/* This file is part of Telegram Desktop, the official desktop application for the Telegram messaging service. For license and copyright information please follow this link: https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL */ #include "api/api_updates.h" #include "api/api_authorizations.h" #include "api/api_chat_participants.h" #include "api/api_ringtones.h" #include "api/api_text_entities.h" #include "api/api_user_privacy.h" #include "api/api_unread_things.h" #include "api/api_transcribes.h" #include "main/main_session.h" #include "main/main_account.h" #include "mtproto/mtp_instance.h" #include "mtproto/mtproto_config.h" #include "mtproto/mtproto_dc_options.h" #include "data/notify/data_notify_settings.h" #include "data/stickers/data_stickers.h" #include "data/data_session.h" #include "data/data_user.h" #include "data/data_chat.h" #include "data/data_changes.h" #include "data/data_channel.h" #include "data/data_chat_filters.h" #include "data/data_cloud_themes.h" #include "data/data_group_call.h" #include "data/data_drafts.h" #include "data/data_histories.h" #include "data/data_folder.h" #include "data/data_scheduled_messages.h" #include "data/data_send_action.h" #include "data/data_message_reactions.h" #include "inline_bots/bot_attach_web_view.h" #include "chat_helpers/emoji_interactions.h" #include "lang/lang_cloud_manager.h" #include "history/history.h" #include "history/history_item.h" #include "history/history_unread_things.h" #include "core/application.h" #include "storage/storage_account.h" #include "storage/storage_facade.h" #include "storage/storage_user_photos.h" #include "storage/storage_shared_media.h" #include "calls/calls_instance.h" #include "base/unixtime.h" #include "window/window_session_controller.h" #include "window/window_controller.h" #include "ui/boxes/confirm_box.h" #include "apiwrap.h" #include "ui/text/format_values.h" // Ui::FormatPhone namespace Api { namespace { constexpr auto kChannelGetDifferenceLimit = 100; // 1s wait after show channel history before sending getChannelDifference. constexpr auto kWaitForChannelGetDifference = crl::time(1000); // If nothing is received in 1 min we ping. constexpr auto kNoUpdatesTimeout = 60 * 1000; // If nothing is received in 1 min when was a sleepmode we ping. constexpr auto kNoUpdatesAfterSleepTimeout = 60 * crl::time(1000); enum class DataIsLoadedResult { NotLoaded = 0, FromNotLoaded = 1, MentionNotLoaded = 2, Ok = 3, }; void ProcessScheduledMessageWithElapsedTime( not_null session, bool needToAdd, const MTPDmessage &data) { if (needToAdd && !data.is_from_scheduled()) { // If we still need to add a new message, // we should first check if this message is in // the list of scheduled messages. // This is necessary to correctly update the file reference. // Note that when a message is scheduled until online // while the recipient is already online, the server sends // an ordinary new message with skipped "from_scheduled" flag. session->data().scheduledMessages().checkEntitiesAndUpdate(data); } } bool IsForceLogoutNotification(const MTPDupdateServiceNotification &data) { return qs(data.vtype()).startsWith(qstr("AUTH_KEY_DROP_")); } bool HasForceLogoutNotification(const MTPUpdates &updates) { const auto checkUpdate = [](const MTPUpdate &update) { if (update.type() != mtpc_updateServiceNotification) { return false; } return IsForceLogoutNotification( update.c_updateServiceNotification()); }; const auto checkVector = [&](const MTPVector &list) { for (const auto &update : list.v) { if (checkUpdate(update)) { return true; } } return false; }; switch (updates.type()) { case mtpc_updates: return checkVector(updates.c_updates().vupdates()); case mtpc_updatesCombined: return checkVector(updates.c_updatesCombined().vupdates()); case mtpc_updateShort: return checkUpdate(updates.c_updateShort().vupdate()); } return false; } bool ForwardedInfoDataLoaded( not_null session, const MTPMessageFwdHeader &header) { return header.match([&](const MTPDmessageFwdHeader &data) { if (const auto fromId = data.vfrom_id()) { // Fully loaded is required in this case. if (!session->data().peerLoaded(peerFromMTP(*fromId))) { return false; } } return true; }); } bool MentionUsersLoaded( not_null session, const MTPVector &entities) { for (const auto &entity : entities.v) { auto type = entity.type(); if (type == mtpc_messageEntityMentionName) { if (!session->data().userLoaded(entity.c_messageEntityMentionName().vuser_id())) { return false; } } else if (type == mtpc_inputMessageEntityMentionName) { auto &inputUser = entity.c_inputMessageEntityMentionName().vuser_id(); if (inputUser.type() == mtpc_inputUser) { if (!session->data().userLoaded(inputUser.c_inputUser().vuser_id())) { return false; } } } } return true; } DataIsLoadedResult AllDataLoadedForMessage( not_null session, const MTPMessage &message) { return message.match([&](const MTPDmessage &message) { if (const auto fromId = message.vfrom_id()) { if (!message.is_post() && !session->data().peerLoaded(peerFromMTP(*fromId))) { return DataIsLoadedResult::FromNotLoaded; } } if (const auto viaBotId = message.vvia_bot_id()) { if (!session->data().userLoaded(*viaBotId)) { return DataIsLoadedResult::NotLoaded; } } if (const auto fwd = message.vfwd_from()) { if (!ForwardedInfoDataLoaded(session, *fwd)) { return DataIsLoadedResult::NotLoaded; } } if (const auto entities = message.ventities()) { if (!MentionUsersLoaded(session, *entities)) { return DataIsLoadedResult::MentionNotLoaded; } } return DataIsLoadedResult::Ok; }, [&](const MTPDmessageService &message) { if (const auto fromId = message.vfrom_id()) { if (!message.is_post() && !session->data().peerLoaded(peerFromMTP(*fromId))) { return DataIsLoadedResult::FromNotLoaded; } } return message.vaction().match( [&](const MTPDmessageActionChatAddUser &action) { for (const auto &userId : action.vusers().v) { if (!session->data().userLoaded(userId)) { return DataIsLoadedResult::NotLoaded; } } return DataIsLoadedResult::Ok; }, [&](const MTPDmessageActionChatJoinedByLink &action) { if (!session->data().userLoaded(action.vinviter_id())) { return DataIsLoadedResult::NotLoaded; } return DataIsLoadedResult::Ok; }, [&](const MTPDmessageActionChatDeleteUser &action) { if (!session->data().userLoaded(action.vuser_id())) { return DataIsLoadedResult::NotLoaded; } return DataIsLoadedResult::Ok; }, [](const auto &) { return DataIsLoadedResult::Ok; }); }, [](const MTPDmessageEmpty &message) { return DataIsLoadedResult::Ok; }); } } // namespace Updates::Updates(not_null session) : _session(session) , _noUpdatesTimer([=] { sendPing(); }) , _onlineTimer([=] { updateOnline(); }) , _ptsWaiter(this) , _byPtsTimer([=] { getDifferenceByPts(); }) , _bySeqTimer([=] { getDifference(); }) , _byMinChannelTimer([=] { getDifference(); }) , _failDifferenceTimer([=] { getDifferenceAfterFail(); }) , _idleFinishTimer([=] { checkIdleFinish(); }) { _ptsWaiter.setRequesting(true); session->account().mtpUpdates( ) | rpl::start_with_next([=](const MTPUpdates &updates) { mtpUpdateReceived(updates); }, _lifetime); session->account().mtpNewSessionCreated( ) | rpl::start_with_next([=] { mtpNewSessionCreated(); }, _lifetime); api().request(MTPupdates_GetState( )).done([=](const MTPupdates_State &result) { stateDone(result); }).send(); using namespace rpl::mappers; session->changes().peerUpdates( Data::PeerUpdate::Flag::FullInfo ) | rpl::filter([](const Data::PeerUpdate &update) { return update.peer->isChat() || update.peer->isMegagroup(); }) | rpl::start_with_next([=](const Data::PeerUpdate &update) { const auto peer = update.peer; if (const auto list = _pendingSpeakingCallParticipants.take(peer)) { if (const auto call = peer->groupCall()) { for (const auto &[participantPeerId, when] : *list) { call->applyActiveUpdate( participantPeerId, Data::LastSpokeTimes{ .anything = when, .voice = when }, peer->owner().peerLoaded(participantPeerId)); } } } }, _lifetime); } Main::Session &Updates::session() const { return *_session; } ApiWrap &Updates::api() const { return _session->api(); } void Updates::checkLastUpdate(bool afterSleep) { const auto now = crl::now(); const auto skip = afterSleep ? kNoUpdatesAfterSleepTimeout : kNoUpdatesTimeout; if (_lastUpdateTime && now > _lastUpdateTime + skip) { _lastUpdateTime = now; sendPing(); } } void Updates::feedUpdateVector( const MTPVector &updates, SkipUpdatePolicy policy) { auto list = updates.v; const auto hasGroupCallParticipantUpdates = ranges::contains( list, mtpc_updateGroupCallParticipants, &MTPUpdate::type); if (hasGroupCallParticipantUpdates) { ranges::stable_sort(list, std::less<>(), [](const MTPUpdate &entry) { if (entry.type() == mtpc_updateGroupCallParticipants) { return 0; } else { return 1; } }); } else if (policy == SkipUpdatePolicy::SkipExceptGroupCallParticipants) { return; } for (const auto &entry : std::as_const(list)) { const auto type = entry.type(); if ((policy == SkipUpdatePolicy::SkipMessageIds && type == mtpc_updateMessageID) || (policy == SkipUpdatePolicy::SkipExceptGroupCallParticipants && type != mtpc_updateGroupCallParticipants)) { continue; } feedUpdate(entry); } session().data().sendHistoryChangeNotifications(); } void Updates::feedMessageIds(const MTPVector &updates) { for (const auto &update : updates.v) { if (update.type() == mtpc_updateMessageID) { feedUpdate(update); } } } void Updates::setState(int32 pts, int32 date, int32 qts, int32 seq) { if (pts) { _ptsWaiter.init(pts); } if (_updatesDate < date && !_byMinChannelTimer.isActive()) { _updatesDate = date; } if (qts && _updatesQts < qts) { _updatesQts = qts; } if (seq && seq != _updatesSeq) { _updatesSeq = seq; if (_bySeqTimer.isActive()) { _bySeqTimer.cancel(); } while (!_bySeqUpdates.empty()) { const auto s = _bySeqUpdates.front().first; if (s <= seq + 1) { const auto v = _bySeqUpdates.front().second; _bySeqUpdates.erase(_bySeqUpdates.begin()); if (s == seq + 1) { return applyUpdates(v); } } else { if (!_bySeqTimer.isActive()) { _bySeqTimer.callOnce(PtsWaiter::kWaitForSkippedTimeout); } break; } } } } void Updates::channelDifferenceDone( not_null channel, const MTPupdates_ChannelDifference &difference) { _channelFailDifferenceTimeout.remove(channel); const auto timeout = difference.match([&](const auto &data) { return data.vtimeout().value_or_empty(); }); const auto isFinal = difference.match([&](const auto &data) { return data.is_final(); }); difference.match([&](const MTPDupdates_channelDifferenceEmpty &data) { channel->ptsInit(data.vpts().v); }, [&](const MTPDupdates_channelDifferenceTooLong &data) { session().data().processUsers(data.vusers()); session().data().processChats(data.vchats()); const auto history = session().data().historyLoaded(channel->id); if (history) { history->setNotLoadedAtBottom(); requestChannelRangeDifference(history); } data.vdialog().match([&](const MTPDdialog &data) { if (const auto pts = data.vpts()) { channel->ptsInit(pts->v); } }, [&](const MTPDdialogFolder &) { }); session().data().applyDialogs( nullptr, data.vmessages().v, QVector(1, data.vdialog())); session().data().channelDifferenceTooLong(channel); }, [&](const MTPDupdates_channelDifference &data) { feedChannelDifference(data); channel->ptsInit(data.vpts().v); }); channel->ptsSetRequesting(false); if (!isFinal) { MTP_LOG(0, ("getChannelDifference " "{ good - after not final channelDifference was received }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); getChannelDifference(channel); } else if (ranges::contains( _activeChats, channel, [](const auto &pair) { return pair.second.peer; })) { channel->ptsWaitingForShortPoll(timeout ? (timeout * crl::time(1000)) : kWaitForChannelGetDifference); } } void Updates::feedChannelDifference( const MTPDupdates_channelDifference &data) { session().data().processUsers(data.vusers()); session().data().processChats(data.vchats()); _handlingChannelDifference = true; feedMessageIds(data.vother_updates()); session().data().processMessages( data.vnew_messages(), NewMessageType::Unread); feedUpdateVector( data.vother_updates(), SkipUpdatePolicy::SkipMessageIds); _handlingChannelDifference = false; } void Updates::channelDifferenceFail( not_null channel, const MTP::Error &error) { LOG(("RPC Error in getChannelDifference: %1 %2: %3").arg( QString::number(error.code()), error.type(), error.description())); failDifferenceStartTimerFor(channel); } void Updates::stateDone(const MTPupdates_State &state) { const auto &d = state.c_updates_state(); setState(d.vpts().v, d.vdate().v, d.vqts().v, d.vseq().v); _lastUpdateTime = crl::now(); _noUpdatesTimer.callOnce(kNoUpdatesTimeout); _ptsWaiter.setRequesting(false); session().api().requestDialogs(); updateOnline(); } void Updates::differenceDone(const MTPupdates_Difference &result) { _failDifferenceTimeout = 1; switch (result.type()) { case mtpc_updates_differenceEmpty: { auto &d = result.c_updates_differenceEmpty(); setState(_ptsWaiter.current(), d.vdate().v, _updatesQts, d.vseq().v); _lastUpdateTime = crl::now(); _noUpdatesTimer.callOnce(kNoUpdatesTimeout); _ptsWaiter.setRequesting(false); } break; case mtpc_updates_differenceSlice: { auto &d = result.c_updates_differenceSlice(); feedDifference(d.vusers(), d.vchats(), d.vnew_messages(), d.vother_updates()); auto &s = d.vintermediate_state().c_updates_state(); setState(s.vpts().v, s.vdate().v, s.vqts().v, s.vseq().v); _ptsWaiter.setRequesting(false); MTP_LOG(0, ("getDifference " "{ good - after a slice of difference was received }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); getDifference(); } break; case mtpc_updates_difference: { auto &d = result.c_updates_difference(); feedDifference(d.vusers(), d.vchats(), d.vnew_messages(), d.vother_updates()); stateDone(d.vstate()); } break; case mtpc_updates_differenceTooLong: { LOG(("API Error: updates.differenceTooLong is not supported by Telegram Desktop!")); } break; }; } bool Updates::whenGetDiffChanged( ChannelData *channel, int32 ms, base::flat_map, crl::time> &whenMap, crl::time &curTime) { if (channel) { if (ms <= 0) { const auto i = whenMap.find(channel); if (i != whenMap.cend()) { whenMap.erase(i); } else { return false; } } else { auto when = crl::now() + ms; const auto i = whenMap.find(channel); if (i != whenMap.cend()) { if (i->second > when) { i->second = when; } else { return false; } } else { whenMap.emplace(channel, when); } } } else { if (ms <= 0) { if (curTime) { curTime = 0; } else { return false; } } else { auto when = crl::now() + ms; if (!curTime || curTime > when) { curTime = when; } else { return false; } } } return true; } void Updates::ptsWaiterStartTimerFor(ChannelData *channel, crl::time ms) { if (whenGetDiffChanged(channel, ms, _whenGetDiffByPts, _getDifferenceTimeByPts)) { getDifferenceByPts(); } } void Updates::failDifferenceStartTimerFor(ChannelData *channel) { auto &timeout = [&]() -> crl::time & { if (!channel) { return _failDifferenceTimeout; } const auto i = _channelFailDifferenceTimeout.find(channel); return (i == _channelFailDifferenceTimeout.end()) ? _channelFailDifferenceTimeout.emplace(channel, 1).first->second : i->second; }(); if (whenGetDiffChanged(channel, timeout * 1000, _whenGetDiffAfterFail, _getDifferenceTimeAfterFail)) { getDifferenceAfterFail(); } if (timeout < 64) timeout *= 2; } bool Updates::updateAndApply( int32 pts, int32 ptsCount, const MTPUpdates &updates) { return _ptsWaiter.updateAndApply(nullptr, pts, ptsCount, updates); } bool Updates::updateAndApply( int32 pts, int32 ptsCount, const MTPUpdate &update) { return _ptsWaiter.updateAndApply(nullptr, pts, ptsCount, update); } bool Updates::updateAndApply(int32 pts, int32 ptsCount) { return _ptsWaiter.updateAndApply(nullptr, pts, ptsCount); } void Updates::feedDifference( const MTPVector &users, const MTPVector &chats, const MTPVector &msgs, const MTPVector &other) { Core::App().checkAutoLock(); session().data().processUsers(users); session().data().processChats(chats); feedMessageIds(other); session().data().processMessages(msgs, NewMessageType::Unread); feedUpdateVector(other, SkipUpdatePolicy::SkipMessageIds); } void Updates::differenceFail(const MTP::Error &error) { LOG(("RPC Error in getDifference: %1 %2: %3").arg( QString::number(error.code()), error.type(), error.description())); failDifferenceStartTimerFor(nullptr); } void Updates::getDifferenceByPts() { auto now = crl::now(), wait = crl::time(0); if (_getDifferenceTimeByPts) { if (_getDifferenceTimeByPts > now) { wait = _getDifferenceTimeByPts - now; } else { getDifference(); } } for (auto i = _whenGetDiffByPts.begin(); i != _whenGetDiffByPts.cend();) { if (i->second > now) { wait = wait ? std::min(wait, i->second - now) : (i->second - now); ++i; } else { getChannelDifference( i->first, ChannelDifferenceRequest::PtsGapOrShortPoll); i = _whenGetDiffByPts.erase(i); } } if (wait) { _byPtsTimer.callOnce(wait); } else { _byPtsTimer.cancel(); } } void Updates::getDifferenceAfterFail() { auto now = crl::now(), wait = crl::time(0); if (_getDifferenceTimeAfterFail) { if (_getDifferenceTimeAfterFail > now) { wait = _getDifferenceTimeAfterFail - now; } else { _ptsWaiter.setRequesting(false); MTP_LOG(0, ("getDifference " "{ force - after get difference failed }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); getDifference(); } } for (auto i = _whenGetDiffAfterFail.begin(); i != _whenGetDiffAfterFail.cend();) { if (i->second > now) { wait = wait ? std::min(wait, i->second - now) : (i->second - now); ++i; } else { getChannelDifference(i->first, ChannelDifferenceRequest::AfterFail); i = _whenGetDiffAfterFail.erase(i); } } if (wait) { _failDifferenceTimer.callOnce(wait); } else { _failDifferenceTimer.cancel(); } } void Updates::getDifference() { _getDifferenceTimeByPts = 0; if (requestingDifference()) { return; } _bySeqUpdates.clear(); _bySeqTimer.cancel(); _noUpdatesTimer.cancel(); _getDifferenceTimeAfterFail = 0; _ptsWaiter.setRequesting(true); api().request(MTPupdates_GetDifference( MTP_flags(0), MTP_int(_ptsWaiter.current()), MTPint(), MTP_int(_updatesDate), MTP_int(_updatesQts) )).done([=](const MTPupdates_Difference &result) { differenceDone(result); }).fail([=](const MTP::Error &error) { differenceFail(error); }).send(); } void Updates::getChannelDifference( not_null channel, ChannelDifferenceRequest from) { if (from != ChannelDifferenceRequest::PtsGapOrShortPoll) { _whenGetDiffByPts.remove(channel); } if (!channel->ptsInited() || channel->ptsRequesting()) return; if (from != ChannelDifferenceRequest::AfterFail) { _whenGetDiffAfterFail.remove(channel); } channel->ptsSetRequesting(true); auto filter = MTP_channelMessagesFilterEmpty(); auto flags = MTPupdates_GetChannelDifference::Flag::f_force | 0; if (from != ChannelDifferenceRequest::PtsGapOrShortPoll) { if (!channel->ptsWaitingForSkipped()) { flags = 0; // No force flag when requesting for short poll. } } api().request(MTPupdates_GetChannelDifference( MTP_flags(flags), channel->inputChannel, filter, MTP_int(channel->pts()), MTP_int(kChannelGetDifferenceLimit) )).done([=](const MTPupdates_ChannelDifference &result) { channelDifferenceDone(channel, result); }).fail([=](const MTP::Error &error) { channelDifferenceFail(channel, error); }).send(); } void Updates::sendPing() { _session->mtp().ping(); } void Updates::addActiveChat(rpl::producer chat) { const auto key = _activeChats.empty() ? 0 : _activeChats.back().first + 1; std::move( chat ) | rpl::start_with_next_done([=](PeerData *peer) { _activeChats[key].peer = peer; if (const auto channel = peer ? peer->asChannel() : nullptr) { channel->ptsWaitingForShortPoll( kWaitForChannelGetDifference); } }, [=] { _activeChats.erase(key); }, _activeChats[key].lifetime); } void Updates::requestChannelRangeDifference(not_null history) { Expects(history->peer->isChannel()); const auto channel = history->peer->asChannel(); if (const auto requestId = _rangeDifferenceRequests.take(channel)) { api().request(*requestId).cancel(); } const auto range = history->rangeForDifferenceRequest(); if (!(range.from < range.till) || !channel->pts()) { return; } MTP_LOG(0, ("getChannelDifference " "{ good - after channelDifferenceTooLong was received, " "validating history part }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); channelRangeDifferenceSend(channel, range, channel->pts()); } void Updates::channelRangeDifferenceSend( not_null channel, MsgRange range, int32 pts) { Expects(range.from < range.till); const auto limit = range.till - range.from; const auto filter = MTP_channelMessagesFilter( MTP_flags(0), MTP_vector(1, MTP_messageRange( MTP_int(range.from), MTP_int(range.till - 1)))); const auto requestId = api().request(MTPupdates_GetChannelDifference( MTP_flags(MTPupdates_GetChannelDifference::Flag::f_force), channel->inputChannel, filter, MTP_int(pts), MTP_int(limit) )).done([=](const MTPupdates_ChannelDifference &result) { _rangeDifferenceRequests.remove(channel); channelRangeDifferenceDone(channel, range, result); }).fail([=] { _rangeDifferenceRequests.remove(channel); }).send(); _rangeDifferenceRequests.emplace(channel, requestId); } void Updates::channelRangeDifferenceDone( not_null channel, MsgRange range, const MTPupdates_ChannelDifference &result) { auto nextRequestPts = int32(0); auto isFinal = true; switch (result.type()) { case mtpc_updates_channelDifferenceEmpty: { const auto &d = result.c_updates_channelDifferenceEmpty(); nextRequestPts = d.vpts().v; isFinal = d.is_final(); } break; case mtpc_updates_channelDifferenceTooLong: { const auto &d = result.c_updates_channelDifferenceTooLong(); _session->data().processUsers(d.vusers()); _session->data().processChats(d.vchats()); nextRequestPts = d.vdialog().match([&](const MTPDdialog &data) { return data.vpts().value_or_empty(); }, [&](const MTPDdialogFolder &data) { return 0; }); isFinal = d.is_final(); } break; case mtpc_updates_channelDifference: { const auto &d = result.c_updates_channelDifference(); feedChannelDifference(d); nextRequestPts = d.vpts().v; isFinal = d.is_final(); } break; } if (!isFinal && nextRequestPts) { MTP_LOG(0, ("getChannelDifference " "{ good - after not final channelDifference was received, " "validating history part }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); channelRangeDifferenceSend(channel, range, nextRequestPts); } } void Updates::mtpNewSessionCreated() { Core::App().checkAutoLock(); _updatesSeq = 0; MTP_LOG(0, ("getDifference { after new_session_created }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); getDifference(); } void Updates::mtpUpdateReceived(const MTPUpdates &updates) { Core::App().checkAutoLock(); _lastUpdateTime = crl::now(); _noUpdatesTimer.callOnce(kNoUpdatesTimeout); if (!requestingDifference() || HasForceLogoutNotification(updates)) { applyUpdates(updates); } else { applyGroupCallParticipantUpdates(updates); } } void Updates::applyGroupCallParticipantUpdates(const MTPUpdates &updates) { updates.match([&](const MTPDupdates &data) { session().data().processUsers(data.vusers()); session().data().processChats(data.vchats()); feedUpdateVector( data.vupdates(), SkipUpdatePolicy::SkipExceptGroupCallParticipants); }, [&](const MTPDupdatesCombined &data) { session().data().processUsers(data.vusers()); session().data().processChats(data.vchats()); feedUpdateVector( data.vupdates(), SkipUpdatePolicy::SkipExceptGroupCallParticipants); }, [&](const MTPDupdateShort &data) { if (data.vupdate().type() == mtpc_updateGroupCallParticipants) { feedUpdate(data.vupdate()); } }, [](const auto &) { }); } int32 Updates::pts() const { return _ptsWaiter.current(); } void Updates::updateOnline(crl::time lastNonIdleTime) { updateOnline(lastNonIdleTime, false); } bool Updates::isIdle() const { return _isIdle.current(); } rpl::producer Updates::isIdleValue() const { return _isIdle.value(); } void Updates::updateOnline(crl::time lastNonIdleTime, bool gotOtherOffline) { if (!lastNonIdleTime) { lastNonIdleTime = Core::App().lastNonIdleTime(); } crl::on_main(&session(), [=] { Core::App().checkAutoLock(lastNonIdleTime); }); const auto &config = _session->serverConfig(); bool isOnline = Core::App().hasActiveWindow(&session()); int updateIn = config.onlineUpdatePeriod; Assert(updateIn >= 0); if (isOnline) { const auto idle = crl::now() - lastNonIdleTime; if (idle >= config.offlineIdleTimeout) { isOnline = false; if (!isIdle()) { _isIdle = true; _idleFinishTimer.callOnce(900); } } else { updateIn = qMin(updateIn, int(config.offlineIdleTimeout - idle)); Assert(updateIn >= 0); } } auto ms = crl::now(); if (isOnline != _lastWasOnline || (isOnline && _lastSetOnline + config.onlineUpdatePeriod <= ms) || (isOnline && gotOtherOffline)) { api().request(base::take(_onlineRequest)).cancel(); _lastWasOnline = isOnline; _lastSetOnline = ms; if (!Core::Quitting()) { _onlineRequest = api().request(MTPaccount_UpdateStatus( MTP_bool(!isOnline) )).send(); } else { _onlineRequest = api().request(MTPaccount_UpdateStatus( MTP_bool(!isOnline) )).done([=] { Core::App().quitPreventFinished(); }).fail([=] { Core::App().quitPreventFinished(); }).send(); } const auto self = session().user(); self->onlineTill = base::unixtime::now() + (isOnline ? (config.onlineUpdatePeriod / 1000) : -1); session().changes().peerUpdated( self, Data::PeerUpdate::Flag::OnlineStatus); if (!isOnline) { // Went offline, so we need to save message draft to the cloud. api().saveCurrentDraftToCloud(); } _lastSetOnline = ms; } else if (isOnline) { updateIn = qMin(updateIn, int(_lastSetOnline + config.onlineUpdatePeriod - ms)); Assert(updateIn >= 0); } _onlineTimer.callOnce(updateIn); } void Updates::checkIdleFinish(crl::time lastNonIdleTime) { if (!lastNonIdleTime) { lastNonIdleTime = Core::App().lastNonIdleTime(); } if (crl::now() - lastNonIdleTime < _session->serverConfig().offlineIdleTimeout) { updateOnline(lastNonIdleTime); _idleFinishTimer.cancel(); _isIdle = false; } else { _idleFinishTimer.callOnce(900); } } bool Updates::lastWasOnline() const { return _lastWasOnline; } crl::time Updates::lastSetOnline() const { return _lastSetOnline; } bool Updates::isQuitPrevent() { if (!_lastWasOnline) { return false; } LOG(("Api::Updates prevents quit, sending offline status...")); updateOnline(crl::now()); return true; } void Updates::handleSendActionUpdate( PeerId peerId, MsgId rootId, PeerId fromId, const MTPSendMessageAction &action) { const auto history = session().data().historyLoaded(peerId); if (!history) { return; } const auto peer = history->peer; const auto from = (fromId == session().userPeerId()) ? session().user().get() : session().data().peerLoaded(fromId); if (action.type() == mtpc_speakingInGroupCallAction) { handleSpeakingInCall(peer, fromId, from); } if (!from || !from->isUser() || from->isSelf()) { return; } else if (action.type() == mtpc_sendMessageEmojiInteraction) { handleEmojiInteraction(peer, action.c_sendMessageEmojiInteraction()); return; } else if (action.type() == mtpc_sendMessageEmojiInteractionSeen) { const auto &data = action.c_sendMessageEmojiInteractionSeen(); handleEmojiInteraction(peer, qs(data.vemoticon())); return; } const auto when = requestingDifference() ? 0 : base::unixtime::now(); session().data().sendActionManager().registerFor( history, rootId, from->asUser(), action, when); } void Updates::handleEmojiInteraction( not_null peer, const MTPDsendMessageEmojiInteraction &data) { const auto json = data.vinteraction().match([&]( const MTPDdataJSON &data) { return data.vdata().v; }); handleEmojiInteraction( peer, data.vmsg_id().v, qs(data.vemoticon()), ChatHelpers::EmojiInteractions::Parse(json)); } void Updates::handleSpeakingInCall( not_null peer, PeerId participantPeerId, PeerData *participantPeerLoaded) { if (!peer->isChat() && !peer->isChannel()) { return; } const auto call = peer->groupCall(); const auto now = crl::now(); if (call) { call->applyActiveUpdate( participantPeerId, Data::LastSpokeTimes{ .anything = now, .voice = now }, participantPeerLoaded); } else { const auto chat = peer->asChat(); const auto channel = peer->asChannel(); const auto active = chat ? (chat->flags() & ChatDataFlag::CallActive) : (channel->flags() & ChannelDataFlag::CallActive); if (active) { _pendingSpeakingCallParticipants.emplace( peer).first->second[participantPeerId] = now; if (peerIsUser(participantPeerId)) { session().api().requestFullPeer(peer); } } } } void Updates::handleEmojiInteraction( not_null peer, MsgId messageId, const QString &emoticon, ChatHelpers::EmojiInteractionsBunch bunch) { if (session().windows().empty()) { return; } const auto window = session().windows().front(); window->emojiInteractions().startIncoming( peer, messageId, emoticon, std::move(bunch)); } void Updates::handleEmojiInteraction( not_null peer, const QString &emoticon) { if (session().windows().empty()) { return; } const auto window = session().windows().front(); window->emojiInteractions().seenOutgoing(peer, emoticon); } void Updates::applyUpdatesNoPtsCheck(const MTPUpdates &updates) { switch (updates.type()) { case mtpc_updateShortMessage: { const auto &d = updates.c_updateShortMessage(); const auto flags = mtpCastFlags(d.vflags().v) | MTPDmessage::Flag::f_from_id; _session->data().addNewMessage( MTP_message( MTP_flags(flags), d.vid(), (d.is_out() ? peerToMTP(_session->userPeerId()) : MTP_peerUser(d.vuser_id())), MTP_peerUser(d.vuser_id()), d.vfwd_from() ? *d.vfwd_from() : MTPMessageFwdHeader(), MTP_long(d.vvia_bot_id().value_or_empty()), d.vreply_to() ? *d.vreply_to() : MTPMessageReplyHeader(), d.vdate(), d.vmessage(), MTP_messageMediaEmpty(), MTPReplyMarkup(), MTP_vector(d.ventities().value_or_empty()), MTPint(), // views MTPint(), // forwards MTPMessageReplies(), MTPint(), // edit_date MTPstring(), MTPlong(), MTPMessageReactions(), MTPVector(), MTP_int(d.vttl_period().value_or_empty())), MessageFlags(), NewMessageType::Unread); } break; case mtpc_updateShortChatMessage: { const auto &d = updates.c_updateShortChatMessage(); const auto flags = mtpCastFlags(d.vflags().v) | MTPDmessage::Flag::f_from_id; _session->data().addNewMessage( MTP_message( MTP_flags(flags), d.vid(), MTP_peerUser(d.vfrom_id()), MTP_peerChat(d.vchat_id()), d.vfwd_from() ? *d.vfwd_from() : MTPMessageFwdHeader(), MTP_long(d.vvia_bot_id().value_or_empty()), d.vreply_to() ? *d.vreply_to() : MTPMessageReplyHeader(), d.vdate(), d.vmessage(), MTP_messageMediaEmpty(), MTPReplyMarkup(), MTP_vector(d.ventities().value_or_empty()), MTPint(), // views MTPint(), // forwards MTPMessageReplies(), MTPint(), // edit_date MTPstring(), MTPlong(), MTPMessageReactions(), MTPVector(), MTP_int(d.vttl_period().value_or_empty())), MessageFlags(), NewMessageType::Unread); } break; case mtpc_updateShortSentMessage: { auto &d = updates.c_updateShortSentMessage(); Q_UNUSED(d); // Sent message data was applied anyway. } break; default: Unexpected("Type in applyUpdatesNoPtsCheck()"); } } void Updates::applyUpdateNoPtsCheck(const MTPUpdate &update) { switch (update.type()) { case mtpc_updateNewMessage: { auto &d = update.c_updateNewMessage(); auto needToAdd = true; if (d.vmessage().type() == mtpc_message) { // index forwarded messages to links _overview const auto &data = d.vmessage().c_message(); if (_session->data().updateExistingMessage(data)) { // already in blocks LOG(("Skipping message, because it is already in blocks!")); needToAdd = false; } ProcessScheduledMessageWithElapsedTime(_session, needToAdd, data); } if (needToAdd) { _session->data().addNewMessage( d.vmessage(), MessageFlags(), NewMessageType::Unread); } } break; case mtpc_updateReadMessagesContents: { const auto &d = update.c_updateReadMessagesContents(); auto unknownReadIds = base::flat_set(); for (const auto &msgId : d.vmessages().v) { if (const auto item = _session->data().nonChannelMessage(msgId.v)) { if (item->isUnreadMedia() || item->isUnreadMention()) { item->markMediaAndMentionRead(); _session->data().requestItemRepaint(item); if (item->out() && item->history()->peer->isUser() && !requestingDifference()) { item->history()->peer->asUser()->madeAction( base::unixtime::now()); } } } else { // Perhaps it was an unread mention! unknownReadIds.insert(msgId.v); } } session().api().unreadThings().mediaAndMentionsRead(unknownReadIds); } break; case mtpc_updateReadHistoryInbox: { const auto &d = update.c_updateReadHistoryInbox(); const auto peer = peerFromMTP(d.vpeer()); if (const auto history = _session->data().historyLoaded(peer)) { const auto folderId = d.vfolder_id().value_or_empty(); history->applyInboxReadUpdate( folderId, d.vmax_id().v, d.vstill_unread_count().v); } } break; case mtpc_updateReadHistoryOutbox: { const auto &d = update.c_updateReadHistoryOutbox(); const auto peer = peerFromMTP(d.vpeer()); if (const auto history = _session->data().historyLoaded(peer)) { history->outboxRead(d.vmax_id().v); if (!requestingDifference()) { if (const auto user = history->peer->asUser()) { user->madeAction(base::unixtime::now()); } } } } break; case mtpc_updateWebPage: { auto &d = update.c_updateWebPage(); Q_UNUSED(d); // Web page was updated anyway. } break; case mtpc_updateFolderPeers: { const auto &data = update.c_updateFolderPeers(); auto &owner = _session->data(); for (const auto &peer : data.vfolder_peers().v) { peer.match([&](const MTPDfolderPeer &data) { const auto peerId = peerFromMTP(data.vpeer()); if (const auto history = owner.historyLoaded(peerId)) { if (const auto folderId = data.vfolder_id().v) { history->setFolder(owner.folder(folderId)); } else { history->clearFolder(); } } }); } } break; case mtpc_updateDeleteMessages: { auto &d = update.c_updateDeleteMessages(); _session->data().processNonChannelMessagesDeleted(d.vmessages().v); } break; case mtpc_updateNewChannelMessage: { auto &d = update.c_updateNewChannelMessage(); auto needToAdd = true; if (d.vmessage().type() == mtpc_message) { // index forwarded messages to links _overview const auto &data = d.vmessage().c_message(); if (_session->data().updateExistingMessage(data)) { // already in blocks LOG(("Skipping message, because it is already in blocks!")); needToAdd = false; } ProcessScheduledMessageWithElapsedTime(_session, needToAdd, data); } if (needToAdd) { _session->data().addNewMessage( d.vmessage(), MessageFlags(), NewMessageType::Unread); } } break; case mtpc_updateEditChannelMessage: { auto &d = update.c_updateEditChannelMessage(); _session->data().updateEditedMessage(d.vmessage()); } break; case mtpc_updatePinnedChannelMessages: { const auto &d = update.c_updatePinnedChannelMessages(); const auto peerId = peerFromChannel(d.vchannel_id()); for (const auto &msgId : d.vmessages().v) { const auto item = session().data().message(peerId, msgId.v); if (item) { item->setIsPinned(d.is_pinned()); } } } break; case mtpc_updateEditMessage: { auto &d = update.c_updateEditMessage(); _session->data().updateEditedMessage(d.vmessage()); } break; case mtpc_updateChannelWebPage: { auto &d = update.c_updateChannelWebPage(); Q_UNUSED(d); // Web page was updated anyway. } break; case mtpc_updateDeleteChannelMessages: { auto &d = update.c_updateDeleteChannelMessages(); _session->data().processMessagesDeleted( peerFromChannel(d.vchannel_id().v), d.vmessages().v); } break; case mtpc_updatePinnedMessages: { const auto &d = update.c_updatePinnedMessages(); const auto peerId = peerFromMTP(d.vpeer()); for (const auto &msgId : d.vmessages().v) { const auto item = session().data().message(peerId, msgId.v); if (item) { item->setIsPinned(d.is_pinned()); } } } break; default: Unexpected("Type in applyUpdateNoPtsCheck()"); } } void Updates::applyUpdates( const MTPUpdates &updates, uint64 sentMessageRandomId) { const auto randomId = sentMessageRandomId; switch (updates.type()) { case mtpc_updates: { auto &d = updates.c_updates(); if (d.vseq().v) { if (d.vseq().v <= _updatesSeq) { return; } if (d.vseq().v > _updatesSeq + 1) { _bySeqUpdates.emplace(d.vseq().v, updates); _bySeqTimer.callOnce(PtsWaiter::kWaitForSkippedTimeout); return; } } session().data().processUsers(d.vusers()); session().data().processChats(d.vchats()); feedUpdateVector(d.vupdates()); setState(0, d.vdate().v, _updatesQts, d.vseq().v); } break; case mtpc_updatesCombined: { auto &d = updates.c_updatesCombined(); if (d.vseq_start().v) { if (d.vseq_start().v <= _updatesSeq) { return; } if (d.vseq_start().v > _updatesSeq + 1) { _bySeqUpdates.emplace(d.vseq_start().v, updates); _bySeqTimer.callOnce(PtsWaiter::kWaitForSkippedTimeout); return; } } session().data().processUsers(d.vusers()); session().data().processChats(d.vchats()); feedUpdateVector(d.vupdates()); setState(0, d.vdate().v, _updatesQts, d.vseq().v); } break; case mtpc_updateShort: { auto &d = updates.c_updateShort(); feedUpdate(d.vupdate()); setState(0, d.vdate().v, _updatesQts, _updatesSeq); } break; case mtpc_updateShortMessage: { auto &d = updates.c_updateShortMessage(); const auto viaBotId = d.vvia_bot_id(); const auto entities = d.ventities(); const auto fwd = d.vfwd_from(); if (!session().data().userLoaded(d.vuser_id()) || (viaBotId && !session().data().userLoaded(*viaBotId)) || (entities && !MentionUsersLoaded(&session(), *entities)) || (fwd && !ForwardedInfoDataLoaded(&session(), *fwd))) { MTP_LOG(0, ("getDifference " "{ good - getting user for updateShortMessage }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); return getDifference(); } if (updateAndApply(d.vpts().v, d.vpts_count().v, updates)) { // Update date as well. setState(0, d.vdate().v, _updatesQts, _updatesSeq); } } break; case mtpc_updateShortChatMessage: { auto &d = updates.c_updateShortChatMessage(); const auto noFrom = !session().data().userLoaded(d.vfrom_id()); const auto chat = session().data().chatLoaded(d.vchat_id()); const auto viaBotId = d.vvia_bot_id(); const auto entities = d.ventities(); const auto fwd = d.vfwd_from(); if (!chat || noFrom || (viaBotId && !session().data().userLoaded(*viaBotId)) || (entities && !MentionUsersLoaded(&session(), *entities)) || (fwd && !ForwardedInfoDataLoaded(&session(), *fwd))) { MTP_LOG(0, ("getDifference " "{ good - getting user for updateShortChatMessage }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); if (chat && noFrom) { session().api().requestFullPeer(chat); } return getDifference(); } if (updateAndApply(d.vpts().v, d.vpts_count().v, updates)) { // Update date as well. setState(0, d.vdate().v, _updatesQts, _updatesSeq); } } break; case mtpc_updateShortSentMessage: { auto &d = updates.c_updateShortSentMessage(); if (!IsServerMsgId(d.vid().v)) { LOG(("API Error: Bad msgId got from server: %1").arg(d.vid().v)); } else if (randomId) { auto &owner = session().data(); const auto sent = owner.messageSentData(randomId); const auto lookupMessage = [&] { return sent.peerId ? owner.message(sent.peerId, d.vid().v) : nullptr; }; if (const auto id = owner.messageIdByRandomId(randomId)) { const auto local = owner.message(id); if (local && local->isScheduled()) { owner.scheduledMessages().sendNowSimpleMessage(d, local); } } const auto wasAlready = (lookupMessage() != nullptr); feedUpdate(MTP_updateMessageID(d.vid(), MTP_long(randomId))); // ignore real date if (const auto item = lookupMessage()) { const auto list = d.ventities(); if (list && !MentionUsersLoaded(&session(), *list)) { session().api().requestMessageData( item->history()->peer, item->id, nullptr); } item->applySentMessage(sent.text, d, wasAlready); } } if (updateAndApply(d.vpts().v, d.vpts_count().v, updates)) { // Update date as well. setState(0, d.vdate().v, _updatesQts, _updatesSeq); } } break; case mtpc_updatesTooLong: { MTP_LOG(0, ("getDifference " "{ good - updatesTooLong received }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); return getDifference(); } break; } session().data().sendHistoryChangeNotifications(); } void Updates::feedUpdate(const MTPUpdate &update) { switch (update.type()) { // New messages. case mtpc_updateNewMessage: { auto &d = update.c_updateNewMessage(); const auto isDataLoaded = AllDataLoadedForMessage(&session(), d.vmessage()); if (!requestingDifference() && isDataLoaded != DataIsLoadedResult::Ok) { MTP_LOG(0, ("getDifference " "{ good - after not all data loaded in updateNewMessage }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); // This can be if this update was created by grouping // some short message update into an updates vector. return getDifference(); } updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateNewChannelMessage: { auto &d = update.c_updateNewChannelMessage(); auto channel = session().data().channelLoaded(peerToChannel(PeerFromMessage(d.vmessage()))); const auto isDataLoaded = AllDataLoadedForMessage(&session(), d.vmessage()); if (!requestingDifference() && (!channel || isDataLoaded != DataIsLoadedResult::Ok)) { MTP_LOG(0, ("getDifference " "{ good - after not all data loaded in updateNewChannelMessage }%1" ).arg(_session->mtp().isTestMode() ? " TESTMODE" : "")); // Request last active supergroup participants if the 'from' user was not loaded yet. // This will optimize similar getDifference() calls for almost all next messages. if (isDataLoaded == DataIsLoadedResult::FromNotLoaded && channel && channel->isMegagroup()) { if (channel->mgInfo->lastParticipants.size() < _session->serverConfig().chatSizeMax && (channel->mgInfo->lastParticipants.empty() || channel->mgInfo->lastParticipants.size() < channel->membersCount())) { session().api().chatParticipants().requestLast(channel); } } if (!_byMinChannelTimer.isActive()) { // getDifference after timeout _byMinChannelTimer.callOnce(PtsWaiter::kWaitForSkippedTimeout); } return; } if (channel && !_handlingChannelDifference) { if (channel->ptsRequesting()) { // skip global updates while getting channel difference return; } channel->ptsUpdateAndApply(d.vpts().v, d.vpts_count().v, update); } else { applyUpdateNoPtsCheck(update); } } break; case mtpc_updateMessageID: { const auto &d = update.c_updateMessageID(); const auto randomId = d.vrandom_id().v; if (const auto id = session().data().messageIdByRandomId(randomId)) { const auto newId = d.vid().v; if (const auto local = session().data().message(id)) { if (local->isScheduled()) { session().data().scheduledMessages().apply(d, local); } else { const auto existing = session().data().message( id.peer, newId); if (existing && !local->mainView()) { const auto history = local->history(); local->destroy(); history->requestChatListMessage(); } else { if (existing) { existing->destroy(); } local->setRealId(d.vid().v); } } } session().data().unregisterMessageRandomId(randomId); } session().data().unregisterMessageSentData(randomId); } break; // Message contents being read. case mtpc_updateReadMessagesContents: { auto &d = update.c_updateReadMessagesContents(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateChannelReadMessagesContents: { auto &d = update.c_updateChannelReadMessagesContents(); auto channel = session().data().channelLoaded(d.vchannel_id()); if (!channel) { if (!_byMinChannelTimer.isActive()) { // getDifference after timeout. _byMinChannelTimer.callOnce(PtsWaiter::kWaitForSkippedTimeout); } return; } auto unknownReadIds = base::flat_set(); for (const auto &msgId : d.vmessages().v) { if (auto item = session().data().message(channel->id, msgId.v)) { if (item->isUnreadMedia() || item->isUnreadMention()) { item->markMediaAndMentionRead(); session().data().requestItemRepaint(item); } } else { // Perhaps it was an unread mention! unknownReadIds.insert(msgId.v); } } session().api().unreadThings().mediaAndMentionsRead( unknownReadIds, channel); } break; // Edited messages. case mtpc_updateEditMessage: { auto &d = update.c_updateEditMessage(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateEditChannelMessage: { auto &d = update.c_updateEditChannelMessage(); auto channel = session().data().channelLoaded(peerToChannel(PeerFromMessage(d.vmessage()))); if (channel && !_handlingChannelDifference) { if (channel->ptsRequesting()) { // skip global updates while getting channel difference return; } else { channel->ptsUpdateAndApply(d.vpts().v, d.vpts_count().v, update); } } else { applyUpdateNoPtsCheck(update); } } break; case mtpc_updatePinnedChannelMessages: { auto &d = update.c_updatePinnedChannelMessages(); auto channel = session().data().channelLoaded(d.vchannel_id()); if (channel && !_handlingChannelDifference) { if (channel->ptsRequesting()) { // skip global updates while getting channel difference return; } else { channel->ptsUpdateAndApply(d.vpts().v, d.vpts_count().v, update); } } else { applyUpdateNoPtsCheck(update); } } break; case mtpc_updateMessageReactions: { const auto &d = update.c_updateMessageReactions(); const auto peer = peerFromMTP(d.vpeer()); if (const auto history = session().data().historyLoaded(peer)) { const auto item = session().data().message( peer, d.vmsg_id().v); if (item) { item->updateReactions(&d.vreactions()); } else { const auto hasUnreadReaction = Data::Reactions::HasUnread( d.vreactions()); if (hasUnreadReaction || history->unreadReactions().has()) { // The unread reactions count could change. history->owner().histories().requestDialogEntry(history); } if (hasUnreadReaction) { history->unreadReactions().checkAdd(d.vmsg_id().v); } } } } break; // Messages being read. case mtpc_updateReadHistoryInbox: { auto &d = update.c_updateReadHistoryInbox(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateReadHistoryOutbox: { auto &d = update.c_updateReadHistoryOutbox(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateReadChannelInbox: { const auto &d = update.c_updateReadChannelInbox(); const auto peer = peerFromChannel(d.vchannel_id().v); if (const auto history = session().data().historyLoaded(peer)) { history->applyInboxReadUpdate( d.vfolder_id().value_or_empty(), d.vmax_id().v, d.vstill_unread_count().v, d.vpts().v); } } break; case mtpc_updateReadChannelOutbox: { const auto &d = update.c_updateReadChannelOutbox(); const auto peer = peerFromChannel(d.vchannel_id().v); if (const auto history = session().data().historyLoaded(peer)) { history->outboxRead(d.vmax_id().v); if (!requestingDifference()) { if (const auto user = history->peer->asUser()) { user->madeAction(base::unixtime::now()); } } } } break; case mtpc_updateDialogUnreadMark: { const auto &data = update.c_updateDialogUnreadMark(); data.vpeer().match( [&](const MTPDdialogPeer &dialog) { const auto id = peerFromMTP(dialog.vpeer()); if (const auto history = session().data().historyLoaded(id)) { history->setUnreadMark(data.is_unread()); } }, [&](const MTPDdialogPeerFolder &dialog) { //const auto id = dialog.vfolder_id().v; // #TODO archive //if (const auto folder = session().data().folderLoaded(id)) { // folder->setUnreadMark(data.is_unread()); //} }); } break; case mtpc_updateFolderPeers: { const auto &data = update.c_updateFolderPeers(); updateAndApply(data.vpts().v, data.vpts_count().v, update); } break; case mtpc_updateDialogFilter: case mtpc_updateDialogFilterOrder: case mtpc_updateDialogFilters: { session().data().chatsFilters().apply(update); } break; // Deleted messages. case mtpc_updateDeleteMessages: { auto &d = update.c_updateDeleteMessages(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateDeleteChannelMessages: { auto &d = update.c_updateDeleteChannelMessages(); auto channel = session().data().channelLoaded(d.vchannel_id()); if (channel && !_handlingChannelDifference) { if (channel->ptsRequesting()) { // skip global updates while getting channel difference return; } channel->ptsUpdateAndApply(d.vpts().v, d.vpts_count().v, update); } else { applyUpdateNoPtsCheck(update); } } break; case mtpc_updateNewScheduledMessage: { const auto &d = update.c_updateNewScheduledMessage(); session().data().scheduledMessages().apply(d); } break; case mtpc_updateDeleteScheduledMessages: { const auto &d = update.c_updateDeleteScheduledMessages(); session().data().scheduledMessages().apply(d); } break; case mtpc_updateWebPage: { auto &d = update.c_updateWebPage(); // Update web page anyway. session().data().processWebpage(d.vwebpage()); session().data().sendWebPageGamePollNotifications(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; case mtpc_updateChannelWebPage: { auto &d = update.c_updateChannelWebPage(); // Update web page anyway. session().data().processWebpage(d.vwebpage()); session().data().sendWebPageGamePollNotifications(); auto channel = session().data().channelLoaded(d.vchannel_id()); if (channel && !_handlingChannelDifference) { if (channel->ptsRequesting()) { // skip global updates while getting channel difference return; } else { channel->ptsUpdateAndApply(d.vpts().v, d.vpts_count().v, update); } } else { applyUpdateNoPtsCheck(update); } } break; case mtpc_updateMessagePoll: { session().data().applyUpdate(update.c_updateMessagePoll()); } break; case mtpc_updateUserTyping: { auto &d = update.c_updateUserTyping(); handleSendActionUpdate( peerFromUser(d.vuser_id()), 0, peerFromUser(d.vuser_id()), d.vaction()); } break; case mtpc_updateChatUserTyping: { auto &d = update.c_updateChatUserTyping(); handleSendActionUpdate( peerFromChat(d.vchat_id()), 0, peerFromMTP(d.vfrom_id()), d.vaction()); } break; case mtpc_updateChannelUserTyping: { const auto &d = update.c_updateChannelUserTyping(); handleSendActionUpdate( peerFromChannel(d.vchannel_id()), d.vtop_msg_id().value_or_empty(), peerFromMTP(d.vfrom_id()), d.vaction()); } break; case mtpc_updateChatParticipants: { session().data().applyUpdate(update.c_updateChatParticipants()); } break; case mtpc_updateChatParticipantAdd: { session().data().applyUpdate(update.c_updateChatParticipantAdd()); } break; case mtpc_updateChatParticipantDelete: { session().data().applyUpdate(update.c_updateChatParticipantDelete()); } break; case mtpc_updateChatParticipantAdmin: { session().data().applyUpdate(update.c_updateChatParticipantAdmin()); } break; case mtpc_updateChatDefaultBannedRights: { session().data().applyUpdate(update.c_updateChatDefaultBannedRights()); } break; case mtpc_updateUserStatus: { auto &d = update.c_updateUserStatus(); if (auto user = session().data().userLoaded(d.vuser_id())) { switch (d.vstatus().type()) { case mtpc_userStatusEmpty: user->onlineTill = 0; break; case mtpc_userStatusRecently: if (user->onlineTill > -10) { // don't modify pseudo-online user->onlineTill = -2; } break; case mtpc_userStatusLastWeek: user->onlineTill = -3; break; case mtpc_userStatusLastMonth: user->onlineTill = -4; break; case mtpc_userStatusOffline: user->onlineTill = d.vstatus().c_userStatusOffline().vwas_online().v; break; case mtpc_userStatusOnline: user->onlineTill = d.vstatus().c_userStatusOnline().vexpires().v; break; } session().changes().peerUpdated( user, Data::PeerUpdate::Flag::OnlineStatus); } if (UserId(d.vuser_id()) == session().userId()) { if (d.vstatus().type() == mtpc_userStatusOffline || d.vstatus().type() == mtpc_userStatusEmpty) { updateOnline(Core::App().lastNonIdleTime(), true); if (d.vstatus().type() == mtpc_userStatusOffline) { cSetOtherOnline( d.vstatus().c_userStatusOffline().vwas_online().v); } } else if (d.vstatus().type() == mtpc_userStatusOnline) { cSetOtherOnline( d.vstatus().c_userStatusOnline().vexpires().v); } } } break; case mtpc_updateUserName: { auto &d = update.c_updateUserName(); if (auto user = session().data().userLoaded(d.vuser_id())) { if (!user->isContact()) { user->setName( TextUtilities::SingleLine(qs(d.vfirst_name())), TextUtilities::SingleLine(qs(d.vlast_name())), user->nameOrPhone, TextUtilities::SingleLine(qs(d.vusername()))); } else { user->setName( TextUtilities::SingleLine(user->firstName), TextUtilities::SingleLine(user->lastName), user->nameOrPhone, TextUtilities::SingleLine(qs(d.vusername()))); } } } break; case mtpc_updateUserPhoto: { auto &d = update.c_updateUserPhoto(); if (auto user = session().data().userLoaded(d.vuser_id())) { user->setPhoto(d.vphoto()); user->loadUserpic(); // After that update we don't have enough information to // create a 'photo' with all necessary fields. So if // we receive second such update we end up with a 'photo_id' // in user_photos list without a loaded 'photo'. // It fails to show in media overview if you try to open it. // //if (mtpIsTrue(d.vprevious()) || !user->userpicPhotoId()) { session().storage().remove(Storage::UserPhotosRemoveAfter( peerToUser(user->id), user->userpicPhotoId())); //} else { // session().storage().add(Storage::UserPhotosAddNew( // peerToUser(user->id), // user->userpicPhotoId())); //} } } break; case mtpc_updatePeerSettings: { const auto &d = update.c_updatePeerSettings(); const auto peerId = peerFromMTP(d.vpeer()); if (const auto peer = session().data().peerLoaded(peerId)) { peer->setSettings(d.vsettings()); } } break; case mtpc_updateNotifySettings: { auto &d = update.c_updateNotifySettings(); session().data().notifySettings().apply( d.vpeer(), d.vnotify_settings()); } break; case mtpc_updateDcOptions: { auto &d = update.c_updateDcOptions(); session().mtp().dcOptions().addFromList(d.vdc_options()); } break; case mtpc_updateConfig: { session().mtp().requestConfig(); } break; case mtpc_updateUserPhone: { const auto &d = update.c_updateUserPhone(); if (const auto user = session().data().userLoaded(d.vuser_id())) { const auto newPhone = qs(d.vphone()); if (newPhone != user->phone()) { user->setPhone(newPhone); user->setName( user->firstName, user->lastName, ((user->isContact() || user->isServiceUser() || user->isSelf() || user->phone().isEmpty()) ? QString() : Ui::FormatPhone(user->phone())), user->username); session().changes().peerUpdated( user, Data::PeerUpdate::Flag::PhoneNumber); } } } break; case mtpc_updatePeerHistoryTTL: { const auto &d = update.c_updatePeerHistoryTTL(); const auto peerId = peerFromMTP(d.vpeer()); if (const auto peer = session().data().peerLoaded(peerId)) { peer->setMessagesTTL(d.vttl_period().value_or_empty()); } } break; case mtpc_updateNewEncryptedMessage: { } break; case mtpc_updateEncryptedChatTyping: { } break; case mtpc_updateEncryption: { } break; case mtpc_updateEncryptedMessagesRead: { } break; case mtpc_updatePhoneCall: case mtpc_updatePhoneCallSignalingData: case mtpc_updateGroupCallParticipants: case mtpc_updateGroupCallConnection: case mtpc_updateGroupCall: { Core::App().calls().handleUpdate(&session(), update); } break; case mtpc_updatePeerBlocked: { const auto &d = update.c_updatePeerBlocked(); if (const auto peer = session().data().peerLoaded(peerFromMTP(d.vpeer_id()))) { peer->setIsBlocked(mtpIsTrue(d.vblocked())); } } break; case mtpc_updateBotCommands: { const auto &d = update.c_updateBotCommands(); if (const auto peer = session().data().peerLoaded(peerFromMTP(d.vpeer()))) { const auto botId = UserId(d.vbot_id().v); const auto commands = Data::BotCommands{ .userId = UserId(d.vbot_id().v), .commands = ranges::views::all( d.vcommands().v ) | ranges::views::transform( Data::BotCommandFromTL ) | ranges::to_vector, }; if (const auto user = peer->asUser()) { if (user->isBot() && user->id == peerFromUser(botId)) { const auto equal = ranges::equal( user->botInfo->commands, commands.commands); user->botInfo->commands = commands.commands; if (!equal) { session().data().botCommandsChanged(user); } } } else if (const auto chat = peer->asChat()) { chat->setBotCommands({ commands }); } else if (const auto megagroup = peer->asMegagroup()) { if (megagroup->mgInfo->setBotCommands({ commands })) { session().data().botCommandsChanged(megagroup); } } } } break; case mtpc_updateAttachMenuBots: { session().attachWebView().requestBots(); } break; case mtpc_updateWebViewResultSent: { const auto &d = update.c_updateWebViewResultSent(); session().data().webViewResultSent({ .queryId = d.vquery_id().v }); } break; case mtpc_updateBotMenuButton: { const auto &d = update.c_updateBotMenuButton(); if (const auto bot = session().data().userLoaded(d.vbot_id())) { if (const auto info = bot->botInfo.get(); info && info->inited) { if (Data::ApplyBotMenuButton(info, &d.vbutton())) { session().data().botCommandsChanged(bot); } } } } break; case mtpc_updatePendingJoinRequests: { const auto &d = update.c_updatePendingJoinRequests(); if (const auto peer = session().data().peerLoaded(peerFromMTP(d.vpeer()))) { const auto count = d.vrequests_pending().v; const auto &requesters = d.vrecent_requesters().v; if (const auto chat = peer->asChat()) { chat->setPendingRequestsCount(count, requesters); } else if (const auto channel = peer->asChannel()) { channel->setPendingRequestsCount(count, requesters); } } } break; case mtpc_updateServiceNotification: { const auto &d = update.c_updateServiceNotification(); const auto text = TextWithEntities { qs(d.vmessage()), Api::EntitiesFromMTP(&session(), d.ventities().v) }; if (IsForceLogoutNotification(d)) { Core::App().forceLogOut(&session().account(), text); } else if (d.is_popup()) { const auto &windows = session().windows(); if (!windows.empty()) { windows.front()->window().show(Ui::MakeInformBox(text)); } } else { session().data().serviceNotification(text, d.vmedia()); session().api().authorizations().reload(); } } break; case mtpc_updatePrivacy: { auto &d = update.c_updatePrivacy(); const auto allChatsLoaded = [&](const MTPVector &ids) { for (const auto &chatId : ids.v) { if (!session().data().chatLoaded(chatId) && !session().data().channelLoaded(chatId)) { return false; } } return true; }; const auto allLoaded = [&] { for (const auto &rule : d.vrules().v) { const auto loaded = rule.match([&]( const MTPDprivacyValueAllowChatParticipants & data) { return allChatsLoaded(data.vchats()); }, [&](const MTPDprivacyValueDisallowChatParticipants & data) { return allChatsLoaded(data.vchats()); }, [](auto &&) { return true; }); if (!loaded) { return false; } } return true; }; session().api().userPrivacy().apply( d.vkey().type(), d.vrules(), allLoaded()); } break; case mtpc_updatePinnedDialogs: { const auto &d = update.c_updatePinnedDialogs(); const auto folderId = d.vfolder_id().value_or_empty(); const auto loaded = !folderId || (session().data().folderLoaded(folderId) != nullptr); const auto folder = folderId ? session().data().folder(folderId).get() : nullptr; const auto done = [&] { const auto list = d.vorder(); if (!list) { return false; } const auto &order = list->v; const auto notLoaded = [&](const MTPDialogPeer &peer) { return peer.match([&](const MTPDdialogPeer &data) { return !session().data().historyLoaded( peerFromMTP(data.vpeer())); }, [&](const MTPDdialogPeerFolder &data) { if (folderId) { LOG(("API Error: " "updatePinnedDialogs has nested folders.")); return true; } return !session().data().folderLoaded(data.vfolder_id().v); }); }; if (!ranges::none_of(order, notLoaded)) { return false; } session().data().applyPinnedChats(folder, order); return true; }(); if (!done) { session().api().requestPinnedDialogs(folder); } if (!loaded) { session().data().histories().requestDialogEntry(folder); } } break; case mtpc_updateDialogPinned: { const auto &d = update.c_updateDialogPinned(); const auto folderId = d.vfolder_id().value_or_empty(); const auto folder = folderId ? session().data().folder(folderId).get() : nullptr; const auto done = d.vpeer().match([&](const MTPDdialogPeer &data) { const auto id = peerFromMTP(data.vpeer()); if (const auto history = session().data().historyLoaded(id)) { history->applyPinnedUpdate(d); return true; } DEBUG_LOG(("API Error: " "pinned chat not loaded for peer %1, folder: %2" ).arg(id.value ).arg(folderId )); return false; }, [&](const MTPDdialogPeerFolder &data) { if (folderId != 0) { DEBUG_LOG(("API Error: Nested folders updateDialogPinned.")); return false; } const auto id = data.vfolder_id().v; if (const auto folder = session().data().folderLoaded(id)) { folder->applyPinnedUpdate(d); return true; } DEBUG_LOG(("API Error: " "pinned folder not loaded for folderId %1, folder: %2" ).arg(id ).arg(folderId )); return false; }); if (!done) { session().api().requestPinnedDialogs(folder); } } break; case mtpc_updateChannel: { auto &d = update.c_updateChannel(); if (const auto channel = session().data().channelLoaded(d.vchannel_id())) { channel->inviter = UserId(0); channel->inviteViaRequest = false; if (channel->amIn()) { if (channel->isMegagroup() && !channel->amCreator() && !channel->hasAdminRights()) { channel->updateFullForced(); } const auto history = channel->owner().history(channel); history->requestChatListMessage(); if (!history->unreadCountKnown()) { history->owner().histories().requestDialogEntry(history); } if (!channel->amCreator()) { session().api().chatParticipants().requestSelf(channel); } } } } break; case mtpc_updateChannelTooLong: { const auto &d = update.c_updateChannelTooLong(); if (const auto channel = session().data().channelLoaded(d.vchannel_id())) { const auto pts = d.vpts(); if (!pts || channel->pts() < pts->v) { getChannelDifference(channel); } } } break; case mtpc_updateChannelMessageViews: { const auto &d = update.c_updateChannelMessageViews(); const auto peerId = peerFromChannel(d.vchannel_id()); if (const auto item = session().data().message(peerId, d.vid().v)) { if (item->changeViewsCount(d.vviews().v)) { session().data().notifyItemDataChange(item); } } } break; case mtpc_updateChannelMessageForwards: { const auto &d = update.c_updateChannelMessageForwards(); const auto peerId = peerFromChannel(d.vchannel_id()); if (const auto item = session().data().message(peerId, d.vid().v)) { item->setForwardsCount(d.vforwards().v); } } break; case mtpc_updateReadChannelDiscussionInbox: { const auto &d = update.c_updateReadChannelDiscussionInbox(); const auto peerId = peerFromChannel(d.vchannel_id()); const auto msgId = d.vtop_msg_id().v; const auto readTillId = d.vread_max_id().v; const auto item = session().data().message(peerId, msgId); const auto unreadCount = item ? session().data().countUnreadRepliesLocally(item, readTillId) : std::nullopt; if (item) { item->setRepliesInboxReadTill(readTillId, unreadCount); if (const auto post = item->lookupDiscussionPostOriginal()) { post->setRepliesInboxReadTill(readTillId, unreadCount); } } if (const auto broadcastId = d.vbroadcast_id()) { if (const auto post = session().data().message( peerFromChannel(*broadcastId), d.vbroadcast_post()->v)) { post->setRepliesInboxReadTill(readTillId, unreadCount); } } } break; case mtpc_updateReadChannelDiscussionOutbox: { const auto &d = update.c_updateReadChannelDiscussionOutbox(); const auto peerId = peerFromChannel(d.vchannel_id()); const auto msgId = d.vtop_msg_id().v; const auto readTillId = d.vread_max_id().v; const auto item = session().data().message(peerId, msgId); if (item) { item->setRepliesOutboxReadTill(readTillId); if (const auto post = item->lookupDiscussionPostOriginal()) { post->setRepliesOutboxReadTill(readTillId); } } } break; case mtpc_updateChannelAvailableMessages: { auto &d = update.c_updateChannelAvailableMessages(); if (const auto channel = session().data().channelLoaded(d.vchannel_id())) { channel->setAvailableMinId(d.vavailable_min_id().v); if (const auto history = session().data().historyLoaded(channel)) { history->clearUpTill(d.vavailable_min_id().v); } } } break; // Pinned message. case mtpc_updatePinnedMessages: { const auto &d = update.c_updatePinnedMessages(); updateAndApply(d.vpts().v, d.vpts_count().v, update); } break; ////// Cloud sticker sets case mtpc_updateNewStickerSet: { const auto &d = update.c_updateNewStickerSet(); d.vstickerset().match([&](const MTPDmessages_stickerSet &data) { session().data().stickers().newSetReceived(data); }, [](const MTPDmessages_stickerSetNotModified &) { LOG(("API Error: Unexpected messages.stickerSetNotModified.")); }); } break; case mtpc_updateStickerSetsOrder: { auto &d = update.c_updateStickerSetsOrder(); auto &stickers = session().data().stickers(); const auto isEmoji = d.is_emojis(); const auto isMasks = d.is_masks(); const auto &order = d.vorder().v; const auto &sets = stickers.sets(); Data::StickersSetsOrder result; for (const auto &item : order) { if (sets.find(item.v) == sets.cend()) { break; } result.push_back(item.v); } const auto localSize = isEmoji ? stickers.emojiSetsOrder().size() : isMasks ? stickers.maskSetsOrder().size() : stickers.setsOrder().size(); if ((result.size() != localSize) || (result.size() != order.size())) { if (isEmoji) { stickers.setLastEmojiUpdate(0); session().api().updateCustomEmoji(); } else if (isMasks) { stickers.setLastMasksUpdate(0); session().api().updateMasks(); } else { stickers.setLastUpdate(0); session().api().updateStickers(); } } else { if (isEmoji) { stickers.emojiSetsOrderRef() = std::move(result); session().local().writeInstalledCustomEmoji(); } else if (isMasks) { stickers.maskSetsOrderRef() = std::move(result); session().local().writeInstalledMasks(); } else { stickers.setsOrderRef() = std::move(result); session().local().writeInstalledStickers(); } stickers.notifyUpdated(isEmoji ? Data::StickersType::Emoji : isMasks ? Data::StickersType::Masks : Data::StickersType::Stickers); } } break; case mtpc_updateStickerSets: { // Can't determine is it masks or stickers, so update both. session().data().stickers().setLastUpdate(0); session().api().updateStickers(); session().data().stickers().setLastMasksUpdate(0); session().api().updateMasks(); } break; case mtpc_updateRecentStickers: { session().data().stickers().setLastRecentUpdate(0); session().api().updateStickers(); } break; case mtpc_updateFavedStickers: { session().data().stickers().setLastFavedUpdate(0); session().api().updateStickers(); } break; case mtpc_updateReadFeaturedStickers: { // We read some of the featured stickers, perhaps not all of them. // Here we don't know what featured sticker sets were read, so we // request all of them once again. session().data().stickers().setLastFeaturedUpdate(0); session().api().updateStickers(); } break; ////// Cloud saved GIFs case mtpc_updateSavedGifs: { session().data().stickers().setLastSavedGifsUpdate(0); session().api().updateSavedGifs(); } break; ////// Cloud drafts case mtpc_updateDraftMessage: { const auto &data = update.c_updateDraftMessage(); const auto peerId = peerFromMTP(data.vpeer()); data.vdraft().match([&](const MTPDdraftMessage &data) { Data::ApplyPeerCloudDraft(&session(), peerId, data); }, [&](const MTPDdraftMessageEmpty &data) { Data::ClearPeerCloudDraft( &session(), peerId, data.vdate().value_or_empty()); }); } break; ////// Cloud langpacks case mtpc_updateLangPack: { const auto &data = update.c_updateLangPack(); Lang::CurrentCloudManager().applyLangPackDifference(data.vdifference()); } break; case mtpc_updateLangPackTooLong: { const auto &data = update.c_updateLangPackTooLong(); const auto code = qs(data.vlang_code()); if (!code.isEmpty()) { Lang::CurrentCloudManager().requestLangPackDifference(code); } } break; ////// Cloud themes case mtpc_updateTheme: { const auto &data = update.c_updateTheme(); session().data().cloudThemes().applyUpdate(data.vtheme()); } break; case mtpc_updateSavedRingtones: { session().api().ringtones().applyUpdate(); } break; case mtpc_updateTranscribedAudio: { const auto &data = update.c_updateTranscribedAudio(); _session->api().transcribes().apply(data); } } } } // namespace Api