/* * nheko Copyright (C) 2017 Konstantinos Sideris * * 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 3 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, see . */ #include #include #include #include #include #include #include #include #include #include "Cache.h" #include "Utils.h" //! Should be changed when a breaking change occurs in the cache format. //! This will reset client's data. static const std::string CURRENT_CACHE_FORMAT_VERSION("2018.09.21"); static const std::string SECRET("secret"); static const lmdb::val NEXT_BATCH_KEY("next_batch"); static const lmdb::val OLM_ACCOUNT_KEY("olm_account"); static const lmdb::val CACHE_FORMAT_VERSION_KEY("cache_format_version"); constexpr size_t MAX_RESTORED_MESSAGES = 30; constexpr auto DB_SIZE = 512UL * 1024UL * 1024UL; // 512 MB constexpr auto MAX_DBS = 1024UL; //! Cache databases and their format. //! //! Contains UI information for the joined rooms. (i.e name, topic, avatar url etc). //! Format: room_id -> RoomInfo constexpr auto ROOMS_DB("rooms"); constexpr auto INVITES_DB("invites"); //! Keeps already downloaded media for reuse. //! Format: matrix_url -> binary data. constexpr auto MEDIA_DB("media"); //! Information that must be kept between sync requests. constexpr auto SYNC_STATE_DB("sync_state"); //! Read receipts per room/event. constexpr auto READ_RECEIPTS_DB("read_receipts"); constexpr auto NOTIFICATIONS_DB("sent_notifications"); //! Encryption related databases. //! user_id -> list of devices constexpr auto DEVICES_DB("devices"); //! device_id -> device keys constexpr auto DEVICE_KEYS_DB("device_keys"); //! room_ids that have encryption enabled. constexpr auto ENCRYPTED_ROOMS_DB("encrypted_rooms"); //! room_id -> pickled OlmInboundGroupSession constexpr auto INBOUND_MEGOLM_SESSIONS_DB("inbound_megolm_sessions"); //! MegolmSessionIndex -> pickled OlmOutboundGroupSession constexpr auto OUTBOUND_MEGOLM_SESSIONS_DB("outbound_megolm_sessions"); using CachedReceipts = std::multimap>; using Receipts = std::map>; namespace { std::unique_ptr instance_ = nullptr; } namespace cache { void init(const QString &user_id) { qRegisterMetaType(); qRegisterMetaType>(); qRegisterMetaType(); qRegisterMetaType(); qRegisterMetaType(); qRegisterMetaType>(); qRegisterMetaType>(); qRegisterMetaType>(); instance_ = std::make_unique(user_id); } Cache * client() { return instance_.get(); } } // namespace cache Cache::Cache(const QString &userId, QObject *parent) : QObject{parent} , env_{nullptr} , syncStateDb_{0} , roomsDb_{0} , invitesDb_{0} , mediaDb_{0} , readReceiptsDb_{0} , notificationsDb_{0} , devicesDb_{0} , deviceKeysDb_{0} , inboundMegolmSessionDb_{0} , outboundMegolmSessionDb_{0} , localUserId_{userId} { setup(); } void Cache::setup() { nhlog::db()->debug("setting up cache"); auto statePath = QString("%1/%2") .arg(QStandardPaths::writableLocation(QStandardPaths::CacheLocation)) .arg(QString::fromUtf8(localUserId_.toUtf8().toHex())); cacheDirectory_ = QString("%1/%2") .arg(QStandardPaths::writableLocation(QStandardPaths::CacheLocation)) .arg(QString::fromUtf8(localUserId_.toUtf8().toHex())); bool isInitial = !QFile::exists(statePath); env_ = lmdb::env::create(); env_.set_mapsize(DB_SIZE); env_.set_max_dbs(MAX_DBS); if (isInitial) { nhlog::db()->info("initializing LMDB"); if (!QDir().mkpath(statePath)) { throw std::runtime_error( ("Unable to create state directory:" + statePath).toStdString().c_str()); } } try { env_.open(statePath.toStdString().c_str()); } catch (const lmdb::error &e) { if (e.code() != MDB_VERSION_MISMATCH && e.code() != MDB_INVALID) { throw std::runtime_error("LMDB initialization failed" + std::string(e.what())); } nhlog::db()->warn("resetting cache due to LMDB version mismatch: {}", e.what()); QDir stateDir(statePath); for (const auto &file : stateDir.entryList(QDir::NoDotAndDotDot)) { if (!stateDir.remove(file)) throw std::runtime_error( ("Unable to delete file " + file).toStdString().c_str()); } env_.open(statePath.toStdString().c_str()); } auto txn = lmdb::txn::begin(env_); syncStateDb_ = lmdb::dbi::open(txn, SYNC_STATE_DB, MDB_CREATE); roomsDb_ = lmdb::dbi::open(txn, ROOMS_DB, MDB_CREATE); invitesDb_ = lmdb::dbi::open(txn, INVITES_DB, MDB_CREATE); mediaDb_ = lmdb::dbi::open(txn, MEDIA_DB, MDB_CREATE); readReceiptsDb_ = lmdb::dbi::open(txn, READ_RECEIPTS_DB, MDB_CREATE); notificationsDb_ = lmdb::dbi::open(txn, NOTIFICATIONS_DB, MDB_CREATE); // Device management devicesDb_ = lmdb::dbi::open(txn, DEVICES_DB, MDB_CREATE); deviceKeysDb_ = lmdb::dbi::open(txn, DEVICE_KEYS_DB, MDB_CREATE); // Session management inboundMegolmSessionDb_ = lmdb::dbi::open(txn, INBOUND_MEGOLM_SESSIONS_DB, MDB_CREATE); outboundMegolmSessionDb_ = lmdb::dbi::open(txn, OUTBOUND_MEGOLM_SESSIONS_DB, MDB_CREATE); txn.commit(); } void Cache::setEncryptedRoom(lmdb::txn &txn, const std::string &room_id) { nhlog::db()->info("mark room {} as encrypted", room_id); auto db = lmdb::dbi::open(txn, ENCRYPTED_ROOMS_DB, MDB_CREATE); lmdb::dbi_put(txn, db, lmdb::val(room_id), lmdb::val("0")); } bool Cache::isRoomEncrypted(const std::string &room_id) { lmdb::val unused; auto txn = lmdb::txn::begin(env_); auto db = lmdb::dbi::open(txn, ENCRYPTED_ROOMS_DB, MDB_CREATE); auto res = lmdb::dbi_get(txn, db, lmdb::val(room_id), unused); txn.commit(); return res; } mtx::crypto::ExportedSessionKeys Cache::exportSessionKeys() { using namespace mtx::crypto; ExportedSessionKeys keys; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto cursor = lmdb::cursor::open(txn, inboundMegolmSessionDb_); std::string key, value; while (cursor.get(key, value, MDB_NEXT)) { ExportedSession exported; MegolmSessionIndex index; auto saved_session = unpickle(value, SECRET); try { index = nlohmann::json::parse(key).get(); } catch (const nlohmann::json::exception &e) { nhlog::db()->critical("failed to export megolm session: {}", e.what()); continue; } exported.room_id = index.room_id; exported.sender_key = index.sender_key; exported.session_id = index.session_id; exported.session_key = export_session(saved_session.get()); keys.sessions.push_back(exported); } cursor.close(); txn.commit(); return keys; } void Cache::importSessionKeys(const mtx::crypto::ExportedSessionKeys &keys) { for (const auto &s : keys.sessions) { MegolmSessionIndex index; index.room_id = s.room_id; index.session_id = s.session_id; index.sender_key = s.sender_key; auto exported_session = mtx::crypto::import_session(s.session_key); saveInboundMegolmSession(index, std::move(exported_session)); } } // // Session Management // void Cache::saveInboundMegolmSession(const MegolmSessionIndex &index, mtx::crypto::InboundGroupSessionPtr session) { using namespace mtx::crypto; const auto key = json(index).dump(); const auto pickled = pickle(session.get(), SECRET); auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, inboundMegolmSessionDb_, lmdb::val(key), lmdb::val(pickled)); txn.commit(); { std::unique_lock lock(session_storage.group_inbound_mtx); session_storage.group_inbound_sessions[key] = std::move(session); } } OlmInboundGroupSession * Cache::getInboundMegolmSession(const MegolmSessionIndex &index) { std::unique_lock lock(session_storage.group_inbound_mtx); return session_storage.group_inbound_sessions[json(index).dump()].get(); } bool Cache::inboundMegolmSessionExists(const MegolmSessionIndex &index) { std::unique_lock lock(session_storage.group_inbound_mtx); return session_storage.group_inbound_sessions.find(json(index).dump()) != session_storage.group_inbound_sessions.end(); } void Cache::updateOutboundMegolmSession(const std::string &room_id, int message_index) { using namespace mtx::crypto; if (!outboundMegolmSessionExists(room_id)) return; OutboundGroupSessionData data; OlmOutboundGroupSession *session; { std::unique_lock lock(session_storage.group_outbound_mtx); data = session_storage.group_outbound_session_data[room_id]; session = session_storage.group_outbound_sessions[room_id].get(); // Update with the current message. data.message_index = message_index; session_storage.group_outbound_session_data[room_id] = data; } // Save the updated pickled data for the session. json j; j["data"] = data; j["session"] = pickle(session, SECRET); auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, outboundMegolmSessionDb_, lmdb::val(room_id), lmdb::val(j.dump())); txn.commit(); } void Cache::saveOutboundMegolmSession(const std::string &room_id, const OutboundGroupSessionData &data, mtx::crypto::OutboundGroupSessionPtr session) { using namespace mtx::crypto; const auto pickled = pickle(session.get(), SECRET); json j; j["data"] = data; j["session"] = pickled; auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, outboundMegolmSessionDb_, lmdb::val(room_id), lmdb::val(j.dump())); txn.commit(); { std::unique_lock lock(session_storage.group_outbound_mtx); session_storage.group_outbound_session_data[room_id] = data; session_storage.group_outbound_sessions[room_id] = std::move(session); } } bool Cache::outboundMegolmSessionExists(const std::string &room_id) noexcept { std::unique_lock lock(session_storage.group_outbound_mtx); return (session_storage.group_outbound_sessions.find(room_id) != session_storage.group_outbound_sessions.end()) && (session_storage.group_outbound_session_data.find(room_id) != session_storage.group_outbound_session_data.end()); } OutboundGroupSessionDataRef Cache::getOutboundMegolmSession(const std::string &room_id) { std::unique_lock lock(session_storage.group_outbound_mtx); return OutboundGroupSessionDataRef{session_storage.group_outbound_sessions[room_id].get(), session_storage.group_outbound_session_data[room_id]}; } // // OLM sessions. // void Cache::saveOlmSession(const std::string &curve25519, mtx::crypto::OlmSessionPtr session) { using namespace mtx::crypto; auto txn = lmdb::txn::begin(env_); auto db = getOlmSessionsDb(txn, curve25519); const auto pickled = pickle(session.get(), SECRET); const auto session_id = mtx::crypto::session_id(session.get()); lmdb::dbi_put(txn, db, lmdb::val(session_id), lmdb::val(pickled)); txn.commit(); } boost::optional Cache::getOlmSession(const std::string &curve25519, const std::string &session_id) { using namespace mtx::crypto; auto txn = lmdb::txn::begin(env_); auto db = getOlmSessionsDb(txn, curve25519); lmdb::val pickled; bool found = lmdb::dbi_get(txn, db, lmdb::val(session_id), pickled); txn.commit(); if (found) { auto data = std::string(pickled.data(), pickled.size()); return unpickle(data, SECRET); } return boost::none; } std::vector Cache::getOlmSessions(const std::string &curve25519) { using namespace mtx::crypto; auto txn = lmdb::txn::begin(env_); auto db = getOlmSessionsDb(txn, curve25519); std::string session_id, unused; std::vector res; auto cursor = lmdb::cursor::open(txn, db); while (cursor.get(session_id, unused, MDB_NEXT)) res.emplace_back(session_id); cursor.close(); txn.commit(); return res; } void Cache::saveOlmAccount(const std::string &data) { auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, syncStateDb_, OLM_ACCOUNT_KEY, lmdb::val(data)); txn.commit(); } void Cache::restoreSessions() { using namespace mtx::crypto; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); std::string key, value; // // Inbound Megolm Sessions // { auto cursor = lmdb::cursor::open(txn, inboundMegolmSessionDb_); while (cursor.get(key, value, MDB_NEXT)) { auto session = unpickle(value, SECRET); session_storage.group_inbound_sessions[key] = std::move(session); } cursor.close(); } // // Outbound Megolm Sessions // { auto cursor = lmdb::cursor::open(txn, outboundMegolmSessionDb_); while (cursor.get(key, value, MDB_NEXT)) { json obj; try { obj = json::parse(value); session_storage.group_outbound_session_data[key] = obj.at("data").get(); auto session = unpickle(obj.at("session"), SECRET); session_storage.group_outbound_sessions[key] = std::move(session); } catch (const nlohmann::json::exception &e) { nhlog::db()->critical( "failed to parse outbound megolm session data: {}", e.what()); } } cursor.close(); } txn.commit(); nhlog::db()->info("sessions restored"); } std::string Cache::restoreOlmAccount() { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val pickled; lmdb::dbi_get(txn, syncStateDb_, OLM_ACCOUNT_KEY, pickled); txn.commit(); return std::string(pickled.data(), pickled.size()); } // // Media Management // void Cache::saveImage(const std::string &url, const std::string &img_data) { if (url.empty() || img_data.empty()) return; try { auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, mediaDb_, lmdb::val(url.data(), url.size()), lmdb::val(img_data.data(), img_data.size())); txn.commit(); } catch (const lmdb::error &e) { nhlog::db()->critical("saveImage: {}", e.what()); } } void Cache::saveImage(const QString &url, const QByteArray &image) { saveImage(url.toStdString(), std::string(image.constData(), image.length())); } QByteArray Cache::image(lmdb::txn &txn, const std::string &url) const { if (url.empty()) return QByteArray(); try { lmdb::val image; bool res = lmdb::dbi_get(txn, mediaDb_, lmdb::val(url), image); if (!res) return QByteArray(); return QByteArray(image.data(), image.size()); } catch (const lmdb::error &e) { nhlog::db()->critical("image: {}, {}", e.what(), url); } return QByteArray(); } QByteArray Cache::image(const QString &url) const { if (url.isEmpty()) return QByteArray(); auto key = url.toUtf8(); try { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val image; bool res = lmdb::dbi_get(txn, mediaDb_, lmdb::val(key.data(), key.size()), image); txn.commit(); if (!res) return QByteArray(); return QByteArray(image.data(), image.size()); } catch (const lmdb::error &e) { nhlog::db()->critical("image: {} {}", e.what(), url.toStdString()); } return QByteArray(); } void Cache::removeInvite(lmdb::txn &txn, const std::string &room_id) { lmdb::dbi_del(txn, invitesDb_, lmdb::val(room_id), nullptr); lmdb::dbi_drop(txn, getInviteStatesDb(txn, room_id), true); lmdb::dbi_drop(txn, getInviteMembersDb(txn, room_id), true); } void Cache::removeInvite(const std::string &room_id) { auto txn = lmdb::txn::begin(env_); removeInvite(txn, room_id); txn.commit(); } void Cache::removeRoom(lmdb::txn &txn, const std::string &roomid) { lmdb::dbi_del(txn, roomsDb_, lmdb::val(roomid), nullptr); lmdb::dbi_drop(txn, getStatesDb(txn, roomid), true); lmdb::dbi_drop(txn, getMembersDb(txn, roomid), true); } void Cache::removeRoom(const std::string &roomid) { auto txn = lmdb::txn::begin(env_, nullptr, 0); lmdb::dbi_del(txn, roomsDb_, lmdb::val(roomid), nullptr); txn.commit(); } void Cache::setNextBatchToken(lmdb::txn &txn, const std::string &token) { lmdb::dbi_put(txn, syncStateDb_, NEXT_BATCH_KEY, lmdb::val(token.data(), token.size())); } void Cache::setNextBatchToken(lmdb::txn &txn, const QString &token) { setNextBatchToken(txn, token.toStdString()); } bool Cache::isInitialized() const { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val token; bool res = lmdb::dbi_get(txn, syncStateDb_, NEXT_BATCH_KEY, token); txn.commit(); return res; } std::string Cache::nextBatchToken() const { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val token; lmdb::dbi_get(txn, syncStateDb_, NEXT_BATCH_KEY, token); txn.commit(); return std::string(token.data(), token.size()); } void Cache::deleteData() { // TODO: We need to remove the env_ while not accepting new requests. if (!cacheDirectory_.isEmpty()) { QDir(cacheDirectory_).removeRecursively(); nhlog::db()->info("deleted cache files from disk"); } } bool Cache::isFormatValid() { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val current_version; bool res = lmdb::dbi_get(txn, syncStateDb_, CACHE_FORMAT_VERSION_KEY, current_version); txn.commit(); if (!res) return false; std::string stored_version(current_version.data(), current_version.size()); if (stored_version != CURRENT_CACHE_FORMAT_VERSION) { nhlog::db()->warn("breaking changes in the cache format. stored: {}, current: {}", stored_version, CURRENT_CACHE_FORMAT_VERSION); return false; } return true; } void Cache::setCurrentFormat() { auto txn = lmdb::txn::begin(env_); lmdb::dbi_put( txn, syncStateDb_, CACHE_FORMAT_VERSION_KEY, lmdb::val(CURRENT_CACHE_FORMAT_VERSION.data(), CURRENT_CACHE_FORMAT_VERSION.size())); txn.commit(); } std::vector Cache::pendingReceiptsEvents(lmdb::txn &txn, const std::string &room_id) { auto db = getPendingReceiptsDb(txn); std::string key, unused; std::vector pending; auto cursor = lmdb::cursor::open(txn, db); while (cursor.get(key, unused, MDB_NEXT)) { ReadReceiptKey receipt; try { receipt = json::parse(key); } catch (const nlohmann::json::exception &e) { nhlog::db()->warn("pendingReceiptsEvents: {}", e.what()); continue; } if (receipt.room_id == room_id) pending.emplace_back(QString::fromStdString(receipt.event_id)); } cursor.close(); return pending; } void Cache::removePendingReceipt(lmdb::txn &txn, const std::string &room_id, const std::string &event_id) { auto db = getPendingReceiptsDb(txn); ReadReceiptKey receipt_key{event_id, room_id}; auto key = json(receipt_key).dump(); try { lmdb::dbi_del(txn, db, lmdb::val(key.data(), key.size()), nullptr); } catch (const lmdb::error &e) { nhlog::db()->critical("removePendingReceipt: {}", e.what()); } } void Cache::addPendingReceipt(const QString &room_id, const QString &event_id) { auto txn = lmdb::txn::begin(env_); auto db = getPendingReceiptsDb(txn); ReadReceiptKey receipt_key{event_id.toStdString(), room_id.toStdString()}; auto key = json(receipt_key).dump(); std::string empty; try { lmdb::dbi_put(txn, db, lmdb::val(key.data(), key.size()), lmdb::val(empty.data(), empty.size())); } catch (const lmdb::error &e) { nhlog::db()->critical("addPendingReceipt: {}", e.what()); } txn.commit(); } CachedReceipts Cache::readReceipts(const QString &event_id, const QString &room_id) { CachedReceipts receipts; ReadReceiptKey receipt_key{event_id.toStdString(), room_id.toStdString()}; nlohmann::json json_key = receipt_key; try { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto key = json_key.dump(); lmdb::val value; bool res = lmdb::dbi_get(txn, readReceiptsDb_, lmdb::val(key.data(), key.size()), value); txn.commit(); if (res) { auto json_response = json::parse(std::string(value.data(), value.size())); auto values = json_response.get>(); for (const auto &v : values) // timestamp, user_id receipts.emplace(v.second, v.first); } } catch (const lmdb::error &e) { nhlog::db()->critical("readReceipts: {}", e.what()); } return receipts; } std::vector Cache::filterReadEvents(const QString &room_id, const std::vector &event_ids, const std::string &excluded_user) { std::vector read_events; for (const auto &event : event_ids) { auto receipts = readReceipts(event, room_id); if (receipts.size() == 0) continue; if (receipts.size() == 1) { if (receipts.begin()->second == excluded_user) continue; } read_events.emplace_back(event); } return read_events; } void Cache::updateReadReceipt(lmdb::txn &txn, const std::string &room_id, const Receipts &receipts) { for (const auto &receipt : receipts) { const auto event_id = receipt.first; auto event_receipts = receipt.second; ReadReceiptKey receipt_key{event_id, room_id}; nlohmann::json json_key = receipt_key; try { const auto key = json_key.dump(); lmdb::val prev_value; bool exists = lmdb::dbi_get( txn, readReceiptsDb_, lmdb::val(key.data(), key.size()), prev_value); std::map saved_receipts; // If an entry for the event id already exists, we would // merge the existing receipts with the new ones. if (exists) { auto json_value = json::parse(std::string(prev_value.data(), prev_value.size())); // Retrieve the saved receipts. saved_receipts = json_value.get>(); } // Append the new ones. for (const auto &event_receipt : event_receipts) saved_receipts.emplace(event_receipt.first, event_receipt.second); // Save back the merged (or only the new) receipts. nlohmann::json json_updated_value = saved_receipts; std::string merged_receipts = json_updated_value.dump(); lmdb::dbi_put(txn, readReceiptsDb_, lmdb::val(key.data(), key.size()), lmdb::val(merged_receipts.data(), merged_receipts.size())); } catch (const lmdb::error &e) { nhlog::db()->critical("updateReadReceipts: {}", e.what()); } } } void Cache::notifyForReadReceipts(const std::string &room_id) { auto txn = lmdb::txn::begin(env_); QSettings settings; auto local_user = settings.value("auth/user_id").toString(); auto matches = filterReadEvents(QString::fromStdString(room_id), pendingReceiptsEvents(txn, room_id), local_user.toStdString()); for (const auto &m : matches) removePendingReceipt(txn, room_id, m.toStdString()); if (!matches.empty()) emit newReadReceipts(QString::fromStdString(room_id), matches); txn.commit(); } void Cache::calculateRoomReadStatus() { const auto joined_rooms = joinedRooms(); std::map readStatus; for (const auto &room : joined_rooms) readStatus.emplace(QString::fromStdString(room), calculateRoomReadStatus(room)); emit roomReadStatus(readStatus); } bool Cache::calculateRoomReadStatus(const std::string &room_id) { auto txn = lmdb::txn::begin(env_); // Get last event id on the room. const auto last_event_id = getLastMessageInfo(txn, room_id).event_id; const auto localUser = utils::localUser().toStdString(); txn.commit(); // Retrieve all read receipts for that event. const auto receipts = readReceipts(last_event_id, QString::fromStdString(room_id)); if (receipts.size() == 0) return true; // Check if the local user has a read receipt for it. for (auto it = receipts.cbegin(); it != receipts.cend(); it++) { if (it->second == localUser) return false; } return true; } void Cache::saveState(const mtx::responses::Sync &res) { using namespace mtx::events; auto txn = lmdb::txn::begin(env_); setNextBatchToken(txn, res.next_batch); // Save joined rooms for (const auto &room : res.rooms.join) { auto statesdb = getStatesDb(txn, room.first); auto membersdb = getMembersDb(txn, room.first); saveStateEvents(txn, statesdb, membersdb, room.first, room.second.state.events); saveStateEvents(txn, statesdb, membersdb, room.first, room.second.timeline.events); saveTimelineMessages(txn, room.first, room.second.timeline); RoomInfo updatedInfo; updatedInfo.name = getRoomName(txn, statesdb, membersdb).toStdString(); updatedInfo.topic = getRoomTopic(txn, statesdb).toStdString(); updatedInfo.avatar_url = getRoomAvatarUrl(txn, statesdb, membersdb, QString::fromStdString(room.first)) .toStdString(); // Process the account_data associated with this room bool has_new_tags = false; for (const auto &evt : room.second.account_data.events) { // for now only fetch tag events if (evt.type() == typeid(Event)) { auto tags_evt = boost::get>(evt); has_new_tags = true; for (const auto &tag : tags_evt.content.tags) { updatedInfo.tags.push_back(tag.first); } } } if (!has_new_tags) { // retrieve the old tags, they haven't changed lmdb::val data; if (lmdb::dbi_get(txn, roomsDb_, lmdb::val(room.first), data)) { try { RoomInfo tmp = json::parse(std::string(data.data(), data.size())); updatedInfo.tags = tmp.tags; } catch (const json::exception &e) { nhlog::db()->warn( "failed to parse room info: room_id ({}), {}", room.first, std::string(data.data(), data.size())); } } } lmdb::dbi_put( txn, roomsDb_, lmdb::val(room.first), lmdb::val(json(updatedInfo).dump())); updateReadReceipt(txn, room.first, room.second.ephemeral.receipts); // Clean up non-valid invites. removeInvite(txn, room.first); } saveInvites(txn, res.rooms.invite); removeLeftRooms(txn, res.rooms.leave); txn.commit(); std::map readStatus; for (const auto &room : res.rooms.join) { notifyForReadReceipts(room.first); readStatus.emplace(QString::fromStdString(room.first), calculateRoomReadStatus(room.first)); } emit roomReadStatus(readStatus); } void Cache::saveInvites(lmdb::txn &txn, const std::map &rooms) { for (const auto &room : rooms) { auto statesdb = getInviteStatesDb(txn, room.first); auto membersdb = getInviteMembersDb(txn, room.first); saveInvite(txn, statesdb, membersdb, room.second); RoomInfo updatedInfo; updatedInfo.name = getInviteRoomName(txn, statesdb, membersdb).toStdString(); updatedInfo.topic = getInviteRoomTopic(txn, statesdb).toStdString(); updatedInfo.avatar_url = getInviteRoomAvatarUrl(txn, statesdb, membersdb).toStdString(); updatedInfo.is_invite = true; lmdb::dbi_put( txn, invitesDb_, lmdb::val(room.first), lmdb::val(json(updatedInfo).dump())); } } void Cache::saveInvite(lmdb::txn &txn, lmdb::dbi &statesdb, lmdb::dbi &membersdb, const mtx::responses::InvitedRoom &room) { using namespace mtx::events; using namespace mtx::events::state; for (const auto &e : room.invite_state) { if (boost::get>(&e) != nullptr) { auto msg = boost::get>(e); auto display_name = msg.content.display_name.empty() ? msg.state_key : msg.content.display_name; MemberInfo tmp{display_name, msg.content.avatar_url}; lmdb::dbi_put( txn, membersdb, lmdb::val(msg.state_key), lmdb::val(json(tmp).dump())); } else { boost::apply_visitor( [&txn, &statesdb](auto msg) { bool res = lmdb::dbi_put(txn, statesdb, lmdb::val(to_string(msg.type)), lmdb::val(json(msg).dump())); if (!res) std::cout << "couldn't save data" << json(msg).dump() << '\n'; }, e); } } } std::vector Cache::roomsWithStateUpdates(const mtx::responses::Sync &res) { std::vector rooms; for (const auto &room : res.rooms.join) { bool hasUpdates = false; for (const auto &s : room.second.state.events) { if (containsStateUpdates(s)) { hasUpdates = true; break; } } for (const auto &s : room.second.timeline.events) { if (containsStateUpdates(s)) { hasUpdates = true; break; } } if (hasUpdates) rooms.emplace_back(room.first); } for (const auto &room : res.rooms.invite) { for (const auto &s : room.second.invite_state) { if (containsStateUpdates(s)) { rooms.emplace_back(room.first); break; } } } return rooms; } std::vector Cache::roomsWithTagUpdates(const mtx::responses::Sync &res) { using namespace mtx::events; std::vector rooms; for (const auto &room : res.rooms.join) { bool hasUpdates = false; for (const auto &evt : room.second.account_data.events) { if (evt.type() == typeid(Event)) { hasUpdates = true; } } if (hasUpdates) rooms.emplace_back(room.first); } return rooms; } RoomInfo Cache::singleRoomInfo(const std::string &room_id) { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto statesdb = getStatesDb(txn, room_id); lmdb::val data; // Check if the room is joined. if (lmdb::dbi_get(txn, roomsDb_, lmdb::val(room_id), data)) { try { RoomInfo tmp = json::parse(std::string(data.data(), data.size())); tmp.member_count = getMembersDb(txn, room_id).size(txn); tmp.join_rule = getRoomJoinRule(txn, statesdb); tmp.guest_access = getRoomGuestAccess(txn, statesdb); txn.commit(); return tmp; } catch (const json::exception &e) { nhlog::db()->warn("failed to parse room info: room_id ({}), {}", room_id, std::string(data.data(), data.size())); } } txn.commit(); return RoomInfo(); } std::map Cache::getRoomInfo(const std::vector &rooms) { std::map room_info; // TODO This should be read only. auto txn = lmdb::txn::begin(env_); for (const auto &room : rooms) { lmdb::val data; auto statesdb = getStatesDb(txn, room); // Check if the room is joined. if (lmdb::dbi_get(txn, roomsDb_, lmdb::val(room), data)) { try { RoomInfo tmp = json::parse(std::string(data.data(), data.size())); tmp.member_count = getMembersDb(txn, room).size(txn); tmp.join_rule = getRoomJoinRule(txn, statesdb); tmp.guest_access = getRoomGuestAccess(txn, statesdb); room_info.emplace(QString::fromStdString(room), std::move(tmp)); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse room info: room_id ({}), {}", room, std::string(data.data(), data.size())); } } else { // Check if the room is an invite. if (lmdb::dbi_get(txn, invitesDb_, lmdb::val(room), data)) { try { RoomInfo tmp = json::parse(std::string(data.data(), data.size())); tmp.member_count = getInviteMembersDb(txn, room).size(txn); room_info.emplace(QString::fromStdString(room), std::move(tmp)); } catch (const json::exception &e) { nhlog::db()->warn( "failed to parse room info for invite: room_id ({}), {}", room, std::string(data.data(), data.size())); } } } } txn.commit(); return room_info; } std::map Cache::roomMessages() { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); std::map msgs; std::string room_id, unused; auto roomsCursor = lmdb::cursor::open(txn, roomsDb_); while (roomsCursor.get(room_id, unused, MDB_NEXT)) msgs.emplace(QString::fromStdString(room_id), mtx::responses::Timeline()); roomsCursor.close(); txn.commit(); return msgs; } mtx::responses::Timeline Cache::getTimelineMessages(lmdb::txn &txn, const std::string &room_id) { auto db = getMessagesDb(txn, room_id); mtx::responses::Timeline timeline; std::string timestamp, msg; auto cursor = lmdb::cursor::open(txn, db); size_t index = 0; while (cursor.get(timestamp, msg, MDB_NEXT) && index < MAX_RESTORED_MESSAGES) { auto obj = json::parse(msg); if (obj.count("event") == 0 || obj.count("token") == 0) continue; mtx::events::collections::TimelineEvent event; mtx::events::collections::from_json(obj.at("event"), event); index += 1; timeline.events.push_back(event.data); timeline.prev_batch = obj.at("token").get(); } cursor.close(); std::reverse(timeline.events.begin(), timeline.events.end()); return timeline; } QMap Cache::roomInfo(bool withInvites) { QMap result; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); std::string room_id; std::string room_data; // Gather info about the joined rooms. auto roomsCursor = lmdb::cursor::open(txn, roomsDb_); while (roomsCursor.get(room_id, room_data, MDB_NEXT)) { RoomInfo tmp = json::parse(std::move(room_data)); tmp.member_count = getMembersDb(txn, room_id).size(txn); tmp.msgInfo = getLastMessageInfo(txn, room_id); result.insert(QString::fromStdString(std::move(room_id)), std::move(tmp)); } roomsCursor.close(); if (withInvites) { // Gather info about the invites. auto invitesCursor = lmdb::cursor::open(txn, invitesDb_); while (invitesCursor.get(room_id, room_data, MDB_NEXT)) { RoomInfo tmp = json::parse(room_data); tmp.member_count = getInviteMembersDb(txn, room_id).size(txn); result.insert(QString::fromStdString(std::move(room_id)), std::move(tmp)); } invitesCursor.close(); } txn.commit(); return result; } DescInfo Cache::getLastMessageInfo(lmdb::txn &txn, const std::string &room_id) { auto db = getMessagesDb(txn, room_id); if (db.size(txn) == 0) return DescInfo{}; std::string timestamp, msg; QSettings settings; auto local_user = settings.value("auth/user_id").toString(); auto cursor = lmdb::cursor::open(txn, db); while (cursor.get(timestamp, msg, MDB_NEXT)) { auto obj = json::parse(msg); if (obj.count("event") == 0) continue; mtx::events::collections::TimelineEvent event; mtx::events::collections::from_json(obj.at("event"), event); cursor.close(); return utils::getMessageDescription( event.data, local_user, QString::fromStdString(room_id)); } cursor.close(); return DescInfo{}; } std::map Cache::invites() { std::map result; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto cursor = lmdb::cursor::open(txn, invitesDb_); std::string room_id, unused; while (cursor.get(room_id, unused, MDB_NEXT)) result.emplace(QString::fromStdString(std::move(room_id)), true); cursor.close(); txn.commit(); return result; } QString Cache::getRoomAvatarUrl(lmdb::txn &txn, lmdb::dbi &statesdb, lmdb::dbi &membersdb, const QString &room_id) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomAvatar)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); return QString::fromStdString(msg.content.url); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.avatar event: {}", e.what()); } } // We don't use an avatar for group chats. if (membersdb.size(txn) > 2) return QString(); auto cursor = lmdb::cursor::open(txn, membersdb); std::string user_id; std::string member_data; // Resolve avatar for 1-1 chats. while (cursor.get(user_id, member_data, MDB_NEXT)) { if (user_id == localUserId_.toStdString()) continue; try { MemberInfo m = json::parse(member_data); cursor.close(); return QString::fromStdString(m.avatar_url); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse member info: {}", e.what()); } } cursor.close(); // Default case when there is only one member. return avatarUrl(room_id, localUserId_); } QString Cache::getRoomName(lmdb::txn &txn, lmdb::dbi &statesdb, lmdb::dbi &membersdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomName)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); if (!msg.content.name.empty()) return QString::fromStdString(msg.content.name); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.name event: {}", e.what()); } } res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomCanonicalAlias)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); if (!msg.content.alias.empty()) return QString::fromStdString(msg.content.alias); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.canonical_alias event: {}", e.what()); } } auto cursor = lmdb::cursor::open(txn, membersdb); const int total = membersdb.size(txn); std::size_t ii = 0; std::string user_id; std::string member_data; std::map members; while (cursor.get(user_id, member_data, MDB_NEXT) && ii < 3) { try { members.emplace(user_id, json::parse(member_data)); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse member info: {}", e.what()); } ii++; } cursor.close(); if (total == 1 && !members.empty()) return QString::fromStdString(members.begin()->second.name); auto first_member = [&members, this]() { for (const auto &m : members) { if (m.first != localUserId_.toStdString()) return QString::fromStdString(m.second.name); } return localUserId_; }(); if (total == 2) return first_member; else if (total > 2) return QString("%1 and %2 others").arg(first_member).arg(total); return "Empty Room"; } JoinRule Cache::getRoomJoinRule(lmdb::txn &txn, lmdb::dbi &statesdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomJoinRules)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); return msg.content.join_rule; } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.join_rule event: {}", e.what()); } } return JoinRule::Knock; } bool Cache::getRoomGuestAccess(lmdb::txn &txn, lmdb::dbi &statesdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomGuestAccess)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); return msg.content.guest_access == AccessState::CanJoin; } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.guest_access event: {}", e.what()); } } return false; } QString Cache::getRoomTopic(lmdb::txn &txn, lmdb::dbi &statesdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomTopic)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); if (!msg.content.topic.empty()) return QString::fromStdString(msg.content.topic); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.topic event: {}", e.what()); } } return QString(); } QString Cache::getInviteRoomName(lmdb::txn &txn, lmdb::dbi &statesdb, lmdb::dbi &membersdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomName)), event); if (res) { try { StrippedEvent msg = json::parse(std::string(event.data(), event.size())); return QString::fromStdString(msg.content.name); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.name event: {}", e.what()); } } auto cursor = lmdb::cursor::open(txn, membersdb); std::string user_id, member_data; while (cursor.get(user_id, member_data, MDB_NEXT)) { if (user_id == localUserId_.toStdString()) continue; try { MemberInfo tmp = json::parse(member_data); cursor.close(); return QString::fromStdString(tmp.name); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse member info: {}", e.what()); } } cursor.close(); return QString("Empty Room"); } QString Cache::getInviteRoomAvatarUrl(lmdb::txn &txn, lmdb::dbi &statesdb, lmdb::dbi &membersdb) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get( txn, statesdb, lmdb::val(to_string(mtx::events::EventType::RoomAvatar)), event); if (res) { try { StrippedEvent msg = json::parse(std::string(event.data(), event.size())); return QString::fromStdString(msg.content.url); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.avatar event: {}", e.what()); } } auto cursor = lmdb::cursor::open(txn, membersdb); std::string user_id, member_data; while (cursor.get(user_id, member_data, MDB_NEXT)) { if (user_id == localUserId_.toStdString()) continue; try { MemberInfo tmp = json::parse(member_data); cursor.close(); return QString::fromStdString(tmp.avatar_url); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse member info: {}", e.what()); } } cursor.close(); return QString(); } QString Cache::getInviteRoomTopic(lmdb::txn &txn, lmdb::dbi &db) { using namespace mtx::events; using namespace mtx::events::state; lmdb::val event; bool res = lmdb::dbi_get(txn, db, lmdb::val(to_string(mtx::events::EventType::RoomTopic)), event); if (res) { try { StrippedEvent msg = json::parse(std::string(event.data(), event.size())); return QString::fromStdString(msg.content.topic); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.topic event: {}", e.what()); } } return QString(); } QImage Cache::getRoomAvatar(const QString &room_id) { return getRoomAvatar(room_id.toStdString()); } QImage Cache::getRoomAvatar(const std::string &room_id) { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val response; if (!lmdb::dbi_get(txn, roomsDb_, lmdb::val(room_id), response)) { txn.commit(); return QImage(); } std::string media_url; try { RoomInfo info = json::parse(std::string(response.data(), response.size())); media_url = std::move(info.avatar_url); if (media_url.empty()) { txn.commit(); return QImage(); } } catch (const json::exception &e) { nhlog::db()->warn("failed to parse room info: {}, {}", e.what(), std::string(response.data(), response.size())); } if (!lmdb::dbi_get(txn, mediaDb_, lmdb::val(media_url), response)) { txn.commit(); return QImage(); } txn.commit(); return QImage::fromData(QByteArray(response.data(), response.size())); } std::vector Cache::joinedRooms() { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto roomsCursor = lmdb::cursor::open(txn, roomsDb_); std::string id, data; std::vector room_ids; // Gather the room ids for the joined rooms. while (roomsCursor.get(id, data, MDB_NEXT)) room_ids.emplace_back(id); roomsCursor.close(); txn.commit(); return room_ids; } void Cache::populateMembers() { auto rooms = joinedRooms(); nhlog::db()->info("loading {} rooms", rooms.size()); auto txn = lmdb::txn::begin(env_); for (const auto &room : rooms) { const auto roomid = QString::fromStdString(room); auto membersdb = getMembersDb(txn, room); auto cursor = lmdb::cursor::open(txn, membersdb); std::string user_id, info; while (cursor.get(user_id, info, MDB_NEXT)) { MemberInfo m = json::parse(info); const auto userid = QString::fromStdString(user_id); insertDisplayName(roomid, userid, QString::fromStdString(m.name)); insertAvatarUrl(roomid, userid, QString::fromStdString(m.avatar_url)); } cursor.close(); } txn.commit(); } std::vector Cache::searchRooms(const std::string &query, std::uint8_t max_items) { std::multimap> items; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto cursor = lmdb::cursor::open(txn, roomsDb_); std::string room_id, room_data; while (cursor.get(room_id, room_data, MDB_NEXT)) { RoomInfo tmp = json::parse(std::move(room_data)); const int score = utils::levenshtein_distance( query, QString::fromStdString(tmp.name).toLower().toStdString()); items.emplace(score, std::make_pair(room_id, tmp)); } cursor.close(); auto end = items.begin(); if (items.size() >= max_items) std::advance(end, max_items); else if (items.size() > 0) std::advance(end, items.size()); std::vector results; for (auto it = items.begin(); it != end; it++) { results.push_back( RoomSearchResult{it->second.first, it->second.second, QImage::fromData(image(txn, it->second.second.avatar_url))}); } txn.commit(); return results; } QVector Cache::searchUsers(const std::string &room_id, const std::string &query, std::uint8_t max_items) { std::multimap> items; auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto cursor = lmdb::cursor::open(txn, getMembersDb(txn, room_id)); std::string user_id, user_data; while (cursor.get(user_id, user_data, MDB_NEXT)) { const auto display_name = displayName(room_id, user_id); const int score = utils::levenshtein_distance(query, display_name); items.emplace(score, std::make_pair(user_id, display_name)); } auto end = items.begin(); if (items.size() >= max_items) std::advance(end, max_items); else if (items.size() > 0) std::advance(end, items.size()); QVector results; for (auto it = items.begin(); it != end; it++) { const auto user = it->second; results.push_back(SearchResult{QString::fromStdString(user.first), QString::fromStdString(user.second)}); } return results; } std::vector Cache::getMembers(const std::string &room_id, std::size_t startIndex, std::size_t len) { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); auto db = getMembersDb(txn, room_id); auto cursor = lmdb::cursor::open(txn, db); std::size_t currentIndex = 0; const auto endIndex = std::min(startIndex + len, db.size(txn)); std::vector members; std::string user_id, user_data; while (cursor.get(user_id, user_data, MDB_NEXT)) { if (currentIndex < startIndex) { currentIndex += 1; continue; } if (currentIndex >= endIndex) break; try { MemberInfo tmp = json::parse(user_data); members.emplace_back( RoomMember{QString::fromStdString(user_id), QString::fromStdString(tmp.name), QImage::fromData(image(txn, tmp.avatar_url))}); } catch (const json::exception &e) { nhlog::db()->warn("{}", e.what()); } currentIndex += 1; } cursor.close(); txn.commit(); return members; } bool Cache::isRoomMember(const std::string &user_id, const std::string &room_id) { auto txn = lmdb::txn::begin(env_); auto db = getMembersDb(txn, room_id); lmdb::val value; bool res = lmdb::dbi_get(txn, db, lmdb::val(user_id), value); txn.commit(); return res; } void Cache::saveTimelineMessages(lmdb::txn &txn, const std::string &room_id, const mtx::responses::Timeline &res) { auto db = getMessagesDb(txn, room_id); using namespace mtx::events; using namespace mtx::events::state; for (const auto &e : res.events) { if (isStateEvent(e)) continue; if (boost::get>(&e) != nullptr) continue; json obj = json::object(); obj["event"] = utils::serialize_event(e); obj["token"] = res.prev_batch; lmdb::dbi_put(txn, db, lmdb::val(std::to_string(utils::event_timestamp(e))), lmdb::val(obj.dump())); } } void Cache::markSentNotification(const std::string &event_id) { auto txn = lmdb::txn::begin(env_); lmdb::dbi_put(txn, notificationsDb_, lmdb::val(event_id), lmdb::val(std::string(""))); txn.commit(); } void Cache::removeReadNotification(const std::string &event_id) { auto txn = lmdb::txn::begin(env_); lmdb::dbi_del(txn, notificationsDb_, lmdb::val(event_id), nullptr); txn.commit(); } bool Cache::isNotificationSent(const std::string &event_id) { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); lmdb::val value; bool res = lmdb::dbi_get(txn, notificationsDb_, lmdb::val(event_id), value); txn.commit(); return res; } std::vector Cache::getRoomIds(lmdb::txn &txn) { auto db = lmdb::dbi::open(txn, ROOMS_DB, MDB_CREATE); auto cursor = lmdb::cursor::open(txn, db); std::vector rooms; std::string room_id, _unused; while (cursor.get(room_id, _unused, MDB_NEXT)) rooms.emplace_back(room_id); cursor.close(); return rooms; } void Cache::deleteOldMessages() { auto txn = lmdb::txn::begin(env_); auto room_ids = getRoomIds(txn); for (const auto &id : room_ids) { auto msg_db = getMessagesDb(txn, id); std::string ts, event; uint64_t idx = 0; const auto db_size = msg_db.size(txn); if (db_size <= 3 * MAX_RESTORED_MESSAGES) continue; nhlog::db()->info("[{}] message count: {}", id, db_size); auto cursor = lmdb::cursor::open(txn, msg_db); while (cursor.get(ts, event, MDB_NEXT)) { idx += 1; if (idx > MAX_RESTORED_MESSAGES) lmdb::cursor_del(cursor); } cursor.close(); nhlog::db()->info("[{}] updated message count: {}", id, msg_db.size(txn)); } txn.commit(); } void Cache::deleteOldData() noexcept { try { deleteOldMessages(); } catch (const lmdb::error &e) { nhlog::db()->error("failed to delete old messages: {}", e.what()); } } bool Cache::hasEnoughPowerLevel(const std::vector &eventTypes, const std::string &room_id, const std::string &user_id) { using namespace mtx::events; using namespace mtx::events::state; auto txn = lmdb::txn::begin(env_); auto db = getStatesDb(txn, room_id); uint16_t min_event_level = std::numeric_limits::max(); uint16_t user_level = std::numeric_limits::min(); lmdb::val event; bool res = lmdb::dbi_get(txn, db, lmdb::val(to_string(EventType::RoomPowerLevels)), event); if (res) { try { StateEvent msg = json::parse(std::string(event.data(), event.size())); user_level = msg.content.user_level(user_id); for (const auto &ty : eventTypes) min_event_level = std::min(min_event_level, (uint16_t)msg.content.state_level(to_string(ty))); } catch (const json::exception &e) { nhlog::db()->warn("failed to parse m.room.power_levels event: {}", e.what()); } } txn.commit(); return user_level >= min_event_level; } std::vector Cache::roomMembers(const std::string &room_id) { auto txn = lmdb::txn::begin(env_, nullptr, MDB_RDONLY); std::vector members; std::string user_id, unused; auto db = getMembersDb(txn, room_id); auto cursor = lmdb::cursor::open(txn, db); while (cursor.get(user_id, unused, MDB_NEXT)) members.emplace_back(std::move(user_id)); cursor.close(); txn.commit(); return members; } QHash Cache::DisplayNames; QHash Cache::AvatarUrls; QHash Cache::UserColors; QString Cache::displayName(const QString &room_id, const QString &user_id) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); if (DisplayNames.contains(fmt)) return DisplayNames[fmt]; return user_id; } std::string Cache::displayName(const std::string &room_id, const std::string &user_id) { auto fmt = QString::fromStdString(room_id + " " + user_id); if (DisplayNames.contains(fmt)) return DisplayNames[fmt].toStdString(); return user_id; } QString Cache::avatarUrl(const QString &room_id, const QString &user_id) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); if (AvatarUrls.contains(fmt)) return AvatarUrls[fmt]; return QString(); } QString Cache::userColor(const QString &user_id) { if (UserColors.contains(user_id)) { return UserColors[user_id]; } return QString(); } void Cache::insertDisplayName(const QString &room_id, const QString &user_id, const QString &display_name) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); DisplayNames.insert(fmt, display_name); } void Cache::removeDisplayName(const QString &room_id, const QString &user_id) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); DisplayNames.remove(fmt); } void Cache::insertAvatarUrl(const QString &room_id, const QString &user_id, const QString &avatar_url) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); AvatarUrls.insert(fmt, avatar_url); } void Cache::removeAvatarUrl(const QString &room_id, const QString &user_id) { auto fmt = QString("%1 %2").arg(room_id).arg(user_id); AvatarUrls.remove(fmt); } void Cache::insertUserColor(const QString &user_id, const QString &color_name) { UserColors.insert(user_id, color_name); } void Cache::removeUserColor(const QString &user_id) { UserColors.remove(user_id); } void Cache::clearUserColors() { UserColors.clear(); }