/* * Bittorrent Client using Qt and libtorrent. * Copyright (C) 2015 Vladimir Golovnev * Copyright (C) 2006 Christophe Dumez * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * In addition, as a special exception, the copyright holders give permission to * link this program with the OpenSSL project's "OpenSSL" library (or with * modified versions of it that use the same license as the "OpenSSL" library), * and distribute the linked executables. You must obey the GNU General Public * License in all respects for all of the code used other than "OpenSSL". If you * modify file(s), you may extend this exception to your version of the file(s), * but you are not obligated to do so. If you do not wish to do so, delete this * exception statement from your version. */ #include "torrentimpl.h" #include #include #include #ifdef Q_OS_WIN #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "base/global.h" #include "base/logger.h" #include "base/preferences.h" #include "base/profile.h" #include "base/utils/fs.h" #include "base/utils/string.h" #include "common.h" #include "downloadpriority.h" #include "ltqhash.h" #include "ltunderlyingtype.h" #include "peeraddress.h" #include "peerinfo.h" #include "session.h" #include "trackerentry.h" using namespace BitTorrent; namespace { std::vector toLTDownloadPriorities(const QVector &priorities) { std::vector out; out.reserve(priorities.size()); std::transform(priorities.cbegin(), priorities.cend() , std::back_inserter(out), [](const DownloadPriority priority) { return static_cast( static_cast>(priority)); }); return out; } using ListType = lt::entry::list_type; ListType setToEntryList(const QSet &input) { ListType entryList; for (const QString &setValue : input) entryList.emplace_back(setValue.toStdString()); return entryList; } } // TorrentImpl TorrentImpl::TorrentImpl(Session *session, lt::session *nativeSession , const lt::torrent_handle &nativeHandle, const LoadTorrentParams ¶ms) : QObject(session) , m_session(session) , m_nativeSession(nativeSession) , m_nativeHandle(nativeHandle) , m_name(params.name) , m_savePath(Utils::Fs::toNativePath(params.savePath)) , m_category(params.category) , m_tags(params.tags) , m_ratioLimit(params.ratioLimit) , m_seedingTimeLimit(params.seedingTimeLimit) , m_operatingMode(params.forced ? TorrentOperatingMode::Forced : TorrentOperatingMode::AutoManaged) , m_contentLayout(params.contentLayout) , m_hasSeedStatus(params.hasSeedStatus) , m_hasFirstLastPiecePriority(params.firstLastPiecePriority) , m_useAutoTMM(params.savePath.isEmpty()) , m_isStopped(params.paused) , m_ltAddTorrentParams(params.ltAddTorrentParams) { if (m_useAutoTMM) m_savePath = Utils::Fs::toNativePath(m_session->categorySavePath(m_category)); m_hash = InfoHash {m_nativeHandle.info_hash()}; if (m_ltAddTorrentParams.ti) { // Initialize it only if torrent is added with metadata. // Otherwise it should be initialized in "Metadata received" handler. m_torrentInfo = TorrentInfo {m_nativeHandle.torrent_file()}; } updateStatus(); if (hasMetadata()) applyFirstLastPiecePriority(m_hasFirstLastPiecePriority); // TODO: Remove the following upgrade code in v.4.4 // == BEGIN UPGRADE CODE == const QString spath = actualStorageLocation(); for (int i = 0; i < filesCount(); ++i) { const QString filepath = filePath(i); // Move "unwanted" files back to their original folder const QString parentRelPath = Utils::Fs::branchPath(filepath); if (QDir(parentRelPath).dirName() == ".unwanted") { const QString oldName = Utils::Fs::fileName(filepath); const QString newRelPath = Utils::Fs::branchPath(parentRelPath); if (newRelPath.isEmpty()) renameFile(i, oldName); else renameFile(i, QDir(newRelPath).filePath(oldName)); // Remove .unwanted directory if empty qDebug() << "Attempting to remove \".unwanted\" folder at " << QDir(spath + '/' + newRelPath).absoluteFilePath(".unwanted"); QDir(spath + '/' + newRelPath).rmdir(".unwanted"); } } // == END UPGRADE CODE == } TorrentImpl::~TorrentImpl() {} bool TorrentImpl::isValid() const { return m_nativeHandle.is_valid(); } InfoHash TorrentImpl::hash() const { return m_hash; } QString TorrentImpl::name() const { if (!m_name.isEmpty()) return m_name; if (hasMetadata()) return m_torrentInfo.name(); const QString name = QString::fromStdString(m_nativeStatus.name); if (!name.isEmpty()) return name; return m_hash; } QDateTime TorrentImpl::creationDate() const { return m_torrentInfo.creationDate(); } QString TorrentImpl::creator() const { return m_torrentInfo.creator(); } QString TorrentImpl::comment() const { return m_torrentInfo.comment(); } bool TorrentImpl::isPrivate() const { return m_torrentInfo.isPrivate(); } qlonglong TorrentImpl::totalSize() const { return m_torrentInfo.totalSize(); } // size without the "don't download" files qlonglong TorrentImpl::wantedSize() const { return m_nativeStatus.total_wanted; } qlonglong TorrentImpl::completedSize() const { return m_nativeStatus.total_wanted_done; } qlonglong TorrentImpl::pieceLength() const { return m_torrentInfo.pieceLength(); } qlonglong TorrentImpl::wastedSize() const { return (m_nativeStatus.total_failed_bytes + m_nativeStatus.total_redundant_bytes); } QString TorrentImpl::currentTracker() const { return QString::fromStdString(m_nativeStatus.current_tracker); } QString TorrentImpl::savePath(bool actual) const { if (actual) return Utils::Fs::toUniformPath(actualStorageLocation()); else return Utils::Fs::toUniformPath(m_savePath); } QString TorrentImpl::rootPath(bool actual) const { if (!hasMetadata()) return {}; const QString firstFilePath = filePath(0); const int slashIndex = firstFilePath.indexOf('/'); if (slashIndex >= 0) return QDir(savePath(actual)).absoluteFilePath(firstFilePath.left(slashIndex)); else return QDir(savePath(actual)).absoluteFilePath(firstFilePath); } QString TorrentImpl::contentPath(const bool actual) const { if (!hasMetadata()) return {}; if (filesCount() == 1) return QDir(savePath(actual)).absoluteFilePath(filePath(0)); if (m_torrentInfo.hasRootFolder()) return rootPath(actual); return savePath(actual); } bool TorrentImpl::isAutoTMMEnabled() const { return m_useAutoTMM; } void TorrentImpl::setAutoTMMEnabled(bool enabled) { if (m_useAutoTMM == enabled) return; m_useAutoTMM = enabled; m_session->handleTorrentSavingModeChanged(this); if (m_useAutoTMM) move_impl(m_session->categorySavePath(m_category), MoveStorageMode::Overwrite); } QString TorrentImpl::actualStorageLocation() const { return QString::fromStdString(m_nativeStatus.save_path); } void TorrentImpl::setAutoManaged(const bool enable) { if (enable) m_nativeHandle.set_flags(lt::torrent_flags::auto_managed); else m_nativeHandle.unset_flags(lt::torrent_flags::auto_managed); } QVector TorrentImpl::trackers() const { const std::vector nativeTrackers = m_nativeHandle.trackers(); QVector entries; entries.reserve(nativeTrackers.size()); for (const lt::announce_entry &tracker : nativeTrackers) entries << tracker; return entries; } QHash TorrentImpl::trackerInfos() const { return m_trackerInfos; } void TorrentImpl::addTrackers(const QVector &trackers) { QSet currentTrackers; for (const lt::announce_entry &entry : m_nativeHandle.trackers()) currentTrackers << entry; QVector newTrackers; newTrackers.reserve(trackers.size()); for (const TrackerEntry &tracker : trackers) { if (!currentTrackers.contains(tracker)) { m_nativeHandle.add_tracker(tracker.nativeEntry()); newTrackers << tracker; } } if (!newTrackers.isEmpty()) m_session->handleTorrentTrackersAdded(this, newTrackers); } void TorrentImpl::replaceTrackers(const QVector &trackers) { QVector currentTrackers = this->trackers(); QVector newTrackers; newTrackers.reserve(trackers.size()); std::vector nativeTrackers; nativeTrackers.reserve(trackers.size()); for (const TrackerEntry &tracker : trackers) { nativeTrackers.emplace_back(tracker.nativeEntry()); if (!currentTrackers.removeOne(tracker)) newTrackers << tracker; } m_nativeHandle.replace_trackers(nativeTrackers); if (newTrackers.isEmpty() && currentTrackers.isEmpty()) { // when existing tracker reorders m_session->handleTorrentTrackersChanged(this); } else { if (!currentTrackers.isEmpty()) m_session->handleTorrentTrackersRemoved(this, currentTrackers); if (!newTrackers.isEmpty()) m_session->handleTorrentTrackersAdded(this, newTrackers); // Clear the peer list if it's a private torrent since // we do not want to keep connecting with peers from old tracker. if (isPrivate()) clearPeers(); } } QVector TorrentImpl::urlSeeds() const { const std::set currentSeeds = m_nativeHandle.url_seeds(); QVector urlSeeds; urlSeeds.reserve(currentSeeds.size()); for (const std::string &urlSeed : currentSeeds) urlSeeds.append(QUrl(urlSeed.c_str())); return urlSeeds; } void TorrentImpl::addUrlSeeds(const QVector &urlSeeds) { const std::set currentSeeds = m_nativeHandle.url_seeds(); QVector addedUrlSeeds; addedUrlSeeds.reserve(urlSeeds.size()); for (const QUrl &url : urlSeeds) { const std::string nativeUrl = url.toString().toStdString(); if (currentSeeds.find(nativeUrl) == currentSeeds.end()) { m_nativeHandle.add_url_seed(nativeUrl); addedUrlSeeds << url; } } if (!addedUrlSeeds.isEmpty()) m_session->handleTorrentUrlSeedsAdded(this, addedUrlSeeds); } void TorrentImpl::removeUrlSeeds(const QVector &urlSeeds) { const std::set currentSeeds = m_nativeHandle.url_seeds(); QVector removedUrlSeeds; removedUrlSeeds.reserve(urlSeeds.size()); for (const QUrl &url : urlSeeds) { const std::string nativeUrl = url.toString().toStdString(); if (currentSeeds.find(nativeUrl) != currentSeeds.end()) { m_nativeHandle.remove_url_seed(nativeUrl); removedUrlSeeds << url; } } if (!removedUrlSeeds.isEmpty()) m_session->handleTorrentUrlSeedsRemoved(this, removedUrlSeeds); } void TorrentImpl::clearPeers() { m_nativeHandle.clear_peers(); } bool TorrentImpl::connectPeer(const PeerAddress &peerAddress) { lt::error_code ec; const lt::address addr = lt::make_address(peerAddress.ip.toString().toStdString(), ec); if (ec) return false; const lt::tcp::endpoint endpoint(addr, peerAddress.port); try { m_nativeHandle.connect_peer(endpoint); } catch (const lt::system_error &err) { LogMsg(tr("Failed to add peer \"%1\" to torrent \"%2\". Reason: %3") .arg(peerAddress.toString(), name(), QString::fromLocal8Bit(err.what())), Log::WARNING); return false; } LogMsg(tr("Peer \"%1\" is added to torrent \"%2\"").arg(peerAddress.toString(), name())); return true; } bool TorrentImpl::needSaveResumeData() const { if (m_isStopped && !(m_nativeStatus.flags & lt::torrent_flags::auto_managed)) return false; return m_nativeStatus.need_save_resume; } void TorrentImpl::saveResumeData() { m_nativeHandle.save_resume_data(); m_session->handleTorrentSaveResumeDataRequested(this); } int TorrentImpl::filesCount() const { return m_torrentInfo.filesCount(); } int TorrentImpl::piecesCount() const { return m_torrentInfo.piecesCount(); } int TorrentImpl::piecesHave() const { return m_nativeStatus.num_pieces; } qreal TorrentImpl::progress() const { if (isChecking()) return m_nativeStatus.progress; if (m_nativeStatus.total_wanted == 0) return 0.; if (m_nativeStatus.total_wanted_done == m_nativeStatus.total_wanted) return 1.; const qreal progress = static_cast(m_nativeStatus.total_wanted_done) / m_nativeStatus.total_wanted; Q_ASSERT((progress >= 0.f) && (progress <= 1.f)); return progress; } QString TorrentImpl::category() const { return m_category; } bool TorrentImpl::belongsToCategory(const QString &category) const { if (m_category.isEmpty()) return category.isEmpty(); if (!Session::isValidCategoryName(category)) return false; if (m_category == category) return true; if (m_session->isSubcategoriesEnabled() && m_category.startsWith(category + '/')) return true; return false; } QSet TorrentImpl::tags() const { return m_tags; } bool TorrentImpl::hasTag(const QString &tag) const { return m_tags.contains(tag); } bool TorrentImpl::addTag(const QString &tag) { if (!Session::isValidTag(tag)) return false; if (!hasTag(tag)) { if (!m_session->hasTag(tag)) if (!m_session->addTag(tag)) return false; m_tags.insert(tag); m_session->handleTorrentTagAdded(this, tag); return true; } return false; } bool TorrentImpl::removeTag(const QString &tag) { if (m_tags.remove(tag)) { m_session->handleTorrentTagRemoved(this, tag); return true; } return false; } void TorrentImpl::removeAllTags() { for (const QString &tag : asConst(tags())) removeTag(tag); } QDateTime TorrentImpl::addedTime() const { return QDateTime::fromSecsSinceEpoch(m_nativeStatus.added_time); } qreal TorrentImpl::ratioLimit() const { return m_ratioLimit; } int TorrentImpl::seedingTimeLimit() const { return m_seedingTimeLimit; } QString TorrentImpl::filePath(int index) const { return m_torrentInfo.filePath(index); } QString TorrentImpl::fileName(int index) const { if (!hasMetadata()) return {}; return Utils::Fs::fileName(filePath(index)); } qlonglong TorrentImpl::fileSize(int index) const { return m_torrentInfo.fileSize(index); } // Return a list of absolute paths corresponding // to all files in a torrent QStringList TorrentImpl::absoluteFilePaths() const { if (!hasMetadata()) return {}; const QDir saveDir(savePath(true)); QStringList res; for (int i = 0; i < filesCount(); ++i) res << Utils::Fs::expandPathAbs(saveDir.absoluteFilePath(filePath(i))); return res; } QVector TorrentImpl::filePriorities() const { const std::vector fp = m_nativeHandle.get_file_priorities(); QVector ret; std::transform(fp.cbegin(), fp.cend(), std::back_inserter(ret), [](lt::download_priority_t priority) { return static_cast(static_cast>(priority)); }); return ret; } TorrentInfo TorrentImpl::info() const { return m_torrentInfo; } bool TorrentImpl::isPaused() const { return m_isStopped; } bool TorrentImpl::isQueued() const { // Torrent is Queued if it isn't in Paused state but paused internally return (!isPaused() && (m_nativeStatus.flags & lt::torrent_flags::auto_managed) && (m_nativeStatus.flags & lt::torrent_flags::paused)); } bool TorrentImpl::isChecking() const { return ((m_nativeStatus.state == lt::torrent_status::checking_files) || (m_nativeStatus.state == lt::torrent_status::checking_resume_data)); } bool TorrentImpl::isDownloading() const { return m_state == TorrentState::Downloading || m_state == TorrentState::DownloadingMetadata || m_state == TorrentState::StalledDownloading || m_state == TorrentState::CheckingDownloading || m_state == TorrentState::PausedDownloading || m_state == TorrentState::QueuedDownloading || m_state == TorrentState::ForcedDownloading; } bool TorrentImpl::isUploading() const { return m_state == TorrentState::Uploading || m_state == TorrentState::StalledUploading || m_state == TorrentState::CheckingUploading || m_state == TorrentState::QueuedUploading || m_state == TorrentState::ForcedUploading; } bool TorrentImpl::isCompleted() const { return m_state == TorrentState::Uploading || m_state == TorrentState::StalledUploading || m_state == TorrentState::CheckingUploading || m_state == TorrentState::PausedUploading || m_state == TorrentState::QueuedUploading || m_state == TorrentState::ForcedUploading; } bool TorrentImpl::isActive() const { if (m_state == TorrentState::StalledDownloading) return (uploadPayloadRate() > 0); return m_state == TorrentState::DownloadingMetadata || m_state == TorrentState::Downloading || m_state == TorrentState::ForcedDownloading || m_state == TorrentState::Uploading || m_state == TorrentState::ForcedUploading || m_state == TorrentState::Moving; } bool TorrentImpl::isInactive() const { return !isActive(); } bool TorrentImpl::isErrored() const { return m_state == TorrentState::MissingFiles || m_state == TorrentState::Error; } bool TorrentImpl::isSeed() const { return ((m_nativeStatus.state == lt::torrent_status::finished) || (m_nativeStatus.state == lt::torrent_status::seeding)); } bool TorrentImpl::isForced() const { return (!isPaused() && (m_operatingMode == TorrentOperatingMode::Forced)); } bool TorrentImpl::isSequentialDownload() const { return static_cast(m_nativeStatus.flags & lt::torrent_flags::sequential_download); } bool TorrentImpl::hasFirstLastPiecePriority() const { return m_hasFirstLastPiecePriority; } TorrentState TorrentImpl::state() const { return m_state; } void TorrentImpl::updateState() { if (m_nativeStatus.state == lt::torrent_status::checking_resume_data) { m_state = TorrentState::CheckingResumeData; } else if (isMoveInProgress()) { m_state = TorrentState::Moving; } else if (hasMissingFiles()) { m_state = TorrentState::MissingFiles; } else if (hasError()) { m_state = TorrentState::Error; } else if (!hasMetadata()) { if (isPaused()) m_state = TorrentState::PausedDownloading; else if (m_session->isQueueingSystemEnabled() && isQueued()) m_state = TorrentState::QueuedDownloading; else m_state = TorrentState::DownloadingMetadata; } else if ((m_nativeStatus.state == lt::torrent_status::checking_files) && (!isPaused() || (m_nativeStatus.flags & lt::torrent_flags::auto_managed) || !(m_nativeStatus.flags & lt::torrent_flags::paused))) { // If the torrent is not just in the "checking" state, but is being actually checked m_state = m_hasSeedStatus ? TorrentState::CheckingUploading : TorrentState::CheckingDownloading; } else if (isSeed()) { if (isPaused()) m_state = TorrentState::PausedUploading; else if (m_session->isQueueingSystemEnabled() && isQueued()) m_state = TorrentState::QueuedUploading; else if (isForced()) m_state = TorrentState::ForcedUploading; else if (m_nativeStatus.upload_payload_rate > 0) m_state = TorrentState::Uploading; else m_state = TorrentState::StalledUploading; } else { if (isPaused()) m_state = TorrentState::PausedDownloading; else if (m_session->isQueueingSystemEnabled() && isQueued()) m_state = TorrentState::QueuedDownloading; else if (isForced()) m_state = TorrentState::ForcedDownloading; else if (m_nativeStatus.download_payload_rate > 0) m_state = TorrentState::Downloading; else m_state = TorrentState::StalledDownloading; } } bool TorrentImpl::hasMetadata() const { return m_torrentInfo.isValid(); } bool TorrentImpl::hasMissingFiles() const { return m_hasMissingFiles; } bool TorrentImpl::hasError() const { return static_cast(m_nativeStatus.errc); } bool TorrentImpl::hasFilteredPieces() const { const std::vector pp = m_nativeHandle.get_piece_priorities(); return std::any_of(pp.cbegin(), pp.cend(), [](const lt::download_priority_t priority) { return (priority == lt::download_priority_t {0}); }); } int TorrentImpl::queuePosition() const { if (m_nativeStatus.queue_position < lt::queue_position_t {0}) return 0; return static_cast(m_nativeStatus.queue_position) + 1; } QString TorrentImpl::error() const { return QString::fromStdString(m_nativeStatus.errc.message()); } qlonglong TorrentImpl::totalDownload() const { return m_nativeStatus.all_time_download; } qlonglong TorrentImpl::totalUpload() const { return m_nativeStatus.all_time_upload; } qlonglong TorrentImpl::activeTime() const { return lt::total_seconds(m_nativeStatus.active_duration); } qlonglong TorrentImpl::finishedTime() const { return lt::total_seconds(m_nativeStatus.finished_duration); } qlonglong TorrentImpl::seedingTime() const { return lt::total_seconds(m_nativeStatus.seeding_duration); } qlonglong TorrentImpl::eta() const { if (isPaused()) return MAX_ETA; const SpeedSampleAvg speedAverage = m_speedMonitor.average(); if (isSeed()) { const qreal maxRatioValue = maxRatio(); const int maxSeedingTimeValue = maxSeedingTime(); if ((maxRatioValue < 0) && (maxSeedingTimeValue < 0)) return MAX_ETA; qlonglong ratioEta = MAX_ETA; if ((speedAverage.upload > 0) && (maxRatioValue >= 0)) { qlonglong realDL = totalDownload(); if (realDL <= 0) realDL = wantedSize(); ratioEta = ((realDL * maxRatioValue) - totalUpload()) / speedAverage.upload; } qlonglong seedingTimeEta = MAX_ETA; if (maxSeedingTimeValue >= 0) { seedingTimeEta = (maxSeedingTimeValue * 60) - seedingTime(); if (seedingTimeEta < 0) seedingTimeEta = 0; } return qMin(ratioEta, seedingTimeEta); } if (!speedAverage.download) return MAX_ETA; return (wantedSize() - completedSize()) / speedAverage.download; } QVector TorrentImpl::filesProgress() const { if (!hasMetadata()) return {}; std::vector fp; m_nativeHandle.file_progress(fp, lt::torrent_handle::piece_granularity); const int count = static_cast(fp.size()); QVector result; result.reserve(count); for (int i = 0; i < count; ++i) { const qlonglong size = fileSize(i); if ((size <= 0) || (fp[i] == size)) result << 1; else result << (fp[i] / static_cast(size)); } return result; } int TorrentImpl::seedsCount() const { return m_nativeStatus.num_seeds; } int TorrentImpl::peersCount() const { return m_nativeStatus.num_peers; } int TorrentImpl::leechsCount() const { return (m_nativeStatus.num_peers - m_nativeStatus.num_seeds); } int TorrentImpl::totalSeedsCount() const { return (m_nativeStatus.num_complete > 0) ? m_nativeStatus.num_complete : m_nativeStatus.list_seeds; } int TorrentImpl::totalPeersCount() const { const int peers = m_nativeStatus.num_complete + m_nativeStatus.num_incomplete; return (peers > 0) ? peers : m_nativeStatus.list_peers; } int TorrentImpl::totalLeechersCount() const { return (m_nativeStatus.num_incomplete > 0) ? m_nativeStatus.num_incomplete : (m_nativeStatus.list_peers - m_nativeStatus.list_seeds); } int TorrentImpl::completeCount() const { // additional info: https://github.com/qbittorrent/qBittorrent/pull/5300#issuecomment-267783646 return m_nativeStatus.num_complete; } int TorrentImpl::incompleteCount() const { // additional info: https://github.com/qbittorrent/qBittorrent/pull/5300#issuecomment-267783646 return m_nativeStatus.num_incomplete; } QDateTime TorrentImpl::lastSeenComplete() const { if (m_nativeStatus.last_seen_complete > 0) return QDateTime::fromSecsSinceEpoch(m_nativeStatus.last_seen_complete); else return {}; } QDateTime TorrentImpl::completedTime() const { if (m_nativeStatus.completed_time > 0) return QDateTime::fromSecsSinceEpoch(m_nativeStatus.completed_time); else return {}; } qlonglong TorrentImpl::timeSinceUpload() const { if (m_nativeStatus.last_upload.time_since_epoch().count() == 0) return -1; return lt::total_seconds(lt::clock_type::now() - m_nativeStatus.last_upload); } qlonglong TorrentImpl::timeSinceDownload() const { if (m_nativeStatus.last_download.time_since_epoch().count() == 0) return -1; return lt::total_seconds(lt::clock_type::now() - m_nativeStatus.last_download); } qlonglong TorrentImpl::timeSinceActivity() const { const qlonglong upTime = timeSinceUpload(); const qlonglong downTime = timeSinceDownload(); return ((upTime < 0) != (downTime < 0)) ? std::max(upTime, downTime) : std::min(upTime, downTime); } int TorrentImpl::downloadLimit() const { return m_nativeHandle.download_limit(); } int TorrentImpl::uploadLimit() const { return m_nativeHandle.upload_limit(); } bool TorrentImpl::superSeeding() const { return static_cast(m_nativeStatus.flags & lt::torrent_flags::super_seeding); } bool TorrentImpl::isDHTDisabled() const { return static_cast(m_nativeStatus.flags & lt::torrent_flags::disable_dht); } bool TorrentImpl::isPEXDisabled() const { return static_cast(m_nativeStatus.flags & lt::torrent_flags::disable_pex); } bool TorrentImpl::isLSDDisabled() const { return static_cast(m_nativeStatus.flags & lt::torrent_flags::disable_lsd); } QVector TorrentImpl::peers() const { std::vector nativePeers; m_nativeHandle.get_peer_info(nativePeers); QVector peers; peers.reserve(nativePeers.size()); for (const lt::peer_info &peer : nativePeers) peers << PeerInfo(this, peer); return peers; } QBitArray TorrentImpl::pieces() const { QBitArray result(m_nativeStatus.pieces.size()); for (int i = 0; i < result.size(); ++i) { if (m_nativeStatus.pieces[lt::piece_index_t {i}]) result.setBit(i, true); } return result; } QBitArray TorrentImpl::downloadingPieces() const { QBitArray result(piecesCount()); std::vector queue; m_nativeHandle.get_download_queue(queue); for (const lt::partial_piece_info &info : queue) result.setBit(static_cast>(info.piece_index)); return result; } QVector TorrentImpl::pieceAvailability() const { std::vector avail; m_nativeHandle.piece_availability(avail); return Vector::fromStdVector(avail); } qreal TorrentImpl::distributedCopies() const { return m_nativeStatus.distributed_copies; } qreal TorrentImpl::maxRatio() const { if (m_ratioLimit == USE_GLOBAL_RATIO) return m_session->globalMaxRatio(); return m_ratioLimit; } int TorrentImpl::maxSeedingTime() const { if (m_seedingTimeLimit == USE_GLOBAL_SEEDING_TIME) return m_session->globalMaxSeedingMinutes(); return m_seedingTimeLimit; } qreal TorrentImpl::realRatio() const { const int64_t upload = m_nativeStatus.all_time_upload; // special case for a seeder who lost its stats, also assume nobody will import a 99% done torrent const int64_t download = (m_nativeStatus.all_time_download < (m_nativeStatus.total_done * 0.01)) ? m_nativeStatus.total_done : m_nativeStatus.all_time_download; if (download == 0) return (upload == 0) ? 0 : MAX_RATIO; const qreal ratio = upload / static_cast(download); Q_ASSERT(ratio >= 0); return (ratio > MAX_RATIO) ? MAX_RATIO : ratio; } int TorrentImpl::uploadPayloadRate() const { return m_nativeStatus.upload_payload_rate; } int TorrentImpl::downloadPayloadRate() const { return m_nativeStatus.download_payload_rate; } qlonglong TorrentImpl::totalPayloadUpload() const { return m_nativeStatus.total_payload_upload; } qlonglong TorrentImpl::totalPayloadDownload() const { return m_nativeStatus.total_payload_download; } int TorrentImpl::connectionsCount() const { return m_nativeStatus.num_connections; } int TorrentImpl::connectionsLimit() const { return m_nativeStatus.connections_limit; } qlonglong TorrentImpl::nextAnnounce() const { return lt::total_seconds(m_nativeStatus.next_announce); } void TorrentImpl::setName(const QString &name) { if (m_name != name) { m_name = name; m_session->handleTorrentNameChanged(this); } } bool TorrentImpl::setCategory(const QString &category) { if (m_category != category) { if (!category.isEmpty() && !m_session->categories().contains(category)) return false; const QString oldCategory = m_category; m_category = category; m_session->handleTorrentCategoryChanged(this, oldCategory); if (m_useAutoTMM) { if (!m_session->isDisableAutoTMMWhenCategoryChanged()) move_impl(m_session->categorySavePath(m_category), MoveStorageMode::Overwrite); else setAutoTMMEnabled(false); } } return true; } void TorrentImpl::move(QString path) { if (m_useAutoTMM) { m_useAutoTMM = false; m_session->handleTorrentSavingModeChanged(this); } path = Utils::Fs::toUniformPath(path.trimmed()); if (path.isEmpty()) path = m_session->defaultSavePath(); if (!path.endsWith('/')) path += '/'; move_impl(path, MoveStorageMode::KeepExistingFiles); } void TorrentImpl::move_impl(QString path, const MoveStorageMode mode) { if (path == savePath()) return; path = Utils::Fs::toNativePath(path); if (!useTempPath()) { moveStorage(path, mode); } else { m_savePath = path; m_session->handleTorrentSavePathChanged(this); } } void TorrentImpl::forceReannounce(int index) { m_nativeHandle.force_reannounce(0, index); } void TorrentImpl::forceDHTAnnounce() { m_nativeHandle.force_dht_announce(); } void TorrentImpl::forceRecheck() { if (!hasMetadata()) return; m_nativeHandle.force_recheck(); m_hasMissingFiles = false; m_unchecked = false; if (isPaused()) { // When "force recheck" is applied on paused torrent, we temporarily resume it // (really we just allow libtorrent to resume it by enabling auto management for it). m_nativeHandle.set_flags(lt::torrent_flags::stop_when_ready | lt::torrent_flags::auto_managed); } } void TorrentImpl::setSequentialDownload(const bool enable) { if (enable) { m_nativeHandle.set_flags(lt::torrent_flags::sequential_download); m_nativeStatus.flags |= lt::torrent_flags::sequential_download; // prevent return cached value } else { m_nativeHandle.unset_flags(lt::torrent_flags::sequential_download); m_nativeStatus.flags &= ~lt::torrent_flags::sequential_download; // prevent return cached value } saveResumeData(); } void TorrentImpl::setFirstLastPiecePriority(const bool enabled) { if (m_hasFirstLastPiecePriority == enabled) return; m_hasFirstLastPiecePriority = enabled; if (hasMetadata()) applyFirstLastPiecePriority(enabled); LogMsg(tr("Download first and last piece first: %1, torrent: '%2'") .arg((enabled ? tr("On") : tr("Off")), name())); saveResumeData(); } void TorrentImpl::applyFirstLastPiecePriority(const bool enabled, const QVector &updatedFilePrio) { Q_ASSERT(hasMetadata()); // Download first and last pieces first for every file in the torrent const std::vector filePriorities = !updatedFilePrio.isEmpty() ? toLTDownloadPriorities(updatedFilePrio) : nativeHandle().get_file_priorities(); std::vector piecePriorities = nativeHandle().get_piece_priorities(); // Updating file priorities is an async operation in libtorrent, when we just updated it and immediately query it // we might get the old/wrong values, so we rely on `updatedFilePrio` in this case. for (int index = 0; index < static_cast(filePriorities.size()); ++index) { const lt::download_priority_t filePrio = filePriorities[index]; if (filePrio <= lt::download_priority_t {0}) continue; // Determine the priority to set const lt::download_priority_t newPrio = enabled ? lt::download_priority_t {7} : filePrio; const TorrentInfo::PieceRange extremities = info().filePieces(index); // worst case: AVI index = 1% of total file size (at the end of the file) const int nNumPieces = std::ceil(fileSize(index) * 0.01 / pieceLength()); for (int i = 0; i < nNumPieces; ++i) { piecePriorities[extremities.first() + i] = newPrio; piecePriorities[extremities.last() - i] = newPrio; } } m_nativeHandle.prioritize_pieces(piecePriorities); } void TorrentImpl::fileSearchFinished(const QString &savePath, const QStringList &fileNames) { endReceivedMetadataHandling(savePath, fileNames); } void TorrentImpl::endReceivedMetadataHandling(const QString &savePath, const QStringList &fileNames) { lt::add_torrent_params &p = m_ltAddTorrentParams; p.ti = std::const_pointer_cast(m_nativeHandle.torrent_file()); for (int i = 0; i < fileNames.size(); ++i) p.renamed_files[lt::file_index_t {i}] = fileNames[i].toStdString(); p.save_path = Utils::Fs::toNativePath(savePath).toStdString(); reload(); // If first/last piece priority was specified when adding this torrent, // we should apply it now that we have metadata: if (m_hasFirstLastPiecePriority) applyFirstLastPiecePriority(true); m_maintenanceJob = MaintenanceJob::None; updateStatus(); m_session->handleTorrentMetadataReceived(this); } void TorrentImpl::reload() { const auto queuePos = m_nativeHandle.queue_position(); m_nativeSession->remove_torrent(m_nativeHandle, lt::session::delete_partfile); lt::add_torrent_params p = m_ltAddTorrentParams; p.flags |= lt::torrent_flags::update_subscribe | lt::torrent_flags::override_trackers | lt::torrent_flags::override_web_seeds; if (m_isStopped) { p.flags |= lt::torrent_flags::paused; p.flags &= ~lt::torrent_flags::auto_managed; } else if (m_operatingMode == TorrentOperatingMode::AutoManaged) { p.flags |= (lt::torrent_flags::auto_managed | lt::torrent_flags::paused); } else { p.flags &= ~(lt::torrent_flags::auto_managed | lt::torrent_flags::paused); } m_nativeHandle = m_nativeSession->add_torrent(p); m_nativeHandle.queue_position_set(queuePos); m_torrentInfo = TorrentInfo {m_nativeHandle.torrent_file()}; } void TorrentImpl::pause() { if (!m_isStopped) { m_isStopped = true; m_session->handleTorrentPaused(this); } if (m_maintenanceJob == MaintenanceJob::None) { setAutoManaged(false); m_nativeHandle.pause(); m_speedMonitor.reset(); } } void TorrentImpl::resume(const TorrentOperatingMode mode) { if (hasError()) m_nativeHandle.clear_error(); m_operatingMode = mode; if (m_hasMissingFiles) { m_hasMissingFiles = false; m_isStopped = false; m_ltAddTorrentParams.ti = std::const_pointer_cast(m_nativeHandle.torrent_file()); reload(); updateStatus(); return; } if (m_isStopped) { // Torrent may have been temporarily resumed to perform checking files // so we have to ensure it will not pause after checking is done. m_nativeHandle.unset_flags(lt::torrent_flags::stop_when_ready); m_isStopped = false; m_session->handleTorrentResumed(this); } if (m_maintenanceJob == MaintenanceJob::None) { setAutoManaged(m_operatingMode == TorrentOperatingMode::AutoManaged); if (m_operatingMode == TorrentOperatingMode::Forced) m_nativeHandle.resume(); } } void TorrentImpl::moveStorage(const QString &newPath, const MoveStorageMode mode) { if (m_session->addMoveTorrentStorageJob(this, newPath, mode)) { m_storageIsMoving = true; updateStatus(); } } void TorrentImpl::renameFile(const int index, const QString &path) { const QString oldPath = filePath(index); m_oldPath[lt::file_index_t {index}].push_back(oldPath); ++m_renameCount; m_nativeHandle.rename_file(lt::file_index_t {index}, Utils::Fs::toNativePath(path).toStdString()); } void TorrentImpl::handleStateUpdate(const lt::torrent_status &nativeStatus) { updateStatus(nativeStatus); } void TorrentImpl::handleMoveStorageJobFinished(const bool hasOutstandingJob) { m_storageIsMoving = hasOutstandingJob; updateStatus(); const QString newPath = QString::fromStdString(m_nativeStatus.save_path); if (!useTempPath() && (newPath != m_savePath)) { m_savePath = newPath; m_session->handleTorrentSavePathChanged(this); } saveResumeData(); if (!m_storageIsMoving) { if (m_hasMissingFiles) { // it can be moved to the proper location m_hasMissingFiles = false; m_ltAddTorrentParams.save_path = m_nativeStatus.save_path; m_ltAddTorrentParams.ti = std::const_pointer_cast(m_nativeHandle.torrent_file()); reload(); updateStatus(); } while ((m_renameCount == 0) && !m_moveFinishedTriggers.isEmpty()) m_moveFinishedTriggers.takeFirst()(); } } void TorrentImpl::handleTrackerReplyAlert(const lt::tracker_reply_alert *p) { const QString trackerUrl(p->tracker_url()); qDebug("Received a tracker reply from %s (Num_peers = %d)", qUtf8Printable(trackerUrl), p->num_peers); // Connection was successful now. Remove possible old errors m_trackerInfos[trackerUrl] = {{}, p->num_peers}; m_session->handleTorrentTrackerReply(this, trackerUrl); } void TorrentImpl::handleTrackerWarningAlert(const lt::tracker_warning_alert *p) { const QString trackerUrl = p->tracker_url(); const QString message = p->warning_message(); // Connection was successful now but there is a warning message m_trackerInfos[trackerUrl].lastMessage = message; // Store warning message m_session->handleTorrentTrackerWarning(this, trackerUrl); } void TorrentImpl::handleTrackerErrorAlert(const lt::tracker_error_alert *p) { const QString trackerUrl = p->tracker_url(); const QString message = p->error_message(); m_trackerInfos[trackerUrl].lastMessage = message; // Starting with libtorrent 1.2.x each tracker has multiple local endpoints from which // an announce is attempted. Some endpoints might succeed while others might fail. // Emit the signal only if all endpoints have failed. const QVector trackerList = trackers(); const auto iter = std::find_if(trackerList.cbegin(), trackerList.cend(), [&trackerUrl](const TrackerEntry &entry) { return (entry.url() == trackerUrl); }); if ((iter != trackerList.cend()) && (iter->status() == TrackerEntry::NotWorking)) m_session->handleTorrentTrackerError(this, trackerUrl); } void TorrentImpl::handleTorrentCheckedAlert(const lt::torrent_checked_alert *p) { Q_UNUSED(p); qDebug("\"%s\" have just finished checking.", qUtf8Printable(name())); if (!hasMetadata()) { // The torrent is checked due to metadata received, but we should not process // this event until the torrent is reloaded using the received metadata. return; } saveResumeData(); if (m_fastresumeDataRejected && !m_hasMissingFiles) m_fastresumeDataRejected = false; updateStatus(); if (!m_hasMissingFiles) { if ((progress() < 1.0) && (wantedSize() > 0)) m_hasSeedStatus = false; else if (progress() == 1.0) m_hasSeedStatus = true; adjustActualSavePath(); manageIncompleteFiles(); } m_session->handleTorrentChecked(this); } void TorrentImpl::handleTorrentFinishedAlert(const lt::torrent_finished_alert *p) { Q_UNUSED(p); qDebug("Got a torrent finished alert for \"%s\"", qUtf8Printable(name())); qDebug("Torrent has seed status: %s", m_hasSeedStatus ? "yes" : "no"); m_hasMissingFiles = false; if (m_hasSeedStatus) return; updateStatus(); m_hasSeedStatus = true; adjustActualSavePath(); manageIncompleteFiles(); const bool recheckTorrentsOnCompletion = Preferences::instance()->recheckTorrentsOnCompletion(); if (isMoveInProgress() || (m_renameCount > 0)) { if (recheckTorrentsOnCompletion) m_moveFinishedTriggers.append([this]() { forceRecheck(); }); m_moveFinishedTriggers.append([this]() { m_session->handleTorrentFinished(this); }); } else { if (recheckTorrentsOnCompletion && m_unchecked) forceRecheck(); m_session->handleTorrentFinished(this); } } void TorrentImpl::handleTorrentPausedAlert(const lt::torrent_paused_alert *p) { Q_UNUSED(p); } void TorrentImpl::handleTorrentResumedAlert(const lt::torrent_resumed_alert *p) { Q_UNUSED(p); } void TorrentImpl::handleSaveResumeDataAlert(const lt::save_resume_data_alert *p) { if (m_hasMissingFiles) { const auto havePieces = m_ltAddTorrentParams.have_pieces; const auto unfinishedPieces = m_ltAddTorrentParams.unfinished_pieces; const auto verifiedPieces = m_ltAddTorrentParams.verified_pieces; // Update recent resume data but preserve existing progress m_ltAddTorrentParams = p->params; m_ltAddTorrentParams.have_pieces = havePieces; m_ltAddTorrentParams.unfinished_pieces = unfinishedPieces; m_ltAddTorrentParams.verified_pieces = verifiedPieces; } else { // Update recent resume data m_ltAddTorrentParams = p->params; } if (m_isStopped) { m_ltAddTorrentParams.flags |= lt::torrent_flags::paused; m_ltAddTorrentParams.flags &= ~lt::torrent_flags::auto_managed; } else { // Torrent can be actually "running" but temporarily "paused" to perform some // service jobs behind the scenes so we need to restore it as "running" if (m_operatingMode == TorrentOperatingMode::AutoManaged) { m_ltAddTorrentParams.flags |= lt::torrent_flags::auto_managed; } else { m_ltAddTorrentParams.flags &= ~lt::torrent_flags::paused; m_ltAddTorrentParams.flags &= ~lt::torrent_flags::auto_managed; } } m_ltAddTorrentParams.added_time = addedTime().toSecsSinceEpoch(); m_ltAddTorrentParams.save_path = Profile::instance()->toPortablePath( QString::fromStdString(m_ltAddTorrentParams.save_path)).toStdString(); if (m_maintenanceJob == MaintenanceJob::HandleMetadata) { m_ltAddTorrentParams.have_pieces.clear(); m_ltAddTorrentParams.verified_pieces.clear(); TorrentInfo metadata = TorrentInfo {m_nativeHandle.torrent_file()}; metadata.setContentLayout(m_contentLayout); m_session->findIncompleteFiles(metadata, m_savePath); } auto resumeDataPtr = std::make_shared(lt::write_resume_data(m_ltAddTorrentParams)); lt::entry &resumeData = *resumeDataPtr; // TODO: The following code is deprecated. Remove after several releases in 4.3.x. // === BEGIN DEPRECATED CODE === // const bool useDummyResumeData = !hasMetadata(); if (useDummyResumeData) { updateStatus(); resumeData["qBt-magnetUri"] = createMagnetURI().toStdString(); // sequentialDownload needs to be stored in the // resume data if there is no metadata, otherwise they won't be // restored if qBittorrent quits before the metadata are retrieved: resumeData["qBt-sequential"] = isSequentialDownload(); resumeData["qBt-addedTime"] = addedTime().toSecsSinceEpoch(); } // === END DEPRECATED CODE === // resumeData["qBt-savePath"] = m_useAutoTMM ? "" : Profile::instance()->toPortablePath(m_savePath).toStdString(); resumeData["qBt-ratioLimit"] = static_cast(m_ratioLimit * 1000); resumeData["qBt-seedingTimeLimit"] = m_seedingTimeLimit; resumeData["qBt-category"] = m_category.toStdString(); resumeData["qBt-tags"] = setToEntryList(m_tags); resumeData["qBt-name"] = m_name.toStdString(); resumeData["qBt-seedStatus"] = m_hasSeedStatus; resumeData["qBt-contentLayout"] = Utils::String::fromEnum(m_contentLayout).toStdString(); resumeData["qBt-firstLastPiecePriority"] = m_hasFirstLastPiecePriority; m_session->handleTorrentResumeDataReady(this, resumeDataPtr); } void TorrentImpl::handleSaveResumeDataFailedAlert(const lt::save_resume_data_failed_alert *p) { Q_UNUSED(p); Q_ASSERT_X(false, Q_FUNC_INFO, "This point should be unreachable since libtorrent 1.2.11"); } void TorrentImpl::handleFastResumeRejectedAlert(const lt::fastresume_rejected_alert *p) { m_fastresumeDataRejected = true; if (p->error.value() == lt::errors::mismatching_file_size) { // Mismatching file size (files were probably moved) m_hasMissingFiles = true; LogMsg(tr("File sizes mismatch for torrent '%1'. Cannot proceed further.").arg(name()), Log::CRITICAL); } else { LogMsg(tr("Fast resume data was rejected for torrent '%1'. Reason: %2. Checking again...") .arg(name(), QString::fromStdString(p->message())), Log::WARNING); } } void TorrentImpl::handleFileRenamedAlert(const lt::file_renamed_alert *p) { // Remove empty leftover folders // For example renaming "a/b/c" to "d/b/c", then folders "a/b" and "a" will // be removed if they are empty const QString oldFilePath = m_oldPath[p->index].takeFirst(); const QString newFilePath = Utils::Fs::toUniformPath(p->new_name()); if (m_oldPath[p->index].isEmpty()) m_oldPath.remove(p->index); QVector oldPathParts = oldFilePath.splitRef('/', QString::SkipEmptyParts); oldPathParts.removeLast(); // drop file name part QVector newPathParts = newFilePath.splitRef('/', QString::SkipEmptyParts); newPathParts.removeLast(); // drop file name part #if defined(Q_OS_WIN) const Qt::CaseSensitivity caseSensitivity = Qt::CaseInsensitive; #else const Qt::CaseSensitivity caseSensitivity = Qt::CaseSensitive; #endif int pathIdx = 0; while ((pathIdx < oldPathParts.size()) && (pathIdx < newPathParts.size())) { if (oldPathParts[pathIdx].compare(newPathParts[pathIdx], caseSensitivity) != 0) break; ++pathIdx; } for (int i = (oldPathParts.size() - 1); i >= pathIdx; --i) { QDir().rmdir(savePath() + Utils::String::join(oldPathParts, QLatin1String("/"))); oldPathParts.removeLast(); } --m_renameCount; while (!isMoveInProgress() && (m_renameCount == 0) && !m_moveFinishedTriggers.isEmpty()) m_moveFinishedTriggers.takeFirst()(); if (isPaused() && (m_renameCount == 0)) saveResumeData(); // otherwise the new path will not be saved } void TorrentImpl::handleFileRenameFailedAlert(const lt::file_rename_failed_alert *p) { LogMsg(tr("File rename failed. Torrent: \"%1\", file: \"%2\", reason: \"%3\"") .arg(name(), filePath(static_cast>(p->index)) , QString::fromLocal8Bit(p->error.message().c_str())), Log::WARNING); m_oldPath[p->index].removeFirst(); if (m_oldPath[p->index].isEmpty()) m_oldPath.remove(p->index); --m_renameCount; while (!isMoveInProgress() && (m_renameCount == 0) && !m_moveFinishedTriggers.isEmpty()) m_moveFinishedTriggers.takeFirst()(); if (isPaused() && (m_renameCount == 0)) saveResumeData(); // otherwise the new path will not be saved } void TorrentImpl::handleFileCompletedAlert(const lt::file_completed_alert *p) { qDebug("A file completed download in torrent \"%s\"", qUtf8Printable(name())); if (m_session->isAppendExtensionEnabled()) { QString name = filePath(static_cast>(p->index)); if (name.endsWith(QB_EXT)) { const QString oldName = name; name.chop(QB_EXT.size()); qDebug("Renaming %s to %s", qUtf8Printable(oldName), qUtf8Printable(name)); renameFile(static_cast>(p->index), name); } } } void TorrentImpl::handleMetadataReceivedAlert(const lt::metadata_received_alert *p) { Q_UNUSED(p); qDebug("Metadata received for torrent %s.", qUtf8Printable(name())); m_maintenanceJob = MaintenanceJob::HandleMetadata; saveResumeData(); } void TorrentImpl::handlePerformanceAlert(const lt::performance_alert *p) const { LogMsg((tr("Performance alert: ") + QString::fromStdString(p->message())) , Log::INFO); } void TorrentImpl::handleTempPathChanged() { adjustActualSavePath(); } void TorrentImpl::handleCategorySavePathChanged() { if (m_useAutoTMM) move_impl(m_session->categorySavePath(m_category), MoveStorageMode::Overwrite); } void TorrentImpl::handleAppendExtensionToggled() { if (!hasMetadata()) return; manageIncompleteFiles(); } void TorrentImpl::handleAlert(const lt::alert *a) { switch (a->type()) { case lt::file_renamed_alert::alert_type: handleFileRenamedAlert(static_cast(a)); break; case lt::file_rename_failed_alert::alert_type: handleFileRenameFailedAlert(static_cast(a)); break; case lt::file_completed_alert::alert_type: handleFileCompletedAlert(static_cast(a)); break; case lt::torrent_finished_alert::alert_type: handleTorrentFinishedAlert(static_cast(a)); break; case lt::save_resume_data_alert::alert_type: handleSaveResumeDataAlert(static_cast(a)); break; case lt::save_resume_data_failed_alert::alert_type: handleSaveResumeDataFailedAlert(static_cast(a)); break; case lt::torrent_paused_alert::alert_type: handleTorrentPausedAlert(static_cast(a)); break; case lt::torrent_resumed_alert::alert_type: handleTorrentResumedAlert(static_cast(a)); break; case lt::tracker_error_alert::alert_type: handleTrackerErrorAlert(static_cast(a)); break; case lt::tracker_reply_alert::alert_type: handleTrackerReplyAlert(static_cast(a)); break; case lt::tracker_warning_alert::alert_type: handleTrackerWarningAlert(static_cast(a)); break; case lt::metadata_received_alert::alert_type: handleMetadataReceivedAlert(static_cast(a)); break; case lt::fastresume_rejected_alert::alert_type: handleFastResumeRejectedAlert(static_cast(a)); break; case lt::torrent_checked_alert::alert_type: handleTorrentCheckedAlert(static_cast(a)); break; case lt::performance_alert::alert_type: handlePerformanceAlert(static_cast(a)); break; } } void TorrentImpl::manageIncompleteFiles() { const bool isAppendExtensionEnabled = m_session->isAppendExtensionEnabled(); const QVector fp = filesProgress(); if (fp.size() != filesCount()) { qDebug() << "skip manageIncompleteFiles because of invalid torrent meta-data or empty file-progress"; return; } for (int i = 0; i < filesCount(); ++i) { QString name = filePath(i); if (isAppendExtensionEnabled && (fileSize(i) > 0) && (fp[i] < 1)) { if (!name.endsWith(QB_EXT, Qt::CaseInsensitive)) { const QString newName = name + QB_EXT; qDebug() << "Renaming" << name << "to" << newName; renameFile(i, newName); } } else { if (name.endsWith(QB_EXT, Qt::CaseInsensitive)) { const QString oldName = name; name.chop(QB_EXT.size()); qDebug() << "Renaming" << oldName << "to" << name; renameFile(i, name); } } } } void TorrentImpl::adjustActualSavePath() { if (!isMoveInProgress()) adjustActualSavePath_impl(); else m_moveFinishedTriggers.append([this]() { adjustActualSavePath_impl(); }); } void TorrentImpl::adjustActualSavePath_impl() { const bool needUseTempDir = useTempPath(); const QDir tempDir {m_session->torrentTempPath(info())}; const QDir currentDir {actualStorageLocation()}; const QDir targetDir {needUseTempDir ? tempDir : QDir {savePath()}}; if (targetDir == currentDir) return; if (!needUseTempDir) { if ((currentDir == tempDir) && (currentDir != QDir {m_session->tempPath()})) { // torrent without root folder still has it in its temporary save path // so its temp path isn't equal to temp path root const QString currentDirPath = currentDir.absolutePath(); m_moveFinishedTriggers.append([currentDirPath] { qDebug() << "Removing torrent temp folder:" << currentDirPath; Utils::Fs::smartRemoveEmptyFolderTree(currentDirPath); }); } } moveStorage(Utils::Fs::toNativePath(targetDir.absolutePath()), MoveStorageMode::Overwrite); } lt::torrent_handle TorrentImpl::nativeHandle() const { return m_nativeHandle; } bool TorrentImpl::isMoveInProgress() const { return m_storageIsMoving; } bool TorrentImpl::useTempPath() const { return m_session->isTempPathEnabled() && !(isSeed() || m_hasSeedStatus); } void TorrentImpl::updateStatus() { updateStatus(m_nativeHandle.status()); } void TorrentImpl::updateStatus(const lt::torrent_status &nativeStatus) { m_nativeStatus = nativeStatus; updateState(); m_speedMonitor.addSample({nativeStatus.download_payload_rate , nativeStatus.upload_payload_rate}); if (hasMetadata()) { // NOTE: Don't change the order of these conditionals! // Otherwise it will not work properly since torrent can be CheckingDownloading. if (isChecking()) m_unchecked = false; else if (isDownloading()) m_unchecked = true; } } void TorrentImpl::setRatioLimit(qreal limit) { if (limit < USE_GLOBAL_RATIO) limit = NO_RATIO_LIMIT; else if (limit > MAX_RATIO) limit = MAX_RATIO; if (m_ratioLimit != limit) { m_ratioLimit = limit; m_session->handleTorrentShareLimitChanged(this); } } void TorrentImpl::setSeedingTimeLimit(int limit) { if (limit < USE_GLOBAL_SEEDING_TIME) limit = NO_SEEDING_TIME_LIMIT; else if (limit > MAX_SEEDING_TIME) limit = MAX_SEEDING_TIME; if (m_seedingTimeLimit != limit) { m_seedingTimeLimit = limit; m_session->handleTorrentShareLimitChanged(this); } } void TorrentImpl::setUploadLimit(const int limit) { if (limit == uploadLimit()) return; m_nativeHandle.set_upload_limit(limit); saveResumeData(); } void TorrentImpl::setDownloadLimit(const int limit) { if (limit == downloadLimit()) return; m_nativeHandle.set_download_limit(limit); saveResumeData(); } void TorrentImpl::setSuperSeeding(const bool enable) { if (enable == superSeeding()) return; if (enable) m_nativeHandle.set_flags(lt::torrent_flags::super_seeding); else m_nativeHandle.unset_flags(lt::torrent_flags::super_seeding); saveResumeData(); } void TorrentImpl::setDHTDisabled(const bool disable) { if (disable == isDHTDisabled()) return; if (disable) m_nativeHandle.set_flags(lt::torrent_flags::disable_dht); else m_nativeHandle.unset_flags(lt::torrent_flags::disable_dht); saveResumeData(); } void TorrentImpl::setPEXDisabled(const bool disable) { if (disable == isPEXDisabled()) return; if (disable) m_nativeHandle.set_flags(lt::torrent_flags::disable_pex); else m_nativeHandle.unset_flags(lt::torrent_flags::disable_pex); saveResumeData(); } void TorrentImpl::setLSDDisabled(const bool disable) { if (disable == isLSDDisabled()) return; if (disable) m_nativeHandle.set_flags(lt::torrent_flags::disable_lsd); else m_nativeHandle.unset_flags(lt::torrent_flags::disable_lsd); saveResumeData(); } void TorrentImpl::flushCache() const { m_nativeHandle.flush_cache(); } QString TorrentImpl::createMagnetURI() const { return QString::fromStdString(lt::make_magnet_uri(m_nativeHandle)); } void TorrentImpl::prioritizeFiles(const QVector &priorities) { if (!hasMetadata()) return; if (priorities.size() != filesCount()) return; // Reset 'm_hasSeedStatus' if needed in order to react again to // 'torrent_finished_alert' and eg show tray notifications const QVector progress = filesProgress(); const QVector oldPriorities = filePriorities(); for (int i = 0; i < oldPriorities.size(); ++i) { if ((oldPriorities[i] == DownloadPriority::Ignored) && (priorities[i] > DownloadPriority::Ignored) && (progress[i] < 1.0)) { m_hasSeedStatus = false; break; } } qDebug() << Q_FUNC_INFO << "Changing files priorities..."; m_nativeHandle.prioritize_files(toLTDownloadPriorities(priorities)); // Restore first/last piece first option if necessary if (m_hasFirstLastPiecePriority) applyFirstLastPiecePriority(true, priorities); } QVector TorrentImpl::availableFileFractions() const { const int filesCount = this->filesCount(); if (filesCount <= 0) return {}; const QVector piecesAvailability = pieceAvailability(); // libtorrent returns empty array for seeding only torrents if (piecesAvailability.empty()) return QVector(filesCount, -1); QVector res; res.reserve(filesCount); const TorrentInfo info = this->info(); for (int i = 0; i < filesCount; ++i) { const TorrentInfo::PieceRange filePieces = info.filePieces(i); int availablePieces = 0; for (const int piece : filePieces) availablePieces += (piecesAvailability[piece] > 0) ? 1 : 0; const qreal availability = filePieces.isEmpty() ? 1 // the file has no pieces, so it is available by default : static_cast(availablePieces) / filePieces.size(); res.push_back(availability); } return res; }