// This file Copyright © 2009-2023 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 #include #include // EINVAL #include /* INT_MAX */ #include #include #include #include #include #include #include #ifndef _WIN32 #include /* wait() */ #include /* fork(), execvp(), _exit() */ #else #include /* CreateProcess(), GetLastError() */ #endif #include #include #include #include "libtransmission/transmission.h" #include "libtransmission/announcer.h" #include "libtransmission/bandwidth.h" #include "libtransmission/completion.h" #include "libtransmission/crypto-utils.h" // for tr_sha1() #include "libtransmission/error.h" #include "libtransmission/file.h" #include "libtransmission/inout.h" // tr_ioTestPiece() #include "libtransmission/log.h" #include "libtransmission/magnet-metainfo.h" #include "libtransmission/peer-mgr.h" #include "libtransmission/resume.h" #include "libtransmission/session.h" #include "libtransmission/subprocess.h" #include "libtransmission/torrent-magnet.h" #include "libtransmission/torrent-metainfo.h" #include "libtransmission/torrent.h" #include "libtransmission/tr-assert.h" #include "libtransmission/utils.h" #include "libtransmission/version.h" #include "libtransmission/web-utils.h" using namespace std::literals; // --- char const* tr_torrentName(tr_torrent const* tor) { return tor != nullptr ? tor->name().c_str() : ""; } uint64_t tr_torrentTotalSize(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->total_size(); } tr_torrent_id_t tr_torrentId(tr_torrent const* tor) { return tor != nullptr ? tor->id() : -1; } tr_torrent* tr_torrentFindFromId(tr_session* session, tr_torrent_id_t id) { return session->torrents().get(id); } tr_torrent* tr_torrentFindFromMetainfo(tr_session* session, tr_torrent_metainfo const* metainfo) { if (session == nullptr || metainfo == nullptr) { return nullptr; } return session->torrents().get(metainfo->info_hash()); } tr_torrent* tr_torrentFindFromMagnetLink(tr_session* session, char const* magnet_link) { return magnet_link == nullptr ? nullptr : session->torrents().get(magnet_link); } tr_torrent* tr_torrentFindFromObfuscatedHash(tr_session* session, tr_sha1_digest_t const& obfuscated_hash) { for (auto* const tor : session->torrents()) { if (tor->obfuscated_hash == obfuscated_hash) { return tor; } } return nullptr; } bool tr_torrentSetMetainfoFromFile(tr_torrent* tor, tr_torrent_metainfo const* metainfo, char const* filename) { if (tr_torrentHasMetadata(tor)) { return false; } tr_error* error = nullptr; tr_torrentUseMetainfoFromFile(tor, metainfo, filename, &error); if (error != nullptr) { tor->set_local_error(fmt::format( _("Couldn't use metainfo from '{path}' for '{magnet}': {error} ({error_code})"), fmt::arg("path", filename), fmt::arg("magnet", tor->magnet()), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_error_clear(&error); return false; } return true; } // --- namespace { constexpr void torrentSetQueued(tr_torrent* tor, bool queued) { if (tor->is_queued_ != queued) { tor->is_queued_ = queued; tor->mark_changed(); tor->set_dirty(); } } bool setLocalErrorIfFilesDisappeared(tr_torrent* tor, std::optional has_local_data = {}) { auto const has = has_local_data ? *has_local_data : tor->has_any_local_data(); bool const files_disappeared = tor->has_total() > 0 && !has; if (files_disappeared) { tr_logAddTraceTor(tor, "[LAZY] uh oh, the files disappeared"); tor->set_local_error(_( "No data found! Ensure your drives are connected or use \"Set Location\". To re-download, remove the torrent and re-add it.")); } return files_disappeared; } void tr_torrentClearError(tr_torrent* tor) { tor->error = TR_STAT_OK; tor->error_announce_url.clear(); tor->error_string.clear(); } /* returns true if the seed ratio applies -- * it applies if the torrent's a seed AND it has a seed ratio set */ bool tr_torrentGetSeedRatioBytes(tr_torrent const* tor, uint64_t* setme_left, uint64_t* setme_goal) { bool seed_ratio_applies = false; TR_ASSERT(tr_isTorrent(tor)); if (auto seed_ratio = double{}; tr_torrentGetSeedRatio(tor, &seed_ratio)) { auto const uploaded = tor->uploadedCur + tor->uploadedPrev; auto const baseline = tor->size_when_done(); auto const goal = baseline * seed_ratio; if (setme_left != nullptr) { *setme_left = goal > uploaded ? goal - uploaded : 0; } if (setme_goal != nullptr) { *setme_goal = goal; } seed_ratio_applies = tor->is_done(); } return seed_ratio_applies; } bool tr_torrentIsSeedRatioDone(tr_torrent const* tor) { auto bytes_left = uint64_t{}; return tr_torrentGetSeedRatioBytes(tor, &bytes_left, nullptr) && bytes_left == 0; } } // namespace // --- PER-TORRENT UL / DL SPEEDS void tr_torrentSetSpeedLimit_KBps(tr_torrent* tor, tr_direction dir, tr_kilobytes_per_second_t kilo_per_second) { tor->set_speed_limit_bps(dir, tr_toSpeedBytes(kilo_per_second)); } tr_kilobytes_per_second_t tr_torrentGetSpeedLimit_KBps(tr_torrent const* tor, tr_direction dir) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tr_isDirection(dir)); return tr_toSpeedKBps(tor->speed_limit_bps(dir)); } void tr_torrentUseSpeedLimit(tr_torrent* tor, tr_direction dir, bool enabled) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tr_isDirection(dir)); tor->use_speed_limit(dir, enabled); } bool tr_torrentUsesSpeedLimit(tr_torrent const* tor, tr_direction dir) { TR_ASSERT(tr_isTorrent(tor)); return tor->uses_speed_limit(dir); } void tr_torrentUseSessionLimits(tr_torrent* tor, bool enabled) { TR_ASSERT(tr_isTorrent(tor)); if (tor->bandwidth_.honor_parent_limits(TR_UP, enabled) || tor->bandwidth_.honor_parent_limits(TR_DOWN, enabled)) { tor->set_dirty(); } } bool tr_torrentUsesSessionLimits(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->uses_session_limits(); } // --- Download Ratio void tr_torrentSetRatioMode(tr_torrent* tor, tr_ratiolimit mode) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(mode == TR_RATIOLIMIT_GLOBAL || mode == TR_RATIOLIMIT_SINGLE || mode == TR_RATIOLIMIT_UNLIMITED); tor->set_ratio_mode(mode); } tr_ratiolimit tr_torrentGetRatioMode(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->ratioLimitMode; } void tr_torrentSetRatioLimit(tr_torrent* tor, double desired_ratio) { TR_ASSERT(tr_isTorrent(tor)); if ((int)(desired_ratio * 100.0) != (int)(tor->desiredRatio * 100.0)) { tor->desiredRatio = desired_ratio; tor->set_dirty(); } } double tr_torrentGetRatioLimit(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->desiredRatio; } bool tr_torrentGetSeedRatio(tr_torrent const* tor, double* ratio) { auto is_limited = bool{}; TR_ASSERT(tr_isTorrent(tor)); switch (tr_torrentGetRatioMode(tor)) { case TR_RATIOLIMIT_SINGLE: is_limited = true; if (ratio != nullptr) { *ratio = tr_torrentGetRatioLimit(tor); } break; case TR_RATIOLIMIT_GLOBAL: is_limited = tor->session->isRatioLimited(); if (is_limited && ratio != nullptr) { *ratio = tor->session->desiredRatio(); } break; default: /* TR_RATIOLIMIT_UNLIMITED */ is_limited = false; break; } return is_limited; } // --- void tr_torrentSetIdleMode(tr_torrent* tor, tr_idlelimit mode) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(mode == TR_IDLELIMIT_GLOBAL || mode == TR_IDLELIMIT_SINGLE || mode == TR_IDLELIMIT_UNLIMITED); if (tor->idle_limit_mode_ != mode) { tor->idle_limit_mode_ = mode; tor->set_dirty(); } } tr_idlelimit tr_torrentGetIdleMode(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->idle_limit_mode(); } void tr_torrentSetIdleLimit(tr_torrent* tor, uint16_t idle_minutes) { TR_ASSERT(tr_isTorrent(tor)); tor->set_idle_limit(idle_minutes); } uint16_t tr_torrentGetIdleLimit(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->idle_limit_minutes(); } bool tr_torrentGetSeedIdle(tr_torrent const* tor, uint16_t* idle_minutes) { auto is_limited = bool{}; switch (tor->idle_limit_mode()) { case TR_IDLELIMIT_SINGLE: is_limited = true; if (idle_minutes != nullptr) { *idle_minutes = tor->idle_limit_minutes(); } break; case TR_IDLELIMIT_GLOBAL: is_limited = tor->session->isIdleLimited(); if (is_limited && idle_minutes != nullptr) { *idle_minutes = tor->session->idleLimitMinutes(); } break; default: /* TR_IDLELIMIT_UNLIMITED */ is_limited = false; break; } return is_limited; } namespace { namespace script_helpers { [[nodiscard]] std::string buildLabelsString(tr_torrent const* tor) { auto buf = std::stringstream{}; for (auto it = std::begin(tor->labels), end = std::end(tor->labels); it != end;) { buf << tr_quark_get_string_view(*it); if (++it != end) { buf << ','; } } return buf.str(); } [[nodiscard]] std::string buildTrackersString(tr_torrent const* tor) { auto buf = std::stringstream{}; for (size_t i = 0, n = tr_torrentTrackerCount(tor); i < n; ++i) { buf << tr_torrentTracker(tor, i).host_and_port; if (++i < n) { buf << ','; } } return buf.str(); } void torrentCallScript(tr_torrent const* tor, std::string const& script) { if (std::empty(script)) { return; } auto torrent_dir = tr_pathbuf{ tor->current_dir() }; tr_sys_path_native_separators(std::data(torrent_dir)); auto const cmd = std::array{ script.c_str(), nullptr }; auto const id_str = std::to_string(tr_torrentId(tor)); auto const labels_str = buildLabelsString(tor); auto const trackers_str = buildTrackersString(tor); auto const bytes_downloaded_str = std::to_string(tor->downloadedCur + tor->downloadedPrev); auto const localtime_str = fmt::format("{:%a %b %d %T %Y%n}", fmt::localtime(tr_time())); auto const env = std::map{ { "TR_APP_VERSION"sv, SHORT_VERSION_STRING }, { "TR_TIME_LOCALTIME"sv, localtime_str }, { "TR_TORRENT_BYTES_DOWNLOADED"sv, bytes_downloaded_str }, { "TR_TORRENT_DIR"sv, torrent_dir.c_str() }, { "TR_TORRENT_HASH"sv, tor->info_hash_string() }, { "TR_TORRENT_ID"sv, id_str }, { "TR_TORRENT_LABELS"sv, labels_str }, { "TR_TORRENT_NAME"sv, tr_torrentName(tor) }, { "TR_TORRENT_TRACKERS"sv, trackers_str }, }; tr_logAddInfoTor(tor, fmt::format(_("Calling script '{path}'"), fmt::arg("path", script))); tr_error* error = nullptr; if (!tr_spawn_async(std::data(cmd), env, TR_IF_WIN32("\\", "/"), &error)) { tr_logAddWarnTor( tor, fmt::format( _("Couldn't call script '{path}': {error} ({error_code})"), fmt::arg("path", script), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_error_free(error); } } } // namespace script_helpers void callScriptIfEnabled(tr_torrent const* tor, TrScript type) { using namespace script_helpers; auto const* session = tor->session; if (tr_sessionIsScriptEnabled(session, type)) { torrentCallScript(tor, session->script(type)); } } } // namespace // --- namespace { namespace seed_limit_helpers { bool tr_torrentIsSeedIdleLimitDone(tr_torrent const* tor) { auto idle_minutes = uint16_t{}; return tr_torrentGetSeedIdle(tor, &idle_minutes) && difftime(tr_time(), std::max(tor->startDate, tor->activityDate)) >= idle_minutes * 60U; } } // namespace seed_limit_helpers } // namespace void tr_torrentCheckSeedLimit(tr_torrent* tor) { using namespace seed_limit_helpers; TR_ASSERT(tr_isTorrent(tor)); if (!tor->is_running() || tor->is_stopping_ || !tor->is_done()) { return; } /* if we're seeding and reach our seed ratio limit, stop the torrent */ if (tr_torrentIsSeedRatioDone(tor)) { tr_logAddInfoTor(tor, _("Seed ratio reached; pausing torrent")); tor->is_stopping_ = true; tor->session->onRatioLimitHit(tor); } /* if we're seeding and reach our inactivity limit, stop the torrent */ else if (tr_torrentIsSeedIdleLimitDone(tor)) { tr_logAddInfoTor(tor, _("Seeding idle limit reached; pausing torrent")); tor->is_stopping_ = true; tor->finished_seeding_by_idle_ = true; tor->session->onIdleLimitHit(tor); } if (tor->is_stopping_) { callScriptIfEnabled(tor, TR_SCRIPT_ON_TORRENT_DONE_SEEDING); } } // --- Queue namespace { namespace queue_helpers { constexpr struct { constexpr bool operator()(tr_torrent const* a, tr_torrent const* b) const noexcept { return a->queuePosition < b->queuePosition; } } CompareTorrentByQueuePosition{}; #ifdef TR_ENABLE_ASSERTS bool queueIsSequenced(tr_session const* session) { auto torrents = session->getAllTorrents(); std::sort( std::begin(torrents), std::end(torrents), [](auto const* a, auto const* b) { return a->queuePosition < b->queuePosition; }); /* test them */ bool is_sequenced = true; for (size_t i = 0, n = std::size(torrents); is_sequenced && i < n; ++i) { is_sequenced = torrents[i]->queuePosition == i; } return is_sequenced; } #endif } // namespace queue_helpers } // namespace size_t tr_torrentGetQueuePosition(tr_torrent const* tor) { return tor->queuePosition; } void tr_torrentSetQueuePosition(tr_torrent* tor, size_t queue_position) { using namespace queue_helpers; size_t current = 0; auto const old_pos = tor->queuePosition; tor->queuePosition = static_cast(-1); for (auto* const walk : tor->session->torrents()) { if ((old_pos < queue_position) && (old_pos <= walk->queuePosition) && (walk->queuePosition <= queue_position)) { walk->queuePosition--; walk->mark_changed(); } if ((old_pos > queue_position) && (queue_position <= walk->queuePosition) && (walk->queuePosition < old_pos)) { walk->queuePosition++; walk->mark_changed(); } if (current < walk->queuePosition + 1) { current = walk->queuePosition + 1; } } tor->queuePosition = std::min(queue_position, current); tor->mark_changed(); TR_ASSERT(queueIsSequenced(tor->session)); } void tr_torrentsQueueMoveTop(tr_torrent* const* torrents_in, size_t torrent_count) { using namespace queue_helpers; auto torrents = std::vector(torrents_in, torrents_in + torrent_count); std::sort(std::rbegin(torrents), std::rend(torrents), CompareTorrentByQueuePosition); for (auto* tor : torrents) { tr_torrentSetQueuePosition(tor, 0); } } void tr_torrentsQueueMoveUp(tr_torrent* const* torrents_in, size_t torrent_count) { using namespace queue_helpers; auto torrents = std::vector(torrents_in, torrents_in + torrent_count); std::sort(std::begin(torrents), std::end(torrents), CompareTorrentByQueuePosition); for (auto* tor : torrents) { if (tor->queuePosition > 0) { tr_torrentSetQueuePosition(tor, tor->queuePosition - 1); } } } void tr_torrentsQueueMoveDown(tr_torrent* const* torrents_in, size_t torrent_count) { using namespace queue_helpers; auto torrents = std::vector(torrents_in, torrents_in + torrent_count); std::sort(std::rbegin(torrents), std::rend(torrents), CompareTorrentByQueuePosition); for (auto* tor : torrents) { if (tor->queuePosition < UINT_MAX) { tr_torrentSetQueuePosition(tor, tor->queuePosition + 1); } } } void tr_torrentsQueueMoveBottom(tr_torrent* const* torrents_in, size_t torrent_count) { using namespace queue_helpers; auto torrents = std::vector(torrents_in, torrents_in + torrent_count); std::sort(std::begin(torrents), std::end(torrents), CompareTorrentByQueuePosition); for (auto* tor : torrents) { tr_torrentSetQueuePosition(tor, UINT_MAX); } } // --- Start, Stop namespace { namespace start_stop_helpers { bool torrentShouldQueue(tr_torrent const* const tor) { tr_direction const dir = tor->queue_direction(); return tor->session->countQueueFreeSlots(dir) == 0; } void torrentResetTransferStats(tr_torrent* tor) { auto const lock = tor->unique_lock(); tor->downloadedPrev += tor->downloadedCur; tor->downloadedCur = 0; tor->uploadedPrev += tor->uploadedCur; tor->uploadedCur = 0; tor->corruptPrev += tor->corruptCur; tor->corruptCur = 0; tor->set_dirty(); } void torrentStartImpl(tr_torrent* const tor) { auto const lock = tor->unique_lock(); TR_ASSERT(tr_isTorrent(tor)); tor->recheck_completeness(); torrentSetQueued(tor, false); time_t const now = tr_time(); tor->is_running_ = true; tor->completeness = tor->completion.status(); tor->startDate = now; tor->mark_changed(); tr_torrentClearError(tor); tor->finished_seeding_by_idle_ = false; torrentResetTransferStats(tor); tor->session->announcer_->startTorrent(tor); tor->lpdAnnounceAt = now; tor->started_.emit(tor); } bool removeTorrentFile(char const* filename, void* /*user_data*/, tr_error** error) { return tr_sys_path_remove(filename, error); } void removeTorrentInSessionThread(tr_torrent* tor, bool delete_flag, tr_fileFunc delete_func, void* user_data) { auto const lock = tor->unique_lock(); if (delete_flag && tor->has_metainfo()) { // ensure the files are all closed and idle before moving tor->session->closeTorrentFiles(tor); tor->session->verifyRemove(tor); if (delete_func == nullptr) { delete_func = removeTorrentFile; } auto const delete_func_wrapper = [&delete_func, user_data](char const* filename) { delete_func(filename, user_data, nullptr); }; tor->metainfo_.files().remove(tor->current_dir(), tor->name(), delete_func_wrapper); } tr_torrentFreeInSessionThread(tor); } void freeTorrent(tr_torrent* tor) { using namespace queue_helpers; auto const lock = tor->unique_lock(); TR_ASSERT(!tor->is_running()); tr_session* session = tor->session; tor->doomed_.emit(tor); session->announcer_->removeTorrent(tor); session->torrents().remove(tor, tr_time()); if (!session->isClosing()) { // "so you die, captain, and we all move up in rank." // resequence the queue positions for (auto* t : session->torrents()) { if (t->queuePosition > tor->queuePosition) { t->queuePosition--; t->mark_changed(); } } TR_ASSERT(queueIsSequenced(session)); } delete tor; } } // namespace start_stop_helpers struct torrent_start_opts { bool bypass_queue = false; // true or false if we know whether or not local data exists, // or unset if we don't know and need to check for ourselves std::optional has_local_data; }; void torrentStart(tr_torrent* tor, torrent_start_opts opts) { using namespace start_stop_helpers; auto const lock = tor->unique_lock(); switch (tor->activity()) { case TR_STATUS_SEED: case TR_STATUS_DOWNLOAD: return; /* already started */ case TR_STATUS_SEED_WAIT: case TR_STATUS_DOWNLOAD_WAIT: if (!opts.bypass_queue) { return; /* already queued */ } break; case TR_STATUS_CHECK: case TR_STATUS_CHECK_WAIT: /* verifying right now... wait until that's done so * we'll know what completeness to use/announce */ return; case TR_STATUS_STOPPED: if (!opts.bypass_queue && torrentShouldQueue(tor)) { torrentSetQueued(tor, true); return; } break; } /* don't allow the torrent to be started if the files disappeared */ if (setLocalErrorIfFilesDisappeared(tor, opts.has_local_data)) { return; } /* allow finished torrents to be resumed */ if (tr_torrentIsSeedRatioDone(tor)) { tr_logAddInfoTor(tor, _("Restarted manually -- disabling its seed ratio")); tor->set_ratio_mode(TR_RATIOLIMIT_UNLIMITED); } tor->is_running_ = true; tor->set_dirty(); tor->session->runInSessionThread(torrentStartImpl, tor); } void torrentStop(tr_torrent* const tor) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tor->session->am_in_session_thread()); auto const lock = tor->unique_lock(); tor->is_running_ = false; tor->is_stopping_ = false; if (!tor->session->isClosing()) { tr_logAddInfoTor(tor, _("Pausing torrent")); } tor->session->verifyRemove(tor); tor->stopped_.emit(tor); tor->session->announcer_->stopTorrent(tor); tor->session->closeTorrentFiles(tor); if (!tor->is_deleting_) { tr_torrentSave(tor); } torrentSetQueued(tor, false); } } // namespace void tr_torrentStop(tr_torrent* tor) { if (!tr_isTorrent(tor)) { return; } auto const lock = tor->unique_lock(); tor->start_when_stable = false; tor->set_dirty(); tor->session->runInSessionThread(torrentStop, tor); } void tr_torrentRemove(tr_torrent* tor, bool delete_flag, tr_fileFunc delete_func, void* user_data) { using namespace start_stop_helpers; TR_ASSERT(tr_isTorrent(tor)); tor->is_deleting_ = true; tor->session->runInSessionThread(removeTorrentInSessionThread, tor, delete_flag, delete_func, user_data); } void tr_torrentFreeInSessionThread(tr_torrent* tor) { using namespace start_stop_helpers; TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tor->session != nullptr); TR_ASSERT(tor->session->am_in_session_thread()); if (!tor->session->isClosing()) { tr_logAddInfoTor(tor, _("Removing torrent")); } torrentStop(tor); if (tor->is_deleting_) { tr_torrent_metainfo::remove_file(tor->session->torrentDir(), tor->name(), tor->info_hash_string(), ".torrent"sv); tr_torrent_metainfo::remove_file(tor->session->torrentDir(), tor->name(), tor->info_hash_string(), ".magnet"sv); tr_torrent_metainfo::remove_file(tor->session->resumeDir(), tor->name(), tor->info_hash_string(), ".resume"sv); } freeTorrent(tor); } // --- namespace { namespace torrent_init_helpers { // Sniff out newly-added seeds so that they can skip the verify step bool isNewTorrentASeed(tr_torrent* tor) { if (!tor->has_metainfo()) { return false; } for (tr_file_index_t i = 0, n = tor->file_count(); i < n; ++i) { // it's not a new seed if a file is missing auto const found = tor->find_file(i); if (!found) { return false; } // it's not a new seed if a file is partial if (tr_strv_ends_with(found->filename(), tr_torrent_files::PartialFileSuffix)) { return false; } // it's not a new seed if a file size is wrong if (found->size != tor->file_size(i)) { return false; } // it's not a new seed if it was modified after it was added if (found->last_modified_at >= tor->addedDate) { return false; } } // check the first piece return tor->ensure_piece_is_checked(0); } void torrentInitFromInfoDict(tr_torrent* tor) { tor->completion = tr_completion{ tor, &tor->block_info() }; tor->obfuscated_hash = tr_sha1::digest("req2"sv, tor->info_hash()); tor->fpm_.reset(tor->metainfo_); tor->file_mtimes_.resize(tor->file_count()); tor->file_priorities_.reset(&tor->fpm_); tor->files_wanted_.reset(&tor->fpm_); tor->checked_pieces_ = tr_bitfield{ size_t(tor->piece_count()) }; } void on_metainfo_completed(tr_torrent* tor) { // we can look for files now that we know what files are in the torrent tor->refresh_current_dir(); callScriptIfEnabled(tor, TR_SCRIPT_ON_TORRENT_ADDED); if (tor->session->shouldFullyVerifyAddedTorrents() || !isNewTorrentASeed(tor)) { tr_torrentVerify(tor); } else { tor->completion.set_has_all(); tor->doneDate = tor->addedDate; tor->recheck_completeness(); if (tor->start_when_stable) { torrentStart(tor, {}); } else if (tor->is_running()) { tr_torrentStop(tor); } } } void torrentInit(tr_torrent* tor, tr_ctor const* ctor) { tr_session* session = tr_ctorGetSession(ctor); TR_ASSERT(session != nullptr); tor->session = session; auto const lock = tor->unique_lock(); tor->queuePosition = std::size(session->torrents()); torrentInitFromInfoDict(tor); char const* dir = nullptr; if (tr_ctorGetDownloadDir(ctor, TR_FORCE, &dir) || tr_ctorGetDownloadDir(ctor, TR_FALLBACK, &dir)) { tor->download_dir_ = dir; } if (!tr_ctorGetIncompleteDir(ctor, &dir)) { dir = tr_sessionGetIncompleteDir(session); } if (tr_sessionIsIncompleteDirEnabled(session)) { tor->incomplete_dir_ = dir; } tor->bandwidth_.set_parent(&session->top_bandwidth_); tor->bandwidth_.set_priority(tr_ctorGetBandwidthPriority(ctor)); tor->error = TR_STAT_OK; tor->finished_seeding_by_idle_ = false; auto const& labels = tr_ctorGetLabels(ctor); tor->setLabels(labels); session->addTorrent(tor); TR_ASSERT(tor->downloadedCur == 0); TR_ASSERT(tor->uploadedCur == 0); auto const now = tr_time(); tor->addedDate = now; // this is a default that will be overwritten by the resume file tor->anyDate = now; tr_resume::fields_t loaded = {}; { // tr_resume::load() calls a lot of tr_torrentSetFoo() methods // that set things as dirty, but... these settings being loaded are // the same ones that would be saved back again, so don't let them // affect the 'is dirty' flag. auto const was_dirty = tor->is_dirty_; loaded = tr_resume::load(tor, tr_resume::All, ctor); tor->is_dirty_ = was_dirty; tr_torrent_metainfo::migrate_file(session->torrentDir(), tor->name(), tor->info_hash_string(), ".torrent"sv); } tor->completeness = tor->completion.status(); tr_ctorInitTorrentPriorities(ctor, tor); tr_ctorInitTorrentWanted(ctor, tor); tor->refresh_current_dir(); if ((loaded & tr_resume::Speedlimit) == 0) { tor->use_speed_limit(TR_UP, false); tor->set_speed_limit_bps(TR_UP, tr_toSpeedBytes(tor->session->speedLimitKBps(TR_UP))); tor->use_speed_limit(TR_DOWN, false); tor->set_speed_limit_bps(TR_DOWN, tr_toSpeedBytes(tor->session->speedLimitKBps(TR_DOWN))); tr_torrentUseSessionLimits(tor, true); } if ((loaded & tr_resume::Ratiolimit) == 0) { tor->set_ratio_mode(TR_RATIOLIMIT_GLOBAL); tr_torrentSetRatioLimit(tor, tor->session->desiredRatio()); } if ((loaded & tr_resume::Idlelimit) == 0) { tr_torrentSetIdleMode(tor, TR_IDLELIMIT_GLOBAL); tor->set_idle_limit(tor->session->idleLimitMinutes()); } auto has_local_data = std::optional{}; if ((loaded & tr_resume::Progress) != 0) { // if tr_resume::load() loaded progress info, then initCheckedPieces() // has already looked for local data on the filesystem has_local_data = std::any_of( std::begin(tor->file_mtimes_), std::end(tor->file_mtimes_), [](auto mtime) { return mtime > 0; }); } auto const filename = tor->has_metainfo() ? tor->torrent_file() : tor->magnet_file(); // if we don't have a local .torrent or .magnet file already, // assume the torrent is new bool const is_new_torrent = !tr_sys_path_exists(filename); if (is_new_torrent) { tr_error* error = nullptr; if (tor->has_metainfo()) // torrent file { tr_ctorSaveContents(ctor, filename, &error); } else // magnet link { auto const magnet_link = tor->magnet(); tr_file_save(filename, magnet_link, &error); } if (error != nullptr) { tor->set_local_error(fmt::format( _("Couldn't save '{path}': {error} ({error_code})"), fmt::arg("path", filename), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_error_clear(&error); } } tor->torrent_announcer = session->announcer_->addTorrent(tor, &tr_torrent::on_tracker_response); if (auto const has_metainfo = tor->has_metainfo(); is_new_torrent && has_metainfo) { on_metainfo_completed(tor); } else if (tor->start_when_stable) { auto opts = torrent_start_opts{}; opts.bypass_queue = !has_metainfo; // to fetch metainfo from peers opts.has_local_data = has_local_data; torrentStart(tor, opts); } else { setLocalErrorIfFilesDisappeared(tor, has_local_data); } } } // namespace torrent_init_helpers } // namespace void tr_torrent::set_metainfo(tr_torrent_metainfo tm) { using namespace torrent_init_helpers; TR_ASSERT(!has_metainfo()); metainfo_ = std::move(tm); torrentInitFromInfoDict(this); got_metainfo_.emit(this); session->onMetadataCompleted(this); this->set_dirty(); this->mark_edited(); on_metainfo_completed(this); } tr_torrent* tr_torrentNew(tr_ctor* ctor, tr_torrent** setme_duplicate_of) { using namespace torrent_init_helpers; TR_ASSERT(ctor != nullptr); auto* const session = tr_ctorGetSession(ctor); TR_ASSERT(session != nullptr); // is the metainfo valid? auto metainfo = tr_ctorStealMetainfo(ctor); if (std::empty(metainfo.info_hash_string())) { return nullptr; } // is it a duplicate? if (auto* const duplicate_of = session->torrents().get(metainfo.info_hash()); duplicate_of != nullptr) { if (setme_duplicate_of != nullptr) { *setme_duplicate_of = duplicate_of; } return nullptr; } auto* const tor = new tr_torrent{ std::move(metainfo) }; torrentInit(tor, ctor); return tor; } // --- Location namespace { namespace location_helpers { void setLocationInSessionThread( tr_torrent* tor, std::string const& path, bool move_from_old_path, double volatile* setme_progress, int volatile* setme_state) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tor->session->am_in_session_thread()); auto ok = bool{ true }; if (move_from_old_path) { if (setme_state != nullptr) { *setme_state = TR_LOC_MOVING; } // ensure the files are all closed and idle before moving tor->session->closeTorrentFiles(tor); tor->session->verifyRemove(tor); tr_error* error = nullptr; ok = tor->metainfo_.files().move(tor->current_dir(), path, setme_progress, tor->name(), &error); if (error != nullptr) { tor->set_local_error(fmt::format( _("Couldn't move '{old_path}' to '{path}': {error} ({error_code})"), fmt::arg("old_path", tor->current_dir()), fmt::arg("path", path), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_torrentStop(tor); tr_error_clear(&error); } } // tell the torrent where the files are if (ok) { tor->set_download_dir(path); if (move_from_old_path) { tor->incomplete_dir_.clear(); tor->current_dir_ = tor->download_dir(); } } if (setme_state != nullptr) { *setme_state = ok ? TR_LOC_DONE : TR_LOC_ERROR; } } size_t buildSearchPathArray(tr_torrent const* tor, std::string_view* paths) { auto* walk = paths; if (auto const& path = tor->download_dir(); !std::empty(path)) { *walk++ = path.sv(); } if (auto const& path = tor->incomplete_dir(); !std::empty(path)) { *walk++ = path.sv(); } return walk - paths; } } // namespace location_helpers } // namespace void tr_torrent::set_location( std::string_view location, bool move_from_old_path, double volatile* setme_progress, int volatile* setme_state) { using namespace location_helpers; if (setme_state != nullptr) { *setme_state = TR_LOC_MOVING; } this->session->runInSessionThread( setLocationInSessionThread, this, std::string{ location }, move_from_old_path, setme_progress, setme_state); } void tr_torrentSetLocation( tr_torrent* tor, char const* location, bool move_from_old_path, double volatile* setme_progress, int volatile* setme_state) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(!tr_str_is_empty(location)); tor->set_location(location, move_from_old_path, setme_progress, setme_state); } std::optional tr_torrent::find_file(tr_file_index_t file_index) const { using namespace location_helpers; auto paths = std::array{}; auto const n_paths = buildSearchPathArray(this, std::data(paths)); return metainfo_.files().find(file_index, std::data(paths), n_paths); } bool tr_torrent::has_any_local_data() const { using namespace location_helpers; auto paths = std::array{}; auto const n_paths = buildSearchPathArray(this, std::data(paths)); return metainfo_.files().hasAnyLocalData(std::data(paths), n_paths); } void tr_torrentSetDownloadDir(tr_torrent* tor, char const* path) { TR_ASSERT(tr_isTorrent(tor)); if (tor->download_dir_ != path) { tor->set_download_dir(path, true); } } char const* tr_torrentGetDownloadDir(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->download_dir().c_str(); } char const* tr_torrentGetCurrentDir(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->current_dir().c_str(); } void tr_torrentChangeMyPort(tr_torrent* tor) { TR_ASSERT(tr_isTorrent(tor)); if (tor->is_running()) { tr_announcerChangeMyPort(tor); } } // --- namespace { namespace manual_update_helpers { void torrentManualUpdateImpl(tr_torrent* const tor) { TR_ASSERT(tr_isTorrent(tor)); if (tor->is_running()) { tr_announcerManualAnnounce(tor); } } } // namespace manual_update_helpers } // namespace void tr_torrentManualUpdate(tr_torrent* tor) { using namespace manual_update_helpers; TR_ASSERT(tr_isTorrent(tor)); tor->session->runInSessionThread(torrentManualUpdateImpl, tor); } bool tr_torrentCanManualUpdate(tr_torrent const* tor) { return tr_isTorrent(tor) && tor->is_running() && tr_announcerCanManualAnnounce(tor); } // --- namespace { namespace stat_helpers { [[nodiscard]] time_t torrentGetIdleSecs(tr_torrent const* tor, tr_torrent_activity activity) { return ((activity == TR_STATUS_DOWNLOAD || activity == TR_STATUS_SEED) && tor->startDate != 0) ? (time_t)difftime(tr_time(), std::max(tor->startDate, tor->activityDate)) : -1; } [[nodiscard]] constexpr bool tr_torrentIsStalled(tr_torrent const* tor, size_t idle_secs) { return tor->session->queueStalledEnabled() && idle_secs > tor->session->queueStalledMinutes() * 60U; } } // namespace stat_helpers } // namespace tr_stat const* tr_torrentStat(tr_torrent* tor) { using namespace stat_helpers; TR_ASSERT(tr_isTorrent(tor)); auto const now = tr_time_msec(); auto const now_sec = tr_time(); auto swarm_stats = tr_swarm_stats{}; tor->lastStatTime = now_sec; if (tor->swarm != nullptr) { swarm_stats = tr_swarmGetStats(tor->swarm); } tr_stat* const s = &tor->stats; s->id = tor->id(); s->activity = tor->activity(); s->error = tor->error; s->queuePosition = tor->queuePosition; s->idleSecs = torrentGetIdleSecs(tor, s->activity); s->isStalled = tr_torrentIsStalled(tor, s->idleSecs); s->errorString = tor->error_string.c_str(); s->peersConnected = swarm_stats.peer_count; s->peersSendingToUs = swarm_stats.active_peer_count[TR_DOWN]; s->peersGettingFromUs = swarm_stats.active_peer_count[TR_UP]; s->webseedsSendingToUs = swarm_stats.active_webseed_count; for (int i = 0; i < TR_PEER_FROM__MAX; i++) { s->peersFrom[i] = swarm_stats.peer_from_count[i]; } auto const piece_upload_speed_bytes_per_second = tor->bandwidth_.get_piece_speed_bytes_per_second(now, TR_UP); s->pieceUploadSpeed_KBps = tr_toSpeedKBps(piece_upload_speed_bytes_per_second); auto const piece_download_speed_bytes_per_second = tor->bandwidth_.get_piece_speed_bytes_per_second(now, TR_DOWN); s->pieceDownloadSpeed_KBps = tr_toSpeedKBps(piece_download_speed_bytes_per_second); s->percentComplete = tor->completion.percent_complete(); s->metadataPercentComplete = tr_torrentGetMetadataPercent(tor); s->percentDone = tor->completion.percent_done(); s->leftUntilDone = tor->completion.left_until_done(); s->sizeWhenDone = tor->completion.size_when_done(); auto const verify_progress = tor->verify_progress(); s->recheckProgress = verify_progress.value_or(0.0); s->activityDate = tor->activityDate; s->addedDate = tor->addedDate; s->doneDate = tor->doneDate; s->editDate = tor->editDate; s->startDate = tor->startDate; s->secondsSeeding = tor->seconds_seeding(now_sec); s->secondsDownloading = tor->seconds_downloading(now_sec); s->corruptEver = tor->corruptCur + tor->corruptPrev; s->downloadedEver = tor->downloadedCur + tor->downloadedPrev; s->uploadedEver = tor->uploadedCur + tor->uploadedPrev; s->haveValid = tor->completion.has_valid(); s->haveUnchecked = tor->has_total() - s->haveValid; s->desiredAvailable = tr_peerMgrGetDesiredAvailable(tor); s->ratio = tr_getRatio(s->uploadedEver, tor->size_when_done()); auto seed_ratio_bytes_left = uint64_t{}; auto seed_ratio_bytes_goal = uint64_t{}; bool const seed_ratio_applies = tr_torrentGetSeedRatioBytes(tor, &seed_ratio_bytes_left, &seed_ratio_bytes_goal); switch (s->activity) { /* etaSpeed exists because if we use the piece speed directly, * brief fluctuations cause the ETA to jump all over the place. * so, etaXLSpeed is a smoothed-out version of the piece speed * to dampen the effect of fluctuations */ case TR_STATUS_DOWNLOAD: if (tor->etaSpeedCalculatedAt + 800 < now) { tor->etaSpeed_Bps = tor->etaSpeedCalculatedAt + 4000 < now ? piece_download_speed_bytes_per_second : /* if no recent previous speed, no need to smooth */ (tor->etaSpeed_Bps * 4.0 + piece_download_speed_bytes_per_second) / 5.0; /* smooth across 5 readings */ tor->etaSpeedCalculatedAt = now; } if (s->leftUntilDone > s->desiredAvailable && tor->webseed_count() < 1) { s->eta = TR_ETA_NOT_AVAIL; } else if (tor->etaSpeed_Bps == 0) { s->eta = TR_ETA_UNKNOWN; } else { s->eta = s->leftUntilDone / tor->etaSpeed_Bps; } s->etaIdle = TR_ETA_NOT_AVAIL; break; case TR_STATUS_SEED: if (!seed_ratio_applies) { s->eta = TR_ETA_NOT_AVAIL; } else { if (tor->etaSpeedCalculatedAt + 800 < now) { tor->etaSpeed_Bps = tor->etaSpeedCalculatedAt + 4000 < now ? piece_upload_speed_bytes_per_second : /* if no recent previous speed, no need to smooth */ (tor->etaSpeed_Bps * 4.0 + piece_upload_speed_bytes_per_second) / 5.0; /* smooth across 5 readings */ tor->etaSpeedCalculatedAt = now; } if (tor->etaSpeed_Bps == 0) { s->eta = TR_ETA_UNKNOWN; } else { s->eta = seed_ratio_bytes_left / tor->etaSpeed_Bps; } } { auto seed_idle_minutes = uint16_t{}; s->etaIdle = tor->etaSpeed_Bps < 1 && tr_torrentGetSeedIdle(tor, &seed_idle_minutes) ? seed_idle_minutes * 60 - s->idleSecs : TR_ETA_NOT_AVAIL; } break; default: s->eta = TR_ETA_NOT_AVAIL; s->etaIdle = TR_ETA_NOT_AVAIL; break; } /* s->haveValid is here to make sure a torrent isn't marked 'finished' * when the user hits "uncheck all" prior to starting the torrent... */ s->finished = tor->finished_seeding_by_idle_ || (seed_ratio_applies && seed_ratio_bytes_left == 0 && s->haveValid != 0); if (!seed_ratio_applies || s->finished) { s->seedRatioPercentDone = 1.0F; } else if (seed_ratio_bytes_goal == 0) /* impossible? safeguard for div by zero */ { s->seedRatioPercentDone = 0.0F; } else { s->seedRatioPercentDone = float(seed_ratio_bytes_goal - seed_ratio_bytes_left) / seed_ratio_bytes_goal; } /* test some of the constraints */ TR_ASSERT(s->sizeWhenDone <= tor->total_size()); TR_ASSERT(s->leftUntilDone <= s->sizeWhenDone); TR_ASSERT(s->desiredAvailable <= s->leftUntilDone); return s; } tr_stat const* tr_torrentStatCached(tr_torrent* tor) { time_t const now = tr_time(); return (tr_isTorrent(tor) && now == tor->lastStatTime) ? &tor->stats : tr_torrentStat(tor); } // --- tr_file_view tr_torrentFile(tr_torrent const* tor, tr_file_index_t file) { TR_ASSERT(tr_isTorrent(tor)); auto const& subpath = tor->file_subpath(file); auto const priority = tor->file_priorities_.file_priority(file); auto const wanted = tor->files_wanted_.file_wanted(file); auto const length = tor->file_size(file); auto const [begin, end] = tor->pieces_in_file(file); if (tor->completeness == TR_SEED || length == 0) { return { subpath.c_str(), length, length, 1.0, begin, end, priority, wanted }; } auto const have = tor->completion.count_has_bytes_in_span(tor->fpm_.byte_span(file)); return { subpath.c_str(), have, length, have >= length ? 1.0 : have / double(length), begin, end, priority, wanted }; } size_t tr_torrentFileCount(tr_torrent const* torrent) { TR_ASSERT(tr_isTorrent(torrent)); return torrent->file_count(); } tr_webseed_view tr_torrentWebseed(tr_torrent const* tor, size_t nth) { return tr_peerMgrWebseed(tor, nth); } size_t tr_torrentWebseedCount(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->webseed_count(); } tr_tracker_view tr_torrentTracker(tr_torrent const* tor, size_t i) { return tr_announcerTracker(tor, i); } size_t tr_torrentTrackerCount(tr_torrent const* tor) { return tr_announcerTrackerCount(tor); } tr_torrent_view tr_torrentView(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); auto ret = tr_torrent_view{}; ret.name = tr_torrentName(tor); ret.hash_string = tor->info_hash_string().c_str(); ret.comment = tor->comment().c_str(); ret.creator = tor->creator().c_str(); ret.source = tor->source().c_str(); ret.total_size = tor->total_size(); ret.date_created = tor->date_created(); ret.piece_size = tor->piece_size(); ret.n_pieces = tor->piece_count(); ret.is_private = tor->is_private(); ret.is_folder = tor->file_count() > 1 || (tor->file_count() == 1 && tr_strv_contains(tor->file_subpath(0), '/')); return ret; } std::string tr_torrentFilename(tr_torrent const* tor) { return std::string{ tor->torrent_file() }; } size_t tr_torrentFilenameToBuf(tr_torrent const* tor, char* buf, size_t buflen) { return tr_strv_to_buf(tr_torrentFilename(tor), buf, buflen); } // --- tr_peer_stat* tr_torrentPeers(tr_torrent const* tor, size_t* peer_count) { TR_ASSERT(tr_isTorrent(tor)); return tr_peerMgrPeerStats(tor, peer_count); } void tr_torrentPeersFree(tr_peer_stat* peer_stats, size_t /*peer_count*/) { delete[] peer_stats; } void tr_torrentAvailability(tr_torrent const* tor, int8_t* tab, int size) { TR_ASSERT(tr_isTorrent(tor)); if (tab != nullptr && size > 0) { tr_peerMgrTorrentAvailability(tor, tab, size); } } void tr_torrentAmountFinished(tr_torrent const* tor, float* tabs, int n_tabs) { return tor->amount_done_bins(tabs, n_tabs); } // --- Start/Stop Callback namespace { void tr_torrentStartImpl(tr_torrent* tor, bool bypass_queue) { if (!tr_isTorrent(tor)) { return; } tor->start_when_stable = true; auto opts = torrent_start_opts{}; opts.bypass_queue = bypass_queue; torrentStart(tor, opts); } } // namespace void tr_torrentStart(tr_torrent* tor) { tr_torrentStartImpl(tor, false); } void tr_torrentStartNow(tr_torrent* tor) { tr_torrentStartImpl(tor, true); } void tr_torrentStartMagnet(tr_torrent* tor) { tr_torrentStart(tor); } // --- namespace { namespace verify_helpers { void onVerifyDoneThreadFunc(tr_torrent* const tor) { TR_ASSERT(tor->session->am_in_session_thread()); if (tor->is_deleting_) { return; } tor->recheck_completeness(); if (tor->start_when_stable) { auto opts = torrent_start_opts{}; opts.has_local_data = !tor->checked_pieces_.has_none(); torrentStart(tor, opts); } } void verifyTorrent(tr_torrent* const tor) { TR_ASSERT(tor->session->am_in_session_thread()); auto const lock = tor->unique_lock(); if (tor->is_deleting_) { return; } /* if the torrent's already being verified, stop it */ tor->session->verifyRemove(tor); if (!tor->has_metainfo()) { return; } if (tor->is_running()) { torrentStop(tor); } if (!setLocalErrorIfFilesDisappeared(tor)) { tor->session->verifyAdd(tor); } } } // namespace verify_helpers } // namespace void tr_torrentOnVerifyDone(tr_torrent* tor, bool aborted) { using namespace verify_helpers; if (aborted || tor->is_deleting_) { return; } tor->session->runInSessionThread(onVerifyDoneThreadFunc, tor); } void tr_torrentVerify(tr_torrent* tor) { using namespace verify_helpers; tor->session->runInSessionThread(verifyTorrent, tor); } void tr_torrent::set_verify_state(tr_verify_state state) { TR_ASSERT(state == TR_VERIFY_NONE || state == TR_VERIFY_WAIT || state == TR_VERIFY_NOW); this->verify_state_ = state; this->verify_progress_ = {}; this->mark_changed(); } // --- void tr_torrentSave(tr_torrent* tor) { TR_ASSERT(tr_isTorrent(tor)); if (tor->is_dirty_) { tor->is_dirty_ = false; tr_resume::save(tor); } } // --- Completeness namespace { namespace completeness_helpers { [[nodiscard]] constexpr char const* get_completion_string(int type) { switch (type) { case TR_PARTIAL_SEED: /* Translators: this is a minor point that's safe to skip over, but FYI: "Complete" and "Done" are specific, different terms in Transmission: "Complete" means we've downloaded every file in the torrent. "Done" means we're done downloading the files we wanted, but NOT all that exist */ return "Done"; case TR_SEED: return "Complete"; default: return "Incomplete"; } } } // namespace completeness_helpers } // namespace void tr_torrent::recheck_completeness() { using namespace completeness_helpers; auto const lock = unique_lock(); needs_completeness_check_ = false; auto const new_completeness = completion.status(); if (new_completeness != completeness) { bool const recent_change = downloadedCur != 0; bool const was_leeching = !this->is_done(); bool const was_running = is_running(); if (recent_change) { tr_logAddTraceTor( this, fmt::format( "State changed from {} to {}", get_completion_string(this->completeness), get_completion_string(completeness))); } this->completeness = new_completeness; this->session->closeTorrentFiles(this); if (this->is_done()) { if (recent_change) { tr_announcerTorrentCompleted(this); this->mark_changed(); this->doneDate = tr_time(); } if (this->current_dir() == this->incomplete_dir()) { this->set_location(this->download_dir(), true, nullptr, nullptr); } done_.emit(this, recent_change); } this->session->onTorrentCompletenessChanged(this, completeness, was_running); if (this->is_done() && was_leeching && was_running) { /* if completeness was TR_LEECH, the seed limit check will have been skipped in bandwidthPulse */ tr_torrentCheckSeedLimit(this); } this->set_dirty(); if (this->is_done()) { tr_torrentSave(this); callScriptIfEnabled(this, TR_SCRIPT_ON_TORRENT_DONE); } } } // --- File DND void tr_torrentSetFileDLs(tr_torrent* tor, tr_file_index_t const* files, tr_file_index_t n_files, bool wanted) { TR_ASSERT(tr_isTorrent(tor)); tor->set_files_wanted(files, n_files, wanted); } // --- void tr_torrent::setLabels(std::vector const& new_labels) { auto const lock = unique_lock(); this->labels.clear(); for (auto label : new_labels) { if (std::find(std::begin(this->labels), std::end(this->labels), label) == std::end(this->labels)) { this->labels.push_back(label); } } this->labels.shrink_to_fit(); this->set_dirty(); } // --- void tr_torrent::set_bandwidth_group(std::string_view group_name) noexcept { group_name = tr_strv_strip(group_name); auto const lock = this->unique_lock(); if (std::empty(group_name)) { this->bandwidth_group_ = tr_interned_string{}; this->bandwidth_.set_parent(&this->session->top_bandwidth_); } else { this->bandwidth_group_ = group_name; this->bandwidth_.set_parent(&this->session->getBandwidthGroup(group_name)); } this->set_dirty(); } // --- tr_priority_t tr_torrentGetPriority(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->get_priority(); } void tr_torrentSetPriority(tr_torrent* tor, tr_priority_t priority) { TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tr_isPriority(priority)); if (tor->bandwidth_.get_priority() != priority) { tor->bandwidth_.set_priority(priority); tor->set_dirty(); } } // --- void tr_torrentSetPeerLimit(tr_torrent* tor, uint16_t max_connected_peers) { TR_ASSERT(tr_isTorrent(tor)); if (tor->max_connected_peers_ != max_connected_peers) { tor->max_connected_peers_ = max_connected_peers; tor->set_dirty(); } } uint16_t tr_torrentGetPeerLimit(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); return tor->peer_limit(); } // --- bool tr_torrentReqIsValid(tr_torrent const* tor, tr_piece_index_t index, uint32_t offset, uint32_t length) { TR_ASSERT(tr_isTorrent(tor)); int err = 0; if (index >= tor->piece_count()) { err = 1; } else if (length < 1) { err = 2; } else if (offset + length > tor->piece_size(index)) { err = 3; } else if (length > tr_block_info::BlockSize) { err = 4; } else if (tor->piece_loc(index, offset, length).byte > tor->total_size()) { err = 5; } if (err != 0) { tr_logAddTraceTor(tor, fmt::format("index {} offset {} length {} err {}", index, offset, length, err)); } return err == 0; } // TODO(ckerr) migrate to fpm? tr_block_span_t tr_torGetFileBlockSpan(tr_torrent const* tor, tr_file_index_t file) { auto const [begin_byte, end_byte] = tor->fpm_.byte_span(file); auto const begin_block = tor->byte_loc(begin_byte).block; if (begin_byte >= end_byte) // 0-byte file { return { begin_block, begin_block + 1 }; } auto const final_block = tor->byte_loc(end_byte - 1).block; auto const end_block = final_block + 1; return { begin_block, end_block }; } // --- // TODO: should be const after tr_ioTestPiece() is const bool tr_torrent::check_piece(tr_piece_index_t piece) { bool const pass = tr_ioTestPiece(this, piece); tr_logAddTraceTor(this, fmt::format("[LAZY] tr_torrent.checkPiece tested piece {}, pass=={}", piece, pass)); return pass; } // --- bool tr_torrent::set_tracker_list(std::string_view text) { auto const lock = this->unique_lock(); auto announce_list = tr_announce_list(); if (!announce_list.parse(text)) { return false; } auto const has_metadata = this->has_metainfo(); if (has_metadata && !announce_list.save(torrent_file())) { return false; } this->metainfo_.announce_list() = announce_list; this->mark_edited(); // magnet links if (!has_metadata) { auto const magnet_file = this->magnet_file(); auto const magnet_link = this->magnet(); tr_error* save_error = nullptr; if (!tr_file_save(magnet_file, magnet_link, &save_error)) { this->set_local_error(fmt::format( _("Couldn't save '{path}': {error} ({error_code})"), fmt::arg("path", magnet_file), fmt::arg("error", save_error->message), fmt::arg("error_code", save_error->code))); tr_error_clear(&save_error); } } /* if we had a tracker-related error on this torrent, * and that tracker's been removed, * then clear the error */ if (this->error == TR_STAT_TRACKER_WARNING || this->error == TR_STAT_TRACKER_ERROR) { auto const error_url = this->error_announce_url; if (std::any_of( std::begin(this->announce_list()), std::end(this->announce_list()), [error_url](auto const& tracker) { return tracker.announce == error_url; })) { tr_torrentClearError(this); } } on_announce_list_changed(); return true; } void tr_torrent::on_tracker_response(tr_tracker_event const* event) { switch (event->type) { case tr_tracker_event::Type::Peers: tr_logAddTraceTor(this, fmt::format("Got {} peers from tracker", std::size(event->pex))); tr_peerMgrAddPex(this, TR_PEER_FROM_TRACKER, std::data(event->pex), std::size(event->pex)); break; case tr_tracker_event::Type::Counts: if (is_private() && (event->leechers == 0)) { swarm_is_all_seeds_.emit(this); } break; case tr_tracker_event::Type::Warning: tr_logAddWarnTor( this, fmt::format( _("Tracker warning: '{warning}' ({url})"), fmt::arg("warning", event->text), fmt::arg("url", tr_urlTrackerLogName(event->announce_url)))); error = TR_STAT_TRACKER_WARNING; error_announce_url = event->announce_url; error_string = event->text; break; case tr_tracker_event::Type::Error: error = TR_STAT_TRACKER_ERROR; error_announce_url = event->announce_url; error_string = event->text; break; case tr_tracker_event::Type::ErrorClear: if (error != TR_STAT_LOCAL_ERROR) { tr_torrentClearError(this); } break; } } bool tr_torrentSetTrackerList(tr_torrent* tor, char const* text) { return text != nullptr && tor->set_tracker_list(text); } std::string tr_torrentGetTrackerList(tr_torrent const* tor) { return tor->tracker_list(); } size_t tr_torrentGetTrackerListToBuf(tr_torrent const* tor, char* buf, size_t buflen) { return tr_strv_to_buf(tr_torrentGetTrackerList(tor), buf, buflen); } // --- uint64_t tr_torrentGetBytesLeftToAllocate(tr_torrent const* tor) { TR_ASSERT(tr_isTorrent(tor)); uint64_t bytes_left = 0; for (tr_file_index_t i = 0, n = tor->file_count(); i < n; ++i) { if (auto const wanted = tor->files_wanted_.file_wanted(i); !wanted) { continue; } auto const length = tor->file_size(i); bytes_left += length; auto const found = tor->find_file(i); if (found) { bytes_left -= found->size; } } return bytes_left; } // --- std::string_view tr_torrent::primary_mime_type() const { // count up how many bytes there are for each mime-type in the torrent // NB: get_mime_type_for_filename() always returns the same ptr for a // mime_type, so its raw pointer can be used as a key. auto size_per_mime_type = small::unordered_map{}; for (tr_file_index_t i = 0, n = this->file_count(); i < n; ++i) { auto const mime_type = tr_get_mime_type_for_filename(this->file_subpath(i)); size_per_mime_type[mime_type] += this->file_size(i); } if (std::empty(size_per_mime_type)) { // https://developer.mozilla.org/en-US/docs/Web/HTTP/Basics_of_HTTP/MIME_types/Common_types // application/octet-stream is the default value for all other cases. // An unknown file type should use this type. auto constexpr Fallback = "application/octet-stream"sv; return Fallback; } auto const it = std::max_element( std::begin(size_per_mime_type), std::end(size_per_mime_type), [](auto const& a, auto const& b) { return a.second < b.second; }); return it->first; } // --- namespace { namespace got_block_helpers { void onFileCompleted(tr_torrent* tor, tr_file_index_t i) { /* close the file so that we can reopen in read-only mode as needed */ tor->session->closeTorrentFile(tor, i); /* now that the file is complete and closed, we can start watching its * mtime timestamp for changes to know if we need to reverify pieces */ tor->file_mtimes_[i] = tr_time(); /* if the torrent's current filename isn't the same as the one in the * metadata -- for example, if it had the ".part" suffix appended to * it until now -- then rename it to match the one in the metadata */ if (auto found = tor->find_file(i); found) { if (auto const& file_subpath = tor->file_subpath(i); file_subpath != found->subpath()) { auto const& oldpath = found->filename(); auto const newpath = tr_pathbuf{ found->base(), '/', file_subpath }; tr_error* error = nullptr; if (!tr_sys_path_rename(oldpath, newpath, &error)) { tr_logAddErrorTor( tor, fmt::format( _("Couldn't move '{old_path}' to '{path}': {error} ({error_code})"), fmt::arg("old_path", oldpath), fmt::arg("path", newpath), fmt::arg("error", error->message), fmt::arg("error_code", error->code))); tr_error_free(error); } } } } void onPieceCompleted(tr_torrent* tor, tr_piece_index_t piece) { tor->piece_completed_.emit(tor, piece); // bookkeeping tor->set_needs_completeness_check(); // if this piece completes any file, invoke the fileCompleted func for it auto const span = tor->fpm_.file_span(piece); for (auto file = span.begin; file < span.end; ++file) { if (tor->completion.has_blocks(tr_torGetFileBlockSpan(tor, file))) { onFileCompleted(tor, file); } } } void onPieceFailed(tr_torrent* tor, tr_piece_index_t piece) { tr_logAddDebugTor(tor, fmt::format("Piece {}, which was just downloaded, failed its checksum test", piece)); auto const n = tor->piece_size(piece); tor->corruptCur += n; tor->downloadedCur -= std::min(tor->downloadedCur, uint64_t{ n }); tor->got_bad_piece_.emit(tor, piece); tor->set_has_piece(piece, false); } } // namespace got_block_helpers } // namespace void tr_torrentGotBlock(tr_torrent* tor, tr_block_index_t block) { using namespace got_block_helpers; TR_ASSERT(tr_isTorrent(tor)); TR_ASSERT(tor->session->am_in_session_thread()); if (tor->has_block(block)) { tr_logAddDebugTor(tor, "we have this block already..."); auto const n = tor->block_size(block); tor->downloadedCur -= std::min(tor->downloadedCur, uint64_t{ n }); return; } tor->set_dirty(); tor->completion.add_block(block); auto const block_loc = tor->block_loc(block); auto const first_piece = block_loc.piece; auto const last_piece = tor->byte_loc(block_loc.byte + tor->block_size(block) - 1).piece; for (auto piece = first_piece; piece <= last_piece; ++piece) { if (!tor->has_piece(piece)) { continue; } if (tor->check_piece(piece)) { onPieceCompleted(tor, piece); } else { onPieceFailed(tor, piece); } } } // --- std::string tr_torrentFindFile(tr_torrent const* tor, tr_file_index_t file_num) { auto const found = tor->find_file(file_num); return std::string{ found ? found->filename().sv() : ""sv }; } size_t tr_torrentFindFileToBuf(tr_torrent const* tor, tr_file_index_t file_num, char* buf, size_t buflen) { return tr_strv_to_buf(tr_torrentFindFile(tor, file_num), buf, buflen); } void tr_torrent::set_download_dir(std::string_view path, bool is_new_torrent) { download_dir_ = path; mark_edited(); set_dirty(); refresh_current_dir(); if (is_new_torrent) { if (session->shouldFullyVerifyAddedTorrents() || !torrent_init_helpers::isNewTorrentASeed(this)) { tr_torrentVerify(this); } else { completion.set_has_all(); doneDate = addedDate; recheck_completeness(); } } } // decide whether we should be looking for files in downloadDir or incompleteDir void tr_torrent::refresh_current_dir() { auto dir = tr_interned_string{}; if (std::empty(incomplete_dir())) { dir = download_dir(); } else if (!has_metainfo()) // no files to find { dir = incomplete_dir(); } else { auto const found = find_file(0); dir = found ? tr_interned_string{ found->base() } : incomplete_dir(); } TR_ASSERT(!std::empty(dir)); TR_ASSERT(dir == download_dir() || dir == incomplete_dir()); current_dir_ = dir; } // --- RENAME namespace { namespace rename_helpers { bool renameArgsAreValid(tr_torrent const* tor, std::string_view oldpath, std::string_view newname) { if (std::empty(oldpath) || std::empty(newname) || newname == "."sv || newname == ".."sv || tr_strv_contains(newname, TR_PATH_DELIMITER)) { return false; } auto const newpath = tr_strv_contains(oldpath, TR_PATH_DELIMITER) ? tr_pathbuf{ tr_sys_path_dirname(oldpath), '/', newname } : tr_pathbuf{ newname }; if (newpath == oldpath) { return true; } auto const newpath_as_dir = tr_pathbuf{ newpath, '/' }; auto const n_files = tor->file_count(); for (tr_file_index_t i = 0; i < n_files; ++i) { auto const& name = tor->file_subpath(i); if (newpath == name || tr_strv_starts_with(name, newpath_as_dir)) { return false; } } return true; } auto renameFindAffectedFiles(tr_torrent const* tor, std::string_view oldpath) { auto indices = std::vector{}; auto const oldpath_as_dir = tr_pathbuf{ oldpath, '/' }; auto const n_files = tor->file_count(); for (tr_file_index_t i = 0; i < n_files; ++i) { auto const& name = tor->file_subpath(i); if (name == oldpath || tr_strv_starts_with(name, oldpath_as_dir)) { indices.push_back(i); } } return indices; } int renamePath(tr_torrent const* tor, std::string_view oldpath, std::string_view newname) { int err = 0; auto const base = tor->is_done() || std::empty(tor->incomplete_dir()) ? tor->download_dir() : tor->incomplete_dir(); auto src = tr_pathbuf{ base, '/', oldpath }; if (!tr_sys_path_exists(src)) /* check for it as a partial */ { src += tr_torrent_files::PartialFileSuffix; } if (tr_sys_path_exists(src)) { auto const parent = tr_sys_path_dirname(src); auto const tgt = tr_strv_ends_with(src, tr_torrent_files::PartialFileSuffix) ? tr_pathbuf{ parent, '/', newname, tr_torrent_files::PartialFileSuffix } : tr_pathbuf{ parent, '/', newname }; auto tmp = errno; bool const tgt_exists = tr_sys_path_exists(tgt); errno = tmp; if (!tgt_exists) { tr_error* error = nullptr; tmp = errno; if (!tr_sys_path_rename(src, tgt, &error)) { err = error->code; tr_error_free(error); } errno = tmp; } } return err; } void renameTorrentFileString(tr_torrent* tor, std::string_view oldpath, std::string_view newname, tr_file_index_t file_index) { auto name = std::string{}; auto const subpath = std::string_view{ tor->file_subpath(file_index) }; auto const oldpath_len = std::size(oldpath); if (!tr_strv_contains(oldpath, TR_PATH_DELIMITER)) { if (oldpath_len >= std::size(subpath)) { name = newname; } else { name = fmt::format(FMT_STRING("{:s}/{:s}"sv), newname, subpath.substr(oldpath_len + 1)); } } else { auto const tmp = tr_sys_path_dirname(oldpath); if (std::empty(tmp)) { return; } if (oldpath_len >= std::size(subpath)) { name = fmt::format(FMT_STRING("{:s}/{:s}"sv), tmp, newname); } else { name = fmt::format(FMT_STRING("{:s}/{:s}/{:s}"sv), tmp, newname, subpath.substr(oldpath_len + 1)); } } if (subpath != name) { tor->set_file_subpath(file_index, name); } } void torrentRenamePath( tr_torrent* const tor, std::string const& oldpath, // NOLINT performance-unnecessary-value-param std::string const& newname, // NOLINT performance-unnecessary-value-param tr_torrent_rename_done_func callback, void* const callback_user_data) { TR_ASSERT(tr_isTorrent(tor)); int error = 0; if (!renameArgsAreValid(tor, oldpath, newname)) { error = EINVAL; } else if (auto const file_indices = renameFindAffectedFiles(tor, oldpath); std::empty(file_indices)) { error = EINVAL; } else { error = renamePath(tor, oldpath, newname); if (error == 0) { /* update tr_info.files */ for (auto const& file_index : file_indices) { renameTorrentFileString(tor, oldpath, newname, file_index); } /* update tr_info.name if user changed the toplevel */ if (std::size(file_indices) == tor->file_count() && !tr_strv_contains(oldpath, '/')) { tor->set_name(newname); } tor->mark_edited(); tor->set_dirty(); } } /// tor->mark_changed(); /* callback */ if (callback != nullptr) { (*callback)(tor, oldpath.c_str(), newname.c_str(), error, callback_user_data); } } } // namespace rename_helpers } // namespace void tr_torrent::rename_path( std::string_view oldpath, std::string_view newname, tr_torrent_rename_done_func callback, void* callback_user_data) { using namespace rename_helpers; this->session->runInSessionThread( torrentRenamePath, this, std::string{ oldpath }, std::string{ newname }, callback, callback_user_data); } void tr_torrentRenamePath( tr_torrent* tor, char const* oldpath, char const* newname, tr_torrent_rename_done_func callback, void* callback_user_data) { oldpath = oldpath != nullptr ? oldpath : ""; newname = newname != nullptr ? newname : ""; tor->rename_path(oldpath, newname, callback, callback_user_data); } // --- void tr_torrentSetFilePriorities( tr_torrent* tor, tr_file_index_t const* files, tr_file_index_t file_count, tr_priority_t priority) { tor->set_file_priorities(files, file_count, priority); } bool tr_torrentHasMetadata(tr_torrent const* tor) { return tor->has_metainfo(); } void tr_torrent::mark_edited() { this->editDate = tr_time(); } void tr_torrent::mark_changed() { this->anyDate = tr_time(); } void tr_torrent::set_blocks(tr_bitfield blocks) { this->completion.set_blocks(std::move(blocks)); } [[nodiscard]] bool tr_torrent::ensure_piece_is_checked(tr_piece_index_t piece) { TR_ASSERT(piece < this->piece_count()); if (is_piece_checked(piece)) { return true; } bool const checked = check_piece(piece); this->mark_changed(); this->set_dirty(); checked_pieces_.set(piece, checked); return checked; } void tr_torrent::init_checked_pieces(tr_bitfield const& checked, time_t const* mtimes /*fileCount()*/) { TR_ASSERT(std::size(checked) == this->piece_count()); checked_pieces_ = checked; auto const n = this->file_count(); this->file_mtimes_.resize(n); for (size_t i = 0; i < n; ++i) { auto const found = this->find_file(i); auto const mtime = found ? found->last_modified_at : 0; this->file_mtimes_[i] = mtime; // if a file has changed, mark its pieces as unchecked if (mtime == 0 || mtime != mtimes[i]) { auto const [begin, end] = pieces_in_file(i); checked_pieces_.unset_span(begin, end); } } }