/* 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 "core/sandbox.h" #include "base/platform/base_platform_info.h" #include "mainwidget.h" #include "mainwindow.h" #include "storage/localstorage.h" #include "window/notifications_manager.h" #include "core/crash_reports.h" #include "core/crash_report_window.h" #include "core/application.h" #include "core/launcher.h" #include "core/local_url_handlers.h" #include "core/update_checker.h" #include "base/timer.h" #include "base/concurrent_timer.h" #include "base/invoke_queued.h" #include "base/qthelp_url.h" #include "base/qthelp_regex.h" #include "ui/effects/animations.h" #include "facades.h" #include "app.h" #include namespace Core { namespace { constexpr auto kEmptyPidForCommandResponse = 0ULL; using ErrorSignal = void(QLocalSocket::*)(QLocalSocket::LocalSocketError); const auto QLocalSocket_error = ErrorSignal(&QLocalSocket::error); QChar _toHex(ushort v) { v = v & 0x000F; return QChar::fromLatin1((v >= 10) ? ('a' + (v - 10)) : ('0' + v)); } ushort _fromHex(QChar c) { return ((c.unicode() >= uchar('a')) ? (c.unicode() - uchar('a') + 10) : (c.unicode() - uchar('0'))) & 0x000F; } QString _escapeTo7bit(const QString &str) { QString result; result.reserve(str.size() * 2); for (int i = 0, l = str.size(); i != l; ++i) { QChar ch(str.at(i)); ushort uch(ch.unicode()); if (uch < 32 || uch > 127 || uch == ushort(uchar('%'))) { result.append('%').append(_toHex(uch >> 12)).append(_toHex(uch >> 8)).append(_toHex(uch >> 4)).append(_toHex(uch)); } else { result.append(ch); } } return result; } QString _escapeFrom7bit(const QString &str) { QString result; result.reserve(str.size()); for (int i = 0, l = str.size(); i != l; ++i) { QChar ch(str.at(i)); if (ch == QChar::fromLatin1('%') && i + 4 < l) { result.append(QChar(ushort((_fromHex(str.at(i + 1)) << 12) | (_fromHex(str.at(i + 2)) << 8) | (_fromHex(str.at(i + 3)) << 4) | _fromHex(str.at(i + 4))))); i += 4; } else { result.append(ch); } } return result; } } // namespace Sandbox::Sandbox( not_null launcher, int &argc, char **argv) : QApplication(argc, argv) , _mainThreadId(QThread::currentThreadId()) , _handleObservables([=] { Expects(_application != nullptr); _application->call_handleObservables(); }) , _launcher(launcher) { } int Sandbox::start() { if (!Core::UpdaterDisabled()) { _updateChecker = std::make_unique(); } const auto d = QFile::encodeName(QDir(cWorkingDir()).absolutePath()); char h[33] = { 0 }; hashMd5Hex(d.constData(), d.size(), h); _localServerName = Platform::SingleInstanceLocalServerName(h); connect( &_localSocket, &QLocalSocket::connected, [=] { socketConnected(); }); connect( &_localSocket, &QLocalSocket::disconnected, [=] { socketDisconnected(); }); connect( &_localSocket, QLocalSocket_error, [=](QLocalSocket::LocalSocketError error) { socketError(error); }); connect( &_localSocket, &QLocalSocket::bytesWritten, [=](qint64 bytes) { socketWritten(bytes); }); connect( &_localSocket, &QLocalSocket::readyRead, [=] { socketReading(); }); connect( &_localServer, &QLocalServer::newConnection, [=] { newInstanceConnected(); }); crl::on_main(this, [=] { checkForQuit(); }); connect(this, &QCoreApplication::aboutToQuit, [=] { customEnterFromEventLoop([&] { closeApplication(); }); }); if (cManyInstance()) { LOG(("Many instance allowed, starting...")); singleInstanceChecked(); } else { LOG(("Connecting local socket to %1...").arg(_localServerName)); _localSocket.connectToServer(_localServerName); } return exec(); } void Sandbox::launchApplication() { InvokeQueued(this, [=] { if (App::quitting()) { quit(); } else if (_application) { return; } setupScreenScale(); base::InitObservables([] { Instance()._handleObservables.call(); }); _application = std::make_unique(_launcher); // Ideally this should go to constructor. // But we want to catch all native events and Application installs // its own filter that can filter out some of them. So we install // our filter after the Application constructor installs his. installNativeEventFilter(this); _application->run(); }); } void Sandbox::setupScreenScale() { const auto dpi = Sandbox::primaryScreen()->logicalDotsPerInch(); LOG(("Primary screen DPI: %1").arg(dpi)); if (dpi <= 108) { cSetScreenScale(100); // 100%: 96 DPI (0-108) } else if (dpi <= 132) { cSetScreenScale(125); // 125%: 120 DPI (108-132) } else if (dpi <= 168) { cSetScreenScale(150); // 150%: 144 DPI (132-168) } else if (dpi <= 216) { cSetScreenScale(200); // 200%: 192 DPI (168-216) } else if (dpi <= 264) { cSetScreenScale(250); // 250%: 240 DPI (216-264) } else { cSetScreenScale(300); // 300%: 288 DPI (264-inf) } const auto ratio = devicePixelRatio(); if (ratio > 1.) { if (!Platform::IsMac() || (ratio != 2.)) { LOG(("Found non-trivial Device Pixel Ratio: %1").arg(ratio)); LOG(("Environmental variables: QT_DEVICE_PIXEL_RATIO='%1'").arg(QString::fromLatin1(qgetenv("QT_DEVICE_PIXEL_RATIO")))); LOG(("Environmental variables: QT_SCALE_FACTOR='%1'").arg(QString::fromLatin1(qgetenv("QT_SCALE_FACTOR")))); LOG(("Environmental variables: QT_AUTO_SCREEN_SCALE_FACTOR='%1'").arg(QString::fromLatin1(qgetenv("QT_AUTO_SCREEN_SCALE_FACTOR")))); LOG(("Environmental variables: QT_SCREEN_SCALE_FACTORS='%1'").arg(QString::fromLatin1(qgetenv("QT_SCREEN_SCALE_FACTORS")))); } style::SetDevicePixelRatio(int(ratio)); cSetScreenScale(style::kScaleDefault); } } Sandbox::~Sandbox() = default; bool Sandbox::event(QEvent *e) { if (e->type() == QEvent::Close) { App::quit(); } return QApplication::event(e); } void Sandbox::socketConnected() { LOG(("Socket connected, this is not the first application instance, sending show command...")); _secondInstance = true; QString commands; const QStringList &lst(cSendPaths()); for (QStringList::const_iterator i = lst.cbegin(), e = lst.cend(); i != e; ++i) { commands += qsl("SEND:") + _escapeTo7bit(*i) + ';'; } if (!cStartUrl().isEmpty()) { commands += qsl("OPEN:") + _escapeTo7bit(cStartUrl()) + ';'; } else { commands += qsl("CMD:show;"); } DEBUG_LOG(("Sandbox Info: writing commands %1").arg(commands)); _localSocket.write(commands.toLatin1()); } void Sandbox::socketWritten(qint64/* bytes*/) { if (_localSocket.state() != QLocalSocket::ConnectedState) { LOG(("Socket is not connected %1").arg(_localSocket.state())); return; } if (_localSocket.bytesToWrite()) { return; } LOG(("Show command written, waiting response...")); } void Sandbox::socketReading() { if (_localSocket.state() != QLocalSocket::ConnectedState) { LOG(("Socket is not connected %1").arg(_localSocket.state())); return; } _localSocketReadData.append(_localSocket.readAll()); if (QRegularExpression("RES:(\\d+);").match(_localSocketReadData).hasMatch()) { uint64 pid = _localSocketReadData.mid(4, _localSocketReadData.length() - 5).toULongLong(); if (pid != kEmptyPidForCommandResponse) { psActivateProcess(pid); } LOG(("Show command response received, pid = %1, activating and quitting...").arg(pid)); return App::quit(); } } void Sandbox::socketError(QLocalSocket::LocalSocketError e) { if (App::quitting()) return; if (_secondInstance) { LOG(("Could not write show command, error %1, quitting...").arg(e)); return App::quit(); } if (e == QLocalSocket::ServerNotFoundError) { LOG(("This is the only instance of Telegram, starting server and app...")); } else { LOG(("Socket connect error %1, starting server and app...").arg(e)); } _localSocket.close(); // Local server does not work in WinRT build. #ifndef Q_OS_WINRT psCheckLocalSocket(_localServerName); if (!_localServer.listen(_localServerName)) { LOG(("Failed to start listening to %1 server, error %2").arg(_localServerName).arg(int(_localServer.serverError()))); return App::quit(); } #endif // !Q_OS_WINRT if (!Core::UpdaterDisabled() && !cNoStartUpdate() && Core::checkReadyUpdate()) { cSetRestartingUpdate(true); DEBUG_LOG(("Sandbox Info: installing update instead of starting app...")); return App::quit(); } singleInstanceChecked(); } void Sandbox::singleInstanceChecked() { if (cManyInstance()) { Logs::multipleInstances(); } refreshGlobalProxy(); if (!Logs::started() || (!cManyInstance() && !Logs::instanceChecked())) { new NotStartedWindow(); return; } const auto result = CrashReports::Start(); result.match([&](CrashReports::Status status) { if (status == CrashReports::CantOpen) { new NotStartedWindow(); } else { launchApplication(); } }, [&](const QByteArray &crashdump) { // If crash dump is empty with that status it means that we // didn't close the application properly. Just ignore for now. if (crashdump.isEmpty()) { if (CrashReports::Restart() == CrashReports::CantOpen) { new NotStartedWindow(); } else { launchApplication(); } return; } _lastCrashDump = crashdump; auto window = new LastCrashedWindow( _launcher, _lastCrashDump, [=] { launchApplication(); }); window->proxyChanges( ) | rpl::start_with_next([=](MTP::ProxyData &&proxy) { _sandboxProxy = std::move(proxy); refreshGlobalProxy(); }, window->lifetime()); }); } void Sandbox::socketDisconnected() { if (_secondInstance) { DEBUG_LOG(("Sandbox Error: socket disconnected before command response received, quitting...")); return App::quit(); } } void Sandbox::newInstanceConnected() { DEBUG_LOG(("Sandbox Info: new local socket connected")); for (auto client = _localServer.nextPendingConnection(); client; client = _localServer.nextPendingConnection()) { _localClients.push_back(LocalClient(client, QByteArray())); connect( client, &QLocalSocket::readyRead, [=] { readClients(); }); connect( client, &QLocalSocket::disconnected, [=] { removeClients(); }); } } void Sandbox::readClients() { // This method can be called before Application is constructed. QString startUrl; QStringList toSend; for (LocalClients::iterator i = _localClients.begin(), e = _localClients.end(); i != e; ++i) { i->second.append(i->first->readAll()); if (i->second.size()) { QString cmds(QString::fromLatin1(i->second)); int32 from = 0, l = cmds.length(); for (int32 to = cmds.indexOf(QChar(';'), from); to >= from; to = (from < l) ? cmds.indexOf(QChar(';'), from) : -1) { QStringRef cmd(&cmds, from, to - from); if (cmd.startsWith(qsl("CMD:"))) { execExternal(cmds.mid(from + 4, to - from - 4)); const auto response = qsl("RES:%1;").arg(QApplication::applicationPid()).toLatin1(); i->first->write(response.data(), response.size()); } else if (cmd.startsWith(qsl("SEND:"))) { if (cSendPaths().isEmpty()) { toSend.append(_escapeFrom7bit(cmds.mid(from + 5, to - from - 5))); } } else if (cmd.startsWith(qsl("OPEN:"))) { auto activateRequired = true; if (cStartUrl().isEmpty()) { startUrl = _escapeFrom7bit(cmds.mid(from + 5, to - from - 5)).mid(0, 8192); activateRequired = StartUrlRequiresActivate(startUrl); } if (activateRequired) { execExternal("show"); } const auto responsePid = activateRequired ? QApplication::applicationPid() : kEmptyPidForCommandResponse; const auto response = qsl("RES:%1;").arg(responsePid).toLatin1(); i->first->write(response.data(), response.size()); } else { LOG(("Sandbox Error: unknown command %1 passed in local socket").arg(QString(cmd.constData(), cmd.length()))); } from = to + 1; } if (from > 0) { i->second = i->second.mid(from); } } } if (!toSend.isEmpty()) { QStringList paths(cSendPaths()); paths.append(toSend); cSetSendPaths(paths); } if (!cSendPaths().isEmpty()) { if (App::wnd()) { App::wnd()->sendPaths(); } } if (!startUrl.isEmpty()) { cSetStartUrl(startUrl); } if (_application) { _application->checkStartUrl(); } } void Sandbox::removeClients() { DEBUG_LOG(("Sandbox Info: remove clients slot called, clients %1" ).arg(_localClients.size())); for (auto i = _localClients.begin(), e = _localClients.end(); i != e;) { if (i->first->state() != QLocalSocket::ConnectedState) { DEBUG_LOG(("Sandbox Info: removing client")); i = _localClients.erase(i); e = _localClients.end(); } else { ++i; } } } void Sandbox::checkForQuit() { if (App::quitting()) { quit(); } } void Sandbox::refreshGlobalProxy() { #ifndef TDESKTOP_DISABLE_NETWORK_PROXY const auto proxy = !Global::started() ? _sandboxProxy : (Global::ProxySettings() == MTP::ProxyData::Settings::Enabled) ? Global::SelectedProxy() : MTP::ProxyData(); if (proxy.type == MTP::ProxyData::Type::Socks5 || proxy.type == MTP::ProxyData::Type::Http) { QNetworkProxy::setApplicationProxy( MTP::ToNetworkProxy(MTP::ToDirectIpProxy(proxy))); } else if (!Global::started() || Global::ProxySettings() == MTP::ProxyData::Settings::System) { QNetworkProxyFactory::setUseSystemConfiguration(true); } else { QNetworkProxy::setApplicationProxy(QNetworkProxy::NoProxy); } #endif // TDESKTOP_DISABLE_NETWORK_PROXY } uint64 Sandbox::installationTag() const { return _launcher->installationTag(); } void Sandbox::postponeCall(FnMut &&callable) { Expects(callable != nullptr); Expects(_eventNestingLevel >= _loopNestingLevel); // _loopNestingLevel == _eventNestingLevel means that we had a // native event in a nesting loop that didn't get a notify() call // after. That means we already have exited the nesting loop and // there must not be any postponed calls with that nesting level. if (_loopNestingLevel == _eventNestingLevel) { Assert(_postponedCalls.empty() || _postponedCalls.back().loopNestingLevel < _loopNestingLevel); Assert(!_previousLoopNestingLevels.empty()); _loopNestingLevel = _previousLoopNestingLevels.back(); _previousLoopNestingLevels.pop_back(); } _postponedCalls.push_back({ _loopNestingLevel, std::move(callable) }); } void Sandbox::incrementEventNestingLevel() { ++_eventNestingLevel; } void Sandbox::decrementEventNestingLevel() { if (_eventNestingLevel == _loopNestingLevel) { _loopNestingLevel = _previousLoopNestingLevels.back(); _previousLoopNestingLevels.pop_back(); } const auto processTillLevel = _eventNestingLevel - 1; processPostponedCalls(processTillLevel); _eventNestingLevel = processTillLevel; } void Sandbox::registerEnterFromEventLoop() { if (_eventNestingLevel > _loopNestingLevel) { _previousLoopNestingLevels.push_back(_loopNestingLevel); _loopNestingLevel = _eventNestingLevel; } } bool Sandbox::notifyOrInvoke(QObject *receiver, QEvent *e) { if (e->type() == base::InvokeQueuedEvent::kType) { static_cast(e)->invoke(); return true; } return QApplication::notify(receiver, e); } bool Sandbox::notify(QObject *receiver, QEvent *e) { if (QThread::currentThreadId() != _mainThreadId) { return notifyOrInvoke(receiver, e); } const auto wrap = createEventNestingLevel(); if (e->type() == QEvent::UpdateRequest) { const auto weak = QPointer(receiver); _widgetUpdateRequests.fire({}); if (!weak) { return true; } } return notifyOrInvoke(receiver, e); } void Sandbox::processPostponedCalls(int level) { while (!_postponedCalls.empty()) { auto &last = _postponedCalls.back(); if (last.loopNestingLevel != level) { break; } auto taken = std::move(last); _postponedCalls.pop_back(); taken.callable(); } } bool Sandbox::nativeEventFilter( const QByteArray &eventType, void *message, long *result) { registerEnterFromEventLoop(); return false; } rpl::producer<> Sandbox::widgetUpdateRequests() const { return _widgetUpdateRequests.events(); } MTP::ProxyData Sandbox::sandboxProxy() const { return _sandboxProxy; } void Sandbox::closeApplication() { if (App::launchState() == App::QuitProcessed) { return; } App::setLaunchState(App::QuitProcessed); _application = nullptr; _localServer.close(); for (const auto &localClient : base::take(_localClients)) { localClient.first->close(); } _localClients.clear(); _localSocket.close(); _updateChecker = nullptr; } void Sandbox::execExternal(const QString &cmd) { DEBUG_LOG(("Sandbox Info: executing external command '%1'").arg(cmd)); if (cmd == "show") { if (App::wnd()) { App::wnd()->activate(); } else if (PreLaunchWindow::instance()) { PreLaunchWindow::instance()->activate(); } } } } // namespace Core namespace crl { rpl::producer<> on_main_update_requests() { return Core::Sandbox::Instance().widgetUpdateRequests(); } } // namespace crl namespace base { void EnterFromEventLoop(FnMut &&method) { Core::Sandbox::Instance().customEnterFromEventLoop(std::move(method)); } } // namespace base