/****************************************************************************** * Copyright (C) 2015 Felix Rohrbach * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "room.h" #include "jobs/generated/kicking.h" #include "jobs/generated/inviting.h" #include "jobs/generated/banning.h" #include "jobs/generated/leaving.h" #include "jobs/generated/receipts.h" #include "jobs/generated/redaction.h" #include "jobs/setroomstatejob.h" #include "events/simplestateevents.h" #include "events/roomavatarevent.h" #include "events/roommemberevent.h" #include "events/typingevent.h" #include "events/receiptevent.h" #include "events/redactionevent.h" #include "jobs/sendeventjob.h" #include "jobs/roommessagesjob.h" #include "avatar.h" #include "connection.h" #include "user.h" #include #include // for efficient string concats (operator%) #include #include using namespace QMatrixClient; enum EventsPlacement : int { Older = -1, Newer = 1 }; class Room::Private { public: /** Map of user names to users. User names potentially duplicate, hence a multi-hashmap. */ typedef QMultiHash members_map_t; typedef std::pair rev_iter_pair_t; Private(Connection* c, QString id_, JoinState initialJoinState) : q(nullptr), connection(c), id(std::move(id_)) , avatar(c), joinState(initialJoinState), unreadMessages(false) , highlightCount(0), notificationCount(0), roomMessagesJob(nullptr) { } Room* q; // This updates the room displayname field (which is the way a room // should be shown in the room list) It should be called whenever the // list of members or the room name (m.room.name) or canonical alias change. void updateDisplayname(); Connection* connection; Timeline timeline; QHash eventsIndex; QString id; QStringList aliases; QString canonicalAlias; QString name; QString displayname; QString topic; Avatar avatar; JoinState joinState; bool unreadMessages; int highlightCount; int notificationCount; members_map_t membersMap; QList usersTyping; QList membersLeft; QHash lastReadEventIds; QString prevBatch; RoomMessagesJob* roomMessagesJob; // Convenience methods to work with the membersMap and usersLeft. // addMember() and removeMember() emit respective Room:: signals // after a succesful operation. //void inviteUser(User* u); // We might get it at some point in time. void addMember(User* u); bool hasMember(User* u) const; // You can't identify a single user by displayname, only by id User* member(const QString& id) const; void renameMember(User* u, QString oldName); void removeMember(User* u); void getPreviousContent(int limit = 10); bool isEventNotable(const RoomEvent* e) const { return !e->isRedacted() && e->senderId() != connection->userId() && e->type() == EventType::RoomMessage; } void insertEvents(RoomEventsView events, EventsPlacement placement); /** * Removes events from the passed container that are already in the timeline */ void dropDuplicateEvents(RoomEvents* events) const; void checkUnreadMessages(RoomEventsView events); void setLastReadEvent(User* u, const QString& eventId); rev_iter_pair_t promoteReadMarker(User* u, rev_iter_t newMarker, bool force = false); void processRedaction(const RedactionEvent* redaction); QJsonObject toJson() const; private: QString calculateDisplayname() const; QString roomNameFromMemberNames(const QList& userlist) const; void insertMemberIntoMap(User* u); void removeMemberFromMap(const QString& username, User* u); bool isLocalUser(const User* u) const { return u == connection->user(); } }; Room::Room(Connection* connection, QString id, JoinState initialJoinState) : QObject(connection), d(new Private(connection, id, initialJoinState)) { // See "Accessing the Public Class" section in // https://marcmutz.wordpress.com/translated-articles/pimp-my-pimpl-%E2%80%94-reloaded/ d->q = this; qCDebug(MAIN) << "New" << toCString(initialJoinState) << "Room:" << id; } Room::~Room() { delete d; } const QString& Room::id() const { return d->id; } const Room::Timeline& Room::messageEvents() const { return d->timeline; } QString Room::name() const { return d->name; } QStringList Room::aliases() const { return d->aliases; } QString Room::canonicalAlias() const { return d->canonicalAlias; } QString Room::displayName() const { return d->displayname; } QString Room::topic() const { return d->topic; } QPixmap Room::avatar(int width, int height) { if (!d->avatar.url().isEmpty()) return d->avatar.get(width, height, [=] { emit avatarChanged(); }); // Use the other side's avatar for 1:1's if (d->membersMap.size() == 2) { auto theOtherOneIt = d->membersMap.begin(); if (theOtherOneIt.value() == localUser()) ++theOtherOneIt; return theOtherOneIt.value()->avatarObject() .get(width, height, [=] { emit avatarChanged(); }); } return {}; } JoinState Room::joinState() const { return d->joinState; } void Room::setJoinState(JoinState state) { JoinState oldState = d->joinState; if( state == oldState ) return; d->joinState = state; qCDebug(MAIN) << "Room" << id() << "changed state: " << int(oldState) << "->" << int(state); emit joinStateChanged(oldState, state); } void Room::Private::setLastReadEvent(User* u, const QString& eventId) { lastReadEventIds.insert(u, eventId); emit q->lastReadEventChanged(u); if (isLocalUser(u)) emit q->readMarkerMoved(); } Room::Private::rev_iter_pair_t Room::Private::promoteReadMarker(User* u, Room::rev_iter_t newMarker, bool force) { Q_ASSERT_X(u, __FUNCTION__, "User* should not be nullptr"); Q_ASSERT(newMarker >= timeline.crbegin() && newMarker <= timeline.crend()); const auto prevMarker = q->readMarker(u); if (!force && prevMarker <= newMarker) // Remember, we deal with reverse iterators return { prevMarker, prevMarker }; Q_ASSERT(newMarker < timeline.crend()); // Try to auto-promote the read marker over the user's own messages // (switch to direct iterators for that). auto eagerMarker = find_if(newMarker.base(), timeline.cend(), [=](const TimelineItem& ti) { return ti->senderId() != u->id(); }); setLastReadEvent(u, (*(eagerMarker - 1))->id()); if (isLocalUser(u) && unreadMessages) { auto stillUnreadMessagesCount = count_if(eagerMarker, timeline.cend(), [=](const TimelineItem& ti) { return isEventNotable(ti.event()); }); if (stillUnreadMessagesCount == 0) { unreadMessages = false; qCDebug(MAIN) << "Room" << displayname << "has no more unread messages"; emit q->unreadMessagesChanged(q); } else qCDebug(MAIN) << "Room" << displayname << "still has" << stillUnreadMessagesCount << "unread message(s)"; } // Return newMarker, rather than eagerMarker, to save markMessagesAsRead() // (that calls this method) from going back through knowingly-local messages. return { prevMarker, newMarker }; } void Room::markMessagesAsRead(Room::rev_iter_t upToMarker) { Private::rev_iter_pair_t markers = d->promoteReadMarker(localUser(), upToMarker); if (markers.first != markers.second) qCDebug(MAIN) << "Marked messages as read until" << *readMarker(); // We shouldn't send read receipts for the local user's own messages - so // search earlier messages for the latest message not from the local user // until the previous last-read message, whichever comes first. for (; markers.second < markers.first; ++markers.second) { if ((*markers.second)->senderId() != localUser()->id()) { connection()->callApi( id(), "m.read", (*markers.second)->id()); break; } } } void Room::markMessagesAsRead(QString uptoEventId) { markMessagesAsRead(findInTimeline(uptoEventId)); } void Room::markAllMessagesAsRead() { if (!d->timeline.empty()) markMessagesAsRead(d->timeline.crbegin()); } bool Room::hasUnreadMessages() { return d->unreadMessages; } Room::rev_iter_t Room::timelineEdge() const { return d->timeline.crend(); } 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 timelineEdge() - (isValidIndex(index) ? index - minTimelineIndex() + 1 : 0); } Room::rev_iter_t Room::findInTimeline(const QString& evtId) const { if (!d->timeline.empty() && d->eventsIndex.contains(evtId)) return findInTimeline(d->eventsIndex.value(evtId)); return timelineEdge(); } Room::rev_iter_t Room::readMarker(const User* user) const { Q_ASSERT(user); return findInTimeline(d->lastReadEventIds.value(user)); } Room::rev_iter_t Room::readMarker() const { return readMarker(localUser()); } QString Room::readMarkerEventId() const { return d->lastReadEventIds.value(localUser()); } int Room::notificationCount() const { return d->notificationCount; } void Room::resetNotificationCount() { if( d->notificationCount == 0 ) return; d->notificationCount = 0; emit notificationCountChanged(this); } int Room::highlightCount() const { return d->highlightCount; } void Room::resetHighlightCount() { if( d->highlightCount == 0 ) return; d->highlightCount = 0; emit highlightCountChanged(this); } QList< User* > Room::usersTyping() const { return d->usersTyping; } QList< User* > Room::membersLeft() const { return d->membersLeft; } QList< User* > Room::users() const { return d->membersMap.values(); } QStringList Room::memberNames() const { QStringList res; for (auto u : d->membersMap) res.append( this->roomMembername(u) ); return res; } int Room::memberCount() const { return d->membersMap.size(); } int Room::timelineSize() const { return int(d->timeline.size()); } void Room::Private::insertMemberIntoMap(User *u) { auto namesakes = membersMap.values(u->name()); membersMap.insert(u->name(), u); // 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->memberRenamed(namesakes[0]); } void Room::Private::removeMemberFromMap(const QString& username, User* u) { membersMap.remove(username, u); // If there was one namesake besides the removed user, signal member renaming // for it because it doesn't need to be disambiguated anymore. // TODO: Think about left users. auto formerNamesakes = membersMap.values(username); if (formerNamesakes.size() == 1) emit q->memberRenamed(formerNamesakes[0]); } inline QByteArray makeErrorStr(const Event* e, QByteArray msg) { return msg.append("; event dump follows:\n").append(e->originalJson()); } void Room::Private::insertEvents(RoomEventsView events, EventsPlacement placement) { // Historical messages arrive in newest-to-oldest order, so the process for // them is symmetric to the one for new messages. auto index = timeline.empty() ? -int(placement) : placement == Older ? timeline.front().index() : timeline.back().index(); auto baseIndex = index; for (const auto e: events) { Q_ASSERT_X(e, __FUNCTION__, "Attempt to add nullptr to timeline"); Q_ASSERT_X(!e->id().isEmpty(), __FUNCTION__, makeErrorStr(e, "Event with empty id cannot be in the timeline")); Q_ASSERT_X(!eventsIndex.contains(e->id()), __FUNCTION__, makeErrorStr(e, "Event is already in the timeline; " "incoming events were not properly deduplicated")); if (placement == Older) timeline.emplace_front(e, --index); else timeline.emplace_back(e, ++index); eventsIndex.insert(e->id(), index); Q_ASSERT(q->findInTimeline(e->id())->event() == e); } Q_ASSERT(int(events.size()) == (index - baseIndex) * int(placement)); } void Room::Private::addMember(User *u) { if (!hasMember(u)) { insertMemberIntoMap(u); connect(u, &User::nameChanged, q, [=] (User* u, const QString& newName) { renameMember(u, newName); }); emit q->userAdded(u); } } bool Room::Private::hasMember(User* u) const { return membersMap.values(u->name()).contains(u); } User* Room::Private::member(const QString& id) const { auto u = connection->user(id); return hasMember(u) ? u : nullptr; } void Room::Private::renameMember(User* u, QString oldName) { if (hasMember(u)) { qCWarning(MAIN) << "Room::Private::renameMember(): the user " << u->name() << "is already known in the room under a new name."; return; } if (membersMap.values(oldName).contains(u)) { removeMemberFromMap(oldName, u); insertMemberIntoMap(u); emit q->memberRenamed(u); } } void Room::Private::removeMember(User* u) { if (hasMember(u)) { if ( !membersLeft.contains(u) ) membersLeft.append(u); removeMemberFromMap(u->name(), u); emit q->userRemoved(u); } } QString Room::roomMembername(User *u) const { // See the CS spec, section 11.2.2.3 QString username = u->name(); if (username.isEmpty()) return u->id(); // Get the list of users with the same display name. Most likely, // there'll be one, but there's a chance there are more. auto namesakes = d->membersMap.values(username); if (namesakes.size() == 1) return username; // We expect a user to be a member of the room - but technically it is // possible to invoke roomMemberName() even for non-members. In such case // we return the name _with_ id, to stay on a safe side. // XXX: Causes a storm of false alarms when scrolling through older events // with left users; commented out until we have a proper backtracking of // room state ("room time machine"). // if ( !namesakes.contains(u) ) // { // qCWarning() // << "Room::roomMemberName(): user" << u->id() // << "is not a member of the room" << id(); // } // In case of more than one namesake, disambiguate with user id. return username % " (" % u->id() % ")"; } QString Room::roomMembername(const QString& userId) const { return roomMembername(connection()->user(userId)); } void Room::updateData(SyncRoomData&& data) { if( d->prevBatch.isEmpty() ) d->prevBatch = data.timelinePrevBatch; setJoinState(data.joinState); QElapsedTimer et; if (!data.state.empty()) { et.start(); processStateEvents(data.state); qCDebug(PROFILER) << "*** Room::processStateEvents(state):" << et.elapsed() << "ms," << data.state.size() << "events"; } if (!data.timeline.empty()) { et.restart(); // State changes can arrive in a timeline event; so check those. processStateEvents(data.timeline); qCDebug(PROFILER) << "*** Room::processStateEvents(timeline):" << et.elapsed() << "ms," << data.timeline.size() << "events"; et.restart(); addNewMessageEvents(data.timeline.release()); qCDebug(PROFILER) << "*** Room::addNewMessageEvents():" << et.elapsed() << "ms"; } if (!data.ephemeral.empty()) { et.restart(); for( auto ephemeralEvent: data.ephemeral ) processEphemeralEvent(ephemeralEvent); qCDebug(PROFILER) << "*** Room::processEphemeralEvents():" << et.elapsed() << "ms"; } if( data.highlightCount != d->highlightCount ) { d->highlightCount = data.highlightCount; emit highlightCountChanged(this); } if( data.notificationCount != d->notificationCount ) { d->notificationCount = data.notificationCount; emit notificationCountChanged(this); } } void Room::postMessage(const QString& type, const QString& plainText) { postMessage(RoomMessageEvent { plainText, type }); } void Room::postMessage(const QString& plainText, MessageEventType type) { postMessage(RoomMessageEvent { plainText, type }); } void Room::postMessage(const RoomMessageEvent& event) { connection()->callApi(id(), event); } void Room::setTopic(const QString& newTopic) { RoomTopicEvent evt(newTopic); connection()->callApi(id(), evt); } void Room::getPreviousContent(int limit) { d->getPreviousContent(limit); } void Room::Private::getPreviousContent(int limit) { if( !roomMessagesJob ) { roomMessagesJob = connection->callApi(id, prevBatch, limit); connect( roomMessagesJob, &RoomMessagesJob::result, [=]() { if( !roomMessagesJob->error() ) { q->addHistoricalMessageEvents(roomMessagesJob->releaseEvents()); prevBatch = roomMessagesJob->end(); } roomMessagesJob = nullptr; }); } } void Room::inviteToRoom(const QString& memberId) { connection()->callApi(id(), memberId); } LeaveRoomJob* Room::leaveRoom() { return connection()->callApi(id()); } 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(), eventId, connection()->generateTxnId(), reason); } void Room::Private::dropDuplicateEvents(RoomEvents* events) const { if (events->empty()) return; // Collect all duplicate events at the end of the container auto dupsBegin = std::stable_partition(events->begin(), events->end(), [&] (RoomEvent* e) { return !eventsIndex.contains(e->id()); }); if (dupsBegin != events->begin()) { // Check the batch itself for dups auto eIt = events->begin(); for (auto baseId = (*eIt)->id(); ++eIt < dupsBegin; baseId = (*eIt)->id()) { dupsBegin = std::stable_partition(eIt, dupsBegin, [&] (const RoomEvent* e) { return e->id() != baseId; }); } } if (dupsBegin == events->end()) return; qCDebug(EVENTS) << "Dropping" << distance(dupsBegin, events->end()) << "duplicate event(s)"; // Dispose of those dups std::for_each(dupsBegin, events->end(), [] (Event* e) { delete e; }); events->erase(dupsBegin, events->end()); } void Room::Private::processRedaction(const RedactionEvent* redaction) { Q_ASSERT(redaction && redaction->type() == EventType::Redaction); const auto pIdx = eventsIndex.find(redaction->redactedEvent()); if (pIdx == eventsIndex.end()) { qCDebug(MAIN) << "Redaction" << redaction->id() << "ignored: target event not found"; return; // If the target events comes later, it comes already redacted. } Q_ASSERT(q->isValidIndex(*pIdx)); auto& ti = timeline[Timeline::size_type(*pIdx - q->minTimelineIndex())]; // Apply the redaction procedure from chapter 6.5 of The Spec auto originalJson = ti->originalJsonObject(); if (originalJson.value("unsigned").toObject() .value("redacted_because").toObject() .value("event_id") == redaction->id()) { qCDebug(MAIN) << "Redaction" << redaction->id() << "of event" << ti.event()->id() << "already done, skipping"; return; } static const QStringList keepKeys = { "event_id", "type", "room_id", "sender", "state_key", "prev_content", "content", "origin_server_ts" }; static const std::vector> keepContentKeysMap { { Event::Type::RoomMember, { "membership" } } , { Event::Type::RoomCreate, { "creator" } } , { Event::Type::RoomJoinRules, { "join_rule" } } , { Event::Type::RoomPowerLevels, { "ban", "events", "events_default", "kick", "redact", "state_default", "users", "users_default" } } , { Event::Type::RoomAliases, { "alias" } } }; 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(keepContentKeysMap.begin(), keepContentKeysMap.end(), [&](const std::pair& t) { return ti->type() == t.first; } ); if (keepContentKeys == keepContentKeysMap.end()) { originalJson.remove("content"); originalJson.remove("prev_content"); } else { auto content = originalJson.take("content").toObject(); for (auto it = content.begin(); it != content.end(); ) { if (!keepContentKeys->second.contains(it.key())) it = content.erase(it); else ++it; } originalJson.insert("content", content); } auto unsignedData = originalJson.take("unsigned").toObject(); unsignedData["redacted_because"] = redaction->originalJsonObject(); originalJson.insert("unsigned", unsignedData); // Make a new event from the redacted JSON, exchange events, // notify everyone and delete the old event auto oldEvent = ti.replaceEvent(RoomEvent::fromJson(originalJson)); q->onRedaction(oldEvent, ti); qCDebug(MAIN) << "Redacted" << oldEvent->id() << "with" << redaction->id(); emit q->replacedEvent(oldEvent, ti.event()); delete oldEvent; } Connection* Room::connection() const { Q_ASSERT(d->connection); return d->connection; } User* Room::localUser() const { return connection()->user(); } inline bool isRedaction(Event* e) { return e->type() == EventType::Redaction; } void Room::addNewMessageEvents(RoomEvents events) { auto timelineSize = d->timeline.size(); d->dropDuplicateEvents(&events); // We want to process redactions in the order of arrival (covering the // case of one redaction superseding another one), hence stable partition. const auto normalsBegin = std::stable_partition(events.begin(), events.end(), isRedaction); RoomEventsView redactions { events.begin(), normalsBegin }, normalEvents { normalsBegin, events.end() }; if (!normalEvents.empty()) { emit aboutToAddNewMessages(normalEvents); doAddNewMessageEvents(normalEvents); } for (auto* r: redactions) d->processRedaction(static_cast(r)); if (!normalEvents.empty()) { d->checkUnreadMessages(normalEvents); emit addedMessages(); } Q_ASSERT(d->timeline.size() == timelineSize + normalEvents.size()); } void Room::doAddNewMessageEvents(RoomEventsView events) { Q_ASSERT(!events.empty()); d->insertEvents(events, Newer); qCDebug(MAIN) << "Room" << displayName() << "received" << events.size() << "new events; the last event is now" << d->timeline.back(); } void Room::Private::checkUnreadMessages(RoomEventsView events) { auto newUnreadMessages = count_if(events.from, events.to, [=] (const RoomEvent* e) { return isEventNotable(e); }); // The first event in the batch defines whose read marker can possibly be // promoted any further over the same author's events newly arrived. // Others will need explicit read receipts from the server (or, for // the local user, markMessagesAsRead() invocation) to promote their // read markers over the new message events. User* firstWriter = connection->user((*events.from)->senderId()); if (q->readMarker(firstWriter) != timeline.crend()) { promoteReadMarker(firstWriter, q->findInTimeline((*events.from)->id())); qCDebug(MAIN) << "Auto-promoted read marker for" << firstWriter->id() << "to" << *q->readMarker(firstWriter); } if(!unreadMessages && newUnreadMessages > 0) { unreadMessages = true; emit q->unreadMessagesChanged(q); qCDebug(MAIN) << "Room" << displayname << "has unread messages"; } } void Room::addHistoricalMessageEvents(RoomEvents events) { auto timelineSize = d->timeline.size(); d->dropDuplicateEvents(&events); auto redactionsBegin = std::remove_if(events.begin(), events.end(), isRedaction); RoomEventsView normalEvents { events.begin(), redactionsBegin }; if (normalEvents.empty()) return; emit aboutToAddHistoricalMessages(normalEvents); doAddHistoricalMessageEvents(normalEvents); emit addedMessages(); Q_ASSERT(d->timeline.size() == timelineSize + normalEvents.size()); } void Room::doAddHistoricalMessageEvents(RoomEventsView events) { Q_ASSERT(!events.empty()); const bool thereWasNoReadMarker = readMarker() == timelineEdge(); d->insertEvents(events, Older); // Catch a special case when the last read event id refers to an event // that was outside the loaded timeline and has just arrived. Depending on // other messages next to the last read one, we might need to promote // the read marker and update unreadMessages flag. const auto curReadMarker = readMarker(); if (thereWasNoReadMarker && curReadMarker != timelineEdge()) { qCDebug(MAIN) << "Discovered last read event in a historical batch"; d->promoteReadMarker(localUser(), curReadMarker, true); } qCDebug(MAIN) << "Room" << displayName() << "received" << events.size() << "past events; the oldest event is now" << d->timeline.front(); } void Room::processStateEvents(const RoomEvents& events) { bool emitNamesChanged = false; for (auto event: events) { switch (event->type()) { case EventType::RoomName: { auto nameEvent = static_cast(event); d->name = nameEvent->name(); qCDebug(MAIN) << "Room name updated:" << d->name; emitNamesChanged = true; break; } case EventType::RoomAliases: { auto aliasesEvent = static_cast(event); d->aliases = aliasesEvent->aliases(); qCDebug(MAIN) << "Room aliases updated:" << d->aliases; emitNamesChanged = true; break; } case EventType::RoomCanonicalAlias: { auto aliasEvent = static_cast(event); d->canonicalAlias = aliasEvent->alias(); qCDebug(MAIN) << "Room canonical alias updated:" << d->canonicalAlias; emitNamesChanged = true; break; } case EventType::RoomTopic: { auto topicEvent = static_cast(event); d->topic = topicEvent->topic(); qCDebug(MAIN) << "Room topic updated:" << d->topic; emit topicChanged(); break; } case EventType::RoomAvatar: { const auto& avatarEventContent = static_cast(event)->content(); if (d->avatar.updateUrl(avatarEventContent.url)) { qCDebug(MAIN) << "Room avatar URL updated:" << avatarEventContent.url.toString(); emit avatarChanged(); } break; } case EventType::RoomMember: { auto memberEvent = static_cast(event); // Can't use d->member() below because the user may be not a member (yet) auto u = d->connection->user(memberEvent->userId()); u->processEvent(event); if( memberEvent->membership() == MembershipType::Join ) { d->addMember(u); } else if( memberEvent->membership() == MembershipType::Leave ) { d->removeMember(u); } break; } default: /* Ignore events of other types */; } } if (emitNamesChanged) { emit namesChanged(this); } d->updateDisplayname(); } void Room::processEphemeralEvent(Event* event) { switch (event->type()) { case EventType::Typing: { auto typingEvent = static_cast(event); d->usersTyping.clear(); for( const QString& userId: typingEvent->users() ) { if (auto m = d->member(userId)) d->usersTyping.append(m); } emit typingChanged(); break; } case EventType::Receipt: { auto receiptEvent = static_cast(event); for( const auto &p: receiptEvent->eventsWithReceipts() ) { { if (p.receipts.size() == 1) qCDebug(EPHEMERAL) << "Marking" << p.evtId << "as read for" << p.receipts[0].userId; else qCDebug(EPHEMERAL) << "Marking" << p.evtId << "as read for" << p.receipts.size() << "users"; } if (d->eventsIndex.contains(p.evtId)) { const auto newMarker = findInTimeline(p.evtId); for( const Receipt& r: p.receipts ) if (auto m = d->member(r.userId)) d->promoteReadMarker(m, newMarker); } else { qCDebug(EPHEMERAL) << "Event" << p.evtId << "not found; saving read receipts anyway"; // If the 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, keep the previous marker. // Otherwise, blindly store the event id for this user. for( const Receipt& r: p.receipts ) if (auto m = d->member(r.userId)) if (readMarker(m) == timelineEdge()) d->setLastReadEvent(m, p.evtId); } } if (receiptEvent->unreadMessages()) d->unreadMessages = true; break; } default: qCWarning(EPHEMERAL) << "Unexpected event type in 'ephemeral' batch:" << event->type(); } } QString Room::Private::roomNameFromMemberNames(const QList &userlist) const { // This is part 3(i,ii,iii) in the room displayname algorithm described // in the CS spec (see also Room::Private::updateDisplayname() ). // 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. // std::array is the leanest C++ container std::array first_two = { {nullptr, nullptr} }; std::partial_sort_copy( userlist.begin(), userlist.end(), first_two.begin(), first_two.end(), [this](const User* u1, const User* u2) { // Filter out the "me" user so that it never hits the room name return isLocalUser(u2) || (!isLocalUser(u1) && u1->id() < u2->id()); } ); // i. One-on-one chat. first_two[1] == localUser() in this case. if (userlist.size() == 2) return q->roomMembername(first_two[0]); // ii. Two users besides the current one. if (userlist.size() == 3) return tr("%1 and %2") .arg(q->roomMembername(first_two[0])) .arg(q->roomMembername(first_two[1])); // iii. More users. if (userlist.size() > 3) return tr("%1 and %L2 others") .arg(q->roomMembername(first_two[0])) .arg(userlist.size() - 3); // userlist.size() < 2 - apparently, there's only current user in the room return QString(); } QString Room::Private::calculateDisplayname() const { // CS spec, section 11.2.2.5 Calculating the display name for a room // Numbers below refer to respective parts in the spec. // 1. Name (from m.room.name) if (!name.isEmpty()) { return name; } // 2. Canonical alias if (!canonicalAlias.isEmpty()) return canonicalAlias; // 3. Room members QString topMemberNames = roomNameFromMemberNames(membersMap.values()); if (!topMemberNames.isEmpty()) return topMemberNames; // 4. Users that previously left the room topMemberNames = roomNameFromMemberNames(membersLeft); if (!topMemberNames.isEmpty()) return tr("Empty room (was: %1)").arg(topMemberNames); // 5. Fail miserably return tr("Empty room (%1)").arg(id); // Using m.room.aliases is explicitly discouraged by the spec //if (!aliases.empty() && !aliases.at(0).isEmpty()) // displayname = aliases.at(0); } void Room::Private::updateDisplayname() { const QString old_name = displayname; displayname = calculateDisplayname(); if (old_name != displayname) emit q->displaynameChanged(q); } template void appendStateEvent(QJsonArray& events, const QString& type, const QString& name, const T& content) { if (content.isEmpty()) return; QJsonObject contentObj; contentObj.insert(name, content); QJsonObject eventObj; eventObj.insert("type", type); eventObj.insert("content", contentObj); eventObj.insert("state_key", {}); // Mandatory for state events events.append(eventObj); } QJsonObject Room::Private::toJson() const { QJsonObject result; { QJsonArray stateEvents; appendStateEvent(stateEvents, "m.room.name", "name", name); appendStateEvent(stateEvents, "m.room.topic", "topic", topic); appendStateEvent(stateEvents, "m.room.avatar", "url", avatar.url().toString()); appendStateEvent(stateEvents, "m.room.aliases", "aliases", QJsonArray::fromStringList(aliases)); appendStateEvent(stateEvents, "m.room.canonical_alias", "alias", canonicalAlias); for (const auto &i : membersMap) { QJsonObject content; content.insert("membership", QStringLiteral("join")); content.insert("displayname", i->name()); content.insert("avatar_url", i->avatarUrl().toString()); QJsonObject memberEvent; memberEvent.insert("type", QStringLiteral("m.room.member")); memberEvent.insert("state_key", i->id()); memberEvent.insert("content", content); stateEvents.append(memberEvent); } QJsonObject roomStateObj; roomStateObj.insert("events", stateEvents); result.insert("state", roomStateObj); } if (!q->readMarkerEventId().isEmpty()) { QJsonArray ephemeralEvents; { // Don't dump the timestamp because it's useless in the cache. QJsonObject user; user.insert(connection->userId(), {}); QJsonObject receipt; receipt.insert("m.read", user); QJsonObject lastReadEvent; lastReadEvent.insert(q->readMarkerEventId(), receipt); lastReadEvent.insert("x-qmatrixclient.unread_messages", unreadMessages); QJsonObject receiptsObj; receiptsObj.insert("type", QStringLiteral("m.receipt")); receiptsObj.insert("content", lastReadEvent); ephemeralEvents.append(receiptsObj); } QJsonObject ephemeralObj; ephemeralObj.insert("events", ephemeralEvents); result.insert("ephemeral", ephemeralObj); } QJsonObject unreadNotificationsObj; unreadNotificationsObj.insert("highlight_count", highlightCount); unreadNotificationsObj.insert("notification_count", notificationCount); result.insert("unread_notifications", unreadNotificationsObj); return result; } QJsonObject Room::toJson() const { return d->toJson(); } MemberSorter Room::memberSorter() const { return MemberSorter(this); } bool MemberSorter::operator()(User *u1, User *u2) const { auto n1 = room->roomMembername(u1); auto n2 = room->roomMembername(u2); if (n1[0] == '@') n1.remove(0, 1); if (n2[0] == '@') n2.remove(0, 1); return n1.localeAwareCompare(n2) < 0; }