/* This file is part of Telegram Desktop, the official desktop version of Telegram messaging app, see https://telegram.org Telegram Desktop is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. It is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library. Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org */ #include "mtproto/mtp_instance.h" #include "mtproto/dc_options.h" #include "mtproto/dcenter.h" #include "mtproto/config_loader.h" #include "mtproto/connection.h" #include "mtproto/sender.h" #include "mtproto/rsa_public_key.h" #include "storage/localstorage.h" #include "auth_session.h" #include "apiwrap.h" #include "messenger.h" #include "lang/lang_instance.h" #include "lang/lang_cloud_manager.h" #include "base/timer.h" namespace MTP { class Instance::Private : private Sender { public: Private(gsl::not_null instance, gsl::not_null options, Instance::Mode mode); void start(Config &&config); void suggestMainDcId(DcId mainDcId); void setMainDcId(DcId mainDcId); DcId mainDcId() const; void setKeyForWrite(DcId dcId, const AuthKeyPtr &key); AuthKeysList getKeysForWrite() const; void addKeysForDestroy(AuthKeysList &&keys); gsl::not_null dcOptions(); void requestConfig(); void requestCDNConfig(); void restart(); void restart(ShiftedDcId shiftedDcId); int32 dcstate(ShiftedDcId shiftedDcId = 0); QString dctransport(ShiftedDcId shiftedDcId = 0); void ping(); void cancel(mtpRequestId requestId); int32 state(mtpRequestId requestId); // < 0 means waiting for such count of ms void killSession(ShiftedDcId shiftedDcId); void killSession(std::unique_ptr session); void stopSession(ShiftedDcId shiftedDcId); void reInitConnection(DcId dcId); void logout(RPCDoneHandlerPtr onDone, RPCFailHandlerPtr onFail); std::shared_ptr getDcById(ShiftedDcId shiftedDcId); void unpaused(); void queueQuittingConnection(std::unique_ptr connection); void connectionFinished(internal::Connection *connection); void registerRequest(mtpRequestId requestId, int32 dcWithShift); void unregisterRequest(mtpRequestId requestId); mtpRequestId storeRequest(mtpRequest &request, const RPCResponseHandler &parser); mtpRequest getRequest(mtpRequestId requestId); void clearCallbacks(mtpRequestId requestId, int32 errorCode = RPCError::NoError); // 0 - do not toggle onError callback void clearCallbacksDelayed(const RPCCallbackClears &requestIds); void performDelayedClear(); void execCallback(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end); bool hasCallbacks(mtpRequestId requestId); void globalCallback(const mtpPrime *from, const mtpPrime *end); void onStateChange(ShiftedDcId dcWithShift, int32 state); void onSessionReset(ShiftedDcId dcWithShift); // return true if need to clean request data bool rpcErrorOccured(mtpRequestId requestId, const RPCFailHandlerPtr &onFail, const RPCError &err); inline bool rpcErrorOccured(mtpRequestId requestId, const RPCResponseHandler &handler, const RPCError &err) { return rpcErrorOccured(requestId, handler.onFail, err); } void setUpdatesHandler(RPCDoneHandlerPtr onDone); void setGlobalFailHandler(RPCFailHandlerPtr onFail); void setStateChangedHandler(base::lambda handler); void setSessionResetHandler(base::lambda handler); void clearGlobalHandlers(); internal::Session *getSession(ShiftedDcId shiftedDcId); bool isNormal() const { return (_mode == Instance::Mode::Normal); } bool isKeysDestroyer() const { return (_mode == Instance::Mode::KeysDestroyer); } bool isSpecialConfigRequester() const { return (_mode == Instance::Mode::SpecialConfigRequester); } void scheduleKeyDestroy(ShiftedDcId shiftedDcId); void performKeyDestroy(ShiftedDcId shiftedDcId); void completedKeyDestroy(ShiftedDcId shiftedDcId); void clearKilledSessions(); void prepareToDestroy(); private: bool hasAuthorization(); void importDone(const MTPauth_Authorization &result, mtpRequestId requestId); bool importFail(const RPCError &error, mtpRequestId requestId); void exportDone(const MTPauth_ExportedAuthorization &result, mtpRequestId requestId); bool exportFail(const RPCError &error, mtpRequestId requestId); bool onErrorDefault(mtpRequestId requestId, const RPCError &error); bool logoutGuestDone(mtpRequestId requestId); void configLoadDone(const MTPConfig &result); bool configLoadFail(const RPCError &error); void cdnConfigLoadDone(const MTPCdnConfig &result); bool cdnConfigLoadFail(const RPCError &error); void checkDelayedRequests(); gsl::not_null _instance; gsl::not_null _dcOptions; Instance::Mode _mode = Instance::Mode::Normal; DcId _mainDcId = Config::kDefaultMainDc; bool _mainDcIdForced = false; std::map> _dcenters; internal::Session *_mainSession = nullptr; std::map> _sessions; std::vector> _killedSessions; // delayed delete base::set_of_unique_ptr _quittingConnections; std::unique_ptr _configLoader; mtpRequestId _cdnConfigLoadRequestId = 0; std::map _keysForWrite; mutable QReadWriteLock _keysForWriteLock; std::map _logoutGuestRequestIds; // holds dcWithShift for request to this dc or -dc for request to main dc std::map _requestsByDc; QMutex _requestByDcLock; // holds target dcWithShift for auth export request std::map _authExportRequests; std::map _parserMap; QMutex _parserMapLock; std::map _requestMap; QReadWriteLock _requestMapLock; std::deque> _delayedRequests; std::map _requestsDelays; std::set _badGuestDcRequests; std::map> _authWaiters; QMutex _toClearLock; RPCCallbackClears _toClear; RPCResponseHandler _globalHandler; base::lambda _stateChangedHandler; base::lambda _sessionResetHandler; base::Timer _checkDelayedTimer; // Debug flag to find out how we end up crashing. bool MustNotCreateSessions = false; }; Instance::Private::Private(gsl::not_null instance, gsl::not_null options, Instance::Mode mode) : Sender() , _instance(instance) , _dcOptions(options) , _mode(mode) { } void Instance::Private::start(Config &&config) { if (isKeysDestroyer()) { _instance->connect(_instance, SIGNAL(keyDestroyed(qint32)), _instance, SLOT(onKeyDestroyed(qint32)), Qt::QueuedConnection); } else if (isNormal()) { unixtimeInit(); } for (auto &key : config.keys) { auto dcId = key->dcId(); auto shiftedDcId = dcId; if (isKeysDestroyer()) { shiftedDcId = MTP::destroyKeyNextDcId(shiftedDcId); // There could be several keys for one dc if we're destroying them. // Place them all in separate shiftedDcId so that they won't conflict. while (_keysForWrite.find(shiftedDcId) != _keysForWrite.cend()) { shiftedDcId = MTP::destroyKeyNextDcId(shiftedDcId); } } _keysForWrite[shiftedDcId] = key; auto dc = std::make_shared(_instance, dcId, std::move(key)); _dcenters.emplace(shiftedDcId, std::move(dc)); } if (config.mainDcId != Config::kNotSetMainDc) { _mainDcId = config.mainDcId; _mainDcIdForced = true; } if (isKeysDestroyer()) { for (auto &dc : _dcenters) { t_assert(!MustNotCreateSessions); auto shiftedDcId = dc.first; auto session = std::make_unique(_instance, shiftedDcId); auto it = _sessions.emplace(shiftedDcId, std::move(session)).first; it->second->start(); } } else if (_mainDcId != Config::kNoneMainDc) { t_assert(!MustNotCreateSessions); auto main = std::make_unique(_instance, _mainDcId); _mainSession = main.get(); _sessions.emplace(_mainDcId, std::move(main)); _mainSession->start(); } _checkDelayedTimer.setCallback([this] { checkDelayedRequests(); }); t_assert((_mainDcId == Config::kNoneMainDc) == isKeysDestroyer()); if (!isKeysDestroyer()) { requestConfig(); } } void Instance::Private::suggestMainDcId(DcId mainDcId) { if (_mainDcIdForced) return; setMainDcId(mainDcId); } void Instance::Private::setMainDcId(DcId mainDcId) { if (!_mainSession) { LOG(("MTP Error: attempting to change mainDcId in an MTP instance without main session.")); return; } _mainDcIdForced = true; auto oldMainDcId = _mainSession->getDcWithShift(); _mainDcId = mainDcId; if (oldMainDcId != _mainDcId) { killSession(oldMainDcId); } Local::writeMtpData(); } DcId Instance::Private::mainDcId() const { Expects(_mainDcId != Config::kNoneMainDc); return _mainDcId; } void Instance::Private::requestConfig() { if (_configLoader) { return; } _configLoader = std::make_unique(_instance, rpcDone([this](const MTPConfig &result) { configLoadDone(result); }), rpcFail([this](const RPCError &error) { return configLoadFail(error); })); _configLoader->load(); } void Instance::Private::requestCDNConfig() { if (_cdnConfigLoadRequestId || _mainDcId == Config::kNoneMainDc) { return; } _cdnConfigLoadRequestId = request(MTPhelp_GetCdnConfig()).done([this](const MTPCdnConfig &result) { _cdnConfigLoadRequestId = 0; Expects(result.type() == mtpc_cdnConfig); dcOptions()->setCDNConfig(result.c_cdnConfig()); Local::writeSettings(); emit _instance->cdnConfigLoaded(); }).send(); } void Instance::Private::restart() { for (auto &session : _sessions) { session.second->restart(); } } void Instance::Private::restart(ShiftedDcId shiftedDcId) { auto dcId = bareDcId(shiftedDcId); for (auto &session : _sessions) { if (bareDcId(session.second->getDcWithShift()) == dcId) { session.second->restart(); } } } int32 Instance::Private::dcstate(ShiftedDcId shiftedDcId) { if (!shiftedDcId) { t_assert(_mainSession != nullptr); return _mainSession->getState(); } if (!bareDcId(shiftedDcId)) { t_assert(_mainSession != nullptr); shiftedDcId += bareDcId(_mainSession->getDcWithShift()); } auto it = _sessions.find(shiftedDcId); if (it != _sessions.cend()) { return it->second->getState(); } return DisconnectedState; } QString Instance::Private::dctransport(ShiftedDcId shiftedDcId) { if (!shiftedDcId) { t_assert(_mainSession != nullptr); return _mainSession->transport(); } if (!bareDcId(shiftedDcId)) { t_assert(_mainSession != nullptr); shiftedDcId += bareDcId(_mainSession->getDcWithShift()); } auto it = _sessions.find(shiftedDcId); if (it != _sessions.cend()) { return it->second->transport(); } return QString(); } void Instance::Private::ping() { if (auto session = getSession(0)) { session->ping(); } } void Instance::Private::cancel(mtpRequestId requestId) { if (!requestId) return; mtpMsgId msgId = 0; _requestsDelays.erase(requestId); { QWriteLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it != _requestMap.end()) { msgId = *(mtpMsgId*)(it->second->constData() + 4); _requestMap.erase(it); } } { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it != _requestsByDc.end()) { if (auto session = getSession(qAbs(it->second))) { session->cancel(requestId, msgId); } _requestsByDc.erase(it); } } clearCallbacks(requestId); } int32 Instance::Private::state(mtpRequestId requestId) { // < 0 means waiting for such count of ms if (requestId > 0) { QMutexLocker locker(&_requestByDcLock); auto i = _requestsByDc.find(requestId); if (i != _requestsByDc.end()) { if (auto session = getSession(qAbs(i->second))) { return session->requestState(requestId); } return MTP::RequestConnecting; } return MTP::RequestSent; } if (auto session = getSession(-requestId)) { return session->requestState(0); } return MTP::RequestConnecting; } void Instance::Private::killSession(ShiftedDcId shiftedDcId) { auto checkIfMainAndKill = [this](ShiftedDcId shiftedDcId) { auto it = _sessions.find(shiftedDcId); if (it != _sessions.cend()) { _killedSessions.push_back(std::move(it->second)); _sessions.erase(it); _killedSessions.back()->kill(); return (_killedSessions.back().get() == _mainSession); } return false; }; if (checkIfMainAndKill(shiftedDcId)) { checkIfMainAndKill(_mainDcId); t_assert(!MustNotCreateSessions); auto main = std::make_unique(_instance, _mainDcId); _mainSession = main.get(); _sessions.emplace(_mainDcId, std::move(main)); _mainSession->start(); } InvokeQueued(_instance, [this] { clearKilledSessions(); }); } void Instance::Private::clearKilledSessions() { _killedSessions.clear(); } void Instance::Private::stopSession(ShiftedDcId shiftedDcId) { auto it = _sessions.find(shiftedDcId); if (it != _sessions.end()) { if (it->second.get() != _mainSession) { // don't stop main session it->second->stop(); } } } void Instance::Private::reInitConnection(DcId dcId) { killSession(dcId); getSession(dcId)->notifyLayerInited(false); } void Instance::Private::logout(RPCDoneHandlerPtr onDone, RPCFailHandlerPtr onFail) { _instance->send(MTPauth_LogOut(), onDone, onFail); auto dcIds = std::vector(); { QReadLocker lock(&_keysForWriteLock); dcIds.reserve(_keysForWrite.size()); for (auto &key : _keysForWrite) { dcIds.push_back(key.first); } } for (auto dcId : dcIds) { if (dcId != mainDcId() && dcOptions()->dcType(dcId) != DcType::Cdn) { auto shiftedDcId = MTP::logoutDcId(dcId); auto requestId = _instance->send(MTPauth_LogOut(), rpcDone([this](mtpRequestId requestId) { logoutGuestDone(requestId); }), rpcFail([this](mtpRequestId requestId) { return logoutGuestDone(requestId); }), shiftedDcId); _logoutGuestRequestIds.emplace(shiftedDcId, requestId); } } } bool Instance::Private::logoutGuestDone(mtpRequestId requestId) { for (auto i = _logoutGuestRequestIds.begin(), e = _logoutGuestRequestIds.end(); i != e; ++i) { if (i->second == requestId) { killSession(i->first); _logoutGuestRequestIds.erase(i); return true; } } return false; } std::shared_ptr Instance::Private::getDcById(ShiftedDcId shiftedDcId) { auto it = _dcenters.find(shiftedDcId); if (it == _dcenters.cend()) { auto dcId = bareDcId(shiftedDcId); if (isTemporaryDcId(dcId)) { if (auto realDcId = getRealIdFromTemporaryDcId(dcId)) { dcId = realDcId; } } it = _dcenters.find(dcId); if (it == _dcenters.cend()) { auto result = std::make_shared(_instance, dcId, AuthKeyPtr()); return _dcenters.emplace(dcId, std::move(result)).first->second; } } return it->second; } void Instance::Private::setKeyForWrite(DcId dcId, const AuthKeyPtr &key) { if (isTemporaryDcId(dcId)) { return; } QWriteLocker lock(&_keysForWriteLock); if (key) { _keysForWrite[dcId] = key; } else { _keysForWrite.erase(dcId); } } AuthKeysList Instance::Private::getKeysForWrite() const { auto result = AuthKeysList(); QReadLocker lock(&_keysForWriteLock); result.reserve(_keysForWrite.size()); for (auto &key : _keysForWrite) { result.push_back(key.second); } return result; } void Instance::Private::addKeysForDestroy(AuthKeysList &&keys) { Expects(isKeysDestroyer()); for (auto &key : keys) { auto dcId = key->dcId(); auto shiftedDcId = MTP::destroyKeyNextDcId(dcId); { QWriteLocker lock(&_keysForWriteLock); // There could be several keys for one dc if we're destroying them. // Place them all in separate shiftedDcId so that they won't conflict. while (_keysForWrite.find(shiftedDcId) != _keysForWrite.cend()) { shiftedDcId = MTP::destroyKeyNextDcId(shiftedDcId); } _keysForWrite[shiftedDcId] = key; } auto dc = std::make_shared(_instance, dcId, std::move(key)); _dcenters.emplace(shiftedDcId, std::move(dc)); t_assert(!MustNotCreateSessions); auto session = std::make_unique(_instance, shiftedDcId); auto it = _sessions.emplace(shiftedDcId, std::move(session)).first; it->second->start(); } } gsl::not_null Instance::Private::dcOptions() { return _dcOptions; } void Instance::Private::unpaused() { for (auto &session : _sessions) { session.second->unpaused(); } } void Instance::Private::queueQuittingConnection(std::unique_ptr connection) { _quittingConnections.insert(std::move(connection)); } void Instance::Private::connectionFinished(internal::Connection *connection) { auto it = _quittingConnections.find(connection); if (it != _quittingConnections.end()) { _quittingConnections.erase(it); } } void Instance::Private::configLoadDone(const MTPConfig &result) { Expects(result.type() == mtpc_config); _configLoader.reset(); auto &data = result.c_config(); DEBUG_LOG(("MTP Info: got config, chat_size_max: %1, date: %2, test_mode: %3, this_dc: %4, dc_options.length: %5").arg(data.vchat_size_max.v).arg(data.vdate.v).arg(mtpIsTrue(data.vtest_mode)).arg(data.vthis_dc.v).arg(data.vdc_options.v.size())); if (data.vdc_options.v.empty()) { LOG(("MTP Error: config with empty dc_options received!")); } else { _dcOptions->setFromList(data.vdc_options); } Global::SetChatSizeMax(data.vchat_size_max.v); Global::SetMegagroupSizeMax(data.vmegagroup_size_max.v); Global::SetForwardedCountMax(data.vforwarded_count_max.v); Global::SetOnlineUpdatePeriod(data.vonline_update_period_ms.v); Global::SetOfflineBlurTimeout(data.voffline_blur_timeout_ms.v); Global::SetOfflineIdleTimeout(data.voffline_idle_timeout_ms.v); Global::SetOnlineCloudTimeout(data.vonline_cloud_timeout_ms.v); Global::SetNotifyCloudDelay(data.vnotify_cloud_delay_ms.v); Global::SetNotifyDefaultDelay(data.vnotify_default_delay_ms.v); Global::SetChatBigSize(data.vchat_big_size.v); Global::SetPushChatPeriod(data.vpush_chat_period_ms.v); Global::SetPushChatLimit(data.vpush_chat_limit.v); Global::SetSavedGifsLimit(data.vsaved_gifs_limit.v); Global::SetEditTimeLimit(data.vedit_time_limit.v); Global::SetStickersRecentLimit(data.vstickers_recent_limit.v); Global::SetPinnedDialogsCountMax(data.vpinned_dialogs_count_max.v); Messenger::Instance().setInternalLinkDomain(qs(data.vme_url_prefix)); Global::SetCallReceiveTimeoutMs(data.vcall_receive_timeout_ms.v); Global::SetCallRingTimeoutMs(data.vcall_ring_timeout_ms.v); Global::SetCallConnectTimeoutMs(data.vcall_connect_timeout_ms.v); Global::SetCallPacketTimeoutMs(data.vcall_packet_timeout_ms.v); if (Global::PhoneCallsEnabled() != data.is_phonecalls_enabled()) { Global::SetPhoneCallsEnabled(data.is_phonecalls_enabled()); Global::RefPhoneCallsEnabledChanged().notify(); } Lang::CurrentCloudManager().setSuggestedLanguage(data.has_suggested_lang_code() ? qs(data.vsuggested_lang_code) : QString()); Local::writeSettings(); emit _instance->configLoaded(); } bool Instance::Private::configLoadFail(const RPCError &error) { if (isDefaultHandledError(error)) return false; // loadingConfig = false; LOG(("MTP Error: failed to get config!")); return false; } void Instance::Private::checkDelayedRequests() { auto now = getms(true); while (!_delayedRequests.empty() && now >= _delayedRequests.front().second) { auto requestId = _delayedRequests.front().first; _delayedRequests.pop_front(); auto dcWithShift = ShiftedDcId(0); { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it != _requestsByDc.cend()) { dcWithShift = it->second; } else { LOG(("MTP Error: could not find request dc for delayed resend, requestId %1").arg(requestId)); continue; } } auto request = mtpRequest(); { QReadLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it == _requestMap.cend()) { DEBUG_LOG(("MTP Error: could not find request %1").arg(requestId)); continue; } request = it->second; } if (auto session = getSession(qAbs(dcWithShift))) { session->sendPrepared(request); } } if (!_delayedRequests.empty()) { _checkDelayedTimer.callOnce(_delayedRequests.front().second - now); } } void Instance::Private::registerRequest(mtpRequestId requestId, int32 dcWithShift) { { QMutexLocker locker(&_requestByDcLock); _requestsByDc.emplace(requestId, dcWithShift); } performDelayedClear(); // need to do it somewhere... } void Instance::Private::unregisterRequest(mtpRequestId requestId) { _requestsDelays.erase(requestId); { QWriteLocker locker(&_requestMapLock); _requestMap.erase(requestId); } QMutexLocker locker(&_requestByDcLock); _requestsByDc.erase(requestId); } mtpRequestId Instance::Private::storeRequest(mtpRequest &request, const RPCResponseHandler &parser) { mtpRequestId res = reqid(); request->requestId = res; if (parser.onDone || parser.onFail) { QMutexLocker locker(&_parserMapLock); _parserMap.emplace(res, parser); } { QWriteLocker locker(&_requestMapLock); _requestMap.emplace(res, request); } return res; } mtpRequest Instance::Private::getRequest(mtpRequestId requestId) { auto result = mtpRequest(); { QReadLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it != _requestMap.cend()) { result = it->second; } } return result; } void Instance::Private::clearCallbacks(mtpRequestId requestId, int32 errorCode) { RPCResponseHandler h; bool found = false; { QMutexLocker locker(&_parserMapLock); auto it = _parserMap.find(requestId); if (it != _parserMap.end()) { h = it->second; found = true; _parserMap.erase(it); } } if (errorCode && found) { rpcErrorOccured(requestId, h, internal::rpcClientError("CLEAR_CALLBACK", QString("did not handle request %1, error code %2").arg(requestId).arg(errorCode))); } } void Instance::Private::clearCallbacksDelayed(const RPCCallbackClears &requestIds) { uint32 idsCount = requestIds.size(); if (!idsCount) return; if (cDebug()) { QString idsStr = QString("%1").arg(requestIds[0].requestId); for (uint32 i = 1; i < idsCount; ++i) { idsStr += QString(", %1").arg(requestIds[i].requestId); } DEBUG_LOG(("RPC Info: clear callbacks delayed, msgIds: %1").arg(idsStr)); } QMutexLocker lock(&_toClearLock); uint32 toClearNow = _toClear.size(); if (toClearNow) { _toClear.resize(toClearNow + idsCount); memcpy(_toClear.data() + toClearNow, requestIds.constData(), idsCount * sizeof(RPCCallbackClear)); } else { _toClear = requestIds; } } void Instance::Private::performDelayedClear() { QMutexLocker lock(&_toClearLock); if (!_toClear.isEmpty()) { for (auto &clearRequest : _toClear) { if (cDebug()) { QMutexLocker locker(&_parserMapLock); if (_parserMap.find(clearRequest.requestId) != _parserMap.end()) { DEBUG_LOG(("RPC Info: clearing delayed callback %1, error code %2").arg(clearRequest.requestId).arg(clearRequest.errorCode)); } } clearCallbacks(clearRequest.requestId, clearRequest.errorCode); unregisterRequest(clearRequest.requestId); } _toClear.clear(); } } void Instance::Private::execCallback(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) { RPCResponseHandler h; { QMutexLocker locker(&_parserMapLock); auto it = _parserMap.find(requestId); if (it != _parserMap.cend()) { h = it->second; _parserMap.erase(it); DEBUG_LOG(("RPC Info: found parser for request %1, trying to parse response...").arg(requestId)); } } if (h.onDone || h.onFail) { try { if (from >= end) throw mtpErrorInsufficient(); if (*from == mtpc_rpc_error) { auto mtpError = MTPRpcError(); mtpError.read(from, end); auto error = RPCError(mtpError); DEBUG_LOG(("RPC Info: error received, code %1, type %2, description: %3").arg(error.code()).arg(error.type()).arg(error.description())); if (!rpcErrorOccured(requestId, h, error)) { QMutexLocker locker(&_parserMapLock); _parserMap.emplace(requestId, h); return; } } else { if (h.onDone) { (*h.onDone)(requestId, from, end); } } } catch (Exception &e) { if (!rpcErrorOccured(requestId, h, internal::rpcClientError("RESPONSE_PARSE_FAILED", QString("exception text: ") + e.what()))) { QMutexLocker locker(&_parserMapLock); _parserMap.emplace(requestId, h); return; } } } else { DEBUG_LOG(("RPC Info: parser not found for %1").arg(requestId)); } unregisterRequest(requestId); } bool Instance::Private::hasCallbacks(mtpRequestId requestId) { QMutexLocker locker(&_parserMapLock); auto it = _parserMap.find(requestId); return (it != _parserMap.cend()); } void Instance::Private::globalCallback(const mtpPrime *from, const mtpPrime *end) { if (_globalHandler.onDone) { (*_globalHandler.onDone)(0, from, end); // some updates were received } } void Instance::Private::onStateChange(int32 dcWithShift, int32 state) { if (_stateChangedHandler) { _stateChangedHandler(dcWithShift, state); } } void Instance::Private::onSessionReset(int32 dcWithShift) { if (_sessionResetHandler) { _sessionResetHandler(dcWithShift); } } bool Instance::Private::rpcErrorOccured(mtpRequestId requestId, const RPCFailHandlerPtr &onFail, const RPCError &err) { // return true if need to clean request data if (isDefaultHandledError(err)) { if (onFail && (*onFail)(requestId, err)) return true; } if (onErrorDefault(requestId, err)) { return false; } LOG(("RPC Error: request %1 got fail with code %2, error %3%4").arg(requestId).arg(err.code()).arg(err.type()).arg(err.description().isEmpty() ? QString() : QString(": %1").arg(err.description()))); onFail && (*onFail)(requestId, err); return true; } bool Instance::Private::hasAuthorization() { return AuthSession::Exists(); } void Instance::Private::importDone(const MTPauth_Authorization &result, mtpRequestId requestId) { QMutexLocker locker1(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it == _requestsByDc.end()) { LOG(("MTP Error: auth import request not found in requestsByDC, requestId: %1").arg(requestId)); RPCError error(internal::rpcClientError("AUTH_IMPORT_FAIL", QString("did not find import request in requestsByDC, request %1").arg(requestId))); if (_globalHandler.onFail && hasAuthorization()) { (*_globalHandler.onFail)(requestId, error); // auth failed in main dc } return; } auto newdc = bareDcId(it->second); DEBUG_LOG(("MTP Info: auth import to dc %1 succeeded").arg(newdc)); auto &waiters = _authWaiters[newdc]; if (waiters.size()) { QReadLocker locker(&_requestMapLock); for (auto waitedRequestId : waiters) { auto it = _requestMap.find(waitedRequestId); if (it == _requestMap.cend()) { LOG(("MTP Error: could not find request %1 for resending").arg(waitedRequestId)); continue; } auto dcWithShift = ShiftedDcId(newdc); { auto k = _requestsByDc.find(waitedRequestId); if (k == _requestsByDc.cend()) { LOG(("MTP Error: could not find request %1 by dc for resending").arg(waitedRequestId)); continue; } if (k->second < 0) { _instance->setMainDcId(newdc); k->second = -newdc; } else { dcWithShift = shiftDcId(newdc, getDcIdShift(k->second)); k->second = dcWithShift; } DEBUG_LOG(("MTP Info: resending request %1 to dc %2 after import auth").arg(waitedRequestId).arg(k->second)); } if (auto session = getSession(dcWithShift)) { session->sendPrepared(it->second); } } waiters.clear(); } } bool Instance::Private::importFail(const RPCError &error, mtpRequestId requestId) { if (isDefaultHandledError(error)) return false; if (_globalHandler.onFail && hasAuthorization()) { (*_globalHandler.onFail)(requestId, error); // auth import failed } return true; } void Instance::Private::exportDone(const MTPauth_ExportedAuthorization &result, mtpRequestId requestId) { auto it = _authExportRequests.find(requestId); if (it == _authExportRequests.cend()) { LOG(("MTP Error: auth export request target dcWithShift not found, requestId: %1").arg(requestId)); RPCError error(internal::rpcClientError("AUTH_IMPORT_FAIL", QString("did not find target dcWithShift, request %1").arg(requestId))); if (_globalHandler.onFail && hasAuthorization()) { (*_globalHandler.onFail)(requestId, error); // auth failed in main dc } return; } auto &data = result.c_auth_exportedAuthorization(); _instance->send(MTPauth_ImportAuthorization(data.vid, data.vbytes), rpcDone([this](const MTPauth_Authorization &result, mtpRequestId requestId) { importDone(result, requestId); }), rpcFail([this](const RPCError &error, mtpRequestId requestId) { return importFail(error, requestId); }), it->second); _authExportRequests.erase(requestId); } bool Instance::Private::exportFail(const RPCError &error, mtpRequestId requestId) { if (isDefaultHandledError(error)) return false; auto it = _authExportRequests.find(requestId); if (it != _authExportRequests.cend()) { _authWaiters[bareDcId(it->second)].clear(); } if (_globalHandler.onFail && hasAuthorization()) { (*_globalHandler.onFail)(requestId, error); // auth failed in main dc } return true; } bool Instance::Private::onErrorDefault(mtpRequestId requestId, const RPCError &error) { auto &err(error.type()); auto code = error.code(); if (!isFloodError(error) && err != qstr("AUTH_KEY_UNREGISTERED")) { int breakpoint = 0; } auto badGuestDc = (code == 400) && (err == qsl("FILE_ID_INVALID")); QRegularExpressionMatch m; if ((m = QRegularExpression("^(FILE|PHONE|NETWORK|USER)_MIGRATE_(\\d+)$").match(err)).hasMatch()) { if (!requestId) return false; ShiftedDcId dcWithShift = 0, newdcWithShift = m.captured(2).toInt(); { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it == _requestsByDc.end()) { LOG(("MTP Error: could not find request %1 for migrating to %2").arg(requestId).arg(newdcWithShift)); } else { dcWithShift = it->second; } } if (!dcWithShift || !newdcWithShift) return false; DEBUG_LOG(("MTP Info: changing request %1 from dcWithShift%2 to dc%3").arg(requestId).arg(dcWithShift).arg(newdcWithShift)); if (dcWithShift < 0) { // newdc shift = 0 if (false && hasAuthorization() && _authExportRequests.find(requestId) == _authExportRequests.cend()) { // // migrate not supported at this moment // this was not tested even once // //DEBUG_LOG(("MTP Info: importing auth to dc %1").arg(newdcWithShift)); //auto &waiters(_authWaiters[newdcWithShift]); //if (waiters.empty()) { // auto exportRequestId = _instance->send(MTPauth_ExportAuthorization(MTP_int(newdcWithShift)), rpcDone([this](const MTPauth_ExportedAuthorization &result, mtpRequestId requestId) { // exportDone(result, requestId); // }), rpcFail([this](const RPCError &error, mtpRequestId requestId) { // return exportFail(error, requestId); // })); // _authExportRequests.emplace(exportRequestId, newdcWithShift); //} //waiters.push_back(requestId); //return true; } else { _instance->setMainDcId(newdcWithShift); } } else { newdcWithShift = shiftDcId(newdcWithShift, getDcIdShift(dcWithShift)); } auto request = mtpRequest(); { QReadLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it == _requestMap.cend()) { LOG(("MTP Error: could not find request %1").arg(requestId)); return false; } request = it->second; } if (auto session = getSession(newdcWithShift)) { registerRequest(requestId, (dcWithShift < 0) ? -newdcWithShift : newdcWithShift); session->sendPrepared(request); } return true; } else if (code < 0 || code >= 500 || (m = QRegularExpression("^FLOOD_WAIT_(\\d+)$").match(err)).hasMatch()) { if (!requestId) return false; int32 secs = 1; if (code < 0 || code >= 500) { auto it = _requestsDelays.find(requestId); if (it != _requestsDelays.cend()) { secs = (it->second > 60) ? it->second : (it->second *= 2); } else { _requestsDelays.emplace(requestId, secs); } } else { secs = m.captured(1).toInt(); // if (secs >= 60) return false; } auto sendAt = getms(true) + secs * 1000 + 10; auto it = _delayedRequests.begin(), e = _delayedRequests.end(); for (; it != e; ++it) { if (it->first == requestId) return true; if (it->second > sendAt) break; } _delayedRequests.insert(it, std::make_pair(requestId, sendAt)); checkDelayedRequests(); return true; } else if (code == 401 || (badGuestDc && _badGuestDcRequests.find(requestId) == _badGuestDcRequests.cend())) { auto dcWithShift = ShiftedDcId(0); { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it != _requestsByDc.end()) { dcWithShift = it->second; } else { LOG(("MTP Error: unauthorized request without dc info, requestId %1").arg(requestId)); } } auto newdc = bareDcId(qAbs(dcWithShift)); if (!newdc || newdc == mainDcId() || !hasAuthorization()) { if (!badGuestDc && _globalHandler.onFail) { (*_globalHandler.onFail)(requestId, error); // auth failed in main dc } return false; } DEBUG_LOG(("MTP Info: importing auth to dcWithShift %1").arg(dcWithShift)); auto &waiters(_authWaiters[newdc]); if (!waiters.size()) { auto exportRequestId = _instance->send(MTPauth_ExportAuthorization(MTP_int(newdc)), rpcDone([this](const MTPauth_ExportedAuthorization &result, mtpRequestId requestId) { exportDone(result, requestId); }), rpcFail([this](const RPCError &error, mtpRequestId requestId) { return exportFail(error, requestId); })); _authExportRequests.emplace(exportRequestId, abs(dcWithShift)); } waiters.push_back(requestId); if (badGuestDc) _badGuestDcRequests.insert(requestId); return true; } else if (err == qstr("CONNECTION_NOT_INITED") || err == qstr("CONNECTION_LAYER_INVALID")) { mtpRequest request; { QReadLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it == _requestMap.cend()) { LOG(("MTP Error: could not find request %1").arg(requestId)); return false; } request = it->second; } auto dcWithShift = ShiftedDcId(0); { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); if (it == _requestsByDc.end()) { LOG(("MTP Error: could not find request %1 for resending with init connection").arg(requestId)); } else { dcWithShift = it->second; } } if (!dcWithShift) return false; if (auto session = getSession(qAbs(dcWithShift))) { request->needsLayer = true; session->sendPrepared(request); } return true; } else if (err == qstr("CONNECTION_LANG_CODE_INVALID")) { Lang::CurrentCloudManager().resetToDefault(); } else if (err == qstr("MSG_WAIT_FAILED")) { mtpRequest request; { QReadLocker locker(&_requestMapLock); auto it = _requestMap.find(requestId); if (it == _requestMap.cend()) { LOG(("MTP Error: could not find request %1").arg(requestId)); return false; } request = it->second; } if (!request->after) { LOG(("MTP Error: wait failed for not dependent request %1").arg(requestId)); return false; } auto dcWithShift = ShiftedDcId(0); { QMutexLocker locker(&_requestByDcLock); auto it = _requestsByDc.find(requestId); auto afterIt = _requestsByDc.find(request->after->requestId); if (it == _requestsByDc.end()) { LOG(("MTP Error: could not find request %1 by dc").arg(requestId)); } else if (afterIt == _requestsByDc.end()) { LOG(("MTP Error: could not find dependent request %1 by dc").arg(request->after->requestId)); } else { dcWithShift = it->second; if (it->second != afterIt->second) { request->after = mtpRequest(); } } } if (!dcWithShift) return false; if (!request->after) { if (auto session = getSession(qAbs(dcWithShift))) { request->needsLayer = true; session->sendPrepared(request); } } else { auto newdc = bareDcId(qAbs(dcWithShift)); auto &waiters(_authWaiters[newdc]); if (base::contains(waiters, request->after->requestId)) { if (!base::contains(waiters, requestId)) { waiters.push_back(requestId); } if (_badGuestDcRequests.find(request->after->requestId) != _badGuestDcRequests.cend()) { if (_badGuestDcRequests.find(requestId) == _badGuestDcRequests.cend()) { _badGuestDcRequests.insert(requestId); } } } else { auto i = _delayedRequests.begin(), e = _delayedRequests.end(); for (; i != e; ++i) { if (i->first == requestId) return true; if (i->first == request->after->requestId) break; } if (i != e) { _delayedRequests.insert(i, std::make_pair(requestId, i->second)); } checkDelayedRequests(); } } return true; } if (badGuestDc) _badGuestDcRequests.erase(requestId); return false; } internal::Session *Instance::Private::getSession(ShiftedDcId shiftedDcId) { if (!shiftedDcId) { t_assert(_mainSession != nullptr); return _mainSession; } if (!bareDcId(shiftedDcId)) { t_assert(_mainSession != nullptr); shiftedDcId += bareDcId(_mainSession->getDcWithShift()); } auto it = _sessions.find(shiftedDcId); if (it == _sessions.cend()) { t_assert(!MustNotCreateSessions); it = _sessions.emplace(shiftedDcId, std::make_unique(_instance, shiftedDcId)).first; it->second->start(); } return it->second.get(); } void Instance::Private::scheduleKeyDestroy(ShiftedDcId shiftedDcId) { Expects(isKeysDestroyer()); _instance->send(MTPauth_LogOut(), rpcDone([this, shiftedDcId](const MTPBool &result) { performKeyDestroy(shiftedDcId); }), rpcFail([this, shiftedDcId](const RPCError &error) { if (isDefaultHandledError(error)) return false; performKeyDestroy(shiftedDcId); return true; }), shiftedDcId); } void Instance::Private::performKeyDestroy(ShiftedDcId shiftedDcId) { Expects(isKeysDestroyer()); _instance->send(MTPDestroy_auth_key(), rpcDone([this, shiftedDcId](const MTPDestroyAuthKeyRes &result) { switch (result.type()) { case mtpc_destroy_auth_key_ok: LOG(("MTP Info: key %1 destroyed.").arg(shiftedDcId)); break; case mtpc_destroy_auth_key_fail: { LOG(("MTP Error: key %1 destruction fail, leave it for now.").arg(shiftedDcId)); killSession(shiftedDcId); } break; case mtpc_destroy_auth_key_none: LOG(("MTP Info: key %1 already destroyed.").arg(shiftedDcId)); break; } emit _instance->keyDestroyed(shiftedDcId); }), rpcFail([this, shiftedDcId](const RPCError &error) { LOG(("MTP Error: key %1 destruction resulted in error: %2").arg(shiftedDcId).arg(error.type())); emit _instance->keyDestroyed(shiftedDcId); return true; }), shiftedDcId); } void Instance::Private::completedKeyDestroy(ShiftedDcId shiftedDcId) { Expects(isKeysDestroyer()); _dcenters.erase(shiftedDcId); { QWriteLocker lock(&_keysForWriteLock); _keysForWrite.erase(shiftedDcId); } killSession(shiftedDcId); if (_dcenters.empty()) { emit _instance->allKeysDestroyed(); } } void Instance::Private::setUpdatesHandler(RPCDoneHandlerPtr onDone) { _globalHandler.onDone = onDone; } void Instance::Private::setGlobalFailHandler(RPCFailHandlerPtr onFail) { _globalHandler.onFail = onFail; } void Instance::Private::setStateChangedHandler(base::lambda handler) { _stateChangedHandler = std::move(handler); } void Instance::Private::setSessionResetHandler(base::lambda handler) { _sessionResetHandler = std::move(handler); } void Instance::Private::clearGlobalHandlers() { setUpdatesHandler(RPCDoneHandlerPtr()); setGlobalFailHandler(RPCFailHandlerPtr()); setStateChangedHandler(base::lambda()); setSessionResetHandler(base::lambda()); } void Instance::Private::prepareToDestroy() { // It accesses Instance in destructor, so it should be destroyed first. _configLoader.reset(); requestCancellingDiscard(); for (auto &session : base::take(_sessions)) { session.second->kill(); } _mainSession = nullptr; MustNotCreateSessions = true; } Instance::Instance(gsl::not_null options, Mode mode, Config &&config) : QObject() , _private(std::make_unique(this, options, mode)) { _private->start(std::move(config)); } void Instance::suggestMainDcId(DcId mainDcId) { _private->suggestMainDcId(mainDcId); } void Instance::setMainDcId(DcId mainDcId) { _private->setMainDcId(mainDcId); } DcId Instance::mainDcId() const { return _private->mainDcId(); } QString Instance::systemLangCode() const { return Lang::Current().systemLangCode(); } QString Instance::cloudLangCode() const { return Lang::Current().cloudLangCode(); } void Instance::requestConfig() { _private->requestConfig(); } void Instance::requestCDNConfig() { _private->requestCDNConfig(); } void Instance::connectionFinished(internal::Connection *connection) { _private->connectionFinished(connection); } void Instance::restart() { _private->restart(); } void Instance::restart(ShiftedDcId shiftedDcId) { _private->restart(shiftedDcId); } int32 Instance::dcstate(ShiftedDcId shiftedDcId) { return _private->dcstate(shiftedDcId); } QString Instance::dctransport(ShiftedDcId shiftedDcId) { return _private->dctransport(shiftedDcId); } void Instance::ping() { _private->ping(); } void Instance::cancel(mtpRequestId requestId) { _private->cancel(requestId); } int32 Instance::state(mtpRequestId requestId) { // < 0 means waiting for such count of ms return _private->state(requestId); } void Instance::killSession(ShiftedDcId shiftedDcId) { _private->killSession(shiftedDcId); } void Instance::stopSession(ShiftedDcId shiftedDcId) { _private->stopSession(shiftedDcId); } void Instance::reInitConnection(DcId dcId) { _private->reInitConnection(dcId); } void Instance::logout(RPCDoneHandlerPtr onDone, RPCFailHandlerPtr onFail) { _private->logout(onDone, onFail); } std::shared_ptr Instance::getDcById(ShiftedDcId shiftedDcId) { return _private->getDcById(shiftedDcId); } void Instance::setKeyForWrite(DcId dcId, const AuthKeyPtr &key) { _private->setKeyForWrite(dcId, key); } AuthKeysList Instance::getKeysForWrite() const { return _private->getKeysForWrite(); } void Instance::addKeysForDestroy(AuthKeysList &&keys) { _private->addKeysForDestroy(std::move(keys)); } gsl::not_null Instance::dcOptions() { return _private->dcOptions(); } void Instance::unpaused() { _private->unpaused(); } void Instance::queueQuittingConnection(std::unique_ptr connection) { _private->queueQuittingConnection(std::move(connection)); } void Instance::setUpdatesHandler(RPCDoneHandlerPtr onDone) { _private->setUpdatesHandler(onDone); } void Instance::setGlobalFailHandler(RPCFailHandlerPtr onFail) { _private->setGlobalFailHandler(onFail); } void Instance::setStateChangedHandler(base::lambda handler) { _private->setStateChangedHandler(std::move(handler)); } void Instance::setSessionResetHandler(base::lambda handler) { _private->setSessionResetHandler(std::move(handler)); } void Instance::clearGlobalHandlers() { _private->clearGlobalHandlers(); } void Instance::onStateChange(ShiftedDcId dcWithShift, int32 state) { _private->onStateChange(dcWithShift, state); } void Instance::onSessionReset(ShiftedDcId dcWithShift) { _private->onSessionReset(dcWithShift); } void Instance::registerRequest(mtpRequestId requestId, ShiftedDcId dcWithShift) { _private->registerRequest(requestId, dcWithShift); } mtpRequestId Instance::storeRequest(mtpRequest &request, const RPCResponseHandler &parser) { return _private->storeRequest(request, parser); } mtpRequest Instance::getRequest(mtpRequestId requestId) { return _private->getRequest(requestId); } void Instance::clearCallbacksDelayed(const RPCCallbackClears &requestIds) { _private->clearCallbacksDelayed(requestIds); } void Instance::execCallback(mtpRequestId requestId, const mtpPrime *from, const mtpPrime *end) { _private->execCallback(requestId, from, end); } bool Instance::hasCallbacks(mtpRequestId requestId) { return _private->hasCallbacks(requestId); } void Instance::globalCallback(const mtpPrime *from, const mtpPrime *end) { _private->globalCallback(from, end); } bool Instance::rpcErrorOccured(mtpRequestId requestId, const RPCFailHandlerPtr &onFail, const RPCError &err) { return _private->rpcErrorOccured(requestId, onFail, err); } internal::Session *Instance::getSession(ShiftedDcId shiftedDcId) { return _private->getSession(shiftedDcId); } bool Instance::isKeysDestroyer() const { return _private->isKeysDestroyer(); } void Instance::scheduleKeyDestroy(ShiftedDcId shiftedDcId) { _private->scheduleKeyDestroy(shiftedDcId); } void Instance::onKeyDestroyed(qint32 shiftedDcId) { _private->completedKeyDestroy(shiftedDcId); } Instance::~Instance() { _private->prepareToDestroy(); } } // namespace MTP