/* 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_call.h" #include "auth_session.h" #include "apiwrap.h" #include "lang/lang_keys.h" #include "boxes/confirm_box.h" #include "boxes/rate_call_box.h" #include "calls/calls_instance.h" #include "base/openssl_help.h" #include "mtproto/connection.h" #include "media/audio/media_audio_track.h" #include "calls/calls_panel.h" #include "data/data_user.h" #include "data/data_session.h" #ifdef slots #undef slots #define NEED_TO_RESTORE_SLOTS #endif // slots #include #include #ifdef NEED_TO_RESTORE_SLOTS #define slots Q_SLOTS #undef NEED_TO_RESTORE_SLOTS #endif // NEED_TO_RESTORE_SLOTS namespace Calls { namespace { constexpr auto kMinLayer = 65; constexpr auto kHangupTimeoutMs = 5000; constexpr auto kSha256Size = 32; void AppendEndpoint( std::vector &list, const MTPPhoneConnection &connection) { connection.match([&](const MTPDphoneConnection &data) { if (data.vpeer_tag.v.length() != 16) { return; } const auto ipv4 = tgvoip::IPv4Address(std::string( data.vip.v.constData(), data.vip.v.size())); const auto ipv6 = tgvoip::IPv6Address(std::string( data.vipv6.v.constData(), data.vipv6.v.size())); list.emplace_back( (int64_t)data.vid.v, (uint16_t)data.vport.v, ipv4, ipv6, tgvoip::Endpoint::Type::UDP_RELAY, (unsigned char*)data.vpeer_tag.v.data()); }); } constexpr auto kFingerprintDataSize = 256; uint64 ComputeFingerprint(bytes::const_span authKey) { Expects(authKey.size() == kFingerprintDataSize); auto hash = openssl::Sha1(authKey); return (gsl::to_integer(hash[19]) << 56) | (gsl::to_integer(hash[18]) << 48) | (gsl::to_integer(hash[17]) << 40) | (gsl::to_integer(hash[16]) << 32) | (gsl::to_integer(hash[15]) << 24) | (gsl::to_integer(hash[14]) << 16) | (gsl::to_integer(hash[13]) << 8) | (gsl::to_integer(hash[12])); } } // namespace void Call::ControllerPointer::create() { Expects(_data == nullptr); _data = std::make_unique(); } void Call::ControllerPointer::reset() { if (const auto controller = base::take(_data)) { controller->Stop(); } } bool Call::ControllerPointer::empty() const { return (_data == nullptr); } bool Call::ControllerPointer::operator==(std::nullptr_t) const { return empty(); } Call::ControllerPointer::operator bool() const { return !empty(); } tgvoip::VoIPController *Call::ControllerPointer::operator->() const { Expects(!empty()); return _data.get(); } tgvoip::VoIPController &Call::ControllerPointer::operator*() const { Expects(!empty()); return *_data; } Call::ControllerPointer::~ControllerPointer() { reset(); } Call::Delegate::~Delegate() = default; Call::Call( not_null delegate, not_null user, Type type) : _delegate(delegate) , _user(user) , _type(type) { _discardByTimeoutTimer.setCallback([this] { hangup(); }); if (_type == Type::Outgoing) { setState(State::Requesting); } else { startWaitingTrack(); } } void Call::generateModExpFirst(bytes::const_span randomSeed) { auto first = MTP::CreateModExp(_dhConfig.g, _dhConfig.p, randomSeed); if (first.modexp.empty()) { LOG(("Call Error: Could not compute mod-exp first.")); finish(FinishType::Failed); return; } _randomPower = std::move(first.randomPower); if (_type == Type::Incoming) { _gb = std::move(first.modexp); } else { _ga = std::move(first.modexp); _gaHash = openssl::Sha256(_ga); } } bool Call::isIncomingWaiting() const { if (type() != Call::Type::Incoming) { return false; } return (_state == State::Starting) || (_state == State::WaitingIncoming); } void Call::start(bytes::const_span random) { // Save config here, because it is possible that it changes between // different usages inside the same call. _dhConfig = _delegate->getDhConfig(); Assert(_dhConfig.g != 0); Assert(!_dhConfig.p.empty()); generateModExpFirst(random); if (_state == State::Starting || _state == State::Requesting) { if (_type == Type::Outgoing) { startOutgoing(); } else { startIncoming(); } } else if (_state == State::ExchangingKeys && _answerAfterDhConfigReceived) { answer(); } } void Call::startOutgoing() { Expects(_type == Type::Outgoing); Expects(_state == State::Requesting); Expects(_gaHash.size() == kSha256Size); request(MTPphone_RequestCall( MTP_flags(0), _user->inputUser, MTP_int(rand_value()), MTP_bytes(_gaHash), MTP_phoneCallProtocol( MTP_flags(MTPDphoneCallProtocol::Flag::f_udp_p2p | MTPDphoneCallProtocol::Flag::f_udp_reflector), MTP_int(kMinLayer), MTP_int(tgvoip::VoIPController::GetConnectionMaxLayer())) )).done([=](const MTPphone_PhoneCall &result) { Expects(result.type() == mtpc_phone_phoneCall); setState(State::Waiting); auto &call = result.c_phone_phoneCall(); Auth().data().processUsers(call.vusers); if (call.vphone_call.type() != mtpc_phoneCallWaiting) { LOG(("Call Error: Expected phoneCallWaiting in response to phone.requestCall()")); finish(FinishType::Failed); return; } auto &phoneCall = call.vphone_call; auto &waitingCall = phoneCall.c_phoneCallWaiting(); _id = waitingCall.vid.v; _accessHash = waitingCall.vaccess_hash.v; if (_finishAfterRequestingCall != FinishType::None) { if (_finishAfterRequestingCall == FinishType::Failed) { finish(_finishAfterRequestingCall); } else { hangup(); } return; } _discardByTimeoutTimer.callOnce(Global::CallReceiveTimeoutMs()); handleUpdate(phoneCall); }).fail([this](const RPCError &error) { handleRequestError(error); }).send(); } void Call::startIncoming() { Expects(_type == Type::Incoming); Expects(_state == State::Starting); request(MTPphone_ReceivedCall(MTP_inputPhoneCall(MTP_long(_id), MTP_long(_accessHash)))).done([this](const MTPBool &result) { if (_state == State::Starting) { setState(State::WaitingIncoming); } }).fail([this](const RPCError &error) { handleRequestError(error); }).send(); } void Call::answer() { _delegate->requestMicrophonePermissionOrFail(crl::guard(this, [=] { actuallyAnswer(); })); } void Call::actuallyAnswer() { Expects(_type == Type::Incoming); if (_state != State::Starting && _state != State::WaitingIncoming) { if (_state != State::ExchangingKeys || !_answerAfterDhConfigReceived) { return; } } setState(State::ExchangingKeys); if (_gb.empty()) { _answerAfterDhConfigReceived = true; return; } else { _answerAfterDhConfigReceived = false; } request(MTPphone_AcceptCall( MTP_inputPhoneCall(MTP_long(_id), MTP_long(_accessHash)), MTP_bytes(_gb), MTP_phoneCallProtocol( MTP_flags(MTPDphoneCallProtocol::Flag::f_udp_p2p | MTPDphoneCallProtocol::Flag::f_udp_reflector), MTP_int(kMinLayer), MTP_int(tgvoip::VoIPController::GetConnectionMaxLayer())) )).done([=](const MTPphone_PhoneCall &result) { Expects(result.type() == mtpc_phone_phoneCall); auto &call = result.c_phone_phoneCall(); Auth().data().processUsers(call.vusers); if (call.vphone_call.type() != mtpc_phoneCallWaiting) { LOG(("Call Error: " "Not phoneCallWaiting in response to phone.acceptCall.")); finish(FinishType::Failed); return; } handleUpdate(call.vphone_call); }).fail([=](const RPCError &error) { handleRequestError(error); }).send(); } void Call::setMute(bool mute) { _mute = mute; if (_controller) { _controller->SetMicMute(_mute); } _muteChanged.notify(_mute); } crl::time Call::getDurationMs() const { return _startTime ? (crl::now() - _startTime) : 0; } void Call::hangup() { if (_state == State::Busy) { _delegate->callFinished(this); } else { auto missed = (_state == State::Ringing || (_state == State::Waiting && _type == Type::Outgoing)); auto declined = isIncomingWaiting(); auto reason = missed ? MTP_phoneCallDiscardReasonMissed() : declined ? MTP_phoneCallDiscardReasonBusy() : MTP_phoneCallDiscardReasonHangup(); finish(FinishType::Ended, reason); } } void Call::redial() { if (_state != State::Busy) { return; } Assert(_controller == nullptr); _type = Type::Outgoing; setState(State::Requesting); _answerAfterDhConfigReceived = false; startWaitingTrack(); _delegate->callRedial(this); } QString Call::getDebugLog() const { const auto debug = _controller->GetDebugString(); return QString::fromUtf8(debug.data(), debug.size()); } void Call::startWaitingTrack() { _waitingTrack = Media::Audio::Current().createTrack(); auto trackFileName = Auth().settings().getSoundPath( (_type == Type::Outgoing) ? qsl("call_outgoing") : qsl("call_incoming")); _waitingTrack->samplePeakEach(kSoundSampleMs); _waitingTrack->fillFromFile(trackFileName); _waitingTrack->playInLoop(); } float64 Call::getWaitingSoundPeakValue() const { if (_waitingTrack) { auto when = crl::now() + kSoundSampleMs / 4; return _waitingTrack->getPeakValue(when); } return 0.; } bool Call::isKeyShaForFingerprintReady() const { return (_keyFingerprint != 0); } bytes::vector Call::getKeyShaForFingerprint() const { Expects(isKeyShaForFingerprintReady()); Expects(!_ga.empty()); auto encryptedChatAuthKey = bytes::vector(_authKey.size() + _ga.size(), gsl::byte {}); bytes::copy(gsl::make_span(encryptedChatAuthKey).subspan(0, _authKey.size()), _authKey); bytes::copy(gsl::make_span(encryptedChatAuthKey).subspan(_authKey.size(), _ga.size()), _ga); return openssl::Sha256(encryptedChatAuthKey); } bool Call::handleUpdate(const MTPPhoneCall &call) { switch (call.type()) { case mtpc_phoneCallRequested: { auto &data = call.c_phoneCallRequested(); if (_type != Type::Incoming || _id != 0 || peerToUser(_user->id) != data.vadmin_id.v) { Unexpected("phoneCallRequested call inside an existing call handleUpdate()"); } if (Auth().userId() != data.vparticipant_id.v) { LOG(("Call Error: Wrong call participant_id %1, expected %2." ).arg(data.vparticipant_id.v ).arg(Auth().userId())); finish(FinishType::Failed); return true; } _id = data.vid.v; _accessHash = data.vaccess_hash.v; auto gaHashBytes = bytes::make_span(data.vg_a_hash.v); if (gaHashBytes.size() != kSha256Size) { LOG(("Call Error: Wrong g_a_hash size %1, expected %2." ).arg(gaHashBytes.size() ).arg(kSha256Size)); finish(FinishType::Failed); return true; } _gaHash = bytes::make_vector(gaHashBytes); } return true; case mtpc_phoneCallEmpty: { auto &data = call.c_phoneCallEmpty(); if (data.vid.v != _id) { return false; } LOG(("Call Error: phoneCallEmpty received.")); finish(FinishType::Failed); } return true; case mtpc_phoneCallWaiting: { auto &data = call.c_phoneCallWaiting(); if (data.vid.v != _id) { return false; } if (_type == Type::Outgoing && _state == State::Waiting && data.vreceive_date.v != 0) { _discardByTimeoutTimer.callOnce(Global::CallRingTimeoutMs()); setState(State::Ringing); startWaitingTrack(); } } return true; case mtpc_phoneCall: { auto &data = call.c_phoneCall(); if (data.vid.v != _id) { return false; } if (_type == Type::Incoming && _state == State::ExchangingKeys && !_controller) { startConfirmedCall(data); } } return true; case mtpc_phoneCallDiscarded: { auto &data = call.c_phoneCallDiscarded(); if (data.vid.v != _id) { return false; } if (data.is_need_debug()) { auto debugLog = _controller ? _controller->GetDebugLog() : std::string(); if (!debugLog.empty()) { MTP::send( MTPphone_SaveCallDebug( MTP_inputPhoneCall( MTP_long(_id), MTP_long(_accessHash)), MTP_dataJSON(MTP_string(debugLog)))); } } if (data.is_need_rating() && _id && _accessHash) { Ui::show(Box(_id, _accessHash)); } if (data.has_reason() && data.vreason.type() == mtpc_phoneCallDiscardReasonDisconnect) { LOG(("Call Info: Discarded with DISCONNECT reason.")); } if (data.has_reason() && data.vreason.type() == mtpc_phoneCallDiscardReasonBusy) { setState(State::Busy); } else if (_type == Type::Outgoing || _state == State::HangingUp) { setState(State::Ended); } else { setState(State::EndedByOtherDevice); } } return true; case mtpc_phoneCallAccepted: { auto &data = call.c_phoneCallAccepted(); if (data.vid.v != _id) { return false; } if (_type != Type::Outgoing) { LOG(("Call Error: " "Unexpected phoneCallAccepted for an incoming call.")); finish(FinishType::Failed); } else if (checkCallFields(data)) { confirmAcceptedCall(data); } } return true; } Unexpected("phoneCall type inside an existing call handleUpdate()"); } void Call::confirmAcceptedCall(const MTPDphoneCallAccepted &call) { Expects(_type == Type::Outgoing); if (_state == State::ExchangingKeys || _controller) { LOG(("Call Warning: Unexpected confirmAcceptedCall.")); return; } const auto firstBytes = bytes::make_span(call.vg_b.v); const auto computedAuthKey = MTP::CreateAuthKey( firstBytes, _randomPower, _dhConfig.p); if (computedAuthKey.empty()) { LOG(("Call Error: Could not compute mod-exp final.")); finish(FinishType::Failed); return; } MTP::AuthKey::FillData(_authKey, computedAuthKey); _keyFingerprint = ComputeFingerprint(_authKey); setState(State::ExchangingKeys); request(MTPphone_ConfirmCall( MTP_inputPhoneCall(MTP_long(_id), MTP_long(_accessHash)), MTP_bytes(_ga), MTP_long(_keyFingerprint), MTP_phoneCallProtocol( MTP_flags(MTPDphoneCallProtocol::Flag::f_udp_p2p | MTPDphoneCallProtocol::Flag::f_udp_reflector), MTP_int(kMinLayer), MTP_int(tgvoip::VoIPController::GetConnectionMaxLayer())) )).done([this](const MTPphone_PhoneCall &result) { Expects(result.type() == mtpc_phone_phoneCall); auto &call = result.c_phone_phoneCall(); Auth().data().processUsers(call.vusers); if (call.vphone_call.type() != mtpc_phoneCall) { LOG(("Call Error: Expected phoneCall in response to phone.confirmCall()")); finish(FinishType::Failed); return; } createAndStartController(call.vphone_call.c_phoneCall()); }).fail([this](const RPCError &error) { handleRequestError(error); }).send(); } void Call::startConfirmedCall(const MTPDphoneCall &call) { Expects(_type == Type::Incoming); auto firstBytes = bytes::make_span(call.vg_a_or_b.v); if (_gaHash != openssl::Sha256(firstBytes)) { LOG(("Call Error: Wrong g_a hash received.")); finish(FinishType::Failed); return; } _ga = bytes::vector(firstBytes.begin(), firstBytes.end()); auto computedAuthKey = MTP::CreateAuthKey(firstBytes, _randomPower, _dhConfig.p); if (computedAuthKey.empty()) { LOG(("Call Error: Could not compute mod-exp final.")); finish(FinishType::Failed); return; } MTP::AuthKey::FillData(_authKey, computedAuthKey); _keyFingerprint = ComputeFingerprint(_authKey); createAndStartController(call); } void Call::createAndStartController(const MTPDphoneCall &call) { _discardByTimeoutTimer.cancel(); if (!checkCallFields(call)) { return; } tgvoip::VoIPController::Config config; config.dataSaving = tgvoip::DATA_SAVING_NEVER; #ifdef Q_OS_MAC config.enableAEC = (QSysInfo::macVersion() < QSysInfo::MV_10_7); #else // Q_OS_MAC config.enableAEC = true; #endif // Q_OS_MAC config.enableNS = true; config.enableAGC = true; config.enableVolumeControl = true; config.initTimeout = Global::CallConnectTimeoutMs() / 1000; config.recvTimeout = Global::CallPacketTimeoutMs() / 1000; if (Logs::DebugEnabled()) { auto callLogFolder = cWorkingDir() + qsl("DebugLogs"); auto callLogPath = callLogFolder + qsl("/last_call_log.txt"); auto callLogNative = QDir::toNativeSeparators(callLogPath); #ifdef Q_OS_WIN config.logFilePath = callLogNative.toStdWString(); #else // Q_OS_WIN const auto callLogUtf = QFile::encodeName(callLogNative); config.logFilePath.resize(callLogUtf.size()); ranges::copy(callLogUtf, config.logFilePath.begin()); #endif // Q_OS_WIN QFile(callLogPath).remove(); QDir().mkpath(callLogFolder); } const auto &protocol = call.vprotocol.c_phoneCallProtocol(); auto endpoints = std::vector(); for (const auto &connection : call.vconnections.v) { AppendEndpoint(endpoints, connection); } auto callbacks = tgvoip::VoIPController::Callbacks(); callbacks.connectionStateChanged = []( tgvoip::VoIPController *controller, int state) { const auto call = static_cast(controller->implData); call->handleControllerStateChange(controller, state); }; callbacks.signalBarCountChanged = []( tgvoip::VoIPController *controller, int count) { const auto call = static_cast(controller->implData); call->handleControllerBarCountChange(controller, count); }; _controller.create(); if (_mute) { _controller->SetMicMute(_mute); } _controller->implData = static_cast(this); _controller->SetRemoteEndpoints( endpoints, call.is_p2p_allowed(), protocol.vmax_layer.v); _controller->SetConfig(config); _controller->SetCurrentAudioOutput(Global::CallOutputDeviceID().toStdString()); _controller->SetCurrentAudioInput(Global::CallInputDeviceID().toStdString()); _controller->SetOutputVolume(Global::CallOutputVolume()/100.0f); _controller->SetInputVolume(Global::CallInputVolume()/100.0f); #ifdef Q_OS_MAC _controller->SetAudioOutputDuckingEnabled(Global::CallAudioDuckingEnabled()); #endif _controller->SetEncryptionKey(reinterpret_cast(_authKey.data()), (_type == Type::Outgoing)); _controller->SetCallbacks(callbacks); if (Global::UseProxyForCalls() && (Global::ProxySettings() == ProxyData::Settings::Enabled)) { const auto &proxy = Global::SelectedProxy(); if (proxy.supportsCalls()) { Assert(proxy.type == ProxyData::Type::Socks5); _controller->SetProxy( tgvoip::PROXY_SOCKS5, proxy.host.toStdString(), proxy.port, proxy.user.toStdString(), proxy.password.toStdString()); } } _controller->Start(); _controller->Connect(); } void Call::handleControllerStateChange( tgvoip::VoIPController *controller, int state) { // NB! Can be called from an arbitrary thread! // This can be called from ~VoIPController()! // Expects(controller == _controller.get()); Expects(controller->implData == static_cast(this)); switch (state) { case tgvoip::STATE_WAIT_INIT: { DEBUG_LOG(("Call Info: State changed to WaitingInit.")); setStateQueued(State::WaitingInit); } break; case tgvoip::STATE_WAIT_INIT_ACK: { DEBUG_LOG(("Call Info: State changed to WaitingInitAck.")); setStateQueued(State::WaitingInitAck); } break; case tgvoip::STATE_ESTABLISHED: { DEBUG_LOG(("Call Info: State changed to Established.")); setStateQueued(State::Established); } break; case tgvoip::STATE_FAILED: { auto error = controller->GetLastError(); LOG(("Call Info: State changed to Failed, error: %1.").arg(error)); setFailedQueued(error); } break; default: LOG(("Call Error: Unexpected state in handleStateChange: %1").arg(state)); } } void Call::handleControllerBarCountChange( tgvoip::VoIPController *controller, int count) { // NB! Can be called from an arbitrary thread! // This can be called from ~VoIPController()! // Expects(controller == _controller.get()); Expects(controller->implData == static_cast(this)); crl::on_main(this, [=] { setSignalBarCount(count); }); } void Call::setSignalBarCount(int count) { if (_signalBarCount != count) { _signalBarCount = count; _signalBarCountChanged.notify(count); } } template bool Call::checkCallCommonFields(const T &call) { auto checkFailed = [this] { finish(FinishType::Failed); return false; }; if (call.vaccess_hash.v != _accessHash) { LOG(("Call Error: Wrong call access_hash.")); return checkFailed(); } auto adminId = (_type == Type::Outgoing) ? Auth().userId() : peerToUser(_user->id); auto participantId = (_type == Type::Outgoing) ? peerToUser(_user->id) : Auth().userId(); if (call.vadmin_id.v != adminId) { LOG(("Call Error: Wrong call admin_id %1, expected %2.").arg(call.vadmin_id.v).arg(adminId)); return checkFailed(); } if (call.vparticipant_id.v != participantId) { LOG(("Call Error: Wrong call participant_id %1, expected %2.").arg(call.vparticipant_id.v).arg(participantId)); return checkFailed(); } return true; } bool Call::checkCallFields(const MTPDphoneCall &call) { if (!checkCallCommonFields(call)) { return false; } if (call.vkey_fingerprint.v != _keyFingerprint) { LOG(("Call Error: Wrong call fingerprint.")); finish(FinishType::Failed); return false; } return true; } bool Call::checkCallFields(const MTPDphoneCallAccepted &call) { return checkCallCommonFields(call); } void Call::setState(State state) { if (_state == State::Failed) { return; } if (_state == State::FailedHangingUp && state != State::Failed) { return; } if (_state != state) { _state = state; _stateChanged.notify(state, true); if (true && _state != State::Starting && _state != State::Requesting && _state != State::Waiting && _state != State::WaitingIncoming && _state != State::Ringing) { _waitingTrack.reset(); } if (false || _state == State::Ended || _state == State::EndedByOtherDevice || _state == State::Failed || _state == State::Busy) { // Destroy controller before destroying Call Panel, // so that the panel hide animation is smooth. destroyController(); } switch (_state) { case State::Established: _startTime = crl::now(); break; case State::ExchangingKeys: _delegate->playSound(Delegate::Sound::Connecting); break; case State::Ended: _delegate->playSound(Delegate::Sound::Ended); [[fallthrough]]; case State::EndedByOtherDevice: _delegate->callFinished(this); break; case State::Failed: _delegate->playSound(Delegate::Sound::Ended); _delegate->callFailed(this); break; case State::Busy: _delegate->playSound(Delegate::Sound::Busy); break; } } } void Call::setCurrentAudioDevice(bool input, std::string deviceID){ if (_controller) { if (input) { _controller->SetCurrentAudioInput(deviceID); } else { _controller->SetCurrentAudioOutput(deviceID); } } } void Call::setAudioVolume(bool input, float level){ if (_controller) { if(input) { _controller->SetInputVolume(level); } else { _controller->SetOutputVolume(level); } } } void Call::setAudioDuckingEnabled(bool enabled){ #ifdef Q_OS_MAC if (_controller) { _controller->SetAudioOutputDuckingEnabled(enabled); } #endif } void Call::finish(FinishType type, const MTPPhoneCallDiscardReason &reason) { Expects(type != FinishType::None); setSignalBarCount(kSignalBarFinished); auto finalState = (type == FinishType::Ended) ? State::Ended : State::Failed; auto hangupState = (type == FinishType::Ended) ? State::HangingUp : State::FailedHangingUp; if (_state == State::Requesting) { _finishByTimeoutTimer.call(kHangupTimeoutMs, [this, finalState] { setState(finalState); }); _finishAfterRequestingCall = type; return; } if (_state == State::HangingUp || _state == State::FailedHangingUp || _state == State::EndedByOtherDevice || _state == State::Ended || _state == State::Failed) { return; } if (!_id) { setState(finalState); return; } setState(hangupState); auto duration = getDurationMs() / 1000; auto connectionId = _controller ? _controller->GetPreferredRelayID() : 0; _finishByTimeoutTimer.call(kHangupTimeoutMs, [this, finalState] { setState(finalState); }); request(MTPphone_DiscardCall( MTP_flags(0), MTP_inputPhoneCall( MTP_long(_id), MTP_long(_accessHash)), MTP_int(duration), reason, MTP_long(connectionId) )).done([=](const MTPUpdates &result) { // This could be destroyed by updates, so we set Ended after // updates being handled, but in a guarded way. crl::on_main(this, [=] { setState(finalState); }); Auth().api().applyUpdates(result); }).fail([this, finalState](const RPCError &error) { setState(finalState); }).send(); } void Call::setStateQueued(State state) { crl::on_main(this, [=] { setState(state); }); } void Call::setFailedQueued(int error) { crl::on_main(this, [=] { handleControllerError(error); }); } void Call::handleRequestError(const RPCError &error) { if (error.type() == qstr("USER_PRIVACY_RESTRICTED")) { Ui::show(Box(lng_call_error_not_available(lt_user, App::peerName(_user)))); } else if (error.type() == qstr("PARTICIPANT_VERSION_OUTDATED")) { Ui::show(Box(lng_call_error_outdated(lt_user, App::peerName(_user)))); } else if (error.type() == qstr("CALL_PROTOCOL_LAYER_INVALID")) { Ui::show(Box(Lang::Hard::CallErrorIncompatible().replace("{user}", App::peerName(_user)))); } finish(FinishType::Failed); } void Call::handleControllerError(int error) { if (error == tgvoip::ERROR_INCOMPATIBLE) { Ui::show(Box( Lang::Hard::CallErrorIncompatible().replace( "{user}", App::peerName(_user)))); } else if (error == tgvoip::ERROR_AUDIO_IO) { Ui::show(Box(lang(lng_call_error_audio_io))); } finish(FinishType::Failed); } void Call::destroyController() { if (_controller) { DEBUG_LOG(("Call Info: Destroying call controller..")); _controller.reset(); DEBUG_LOG(("Call Info: Call controller destroyed.")); } setSignalBarCount(kSignalBarFinished); } Call::~Call() { destroyController(); } void UpdateConfig(const std::string& data) { tgvoip::ServerConfig::GetSharedInstance()->Update(data); } } // namespace Calls