// SPDX-FileCopyrightText: 2016 Kitsune Ral // SPDX-FileCopyrightText: 2017 Roman Plášil // SPDX-FileCopyrightText: 2017 Marius Gripsgard // SPDX-FileCopyrightText: 2018 Josip Delic // SPDX-FileCopyrightText: 2018 Black Hat // SPDX-FileCopyrightText: 2019 Alexey Andreyev // SPDX-FileCopyrightText: 2020 Ram Nad // SPDX-License-Identifier: LGPL-2.1-or-later #include "room.h" #include "avatar.h" #include "connection.h" #include "converters.h" #include "syncdata.h" #include "user.h" #include "eventstats.h" #include "roomstateview.h" #include "qt_connection_util.h" // NB: since Qt 6, moc_room.cpp needs User fully defined #include "moc_room.cpp" #include "csapi/account-data.h" #include "csapi/banning.h" #include "csapi/inviting.h" #include "csapi/kicking.h" #include "csapi/leaving.h" #include "csapi/read_markers.h" #include "csapi/receipts.h" #include "csapi/redaction.h" #include "csapi/room_send.h" #include "csapi/room_state.h" #include "csapi/room_upgrades.h" #include "csapi/rooms.h" #include "csapi/tags.h" #include "events/callevents.h" #include "events/encryptionevent.h" #include "events/reactionevent.h" #include "events/receiptevent.h" #include "events/redactionevent.h" #include "events/roomavatarevent.h" #include "events/roomcanonicalaliasevent.h" #include "events/roomcreateevent.h" #include "events/roommemberevent.h" #include "events/roompowerlevelsevent.h" #include "events/roomtombstoneevent.h" #include "events/simplestateevents.h" #include "events/typingevent.h" #include "jobs/downloadfilejob.h" #include "jobs/mediathumbnailjob.h" #include #include #include #include #include // for efficient string concats (operator%) #include #include #include #include #ifdef Quotient_E2EE_ENABLED #include "e2ee/e2ee.h" #include "e2ee/qolmaccount.h" #include "e2ee/qolminboundsession.h" #include "e2ee/qolmutility.h" #include "database.h" #endif // Quotient_E2EE_ENABLED using namespace Quotient; using namespace std::placeholders; using std::move; #if !(defined __GLIBCXX__ && __GLIBCXX__ <= 20150123) using std::llround; #endif enum EventsPlacement : int { Older = -1, Newer = 1 }; class Room::Private { public: /// Map of user names to users /** User names potentially duplicate, hence QMultiHash. */ using members_map_t = QMultiHash; Private(Connection* c, QString id_, JoinState initialJoinState) : q(nullptr), connection(c), id(move(id_)), joinState(initialJoinState) {} Room* q; Connection* connection; QString id; JoinState joinState; RoomSummary summary = { none, 0, none }; /// The state of the room at timeline position before-0 /// \sa timelineBase UnorderedMap baseState; /// State event stubs - events without content, just type and state key static decltype(baseState) stubbedState; /// The state of the room at syncEdge() /// \sa syncEdge RoomStateView currentState; /// Servers with aliases for this room except the one of the local user /// \sa Room::remoteAliases QSet aliasServers; Timeline timeline; PendingEvents unsyncedEvents; QHash eventsIndex; // A map from evtId to a map of relation type to a vector of event // pointers. Not using QMultiHash, because we want to quickly return // a number of relations for a given event without enumerating them. QHash, RelatedEvents> relations; QString displayname; Avatar avatar; QHash notifications; qsizetype serverHighlightCount = 0; // Starting up with estimate event statistics as there's zero knowledge // about the timeline. EventStats partiallyReadStats {}, unreadStats {}; members_map_t membersMap; QList usersTyping; QHash> eventIdReadUsers; QList usersInvited; QList membersLeft; bool displayed = false; QString firstDisplayedEventId; QString lastDisplayedEventId; QHash lastReadReceipts; QString fullyReadUntilEventId; TagsMap tags; UnorderedMap accountData; QString prevBatch; QPointer eventsHistoryJob; QPointer allMembersJob; // Map from megolm sessionId to set of eventIds UnorderedMap> undecryptedEvents; struct FileTransferPrivateInfo { FileTransferPrivateInfo() = default; FileTransferPrivateInfo(BaseJob* j, const QString& fileName, bool isUploading = false) : status(FileTransferInfo::Started) , job(j) , localFileInfo(fileName) , isUpload(isUploading) {} FileTransferInfo::Status status = FileTransferInfo::None; QPointer job = nullptr; QFileInfo localFileInfo {}; bool isUpload = false; qint64 progress = 0; qint64 total = -1; void update(qint64 p, qint64 t) { if (t == 0) { t = -1; if (p == 0) p = -1; } if (p != -1) qCDebug(PROFILER) << "Transfer progress:" << p << "/" << t << "=" << llround(double(p) / t * 100) << "%"; progress = p; total = t; } }; void failedTransfer(const QString& tid, const QString& errorMessage = {}) { qCWarning(MAIN) << "File transfer failed for id" << tid; if (!errorMessage.isEmpty()) qCWarning(MAIN) << "Message:" << errorMessage; fileTransfers[tid].status = FileTransferInfo::Failed; emit q->fileTransferFailed(tid, errorMessage); } /// A map from event/txn ids to information about the long operation; /// used for both download and upload operations QHash fileTransfers; const RoomMessageEvent* getEventWithFile(const QString& eventId) const; QString fileNameToDownload(const RoomMessageEvent* event) const; Changes setSummary(RoomSummary&& newSummary); // void inviteUser(User* u); // We might get it at some point in time. void insertMemberIntoMap(User* u); void removeMemberFromMap(User* u); // This updates the room displayname field (which is the way a room // should be shown in the room list); called whenever the list of // members, the room name (m.room.name) or canonical alias change. void updateDisplayname(); // This is used by updateDisplayname() but only calculates the new name // without any updates. QString calculateDisplayname() const; /// A point in the timeline corresponding to baseState rev_iter_t timelineBase() const { return q->findInTimeline(-1); } rev_iter_t historyEdge() const { return timeline.crend(); } Timeline::const_iterator syncEdge() const { return timeline.cend(); } void getPreviousContent(int limit = 10, const QString &filter = {}); const StateEvent* getCurrentState(const StateEventKey& evtKey) const { const auto* evt = currentState.value(evtKey, nullptr); if (!evt) { if (stubbedState.find(evtKey) == stubbedState.end()) { // In the absence of a real event, make a stub as-if an event // with empty content has been received. Event classes should be // prepared for empty/invalid/malicious content anyway. stubbedState.emplace( evtKey, loadEvent(evtKey.first, evtKey.second)); qCDebug(STATE) << "A new stub event created for key {" << evtKey.first << evtKey.second << "}"; qCDebug(STATE) << "Stubbed state size:" << stubbedState.size(); } evt = stubbedState[evtKey].get(); Q_ASSERT(evt); } Q_ASSERT(evt->matrixType() == evtKey.first && evt->stateKey() == evtKey.second); return evt; } template Changes updateStateFrom(EventArrayT&& events) { Changes changes {}; if (!events.empty()) { QElapsedTimer et; et.start(); for (auto&& eptr : events) { const auto& evt = *eptr; Q_ASSERT(evt.isStateEvent()); if (auto change = q->processStateEvent(evt); change) { changes |= change; baseState[{ evt.matrixType(), evt.stateKey() }] = move(eptr); } } if (events.size() > 9 || et.nsecsElapsed() >= profilerMinNsecs()) qCDebug(PROFILER) << "Updated" << q->objectName() << "room state from" << events.size() << "event(s) in" << et; } return changes; } Changes addNewMessageEvents(RoomEvents&& events); void addHistoricalMessageEvents(RoomEvents&& events); Changes updateStatsFromSyncData(const SyncRoomData &data, bool fromCache); void postprocessChanges(Changes changes, bool saveState = true); /** Move events into the timeline * * Insert events into the timeline, either new or historical. * Pointers in the original container become empty, the ownership * is passed to the timeline container. * @param events - the range of events to be inserted * @param placement - position and direction of insertion: Older for * historical messages, Newer for new ones */ Timeline::size_type moveEventsToTimeline(RoomEventsRange events, EventsPlacement placement); /** * Remove events from the passed container that are already in the timeline */ void dropDuplicateEvents(RoomEvents& events) const; void decryptIncomingEvents(RoomEvents& events); //! \brief update last receipt record for a given user //! //! \return previous event id of the receipt if the new receipt changed //! it, or `none` if no change took place Omittable setLastReadReceipt(const QString& userId, rev_iter_t newMarker, ReadReceipt newReceipt = {}); Changes setLocalLastReadReceipt(const rev_iter_t& newMarker, ReadReceipt newReceipt = {}, bool deferStatsUpdate = false); Changes setFullyReadMarker(const QString &eventId); Changes updateStats(const rev_iter_t& from, const rev_iter_t& to); bool markMessagesAsRead(const rev_iter_t& upToMarker); void getAllMembers(); QString sendEvent(RoomEventPtr&& event); template QString sendEvent(ArgTs&&... eventArgs) { return sendEvent(makeEvent(std::forward(eventArgs)...)); } QString doPostFile(RoomEventPtr &&msgEvent, const QUrl &localUrl); RoomEvent* addAsPending(RoomEventPtr&& event); QString doSendEvent(const RoomEvent* pEvent); void onEventSendingFailure(const QString& txnId, BaseJob* call = nullptr); SetRoomStateWithKeyJob* requestSetState(const QString& evtType, const QString& stateKey, const QJsonObject& contentJson) { // if (event.roomId().isEmpty()) // event.setRoomId(id); // if (event.senderId().isEmpty()) // event.setSender(connection->userId()); // TODO: Queue up state events sending (see #133). // TODO: Maybe addAsPending() as well, despite having no txnId return connection->callApi(id, evtType, stateKey, contentJson); } /*! Apply redaction to the timeline * * Tries to find an event in the timeline and redact it; deletes the * redaction event whether the redacted event was found or not. * \return true if the event has been found and redacted; false otherwise */ bool processRedaction(const RedactionEvent& redaction); /*! Apply a new revision of the event to the timeline * * Tries to find an event in the timeline and replace it with the new * content passed in \p newMessage. * \return true if the event has been found and replaced; false otherwise */ bool processReplacement(const RoomMessageEvent& newEvent); void setTags(TagsMap&& newTags); QJsonObject toJson() const; bool isLocalUser(const User* u) const { return u == q->localUser(); } #ifdef Quotient_E2EE_ENABLED UnorderedMap groupSessions; int currentMegolmSessionMessageCount = 0; //TODO save this to database unsigned long long currentMegolmSessionCreationTimestamp = 0; QOlmOutboundGroupSessionPtr currentOutboundMegolmSession = nullptr; bool addInboundGroupSession(QString sessionId, QByteArray sessionKey, const QString& senderId, const QString& olmSessionId) { if (groupSessions.contains(sessionId)) { qCWarning(E2EE) << "Inbound Megolm session" << sessionId << "already exists"; return false; } auto expectedMegolmSession = QOlmInboundGroupSession::create(sessionKey); Q_ASSERT(expectedMegolmSession.has_value()); auto&& megolmSession = *expectedMegolmSession; if (megolmSession->sessionId() != sessionId) { qCWarning(E2EE) << "Session ID mismatch in m.room_key event"; return false; } megolmSession->setSenderId(senderId); megolmSession->setOlmSessionId(olmSessionId); qCWarning(E2EE) << "Adding inbound session"; connection->saveMegolmSession(q, *megolmSession); groupSessions[sessionId] = std::move(megolmSession); return true; } QString groupSessionDecryptMessage(QByteArray cipher, const QString& sessionId, const QString& eventId, QDateTime timestamp, const QString& senderId) { auto groupSessionIt = groupSessions.find(sessionId); if (groupSessionIt == groupSessions.end()) { // qCWarning(E2EE) << "Unable to decrypt event" << eventId // << "The sender's device has not sent us the keys for " // "this message"; return {}; } auto& senderSession = groupSessionIt->second; if (senderSession->senderId() != senderId) { qCWarning(E2EE) << "Sender from event does not match sender from session"; return {}; } auto decryptResult = senderSession->decrypt(cipher); if(!decryptResult) { qCWarning(E2EE) << "Unable to decrypt event" << eventId << "with matching megolm session:" << decryptResult.error(); return {}; } const auto& [content, index] = *decryptResult; const auto& [recordEventId, ts] = q->connection()->database()->groupSessionIndexRecord( q->id(), senderSession->sessionId(), index); if (recordEventId.isEmpty()) { q->connection()->database()->addGroupSessionIndexRecord( q->id(), senderSession->sessionId(), index, eventId, timestamp.toMSecsSinceEpoch()); } else { if ((eventId != recordEventId) || (ts != timestamp.toMSecsSinceEpoch())) { qCWarning(E2EE) << "Detected a replay attack on event" << eventId; return {}; } } return content; } bool shouldRotateMegolmSession() const { const auto* encryptionConfig = currentState.get(); if (!encryptionConfig || !encryptionConfig->useEncryption()) return false; const auto rotationInterval = encryptionConfig->rotationPeriodMs(); const auto rotationMessageCount = encryptionConfig->rotationPeriodMsgs(); return currentOutboundMegolmSession->messageCount() >= rotationMessageCount || currentOutboundMegolmSession->creationTime().addMSecs( rotationInterval) < QDateTime::currentDateTime(); } bool hasValidMegolmSession() const { if (!q->usesEncryption()) { return false; } return currentOutboundMegolmSession != nullptr; } void createMegolmSession() { qCDebug(E2EE) << "Creating new outbound megolm session for room " << q->objectName(); currentOutboundMegolmSession = QOlmOutboundGroupSession::create(); connection->saveCurrentOutboundMegolmSession( id, *currentOutboundMegolmSession); currentOutboundMegolmSession->sessionKey(); addInboundGroupSession(currentOutboundMegolmSession->sessionId(), currentOutboundMegolmSession->sessionKey(), q->localUser()->id(), "SELF"_ls); } QMultiHash getDevicesWithoutKey() const { QMultiHash devices; for (const auto& user : q->users()) for (const auto& deviceId : connection->devicesForUser(user->id())) devices.insert(user->id(), deviceId); return connection->database()->devicesWithoutKey( id, devices, currentOutboundMegolmSession->sessionId()); } #endif // Quotient_E2EE_ENABLED private: using users_shortlist_t = std::array; template users_shortlist_t buildShortlist(const ContT& users) const; users_shortlist_t buildShortlist(const QStringList& userIds) const; }; decltype(Room::Private::baseState) Room::Private::stubbedState {}; Room::Room(Connection* connection, QString id, JoinState initialJoinState) : QObject(connection), d(new Private(connection, id, initialJoinState)) { setObjectName(id); // See "Accessing the Public Class" section in // https://marcmutz.wordpress.com/translated-articles/pimp-my-pimpl-%E2%80%94-reloaded/ d->q = this; d->displayname = d->calculateDisplayname(); // Set initial "Empty room" name #ifdef Quotient_E2EE_ENABLED connectSingleShot(this, &Room::encryption, this, [this, connection](){ connection->encryptionUpdate(this); }); connect(this, &Room::userAdded, this, [this, connection](){ if(usesEncryption()) { connection->encryptionUpdate(this); } }); d->groupSessions = connection->loadRoomMegolmSessions(this); d->currentOutboundMegolmSession = connection->loadCurrentOutboundMegolmSession(this->id()); if (d->shouldRotateMegolmSession()) { d->currentOutboundMegolmSession = nullptr; } connect(this, &Room::userRemoved, this, [this](){ if (!usesEncryption()) { return; } if (d->hasValidMegolmSession()) { d->createMegolmSession(); } qCDebug(E2EE) << "Invalidating current megolm session because user left"; }); connect(this, &Room::beforeDestruction, this, [=](){ connection->database()->clearRoomData(id); }); #endif qCDebug(STATE) << "New" << terse << initialJoinState << "Room:" << id; } Room::~Room() { delete d; } const QString& Room::id() const { return d->id; } QString Room::version() const { const auto v = currentState().query(&RoomCreateEvent::version); return v && !v->isEmpty() ? *v : QStringLiteral("1"); } bool Room::isUnstable() const { return !connection()->loadingCapabilities() && !connection()->stableRoomVersions().contains(version()); } QString Room::predecessorId() const { if (const auto* evt = currentState().get()) return evt->predecessor().roomId; return {}; } Room* Room::predecessor(JoinStates statesFilter) const { if (const auto& predId = predecessorId(); !predId.isEmpty()) if (auto* r = connection()->room(predId, statesFilter); r && r->successorId() == id()) return r; return nullptr; } QString Room::successorId() const { return currentState().queryOr(&RoomTombstoneEvent::successorRoomId, QString()); } Room* Room::successor(JoinStates statesFilter) const { if (const auto& succId = successorId(); !succId.isEmpty()) if (auto* r = connection()->room(succId, statesFilter); r && r->predecessorId() == id()) return r; return nullptr; } const Room::Timeline& Room::messageEvents() const { return d->timeline; } const Room::PendingEvents& Room::pendingEvents() const { return d->unsyncedEvents; } bool Room::allHistoryLoaded() const { return !d->timeline.empty() && is(*d->timeline.front()); } QString Room::name() const { return currentState().content().value; } QStringList Room::aliases() const { if (const auto* evt = currentState().get()) { auto result = evt->altAliases(); if (!evt->alias().isEmpty()) result << evt->alias(); return result; } return {}; } QStringList Room::altAliases() const { return currentState().content().altAliases; } QString Room::canonicalAlias() const { return currentState().queryOr(&RoomCanonicalAliasEvent::alias, QString()); } QString Room::displayName() const { return d->displayname; } QStringList Room::pinnedEventIds() const { return currentState().queryOr(&RoomPinnedEvent::pinnedEvents, QStringList()); } QVector Quotient::Room::pinnedEvents() const { QVector pinnedEvents; for (const auto& evtId : pinnedEventIds()) if (const auto& it = findInTimeline(evtId); it != historyEdge()) pinnedEvents.append(it->event()); return pinnedEvents; } QString Room::displayNameForHtml() const { return displayName().toHtmlEscaped(); } void Room::refreshDisplayName() { d->updateDisplayname(); } QString Room::topic() const { return currentState().queryOr(&RoomTopicEvent::topic, QString()); } QString Room::avatarMediaId() const { return d->avatar.mediaId(); } QUrl Room::avatarUrl() const { return d->avatar.url(); } const Avatar& Room::avatarObject() const { return d->avatar; } QImage Room::avatar(int dimension) { return avatar(dimension, dimension); } QImage Room::avatar(int width, int height) { if (!d->avatar.url().isEmpty()) return d->avatar.get(connection(), width, height, [this] { emit avatarChanged(); }); // Use the first (excluding self) user's avatar for direct chats const auto dcUsers = directChatUsers(); for (auto* u : dcUsers) if (u != localUser()) return u->avatar(width, height, this, [this] { emit avatarChanged(); }); return {}; } User* Room::user(const QString& userId) const { return connection()->user(userId); } JoinState Room::memberJoinState(User* user) const { return d->membersMap.contains(user->name(this), user) ? JoinState::Join : JoinState::Leave; } Membership Room::memberState(const QString& userId) const { return currentState().queryOr(userId, &RoomMemberEvent::membership, Membership::Leave); } bool Room::isMember(const QString& userId) const { return memberState(userId) == Membership::Join; } JoinState Room::joinState() const { return d->joinState; } void Room::setJoinState(JoinState state) { JoinState oldState = d->joinState; if (state == oldState) return; d->joinState = state; qCDebug(STATE) << "Room" << id() << "changed state: " << terse << oldState << "->" << state; emit joinStateChanged(oldState, state); } Omittable Room::Private::setLastReadReceipt(const QString& userId, rev_iter_t newMarker, ReadReceipt newReceipt) { if (newMarker == historyEdge() && !newReceipt.eventId.isEmpty()) newMarker = q->findInTimeline(newReceipt.eventId); if (newMarker != historyEdge()) { // Try to auto-promote the read marker over the user's own messages // (switch to direct iterators for that). const auto eagerMarker = find_if(newMarker.base(), syncEdge(), [=](const TimelineItem& ti) { return ti->senderId() != userId; }); // eagerMarker is now just after the desired event for newMarker if (eagerMarker != newMarker.base()) { newMarker = rev_iter_t(eagerMarker); qDebug(EPHEMERAL) << "Auto-promoted read receipt for" << userId << "to" << *newMarker; } // Fill newReceipt with the event (and, if needed, timestamp) from // eagerMarker newReceipt.eventId = (eagerMarker - 1)->event()->id(); if (newReceipt.timestamp.isNull()) newReceipt.timestamp = QDateTime::currentDateTime(); } auto& storedReceipt = lastReadReceipts[userId]; // clazy:exclude=detaching-member const auto prevEventId = storedReceipt.eventId; // Check that either the new marker is actually "newer" than the current one // or, if both markers are at historyEdge(), event ids are different. // This logic tackles, in particular, the case when the new event is not // found (most likely, because it's too old and hasn't been fetched from // the server yet) but there is a previous marker for a user; in that case, // the previous marker is kept because read receipts are not supposed // to move backwards. If neither new nor old event is found, the new receipt // is blindly stored, in a hope it's also "newer" in the timeline. // NB: with reverse iterators, timeline history edge >= sync edge if (prevEventId == newReceipt.eventId || newMarker > q->findInTimeline(prevEventId)) return {}; // Finally make the change auto oldEventReadUsersIt = eventIdReadUsers.find(prevEventId); // clazy:exclude=detaching-member if (oldEventReadUsersIt != eventIdReadUsers.end()) { oldEventReadUsersIt->remove(userId); if (oldEventReadUsersIt->isEmpty()) eventIdReadUsers.erase(oldEventReadUsersIt); } eventIdReadUsers[newReceipt.eventId].insert(userId); storedReceipt = move(newReceipt); { auto dbg = qDebug(EPHEMERAL); // NB: qCDebug can't be used like that dbg << "The new read receipt for" << userId << "is now at"; if (newMarker == historyEdge()) dbg << storedReceipt.eventId; else dbg << *newMarker; } // NB: This method, unlike setLocalLastReadReceipt, doesn't emit // lastReadEventChanged() to avoid numerous emissions when many read // receipts arrive. It can be called thousands of times during an initial // sync, e.g. // TODO: remove in 0.8 if (const auto member = q->user(userId); !isLocalUser(member)) QT_IGNORE_DEPRECATIONS(emit q->readMarkerForUserMoved( member, prevEventId, storedReceipt.eventId);) return prevEventId; } Room::Changes Room::Private::setLocalLastReadReceipt(const rev_iter_t& newMarker, ReadReceipt newReceipt, bool deferStatsUpdate) { auto prevEventId = setLastReadReceipt(connection->userId(), newMarker, move(newReceipt)); if (!prevEventId) return Change::None; Changes changes = Change::Other; if (!deferStatsUpdate) { if (unreadStats.updateOnMarkerMove(q, q->findInTimeline(*prevEventId), newMarker)) { qDebug(MESSAGES) << "Updated unread event statistics in" << q->objectName() << "after moving the local read receipt:" << unreadStats; changes |= Change::UnreadStats; } Q_ASSERT(unreadStats.isValidFor(q, newMarker)); // post-check } emit q->lastReadEventChanged({ connection->userId() }); return changes; } Room::Changes Room::Private::updateStats(const rev_iter_t& from, const rev_iter_t& to) { Q_ASSERT(from >= timeline.crbegin() && from <= timeline.crend()); Q_ASSERT(to >= from && to <= timeline.crend()); const auto fullyReadMarker = q->fullyReadMarker(); auto readReceiptMarker = q->localReadReceiptMarker(); Changes changes = Change::None; // Correct the read receipt to never be behind the fully read marker if (readReceiptMarker > fullyReadMarker && setLocalLastReadReceipt(fullyReadMarker, {}, true)) { changes |= Change::Other; readReceiptMarker = q->localReadReceiptMarker(); qCInfo(MESSAGES) << "The local m.read receipt was behind m.fully_read " "marker - it's now corrected to be at index" << readReceiptMarker->index(); } if (fullyReadMarker < from) return Change::None; // What's arrived is already fully read // If there's no read marker in the whole room, initialise it if (fullyReadMarker == historyEdge() && q->allHistoryLoaded()) return setFullyReadMarker(timeline.front()->id()); // Catch a case when the id in the last fully read marker or the local read // receipt refers to an event that has just arrived. In this case either // one (unreadStats) or both statistics should be recalculated to get // an exact number instead of an estimation (see documentation on // EventStats::isEstimate). For the same reason (switching from the // estimate to the exact number) this branch forces returning // Change::UnreadStats and also possibly Change::PartiallyReadStats, even if // the estimation luckily matched the exact result. if (readReceiptMarker < to || changes /*i.e. read receipt was corrected*/) { unreadStats = EventStats::fromMarker(q, readReceiptMarker); Q_ASSERT(!unreadStats.isEstimate); qCDebug(MESSAGES).nospace() << "Recalculated unread event statistics in" << q->objectName() << ": " << unreadStats; changes |= Change::UnreadStats; if (fullyReadMarker < to) { // Add up to unreadStats instead of counting same events again partiallyReadStats = EventStats::fromRange(q, readReceiptMarker, q->fullyReadMarker(), unreadStats); Q_ASSERT(!partiallyReadStats.isEstimate); qCDebug(MESSAGES).nospace() << "Recalculated partially read event statistics in " << q->objectName() << ": " << partiallyReadStats; return changes | Change::PartiallyReadStats; } } // As of here, at least the fully read marker (but maybe also read receipt) // points to somewhere beyond the "oldest" message from the arrived batch - // add up newly arrived messages to the current stats, instead of a complete // recalculation. Q_ASSERT(fullyReadMarker >= to); const auto newStats = EventStats::fromRange(q, from, to); Q_ASSERT(!newStats.isEstimate); if (newStats.empty()) return changes; const auto doAddStats = [this, &changes, newStats](EventStats& s, const rev_iter_t& marker, Change c) { s.notableCount += newStats.notableCount; s.highlightCount += newStats.highlightCount; if (!s.isEstimate) s.isEstimate = marker == historyEdge(); changes |= c; }; doAddStats(partiallyReadStats, fullyReadMarker, Change::PartiallyReadStats); if (readReceiptMarker >= to) { // readReceiptMarker < to branch shouldn't have been entered Q_ASSERT(!changes.testFlag(Change::UnreadStats)); doAddStats(unreadStats, readReceiptMarker, Change::UnreadStats); } qCDebug(MESSAGES) << "Room" << q->objectName() << "has gained" << newStats << "notable/highlighted event(s); total statistics:" << partiallyReadStats << "since the fully read marker," << unreadStats << "since read receipt"; // Check invariants Q_ASSERT(partiallyReadStats.isValidFor(q, fullyReadMarker)); Q_ASSERT(unreadStats.isValidFor(q, readReceiptMarker)); return changes; } Room::Changes Room::Private::setFullyReadMarker(const QString& eventId) { if (fullyReadUntilEventId == eventId) return Change::None; const auto prevReadMarker = q->fullyReadMarker(); const auto newReadMarker = q->findInTimeline(eventId); if (newReadMarker > prevReadMarker) return Change::None; const auto prevFullyReadId = std::exchange(fullyReadUntilEventId, eventId); qCDebug(MESSAGES) << "Fully read marker in" << q->objectName() // << "set to" << fullyReadUntilEventId; QT_IGNORE_DEPRECATIONS(Changes changes = Change::ReadMarker|Change::Other;) if (const auto rm = q->fullyReadMarker(); rm != historyEdge()) { // Pull read receipt if it's behind, and update statistics changes |= setLocalLastReadReceipt(rm); if (partiallyReadStats.updateOnMarkerMove(q, prevReadMarker, rm)) { changes |= Change::PartiallyReadStats; qCDebug(MESSAGES) << "Updated partially read event statistics in" << q->objectName() << "after moving m.fully_read marker: " << partiallyReadStats; } Q_ASSERT(partiallyReadStats.isValidFor(q, rm)); // post-check } emit q->fullyReadMarkerMoved(prevFullyReadId, fullyReadUntilEventId); // TODO: Remove in 0.8 QT_IGNORE_DEPRECATIONS( emit q->readMarkerMoved(prevFullyReadId, fullyReadUntilEventId);) return changes; } void Room::setReadReceipt(const QString& atEventId) { if (const auto changes = d->setLocalLastReadReceipt(historyEdge(), { atEventId })) { connection()->callApi(BackgroundRequest, id(), QStringLiteral("m.read"), QUrl::toPercentEncoding(atEventId)); d->postprocessChanges(changes); } else qCDebug(EPHEMERAL) << "The new read receipt for" << localUser()->id() << "in" << objectName() << "is at or behind the old one, skipping"; } bool Room::Private::markMessagesAsRead(const rev_iter_t &upToMarker) { if (upToMarker == q->historyEdge()) qCWarning(MESSAGES) << "Cannot mark an unknown event in" << q->objectName() << "as fully read"; else if (const auto changes = setFullyReadMarker(upToMarker->event()->id())) { // The assumption below is that if a read receipt was sent on a newer // event, the homeserver will keep it there instead of reverting to // m.fully_read connection->callApi(BackgroundRequest, id, fullyReadUntilEventId, fullyReadUntilEventId); postprocessChanges(changes); return true; } else qCDebug(MESSAGES) << "Event" << *upToMarker << "in" << q->objectName() << "is behind the current fully read marker at" << *q->fullyReadMarker() << "- won't move fully read marker back in timeline"; return false; } void Room::markMessagesAsRead(const QString& uptoEventId) { d->markMessagesAsRead(findInTimeline(uptoEventId)); } void Room::markAllMessagesAsRead() { d->markMessagesAsRead(d->timeline.crbegin()); } bool Room::canSwitchVersions() const { if (!successorId().isEmpty()) return false; // No one can upgrade a room that's already upgraded if (const auto* plEvt = currentState().get()) { const auto currentUserLevel = plEvt->powerLevelForUser(localUser()->id()); const auto tombstonePowerLevel = plEvt->powerLevelForState("m.room.tombstone"_ls); return currentUserLevel >= tombstonePowerLevel; } return true; } bool Room::isEventNotable(const TimelineItem &ti) const { const auto& evt = *ti; const auto* rme = ti.viewAs(); return !evt.isRedacted() && (is(evt) || is(evt) || is(evt) || is(evt) || (rme && rme->msgtype() != MessageEventType::Notice && rme->replacedEvent().isEmpty())) && evt.senderId() != localUser()->id(); } Notification Room::notificationFor(const TimelineItem &ti) const { return d->notifications.value(ti->id()); } Notification Room::checkForNotifications(const TimelineItem &ti) { return { Notification::None }; } bool Room::hasUnreadMessages() const { return !d->partiallyReadStats.empty(); } int countFromStats(const EventStats& s) { return s.empty() ? -1 : int(s.notableCount); } int Room::unreadCount() const { return countFromStats(partiallyReadStats()); } EventStats Room::partiallyReadStats() const { return d->partiallyReadStats; } EventStats Room::unreadStats() const { return d->unreadStats; } Room::rev_iter_t Room::historyEdge() const { return d->historyEdge(); } Room::Timeline::const_iterator Room::syncEdge() const { return d->syncEdge(); } TimelineItem::index_t Room::minTimelineIndex() const { return d->timeline.empty() ? 0 : d->timeline.front().index(); } TimelineItem::index_t Room::maxTimelineIndex() const { return d->timeline.empty() ? 0 : d->timeline.back().index(); } bool Room::isValidIndex(TimelineItem::index_t timelineIndex) const { return !d->timeline.empty() && timelineIndex >= minTimelineIndex() && timelineIndex <= maxTimelineIndex(); } Room::rev_iter_t Room::findInTimeline(TimelineItem::index_t index) const { return historyEdge() - (isValidIndex(index) ? index - minTimelineIndex() + 1 : 0); } Room::rev_iter_t Room::findInTimeline(const QString& evtId) const { if (!d->timeline.empty() && d->eventsIndex.contains(evtId)) { auto it = findInTimeline(d->eventsIndex.value(evtId)); Q_ASSERT(it != historyEdge() && (*it)->id() == evtId); return it; } return historyEdge(); } Room::PendingEvents::iterator Room::findPendingEvent(const QString& txnId) { return std::find_if(d->unsyncedEvents.begin(), d->unsyncedEvents.end(), [txnId](const auto& item) { return item->transactionId() == txnId; }); } Room::PendingEvents::const_iterator Room::findPendingEvent(const QString& txnId) const { return std::find_if(d->unsyncedEvents.cbegin(), d->unsyncedEvents.cend(), [txnId](const auto& item) { return item->transactionId() == txnId; }); } const Room::RelatedEvents Room::relatedEvents( const QString& evtId, EventRelation::reltypeid_t relType) const { return d->relations.value({ evtId, relType }); } const Room::RelatedEvents Room::relatedEvents( const RoomEvent& evt, EventRelation::reltypeid_t relType) const { return relatedEvents(evt.id(), relType); } const RoomCreateEvent* Room::creation() const { return currentState().get(); } const RoomTombstoneEvent *Room::tombstone() const { return currentState().get(); } void Room::Private::getAllMembers() { // If already loaded or already loading, there's nothing to do here. if (q->joinedCount() <= membersMap.size() || isJobPending(allMembersJob)) return; allMembersJob = connection->callApi( id, connection->nextBatchToken(), "join"); auto nextIndex = timeline.empty() ? 0 : timeline.back().index() + 1; connect(allMembersJob, &BaseJob::success, q, [this, nextIndex] { Q_ASSERT(timeline.empty() || nextIndex <= q->maxTimelineIndex() + 1); auto roomChanges = updateStateFrom(allMembersJob->chunk()); // Replay member events that arrived after the point for which // the full members list was requested. if (!timeline.empty()) for (auto it = q->findInTimeline(nextIndex).base(); it != syncEdge(); ++it) if (is(**it)) roomChanges |= q->processStateEvent(**it); postprocessChanges(roomChanges); emit q->allMembersLoaded(); }); } bool Room::displayed() const { return d->displayed; } void Room::setDisplayed(bool displayed) { if (d->displayed == displayed) return; d->displayed = displayed; emit displayedChanged(displayed); if (displayed) d->getAllMembers(); } QString Room::firstDisplayedEventId() const { return d->firstDisplayedEventId; } Room::rev_iter_t Room::firstDisplayedMarker() const { return findInTimeline(firstDisplayedEventId()); } void Room::setFirstDisplayedEventId(const QString& eventId) { if (d->firstDisplayedEventId == eventId) return; if (!eventId.isEmpty() && findInTimeline(eventId) == historyEdge()) qCWarning(MESSAGES) << eventId << "is marked as first displayed but doesn't seem to be loaded"; d->firstDisplayedEventId = eventId; emit firstDisplayedEventChanged(); } void Room::setFirstDisplayedEvent(TimelineItem::index_t index) { Q_ASSERT(isValidIndex(index)); setFirstDisplayedEventId(findInTimeline(index)->event()->id()); } QString Room::lastDisplayedEventId() const { return d->lastDisplayedEventId; } Room::rev_iter_t Room::lastDisplayedMarker() const { return findInTimeline(lastDisplayedEventId()); } void Room::setLastDisplayedEventId(const QString& eventId) { if (d->lastDisplayedEventId == eventId) return; const auto marker = findInTimeline(eventId); if (!eventId.isEmpty() && marker == historyEdge()) qCWarning(MESSAGES) << eventId << "is marked as last displayed but doesn't seem to be loaded"; d->lastDisplayedEventId = eventId; emit lastDisplayedEventChanged(); } void Room::setLastDisplayedEvent(TimelineItem::index_t index) { Q_ASSERT(isValidIndex(index)); setLastDisplayedEventId(findInTimeline(index)->event()->id()); } Room::rev_iter_t Room::readMarker(const User* user) const { Q_ASSERT(user); return findInTimeline(lastReadReceipt(user->id()).eventId); } Room::rev_iter_t Room::readMarker() const { return fullyReadMarker(); } QString Room::readMarkerEventId() const { return lastFullyReadEventId(); } ReadReceipt Room::lastReadReceipt(const QString& userId) const { return d->lastReadReceipts.value(userId); } ReadReceipt Room::lastLocalReadReceipt() const { return d->lastReadReceipts.value(localUser()->id()); } Room::rev_iter_t Room::localReadReceiptMarker() const { return findInTimeline(lastLocalReadReceipt().eventId); } QString Room::lastFullyReadEventId() const { return d->fullyReadUntilEventId; } Room::rev_iter_t Room::fullyReadMarker() const { return findInTimeline(d->fullyReadUntilEventId); } QSet Room::userIdsAtEvent(const QString& eventId) { return d->eventIdReadUsers.value(eventId); } QSet Room::usersAtEventId(const QString& eventId) { const auto& userIds = d->eventIdReadUsers.value(eventId); QSet users; users.reserve(userIds.size()); for (const auto& uId : userIds) users.insert(user(uId)); return users; } qsizetype Room::notificationCount() const { return d->unreadStats.notableCount; } void Room::resetNotificationCount() { if (d->unreadStats.notableCount == 0) return; d->unreadStats.notableCount = 0; emit notificationCountChanged(); } qsizetype Room::highlightCount() const { return d->serverHighlightCount; } void Room::resetHighlightCount() { if (d->serverHighlightCount == 0) return; d->serverHighlightCount = 0; emit highlightCountChanged(); } void Room::switchVersion(QString newVersion) { if (!successorId().isEmpty()) { Q_ASSERT(!successorId().isEmpty()); emit upgradeFailed(tr("The room is already upgraded")); } if (auto* job = connection()->callApi(id(), newVersion)) connect(job, &BaseJob::failure, this, [this, job] { emit upgradeFailed(job->errorString()); }); else emit upgradeFailed(tr("Couldn't initiate upgrade")); } bool Room::hasAccountData(const QString& type) const { return d->accountData.find(type) != d->accountData.end(); } const EventPtr& Room::accountData(const QString& type) const { static EventPtr NoEventPtr {}; const auto it = d->accountData.find(type); return it != d->accountData.end() ? it->second : NoEventPtr; } QStringList Room::tagNames() const { return d->tags.keys(); } TagsMap Room::tags() const { return d->tags; } TagRecord Room::tag(const QString& name) const { return d->tags.value(name); } std::pair validatedTag(QString name) { if (name.isEmpty() || name.indexOf('.', 1) != -1) return { false, name }; qCWarning(MAIN) << "The tag" << name << "doesn't follow the CS API conventions"; name.prepend("u."); qCWarning(MAIN) << "Using " << name << "instead"; return { true, name }; } void Room::addTag(const QString& name, const TagRecord& record) { const auto& checkRes = validatedTag(name); if (d->tags.contains(name) || (checkRes.first && d->tags.contains(checkRes.second))) return; emit tagsAboutToChange(); d->tags.insert(checkRes.second, record); emit tagsChanged(); connection()->callApi(localUser()->id(), id(), checkRes.second, record.order); } void Room::addTag(const QString& name, float order) { addTag(name, TagRecord { order }); } void Room::removeTag(const QString& name) { if (d->tags.contains(name)) { emit tagsAboutToChange(); d->tags.remove(name); emit tagsChanged(); connection()->callApi(localUser()->id(), id(), name); } else if (!name.startsWith("u.")) removeTag("u." + name); else qCWarning(MAIN) << "Tag" << name << "on room" << objectName() << "not found, nothing to remove"; } void Room::setTags(TagsMap newTags, ActionScope applyOn) { bool propagate = applyOn != ActionScope::ThisRoomOnly; auto joinStates = applyOn == ActionScope::WithinSameState ? joinState() : applyOn == ActionScope::OmitLeftState ? JoinState::Join|JoinState::Invite : JoinState::Join|JoinState::Invite|JoinState::Leave; if (propagate) { for (auto* r = this; (r = r->predecessor(joinStates));) r->setTags(newTags, ActionScope::ThisRoomOnly); } d->setTags(move(newTags)); connection()->callApi( localUser()->id(), id(), TagEvent::TypeId, Quotient::toJson(TagEvent::content_type { d->tags })); if (propagate) { for (auto* r = this; (r = r->successor(joinStates));) r->setTags(d->tags, ActionScope::ThisRoomOnly); } } void Room::Private::setTags(TagsMap&& newTags) { emit q->tagsAboutToChange(); const auto keys = newTags.keys(); for (const auto& k : keys) if (const auto& [adjusted, adjustedTag] = validatedTag(k); adjusted) { if (newTags.contains(adjustedTag)) newTags.remove(k); else newTags.insert(adjustedTag, newTags.take(k)); } tags = move(newTags); qCDebug(STATE) << "Room" << q->objectName() << "is tagged with" << q->tagNames().join(QStringLiteral(", ")); emit q->tagsChanged(); } bool Room::isFavourite() const { return d->tags.contains(FavouriteTag); } bool Room::isLowPriority() const { return d->tags.contains(LowPriorityTag); } bool Room::isServerNoticeRoom() const { return d->tags.contains(ServerNoticeTag); } bool Room::isDirectChat() const { return connection()->isDirectChat(id()); } QList Room::directChatUsers() const { return connection()->directChatUsers(this); } QUrl Room::makeMediaUrl(const QString& eventId, const QUrl& mxcUrl) const { auto url = connection()->makeMediaUrl(mxcUrl); QUrlQuery q(url.query()); Q_ASSERT(q.hasQueryItem("user_id")); q.addQueryItem("room_id", id()); q.addQueryItem("event_id", eventId); url.setQuery(q); return url; } QString safeFileName(QString rawName) { return rawName.replace(QRegularExpression("[/\\<>|\"*?:]"), "_"); } const RoomMessageEvent* Room::Private::getEventWithFile(const QString& eventId) const { auto evtIt = q->findInTimeline(eventId); if (evtIt != timeline.rend() && is(**evtIt)) { auto* event = evtIt->viewAs(); if (event->hasFileContent()) return event; } qCWarning(MAIN) << "No files to download in event" << eventId; return nullptr; } QString Room::Private::fileNameToDownload(const RoomMessageEvent* event) const { Q_ASSERT(event && event->hasFileContent()); const auto* fileInfo = event->content()->fileInfo(); QString fileName; if (!fileInfo->originalName.isEmpty()) fileName = QFileInfo(safeFileName(fileInfo->originalName)).fileName(); else if (QUrl u { event->plainBody() }; u.isValid()) { qDebug(MAIN) << event->id() << "has no file name supplied but the event body " "looks like a URL - using the file name from it"; fileName = u.fileName(); } if (fileName.isEmpty()) return safeFileName(fileInfo->mediaId()).replace('.', '-') % '.' % fileInfo->mimeType.preferredSuffix(); if (QSysInfo::productType() == "windows") { if (const auto& suffixes = fileInfo->mimeType.suffixes(); !suffixes.isEmpty() && std::none_of(suffixes.begin(), suffixes.end(), [&fileName](const QString& s) { return fileName.endsWith(s); })) return fileName % '.' % fileInfo->mimeType.preferredSuffix(); } return fileName; } QUrl Room::urlToThumbnail(const QString& eventId) const { if (auto* event = d->getEventWithFile(eventId)) if (event->hasThumbnail()) { auto* thumbnail = event->content()->thumbnailInfo(); Q_ASSERT(thumbnail != nullptr); return connection()->getUrlForApi( thumbnail->url(), thumbnail->imageSize); } qCDebug(MAIN) << "Event" << eventId << "has no thumbnail"; return {}; } QUrl Room::urlToDownload(const QString& eventId) const { if (auto* event = d->getEventWithFile(eventId)) { auto* fileInfo = event->content()->fileInfo(); Q_ASSERT(fileInfo != nullptr); return connection()->getUrlForApi(fileInfo->url()); } return {}; } QString Room::fileNameToDownload(const QString& eventId) const { if (auto* event = d->getEventWithFile(eventId)) return d->fileNameToDownload(event); return {}; } FileTransferInfo Room::fileTransferInfo(const QString& id) const { const auto infoIt = d->fileTransfers.constFind(id); if (infoIt == d->fileTransfers.cend()) return {}; // FIXME: Add lib tests to make sure FileTransferInfo::status stays // consistent with FileTransferInfo::job qint64 progress = infoIt->progress; qint64 total = infoIt->total; if (total > INT_MAX) { // JavaScript doesn't deal with 64-bit integers; scale down if necessary progress = llround(double(progress) / total * INT_MAX); total = INT_MAX; } return { infoIt->status, infoIt->isUpload, int(progress), int(total), QUrl::fromLocalFile(infoIt->localFileInfo.absolutePath()), QUrl::fromLocalFile(infoIt->localFileInfo.absoluteFilePath()) }; } QUrl Room::fileSource(const QString& id) const { auto url = urlToDownload(id); if (url.isValid()) return url; // No urlToDownload means it's a pending or completed upload. auto infoIt = d->fileTransfers.constFind(id); if (infoIt != d->fileTransfers.cend()) return QUrl::fromLocalFile(infoIt->localFileInfo.absoluteFilePath()); qCWarning(MAIN) << "File source for identifier" << id << "not found"; return {}; } QString Room::prettyPrint(const QString& plainText) const { return Quotient::prettyPrint(plainText); } QList Room::usersTyping() const { return d->usersTyping; } QList Room::membersLeft() const { return d->membersLeft; } QList Room::users() const { return d->membersMap.values(); } QStringList Room::memberNames() const { return safeMemberNames(); } QStringList Room::safeMemberNames() const { QStringList res; res.reserve(d->membersMap.size()); for (const auto* u: std::as_const(d->membersMap)) res.append(safeMemberName(u->id())); return res; } QStringList Room::htmlSafeMemberNames() const { QStringList res; res.reserve(d->membersMap.size()); for (const auto* u: std::as_const(d->membersMap)) res.append(htmlSafeMemberName(u->id())); return res; } int Room::timelineSize() const { return int(d->timeline.size()); } bool Room::usesEncryption() const { return !currentState() .queryOr(&EncryptionEvent::algorithm, QString()) .isEmpty(); } const StateEvent* Room::getCurrentState(const QString& evtType, const QString& stateKey) const { return d->getCurrentState({ evtType, stateKey }); } RoomStateView Room::currentState() const { return d->currentState; } RoomEventPtr Room::decryptMessage(const EncryptedEvent& encryptedEvent) { #ifndef Quotient_E2EE_ENABLED Q_UNUSED(encryptedEvent) qCWarning(E2EE) << "End-to-end encryption (E2EE) support is turned off."; return {}; #else // Quotient_E2EE_ENABLED if (encryptedEvent.algorithm() != MegolmV1AesSha2AlgoKey) { qWarning(E2EE) << "Algorithm of the encrypted event with id" << encryptedEvent.id() << "is not decryptable by the current device"; return {}; } QString decrypted = d->groupSessionDecryptMessage( encryptedEvent.ciphertext(), encryptedEvent.sessionId(), encryptedEvent.id(), encryptedEvent.originTimestamp(), encryptedEvent.senderId()); if (decrypted.isEmpty()) { // qCWarning(E2EE) << "Encrypted message is empty"; return {}; } auto decryptedEvent = encryptedEvent.createDecrypted(decrypted); if (decryptedEvent->roomId() == id()) { return decryptedEvent; } qCWarning(E2EE) << "Decrypted event" << encryptedEvent.id() << "not for this room; discarding."; return {}; #endif // Quotient_E2EE_ENABLED } void Room::handleRoomKeyEvent(const RoomKeyEvent& roomKeyEvent, const QString& senderId, const QString& olmSessionId) { #ifndef Quotient_E2EE_ENABLED Q_UNUSED(roomKeyEvent) Q_UNUSED(senderId) Q_UNUSED(olmSessionId) qCWarning(E2EE) << "End-to-end encryption (E2EE) support is turned off."; #else // Quotient_E2EE_ENABLED if (roomKeyEvent.algorithm() != MegolmV1AesSha2AlgoKey) { qCWarning(E2EE) << "Ignoring unsupported algorithm" << roomKeyEvent.algorithm() << "in m.room_key event"; } if (d->addInboundGroupSession(roomKeyEvent.sessionId(), roomKeyEvent.sessionKey(), senderId, olmSessionId)) { qCWarning(E2EE) << "added new inboundGroupSession:" << d->groupSessions.size(); auto undecryptedEvents = d->undecryptedEvents[roomKeyEvent.sessionId()]; for (const auto& eventId : undecryptedEvents) { const auto pIdx = d->eventsIndex.constFind(eventId); if (pIdx == d->eventsIndex.cend()) continue; auto& ti = d->timeline[Timeline::size_type(*pIdx - minTimelineIndex())]; if (auto encryptedEvent = ti.viewAs()) { if (auto decrypted = decryptMessage(*encryptedEvent)) { // The reference will survive the pointer being moved auto& decryptedEvent = *decrypted; auto oldEvent = ti.replaceEvent(std::move(decrypted)); decryptedEvent.setOriginalEvent(std::move(oldEvent)); emit replacedEvent(ti.event(), decryptedEvent.originalEvent()); d->undecryptedEvents[roomKeyEvent.sessionId()] -= eventId; } } } } #endif // Quotient_E2EE_ENABLED } int Room::joinedCount() const { return d->summary.joinedMemberCount.value_or(d->membersMap.size()); } int Room::invitedCount() const { // TODO: Store invited users in Room too Q_ASSERT(d->summary.invitedMemberCount.has_value()); return d->summary.invitedMemberCount.value_or(0); } int Room::totalMemberCount() const { return joinedCount() + invitedCount(); } GetRoomEventsJob* Room::eventsHistoryJob() const { return d->eventsHistoryJob; } Room::Changes Room::Private::setSummary(RoomSummary&& newSummary) { if (!summary.merge(newSummary)) return Change::None; qCDebug(STATE).nospace().noquote() << "Updated room summary for " << q->objectName() << ": " << summary; return Change::Summary; } void Room::Private::insertMemberIntoMap(User* u) { const auto maybeUserName = currentState.query(u->id(), &RoomMemberEvent::newDisplayName); if (!maybeUserName) qCWarning(MEMBERS) << "insertMemberIntoMap():" << u->id() << "has no name (even empty)"; const auto userName = maybeUserName.value_or(QString()); const auto namesakes = membersMap.values(userName); qCDebug(MEMBERS) << "insertMemberIntoMap(), user" << u->id() << "with name" << userName << '-' << namesakes.size() << "namesake(s) found"; // Callers should make sure they are not adding an existing user once more Q_ASSERT(!namesakes.contains(u)); if (namesakes.contains(u)) { // Release version whines but continues qCCritical(MEMBERS) << "Trying to add a user" << u->id() << "to room" << q->objectName() << "but that's already in it"; return; } // If there is exactly one namesake of the added user, signal member // renaming for that other one because the two should be disambiguated now if (namesakes.size() == 1) emit q->memberAboutToRename(namesakes.front(), namesakes.front()->fullName(q)); membersMap.insert(userName, u); if (namesakes.size() == 1) emit q->memberRenamed(namesakes.front()); } void Room::Private::removeMemberFromMap(User* u) { const auto userName = currentState.queryOr(u->id(), &RoomMemberEvent::newDisplayName, QString()); qCDebug(MEMBERS) << "removeMemberFromMap(), username" << userName << "for user" << u->id(); User* namesake = nullptr; auto namesakes = membersMap.values(userName); // If there was one namesake besides the removed user, signal member // renaming for it because it doesn't need to be disambiguated any more. if (namesakes.size() == 2) { namesake = namesakes.front() == u ? namesakes.back() : namesakes.front(); Q_ASSERT_X(namesake != u, __FUNCTION__, "Room members list is broken"); emit q->memberAboutToRename(namesake, userName); } if (membersMap.remove(userName, u) == 0) { qCDebug(MEMBERS) << "No entries removed; checking the whole list"; // Unless at the stage of initial filling, this no removed entries // is suspicious; double-check that this user is not found in // the whole map, and stop (for debug builds) or shout in the logs // (for release builds) if there's one. That search is O(n), which // may come rather expensive for larger rooms. QElapsedTimer et; auto it = std::find(membersMap.cbegin(), membersMap.cend(), u); if (et.nsecsElapsed() > profilerMinNsecs() / 10) qCDebug(MEMBERS) << "...done in" << et; if (it != membersMap.cend()) { // The assert (still) does more harm than good, it seems // Q_ASSERT_X(false, __FUNCTION__, // "Mismatched name in the room members list"); qCCritical(MEMBERS) << "Mismatched name in the room members list;" " avoiding the list corruption"; membersMap.remove(it.key(), u); } } if (namesake) emit q->memberRenamed(namesake); } inline auto makeErrorStr(const Event& e, QByteArray msg) { return msg.append("; event dump follows:\n") .append(QJsonDocument(e.fullJson()).toJson()); } Room::Timeline::size_type Room::Private::moveEventsToTimeline(RoomEventsRange events, EventsPlacement placement) { Q_ASSERT(!events.empty()); // Historical messages arrive in newest-to-oldest order, so the process for // them is almost symmetric to the one for new messages. New messages get // appended from index 0; old messages go backwards from index -1. auto index = timeline.empty() ? -((placement + 1) / 2) /* 1 -> -1; -1 -> 0 */ : placement == Older ? timeline.front().index() : timeline.back().index(); auto baseIndex = index; for (auto&& e : events) { const auto eId = e->id(); Q_ASSERT_X(e, __FUNCTION__, "Attempt to add nullptr to timeline"); Q_ASSERT_X( !eId.isEmpty(), __FUNCTION__, makeErrorStr(*e, "Event with empty id cannot be in the timeline")); Q_ASSERT_X( !eventsIndex.contains(eId), __FUNCTION__, makeErrorStr(*e, "Event is already in the timeline; " "incoming events were not properly deduplicated")); const auto& ti = placement == Older ? timeline.emplace_front(move(e), --index) : timeline.emplace_back(move(e), ++index); eventsIndex.insert(eId, index); if (auto n = q->checkForNotifications(ti); n.type != Notification::None) notifications.insert(e->id(), n); Q_ASSERT(q->findInTimeline(eId)->event()->id() == eId); } const auto insertedSize = (index - baseIndex) * placement; Q_ASSERT(insertedSize == int(events.size())); return Timeline::size_type(insertedSize); } QString Room::memberName(const QString& mxId) const { // See https://github.com/matrix-org/matrix-doc/issues/1375 if (const auto rme = currentState().get(mxId)) { if (rme->newDisplayName()) return *rme->newDisplayName(); if (rme->prevContent() && rme->prevContent()->displayName) return *rme->prevContent()->displayName; } return {}; } QString Room::roomMembername(const User* u) const { Q_ASSERT(u != nullptr); return disambiguatedMemberName(u->id()); } QString Room::roomMembername(const QString& userId) const { return disambiguatedMemberName(userId); } inline QString makeFullUserName(const QString& displayName, const QString& mxId) { return displayName % " (" % mxId % ')'; } QString Room::disambiguatedMemberName(const QString& mxId) const { // See the CS spec, section 11.2.2.3 const auto username = memberName(mxId); if (username.isEmpty()) return mxId; auto namesakesIt = qAsConst(d->membersMap).find(username); // We expect a user to be a member of the room - but technically it is // possible to invoke this function even for non-members. In such case // we return the full name, just in case. if (namesakesIt == d->membersMap.cend()) return makeFullUserName(username, mxId); auto nextUserIt = namesakesIt; if (++nextUserIt == d->membersMap.cend() || nextUserIt.key() != username) return username; // No disambiguation necessary return makeFullUserName(username, mxId); // Disambiguate fully } QString Room::safeMemberName(const QString& userId) const { return sanitized(disambiguatedMemberName(userId)); } QString Room::htmlSafeMemberName(const QString& userId) const { return safeMemberName(userId).toHtmlEscaped(); } QUrl Room::memberAvatarUrl(const QString &mxId) const { // See https://github.com/matrix-org/matrix-doc/issues/1375 if (const auto rme = currentState().get(mxId)) { if (rme->newAvatarUrl()) return *rme->newAvatarUrl(); if (rme->prevContent() && rme->prevContent()->avatarUrl) return *rme->prevContent()->avatarUrl; } return {}; } Room::Changes Room::Private::updateStatsFromSyncData(const SyncRoomData& data, bool fromCache) { Changes changes {}; if (fromCache) { // Initial load of cached statistics partiallyReadStats = EventStats::fromCachedCounters(data.partiallyReadCount); unreadStats = EventStats::fromCachedCounters(data.unreadCount, data.highlightCount); // Migrate from lib 0.6: -1 in the old unread counter overrides 0 // (which loads to an estimate) in notification_count. Next caching will // save -1 in both places, completing the migration. if (data.unreadCount == 0 && data.partiallyReadCount == -1) unreadStats.isEstimate = false; changes |= Change::PartiallyReadStats | Change::UnreadStats; qCDebug(MESSAGES) << "Loaded" << q->objectName() << "event statistics from cache:" << partiallyReadStats << "since m.fully_read," << unreadStats << "since m.read"; } else if (timeline.empty()) { // In absence of actual events use statistics from the homeserver if (merge(unreadStats.notableCount, data.unreadCount)) changes |= Change::PartiallyReadStats; if (merge(unreadStats.highlightCount, data.highlightCount)) changes |= Change::UnreadStats; unreadStats.isEstimate = !data.unreadCount.has_value() || *data.unreadCount > 0; qCDebug(MESSAGES) << "Using server-side unread event statistics while the" << q->objectName() << "timeline is empty:" << unreadStats; } bool correctedStats = false; if (unreadStats.highlightCount > partiallyReadStats.highlightCount) { correctedStats = true; partiallyReadStats.highlightCount = unreadStats.highlightCount; partiallyReadStats.isEstimate |= unreadStats.isEstimate; } if (unreadStats.notableCount > partiallyReadStats.notableCount) { correctedStats = true; partiallyReadStats.notableCount = unreadStats.notableCount; partiallyReadStats.isEstimate |= unreadStats.isEstimate; } if (!unreadStats.isEstimate && partiallyReadStats.isEstimate) { correctedStats = true; partiallyReadStats.isEstimate = true; } if (correctedStats) qCDebug(MESSAGES) << "Partially read event statistics in" << q->objectName() << "were adjusted to" << partiallyReadStats << "to be consistent with the m.read receipt"; Q_ASSERT(partiallyReadStats.isValidFor(q, q->fullyReadMarker())); Q_ASSERT(unreadStats.isValidFor(q, q->localReadReceiptMarker())); // TODO: Once the library learns to count highlights, drop // serverHighlightCount and only use the server-side counter when // the timeline is empty (see the code above). if (merge(serverHighlightCount, data.highlightCount)) { qCDebug(MESSAGES) << "Updated highlights number in" << q->objectName() << "to" << serverHighlightCount; changes |= Change::Highlights; } return changes; } void Room::updateData(SyncRoomData&& data, bool fromCache) { qCDebug(MAIN) << "--- Updating room" << id() << "/" << objectName(); bool firstUpdate = d->baseState.empty(); if (d->prevBatch.isEmpty()) d->prevBatch = data.timelinePrevBatch; setJoinState(data.joinState); Changes roomChanges {}; // The order of calculation is important - don't merge the lines! roomChanges |= d->updateStateFrom(data.state); roomChanges |= d->setSummary(move(data.summary)); roomChanges |= d->addNewMessageEvents(move(data.timeline)); for (auto&& ephemeralEvent : data.ephemeral) roomChanges |= processEphemeralEvent(move(ephemeralEvent)); for (auto&& event : data.accountData) roomChanges |= processAccountDataEvent(move(event)); roomChanges |= d->updateStatsFromSyncData(data, fromCache); if (roomChanges & Change::Topic) emit topicChanged(); if (roomChanges & (Change::Name | Change::Aliases)) emit namesChanged(this); d->postprocessChanges(roomChanges, !fromCache); if (firstUpdate) emit baseStateLoaded(); qCDebug(MAIN) << "--- Finished updating room" << id() << "/" << objectName(); } void Room::Private::postprocessChanges(Changes changes, bool saveState) { if (!changes) return; if (changes & Change::Members) emit q->memberListChanged(); if (changes & (Change::Name | Change::Aliases | Change::Members | Change::Summary)) updateDisplayname(); if (changes & Change::PartiallyReadStats) { QT_IGNORE_DEPRECATIONS( emit q->unreadMessagesChanged(q);) // TODO: remove in 0.8 emit q->partiallyReadStatsChanged(); } if (changes & Change::UnreadStats) emit q->unreadStatsChanged(); if (changes & Change::Highlights) emit q->highlightCountChanged(); qCDebug(MAIN) << terse << changes << "= hex" << Qt::hex << uint(changes) << "in" << q->objectName(); emit q->changed(changes); if (saveState) connection->saveRoomState(q); } RoomEvent* Room::Private::addAsPending(RoomEventPtr&& event) { if (event->transactionId().isEmpty()) event->setTransactionId(connection->generateTxnId()); if (event->roomId().isEmpty()) event->setRoomId(id); if (event->senderId().isEmpty()) event->setSender(connection->userId()); auto* pEvent = rawPtr(event); emit q->pendingEventAboutToAdd(pEvent); unsyncedEvents.emplace_back(move(event)); emit q->pendingEventAdded(); return pEvent; } QString Room::Private::sendEvent(RoomEventPtr&& event) { if (!q->successorId().isEmpty()) { qCWarning(MAIN) << q << "has been upgraded, event won't be sent"; return {}; } return doSendEvent(addAsPending(std::move(event))); } QString Room::Private::doSendEvent(const RoomEvent* pEvent) { const auto txnId = pEvent->transactionId(); // TODO, #133: Enqueue the job rather than immediately trigger it. const RoomEvent* _event = pEvent; std::unique_ptr encryptedEvent; if (q->usesEncryption()) { #ifndef Quotient_E2EE_ENABLED qWarning() << "This build of libQuotient does not support E2EE."; return {}; #else if (!hasValidMegolmSession() || shouldRotateMegolmSession()) { createMegolmSession(); } // Send the session to other people connection->sendSessionKeyToDevices( id, currentOutboundMegolmSession->sessionId(), currentOutboundMegolmSession->sessionKey(), getDevicesWithoutKey(), currentOutboundMegolmSession->sessionMessageIndex()); const auto encrypted = currentOutboundMegolmSession->encrypt(QJsonDocument(pEvent->fullJson()).toJson()); currentOutboundMegolmSession->setMessageCount(currentOutboundMegolmSession->messageCount() + 1); connection->saveCurrentOutboundMegolmSession( id, *currentOutboundMegolmSession); encryptedEvent = makeEvent( encrypted, q->connection()->olmAccount()->identityKeys().curve25519, q->connection()->deviceId(), currentOutboundMegolmSession->sessionId()); encryptedEvent->setTransactionId(connection->generateTxnId()); encryptedEvent->setRoomId(id); encryptedEvent->setSender(connection->userId()); if(pEvent->contentJson().contains("m.relates_to"_ls)) { encryptedEvent->setRelation(pEvent->contentJson()["m.relates_to"_ls].toObject()); } // We show the unencrypted event locally while pending. The echo check will throw the encrypted version out _event = encryptedEvent.get(); #endif } if (auto call = connection->callApi(BackgroundRequest, id, _event->matrixType(), txnId, _event->contentJson())) { Room::connect(call, &BaseJob::sentRequest, q, [this, txnId] { auto it = q->findPendingEvent(txnId); if (it == unsyncedEvents.end()) { qWarning(EVENTS) << "Pending event for transaction" << txnId << "not found - got synced so soon?"; return; } it->setDeparted(); emit q->pendingEventChanged(int(it - unsyncedEvents.begin())); }); Room::connect(call, &BaseJob::result, q, [this, txnId, call] { if (!call->status().good()) { onEventSendingFailure(txnId, call); return; } auto it = q->findPendingEvent(txnId); if (it != unsyncedEvents.end()) { if (it->deliveryStatus() != EventStatus::ReachedServer) { it->setReachedServer(call->eventId()); emit q->pendingEventChanged(int(it - unsyncedEvents.begin())); } } else qDebug(EVENTS) << "Pending event for transaction" << txnId << "already merged"; emit q->messageSent(txnId, call->eventId()); }); } else onEventSendingFailure(txnId); return txnId; } void Room::Private::onEventSendingFailure(const QString& txnId, BaseJob* call) { auto it = q->findPendingEvent(txnId); if (it == unsyncedEvents.end()) { qCritical(EVENTS) << "Pending event for transaction" << txnId << "could not be sent"; return; } it->setSendingFailed(call ? call->statusCaption() % ": " % call->errorString() : tr("The call could not be started")); emit q->pendingEventChanged(int(it - unsyncedEvents.begin())); } QString Room::retryMessage(const QString& txnId) { const auto it = findPendingEvent(txnId); Q_ASSERT(it != d->unsyncedEvents.end()); qCDebug(EVENTS) << "Retrying transaction" << txnId; const auto& transferIt = d->fileTransfers.constFind(txnId); if (transferIt != d->fileTransfers.cend()) { Q_ASSERT(transferIt->isUpload); if (transferIt->status == FileTransferInfo::Completed) { qCDebug(MESSAGES) << "File for transaction" << txnId << "has already been uploaded, bypassing re-upload"; } else { if (isJobPending(transferIt->job)) { qCDebug(MESSAGES) << "Abandoning the upload job for transaction" << txnId << "and starting again"; transferIt->job->abandon(); emit fileTransferFailed(txnId, tr("File upload will be retried")); } uploadFile(txnId, QUrl::fromLocalFile( transferIt->localFileInfo.absoluteFilePath())); // FIXME: Content type is no more passed here but it should } } if (it->deliveryStatus() == EventStatus::ReachedServer) { qCWarning(MAIN) << "The previous attempt has reached the server; two" " events are likely to be in the timeline after retry"; } it->resetStatus(); emit pendingEventChanged(int(it - d->unsyncedEvents.begin())); return d->doSendEvent(it->event()); } // Using a function defers actual tr() invocation to the moment when // translations are initialised auto FileTransferCancelledMsg() { return Room::tr("File transfer cancelled"); } void Room::discardMessage(const QString& txnId) { auto it = std::find_if(d->unsyncedEvents.begin(), d->unsyncedEvents.end(), [txnId](const auto& evt) { return evt->transactionId() == txnId; }); Q_ASSERT(it != d->unsyncedEvents.end()); qCDebug(EVENTS) << "Discarding transaction" << txnId; const auto& transferIt = d->fileTransfers.find(txnId); if (transferIt != d->fileTransfers.end()) { Q_ASSERT(transferIt->isUpload); if (isJobPending(transferIt->job)) { transferIt->status = FileTransferInfo::Cancelled; transferIt->job->abandon(); emit fileTransferFailed(txnId, FileTransferCancelledMsg()); } else if (transferIt->status == FileTransferInfo::Completed) { qCWarning(MAIN) << "File for transaction" << txnId << "has been uploaded but the message was discarded"; } } emit pendingEventAboutToDiscard(int(it - d->unsyncedEvents.begin())); d->unsyncedEvents.erase(it); emit pendingEventDiscarded(); } QString Room::postMessage(const QString& plainText, MessageEventType type) { return d->sendEvent(plainText, type); } QString Room::postPlainText(const QString& plainText) { return postMessage(plainText, MessageEventType::Text); } QString Room::postHtmlMessage(const QString& plainText, const QString& html, MessageEventType type) { return d->sendEvent( plainText, type, new EventContent::TextContent(html, QStringLiteral("text/html"))); } QString Room::postHtmlText(const QString& plainText, const QString& html) { return postHtmlMessage(plainText, html); } QString Room::postReaction(const QString& eventId, const QString& key) { return d->sendEvent(EventRelation::annotate(eventId, key)); } QString Room::Private::doPostFile(RoomEventPtr&& msgEvent, const QUrl& localUrl) { const auto txnId = addAsPending(move(msgEvent))->transactionId(); // Remote URL will only be known after upload; fill in the local path // to enable the preview while the event is pending. q->uploadFile(txnId, localUrl); // Below, the upload job is used as a context object to clean up connections const auto& transferJob = fileTransfers.value(txnId).job; connect(q, &Room::fileTransferCompleted, transferJob, [this, txnId](const QString& tId, const QUrl&, const FileSourceInfo& fileMetadata) { if (tId != txnId) return; const auto it = q->findPendingEvent(txnId); if (it != unsyncedEvents.end()) { it->setFileUploaded(fileMetadata); emit q->pendingEventChanged(int(it - unsyncedEvents.begin())); doSendEvent(it->get()); } else { // Normally in this situation we should instruct // the media server to delete the file; alas, there's no // API specced for that. qCWarning(MAIN) << "File uploaded to" << getUrlFromSourceInfo(fileMetadata) << "but the event referring to it was " "cancelled"; } }); connect(q, &Room::fileTransferFailed, transferJob, [this, txnId](const QString& tId) { if (tId != txnId) return; const auto it = q->findPendingEvent(txnId); if (it == unsyncedEvents.end()) return; const auto idx = int(it - unsyncedEvents.begin()); emit q->pendingEventAboutToDiscard(idx); // See #286 on why `it` may not be valid here. unsyncedEvents.erase(unsyncedEvents.begin() + idx); emit q->pendingEventDiscarded(); }); return txnId; } QString Room::postFile(const QString& plainText, EventContent::TypedBase* content) { Q_ASSERT(content != nullptr && content->fileInfo() != nullptr); const auto* const fileInfo = content->fileInfo(); Q_ASSERT(fileInfo != nullptr); QFileInfo localFile { fileInfo->url().toLocalFile() }; Q_ASSERT(localFile.isFile()); return d->doPostFile( makeEvent( plainText, RoomMessageEvent::rawMsgTypeForFile(localFile), content), fileInfo->url()); } #if QT_VERSION_MAJOR < 6 QString Room::postFile(const QString& plainText, const QUrl& localPath, bool asGenericFile) { QFileInfo localFile { localPath.toLocalFile() }; Q_ASSERT(localFile.isFile()); return d->doPostFile(makeEvent(plainText, localFile, asGenericFile), localPath); } #endif QString Room::postEvent(RoomEvent* event) { return d->sendEvent(RoomEventPtr(event)); } QString Room::postJson(const QString& matrixType, const QJsonObject& eventContent) { return d->sendEvent(loadEvent(matrixType, eventContent)); } SetRoomStateWithKeyJob* Room::setState(const StateEvent& evt) { return setState(evt.matrixType(), evt.stateKey(), evt.contentJson()); } SetRoomStateWithKeyJob* Room::setState(const QString& evtType, const QString& stateKey, const QJsonObject& contentJson) { return d->requestSetState(evtType, stateKey, contentJson); } void Room::setName(const QString& newName) { setState(newName); } void Room::setCanonicalAlias(const QString& newAlias) { setState(newAlias, altAliases()); } void Room::setPinnedEvents(const QStringList& events) { setState(events); } void Room::setLocalAliases(const QStringList& aliases) { setState(canonicalAlias(), aliases); } void Room::setTopic(const QString& newTopic) { setState(newTopic); } bool isEchoEvent(const RoomEventPtr& le, const PendingEventItem& re) { if (le->metaType() != re->metaType()) return false; if (!re->id().isEmpty()) return le->id() == re->id(); if (!re->transactionId().isEmpty()) return le->transactionId() == re->transactionId(); // This one is not reliable (there can be two unsynced // events with the same type, sender and state key) but // it's the best we have for state events. if (re->isStateEvent()) return le->stateKey() == re->stateKey(); // Empty id and no state key, hmm... (shrug) return le->contentJson() == re->contentJson(); } bool Room::supportsCalls() const { return joinedCount() == 2; } void Room::checkVersion() { const auto defaultVersion = connection()->defaultRoomVersion(); const auto stableVersions = connection()->stableRoomVersions(); Q_ASSERT(!defaultVersion.isEmpty()); // This method is only called after the base state has been loaded // or the server capabilities have been loaded. emit stabilityUpdated(defaultVersion, stableVersions); if (!stableVersions.contains(version())) { qCDebug(STATE) << this << "version is" << version() << "which the server doesn't count as stable"; if (canSwitchVersions()) qCDebug(STATE) << "The current user has enough privileges to fix it"; } } void Room::inviteCall(const QString& callId, const int lifetime, const QString& sdp) { Q_ASSERT(supportsCalls()); d->sendEvent(callId, lifetime, sdp); } void Room::sendCallCandidates(const QString& callId, const QJsonArray& candidates) { Q_ASSERT(supportsCalls()); d->sendEvent(callId, candidates); } void Room::answerCall(const QString& callId, [[maybe_unused]] int lifetime, const QString& sdp) { qCWarning(MAIN) << "To client developer: drop lifetime parameter from " "Room::answerCall(), it is no more accepted"; answerCall(callId, sdp); } void Room::answerCall(const QString& callId, const QString& sdp) { Q_ASSERT(supportsCalls()); d->sendEvent(callId, sdp); } void Room::hangupCall(const QString& callId) { Q_ASSERT(supportsCalls()); d->sendEvent(callId); } void Room::getPreviousContent(int limit, const QString& filter) { d->getPreviousContent(limit, filter); } void Room::Private::getPreviousContent(int limit, const QString &filter) { if (isJobPending(eventsHistoryJob)) return; eventsHistoryJob = connection->callApi(id, "b", prevBatch, "", limit, filter); emit q->eventsHistoryJobChanged(); connect(eventsHistoryJob, &BaseJob::success, q, [this] { prevBatch = eventsHistoryJob->end(); addHistoricalMessageEvents(eventsHistoryJob->chunk()); }); connect(eventsHistoryJob, &QObject::destroyed, q, &Room::eventsHistoryJobChanged); } void Room::inviteToRoom(const QString& memberId) { connection()->callApi(id(), memberId); } LeaveRoomJob* Room::leaveRoom() { // FIXME, #63: It should be RoomManager, not Connection return connection()->leaveRoom(this); } void Room::kickMember(const QString& memberId, const QString& reason) { connection()->callApi(id(), memberId, reason); } void Room::ban(const QString& userId, const QString& reason) { connection()->callApi(id(), userId, reason); } void Room::unban(const QString& userId) { connection()->callApi(id(), userId); } void Room::redactEvent(const QString& eventId, const QString& reason) { connection()->callApi(id(), QUrl::toPercentEncoding(eventId), connection()->generateTxnId(), reason); } void Room::uploadFile(const QString& id, const QUrl& localFilename, const QString& overrideContentType) { Q_ASSERT_X(localFilename.isLocalFile(), __FUNCTION__, "localFilename should point at a local file"); auto fileName = localFilename.toLocalFile(); FileSourceInfo fileMetadata; #ifdef Quotient_E2EE_ENABLED QTemporaryFile tempFile; if (usesEncryption()) { tempFile.open(); QFile file(localFilename.toLocalFile()); file.open(QFile::ReadOnly); QByteArray data; std::tie(fileMetadata, data) = encryptFile(file.readAll()); tempFile.write(data); tempFile.close(); fileName = QFileInfo(tempFile).absoluteFilePath(); } #endif auto job = connection()->uploadFile(fileName, overrideContentType); if (isJobPending(job)) { d->fileTransfers[id] = { job, fileName, true }; connect(job, &BaseJob::uploadProgress, this, [this, id](qint64 sent, qint64 total) { d->fileTransfers[id].update(sent, total); emit fileTransferProgress(id, sent, total); }); connect(job, &BaseJob::success, this, [this, id, localFilename, job, fileMetadata]() mutable { // The lambda is mutable to change encryptedFileMetadata d->fileTransfers[id].status = FileTransferInfo::Completed; setUrlInSourceInfo(fileMetadata, QUrl(job->contentUri())); emit fileTransferCompleted(id, localFilename, fileMetadata); }); connect(job, &BaseJob::failure, this, std::bind(&Private::failedTransfer, d, id, job->errorString())); emit newFileTransfer(id, localFilename); } else d->failedTransfer(id); } void Room::downloadFile(const QString& eventId, const QUrl& localFilename) { if (auto ongoingTransfer = d->fileTransfers.constFind(eventId); ongoingTransfer != d->fileTransfers.cend() && ongoingTransfer->status == FileTransferInfo::Started) { qCWarning(MAIN) << "Transfer for" << eventId << "is ongoing; download won't start"; return; } Q_ASSERT_X(localFilename.isEmpty() || localFilename.isLocalFile(), __FUNCTION__, "localFilename should point at a local file"); const auto* event = d->getEventWithFile(eventId); if (!event) { qCCritical(MAIN) << eventId << "is not in the local timeline or has no file content"; Q_ASSERT(false); return; } const auto* const fileInfo = event->content()->fileInfo(); if (!fileInfo->isValid()) { qCWarning(MAIN) << "Event" << eventId << "has an empty or malformed mxc URL; won't download"; return; } const auto fileUrl = fileInfo->url(); auto filePath = localFilename.toLocalFile(); if (filePath.isEmpty()) { // Setup default file path filePath = fileInfo->url().path().mid(1) % '_' % d->fileNameToDownload(event); if (filePath.size() > 200) // If too long, elide in the middle filePath.replace(128, filePath.size() - 192, "---"); filePath = QDir::tempPath() % '/' % filePath; qDebug(MAIN) << "File path:" << filePath; } DownloadFileJob *job = nullptr; #ifdef Quotient_E2EE_ENABLED if (auto* fileMetadata = std::get_if(&fileInfo->source)) { job = connection()->downloadFile(fileUrl, *fileMetadata, filePath); } else { #endif job = connection()->downloadFile(fileUrl, filePath); #ifdef Quotient_E2EE_ENABLED } #endif if (isJobPending(job)) { // If there was a previous transfer (completed or failed), overwrite it. d->fileTransfers[eventId] = { job, job->targetFileName() }; connect(job, &BaseJob::downloadProgress, this, [this, eventId](qint64 received, qint64 total) { d->fileTransfers[eventId].update(received, total); emit fileTransferProgress(eventId, received, total); }); connect(job, &BaseJob::success, this, [this, eventId, fileUrl, job] { d->fileTransfers[eventId].status = FileTransferInfo::Completed; emit fileTransferCompleted( eventId, fileUrl, QUrl::fromLocalFile(job->targetFileName())); }); connect(job, &BaseJob::failure, this, std::bind(&Private::failedTransfer, d, eventId, job->errorString())); emit newFileTransfer(eventId, localFilename); } else d->failedTransfer(eventId); } void Room::cancelFileTransfer(const QString& id) { const auto it = d->fileTransfers.find(id); if (it == d->fileTransfers.end()) { qCWarning(MAIN) << "No information on file transfer" << id << "in room" << d->id; return; } if (isJobPending(it->job)) it->job->abandon(); it->status = FileTransferInfo::Cancelled; emit fileTransferFailed(id, FileTransferCancelledMsg()); } void Room::Private::dropDuplicateEvents(RoomEvents& events) const { if (events.empty()) return; // Multiple-remove (by different criteria), single-erase // 1. Check for duplicates against the timeline. auto dupsBegin = remove_if(events.begin(), events.end(), [&](const RoomEventPtr& e) { return eventsIndex.contains(e->id()); }); // 2. Check for duplicates within the batch if there are still events. for (auto eIt = events.begin(); distance(eIt, dupsBegin) > 1; ++eIt) dupsBegin = remove_if(eIt + 1, dupsBegin, [&](const RoomEventPtr& e) { return e->id() == (*eIt)->id(); }); if (dupsBegin == events.end()) return; qCDebug(EVENTS) << "Dropping" << distance(dupsBegin, events.end()) << "duplicate event(s)"; events.erase(dupsBegin, events.end()); } void Room::Private::decryptIncomingEvents(RoomEvents& events) { #ifdef Quotient_E2EE_ENABLED QElapsedTimer et; et.start(); size_t totalDecrypted = 0; for (auto& eptr : events) if (const auto& eeptr = eventCast(eptr)) { if (auto decrypted = q->decryptMessage(*eeptr)) { ++totalDecrypted; auto&& oldEvent = exchange(eptr, move(decrypted)); eptr->setOriginalEvent(::move(oldEvent)); } else undecryptedEvents[eeptr->sessionId()] += eeptr->id(); } if (totalDecrypted > 5 || et.nsecsElapsed() >= profilerMinNsecs()) qDebug(PROFILER) << "Decrypted" << totalDecrypted << "events in" << et; #endif } /** Make a redacted event * * This applies the redaction procedure as defined by the CS API specification * to the event's JSON and returns the resulting new event. It is * the responsibility of the caller to dispose of the original event after that. */ RoomEventPtr makeRedacted(const RoomEvent& target, const RedactionEvent& redaction) { auto originalJson = target.fullJson(); // clang-format off static const QStringList keepKeys { EventIdKey, TypeKey, RoomIdKey, SenderKey, StateKeyKey, QStringLiteral("hashes"), QStringLiteral("signatures"), QStringLiteral("depth"), QStringLiteral("prev_events"), QStringLiteral("prev_state"), QStringLiteral("auth_events"), QStringLiteral("origin"), QStringLiteral("origin_server_ts"), QStringLiteral("membership") }; // clang-format on static const std::pair keepContentKeysMap[]{ { RoomMemberEvent::TypeId, { QStringLiteral("membership") } }, { RoomCreateEvent::TypeId, { QStringLiteral("creator") } }, { RoomPowerLevelsEvent::TypeId, { QStringLiteral("ban"), QStringLiteral("events"), QStringLiteral("events_default"), QStringLiteral("kick"), QStringLiteral("redact"), QStringLiteral("state_default"), QStringLiteral("users"), QStringLiteral("users_default") } }, // TODO: Replace with RoomJoinRules::TypeId etc. once available { "m.room.join_rules"_ls, { QStringLiteral("join_rule") } }, { "m.room.history_visibility"_ls, { QStringLiteral("history_visibility") } } }; for (auto it = originalJson.begin(); it != originalJson.end();) { if (!keepKeys.contains(it.key())) it = originalJson.erase(it); // TODO: shred the value else ++it; } auto keepContentKeys = find_if(begin(keepContentKeysMap), end(keepContentKeysMap), [&target](const auto& t) { return target.type() == t.first; }); if (keepContentKeys == end(keepContentKeysMap)) { originalJson.remove(ContentKeyL); originalJson.remove(PrevContentKeyL); } else { auto content = originalJson.take(ContentKeyL).toObject(); for (auto it = content.begin(); it != content.end();) { if (!keepContentKeys->second.contains(it.key())) it = content.erase(it); else ++it; } originalJson.insert(ContentKey, content); } auto unsignedData = originalJson.take(UnsignedKeyL).toObject(); unsignedData[RedactedCauseKeyL] = redaction.fullJson(); originalJson.insert(QStringLiteral("unsigned"), unsignedData); return loadEvent(originalJson); } bool Room::Private::processRedaction(const RedactionEvent& redaction) { // Can't use findInTimeline because it returns a const iterator, and // we need to change the underlying TimelineItem. const auto pIdx = eventsIndex.constFind(redaction.redactedEvent()); if (pIdx == eventsIndex.cend()) return false; Q_ASSERT(q->isValidIndex(*pIdx)); auto& ti = timeline[Timeline::size_type(*pIdx - q->minTimelineIndex())]; if (ti->isRedacted() && ti->redactedBecause()->id() == redaction.id()) { qCDebug(EVENTS) << "Redaction" << redaction.id() << "of event" << ti->id() << "already done, skipping"; return true; } // Make a new event from the redacted JSON and put it in the timeline // instead of the redacted one. oldEvent will be deleted on return. auto oldEvent = ti.replaceEvent(makeRedacted(*ti, redaction)); qCDebug(EVENTS) << "Redacted" << oldEvent->id() << "with" << redaction.id(); if (oldEvent->isStateEvent()) { // Check whether the old event was a part of current state; if it was, // update the current state to the redacted event object. const auto currentStateEvt = currentState.get(oldEvent->matrixType(), oldEvent->stateKey()); Q_ASSERT(currentStateEvt); if (currentStateEvt == oldEvent.get()) { // Historical states can't be in currentState Q_ASSERT(ti.index() >= 0); qCDebug(STATE).nospace() << "Redacting state " << oldEvent->matrixType() << "/" << oldEvent->stateKey(); // Retarget the current state to the newly made event. if (q->processStateEvent(*ti)) emit q->namesChanged(q); updateDisplayname(); } } if (const auto* reaction = eventCast(oldEvent)) { const auto& targetEvtId = reaction->relation().eventId; const std::pair lookupKey { targetEvtId, EventRelation::AnnotationType }; if (relations.contains(lookupKey)) { relations[lookupKey].removeOne(reaction); emit q->updatedEvent(targetEvtId); } } q->onRedaction(*oldEvent, *ti); emit q->replacedEvent(ti.event(), rawPtr(oldEvent)); // By now, all references to oldEvent must have been updated to ti.event() return true; } /** Make a replaced event * * Takes \p target and returns a copy of it with content taken from * \p replacement. Disposal of the original event after that is on the caller. */ RoomEventPtr makeReplaced(const RoomEvent& target, const RoomMessageEvent& replacement) { const auto& targetReply = target.contentPart("m.relates_to"); auto newContent = replacement.contentPart("m.new_content"_ls); if (!targetReply.empty()) { newContent["m.relates_to"] = targetReply; } auto originalJson = target.fullJson(); originalJson[ContentKeyL] = newContent; auto unsignedData = originalJson.take(UnsignedKeyL).toObject(); auto relations = unsignedData.take("m.relations"_ls).toObject(); relations["m.replace"_ls] = replacement.id(); unsignedData.insert(QStringLiteral("m.relations"), relations); originalJson.insert(UnsignedKey, unsignedData); return loadEvent(originalJson); } bool Room::Private::processReplacement(const RoomMessageEvent& newEvent) { // Can't use findInTimeline because it returns a const iterator, and // we need to change the underlying TimelineItem. const auto pIdx = eventsIndex.constFind(newEvent.replacedEvent()); if (pIdx == eventsIndex.cend()) return false; Q_ASSERT(q->isValidIndex(*pIdx)); auto& ti = timeline[Timeline::size_type(*pIdx - q->minTimelineIndex())]; if (ti->replacedBy() == newEvent.id()) { qCDebug(STATE) << "Event" << ti->id() << "is already replaced with" << newEvent.id(); return true; } // Make a new event from the redacted JSON and put it in the timeline // instead of the redacted one. oldEvent will be deleted on return. auto oldEvent = ti.replaceEvent(makeReplaced(*ti, newEvent)); qCDebug(STATE) << "Replaced" << oldEvent->id() << "with" << newEvent.id(); emit q->replacedEvent(ti.event(), rawPtr(oldEvent)); return true; } Connection* Room::connection() const { Q_ASSERT(d->connection); return d->connection; } User* Room::localUser() const { return connection()->user(); } /// Whether the event is a redaction or a replacement inline bool isEditing(const RoomEventPtr& ep) { Q_ASSERT(ep); if (is(*ep)) return true; if (auto* msgEvent = eventCast(ep)) return !msgEvent->replacedEvent().isEmpty(); return false; } Room::Changes Room::Private::addNewMessageEvents(RoomEvents&& events) { dropDuplicateEvents(events); if (events.empty()) return Change::None; decryptIncomingEvents(events); QElapsedTimer et; et.start(); { // Pre-process redactions and edits so that events that get // redacted/replaced in the same batch landed in the timeline already // treated. // NB: We have to store redacting/replacing events to the timeline too - // see #220. auto it = std::find_if(events.begin(), events.end(), isEditing); for (const auto& eptr : RoomEventsRange(it, events.end())) { if (auto* r = eventCast(eptr)) { // Try to find the target in the timeline, then in the batch. if (processRedaction(*r)) continue; if (auto targetIt = std::find_if(events.begin(), events.end(), [id = r->redactedEvent()](const RoomEventPtr& ep) { return ep->id() == id; }); targetIt != events.end()) *targetIt = makeRedacted(**targetIt, *r); else qCDebug(STATE) << "Redaction" << r->id() << "ignored: target event" << r->redactedEvent() << "is not found"; // If the target event comes later, it comes already redacted. } if (auto* msg = eventCast(eptr); msg && !msg->replacedEvent().isEmpty()) { if (processReplacement(*msg)) continue; auto targetIt = std::find_if(events.begin(), it, [id = msg->replacedEvent()](const RoomEventPtr& ep) { return ep->id() == id; }); if (targetIt != it) *targetIt = makeReplaced(**targetIt, *msg); else // FIXME: hide the replacing event when target arrives later qCDebug(EVENTS) << "Replacing event" << msg->id() << "ignored: target event" << msg->replacedEvent() << "is not found"; // Same as with redactions above, the replaced event coming // later will come already with the new content. } } } // State changes arrive as a part of timeline; the current room state gets // updated before merging events to the timeline because that's what // clients historically expect. This may eventually change though if we // postulate that the current state is only current between syncs but not // within a sync. Changes roomChanges {}; for (const auto& eptr : events) roomChanges |= q->processStateEvent(*eptr); auto timelineSize = timeline.size(); size_t totalInserted = 0; for (auto it = events.begin(); it != events.end();) { auto nextPendingPair = findFirstOf(it, events.end(), unsyncedEvents.begin(), unsyncedEvents.end(), isEchoEvent); const auto& remoteEcho = nextPendingPair.first; const auto& localEcho = nextPendingPair.second; if (it != remoteEcho) { RoomEventsRange eventsSpan { it, remoteEcho }; emit q->aboutToAddNewMessages(eventsSpan); auto insertedSize = moveEventsToTimeline(eventsSpan, Newer); totalInserted += insertedSize; auto firstInserted = syncEdge() - insertedSize; q->onAddNewTimelineEvents(firstInserted); emit q->addedMessages(firstInserted->index(), timeline.back().index()); } if (remoteEcho == events.end()) break; it = remoteEcho + 1; auto* nextPendingEvt = remoteEcho->get(); const auto pendingEvtIdx = int(localEcho - unsyncedEvents.begin()); if (localEcho->deliveryStatus() != EventStatus::ReachedServer) { localEcho->setReachedServer(nextPendingEvt->id()); emit q->pendingEventChanged(pendingEvtIdx); } emit q->pendingEventAboutToMerge(nextPendingEvt, pendingEvtIdx); qCDebug(MESSAGES) << "Merging pending event from transaction" << nextPendingEvt->transactionId() << "into" << nextPendingEvt->id(); auto transfer = fileTransfers.take(nextPendingEvt->transactionId()); if (transfer.status != FileTransferInfo::None) fileTransfers.insert(nextPendingEvt->id(), transfer); // After emitting pendingEventAboutToMerge() above we cannot rely // on the previously obtained localEcho staying valid // because a signal handler may send another message, thereby altering // unsyncedEvents (see #286). Fortunately, unsyncedEvents only grows at // its back so we can rely on the index staying valid at least. unsyncedEvents.erase(unsyncedEvents.begin() + pendingEvtIdx); if (auto insertedSize = moveEventsToTimeline({ remoteEcho, it }, Newer)) { totalInserted += insertedSize; q->onAddNewTimelineEvents(syncEdge() - insertedSize); } emit q->pendingEventMerged(); } // Events merged and transferred from `events` to `timeline` now. const auto from = syncEdge() - totalInserted; if (q->supportsCalls()) for (auto it = from; it != syncEdge(); ++it) if (const auto* evt = it->viewAs()) emit q->callEvent(q, evt); if (totalInserted > 0) { for (auto it = from; it != syncEdge(); ++it) { if (const auto* reaction = it->viewAs()) { const auto& relation = reaction->relation(); relations[{ relation.eventId, relation.type }] << reaction; emit q->updatedEvent(relation.eventId); } } qCDebug(MESSAGES) << "Room" << q->objectName() << "received" << totalInserted << "new events; the last event is now" << timeline.back(); roomChanges |= updateStats(timeline.crbegin(), rev_iter_t(from)); // If the local user's message(s) is/are first in the batch // and the fully read marker was right before it, promote // the fully read marker to the same event as the read receipt. const auto& firstWriterId = (*from)->senderId(); if (firstWriterId == connection->userId() && q->fullyReadMarker().base() == from) roomChanges |= setFullyReadMarker(q->lastReadReceipt(firstWriterId).eventId); } Q_ASSERT(timeline.size() == timelineSize + totalInserted); if (totalInserted > 9 || et.nsecsElapsed() >= profilerMinNsecs()) qCDebug(PROFILER) << "Added" << totalInserted << "new event(s) to" << q->objectName() << "in" << et; return roomChanges; } void Room::Private::addHistoricalMessageEvents(RoomEvents&& events) { const auto timelineSize = timeline.size(); dropDuplicateEvents(events); if (events.empty()) return; decryptIncomingEvents(events); QElapsedTimer et; et.start(); Changes changes {}; // In case of lazy-loading new members may be loaded with historical // messages. Also, the cache doesn't store events with empty content; // so when such events show up in the timeline they should be properly // incorporated. for (const auto& eptr : events) { const auto& e = *eptr; if (e.isStateEvent() && !currentState.contains(e.matrixType(), e.stateKey())) { changes |= q->processStateEvent(e); } } emit q->aboutToAddHistoricalMessages(events); const auto insertedSize = moveEventsToTimeline(events, Older); const auto from = historyEdge() - insertedSize; qCDebug(STATE) << "Room" << displayname << "received" << insertedSize << "past events; the oldest event is now" << timeline.front(); q->onAddHistoricalTimelineEvents(from); emit q->addedMessages(timeline.front().index(), from->index()); for (auto it = from; it != historyEdge(); ++it) { if (const auto* reaction = it->viewAs()) { const auto& relation = reaction->relation(); relations[{ relation.eventId, relation.type }] << reaction; emit q->updatedEvent(relation.eventId); } } Q_ASSERT(timeline.size() == timelineSize + insertedSize); if (insertedSize > 9 || et.nsecsElapsed() >= profilerMinNsecs()) qCDebug(PROFILER) << "Added" << insertedSize << "historical event(s) to" << q->objectName() << "in" << et; changes |= updateStats(from, historyEdge()); if (changes) postprocessChanges(changes); } Room::Changes Room::processStateEvent(const RoomEvent& e) { if (!e.isStateEvent()) return Change::None; // Find a value (create an empty one if necessary) and get a reference // to it, anticipating a change further in the function. auto& curStateEvent = d->currentState[{ e.matrixType(), e.stateKey() }]; // Prepare for the state change // clang-format off const bool proceed = switchOnType(e , [this, curStateEvent](const RoomMemberEvent& rme) { // clang-format on auto* oldRme = static_cast(curStateEvent); auto* u = user(rme.userId()); if (!u) { // Some terribly malformed user id? qCCritical(MAIN) << "Could not get a user object for" << rme.userId(); return false; // Stay low and hope for the best... } const auto prevMembership = oldRme ? oldRme->membership() : Membership::Leave; switch (prevMembership) { case Membership::Invite: if (rme.membership() != prevMembership) { d->usersInvited.removeOne(u); Q_ASSERT(!d->usersInvited.contains(u)); } break; case Membership::Join: if (rme.membership() == Membership::Join) { // rename/avatar change or no-op if (rme.newDisplayName()) { emit memberAboutToRename(u, *rme.newDisplayName()); d->removeMemberFromMap(u); } if (!rme.newDisplayName() && !rme.newAvatarUrl()) { qCWarning(MEMBERS) << "No-op membership event for" << rme.userId() << "- retaining the state"; qCWarning(MEMBERS) << "The event dump:" << rme; return false; } } else { if (rme.membership() == Membership::Invite) qCWarning(MAIN) << "Membership change from Join to Invite:" << rme; // whatever the new membership, it's no more Join d->removeMemberFromMap(u); emit userRemoved(u); } break; case Membership::Ban: case Membership::Knock: case Membership::Leave: if (rme.membership() == Membership::Invite || rme.membership() == Membership::Join) { d->membersLeft.removeOne(u); Q_ASSERT(!d->membersLeft.contains(u)); } break; case Membership::Undefined: ; // A warning will be dropped in the post-processing block below } return true; // clang-format off } , [this, curStateEvent]( const EncryptionEvent& ee) { // clang-format on auto* oldEncEvt = static_cast(curStateEvent); if (ee.algorithm().isEmpty()) { qWarning(STATE) << "The encryption event for room" << objectName() << "doesn't have 'algorithm' specified - ignoring"; return false; } if (oldEncEvt && oldEncEvt->encryption() != EncryptionType::Undefined) { qCWarning(STATE) << "The room is already encrypted but a new" " room encryption event arrived - ignoring"; return false; } return true; // clang-format off } , true); // By default, go forward with the state change // clang-format on if (!proceed) { if (!curStateEvent) // Remove the empty placeholder if one was created d->currentState.remove({ e.matrixType(), e.stateKey() }); return Change::None; } // Change the state const auto* const oldStateEvent = std::exchange(curStateEvent, static_cast(&e)); Q_ASSERT(!oldStateEvent || (oldStateEvent->matrixType() == e.matrixType() && oldStateEvent->stateKey() == e.stateKey())); if (is(e)) qCDebug(MEMBERS) << "Updated room member state:" << e; else qCDebug(STATE) << "Updated room state:" << e; // Update internal structures as per the change and work out the return value // clang-format off const auto result = switchOnType(e , [] (const RoomNameEvent&) { return Change::Name; } , [this, oldStateEvent] (const RoomCanonicalAliasEvent& cae) { // clang-format on setObjectName(cae.alias().isEmpty() ? d->id : cae.alias()); const auto* oldCae = static_cast(oldStateEvent); QStringList previousAltAliases {}; if (oldCae) { previousAltAliases = oldCae->altAliases(); if (!oldCae->alias().isEmpty()) previousAltAliases.push_back(oldCae->alias()); } auto newAliases = cae.altAliases(); if (!cae.alias().isEmpty()) newAliases.push_front(cae.alias()); connection()->updateRoomAliases(id(), previousAltAliases, newAliases); return Change::Aliases; // clang-format off } , [this] (const RoomPinnedEvent&) { emit pinnedEventsChanged(); return Change::Other; } , [] (const RoomTopicEvent&) { return Change::Topic; } , [this] (const RoomAvatarEvent& evt) { if (d->avatar.updateUrl(evt.url())) emit avatarChanged(); return Change::Avatar; } , [this,oldStateEvent] (const RoomMemberEvent& evt) { // clang-format on auto* u = user(evt.userId()); const auto* oldMemberEvent = static_cast(oldStateEvent); const auto prevMembership = oldMemberEvent ? oldMemberEvent->membership() : Membership::Leave; switch (evt.membership()) { case Membership::Join: if (prevMembership != Membership::Join) { d->insertMemberIntoMap(u); emit userAdded(u); } else { if (evt.newDisplayName()) { d->insertMemberIntoMap(u); emit memberRenamed(u); } if (evt.newAvatarUrl()) emit memberAvatarChanged(u); } break; case Membership::Invite: if (!d->usersInvited.contains(u)) d->usersInvited.push_back(u); if (u == localUser() && evt.isDirect()) connection()->addToDirectChats(this, user(evt.senderId())); break; case Membership::Knock: case Membership::Ban: case Membership::Leave: if (!d->membersLeft.contains(u)) d->membersLeft.append(u); break; case Membership::Undefined: qCWarning(MEMBERS) << "Ignored undefined membership type"; } return Change::Members; // clang-format off } , [this] (const EncryptionEvent&) { // As encryption can only be switched on once, emit the signal here // instead of aggregating and emitting in updateData() emit encryption(); return Change::Other; } , [this] (const RoomTombstoneEvent& evt) { const auto successorId = evt.successorRoomId(); if (auto* successor = connection()->room(successorId)) emit upgraded(evt.serverMessage(), successor); else connectUntil(connection(), &Connection::loadedRoomState, this, [this,successorId,serverMsg=evt.serverMessage()] (Room* newRoom) { if (newRoom->id() != successorId) return false; emit upgraded(serverMsg, newRoom); return true; }); return Change::Other; // clang-format off } , Change::Other); // clang-format on Q_ASSERT(result != Change::None); return result; } Room::Changes Room::processEphemeralEvent(EventPtr&& event) { Changes changes {}; QElapsedTimer et; et.start(); switchOnType(*event, [this, &et](const TypingEvent& evt) { const auto& users = evt.users(); d->usersTyping.clear(); d->usersTyping.reserve(users.size()); // Assume all are members for (const auto& userId : users) if (isMember(userId)) d->usersTyping.append(user(userId)); if (d->usersTyping.size() > 3 || et.nsecsElapsed() >= profilerMinNsecs()) qDebug(PROFILER) << "Processing typing events from" << users.size() << "user(s) in" << objectName() << "took" << et; emit typingChanged(); }, [this, &changes, &et](const ReceiptEvent& evt) { const auto& receiptsJson = evt.contentJson(); QVector updatedUserIds; // Most often (especially for bigger batches), receipts are // scattered across events (an anecdotal evidence showed 1.2-1.3 // receipts per event on average). updatedUserIds.reserve(receiptsJson.size() * 2); for (auto eventIt = receiptsJson.begin(); eventIt != receiptsJson.end(); ++eventIt) { const auto evtId = eventIt.key(); const auto newMarker = findInTimeline(evtId); if (newMarker == historyEdge()) qDebug(EPHEMERAL) << "Event" << evtId << "is not found; saving read receipt(s) anyway"; const auto reads = eventIt.value().toObject().value("m.read"_ls).toObject(); for (auto userIt = reads.begin(); userIt != reads.end(); ++userIt) { ReadReceipt rr{ evtId, fromJson( userIt->toObject().value("ts"_ls)) }; const auto userId = userIt.key(); if (userId == connection()->userId()) { // Local user is special, and will get a signal about // its read receipt separately from (and before) a // signal on everybody else. No particular reason, just // less cumbersome code. changes |= d->setLocalLastReadReceipt(newMarker, rr); } else if (d->setLastReadReceipt(userId, newMarker, rr)) { changes |= Change::Other; updatedUserIds.push_back(userId); } } } if (updatedUserIds.size() > 10 || et.nsecsElapsed() >= profilerMinNsecs()) qDebug(PROFILER) << "Processing" << updatedUserIds.size() << "non-local receipt(s) on" << receiptsJson.size() << "event(s) in" << objectName() << "took" << et; if (!updatedUserIds.empty()) emit lastReadEventChanged(updatedUserIds); }); return changes; } Room::Changes Room::processAccountDataEvent(EventPtr&& event) { Changes changes {}; if (auto* evt = eventCast(event)) { d->setTags(evt->tags()); changes |= Change::Tags; } if (auto* evt = eventCast(event)) changes |= d->setFullyReadMarker(evt->eventId()); // For all account data events auto& currentData = d->accountData[event->matrixType()]; // A polymorphic event-specific comparison might be a bit more // efficient; maaybe do it another day if (!currentData || currentData->contentJson() != event->contentJson()) { emit accountDataAboutToChange(event->matrixType()); currentData = move(event); qCDebug(STATE) << "Updated account data of type" << currentData->matrixType(); emit accountDataChanged(currentData->matrixType()); // TODO: Drop AccountDataChange in 0.8 // NB: GCC (at least 10) only accepts QT_IGNORE_DEPRECATIONS around // a statement, not within a statement QT_IGNORE_DEPRECATIONS(changes |= Change::AccountData | Change::Other;) } return changes; } template Room::Private::users_shortlist_t Room::Private::buildShortlist(const ContT& users) const { // To calculate room display name the spec requires to sort users // lexicographically by state_key (user id) and use disambiguated // display names of two topmost users excluding the current one to render // the name of the room. The below code selects 3 topmost users, // slightly extending the spec. users_shortlist_t shortlist {}; // Prefill with nullptrs std::partial_sort_copy( users.begin(), users.end(), shortlist.begin(), shortlist.end(), [this](const User* u1, const User* u2) { // localUser(), if it's in the list, is sorted // below all others return isLocalUser(u2) || (!isLocalUser(u1) && u1->id() < u2->id()); }); return shortlist; } Room::Private::users_shortlist_t Room::Private::buildShortlist(const QStringList& userIds) const { QList users; users.reserve(userIds.size()); for (const auto& h : userIds) users.push_back(q->user(h)); return buildShortlist(users); } QString Room::Private::calculateDisplayname() const { // CS spec, section 13.2.2.5 Calculating the display name for a room // Numbers below refer to respective parts in the spec. // 1. Name (from m.room.name) auto dispName = q->name(); if (!dispName.isEmpty()) { return dispName; } // 2. Canonical alias dispName = q->canonicalAlias(); if (!dispName.isEmpty()) return dispName; // 3. m.room.aliases - only local aliases, subject for further removal const auto aliases = q->aliases(); if (!aliases.isEmpty()) return aliases.front(); // 4. m.heroes and m.room.member // From here on, we use a more general algorithm than the spec describes // in order to provide back-compatibility with pre-MSC688 servers. // Supplementary code: build the shortlist of users whose names // will be used to construct the room name. Takes into account MSC688's // "heroes" if available. const bool localUserIsIn = joinState == JoinState::Join; const bool emptyRoom = membersMap.isEmpty() || (membersMap.size() == 1 && isLocalUser(*membersMap.cbegin())); const bool nonEmptySummary = summary.heroes && !summary.heroes->empty(); auto shortlist = nonEmptySummary ? buildShortlist(*summary.heroes) : !emptyRoom ? buildShortlist(membersMap) : users_shortlist_t {}; // When the heroes list is there, we can rely on it. If the heroes list is // missing, the below code gathers invited, or, if there are no invitees, // left members. if (!shortlist.front() && localUserIsIn) shortlist = buildShortlist(usersInvited); if (!shortlist.front()) shortlist = buildShortlist(membersLeft); QStringList names; for (const auto* u : shortlist) { if (u == nullptr || isLocalUser(u)) break; // Only disambiguate if the room is not empty names.push_back(u->displayname(emptyRoom ? nullptr : q)); } const auto usersCountExceptLocal = !emptyRoom ? q->joinedCount() - int(joinState == JoinState::Join) : !usersInvited.empty() ? usersInvited.count() : membersLeft.size() - int(joinState == JoinState::Leave); if (usersCountExceptLocal > int(shortlist.size())) names << tr( "%Ln other(s)", "Used to make a room name from user names: A, B and _N others_", usersCountExceptLocal - int(shortlist.size())); const auto namesList = QLocale().createSeparatedList(names); // Room members if (!emptyRoom) return namesList; // (Spec extension) Invited users if (!usersInvited.empty()) return tr("Empty room (invited: %1)").arg(namesList); // Users that previously left the room if (!membersLeft.isEmpty()) return tr("Empty room (was: %1)").arg(namesList); // Fail miserably return tr("Empty room (%1)").arg(id); } void Room::Private::updateDisplayname() { auto swappedName = calculateDisplayname(); if (swappedName != displayname) { emit q->displaynameAboutToChange(q); swap(displayname, swappedName); qCDebug(MAIN) << q->objectName() << "has changed display name from" << swappedName << "to" << displayname; emit q->displaynameChanged(q, swappedName); } } QJsonObject Room::Private::toJson() const { QElapsedTimer et; et.start(); QJsonObject result; addParam(result, QStringLiteral("summary"), summary); { QJsonArray stateEvents; for (const auto* evt : currentState) { Q_ASSERT(evt->isStateEvent()); if ((evt->isRedacted() && !is(*evt)) || evt->contentJson().isEmpty()) continue; auto json = evt->fullJson(); auto unsignedJson = evt->unsignedJson(); unsignedJson.remove(QStringLiteral("prev_content")); json[UnsignedKeyL] = unsignedJson; stateEvents.append(json); } const auto stateObjName = joinState == JoinState::Invite ? QStringLiteral("invite_state") : QStringLiteral("state"); result.insert(stateObjName, QJsonObject { { QStringLiteral("events"), stateEvents } }); } if (!accountData.empty()) { QJsonArray accountDataEvents; for (const auto& e : accountData) { if (!e.second->contentJson().isEmpty()) accountDataEvents.append(e.second->fullJson()); } result.insert(QStringLiteral("account_data"), QJsonObject { { QStringLiteral("events"), accountDataEvents } }); } if (const auto& readReceipt = q->lastReadReceipt(connection->userId()); !readReceipt.eventId.isEmpty()) // { result.insert( QStringLiteral("ephemeral"), QJsonObject { { QStringLiteral("events"), QJsonArray { ReceiptEvent({ { readReceipt.eventId, { { connection->userId(), readReceipt.timestamp } } } }) .fullJson() } } }); } result.insert(UnreadNotificationsKey, QJsonObject { { PartiallyReadCountKey, countFromStats(partiallyReadStats) }, { HighlightCountKey, serverHighlightCount } }); result.insert(NewUnreadCountKey, countFromStats(unreadStats)); if (et.elapsed() > 30) qCDebug(PROFILER) << "Room::toJson() for" << q->objectName() << "took" << et; return result; } QJsonObject Room::toJson() const { return d->toJson(); } MemberSorter Room::memberSorter() const { return MemberSorter(this); } bool MemberSorter::operator()(User* u1, User* u2) const { return operator()(u1, room->disambiguatedMemberName(u2->id())); } bool MemberSorter::operator()(User* u1, QStringView u2name) const { auto n1 = room->disambiguatedMemberName(u1->id()); if (n1.startsWith('@')) n1.remove(0, 1); const auto n2 = u2name.mid(u2name.startsWith('@') ? 1 : 0) #if QT_VERSION_MAJOR < 6 .toString() // Qt 5 doesn't have QStringView::localeAwareCompare #endif ; return n1.localeAwareCompare(n2) < 0; } void Room::activateEncryption() { if(usesEncryption()) { qCWarning(E2EE) << "Room" << objectName() << "is already encrypted"; return; } setState(EncryptionType::MegolmV1AesSha2); }