/* 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 "data/data_group_call.h" #include "base/unixtime.h" #include "data/data_channel.h" #include "data/data_chat.h" #include "data/data_changes.h" #include "data/data_session.h" #include "main/main_session.h" #include "calls/calls_instance.h" #include "calls/group/calls_group_call.h" #include "calls/group/calls_group_common.h" #include "core/application.h" #include "apiwrap.h" namespace Data { namespace { constexpr auto kRequestPerPage = 50; constexpr auto kSpeakingAfterActive = crl::time(6000); constexpr auto kActiveAfterJoined = crl::time(1000); constexpr auto kWaitForUpdatesTimeout = 3 * crl::time(1000); constexpr auto kReloadStaleTimeout = 16 * crl::time(1000); [[nodiscard]] QString ExtractNextOffset(const MTPphone_GroupCall &call) { return call.match([&](const MTPDphone_groupCall &data) { return qs(data.vparticipants_next_offset()); }); } } // namespace const std::string &RtmpEndpointId() { static const auto result = std::string("unified"); return result; } const std::string &GroupCallParticipant::cameraEndpoint() const { return GetCameraEndpoint(videoParams); } const std::string &GroupCallParticipant::screenEndpoint() const { return GetScreenEndpoint(videoParams); } bool GroupCallParticipant::cameraPaused() const { return IsCameraPaused(videoParams); } bool GroupCallParticipant::screenPaused() const { return IsScreenPaused(videoParams); } GroupCall::GroupCall( not_null peer, CallId id, CallId accessHash, TimeId scheduleDate, bool rtmp) : _id(id) , _accessHash(accessHash) , _peer(peer) , _reloadByQueuedUpdatesTimer([=] { reload(); }) , _speakingByActiveFinishTimer([=] { checkFinishSpeakingByActive(); }) , _scheduleDate(scheduleDate) , _rtmp(rtmp) , _listenersHidden(rtmp) { } GroupCall::~GroupCall() { api().request(_unknownParticipantPeersRequestId).cancel(); api().request(_participantsRequestId).cancel(); api().request(_reloadRequestId).cancel(); } CallId GroupCall::id() const { return _id; } bool GroupCall::loaded() const { return _version > 0; } bool GroupCall::rtmp() const { return _rtmp; } bool GroupCall::listenersHidden() const { return _listenersHidden; } not_null GroupCall::peer() const { return _peer; } MTPInputGroupCall GroupCall::input() const { return MTP_inputGroupCall(MTP_long(_id), MTP_long(_accessHash)); } void GroupCall::setPeer(not_null peer) { Expects(peer->migrateFrom() == _peer); Expects(_peer->migrateTo() == peer); _peer = peer; } auto GroupCall::participants() const -> const std::vector & { return _participants; } void GroupCall::requestParticipants() { if (!_savedFull) { if (_participantsRequestId || _reloadRequestId) { return; } else if (_allParticipantsLoaded) { return; } } api().request(base::take(_participantsRequestId)).cancel(); _participantsRequestId = api().request(MTPphone_GetGroupParticipants( input(), MTP_vector(), // ids MTP_vector(), // ssrcs MTP_string(_savedFull ? ExtractNextOffset(*_savedFull) : _nextOffset), MTP_int(kRequestPerPage) )).done([=](const MTPphone_GroupParticipants &result) { _participantsRequestId = 0; result.match([&](const MTPDphone_groupParticipants &data) { const auto reloaded = processSavedFullCall(); _nextOffset = qs(data.vnext_offset()); _peer->owner().processUsers(data.vusers()); _peer->owner().processChats(data.vchats()); applyParticipantsSlice( data.vparticipants().v, (reloaded ? ApplySliceSource::FullReloaded : ApplySliceSource::SliceLoaded)); setServerParticipantsCount(data.vcount().v); if (data.vparticipants().v.isEmpty()) { _allParticipantsLoaded = true; } finishParticipantsSliceRequest(); if (reloaded) { _participantsReloaded.fire({}); } }); }).fail([=] { _participantsRequestId = 0; const auto reloaded = processSavedFullCall(); setServerParticipantsCount(_participants.size()); _allParticipantsLoaded = true; finishParticipantsSliceRequest(); if (reloaded) { _participantsReloaded.fire({}); } }).send(); } bool GroupCall::processSavedFullCall() { if (!_savedFull) { return false; } api().request(base::take(_reloadRequestId)).cancel(); _reloadLastFinished = crl::now(); processFullCallFields(*base::take(_savedFull)); return true; } void GroupCall::finishParticipantsSliceRequest() { computeParticipantsCount(); processQueuedUpdates(); } void GroupCall::setServerParticipantsCount(int count) { _serverParticipantsCount = count; changePeerEmptyCallFlag(); } void GroupCall::changePeerEmptyCallFlag() { const auto chat = _peer->asChat(); const auto channel = _peer->asChannel(); constexpr auto chatFlag = ChatDataFlag::CallNotEmpty; constexpr auto channelFlag = ChannelDataFlag::CallNotEmpty; if (_peer->groupCall() != this) { return; } else if (_serverParticipantsCount > 0) { if (chat && !(chat->flags() & chatFlag)) { chat->addFlags(chatFlag); chat->session().changes().peerUpdated( chat, Data::PeerUpdate::Flag::GroupCall); } else if (channel && !(channel->flags() & channelFlag)) { channel->addFlags(channelFlag); channel->session().changes().peerUpdated( channel, Data::PeerUpdate::Flag::GroupCall); } } else if (chat && (chat->flags() & chatFlag)) { chat->removeFlags(chatFlag); chat->session().changes().peerUpdated( chat, Data::PeerUpdate::Flag::GroupCall); } else if (channel && (channel->flags() & channelFlag)) { channel->removeFlags(channelFlag); channel->session().changes().peerUpdated( channel, Data::PeerUpdate::Flag::GroupCall); } } int GroupCall::fullCount() const { return _fullCount.current(); } rpl::producer GroupCall::fullCountValue() const { return _fullCount.value(); } bool GroupCall::participantsLoaded() const { return _allParticipantsLoaded; } PeerData *GroupCall::participantPeerByAudioSsrc(uint32 ssrc) const { const auto i = _participantPeerByAudioSsrc.find(ssrc); return (i != end(_participantPeerByAudioSsrc)) ? i->second.get() : nullptr; } const GroupCallParticipant *GroupCall::participantByPeer( not_null peer) const { return const_cast(this)->findParticipant(peer); } GroupCallParticipant *GroupCall::findParticipant( not_null peer) { const auto i = ranges::find(_participants, peer, &Participant::peer); return (i != end(_participants)) ? &*i : nullptr; } const GroupCallParticipant *GroupCall::participantByEndpoint( const std::string &endpoint) const { if (endpoint.empty()) { return nullptr; } for (const auto &participant : _participants) { if (GetCameraEndpoint(participant.videoParams) == endpoint || GetScreenEndpoint(participant.videoParams) == endpoint) { return &participant; } } return nullptr; } rpl::producer<> GroupCall::participantsReloaded() { return _participantsReloaded.events(); } auto GroupCall::participantUpdated() const -> rpl::producer { return _participantUpdates.events(); } auto GroupCall::participantSpeaking() const -> rpl::producer> { return _participantSpeaking.events(); } void GroupCall::enqueueUpdate(const MTPUpdate &update) { update.match([&](const MTPDupdateGroupCall &updateData) { updateData.vcall().match([&](const MTPDgroupCall &data) { const auto version = data.vversion().v; if (!_applyingQueuedUpdates && (!_version || _version == version)) { DEBUG_LOG(("Group Call Participants: " "Apply updateGroupCall %1 -> %2" ).arg(_version ).arg(version)); applyEnqueuedUpdate(update); } else if (!_version || _version <= version) { DEBUG_LOG(("Group Call Participants: " "Queue updateGroupCall %1 -> %2" ).arg(_version ).arg(version)); const auto type = QueuedType::Call; _queuedUpdates.emplace(std::pair{ version, type }, update); } }, [&](const MTPDgroupCallDiscarded &data) { discard(data); }); }, [&](const MTPDupdateGroupCallParticipants &updateData) { const auto version = updateData.vversion().v; const auto proj = [](const MTPGroupCallParticipant &data) { return data.match([&](const MTPDgroupCallParticipant &data) { return data.is_versioned(); }); }; const auto increment = ranges::contains( updateData.vparticipants().v, true, proj); const auto required = increment ? (version - 1) : version; if (!_applyingQueuedUpdates && (_version == required)) { DEBUG_LOG(("Group Call Participants: " "Apply updateGroupCallParticipant %1 (%2)" ).arg(_version ).arg(Logs::b(increment))); applyEnqueuedUpdate(update); } else if (_version <= required) { DEBUG_LOG(("Group Call Participants: " "Queue updateGroupCallParticipant %1 -> %2 (%3)" ).arg(_version ).arg(version ).arg(Logs::b(increment))); const auto type = increment ? QueuedType::VersionedParticipant : QueuedType::Participant; _queuedUpdates.emplace(std::pair{ version, type }, update); } }, [](const auto &) { Unexpected("Type in GroupCall::enqueueUpdate."); }); processQueuedUpdates(); } void GroupCall::discard(const MTPDgroupCallDiscarded &data) { const auto id = _id; const auto peer = _peer; crl::on_main(&peer->session(), [=] { if (peer->groupCall() && peer->groupCall()->id() == id) { if (const auto chat = peer->asChat()) { chat->clearGroupCall(); } else if (const auto channel = peer->asChannel()) { channel->clearGroupCall(); } } }); Core::App().calls().applyGroupCallUpdateChecked( &peer->session(), MTP_updateGroupCall( MTP_long(peer->isChat() ? peerToChat(peer->id).bare : peerToChannel(peer->id).bare), MTP_groupCallDiscarded( data.vid(), data.vaccess_hash(), data.vduration()))); } void GroupCall::processFullCallUsersChats(const MTPphone_GroupCall &call) { call.match([&](const MTPDphone_groupCall &data) { _peer->owner().processUsers(data.vusers()); _peer->owner().processChats(data.vchats()); }); } void GroupCall::processFullCallFields(const MTPphone_GroupCall &call) { call.match([&](const MTPDphone_groupCall &data) { const auto &participants = data.vparticipants().v; const auto nextOffset = qs(data.vparticipants_next_offset()); data.vcall().match([&](const MTPDgroupCall &data) { _participants.clear(); _speakingByActiveFinishes.clear(); _participantPeerByAudioSsrc.clear(); _allParticipantsLoaded = false; applyParticipantsSlice( participants, ApplySliceSource::FullReloaded); _nextOffset = nextOffset; applyCallFields(data); }, [&](const MTPDgroupCallDiscarded &data) { discard(data); }); }); } void GroupCall::processFullCall(const MTPphone_GroupCall &call) { processFullCallUsersChats(call); processFullCallFields(call); finishParticipantsSliceRequest(); _participantsReloaded.fire({}); } void GroupCall::applyCallFields(const MTPDgroupCall &data) { DEBUG_LOG(("Group Call Participants: " "Set from groupCall %1 -> %2" ).arg(_version ).arg(data.vversion().v)); _version = data.vversion().v; if (!_version) { LOG(("API Error: Got zero version in groupCall.")); _version = 1; } _rtmp = data.is_rtmp_stream(); _listenersHidden = data.is_listeners_hidden(); _joinMuted = data.is_join_muted(); _canChangeJoinMuted = data.is_can_change_join_muted(); _joinedToTop = !data.is_join_date_asc(); setServerParticipantsCount(data.vparticipants_count().v); changePeerEmptyCallFlag(); _title = qs(data.vtitle().value_or_empty()); { _recordVideo = data.is_record_video_active(); _recordStartDate = data.vrecord_start_date().value_or_empty(); } _scheduleDate = data.vschedule_date().value_or_empty(); _scheduleStartSubscribed = data.is_schedule_start_subscribed(); _unmutedVideoLimit = data.vunmuted_video_limit().v; _allParticipantsLoaded = (_serverParticipantsCount == _participants.size()); } void GroupCall::applyLocalUpdate( const MTPDupdateGroupCallParticipants &update) { applyParticipantsSlice( update.vparticipants().v, ApplySliceSource::UpdateConstructed); } void GroupCall::applyEnqueuedUpdate(const MTPUpdate &update) { Expects(!_applyingQueuedUpdates); _applyingQueuedUpdates = true; const auto guard = gsl::finally([&] { _applyingQueuedUpdates = false; }); update.match([&](const MTPDupdateGroupCall &data) { data.vcall().match([&](const MTPDgroupCall &data) { applyCallFields(data); computeParticipantsCount(); }, [&](const MTPDgroupCallDiscarded &data) { discard(data); }); }, [&](const MTPDupdateGroupCallParticipants &data) { DEBUG_LOG(("Group Call Participants: " "Set from updateGroupCallParticipants %1 -> %2" ).arg(_version ).arg(data.vversion().v)); _version = data.vversion().v; if (!_version) { LOG(("API Error: " "Got zero version in updateGroupCallParticipants.")); _version = 1; } applyParticipantsSlice( data.vparticipants().v, ApplySliceSource::UpdateReceived); }, [](const auto &) { Unexpected("Type in GroupCall::applyEnqueuedUpdate."); }); Core::App().calls().applyGroupCallUpdateChecked( &_peer->session(), update); } void GroupCall::processQueuedUpdates() { if (!_version || _applyingQueuedUpdates) { return; } const auto size = _queuedUpdates.size(); while (!_queuedUpdates.empty()) { const auto &entry = _queuedUpdates.front(); const auto version = entry.first.first; const auto type = entry.first.second; const auto incremented = (type == QueuedType::VersionedParticipant); if ((version < _version) || (version == _version && incremented)) { _queuedUpdates.erase(_queuedUpdates.begin()); } else if (version == _version || (version == _version + 1 && incremented)) { const auto update = entry.second; _queuedUpdates.erase(_queuedUpdates.begin()); applyEnqueuedUpdate(update); } else { break; } } if (_queuedUpdates.empty()) { _reloadByQueuedUpdatesTimer.cancel(); } else if (_queuedUpdates.size() != size || !_reloadByQueuedUpdatesTimer.isActive()) { _reloadByQueuedUpdatesTimer.callOnce(kWaitForUpdatesTimeout); } } void GroupCall::computeParticipantsCount() { _fullCount = (_allParticipantsLoaded && !_listenersHidden) ? int(_participants.size()) : std::max(int(_participants.size()), _serverParticipantsCount); } void GroupCall::reloadIfStale() { if (!fullCount() && !participantsLoaded()) { reload(); } else if (!_reloadLastFinished || crl::now() > _reloadLastFinished + kReloadStaleTimeout) { reload(); } } void GroupCall::reload() { if (_reloadRequestId || _applyingQueuedUpdates) { return; } api().request(base::take(_participantsRequestId)).cancel(); DEBUG_LOG(("Group Call Participants: " "Reloading with queued: %1" ).arg(_queuedUpdates.size())); while (!_queuedUpdates.empty()) { const auto &entry = _queuedUpdates.front(); const auto update = entry.second; _queuedUpdates.erase(_queuedUpdates.begin()); applyEnqueuedUpdate(update); } _reloadByQueuedUpdatesTimer.cancel(); const auto limit = 3; _reloadRequestId = api().request( MTPphone_GetGroupCall(input(), MTP_int(limit)) ).done([=](const MTPphone_GroupCall &result) { if (requestParticipantsAfterReload(result)) { _savedFull = result; processFullCallUsersChats(result); requestParticipants(); return; } _reloadRequestId = 0; _reloadLastFinished = crl::now(); processFullCall(result); }).fail([=] { _reloadRequestId = 0; _reloadLastFinished = crl::now(); }).send(); } bool GroupCall::requestParticipantsAfterReload( const MTPphone_GroupCall &call) const { return call.match([&](const MTPDphone_groupCall &data) { const auto received = data.vparticipants().v.size(); const auto size = data.vcall().match([&](const MTPDgroupCall &data) { return data.vparticipants_count().v; }, [](const auto &) { return 0; }); return (received < size) && (received < _participants.size()); }); } void GroupCall::applyParticipantsSlice( const QVector &list, ApplySliceSource sliceSource) { for (const auto &participant : list) { participant.match([&](const MTPDgroupCallParticipant &data) { const auto participantPeerId = peerFromMTP(data.vpeer()); const auto participantPeer = _peer->owner().peer( participantPeerId); const auto i = ranges::find( _participants, participantPeer, &Participant::peer); if (data.is_left()) { if (i != end(_participants)) { auto update = ParticipantUpdate{ .was = *i, }; _participantPeerByAudioSsrc.erase(i->ssrc); _participantPeerByAudioSsrc.erase( GetAdditionalAudioSsrc(i->videoParams)); _speakingByActiveFinishes.remove(participantPeer); _participants.erase(i); if (sliceSource != ApplySliceSource::FullReloaded) { _participantUpdates.fire(std::move(update)); } } if (_serverParticipantsCount > 0) { --_serverParticipantsCount; } return; } if (const auto about = data.vabout()) { participantPeer->setAbout(qs(*about)); } const auto was = (i != end(_participants)) ? std::make_optional(*i) : std::nullopt; const auto canSelfUnmute = !data.is_muted() || data.is_can_self_unmute(); const auto lastActive = data.vactive_date().value_or( was ? was->lastActive : 0); const auto volume = (was && !was->applyVolumeFromMin && data.is_min()) ? was->volume : data.vvolume().value_or(Calls::Group::kDefaultVolume); const auto applyVolumeFromMin = (was && data.is_min()) ? was->applyVolumeFromMin : (data.is_min() || data.is_volume_by_admin()); const auto mutedByMe = (was && data.is_min()) ? was->mutedByMe : data.is_muted_by_you(); const auto onlyMinLoaded = data.is_min() && (!was || was->onlyMinLoaded); const auto videoJoined = data.is_video_joined(); const auto raisedHandRating = data.vraise_hand_rating().value_or_empty(); const auto localUpdate = (sliceSource == ApplySliceSource::UpdateConstructed); const auto existingVideoParams = (i != end(_participants)) ? i->videoParams : nullptr; auto videoParams = localUpdate ? existingVideoParams : Calls::ParseVideoParams( data.vvideo(), data.vpresentation(), existingVideoParams); const auto value = Participant{ .peer = participantPeer, .videoParams = std::move(videoParams), .date = data.vdate().v, .lastActive = lastActive, .raisedHandRating = raisedHandRating, .ssrc = uint32(data.vsource().v), .volume = volume, .sounding = canSelfUnmute && was && was->sounding, .speaking = canSelfUnmute && was && was->speaking, .additionalSounding = (canSelfUnmute && was && was->additionalSounding), .additionalSpeaking = (canSelfUnmute && was && was->additionalSpeaking), .muted = data.is_muted(), .mutedByMe = mutedByMe, .canSelfUnmute = canSelfUnmute, .onlyMinLoaded = onlyMinLoaded, .videoJoined = videoJoined, .applyVolumeFromMin = applyVolumeFromMin, }; if (i == end(_participants)) { if (value.ssrc) { _participantPeerByAudioSsrc.emplace( value.ssrc, participantPeer); } if (const auto additional = GetAdditionalAudioSsrc( value.videoParams)) { _participantPeerByAudioSsrc.emplace( additional, participantPeer); } _participants.push_back(value); if (const auto user = participantPeer->asUser()) { _peer->owner().unregisterInvitedToCallUser(_id, user); } } else { if (i->ssrc != value.ssrc) { _participantPeerByAudioSsrc.erase(i->ssrc); if (value.ssrc) { _participantPeerByAudioSsrc.emplace( value.ssrc, participantPeer); } } if (GetAdditionalAudioSsrc(i->videoParams) != GetAdditionalAudioSsrc(value.videoParams)) { _participantPeerByAudioSsrc.erase( GetAdditionalAudioSsrc(i->videoParams)); if (const auto additional = GetAdditionalAudioSsrc( value.videoParams)) { _participantPeerByAudioSsrc.emplace( additional, participantPeer); } } *i = value; } if (data.is_just_joined()) { ++_serverParticipantsCount; } if (sliceSource != ApplySliceSource::FullReloaded) { _participantUpdates.fire({ .was = was, .now = value, }); } }); } if (sliceSource == ApplySliceSource::UpdateReceived) { changePeerEmptyCallFlag(); computeParticipantsCount(); } } void GroupCall::applyLastSpoke( uint32 ssrc, LastSpokeTimes when, crl::time now) { const auto i = _participantPeerByAudioSsrc.find(ssrc); if (i == end(_participantPeerByAudioSsrc)) { _unknownSpokenSsrcs[ssrc] = when; requestUnknownParticipants(); return; } const auto participant = findParticipant(i->second); Assert(participant != nullptr); _speakingByActiveFinishes.remove(participant->peer); const auto sounding = (when.anything + kSoundStatusKeptFor >= now) && participant->canSelfUnmute; const auto speaking = sounding && (when.voice + kSoundStatusKeptFor >= now); if (speaking) { _participantSpeaking.fire({ participant }); } const auto useAdditional = (ssrc != participant->ssrc); const auto nowSounding = useAdditional ? participant->additionalSounding : participant->sounding; const auto nowSpeaking = useAdditional ? participant->additionalSpeaking : participant->speaking; if (nowSounding != sounding || nowSpeaking != speaking) { const auto was = *participant; if (useAdditional) { participant->additionalSounding = sounding; participant->additionalSpeaking = speaking; } else { participant->sounding = sounding; participant->speaking = speaking; } _participantUpdates.fire({ .was = was, .now = *participant, }); } } void GroupCall::resolveParticipants(const base::flat_set &ssrcs) { if (ssrcs.empty()) { return; } for (const auto ssrc : ssrcs) { _unknownSpokenSsrcs.emplace(ssrc, LastSpokeTimes()); } requestUnknownParticipants(); } void GroupCall::applyActiveUpdate( PeerId participantPeerId, LastSpokeTimes when, PeerData *participantPeerLoaded) { if (inCall()) { return; } const auto participant = participantPeerLoaded ? findParticipant(participantPeerLoaded) : nullptr; const auto loadByUserId = !participant || participant->onlyMinLoaded; if (loadByUserId) { _unknownSpokenPeerIds[participantPeerId] = when; requestUnknownParticipants(); } if (!participant || !participant->canSelfUnmute) { return; } const auto was = std::make_optional(*participant); const auto now = crl::now(); const auto elapsed = TimeId((now - when.anything) / crl::time(1000)); const auto lastActive = base::unixtime::now() - elapsed; const auto finishes = when.anything + kSpeakingAfterActive; if (lastActive <= participant->lastActive || finishes <= now) { return; } _speakingByActiveFinishes[participant->peer] = finishes; if (!_speakingByActiveFinishTimer.isActive()) { _speakingByActiveFinishTimer.callOnce(finishes - now); } participant->lastActive = lastActive; participant->speaking = true; participant->canSelfUnmute = true; if (!was->speaking || !was->canSelfUnmute) { _participantUpdates.fire({ .was = was, .now = *participant, }); } } void GroupCall::checkFinishSpeakingByActive() { const auto now = crl::now(); auto nearest = crl::time(0); auto stop = std::vector>(); for (auto i = begin(_speakingByActiveFinishes) ; i != end(_speakingByActiveFinishes);) { const auto when = i->second; if (now >= when) { stop.push_back(i->first); i = _speakingByActiveFinishes.erase(i); } else { if (!nearest || nearest > when) { nearest = when; } ++i; } } for (const auto participantPeer : stop) { const auto participant = findParticipant(participantPeer); Assert(participant != nullptr); if (participant->speaking) { const auto was = *participant; participant->speaking = false; _participantUpdates.fire({ .was = was, .now = *participant, }); } } if (nearest) { _speakingByActiveFinishTimer.callOnce(nearest - now); } } void GroupCall::requestUnknownParticipants() { if (_unknownParticipantPeersRequestId || (_unknownSpokenSsrcs.empty() && _unknownSpokenPeerIds.empty())) { return; } const auto ssrcs = [&] { if (_unknownSpokenSsrcs.size() < kRequestPerPage) { return base::take(_unknownSpokenSsrcs); } auto result = base::flat_map(); result.reserve(kRequestPerPage); while (result.size() < kRequestPerPage) { const auto [ssrc, when] = _unknownSpokenSsrcs.back(); result.emplace(ssrc, when); _unknownSpokenSsrcs.erase(_unknownSpokenSsrcs.end() - 1); } return result; }(); const auto participantPeerIds = [&] { if (_unknownSpokenPeerIds.size() + ssrcs.size() < kRequestPerPage) { return base::take(_unknownSpokenPeerIds); } auto result = base::flat_map(); const auto available = (kRequestPerPage - int(ssrcs.size())); if (available > 0) { result.reserve(available); while (result.size() < available) { const auto &back = _unknownSpokenPeerIds.back(); const auto [participantPeerId, when] = back; result.emplace(participantPeerId, when); _unknownSpokenPeerIds.erase(_unknownSpokenPeerIds.end() - 1); } } return result; }(); auto ssrcInputs = QVector(); ssrcInputs.reserve(ssrcs.size()); for (const auto &[ssrc, when] : ssrcs) { ssrcInputs.push_back(MTP_int(ssrc)); } auto peerInputs = QVector(); peerInputs.reserve(participantPeerIds.size()); for (const auto &[participantPeerId, when] : participantPeerIds) { if (const auto userId = peerToUser(participantPeerId)) { peerInputs.push_back( MTP_inputPeerUser(MTP_long(userId.bare), MTP_long(0))); } else if (const auto chatId = peerToChat(participantPeerId)) { peerInputs.push_back(MTP_inputPeerChat(MTP_long(chatId.bare))); } else if (const auto channelId = peerToChannel(participantPeerId)) { peerInputs.push_back( MTP_inputPeerChannel(MTP_long(channelId.bare), MTP_long(0))); } } _unknownParticipantPeersRequestId = api().request( MTPphone_GetGroupParticipants( input(), MTP_vector(peerInputs), MTP_vector(ssrcInputs), MTP_string(QString()), MTP_int(kRequestPerPage) ) ).done([=](const MTPphone_GroupParticipants &result) { result.match([&](const MTPDphone_groupParticipants &data) { _peer->owner().processUsers(data.vusers()); _peer->owner().processChats(data.vchats()); applyParticipantsSlice( data.vparticipants().v, ApplySliceSource::UnknownLoaded); }); _unknownParticipantPeersRequestId = 0; const auto now = crl::now(); for (const auto &[ssrc, when] : ssrcs) { if (when.voice || when.anything) { applyLastSpoke(ssrc, when, now); } _unknownSpokenSsrcs.remove(ssrc); } for (const auto &[id, when] : participantPeerIds) { if (const auto participantPeer = _peer->owner().peerLoaded(id)) { const auto isParticipant = ranges::contains( _participants, not_null{ participantPeer }, &Participant::peer); if (isParticipant) { applyActiveUpdate(id, when, participantPeer); } } _unknownSpokenPeerIds.remove(id); } if (!ssrcs.empty()) { _participantsResolved.fire(&ssrcs); } requestUnknownParticipants(); }).fail([=] { _unknownParticipantPeersRequestId = 0; for (const auto &[ssrc, when] : ssrcs) { _unknownSpokenSsrcs.remove(ssrc); } for (const auto &[participantPeerId, when] : participantPeerIds) { _unknownSpokenPeerIds.remove(participantPeerId); } requestUnknownParticipants(); }).send(); } void GroupCall::setInCall() { _unknownSpokenPeerIds.clear(); if (_speakingByActiveFinishes.empty()) { return; } auto restartTimer = true; const auto latest = crl::now() + kActiveAfterJoined; for (auto &[peer, when] : _speakingByActiveFinishes) { if (when > latest) { when = latest; } else { restartTimer = false; } } if (restartTimer) { _speakingByActiveFinishTimer.callOnce(kActiveAfterJoined); } } bool GroupCall::inCall() const { const auto current = Core::App().calls().currentGroupCall(); return (current != nullptr) && (current->id() == _id) && (current->state() == Calls::GroupCall::State::Joined); } void GroupCall::setJoinMutedLocally(bool muted) { _joinMuted = muted; } bool GroupCall::joinMuted() const { return _joinMuted; } bool GroupCall::canChangeJoinMuted() const { return _canChangeJoinMuted; } bool GroupCall::joinedToTop() const { return _joinedToTop; } ApiWrap &GroupCall::api() const { return _peer->session().api(); } } // namespace Data