incoming_peer_port(this); auto address = tr_inaddr_any; if (tr_variantDictFindStrView(settings, TR_KEY_bind_address_ipv4, &sv)) { if (auto const addr = tr_address::fromString(sv); addr && addr->isIPv4()) { address = *addr; } } this->bind_ipv4 = tr_bindinfo{ address }; address = tr_in6addr_any; if (tr_variantDictFindStrView(settings, TR_KEY_bind_address_ipv6, &sv)) { if (auto const addr = tr_address::fromString(sv); addr && addr->isIPv6()) { address = *addr; } } this->bind_ipv6 = tr_bindinfo{ address }; /* incoming peer port */ if (tr_variantDictFindInt(settings, TR_KEY_peer_port_random_low, &i)) { this->random_port_low_.setHost(i); } if (tr_variantDictFindInt(settings, TR_KEY_peer_port_random_high, &i)) { this->random_port_high_.setHost(i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_peer_port_random_on_start, &val)) { tr_sessionSetPeerPortRandomOnStart(this, val); } { auto peer_port = this->private_peer_port; if (auto port = int64_t{}; tr_variantDictFindInt(settings, TR_KEY_peer_port, &port)) { peer_port.setHost(static_cast(port)); } ::setPeerPort(this, isPortRandom() ? randomPort() : peer_port); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_port_forwarding_enabled, &val)) { tr_sessionSetPortForwardingEnabled(this, val); } if (tr_variantDictFindInt(settings, TR_KEY_peer_limit_global, &i)) { this->peer_limit_ = i; } /** **/ if (tr_variantDictFindInt(settings, TR_KEY_upload_slots_per_torrent, &i)) { this->upload_slots_per_torrent_ = i; } if (tr_variantDictFindInt(settings, TR_KEY_speed_limit_up, &i)) { tr_sessionSetSpeedLimit_KBps(this, TR_UP, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_speed_limit_up_enabled, &val)) { tr_sessionLimitSpeed(this, TR_UP, val); } if (tr_variantDictFindInt(settings, TR_KEY_speed_limit_down, &i)) { tr_sessionSetSpeedLimit_KBps(this, TR_DOWN, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_speed_limit_down_enabled, &val)) { tr_sessionLimitSpeed(this, TR_DOWN, val); } if (tr_variantDictFindReal(settings, TR_KEY_ratio_limit, &d)) { tr_sessionSetRatioLimit(this, d); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_ratio_limit_enabled, &val)) { tr_sessionSetRatioLimited(this, val); } if (tr_variantDictFindInt(settings, TR_KEY_idle_seeding_limit, &i)) { tr_sessionSetIdleLimit(this, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_idle_seeding_limit_enabled, &val)) { tr_sessionSetIdleLimited(this, val); } /** *** Turtle Mode **/ /* update the turtle mode's fields */ if (tr_variantDictFindInt(settings, TR_KEY_alt_speed_up, &i)) { turtle.speedLimit_Bps[TR_UP] = tr_toSpeedBytes(i); } if (tr_variantDictFindInt(settings, TR_KEY_alt_speed_down, &i)) { turtle.speedLimit_Bps[TR_DOWN] = tr_toSpeedBytes(i); } if (tr_variantDictFindInt(settings, TR_KEY_alt_speed_time_begin, &i)) { turtle.beginMinute = i; } if (tr_variantDictFindInt(settings, TR_KEY_alt_speed_time_end, &i)) { turtle.endMinute = i; } if (tr_variantDictFindInt(settings, TR_KEY_alt_speed_time_day, &i)) { turtle.days = tr_sched_day(i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_alt_speed_time_enabled, &val)) { turtle.isClockEnabled = val; } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_alt_speed_enabled, &val)) { turtle.isEnabled = val; } turtleBootstrap(this, &turtle); for (auto const& [enabled_key, script_key, script] : tr_session::Scripts) { if (auto enabled = bool{}; tr_variantDictFindBool(settings, enabled_key, &enabled)) { this->useScript(script, enabled); } if (auto file = std::string_view{}; tr_variantDictFindStrView(settings, script_key, &file)) { this->setScript(script, file); } } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_scrape_paused_torrents_enabled, &val)) { this->should_scrape_paused_torrents_ = val; } /** *** BruteForce **/ if (tr_variantDictFindInt(settings, TR_KEY_anti_brute_force_threshold, &i)) { tr_sessionSetAntiBruteForceThreshold(this, i); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_anti_brute_force_enabled, &val)) { tr_sessionSetAntiBruteForceEnabled(this, val); } /* * Announce IP. */ if (tr_variantDictFindStrView(settings, TR_KEY_announce_ip, &sv)) { this->setAnnounceIP(sv); } if (auto val = bool{}; tr_variantDictFindBool(settings, TR_KEY_announce_ip_enabled, &val)) { this->useAnnounceIP(val); } data.done_cv.notify_one(); } void tr_sessionSet(tr_session* session, tr_variant* settings) { auto data = tr_session::init_data{}; data.client_settings = settings; // run it in the libtransmission thread if (tr_amInEventThread(session)) { session->setImpl(data); } else { auto lock = session->unique_lock(); tr_runInEventThread(session, [&session, &data]() { session->setImpl(data); }); data.done_cv.wait(lock); } } /*** **** ***/ void tr_sessionSetDownloadDir(tr_session* session, char const* dir) { TR_ASSERT(session != nullptr); session->setDownloadDir(dir != nullptr ? dir : ""); } char const* tr_sessionGetDownloadDir(tr_session const* session) { TR_ASSERT(session != nullptr); return session->downloadDir().c_str(); } char const* tr_sessionGetConfigDir(tr_session const* session) { TR_ASSERT(session != nullptr); return session->configDir().c_str(); } /*** **** ***/ void tr_sessionSetIncompleteFileNamingEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); session->is_incomplete_file_naming_enabled_ = enabled; } bool tr_sessionIsIncompleteFileNamingEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->isIncompleteFileNamingEnabled(); } /*** **** ***/ void tr_sessionSetIncompleteDir(tr_session* session, char const* dir) { TR_ASSERT(session != nullptr); session->setIncompleteDir(dir != nullptr ? dir : ""); } char const* tr_sessionGetIncompleteDir(tr_session const* session) { TR_ASSERT(session != nullptr); return session->incompleteDir().c_str(); } void tr_sessionSetIncompleteDirEnabled(tr_session* session, bool b) { TR_ASSERT(session != nullptr); session->useIncompleteDir(b); } bool tr_sessionIsIncompleteDirEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->useIncompleteDir(); } /*** **** Peer Port ***/ static void peerPortChanged(tr_session* const session) { TR_ASSERT(session != nullptr); close_incoming_peer_port(session); if (session->allowsTCP()) { open_incoming_peer_port(session); } session->port_forwarding_->portChanged(); for (auto* const tor : session->torrents()) { tr_torrentChangeMyPort(tor); } } static void setPeerPort(tr_session* session, tr_port port) { session->private_peer_port = port; session->public_peer_port = port; tr_runInEventThread(session, peerPortChanged, session); } void tr_sessionSetPeerPort(tr_session* session, uint16_t hport) { if (auto const port = tr_port::fromHost(hport); session != nullptr && session->private_peer_port != port) { setPeerPort(session, port); } } uint16_t tr_sessionGetPeerPort(tr_session const* session) { return session != nullptr ? session->public_peer_port.host() : 0U; } uint16_t tr_sessionSetPeerPortRandom(tr_session* session) { auto const p = session->randomPort(); tr_sessionSetPeerPort(session, p.host()); return p.host(); } void tr_sessionSetPeerPortRandomOnStart(tr_session* session, bool random) { TR_ASSERT(session != nullptr); session->is_port_random_ = random; } bool tr_sessionGetPeerPortRandomOnStart(tr_session const* session) { TR_ASSERT(session != nullptr); return session->isPortRandom(); } tr_port_forwarding_state tr_sessionGetPortForwarding(tr_session const* session) { TR_ASSERT(session != nullptr); return session->port_forwarding_->state(); } /*** **** ***/ void tr_sessionSetRatioLimited(tr_session* session, bool is_limited) { TR_ASSERT(session != nullptr); session->is_ratio_limited_ = is_limited; } void tr_sessionSetRatioLimit(tr_session* session, double desired_ratio) { TR_ASSERT(session != nullptr); session->desired_ratio_ = desired_ratio; } bool tr_sessionIsRatioLimited(tr_session const* session) { TR_ASSERT(session != nullptr); return session->isRatioLimited(); } double tr_sessionGetRatioLimit(tr_session const* session) { TR_ASSERT(session != nullptr); return session->desiredRatio(); } /*** **** ***/ void tr_sessionSetIdleLimited(tr_session* session, bool is_limited) { TR_ASSERT(session != nullptr); session->is_idle_limited_ = is_limited; } void tr_sessionSetIdleLimit(tr_session* session, uint16_t idle_minutes) { TR_ASSERT(session != nullptr); session->idle_limit_minutes_ = idle_minutes; } bool tr_sessionIsIdleLimited(tr_session const* session) { TR_ASSERT(session != nullptr); return session->isIdleLimited(); } uint16_t tr_sessionGetIdleLimit(tr_session const* session) { TR_ASSERT(session != nullptr); return session->idleLimitMinutes(); } /*** **** **** SPEED LIMITS **** ***/ static unsigned int tr_sessionGetAltSpeed_Bps(tr_session const* s, tr_direction d); std::optional tr_session::activeSpeedLimitBps(tr_direction dir) const noexcept { if (tr_sessionUsesAltSpeed(this)) { return tr_sessionGetAltSpeed_Bps(this, dir); } if (this->isSpeedLimited(dir)) { return speedLimitBps(dir); } return {}; } static void updateBandwidth(tr_session* session, tr_direction dir) { if (auto const limit_bytes_per_second = session->activeSpeedLimitBps(dir); limit_bytes_per_second) { session->top_bandwidth_.setLimited(dir, *limit_bytes_per_second > 0U); session->top_bandwidth_.setDesiredSpeedBytesPerSecond(dir, *limit_bytes_per_second); } else { session->top_bandwidth_.setLimited(dir, false); } } static auto constexpr MinutesPerHour = int{ 60 }; static auto constexpr MinutesPerDay = int{ MinutesPerHour * 24 }; static auto constexpr MinutesPerWeek = int{ MinutesPerDay * 7 }; static void turtleUpdateTable(struct tr_turtle_info* t) { t->minutes.setHasNone(); for (int day = 0; day < 7; ++day) { if ((t->days & (1 << day)) != 0) { time_t const begin = t->beginMinute; time_t end = t->endMinute; if (end <= begin) { end += MinutesPerDay; } for (time_t i = begin; i < end; ++i) { t->minutes.set((i + day * MinutesPerDay) % MinutesPerWeek); } } } } static void altSpeedToggled(tr_session* const session) { TR_ASSERT(session != nullptr); updateBandwidth(session, TR_UP); updateBandwidth(session, TR_DOWN); struct tr_turtle_info* t = &session->turtle; if (t->callback != nullptr) { (*t->callback)(session, t->isEnabled, t->changedByUser, t->callbackUserData); } } static void useAltSpeed(tr_session* s, struct tr_turtle_info* t, bool enabled, bool by_user) { TR_ASSERT(s != nullptr); TR_ASSERT(t != nullptr); if (t->isEnabled != enabled) { t->isEnabled = enabled; t->changedByUser = by_user; tr_runInEventThread(s, altSpeedToggled, s); } } /** * @return whether turtle should be on/off according to the scheduler */ static bool getInTurtleTime(struct tr_turtle_info const* t) { auto const now = tr_time(); struct tm const tm = fmt::localtime(now); size_t minute_of_the_week = tm.tm_wday * MinutesPerDay + tm.tm_hour * MinutesPerHour + tm.tm_min; if (minute_of_the_week >= MinutesPerWeek) /* leap minutes? */ { minute_of_the_week = MinutesPerWeek - 1; } return t->minutes.test(minute_of_the_week); } static constexpr tr_auto_switch_state_t autoSwitchState(bool enabled) { return enabled ? TR_AUTO_SWITCH_ON : TR_AUTO_SWITCH_OFF; } static void turtleCheckClock(tr_session* s, struct tr_turtle_info* t) { TR_ASSERT(t->isClockEnabled); auto const enabled = getInTurtleTime(t); auto const new_auto_turtle_state = autoSwitchState(enabled); auto const already_switched = t->autoTurtleState == new_auto_turtle_state; if (!already_switched) { tr_logAddInfo(enabled ? _("Time to turn on turtle mode") : _("Time to turn off turtle mode")); t->autoTurtleState = new_auto_turtle_state; useAltSpeed(s, t, enabled, false); } } /* Called after the turtle's fields are loaded from an outside source. * It initializes the implementation fields * and turns on turtle mode if the clock settings say to. */ static void turtleBootstrap(tr_session* session, struct tr_turtle_info* turtle) { turtle->changedByUser = false; turtle->autoTurtleState = TR_AUTO_SWITCH_UNUSED; turtle->minutes.setHasNone(); turtleUpdateTable(turtle); if (turtle->isClockEnabled) { turtle->isEnabled = getInTurtleTime(turtle); turtle->autoTurtleState = autoSwitchState(turtle->isEnabled); } altSpeedToggled(session); } /*** **** Primary session speed limits ***/ void tr_sessionSetSpeedLimit_Bps(tr_session* session, tr_direction dir, unsigned int bytes_per_second) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); session->speed_limit_Bps_[dir] = bytes_per_second; updateBandwidth(session, dir); } void tr_sessionSetSpeedLimit_KBps(tr_session* session, tr_direction dir, unsigned int kilo_per_second) { tr_sessionSetSpeedLimit_Bps(session, dir, tr_toSpeedBytes(kilo_per_second)); } unsigned int tr_sessionGetSpeedLimit_KBps(tr_session const* s, tr_direction d) { return tr_toSpeedKBps(s->speedLimitBps(d)); } void tr_sessionLimitSpeed(tr_session* session, tr_direction dir, bool limited) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); session->speed_limit_enabled_[dir] = limited; updateBandwidth(session, dir); } bool tr_sessionIsSpeedLimited(tr_session const* session, tr_direction dir) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); return session->isSpeedLimited(dir); } /*** **** Alternative speed limits that are used during scheduled times ***/ static void tr_sessionSetAltSpeed_Bps(tr_session* s, tr_direction d, unsigned int bytes_per_second) { TR_ASSERT(s != nullptr); TR_ASSERT(tr_isDirection(d)); s->turtle.speedLimit_Bps[d] = bytes_per_second; updateBandwidth(s, d); } void tr_sessionSetAltSpeed_KBps(tr_session* s, tr_direction d, unsigned int kilo_per_second) { tr_sessionSetAltSpeed_Bps(s, d, tr_toSpeedBytes(kilo_per_second)); } static unsigned int tr_sessionGetAltSpeed_Bps(tr_session const* s, tr_direction d) { TR_ASSERT(s != nullptr); TR_ASSERT(tr_isDirection(d)); return s->turtle.speedLimit_Bps[d]; } unsigned int tr_sessionGetAltSpeed_KBps(tr_session const* s, tr_direction d) { return tr_toSpeedKBps(tr_sessionGetAltSpeed_Bps(s, d)); } static void userPokedTheClock(tr_session* s, struct tr_turtle_info* t) { tr_logAddTrace("Refreshing the turtle mode clock due to user changes"); t->autoTurtleState = TR_AUTO_SWITCH_UNUSED; turtleUpdateTable(t); if (t->isClockEnabled) { bool const enabled = getInTurtleTime(t); useAltSpeed(s, t, enabled, true); t->autoTurtleState = autoSwitchState(enabled); } } void tr_sessionUseAltSpeedTime(tr_session* s, bool b) { TR_ASSERT(s != nullptr); struct tr_turtle_info* t = &s->turtle; if (t->isClockEnabled != b) { t->isClockEnabled = b; userPokedTheClock(s, t); } } bool tr_sessionUsesAltSpeedTime(tr_session const* s) { TR_ASSERT(s != nullptr); return s->turtle.isClockEnabled; } void tr_sessionSetAltSpeedBegin(tr_session* s, int minutes_since_midnight) { TR_ASSERT(s != nullptr); TR_ASSERT(minutes_since_midnight >= 0); TR_ASSERT(minutes_since_midnight < 60 * 24); if (s->turtle.beginMinute != minutes_since_midnight) { s->turtle.beginMinute = minutes_since_midnight; userPokedTheClock(s, &s->turtle); } } int tr_sessionGetAltSpeedBegin(tr_session const* s) { TR_ASSERT(s != nullptr); return s->turtle.beginMinute; } void tr_sessionSetAltSpeedEnd(tr_session* s, int minutes_since_midnight) { TR_ASSERT(s != nullptr); TR_ASSERT(minutes_since_midnight >= 0); TR_ASSERT(minutes_since_midnight < 60 * 24); if (s->turtle.endMinute != minutes_since_midnight) { s->turtle.endMinute = minutes_since_midnight; userPokedTheClock(s, &s->turtle); } } int tr_sessionGetAltSpeedEnd(tr_session const* s) { TR_ASSERT(s != nullptr); return s->turtle.endMinute; } void tr_sessionSetAltSpeedDay(tr_session* s, tr_sched_day days) { TR_ASSERT(s != nullptr); if (s->turtle.days != days) { s->turtle.days = days; userPokedTheClock(s, &s->turtle); } } tr_sched_day tr_sessionGetAltSpeedDay(tr_session const* s) { TR_ASSERT(s != nullptr); return s->turtle.days; } void tr_sessionUseAltSpeed(tr_session* session, bool enabled) { useAltSpeed(session, &session->turtle, enabled, true); } bool tr_sessionUsesAltSpeed(tr_session const* s) { TR_ASSERT(s != nullptr); return s->turtle.isEnabled; } void tr_sessionSetAltSpeedFunc(tr_session* session, tr_altSpeedFunc func, void* user_data) { TR_ASSERT(session != nullptr); session->turtle.callback = func; session->turtle.callbackUserData = user_data; } /*** **** ***/ void tr_sessionSetPeerLimit(tr_session* session, uint16_t max_global_peers) { TR_ASSERT(session != nullptr); session->peer_limit_ = max_global_peers; } uint16_t tr_sessionGetPeerLimit(tr_session const* session) { TR_ASSERT(session != nullptr); return session->peerLimit(); } void tr_sessionSetPeerLimitPerTorrent(tr_session* session, uint16_t max_peers) { TR_ASSERT(session != nullptr); session->peer_limit_per_torrent_ = max_peers; } uint16_t tr_sessionGetPeerLimitPerTorrent(tr_session const* session) { TR_ASSERT(session != nullptr); return session->peerLimitPerTorrent(); } /*** **** ***/ void tr_sessionSetPaused(tr_session* session, bool is_paused) { TR_ASSERT(session != nullptr); session->should_pause_added_torrents_ = is_paused; } bool tr_sessionGetPaused(tr_session const* session) { TR_ASSERT(session != nullptr); return session->shouldPauseAddedTorrents(); } void tr_sessionSetDeleteSource(tr_session* session, bool delete_source) { TR_ASSERT(session != nullptr); session->should_delete_source_torrents_ = delete_source; } bool tr_sessionGetDeleteSource(tr_session const* session) { TR_ASSERT(session != nullptr); return session->shouldDeleteSource(); } /*** **** ***/ static unsigned int tr_sessionGetRawSpeed_Bps(tr_session const* session, tr_direction dir) { return session != nullptr ? session->top_bandwidth_.getRawSpeedBytesPerSecond(0, dir) : 0; } double tr_sessionGetRawSpeed_KBps(tr_session const* session, tr_direction dir) { return tr_toSpeedKBps(tr_sessionGetRawSpeed_Bps(session, dir)); } void tr_session::closeImplStart() { is_closing_ = true; lpd_.reset(); udp_core_->dhtUninit(); save_timer_.reset(); now_timer_.reset(); verifier_.reset(); port_forwarding_.reset(); close_incoming_peer_port(this); this->rpc_server_.reset(); /* Close the torrents. Get the most active ones first so that * if we can't get them all closed in a reasonable amount of time, * at least we get the most important ones first. */ auto torrents = getAllTorrents(); std::sort( std::begin(torrents), std::end(torrents), [](auto const* a, auto const* b) { auto const a_cur = a->downloadedCur + a->uploadedCur; auto const b_cur = b->downloadedCur + b->uploadedCur; return a_cur > b_cur; // larger xfers go first }); for (auto* tor : torrents) { tr_torrentFree(tor); } torrents.clear(); /* Close the announcer *after* closing the torrents so that all the &event=stopped messages will be queued to be sent by tr_announcerClose() */ tr_announcerClose(this); /* and this goes *after* announcer close so that it won't be idle until the announce events are sent... */ this->web->closeSoon(); this->cache.reset(); /* saveTimer is not used at this point, reusing for UDP shutdown wait */ TR_ASSERT(!save_timer_); save_timer_ = timerMaker().create([this]() { closeImplWaitForIdleUdp(); }); save_timer_->start(1ms); } void tr_session::closeImplWaitForIdleUdp() { /* gotta keep udp running long enough to send out all the &event=stopped UDP tracker messages */ if (!tr_tracker_udp_is_idle(this)) { tr_tracker_udp_upkeep(this); save_timer_->start(100ms); return; } closeImplFinish(); } void tr_session::closeImplFinish() { save_timer_.reset(); /* we had to wait until UDP trackers were closed before closing these: */ tr_tracker_udp_close(this); this->udp_core_.reset(); stats().saveIfDirty(); tr_peerMgrFree(peerMgr); tr_utpClose(this); blocklists_.clear(); openFiles().closeAll(); is_closed_ = true; } static bool deadlineReached(time_t const deadline) { return time(nullptr) >= deadline; } static auto constexpr ShutdownMaxSeconds = time_t{ 20 }; void tr_sessionClose(tr_session* session) { TR_ASSERT(session != nullptr); time_t const deadline = time(nullptr) + ShutdownMaxSeconds; tr_logAddInfo(fmt::format(_("Transmission version {version} shutting down"), fmt::arg("version", LONG_VERSION_STRING))); tr_logAddDebug(fmt::format("now is {}, deadline is {}", time(nullptr), deadline)); /* close the session */ tr_runInEventThread(session, [session]() { session->closeImplStart(); }); while (!session->isClosed() && !deadlineReached(deadline)) { tr_logAddTrace("waiting for the libtransmission thread to finish"); tr_wait_msec(10); } /* "port_forwarding" and "tracker" have live sockets, * so we need to keep the transmission thread alive * for a bit while they tell the router & tracker * that we're closing now */ while ((session->port_forwarding_ || !session->web->isClosed() || session->announcer != nullptr || session->announcer_udp != nullptr) && !deadlineReached(deadline)) { tr_logAddTrace(fmt::format( "waiting on port unmap ({}) or announcer ({})... now {} deadline {}", fmt::ptr(session->port_forwarding_.get()), fmt::ptr(session->announcer), time(nullptr), deadline)); tr_wait_msec(50); } session->web.reset(); /* close the libtransmission thread */ tr_eventClose(session); while (session->events != nullptr) { static bool forced = false; tr_logAddTrace( fmt::format("waiting for libtransmission thread to finish... now {} deadline {}", time(nullptr), deadline)); tr_wait_msec(10); if (deadlineReached(deadline) && !forced) { tr_logAddTrace("calling event_loopbreak()"); forced = true; event_base_loopbreak(session->eventBase()); } if (deadlineReached(deadline + 3)) { tr_logAddTrace("deadline+3 reached... calling break..."); break; } } delete session; } struct sessionLoadTorrentsData { tr_session* session; tr_ctor* ctor; bool done; }; static void sessionLoadTorrents(struct sessionLoadTorrentsData* const data) { TR_ASSERT(data->session != nullptr); auto const& dirname = data->session->torrentDir(); auto const info = tr_sys_path_get_info(dirname); auto const odir = info && info->isFolder() ? tr_sys_dir_open(dirname.c_str()) : TR_BAD_SYS_DIR; auto torrents = std::list{}; if (odir != TR_BAD_SYS_DIR) { char const* name = nullptr; while ((name = tr_sys_dir_read_name(odir)) != nullptr) { if (!tr_strvEndsWith(name, ".torrent"sv) && !tr_strvEndsWith(name, ".magnet"sv)) { continue; } auto const path = tr_pathbuf{ dirname, '/', name }; // is a magnet link? if (!tr_ctorSetMetainfoFromFile(data->ctor, path.sv(), nullptr)) { if (auto buf = std::vector{}; tr_loadFile(path, buf)) { tr_ctorSetMetainfoFromMagnetLink(data->ctor, std::string_view{ std::data(buf), std::size(buf) }, nullptr); } } if (tr_torrent* const tor = tr_torrentNew(data->ctor, nullptr); tor != nullptr) { torrents.push_back(tor); } } tr_sys_dir_close(odir); } if (auto const n = std::size(torrents); n != 0U) { tr_logAddInfo(fmt::format(ngettext("Loaded {count} torrent", "Loaded {count} torrents", n), fmt::arg("count", n))); } data->done = true; } size_t tr_sessionLoadTorrents(tr_session* session, tr_ctor* ctor) { auto data = sessionLoadTorrentsData{}; data.session = session; data.ctor = ctor; data.done = false; tr_runInEventThread(session, sessionLoadTorrents, &data); while (!data.done) { tr_wait_msec(100); } return std::size(session->torrents()); } size_t tr_sessionGetAllTorrents(tr_session* session, tr_torrent** buf, size_t buflen) { auto& torrents = session->torrents(); auto const n = std::size(torrents); if (buflen >= n) { std::copy_n(std::begin(torrents), n, buf); } return n; } /*** **** ***/ void tr_sessionSetPexEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); session->is_pex_enabled_ = enabled; } bool tr_sessionIsPexEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->allowsPEX(); } bool tr_sessionIsDHTEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->allowsDHT(); } void tr_sessionSetDHTEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); if (enabled == session->allowsDHT()) { return; } tr_runInEventThread( session, [session, enabled]() { session->udp_core_.reset(); session->is_dht_enabled_ = enabled; session->udp_core_ = std::make_unique(*session); }); } /*** **** ***/ bool tr_session::allowsUTP() const noexcept { #ifdef WITH_UTP return is_utp_enabled_; #else return false; #endif } bool tr_sessionIsUTPEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->allowsUTP(); } void tr_sessionSetUTPEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); if (enabled == session->allowsUTP()) { return; } session->is_utp_enabled_ = enabled; } void tr_sessionSetLPDEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); if (enabled == session->allowsLPD()) { return; } tr_runInEventThread( session, [session, enabled]() { session->lpd_.reset(); session->is_lpd_enabled_ = enabled; if (enabled) { session->lpd_ = tr_lpd::create(session->lpd_mediator_, session->timerMaker(), session->eventBase()); } }); } bool tr_sessionIsLPDEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->allowsLPD(); } /*** **** ***/ void tr_sessionSetCacheLimit_MB(tr_session* session, int mb) { TR_ASSERT(session != nullptr); session->cache->setLimit(tr_toMemBytes(mb)); } int tr_sessionGetCacheLimit_MB(tr_session const* session) { TR_ASSERT(session != nullptr); return tr_toMemMB(session->cache->getLimit()); } /*** **** ***/ void tr_session::setDefaultTrackers(std::string_view trackers) { auto const oldval = default_trackers_; default_trackers_str_ = trackers; default_trackers_.parse(trackers); // if the list changed, update all the public torrents if (default_trackers_ != oldval) { for (auto* const tor : torrents()) { if (tor->isPublic()) { tr_announcerResetTorrent(announcer, tor); } } } } void tr_sessionSetDefaultTrackers(tr_session* session, char const* trackers) { TR_ASSERT(session != nullptr); session->setDefaultTrackers(trackers != nullptr ? trackers : ""); } /*** **** ***/ tr_bandwidth& tr_session::getBandwidthGroup(std::string_view name) { auto& groups = this->bandwidth_groups_; for (auto const& [group_name, group] : groups) { if (group_name == name) { return *group; } } auto& [group_name, group] = groups.emplace_back(name, std::make_unique(new tr_bandwidth(&top_bandwidth_))); return *group; } /*** **** ***/ void tr_sessionSetPortForwardingEnabled(tr_session* session, bool enabled) { tr_runInEventThread(session, [session, enabled]() { session->port_forwarding_->setEnabled(enabled); }); } bool tr_sessionIsPortForwardingEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->port_forwarding_->isEnabled(); } /*** **** ***/ void tr_session::loadBlocklists() { auto loadme = std::unordered_set{}; auto const is_enabled = useBlocklist(); /* walk the blocklist directory... */ auto const dirname = tr_pathbuf{ configDir(), "/blocklists"sv }; auto const odir = tr_sys_dir_open(dirname); if (odir == TR_BAD_SYS_DIR) { return; } char const* name = nullptr; while ((name = tr_sys_dir_read_name(odir)) != nullptr) { auto load = std::string{}; if (name[0] == '.') /* ignore dotfiles */ { continue; } if (auto const path = tr_pathbuf{ dirname, '/', name }; tr_strvEndsWith(path, ".bin"sv)) { load = path; } else { auto const binname = tr_pathbuf{ dirname, '/', name, ".bin"sv }; if (auto const bininfo = tr_sys_path_get_info(binname); !bininfo) { // create it auto b = BlocklistFile{ binname, is_enabled }; if (auto const n = b.setContent(path); n > 0) { load = binname; } } else if (auto const pathinfo = tr_sys_path_get_info(path); pathinfo && pathinfo->last_modified_at >= bininfo->last_modified_at) { // update it auto const old = tr_pathbuf{ binname, ".old"sv }; tr_sys_path_remove(old); tr_sys_path_rename(binname, old); BlocklistFile b(binname, is_enabled); if (b.setContent(path) > 0) { tr_sys_path_remove(old); } else { tr_sys_path_remove(binname); tr_sys_path_rename(old, binname); } } } if (!std::empty(load)) { loadme.emplace(load); } } blocklists_.clear(); std::transform( std::begin(loadme), std::end(loadme), std::back_inserter(blocklists_), [&is_enabled](auto const& path) { return std::make_unique(path.c_str(), is_enabled); }); /* cleanup */ tr_sys_dir_close(odir); } void tr_session::useBlocklist(bool enabled) { this->blocklist_enabled_ = enabled; std::for_each( std::begin(blocklists_), std::end(blocklists_), [enabled](auto& blocklist) { blocklist->setEnabled(enabled); }); } bool tr_session::addressIsBlocked(tr_address const& addr) const noexcept { return std::any_of( std::begin(blocklists_), std::end(blocklists_), [&addr](auto& blocklist) { return blocklist->hasAddress(addr); }); } void tr_sessionReloadBlocklists(tr_session* session) { session->blocklists_.clear(); session->loadBlocklists(); tr_peerMgrOnBlocklistChanged(session->peerMgr); } size_t tr_blocklistGetRuleCount(tr_session const* session) { TR_ASSERT(session != nullptr); auto& src = session->blocklists_; return std::accumulate(std::begin(src), std::end(src), 0, [](int sum, auto& cur) { return sum + cur->getRuleCount(); }); } bool tr_blocklistIsEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->useBlocklist(); } void tr_blocklistSetEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); session->useBlocklist(enabled); } bool tr_blocklistExists(tr_session const* session) { TR_ASSERT(session != nullptr); return !std::empty(session->blocklists_); } size_t tr_blocklistSetContent(tr_session* session, char const* content_filename) { auto const lock = session->unique_lock(); // find (or add) the default blocklist auto& src = session->blocklists_; char const* const name = DEFAULT_BLOCKLIST_FILENAME; auto const it = std::find_if( std::begin(src), std::end(src), [&name](auto const& blocklist) { return tr_strvEndsWith(blocklist->filename(), name); }); BlocklistFile* b = nullptr; if (it == std::end(src)) { auto path = tr_pathbuf{ session->configDir(), "/blocklists/"sv, name }; src.push_back(std::make_unique(path, session->useBlocklist())); b = std::rbegin(src)->get(); } else { b = it->get(); } // set the default blocklist's content auto const rule_count = b->setContent(content_filename); return rule_count; } void tr_blocklistSetURL(tr_session* session, char const* url) { session->setBlocklistUrl(url != nullptr ? url : ""); } char const* tr_blocklistGetURL(tr_session const* session) { return session->blocklistUrl().c_str(); } /*** **** ***/ void tr_session::setRpcWhitelist(std::string_view whitelist) const { this->rpc_server_->setWhitelist(whitelist); } void tr_session::useRpcWhitelist(bool enabled) const { this->rpc_server_->setWhitelistEnabled(enabled); } bool tr_session::useRpcWhitelist() const { return this->rpc_server_->isWhitelistEnabled(); } void tr_sessionSetRPCEnabled(tr_session* session, bool is_enabled) { TR_ASSERT(session != nullptr); session->rpc_server_->setEnabled(is_enabled); } bool tr_sessionIsRPCEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->isEnabled(); } void tr_sessionSetRPCPort(tr_session* session, uint16_t hport) { TR_ASSERT(session != nullptr); if (session->rpc_server_) { session->rpc_server_->setPort(tr_port::fromHost(hport)); } } uint16_t tr_sessionGetRPCPort(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_ ? session->rpc_server_->port().host() : uint16_t{}; } void tr_sessionSetRPCCallback(tr_session* session, tr_rpc_func func, void* user_data) { TR_ASSERT(session != nullptr); session->rpc_func_ = func; session->rpc_func_user_data_ = user_data; } void tr_sessionSetRPCWhitelist(tr_session* session, char const* whitelist) { TR_ASSERT(session != nullptr); session->setRpcWhitelist(whitelist != nullptr ? whitelist : ""); } char const* tr_sessionGetRPCWhitelist(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->whitelist().c_str(); } void tr_sessionSetRPCWhitelistEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); session->useRpcWhitelist(enabled); } bool tr_sessionGetRPCWhitelistEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->useRpcWhitelist(); } void tr_sessionSetRPCPassword(tr_session* session, char const* password) { TR_ASSERT(session != nullptr); session->rpc_server_->setPassword(password != nullptr ? password : ""); } char const* tr_sessionGetRPCPassword(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->getSaltedPassword().c_str(); } void tr_sessionSetRPCUsername(tr_session* session, char const* username) { TR_ASSERT(session != nullptr); session->rpc_server_->setUsername(username != nullptr ? username : ""); } char const* tr_sessionGetRPCUsername(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->username().c_str(); } void tr_sessionSetRPCPasswordEnabled(tr_session* session, bool enabled) { TR_ASSERT(session != nullptr); session->rpc_server_->setPasswordEnabled(enabled); } bool tr_sessionIsRPCPasswordEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->isPasswordEnabled(); } /**** ***** ****/ void tr_sessionSetScriptEnabled(tr_session* session, TrScript type, bool enabled) { TR_ASSERT(session != nullptr); TR_ASSERT(type < TR_SCRIPT_N_TYPES); session->useScript(type, enabled); } bool tr_sessionIsScriptEnabled(tr_session const* session, TrScript type) { TR_ASSERT(session != nullptr); TR_ASSERT(type < TR_SCRIPT_N_TYPES); return session->useScript(type); } void tr_sessionSetScript(tr_session* session, TrScript type, char const* script) { TR_ASSERT(session != nullptr); TR_ASSERT(type < TR_SCRIPT_N_TYPES); session->setScript(type, script != nullptr ? script : ""); } char const* tr_sessionGetScript(tr_session const* session, TrScript type) { TR_ASSERT(session != nullptr); TR_ASSERT(type < TR_SCRIPT_N_TYPES); return session->script(type).c_str(); } /*** **** ***/ void tr_sessionSetQueueSize(tr_session* session, tr_direction dir, int max_simultaneous_seed_torrents) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); session->queue_size_[dir] = max_simultaneous_seed_torrents; } int tr_sessionGetQueueSize(tr_session const* session, tr_direction dir) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); return session->queueSize(dir); } void tr_sessionSetQueueEnabled(tr_session* session, tr_direction dir, bool do_limit_simultaneous_seed_torrents) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); session->queue_enabled_[dir] = do_limit_simultaneous_seed_torrents; } bool tr_sessionGetQueueEnabled(tr_session const* session, tr_direction dir) { TR_ASSERT(session != nullptr); TR_ASSERT(tr_isDirection(dir)); return session->queueEnabled(dir); } void tr_sessionSetQueueStalledMinutes(tr_session* session, int minutes) { TR_ASSERT(session != nullptr); TR_ASSERT(minutes > 0); session->queue_stalled_minutes_ = minutes; } void tr_sessionSetQueueStalledEnabled(tr_session* session, bool is_enabled) { TR_ASSERT(session != nullptr); session->queue_stalled_enabled_ = is_enabled; } bool tr_sessionGetQueueStalledEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->queueStalledEnabled(); } int tr_sessionGetQueueStalledMinutes(tr_session const* session) { TR_ASSERT(session != nullptr); return session->queueStalledMinutes(); } void tr_sessionSetAntiBruteForceThreshold(tr_session* session, int max_bad_requests) { TR_ASSERT(session != nullptr); TR_ASSERT(max_bad_requests > 0); session->rpc_server_->setAntiBruteForceLimit(max_bad_requests); } int tr_sessionGetAntiBruteForceThreshold(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->getAntiBruteForceLimit(); } void tr_sessionSetAntiBruteForceEnabled(tr_session* session, bool is_enabled) { TR_ASSERT(session != nullptr); session->rpc_server_->setAntiBruteForceEnabled(is_enabled); } bool tr_sessionGetAntiBruteForceEnabled(tr_session const* session) { TR_ASSERT(session != nullptr); return session->rpc_server_->isAntiBruteForceEnabled(); } std::vector tr_session::getNextQueuedTorrents(tr_direction dir, size_t num_wanted) const { TR_ASSERT(tr_isDirection(dir)); // build an array of the candidates auto candidates = std::vector{}; candidates.reserve(std::size(torrents())); for (auto* const tor : torrents()) { if (tor->isQueued() && (dir == tor->queueDirection())) { candidates.push_back(tor); } } // find the best n candidates num_wanted = std::min(num_wanted, std::size(candidates)); if (num_wanted < candidates.size()) { std::partial_sort( std::begin(candidates), std::begin(candidates) + num_wanted, std::end(candidates), [](auto const* a, auto const* b) { return tr_torrentGetQueuePosition(a) < tr_torrentGetQueuePosition(b); }); candidates.resize(num_wanted); } return candidates; } size_t tr_session::countQueueFreeSlots(tr_direction dir) const noexcept { if (!queueEnabled(dir)) { return std::numeric_limits::max(); } auto const max = queueSize(dir); auto const activity = dir == TR_UP ? TR_STATUS_SEED : TR_STATUS_DOWNLOAD; /* count how many torrents are active */ int active_count = 0; bool const stalled_enabled = queueStalledEnabled(); int const stalled_if_idle_for_n_seconds = queueStalledMinutes() * 60; time_t const now = tr_time(); for (auto const* const tor : torrents()) { /* is it the right activity? */ if (activity != tr_torrentGetActivity(tor)) { continue; } /* is it stalled? */ if (stalled_enabled) { auto const idle_secs = int(difftime(now, std::max(tor->startDate, tor->activityDate))); if (idle_secs >= stalled_if_idle_for_n_seconds) { continue; } } ++active_count; /* if we've reached the limit, no need to keep counting */ if (active_count >= max) { return 0; } } return max - active_count; } static void bandwidthGroupRead(tr_session* session, std::string_view config_dir) { auto const filename = tr_pathbuf{ config_dir, '/', BandwidthGroupsFilename }; auto groups_dict = tr_variant{}; if (!tr_sys_path_exists(filename) || !tr_variantFromFile(&groups_dict, TR_VARIANT_PARSE_JSON, filename, nullptr) || !tr_variantIsDict(&groups_dict)) { return; } auto idx = size_t{ 0 }; auto key = tr_quark{}; tr_variant* dict = nullptr; while (tr_variantDictChild(&groups_dict, idx, &key, &dict)) { ++idx; auto name = tr_interned_string(key); auto& group = session->getBandwidthGroup(name); auto limits = tr_bandwidth_limits{}; tr_variantDictFindBool(dict, TR_KEY_uploadLimited, &limits.up_limited); tr_variantDictFindBool(dict, TR_KEY_downloadLimited, &limits.down_limited); if (auto limit = int64_t{}; tr_variantDictFindInt(dict, TR_KEY_uploadLimit, &limit)) { limits.up_limit_KBps = limit; } if (auto limit = int64_t{}; tr_variantDictFindInt(dict, TR_KEY_downloadLimit, &limit)) { limits.down_limit_KBps = limit; } group.setLimits(&limits); if (auto honors = bool{}; tr_variantDictFindBool(dict, TR_KEY_honorsSessionLimits, &honors)) { group.honorParentLimits(TR_UP, honors); group.honorParentLimits(TR_DOWN, honors); } } tr_variantClear(&groups_dict); } static int bandwidthGroupWrite(tr_session const* session, std::string_view config_dir) { auto const& groups = session->bandwidth_groups_; auto groups_dict = tr_variant{}; tr_variantInitDict(&groups_dict, std::size(groups)); for (auto const& [name, group] : groups) { auto const limits = group->getLimits(); auto* const dict = tr_variantDictAddDict(&groups_dict, name.quark(), 5); tr_variantDictAddStrView(dict, TR_KEY_name, name.sv()); tr_variantDictAddBool(dict, TR_KEY_uploadLimited, limits.up_limited); tr_variantDictAddInt(dict, TR_KEY_uploadLimit, limits.up_limit_KBps); tr_variantDictAddBool(dict, TR_KEY_downloadLimited, limits.down_limited); tr_variantDictAddInt(dict, TR_KEY_downloadLimit, limits.down_limit_KBps); tr_variantDictAddBool(dict, TR_KEY_honorsSessionLimits, group->areParentLimitsHonored(TR_UP)); } auto const filename = tr_pathbuf{ config_dir, '/', BandwidthGroupsFilename }; auto const ret = tr_variantToFile(&groups_dict, TR_VARIANT_FMT_JSON, filename); tr_variantClear(&groups_dict); return ret; } /// void tr_session::closeTorrentFiles(tr_torrent* tor) noexcept { this->cache->flushTorrent(tor); openFiles().closeTorrent(tor->id()); } void tr_session::closeTorrentFile(tr_torrent* tor, tr_file_index_t file_num) noexcept { this->cache->flushFile(tor, file_num); openFiles().closeFile(tor->id(), file_num); } /// void tr_sessionSetQueueStartCallback(tr_session* session, void (*callback)(tr_session*, tr_torrent*, void*), void* user_data) { session->setQueueStartCallback(callback, user_data); } void tr_sessionSetRatioLimitHitCallback(tr_session* session, tr_session_ratio_limit_hit_func callback, void* user_data) { session->setRatioLimitHitCallback(callback, user_data); } void tr_sessionSetIdleLimitHitCallback(tr_session* session, tr_session_idle_limit_hit_func callback, void* user_data) { session->setIdleLimitHitCallback(callback, user_data); } void tr_sessionSetMetadataCallback(tr_session* session, tr_session_metadata_func callback, void* user_data) { session->setMetadataCallback(callback, user_data); } void tr_sessionSetCompletenessCallback(tr_session* session, tr_torrent_completeness_func callback, void* user_data) { session->setTorrentCompletenessCallback(callback, user_data); } tr_session_stats tr_sessionGetStats(tr_session const* session) { return session->stats().current(); } tr_session_stats tr_sessionGetCumulativeStats(tr_session const* session) { return session->stats().cumulative(); } void tr_sessionClearStats(tr_session* session) { session->stats().clear(); } namespace { auto makeResumeDir(std::string_view config_dir) { #if defined(__APPLE__) || defined(_WIN32) auto dir = fmt::format("{:s}/Resume"sv, config_dir); #else auto dir = fmt::format("{:s}/resume"sv, config_dir); #endif tr_sys_dir_create(dir.c_str(), TR_SYS_DIR_CREATE_PARENTS, 0777); return dir; } auto makeTorrentDir(std::string_view config_dir) { #if defined(__APPLE__) || defined(_WIN32) auto dir = fmt::format("{:s}/Torrents"sv, config_dir); #else auto dir = fmt::format("{:s}/torrents"sv, config_dir); #endif tr_sys_dir_create(dir.c_str(), TR_SYS_DIR_CREATE_PARENTS, 0777); return dir; } auto makeEventBase() { tr_evthread_init(); return std::unique_ptr{ event_base_new(), event_base_free }; } } // namespace tr_session::tr_session(std::string_view config_dir) : session_id_{ tr_time } , event_base_{ makeEventBase() } , evdns_base_{ evdns_base_new(eventBase(), EVDNS_BASE_INITIALIZE_NAMESERVERS), [](evdns_base* dns) { // if zero, active requests will be aborted evdns_base_free(dns, 0); } } , timer_maker_{ std::make_unique(eventBase()) } , config_dir_{ config_dir } , resume_dir_{ makeResumeDir(config_dir) } , torrent_dir_{ makeTorrentDir(config_dir) } , session_stats_{ config_dir, time(nullptr) } { now_timer_ = timerMaker().create([this]() { onNowTimer(); }); now_timer_->startRepeating(1s); // Periodically save the .resume files of any torrents whose // status has recently changed. This prevents loss of metadata // in the case of a crash, unclean shutdown, clumsy user, etc. save_timer_ = timerMaker().create( [this]() { for (auto* const tor : torrents()) { tr_torrentSave(tor); } stats().saveIfDirty(); }); save_timer_->startRepeating(SaveIntervalSecs); verifier_->addCallback(tr_torrentOnVerifyDone); }