// 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. #pragma once #ifndef __TRANSMISSION__ #error only libtransmission should #include this header. #endif #include // size_t #include #include #include #include #include #include #include #include #include "libtransmission/transmission.h" #include "libtransmission/announce-list.h" #include "libtransmission/bandwidth.h" #include "libtransmission/bitfield.h" #include "libtransmission/block-info.h" #include "libtransmission/completion.h" #include "libtransmission/crypto-utils.h" #include "libtransmission/file-piece-map.h" #include "libtransmission/interned-string.h" #include "libtransmission/log.h" #include "libtransmission/observable.h" #include "libtransmission/session.h" #include "libtransmission/torrent-magnet.h" #include "libtransmission/torrent-metainfo.h" #include "libtransmission/tr-assert.h" #include "libtransmission/tr-macros.h" #include "libtransmission/verify.h" class tr_swarm; struct tr_error; struct tr_magnet_info; struct tr_metainfo_parsed; struct tr_session; struct tr_torrent; struct tr_torrent_announcer; // --- Package-visible void tr_torrentFreeInSessionThread(tr_torrent* tor); void tr_ctorInitTorrentPriorities(tr_ctor const* ctor, tr_torrent* tor); void tr_ctorInitTorrentWanted(tr_ctor const* ctor, tr_torrent* tor); bool tr_ctorSaveContents(tr_ctor const* ctor, std::string_view filename, tr_error** error); tr_session* tr_ctorGetSession(tr_ctor const* ctor); bool tr_ctorGetIncompleteDir(tr_ctor const* ctor, char const** setme_incomplete_dir); // --- void tr_torrentChangeMyPort(tr_torrent* tor); bool tr_torrentReqIsValid(tr_torrent const* tor, tr_piece_index_t index, uint32_t offset, uint32_t length); [[nodiscard]] tr_block_span_t tr_torGetFileBlockSpan(tr_torrent const* tor, tr_file_index_t file); void tr_torrentCheckSeedLimit(tr_torrent* tor); /** save a torrent's .resume file if it's changed since the last time it was saved */ void tr_torrentSave(tr_torrent* tor); /** @brief Torrent object */ struct tr_torrent final : public tr_completion::torrent_view { public: using labels_t = std::vector; using VerifyDoneCallback = std::function; class VerifyMediator : public tr_verify_worker::Mediator { public: explicit VerifyMediator(tr_torrent* const tor) : tor_{ tor } { } ~VerifyMediator() override = default; [[nodiscard]] tr_torrent_metainfo const& metainfo() const override; [[nodiscard]] std::optional find_file(tr_file_index_t file_index) const override; void on_verify_queued() override; void on_verify_started() override; void on_piece_checked(tr_piece_index_t piece, bool has_piece) override; void on_verify_done(bool aborted) override; private: tr_torrent* const tor_; std::optional time_started_; }; explicit tr_torrent(tr_torrent_metainfo&& tm) : metainfo_{ std::move(tm) } , completion{ this, &this->metainfo_.block_info() } { } void set_location(std::string_view location, bool move_from_old_path, int volatile* setme_state); void rename_path( std::string_view oldpath, std::string_view newname, tr_torrent_rename_done_func callback, void* callback_user_data); tr_sha1_digest_t piece_hash(tr_piece_index_t i) const { return metainfo_.piece_hash(i); } // these functions should become private when possible, // but more refactoring is needed before that can happen // because much of tr_torrent's impl is in the non-member C bindings // Used to add metainfo to a magnet torrent. void set_metainfo(tr_torrent_metainfo tm); [[nodiscard]] auto unique_lock() const { return session->unique_lock(); } /// SPEED LIMIT [[nodiscard]] constexpr auto& bandwidth() noexcept { return bandwidth_; } [[nodiscard]] constexpr auto const& bandwidth() const noexcept { return bandwidth_; } constexpr void set_speed_limit_bps(tr_direction dir, tr_bytes_per_second_t bytes_per_second) { if (bandwidth().set_desired_speed_bytes_per_second(dir, bytes_per_second)) { set_dirty(); } } constexpr void use_speed_limit(tr_direction dir, bool do_use) { if (bandwidth().set_limited(dir, do_use)) { set_dirty(); } } [[nodiscard]] constexpr auto speed_limit_bps(tr_direction dir) const { return bandwidth().get_desired_speed_bytes_per_second(dir); } [[nodiscard]] constexpr auto uses_session_limits() const noexcept { return bandwidth().are_parent_limits_honored(TR_UP); } [[nodiscard]] constexpr auto uses_speed_limit(tr_direction dir) const noexcept { return bandwidth().is_limited(dir); } /// BLOCK INFO [[nodiscard]] constexpr auto const& block_info() const noexcept { return metainfo_.block_info(); } [[nodiscard]] constexpr auto block_count() const noexcept { return metainfo_.block_count(); } [[nodiscard]] constexpr auto byte_loc(uint64_t byte) const noexcept { return metainfo_.byte_loc(byte); } [[nodiscard]] constexpr auto block_loc(tr_block_index_t block) const noexcept { return metainfo_.block_loc(block); } [[nodiscard]] constexpr auto piece_loc(tr_piece_index_t piece, uint32_t offset = 0, uint32_t length = 0) const noexcept { return metainfo_.piece_loc(piece, offset, length); } [[nodiscard]] constexpr auto block_size(tr_block_index_t block) const noexcept { return metainfo_.block_size(block); } [[nodiscard]] constexpr auto block_span_for_piece(tr_piece_index_t piece) const noexcept { return metainfo_.block_span_for_piece(piece); } [[nodiscard]] constexpr auto piece_count() const noexcept { return metainfo_.piece_count(); } [[nodiscard]] constexpr auto piece_size() const noexcept { return metainfo_.piece_size(); } [[nodiscard]] constexpr auto piece_size(tr_piece_index_t piece) const noexcept { return metainfo_.piece_size(piece); } [[nodiscard]] constexpr auto total_size() const noexcept { return metainfo_.total_size(); } /// COMPLETION [[nodiscard]] auto left_until_done() const { return completion.left_until_done(); } [[nodiscard]] auto size_when_done() const { return completion.size_when_done(); } [[nodiscard]] constexpr auto has_metainfo() const noexcept { return completion.has_metainfo(); } [[nodiscard]] constexpr auto has_all() const noexcept { return completion.has_all(); } [[nodiscard]] constexpr auto has_none() const noexcept { return completion.has_none(); } [[nodiscard]] auto has_piece(tr_piece_index_t piece) const { return completion.has_piece(piece); } [[nodiscard]] TR_CONSTEXPR20 auto has_block(tr_block_index_t block) const { return completion.has_block(block); } [[nodiscard]] auto count_missing_blocks_in_piece(tr_piece_index_t piece) const { return completion.count_missing_blocks_in_piece(piece); } [[nodiscard]] auto count_missing_bytes_in_piece(tr_piece_index_t piece) const { return completion.count_missing_bytes_in_piece(piece); } [[nodiscard]] constexpr auto has_total() const { return completion.has_total(); } [[nodiscard]] auto create_piece_bitfield() const { return completion.create_piece_bitfield(); } [[nodiscard]] constexpr bool is_done() const noexcept { return completeness != TR_LEECH; } [[nodiscard]] constexpr bool is_seed() const noexcept { return completeness == TR_SEED; } [[nodiscard]] constexpr bool is_partial_seed() const noexcept { return completeness == TR_PARTIAL_SEED; } [[nodiscard]] constexpr auto& blocks() const noexcept { return completion.blocks(); } void amount_done_bins(float* tab, int n_tabs) const { return completion.amount_done(tab, n_tabs); } void set_blocks(tr_bitfield blocks); void set_has_piece(tr_piece_index_t piece, bool has) { completion.set_has_piece(piece, has); } /// FILE <-> PIECE [[nodiscard]] auto pieces_in_file(tr_file_index_t file) const { return fpm_.piece_span(file); } [[nodiscard]] auto file_offset(tr_block_info::Location loc) const { return fpm_.file_offset(loc.byte); } [[nodiscard]] auto byte_span(tr_file_index_t file) const { return fpm_.byte_span(file); } /// WANTED [[nodiscard]] bool piece_is_wanted(tr_piece_index_t piece) const final { return files_wanted_.piece_wanted(piece); } [[nodiscard]] TR_CONSTEXPR20 bool file_is_wanted(tr_file_index_t file) const { return files_wanted_.file_wanted(file); } void init_files_wanted(tr_file_index_t const* files, size_t n_files, bool wanted) { set_files_wanted(files, n_files, wanted, /*is_bootstrapping*/ true); } void set_files_wanted(tr_file_index_t const* files, size_t n_files, bool wanted) { set_files_wanted(files, n_files, wanted, /*is_bootstrapping*/ false); } void recheck_completeness(); // TODO(ckerr): should be private /// PRIORITIES [[nodiscard]] tr_priority_t piece_priority(tr_piece_index_t piece) const { return file_priorities_.piece_priority(piece); } void set_file_priorities(tr_file_index_t const* files, tr_file_index_t file_count, tr_priority_t priority) { file_priorities_.set(files, file_count, priority); set_dirty(); } void set_file_priority(tr_file_index_t file, tr_priority_t priority) { file_priorities_.set(file, priority); set_dirty(); } /// LOCATION [[nodiscard]] constexpr tr_interned_string current_dir() const noexcept { return current_dir_; } [[nodiscard]] constexpr tr_interned_string download_dir() const noexcept { return download_dir_; } [[nodiscard]] constexpr tr_interned_string incomplete_dir() const noexcept { return incomplete_dir_; } /// METAINFO - FILES [[nodiscard]] TR_CONSTEXPR20 auto file_count() const noexcept { return metainfo_.file_count(); } [[nodiscard]] TR_CONSTEXPR20 auto const& file_subpath(tr_file_index_t i) const { return metainfo_.file_subpath(i); } [[nodiscard]] TR_CONSTEXPR20 auto file_size(tr_file_index_t i) const { return metainfo_.file_size(i); } void set_file_subpath(tr_file_index_t i, std::string_view subpath) { metainfo_.set_file_subpath(i, subpath); } [[nodiscard]] std::optional find_file(tr_file_index_t file_index) const; [[nodiscard]] bool has_any_local_data() const; /// METAINFO - TRACKERS [[nodiscard]] constexpr auto const& announce_list() const noexcept { return metainfo_.announce_list(); } [[nodiscard]] constexpr auto& announce_list() noexcept { return metainfo_.announce_list(); } [[nodiscard]] TR_CONSTEXPR20 auto tracker_count() const noexcept { return std::size(this->announce_list()); } [[nodiscard]] TR_CONSTEXPR20 auto const& tracker(size_t i) const { return this->announce_list().at(i); } [[nodiscard]] auto tracker_list() const { return this->announce_list().to_string(); } bool set_tracker_list(std::string_view text); void on_tracker_response(tr_tracker_event const* event); /// METAINFO - WEBSEEDS [[nodiscard]] TR_CONSTEXPR20 auto webseed_count() const noexcept { return metainfo_.webseed_count(); } [[nodiscard]] TR_CONSTEXPR20 auto const& webseed(size_t i) const { return metainfo_.webseed(i); } /// METAINFO - OTHER void set_name(std::string_view name) { metainfo_.set_name(name); } [[nodiscard]] constexpr auto const& name() const noexcept { return metainfo_.name(); } [[nodiscard]] constexpr auto const& info_hash() const noexcept { return metainfo_.info_hash(); } [[nodiscard]] constexpr auto is_private() const noexcept { return metainfo_.is_private(); } [[nodiscard]] constexpr auto is_public() const noexcept { return !this->is_private(); } [[nodiscard]] constexpr auto const& info_hash_string() const noexcept { return metainfo_.info_hash_string(); } [[nodiscard]] constexpr auto date_created() const noexcept { return metainfo_.date_created(); } [[nodiscard]] auto torrent_file() const { return metainfo_.torrent_file(session->torrentDir()); } [[nodiscard]] auto magnet_file() const { return metainfo_.magnet_file(session->torrentDir()); } [[nodiscard]] auto resume_file() const { return metainfo_.resume_file(session->resumeDir()); } [[nodiscard]] auto magnet() const { return metainfo_.magnet(); } [[nodiscard]] constexpr auto const& comment() const noexcept { return metainfo_.comment(); } [[nodiscard]] constexpr auto const& creator() const noexcept { return metainfo_.creator(); } [[nodiscard]] constexpr auto const& source() const noexcept { return metainfo_.source(); } [[nodiscard]] constexpr auto info_dict_size() const noexcept { return metainfo_.info_dict_size(); } [[nodiscard]] constexpr auto info_dict_offset() const noexcept { return metainfo_.info_dict_offset(); } /// METAINFO - PIECE CHECKSUMS [[nodiscard]] TR_CONSTEXPR20 bool is_piece_checked(tr_piece_index_t piece) const { return checked_pieces_.test(piece); } [[nodiscard]] bool check_piece(tr_piece_index_t piece); [[nodiscard]] bool ensure_piece_is_checked(tr_piece_index_t piece); void init_checked_pieces(tr_bitfield const& checked, time_t const* mtimes /*fileCount()*/); /// [[nodiscard]] tr_stat stats() const; [[nodiscard]] constexpr auto is_queued() const noexcept { return this->is_queued_; } [[nodiscard]] constexpr auto queue_direction() const noexcept { return this->is_done() ? TR_UP : TR_DOWN; } [[nodiscard]] constexpr auto allows_pex() const noexcept { return this->is_public() && this->session->allows_pex(); } [[nodiscard]] constexpr auto allows_dht() const noexcept { return this->is_public() && this->session->allowsDHT(); } [[nodiscard]] constexpr auto allows_lpd() const noexcept // local peer discovery { return this->is_public() && this->session->allowsLPD(); } [[nodiscard]] constexpr bool client_can_download() const { return this->is_piece_transfer_allowed(TR_PEER_TO_CLIENT); } [[nodiscard]] constexpr bool client_can_upload() const { return this->is_piece_transfer_allowed(TR_CLIENT_TO_PEER); } void set_download_dir(std::string_view path, bool is_new_torrent = false); void refresh_current_dir(); [[nodiscard]] constexpr std::optional verify_progress() const noexcept { if (verify_state_ == VerifyState::Active) { return verify_progress_; } return {}; } [[nodiscard]] constexpr auto id() const noexcept { return unique_id_; } void init_id(tr_torrent_id_t id) { TR_ASSERT(unique_id_ == tr_torrent_id_t{}); TR_ASSERT(id != tr_torrent_id_t{}); unique_id_ = id; } constexpr void set_date_active(time_t when) noexcept { this->activityDate = when; bump_date_changed(when); } [[nodiscard]] constexpr auto activity() const noexcept { bool const is_seed = this->is_done(); if (verify_state_ == VerifyState::Active) { return TR_STATUS_CHECK; } if (verify_state_ == VerifyState::Queued) { return TR_STATUS_CHECK_WAIT; } if (this->is_running()) { return is_seed ? TR_STATUS_SEED : TR_STATUS_DOWNLOAD; } if (this->is_queued()) { if (is_seed && this->session->queueEnabled(TR_UP)) { return TR_STATUS_SEED_WAIT; } if (!is_seed && this->session->queueEnabled(TR_DOWN)) { return TR_STATUS_DOWNLOAD_WAIT; } } return TR_STATUS_STOPPED; } [[nodiscard]] constexpr auto const& labels() const noexcept { return labels_; } void set_labels(labels_t const& new_labels); /** Return the mime-type (e.g. "audio/x-flac") that matches more of the torrent's content than any other mime-type. */ [[nodiscard]] std::string_view primary_mime_type() const; constexpr void set_sequential_download(bool is_sequential) noexcept { sequential_download_ = is_sequential; } [[nodiscard]] constexpr auto is_sequential_download() const noexcept { return sequential_download_; } [[nodiscard]] constexpr bool is_running() const noexcept { return is_running_; } [[nodiscard]] constexpr auto is_stopping() const noexcept { return is_stopping_; } [[nodiscard]] constexpr auto is_dirty() const noexcept { return is_dirty_; } constexpr void set_dirty(bool dirty = true) noexcept { is_dirty_ = dirty; } void mark_edited(); void mark_changed(); [[nodiscard]] constexpr auto has_changed_since(time_t when) const noexcept { return changed_date_ > when; } void set_bandwidth_group(std::string_view group_name) noexcept; [[nodiscard]] constexpr auto get_priority() const noexcept { return bandwidth().get_priority(); } [[nodiscard]] constexpr auto const& bandwidth_group() const noexcept { return bandwidth_group_; } [[nodiscard]] constexpr auto peer_limit() const noexcept { return max_connected_peers_; } // --- idleness void set_idle_limit_mode(tr_idlelimit mode) noexcept { auto const is_valid = mode == TR_IDLELIMIT_GLOBAL || mode == TR_IDLELIMIT_SINGLE || mode == TR_IDLELIMIT_UNLIMITED; TR_ASSERT(is_valid); if (idle_limit_mode_ != mode && is_valid) { idle_limit_mode_ = mode; set_dirty(); } } [[nodiscard]] constexpr auto idle_limit_mode() const noexcept { return idle_limit_mode_; } constexpr void set_idle_limit_minutes(uint16_t idle_minutes) noexcept { if ((idle_limit_minutes_ != idle_minutes) && (idle_minutes > 0)) { idle_limit_minutes_ = idle_minutes; set_dirty(); } } [[nodiscard]] constexpr auto idle_limit_minutes() const noexcept { return idle_limit_minutes_; } [[nodiscard]] constexpr std::optional idle_seconds_left(time_t now) const noexcept { auto const idle_limit_minutes = effective_idle_limit_minutes(); if (!idle_limit_minutes) { return {}; } auto const idle_seconds = this->idle_seconds(now); if (!idle_seconds) { return {}; } auto const idle_limit_seconds = size_t{ *idle_limit_minutes } * 60U; return idle_limit_seconds > *idle_seconds ? idle_limit_seconds - *idle_seconds : 0U; } // --- seed ratio constexpr void set_seed_ratio_mode(tr_ratiolimit mode) noexcept { auto const is_valid = mode == TR_RATIOLIMIT_GLOBAL || mode == TR_RATIOLIMIT_SINGLE || mode == TR_RATIOLIMIT_UNLIMITED; TR_ASSERT(is_valid); if (seed_ratio_mode_ != mode && is_valid) { seed_ratio_mode_ = mode; set_dirty(); } } [[nodiscard]] constexpr auto seed_ratio_mode() const noexcept { return seed_ratio_mode_; } constexpr void set_seed_ratio(double desired_ratio) { if (static_cast(seed_ratio_ * 100.0) != static_cast(desired_ratio * 100.0)) { seed_ratio_ = desired_ratio; set_dirty(); } } [[nodiscard]] auto seed_ratio() const noexcept { return seed_ratio_; } [[nodiscard]] constexpr std::optional effective_seed_ratio() const noexcept { auto const mode = seed_ratio_mode(); if (mode == TR_RATIOLIMIT_SINGLE) { return seed_ratio_; } if (mode == TR_RATIOLIMIT_GLOBAL && session->isRatioLimited()) { return session->desiredRatio(); } return {}; } // --- [[nodiscard]] constexpr auto seconds_downloading(time_t now) const noexcept { auto n_secs = seconds_downloading_before_current_start_; if (is_running()) { if (doneDate > startDate) { n_secs += doneDate - startDate; } else if (doneDate == 0) { n_secs += now - startDate; } } return n_secs; } [[nodiscard]] constexpr auto seconds_seeding(time_t now) const noexcept { auto n_secs = seconds_seeding_before_current_start_; if (is_running()) { if (doneDate > startDate) { n_secs += now - doneDate; } else if (doneDate != 0) { n_secs += now - startDate; } } return n_secs; } constexpr void set_needs_completeness_check() noexcept { needs_completeness_check_ = true; } void do_idle_work() { if (needs_completeness_check_) { needs_completeness_check_ = false; recheck_completeness(); } if (is_stopping_) { tr_torrentStop(this); } } [[nodiscard]] constexpr auto announce_key() const noexcept { return announce_key_; } [[nodiscard]] constexpr tr_peer_id_t const& peer_id() const noexcept { return peer_id_; } // should be called when done modifying the torrent's announce list. void on_announce_list_changed() { mark_edited(); session->announcer_->resetTorrent(this); } [[nodiscard]] constexpr auto& error() noexcept { return error_; } [[nodiscard]] constexpr auto const& error() const noexcept { return error_; } void init(tr_ctor const* ctor); tr_torrent_metainfo metainfo_; tr_bandwidth bandwidth_; libtransmission::SimpleObservable done_; libtransmission::SimpleObservable got_bad_piece_; libtransmission::SimpleObservable piece_completed_; libtransmission::SimpleObservable doomed_; libtransmission::SimpleObservable got_metainfo_; libtransmission::SimpleObservable started_; libtransmission::SimpleObservable stopped_; libtransmission::SimpleObservable swarm_is_all_seeds_; // TODO(ckerr): make private once some of torrent.cc's `tr_torrentFoo()` methods are member functions tr_completion completion; // true iff the piece was verified more recently than any of the piece's // files' mtimes (file_mtimes_). If checked_pieces_.test(piece) is false, // it means that piece needs to be checked before its data is used. tr_bitfield checked_pieces_ = tr_bitfield{ 0 }; tr_file_piece_map fpm_ = tr_file_piece_map{ metainfo_ }; // when Transmission thinks the torrent's files were last changed std::vector file_mtimes_; // Where the files are when the torrent is complete. tr_interned_string download_dir_; // Where the files are when the torrent is incomplete. // a value of TR_KEY_NONE indicates the 'incomplete_dir' feature is unused tr_interned_string incomplete_dir_; // Where the files are now. // Will equal either download_dir or incomplete_dir tr_interned_string current_dir_; tr_sha1_digest_t obfuscated_hash = {}; /* Used when the torrent has been created with a magnet link * and we're in the process of downloading the metainfo from * other peers */ std::unique_ptr incomplete_metadata; tr_session* session = nullptr; tr_torrent_announcer* torrent_announcer = nullptr; tr_swarm* swarm = nullptr; time_t lpdAnnounceAt = 0; time_t activityDate = 0; time_t addedDate = 0; time_t doneDate = 0; time_t editDate = 0; time_t startDate = 0; time_t seconds_downloading_before_current_start_ = 0; time_t seconds_seeding_before_current_start_ = 0; uint64_t downloadedCur = 0; uint64_t downloadedPrev = 0; uint64_t uploadedCur = 0; uint64_t uploadedPrev = 0; uint64_t corruptCur = 0; uint64_t corruptPrev = 0; size_t queuePosition = 0; tr_completeness completeness = TR_LEECH; uint16_t max_connected_peers_ = TR_DEFAULT_PEER_LIMIT_TORRENT; bool finished_seeding_by_idle_ = false; bool is_deleting_ = false; bool is_dirty_ = false; bool is_queued_ = false; bool is_running_ = false; bool is_stopping_ = false; // start the torrent after all the startup scaffolding is done, // e.g. fetching metadata from peers and/or verifying the torrent bool start_when_stable = false; private: friend tr_file_view tr_torrentFile(tr_torrent const* tor, tr_file_index_t file); friend tr_stat const* tr_torrentStat(tr_torrent* tor); friend tr_torrent* tr_torrentNew(tr_ctor* ctor, tr_torrent** setme_duplicate_of); friend uint64_t tr_torrentGetBytesLeftToAllocate(tr_torrent const* tor); enum class VerifyState : uint8_t { None, Queued, Active }; // Tracks a torrent's error state, either local (e.g. file IO errors) // or tracker errors (e.g. warnings returned by a tracker). class Error { public: [[nodiscard]] constexpr auto empty() const noexcept { return error_type_ == TR_STAT_OK; } [[nodiscard]] constexpr auto error_type() const noexcept { return error_type_; } [[nodiscard]] constexpr auto const& announce_url() const noexcept { return announce_url_; } [[nodiscard]] constexpr auto const& errmsg() const noexcept { return errmsg_; } void set_tracker_warning(tr_interned_string announce_url, std::string_view errmsg); void set_tracker_error(tr_interned_string announce_url, std::string_view errmsg); void set_local_error(std::string_view errmsg); void clear() noexcept; void clear_if_tracker() noexcept; private: tr_interned_string announce_url_; // the source for tracker errors/warnings std::string errmsg_; tr_stat_errtype error_type_ = TR_STAT_OK; }; // Helper class to smooth out speed estimates. // Used to prevent temporary speed changes from skewing the ETA too much. class SimpleSmoothedSpeed { public: constexpr auto update(uint64_t time_msec, tr_bytes_per_second_t speed_byps) { // If the old speed is too old, just replace it if (timestamp_msec_ + MaxAgeMSec <= time_msec) { timestamp_msec_ = time_msec; speed_byps_ = speed_byps; } // To prevent the smoothing from being overwhelmed by frequent calls // to update(), do nothing if not enough time elapsed since last update. else if (timestamp_msec_ + MinUpdateMSec <= time_msec) { timestamp_msec_ = time_msec; speed_byps_ = (speed_byps_ * 4U + speed_byps) / 5U; } return speed_byps_; } private: static auto constexpr MaxAgeMSec = 4000U; static auto constexpr MinUpdateMSec = 800U; uint64_t timestamp_msec_ = {}; tr_bytes_per_second_t speed_byps_ = {}; }; [[nodiscard]] constexpr std::optional effective_idle_limit_minutes() const noexcept { auto const mode = idle_limit_mode(); if (mode == TR_IDLELIMIT_SINGLE) { return idle_limit_minutes(); } if (mode == TR_IDLELIMIT_GLOBAL && session->isIdleLimited()) { return session->idleLimitMinutes(); } return {}; } [[nodiscard]] constexpr std::optional idle_seconds(time_t now) const noexcept { auto const activity = this->activity(); if (activity == TR_STATUS_DOWNLOAD || activity == TR_STATUS_SEED) { if (auto const latest = std::max(startDate, activityDate); latest != 0) { TR_ASSERT(now >= latest); return now - latest; } } return {}; } [[nodiscard]] constexpr bool is_piece_transfer_allowed(tr_direction direction) const noexcept { if (uses_speed_limit(direction) && speed_limit_bps(direction) <= 0) { return false; } if (uses_session_limits()) { if (auto const limit = session->activeSpeedLimitBps(direction); limit && *limit == 0U) { return false; } } return true; } void set_files_wanted(tr_file_index_t const* files, size_t n_files, bool wanted, bool is_bootstrapping) { auto const lock = unique_lock(); files_wanted_.set(files, n_files, wanted); completion.invalidate_size_when_done(); if (!is_bootstrapping) { set_dirty(); recheck_completeness(); } } constexpr void bump_date_changed(time_t when) { if (changed_date_ < when) { changed_date_ = when; } } void set_verify_state(VerifyState state); void on_metainfo_updated(); tr_stat stats_ = {}; Error error_; VerifyDoneCallback verify_done_callback_; labels_t labels_; tr_interned_string bandwidth_group_; mutable SimpleSmoothedSpeed eta_speed_; tr_files_wanted files_wanted_{ &fpm_ }; tr_file_priorities file_priorities_{ &fpm_ }; /* If the initiator of the connection receives a handshake in which the * peer_id does not match the expected peerid, then the initiator is * expected to drop the connection. Note that the initiator presumably * received the peer information from the tracker, which includes the * peer_id that was registered by the peer. The peer_id from the tracker * and in the handshake are expected to match. */ tr_peer_id_t peer_id_ = tr_peerIdInit(); time_t changed_date_ = 0; float verify_progress_ = -1.0F; float seed_ratio_ = 0.0F; tr_announce_key_t announce_key_ = tr_rand_obj(); tr_torrent_id_t unique_id_ = 0; tr_ratiolimit seed_ratio_mode_ = TR_RATIOLIMIT_GLOBAL; tr_idlelimit idle_limit_mode_ = TR_IDLELIMIT_GLOBAL; VerifyState verify_state_ = VerifyState::None; uint16_t idle_limit_minutes_ = 0; bool needs_completeness_check_ = true; bool sequential_download_ = false; }; // --- constexpr bool tr_isTorrent(tr_torrent const* tor) { return tor != nullptr && tor->session != nullptr; } /** * Tell the `tr_torrent` that it's gotten a block */ void tr_torrentGotBlock(tr_torrent* tor, tr_block_index_t block); tr_torrent_metainfo tr_ctorStealMetainfo(tr_ctor* ctor); bool tr_ctorSetMetainfoFromFile(tr_ctor* ctor, std::string_view filename, tr_error** error = nullptr); bool tr_ctorSetMetainfoFromMagnetLink(tr_ctor* ctor, std::string_view magnet_link, tr_error** error = nullptr); void tr_ctorSetLabels(tr_ctor* ctor, tr_torrent::labels_t&& labels); void tr_ctorSetBandwidthPriority(tr_ctor* ctor, tr_priority_t priority); tr_priority_t tr_ctorGetBandwidthPriority(tr_ctor const* ctor); tr_torrent::labels_t const& tr_ctorGetLabels(tr_ctor const* ctor); void tr_ctorSetVerifyDoneCallback(tr_ctor* ctor, tr_torrent::VerifyDoneCallback&& callback); tr_torrent::VerifyDoneCallback tr_ctorStealVerifyDoneCallback(tr_ctor* ctor); #define tr_logAddCriticalTor(tor, msg) tr_logAddCritical(msg, (tor)->name()) #define tr_logAddErrorTor(tor, msg) tr_logAddError(msg, (tor)->name()) #define tr_logAddWarnTor(tor, msg) tr_logAddWarn(msg, (tor)->name()) #define tr_logAddInfoTor(tor, msg) tr_logAddInfo(msg, (tor)->name()) #define tr_logAddDebugTor(tor, msg) tr_logAddDebug(msg, (tor)->name()) #define tr_logAddTraceTor(tor, msg) tr_logAddTrace(msg, (tor)->name())