// This file Copyright © 2021-2023 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 #include "libtransmission/transmission.h" #include "libtransmission/announce-list.h" #include "libtransmission/quark.h" #include "libtransmission/torrent-metainfo.h" #include "libtransmission/utils.h" #include "libtransmission/variant.h" #include "libtransmission/web-utils.h" using namespace std::literals; size_t tr_announce_list::set(char const* const* announce_urls, tr_tracker_tier_t const* tiers, size_t n) { trackers_.clear(); for (size_t i = 0; i < n; ++i) { add(announce_urls[i], tiers[i]); } return size(); } bool tr_announce_list::remove(std::string_view announce_url) { auto const it = find(announce_url); if (it == std::end(trackers_)) { return false; } trackers_.erase(it); return true; } bool tr_announce_list::remove(tr_tracker_id_t id) { auto it = find(id); if (it == std::end(trackers_)) { return false; } trackers_.erase(it); return true; } bool tr_announce_list::replace(tr_tracker_id_t id, std::string_view announce_url_sv) { if (auto const announce = tr_urlParseTracker(announce_url_sv); !announce || !can_add(*announce)) { return false; } auto it = find(id); if (it == std::end(trackers_)) { return false; } auto const tier = it->tier; trackers_.erase(it); return add(announce_url_sv, tier); } bool tr_announce_list::add(std::string_view announce_url_sv, tr_tracker_tier_t tier) { auto const announce = tr_urlParseTracker(announce_url_sv); if (!announce || !can_add(*announce)) { return false; } auto tracker = tracker_info{}; tracker.announce = announce_url_sv; tracker.tier = get_tier(tier, *announce); tracker.id = next_unique_id(); tracker.host_and_port = fmt::format(FMT_STRING("{:s}:{:d}"), announce->host, announce->port); tracker.sitename = announce->sitename; if (auto const scrape_str = announce_to_scrape(announce_url_sv); scrape_str) { tracker.scrape = *scrape_str; } auto const it = std::lower_bound(std::begin(trackers_), std::end(trackers_), tracker); trackers_.insert(it, tracker); return true; } void tr_announce_list::add(tr_announce_list const& src) { if (std::empty(src)) { return; } auto src_tier = src.at(0).tier; auto& tgt = *this; auto tgt_tier = tgt.nextTier(); for (auto const& tracker : src) { if (src_tier != tracker.tier) { src_tier = tracker.tier; ++tgt_tier; } tgt.add(tracker.announce.sv(), tgt_tier); } } std::optional tr_announce_list::announce_to_scrape(std::string_view announce) { // To derive the scrape URL use the following steps: // Begin with the announce URL. Find the last '/' in it. // If the text immediately following that '/' isn't 'announce' // it will be taken as a sign that that tracker doesn't support // the scrape convention. If it does, substitute 'scrape' for // 'announce' to find the scrape page. auto constexpr Oldval = "/announce"sv; auto constexpr Newval = "/scrape"sv; if (auto pos = announce.rfind(Oldval.front()); pos != std::string_view::npos && announce.find(Oldval, pos) == pos) { return std::string{ announce }.replace(pos, std::size(Oldval), Newval); } // some torrents with UDP announce URLs don't have /announce if (tr_strvStartsWith(announce, "udp:"sv)) { return std::string{ announce }; } return {}; } tr_quark tr_announce_list::announce_to_scrape(tr_quark announce) { if (auto const scrape_str = announce_to_scrape(tr_quark_get_string_view(announce)); scrape_str) { return tr_quark_new(*scrape_str); } return TR_KEY_NONE; } tr_tracker_tier_t tr_announce_list::nextTier() const { return std::empty(trackers_) ? 0 : trackers_.back().tier + 1; } tr_tracker_id_t tr_announce_list::next_unique_id() { static tr_tracker_id_t id = 0; return id++; } tr_announce_list::trackers_t::iterator tr_announce_list::find(tr_tracker_id_t id) { auto const test = [&id](auto const& tracker) { return tracker.id == id; }; return std::find_if(std::begin(trackers_), std::end(trackers_), test); } tr_announce_list::trackers_t::iterator tr_announce_list::find(std::string_view announce) { auto const test = [&announce](auto const& tracker) { return announce == tracker.announce.sv(); }; return std::find_if(std::begin(trackers_), std::end(trackers_), test); } // if two announce URLs differ only by scheme, put them in the same tier. // (note: this can leave gaps in the `tier` values, but since the calling // function doesn't care, there's no point in removing the gaps...) tr_tracker_tier_t tr_announce_list::get_tier(tr_tracker_tier_t tier, tr_url_parsed_t const& announce) const { auto const is_sibling = [&announce](auto const& tracker) { auto const tracker_announce = tracker.announce.sv(); // fast test to avoid tr_urlParse()ing most trackers if (!tr_strvContains(tracker_announce, announce.host)) { return false; } auto const candidate = tr_urlParse(tracker_announce); return candidate->host == announce.host && candidate->path == announce.path; }; auto const it = std::find_if(std::begin(trackers_), std::end(trackers_), is_sibling); return it != std::end(trackers_) ? it->tier : tier; } bool tr_announce_list::can_add(tr_url_parsed_t const& announce) const noexcept { // looking at components instead of the full original URL lets // us weed out implicit-vs-explicit port duplicates e.g. // "http://tracker/announce" + "http://tracker:80/announce" auto const is_same = [&announce](auto const& tracker) { auto const tracker_announce = tracker.announce.sv(); // fast test to avoid tr_urlParse()ing most trackers if (!tr_strvContains(tracker_announce, announce.host)) { return false; } auto const tracker_parsed = tr_urlParse(tracker_announce); return tracker_parsed->scheme == announce.scheme && tracker_parsed->host == announce.host && tracker_parsed->port == announce.port && tracker_parsed->path == announce.path; }; return std::none_of(std::begin(trackers_), std::end(trackers_), is_same); } bool tr_announce_list::save(std::string_view torrent_file, tr_error** error) const { // load the torrent file auto metainfo = tr_variant{}; if (!tr_variantFromFile(&metainfo, TR_VARIANT_PARSE_BENC, torrent_file, error)) { return false; } // remove the old fields tr_variantDictRemove(&metainfo, TR_KEY_announce); tr_variantDictRemove(&metainfo, TR_KEY_announce_list); // add the new fields if (this->size() == 1) { tr_variantDictAddQuark(&metainfo, TR_KEY_announce, at(0).announce.quark()); } else if (this->size() > 1) { tr_variant* tier_list = tr_variantDictAddList(&metainfo, TR_KEY_announce_list, 0); auto current_tier = std::optional{}; tr_variant* tracker_list = nullptr; for (auto const& tracker : *this) { if (tracker_list == nullptr || !current_tier || current_tier != tracker.tier) { tracker_list = tr_variantListAddList(tier_list, 1); current_tier = tracker.tier; } tr_variantListAddQuark(tracker_list, tracker.announce.quark()); } } // confirm that it's good by parsing it back again auto const contents = tr_variantToStr(&metainfo, TR_VARIANT_FMT_BENC); tr_variantClear(&metainfo); if (auto tm = tr_torrent_metainfo{}; !tm.parse_benc(contents, error)) { return false; } // save it return tr_saveFile(torrent_file, contents, error); } bool tr_announce_list::parse(std::string_view text) { auto scratch = tr_announce_list{}; auto current_tier = tr_tracker_tier_t{ 0 }; auto current_tier_size = size_t{ 0 }; auto line = std::string_view{}; while (tr_strvSep(&text, &line, '\n')) { if (tr_strvEndsWith(line, '\r')) { line = line.substr(0, std::size(line) - 1); } line = tr_strvStrip(line); if (std::empty(line)) { if (current_tier_size > 0) { ++current_tier; current_tier_size = 0; } } else if (scratch.add(line, current_tier)) { ++current_tier_size; } else { return false; } } *this = scratch; return true; } std::string tr_announce_list::to_string() const { auto text = std::string{}; auto current_tier = std::optional{}; for (auto const& tracker : *this) { if (current_tier && *current_tier != tracker.tier) { text += '\n'; } text += tracker.announce.sv(); text += '\n'; current_tier = tracker.tier; } return text; }