/* 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 "calls/calls_group_call.h" #include "calls/calls_group_common.h" #include "main/main_session.h" #include "api/api_send_progress.h" #include "apiwrap.h" #include "lang/lang_keys.h" #include "lang/lang_hardcoded.h" #include "boxes/peers/edit_participants_box.h" // SubscribeToMigration. #include "ui/toasts/common_toasts.h" #include "base/unixtime.h" #include "core/application.h" #include "core/core_settings.h" #include "data/data_changes.h" #include "data/data_user.h" #include "data/data_chat.h" #include "data/data_channel.h" #include "data/data_group_call.h" #include "data/data_session.h" #include "base/global_shortcuts.h" #include "base/openssl_help.h" #include "webrtc/webrtc_media_devices.h" #include "webrtc/webrtc_create_adm.h" #include #include #include #include namespace tgcalls { class GroupInstanceImpl; } // namespace tgcalls namespace Calls { namespace { constexpr auto kMaxInvitePerSlice = 10; constexpr auto kCheckLastSpokeInterval = crl::time(1000); constexpr auto kCheckJoinedTimeout = 4 * crl::time(1000); constexpr auto kUpdateSendActionEach = crl::time(500); constexpr auto kPlayConnectingEach = crl::time(1056) + 2 * crl::time(1000); [[nodiscard]] std::unique_ptr CreateMediaDevices() { const auto &settings = Core::App().settings(); return Webrtc::CreateMediaDevices( settings.callInputDeviceId(), settings.callOutputDeviceId(), settings.callVideoInputDeviceId()); } [[nodiscard]] const Data::GroupCall::Participant *LookupParticipant( not_null chat, uint64 id, not_null user) { const auto call = chat->groupCall(); if (!id || !call || call->id() != id) { return nullptr; } const auto &participants = call->participants(); const auto i = ranges::find( participants, user, &Data::GroupCall::Participant::user); return (i != end(participants)) ? &*i : nullptr; } } // namespace GroupCall::GroupCall( not_null delegate, not_null peer, const MTPInputGroupCall &inputCall) : _delegate(delegate) , _peer(peer) , _history(peer->owner().history(peer)) , _api(&peer->session().mtp()) , _lastSpokeCheckTimer([=] { checkLastSpoke(); }) , _checkJoinedTimer([=] { checkJoined(); }) , _pushToTalkCancelTimer([=] { pushToTalkCancel(); }) , _connectingSoundTimer([=] { playConnectingSoundOnce(); }) , _mediaDevices(CreateMediaDevices()) { _muted.value( ) | rpl::combine_previous( ) | rpl::start_with_next([=](MuteState previous, MuteState state) { if (_instance) { updateInstanceMuteState(); } if (_mySsrc) { maybeSendMutedUpdate(previous); } }, _lifetime); checkGlobalShortcutAvailability(); const auto id = inputCall.c_inputGroupCall().vid().v; if (id) { if (const auto call = _peer->groupCall(); call && call->id() == id) { if (!_peer->canManageGroupCall() && call->joinMuted()) { _muted = MuteState::ForceMuted; } } _state = State::Joining; join(inputCall); } else { start(); } _mediaDevices->audioInputId( ) | rpl::start_with_next([=](QString id) { _audioInputId = id; if (_instance) { _instance->setAudioInputDevice(id.toStdString()); } }, _lifetime); _mediaDevices->audioOutputId( ) | rpl::start_with_next([=](QString id) { _audioOutputId = id; if (_instance) { _instance->setAudioOutputDevice(id.toStdString()); } }, _lifetime); } GroupCall::~GroupCall() { destroyController(); } void GroupCall::checkGlobalShortcutAvailability() { auto &settings = Core::App().settings(); if (!settings.groupCallPushToTalk()) { return; } else if (!base::GlobalShortcutsAllowed()) { settings.setGroupCallPushToTalk(false); Core::App().saveSettingsDelayed(); } } void GroupCall::setState(State state) { if (_state.current() == State::Failed) { return; } else if (_state.current() == State::FailedHangingUp && state != State::Failed) { return; } if (_state.current() == state) { return; } _state = state; if (state == State::Joined) { stopConnectingSound(); if (!_hadJoinedState) { _hadJoinedState = true; applyGlobalShortcutChanges(); _delegate->groupCallPlaySound(Delegate::GroupCallSound::Started); } if (const auto call = _peer->groupCall(); call && call->id() == _id) { call->setInCall(); } } else if (state == State::Connecting || state == State::Joining) { if (_hadJoinedState) { playConnectingSound(); } } else { stopConnectingSound(); } if (false || state == State::Ended || state == State::Failed) { // Destroy controller before destroying Call Panel, // so that the panel hide animation is smooth. destroyController(); } switch (state) { case State::HangingUp: case State::FailedHangingUp: _delegate->groupCallPlaySound(Delegate::GroupCallSound::Ended); break; case State::Ended: _delegate->groupCallFinished(this); break; case State::Failed: _delegate->groupCallFailed(this); break; case State::Connecting: if (!_checkJoinedTimer.isActive()) { _checkJoinedTimer.callOnce(kCheckJoinedTimeout); } break; } } void GroupCall::playConnectingSound() { if (_connectingSoundTimer.isActive()) { return; } playConnectingSoundOnce(); _connectingSoundTimer.callEach(kPlayConnectingEach); } void GroupCall::stopConnectingSound() { _connectingSoundTimer.cancel(); } void GroupCall::playConnectingSoundOnce() { _delegate->groupCallPlaySound(Delegate::GroupCallSound::Connecting); } void GroupCall::start() { _createRequestId = _api.request(MTPphone_CreateGroupCall( _peer->input, MTP_int(openssl::RandomValue()) )).done([=](const MTPUpdates &result) { _acceptFields = true; _peer->session().api().applyUpdates(result); _acceptFields = false; }).fail([=](const RPCError &error) { LOG(("Call Error: Could not create, error: %1" ).arg(error.type())); hangup(); if (error.type() == u"GROUPCALL_ANONYMOUS_FORBIDDEN"_q) { Ui::ShowMultilineToast({ .text = tr::lng_group_call_no_anonymous(tr::now), }); } }).send(); } void GroupCall::join(const MTPInputGroupCall &inputCall) { setState(State::Joining); if (const auto chat = _peer->asChat()) { chat->setGroupCall(inputCall); } else if (const auto group = _peer->asMegagroup()) { group->setGroupCall(inputCall); } else { Unexpected("Peer type in GroupCall::join."); } inputCall.match([&](const MTPDinputGroupCall &data) { _id = data.vid().v; _accessHash = data.vaccess_hash().v; rejoin(); }); using Update = Data::GroupCall::ParticipantUpdate; _peer->groupCall()->participantUpdated( ) | rpl::filter([=](const Update &update) { return (_instance != nullptr); }) | rpl::start_with_next([=](const Update &update) { if (!update.now) { _instance->removeSsrcs({ update.was->ssrc }); } else { const auto &now = *update.now; const auto &was = update.was; const auto volumeChanged = was ? (was->volume != now.volume || was->mutedByMe != now.mutedByMe) : (now.volume != Group::kDefaultVolume || now.mutedByMe); if (volumeChanged) { _instance->setVolume( now.ssrc, (now.mutedByMe ? 0. : (now.volume / float64(Group::kDefaultVolume)))); } } }, _lifetime); SubscribeToMigration(_peer, _lifetime, [=](not_null group) { _peer = group; }); } void GroupCall::rejoin() { if (state() != State::Joining && state() != State::Joined && state() != State::Connecting) { return; } _mySsrc = 0; setState(State::Joining); createAndStartController(); applySelfInCallLocally(); LOG(("Call Info: Requesting join payload.")); const auto weak = base::make_weak(this); _instance->emitJoinPayload([=](tgcalls::GroupJoinPayload payload) { crl::on_main(weak, [=, payload = std::move(payload)]{ auto fingerprints = QJsonArray(); for (const auto print : payload.fingerprints) { auto object = QJsonObject(); object.insert("hash", QString::fromStdString(print.hash)); object.insert("setup", QString::fromStdString(print.setup)); object.insert( "fingerprint", QString::fromStdString(print.fingerprint)); fingerprints.push_back(object); } auto root = QJsonObject(); const auto ssrc = payload.ssrc; root.insert("ufrag", QString::fromStdString(payload.ufrag)); root.insert("pwd", QString::fromStdString(payload.pwd)); root.insert("fingerprints", fingerprints); root.insert("ssrc", double(payload.ssrc)); LOG(("Call Info: Join payload received, joining with ssrc: %1." ).arg(ssrc)); const auto json = QJsonDocument(root).toJson( QJsonDocument::Compact); const auto wasMuteState = muted(); _api.request(MTPphone_JoinGroupCall( MTP_flags((wasMuteState != MuteState::Active) ? MTPphone_JoinGroupCall::Flag::f_muted : MTPphone_JoinGroupCall::Flag(0)), inputCall(), MTP_dataJSON(MTP_bytes(json)) )).done([=](const MTPUpdates &updates) { _mySsrc = ssrc; setState(_instanceConnected ? State::Joined : State::Connecting); applySelfInCallLocally(); maybeSendMutedUpdate(wasMuteState); _peer->session().api().applyUpdates(updates); }).fail([=](const RPCError &error) { const auto type = error.type(); LOG(("Call Error: Could not join, error: %1").arg(type)); if (type == u"GROUPCALL_SSRC_DUPLICATE_MUCH") { rejoin(); return; } hangup(); Ui::ShowMultilineToast({ .text = (type == u"GROUPCALL_ANONYMOUS_FORBIDDEN"_q ? tr::lng_group_call_no_anonymous(tr::now) : type == u"GROUPCALL_PARTICIPANTS_TOO_MUCH"_q ? tr::lng_group_call_too_many(tr::now) : type == u"GROUPCALL_FORBIDDEN"_q ? tr::lng_group_not_accessible(tr::now) : Lang::Hard::ServerError()), }); }).send(); }); }); } void GroupCall::applySelfInCallLocally() { const auto call = _peer->groupCall(); if (!call || call->id() != _id) { return; } using Flag = MTPDgroupCallParticipant::Flag; const auto &participants = call->participants(); const auto self = _peer->session().user(); const auto i = ranges::find( participants, self, &Data::GroupCall::Participant::user); const auto date = (i != end(participants)) ? i->date : base::unixtime::now(); const auto lastActive = (i != end(participants)) ? i->lastActive : TimeId(0); const auto canSelfUnmute = (muted() != MuteState::ForceMuted); const auto flags = (canSelfUnmute ? Flag::f_can_self_unmute : Flag(0)) | (lastActive ? Flag::f_active_date : Flag(0)) | (_mySsrc ? Flag(0) : Flag::f_left) | ((muted() != MuteState::Active) ? Flag::f_muted : Flag(0)); call->applyUpdateChecked( MTP_updateGroupCallParticipants( inputCall(), MTP_vector( 1, MTP_groupCallParticipant( MTP_flags(flags), MTP_int(self->bareId()), MTP_int(date), MTP_int(lastActive), MTP_int(_mySsrc), MTP_int(Group::kDefaultVolume))), // volume MTP_int(0)).c_updateGroupCallParticipants()); } void GroupCall::applyParticipantLocally( not_null user, bool mute, std::optional volume) { const auto participant = LookupParticipant(_peer, _id, user); if (!participant || !participant->ssrc) { return; } const auto canSelfUnmute = participant->canSelfUnmute; const auto mutedCount = 0/*participant->mutedCount*/; using Flag = MTPDgroupCallParticipant::Flag; const auto flags = (canSelfUnmute ? Flag::f_can_self_unmute : Flag(0)) | Flag::f_volume // Without flag the volume is reset to 100%. | (participant->lastActive ? Flag::f_active_date : Flag(0)) | (!mute ? Flag(0) : _peer->canManageGroupCall() ? Flag::f_muted : Flag::f_muted_by_you); _peer->groupCall()->applyUpdateChecked( MTP_updateGroupCallParticipants( inputCall(), MTP_vector( 1, MTP_groupCallParticipant( MTP_flags(flags), MTP_int(user->bareId()), MTP_int(participant->date), MTP_int(participant->lastActive), MTP_int(participant->ssrc), MTP_int(volume.value_or(participant->volume)))), MTP_int(0)).c_updateGroupCallParticipants()); } void GroupCall::hangup() { finish(FinishType::Ended); } void GroupCall::discard() { if (!_id) { _api.request(_createRequestId).cancel(); hangup(); return; } _api.request(MTPphone_DiscardGroupCall( inputCall() )).done([=](const MTPUpdates &result) { // Here 'this' could be destroyed by updates, so we set Ended after // updates being handled, but in a guarded way. crl::on_main(this, [=] { hangup(); }); _peer->session().api().applyUpdates(result); }).fail([=](const RPCError &error) { hangup(); }).send(); } void GroupCall::finish(FinishType type) { Expects(type != FinishType::None); const auto finalState = (type == FinishType::Ended) ? State::Ended : State::Failed; const auto hangupState = (type == FinishType::Ended) ? State::HangingUp : State::FailedHangingUp; const auto state = _state.current(); if (state == State::HangingUp || state == State::FailedHangingUp || state == State::Ended || state == State::Failed) { return; } if (!_mySsrc) { setState(finalState); return; } setState(hangupState); // We want to leave request still being sent and processed even if // the call is already destroyed. const auto session = &_peer->session(); const auto weak = base::make_weak(this); session->api().request(MTPphone_LeaveGroupCall( inputCall(), MTP_int(_mySsrc) )).done([=](const MTPUpdates &result) { // Here 'this' could be destroyed by updates, so we set Ended after // updates being handled, but in a guarded way. crl::on_main(weak, [=] { setState(finalState); }); session->api().applyUpdates(result); }).fail(crl::guard(weak, [=](const RPCError &error) { setState(finalState); })).send(); } void GroupCall::setMuted(MuteState mute) { const auto set = [=] { const auto wasMuted = (muted() == MuteState::Muted) || (muted() == MuteState::PushToTalk); _muted = mute; const auto nowMuted = (muted() == MuteState::Muted) || (muted() == MuteState::PushToTalk); if (wasMuted != nowMuted) { applySelfInCallLocally(); } }; if (mute == MuteState::Active || mute == MuteState::PushToTalk) { _delegate->groupCallRequestPermissionsOrFail(crl::guard(this, set)); } else { set(); } } void GroupCall::handleUpdate(const MTPGroupCall &call) { return call.match([&](const MTPDgroupCall &data) { if (_acceptFields) { if (!_instance && !_id) { join(MTP_inputGroupCall(data.vid(), data.vaccess_hash())); } return; } else if (_id != data.vid().v || _accessHash != data.vaccess_hash().v || !_instance) { return; } if (const auto params = data.vparams()) { params->match([&](const MTPDdataJSON &data) { auto error = QJsonParseError{ 0, QJsonParseError::NoError }; const auto document = QJsonDocument::fromJson( data.vdata().v, &error); if (error.error != QJsonParseError::NoError) { LOG(("API Error: " "Failed to parse group call params, error: %1." ).arg(error.errorString())); return; } else if (!document.isObject()) { LOG(("API Error: " "Not an object received in group call params.")); return; } const auto readString = []( const QJsonObject &object, const char *key) { return object.value(key).toString().toStdString(); }; const auto root = document.object().value("transport").toObject(); auto payload = tgcalls::GroupJoinResponsePayload(); payload.ufrag = readString(root, "ufrag"); payload.pwd = readString(root, "pwd"); const auto prints = root.value("fingerprints").toArray(); const auto candidates = root.value("candidates").toArray(); for (const auto &print : prints) { const auto object = print.toObject(); payload.fingerprints.push_back(tgcalls::GroupJoinPayloadFingerprint{ .hash = readString(object, "hash"), .setup = readString(object, "setup"), .fingerprint = readString(object, "fingerprint"), }); } for (const auto &candidate : candidates) { const auto object = candidate.toObject(); payload.candidates.push_back(tgcalls::GroupJoinResponseCandidate{ .port = readString(object, "port"), .protocol = readString(object, "protocol"), .network = readString(object, "network"), .generation = readString(object, "generation"), .id = readString(object, "id"), .component = readString(object, "component"), .foundation = readString(object, "foundation"), .priority = readString(object, "priority"), .ip = readString(object, "ip"), .type = readString(object, "type"), .tcpType = readString(object, "tcpType"), .relAddr = readString(object, "relAddr"), .relPort = readString(object, "relPort"), }); } _instance->setJoinResponsePayload(payload); }); } }, [&](const MTPDgroupCallDiscarded &data) { if (data.vid().v == _id) { _mySsrc = 0; hangup(); } }); } void GroupCall::handleUpdate(const MTPDupdateGroupCallParticipants &data) { const auto state = _state.current(); if (state != State::Joined && state != State::Connecting) { return; } const auto handleOtherParticipants = [=]( const MTPDgroupCallParticipant &data) { const auto user = _peer->owner().user(data.vuser_id().v); const auto participant = LookupParticipant(_peer, _id, user); if (!participant) { return; } _otherParticipantStateValue.fire(Group::ParticipantState{ .user = user, .volume = data.vvolume().value_or_empty(), .mutedByMe = data.is_muted_by_you(), }); }; const auto self = _peer->session().userId(); for (const auto &participant : data.vparticipants().v) { participant.match([&](const MTPDgroupCallParticipant &data) { if (data.vuser_id().v != self) { handleOtherParticipants(data); return; } if (data.is_left() && data.vsource().v == _mySsrc) { // I was removed from the call, rejoin. LOG(("Call Info: Rejoin after got 'left' with my ssrc.")); setState(State::Joining); rejoin(); } else if (!data.is_left() && data.vsource().v != _mySsrc) { // I joined from another device, hangup. LOG(("Call Info: Hangup after '!left' with ssrc %1, my %2." ).arg(data.vsource().v ).arg(_mySsrc)); _mySsrc = 0; hangup(); } if (data.is_muted() && !data.is_can_self_unmute()) { setMuted(MuteState::ForceMuted); } else if (muted() == MuteState::ForceMuted) { setMuted(MuteState::Muted); } else if (data.is_muted() && muted() != MuteState::Muted) { setMuted(MuteState::Muted); } }); } } void GroupCall::createAndStartController() { const auto &settings = Core::App().settings(); const auto weak = base::make_weak(this); const auto myLevel = std::make_shared(); tgcalls::GroupInstanceDescriptor descriptor = { .config = tgcalls::GroupConfig{ }, .networkStateUpdated = [=](bool connected) { crl::on_main(weak, [=] { setInstanceConnected(connected); }); }, .audioLevelsUpdated = [=](const tgcalls::GroupLevelsUpdate &data) { const auto &updates = data.updates; if (updates.empty()) { return; } else if (updates.size() == 1 && !updates.front().ssrc) { const auto &value = updates.front().value; // Don't send many 0 while we're muted. if (myLevel->level == value.level && myLevel->voice == value.voice) { return; } *myLevel = updates.front().value; } crl::on_main(weak, [=] { audioLevelsUpdated(data); }); }, .initialInputDeviceId = _audioInputId.toStdString(), .initialOutputDeviceId = _audioOutputId.toStdString(), .createAudioDeviceModule = Webrtc::AudioDeviceModuleCreator( settings.callAudioBackend()), }; if (Logs::DebugEnabled()) { auto callLogFolder = cWorkingDir() + qsl("DebugLogs"); auto callLogPath = callLogFolder + qsl("/last_group_call_log.txt"); auto callLogNative = QDir::toNativeSeparators(callLogPath); #ifdef Q_OS_WIN descriptor.config.logPath.data = callLogNative.toStdWString(); #else // Q_OS_WIN const auto callLogUtf = QFile::encodeName(callLogNative); descriptor.config.logPath.data.resize(callLogUtf.size()); ranges::copy(callLogUtf, descriptor.config.logPath.data.begin()); #endif // Q_OS_WIN QFile(callLogPath).remove(); QDir().mkpath(callLogFolder); } LOG(("Call Info: Creating group instance")); _instance = std::make_unique( std::move(descriptor)); updateInstanceMuteState(); updateInstanceVolumes(); //raw->setAudioOutputDuckingEnabled(settings.callAudioDuckingEnabled()); } void GroupCall::updateInstanceMuteState() { Expects(_instance != nullptr); const auto state = muted(); _instance->setIsMuted(state != MuteState::Active && state != MuteState::PushToTalk); } void GroupCall::updateInstanceVolumes() { const auto real = _peer->groupCall(); if (!real || real->id() != _id) { return; } const auto &participants = real->participants(); for (const auto &participant : participants) { const auto setVolume = participant.mutedByMe || (participant.volume != Group::kDefaultVolume); if (setVolume && participant.ssrc) { _instance->setVolume( participant.ssrc, (participant.mutedByMe ? 0. : (participant.volume / float64(Group::kDefaultVolume)))); } } } void GroupCall::audioLevelsUpdated(const tgcalls::GroupLevelsUpdate &data) { Expects(!data.updates.empty()); auto check = false; auto checkNow = false; const auto now = crl::now(); for (const auto &[ssrcOrZero, value] : data.updates) { const auto ssrc = ssrcOrZero ? ssrcOrZero : _mySsrc; const auto level = value.level; const auto voice = value.voice; const auto self = (ssrc == _mySsrc); _levelUpdates.fire(LevelUpdate{ .ssrc = ssrc, .value = level, .voice = voice, .self = self }); if (level <= kSpeakLevelThreshold) { continue; } if (self && voice && (!_lastSendProgressUpdate || _lastSendProgressUpdate + kUpdateSendActionEach < now)) { _lastSendProgressUpdate = now; _peer->session().sendProgressManager().update( _history, Api::SendProgressType::Speaking); } check = true; const auto i = _lastSpoke.find(ssrc); if (i == _lastSpoke.end()) { _lastSpoke.emplace(ssrc, Data::LastSpokeTimes{ .anything = now, .voice = voice ? now : 0, }); checkNow = true; } else { if ((i->second.anything + kCheckLastSpokeInterval / 3 <= now) || (voice && i->second.voice + kCheckLastSpokeInterval / 3 <= now)) { checkNow = true; } i->second.anything = now; if (voice) { i->second.voice = now; } } } if (checkNow) { checkLastSpoke(); } else if (check && !_lastSpokeCheckTimer.isActive()) { _lastSpokeCheckTimer.callEach(kCheckLastSpokeInterval / 2); } } void GroupCall::checkLastSpoke() { const auto real = _peer->groupCall(); if (!real || real->id() != _id) { return; } auto hasRecent = false; const auto now = crl::now(); auto list = base::take(_lastSpoke); for (auto i = list.begin(); i != list.end();) { const auto [ssrc, when] = *i; if (when.anything + kCheckLastSpokeInterval >= now) { hasRecent = true; ++i; } else { i = list.erase(i); } real->applyLastSpoke(ssrc, when, now); } _lastSpoke = std::move(list); if (!hasRecent) { _lastSpokeCheckTimer.cancel(); } else if (!_lastSpokeCheckTimer.isActive()) { _lastSpokeCheckTimer.callEach(kCheckLastSpokeInterval / 3); } } void GroupCall::checkJoined() { if (state() != State::Connecting || !_id || !_mySsrc) { return; } _api.request(MTPphone_CheckGroupCall( inputCall(), MTP_int(_mySsrc) )).done([=](const MTPBool &result) { if (!mtpIsTrue(result)) { LOG(("Call Info: Rejoin after FALSE in checkGroupCall.")); rejoin(); } else if (state() == State::Connecting) { _checkJoinedTimer.callOnce(kCheckJoinedTimeout); } }).fail([=](const RPCError &error) { LOG(("Call Info: Rejoin after error '%1' in checkGroupCall." ).arg(error.type())); rejoin(); }).send(); } void GroupCall::setInstanceConnected(bool connected) { if (_instanceConnected == connected) { return; } _instanceConnected = connected; if (state() == State::Connecting && connected) { setState(State::Joined); } else if (state() == State::Joined && !connected) { setState(State::Connecting); } } void GroupCall::maybeSendMutedUpdate(MuteState previous) { // Send only Active <-> !Active changes. const auto now = muted(); const auto wasActive = (previous == MuteState::Active); const auto nowActive = (now == MuteState::Active); if (now == MuteState::ForceMuted || previous == MuteState::ForceMuted || (nowActive == wasActive)) { return; } sendMutedUpdate(); } void GroupCall::sendMutedUpdate() { _api.request(_updateMuteRequestId).cancel(); _updateMuteRequestId = _api.request(MTPphone_EditGroupCallMember( MTP_flags((muted() != MuteState::Active) ? MTPphone_EditGroupCallMember::Flag::f_muted : MTPphone_EditGroupCallMember::Flag(0)), inputCall(), MTP_inputUserSelf(), MTP_int(100000) // volume )).done([=](const MTPUpdates &result) { _updateMuteRequestId = 0; _peer->session().api().applyUpdates(result); }).fail([=](const RPCError &error) { _updateMuteRequestId = 0; if (error.type() == u"GROUPCALL_FORBIDDEN"_q) { LOG(("Call Info: Rejoin after error '%1' in editGroupCallMember." ).arg(error.type())); rejoin(); } }).send(); } rpl::producer GroupCall::connectingValue() const { using namespace rpl::mappers; return _state.value() | rpl::map( _1 == State::Creating || _1 == State::Joining || _1 == State::Connecting ) | rpl::distinct_until_changed(); } void GroupCall::setCurrentAudioDevice(bool input, const QString &deviceId) { if (input) { _mediaDevices->switchToAudioInput(deviceId); } else { _mediaDevices->switchToAudioOutput(deviceId); } } void GroupCall::toggleMute(const Group::MuteRequest &data) { if (data.locallyOnly) { applyParticipantLocally(data.user, data.mute, std::nullopt); } else { editParticipant(data.user, data.mute, std::nullopt); } } void GroupCall::changeVolume(const Group::VolumeRequest &data) { if (data.locallyOnly) { applyParticipantLocally(data.user, false, data.volume); } else { editParticipant(data.user, false, data.volume); } } void GroupCall::editParticipant( not_null user, bool mute, std::optional volume) { const auto participant = LookupParticipant(_peer, _id, user); if (!participant) { return; } applyParticipantLocally(user, mute, volume); using Flag = MTPphone_EditGroupCallMember::Flag; const auto flags = (mute ? Flag::f_muted : Flag(0)) | (volume.has_value() ? Flag::f_volume : Flag(0)); _api.request(MTPphone_EditGroupCallMember( MTP_flags(flags), inputCall(), user->inputUser, MTP_int(std::clamp(volume.value_or(0), 1, Group::kMaxVolume)) )).done([=](const MTPUpdates &result) { _peer->session().api().applyUpdates(result); }).fail([=](const RPCError &error) { if (error.type() == u"GROUPCALL_FORBIDDEN"_q) { LOG(("Call Info: Rejoin after error '%1' in editGroupCallMember." ).arg(error.type())); rejoin(); } }).send(); } std::variant> GroupCall::inviteUsers( const std::vector> &users) { const auto real = _peer->groupCall(); if (!real || real->id() != _id) { return 0; } const auto owner = &_peer->owner(); const auto &invited = owner->invitedToCallUsers(_id); const auto &participants = real->participants(); auto &&toInvite = users | ranges::view::filter([&]( not_null user) { return !invited.contains(user) && !ranges::contains( participants, user, &Data::GroupCall::Participant::user); }); auto count = 0; auto slice = QVector(); auto result = std::variant>(0); slice.reserve(kMaxInvitePerSlice); const auto sendSlice = [&] { count += slice.size(); _api.request(MTPphone_InviteToGroupCall( inputCall(), MTP_vector(slice) )).done([=](const MTPUpdates &result) { _peer->session().api().applyUpdates(result); }).send(); slice.clear(); }; for (const auto user : users) { if (!count && slice.empty()) { result = user; } owner->registerInvitedToCallUser(_id, _peer, user); slice.push_back(user->inputUser); if (slice.size() == kMaxInvitePerSlice) { sendSlice(); } } if (count != 0 || slice.size() != 1) { result = int(count + slice.size()); } if (!slice.empty()) { sendSlice(); } return result; } auto GroupCall::ensureGlobalShortcutManager() -> std::shared_ptr { if (!_shortcutManager) { _shortcutManager = base::CreateGlobalShortcutManager(); } return _shortcutManager; } void GroupCall::applyGlobalShortcutChanges() { auto &settings = Core::App().settings(); if (!settings.groupCallPushToTalk() || settings.groupCallPushToTalkShortcut().isEmpty() || !base::GlobalShortcutsAvailable() || !base::GlobalShortcutsAllowed()) { _shortcutManager = nullptr; _pushToTalk = nullptr; return; } ensureGlobalShortcutManager(); const auto shortcut = _shortcutManager->shortcutFromSerialized( settings.groupCallPushToTalkShortcut()); if (!shortcut) { settings.setGroupCallPushToTalkShortcut(QByteArray()); settings.setGroupCallPushToTalk(false); Core::App().saveSettingsDelayed(); _shortcutManager = nullptr; _pushToTalk = nullptr; return; } if (_pushToTalk) { if (shortcut->serialize() == _pushToTalk->serialize()) { return; } _shortcutManager->stopWatching(_pushToTalk); } _pushToTalk = shortcut; _shortcutManager->startWatching(_pushToTalk, [=](bool pressed) { pushToTalk( pressed, Core::App().settings().groupCallPushToTalkDelay()); }); } void GroupCall::pushToTalk(bool pressed, crl::time delay) { if (muted() == MuteState::ForceMuted || muted() == MuteState::Active) { return; } else if (pressed) { _pushToTalkCancelTimer.cancel(); setMuted(MuteState::PushToTalk); } else if (delay) { _pushToTalkCancelTimer.callOnce(delay); } else { pushToTalkCancel(); } } void GroupCall::pushToTalkCancel() { _pushToTalkCancelTimer.cancel(); if (muted() == MuteState::PushToTalk) { setMuted(MuteState::Muted); } } auto GroupCall::otherParticipantStateValue() const -> rpl::producer { return _otherParticipantStateValue.events(); } //void GroupCall::setAudioVolume(bool input, float level) { // if (_instance) { // if (input) { // _instance->setInputVolume(level); // } else { // _instance->setOutputVolume(level); // } // } //} void GroupCall::setAudioDuckingEnabled(bool enabled) { if (_instance) { //_instance->setAudioOutputDuckingEnabled(enabled); } } void GroupCall::handleRequestError(const RPCError &error) { //if (error.type() == qstr("USER_PRIVACY_RESTRICTED")) { // Ui::show(Box(tr::lng_call_error_not_available(tr::now, lt_user, _user->name))); //} else if (error.type() == qstr("PARTICIPANT_VERSION_OUTDATED")) { // Ui::show(Box(tr::lng_call_error_outdated(tr::now, lt_user, _user->name))); //} else if (error.type() == qstr("CALL_PROTOCOL_LAYER_INVALID")) { // Ui::show(Box(Lang::Hard::CallErrorIncompatible().replace("{user}", _user->name))); //} //finish(FinishType::Failed); } void GroupCall::handleControllerError(const QString &error) { if (error == u"ERROR_INCOMPATIBLE"_q) { //Ui::show(Box( // Lang::Hard::CallErrorIncompatible().replace( // "{user}", // _user->name))); } else if (error == u"ERROR_AUDIO_IO"_q) { //Ui::show(Box(tr::lng_call_error_audio_io(tr::now))); } //finish(FinishType::Failed); } MTPInputGroupCall GroupCall::inputCall() const { Expects(_id != 0); return MTP_inputGroupCall( MTP_long(_id), MTP_long(_accessHash)); } void GroupCall::destroyController() { if (_instance) { //_instance->stop([](tgcalls::FinalState) { //}); DEBUG_LOG(("Call Info: Destroying call controller..")); _instance.reset(); DEBUG_LOG(("Call Info: Call controller destroyed.")); } } } // namespace Calls