/** * Copyright 2013 Albert Vaca * * This program 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 2 of * the License or (at your option) version 3 or any later version * accepted by the membership of KDE e.V. (or its successor approved * by the membership of KDE e.V.), which shall act as a proxy * defined in Section 14 of version 3 of the license. * * This program 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. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "daemon.h" #include #include #include #include #include #include #include "kdebugnamespace.h" #include "networkpackage.h" #include "backends/lan/lanlinkprovider.h" #include "backends/loopback/loopbacklinkprovider.h" K_PLUGIN_FACTORY(KdeConnectFactory, registerPlugin();) K_EXPORT_PLUGIN(KdeConnectFactory("kdeconnect", "kdeconnect-kded")) Daemon::Daemon(QObject *parent, const QList&) : KDEDModule(parent) { KSharedConfigPtr config = KSharedConfig::openConfig("kdeconnectrc"); if (!config->group("myself").hasKey("id")) { QString uuid = QUuid::createUuid().toString(); //uuids contain charcaters that are not exportable in dbus paths uuid = uuid.mid(1, uuid.length() - 2).replace("-", "_"); config->group("myself").writeEntry("id", uuid); kDebug(kdeconnect_kded()) << "My id:" << uuid; } //kDebug(kdeconnect_kded()) << "QCA supported capabilities:" << QCA::supportedFeatures().join(","); if(!QCA::isSupported("rsa")) { //TODO: Maybe display this in a more visible way? qWarning() << "Error: KDE Connect could not find support for RSA in your QCA installation, if your distribution provides" << "separate packages for QCA-ossl and QCA-gnupg plugins, make sure you have them installed and try again"; return; } if (!config->group("myself").hasKey("privateKey") || !config->group("myself").hasKey("publicKey")) { //http://delta.affinix.com/docs/qca/rsatest_8cpp-example.html QCA::PrivateKey privateKey = QCA::KeyGenerator().createRSA(2048); config->group("myself").writeEntry("privateKey", privateKey.toPEM()); QCA::PublicKey publicKey = privateKey.toPublicKey(); config->group("myself").writeEntry("publicKey", publicKey.toPEM()); //TODO: Store key in a PEM file instead (use something like KStandardDirs::locate("appdata", "private.pem")) } //Debugging kDebug(kdeconnect_kded()) << "Starting KdeConnect daemon"; //Load backends (hardcoded by now, should be plugins in a future) mLinkProviders.insert(new LanLinkProvider()); //mLinkProviders.insert(new LoopbackLinkProvider()); //Read remebered paired devices const KConfigGroup& known = config->group("trusted_devices"); const QStringList& list = known.groupList(); Q_FOREACH(const QString& id, list) { Device* device = new Device(id); connect(device, SIGNAL(reachableStatusChanged()), this, SLOT(onDeviceReachableStatusChanged())); mDevices[id] = device; Q_EMIT deviceAdded(id); } //Listen to connectivity changes QNetworkSession* network = new QNetworkSession(QNetworkConfigurationManager().defaultConfiguration()); Q_FOREACH (LinkProvider* a, mLinkProviders) { connect(network, SIGNAL(stateChanged(QNetworkSession::State)), a, SLOT(onNetworkChange(QNetworkSession::State))); connect(a, SIGNAL(onConnectionReceived(NetworkPackage, DeviceLink*)), this, SLOT(onNewDeviceLink(NetworkPackage, DeviceLink*))); } QDBusConnection::sessionBus().registerService("org.kde.kdeconnect"); QDBusConnection::sessionBus().registerObject("/modules/kdeconnect", this, QDBusConnection::ExportScriptableContents); setDiscoveryEnabled(true); } void Daemon::setDiscoveryEnabled(bool b) { //Listen to incomming connections Q_FOREACH (LinkProvider* a, mLinkProviders) { if (b) a->onStart(); else a->onStop(); } } void Daemon::forceOnNetworkChange() { Q_FOREACH (LinkProvider* a, mLinkProviders) { a->onNetworkChange(QNetworkSession::Connected); } } QStringList Daemon::devices(bool onlyReachable, bool onlyVisible) { QStringList ret; Q_FOREACH(Device* device, mDevices) { if (onlyReachable && !device->isReachable()) continue; if (onlyVisible && !device->isPaired()) continue; ret.append(device->id()); } return ret; } void Daemon::onNewDeviceLink(const NetworkPackage& identityPackage, DeviceLink* dl) { const QString& id = identityPackage.get("deviceId"); //kDebug(kdeconnect_kded()) << "Device discovered" << id << "via" << dl->provider()->name(); if (mDevices.contains(id)) { //kDebug(kdeconnect_kded()) << "It is a known device"; Device* device = mDevices[id]; device->addLink(identityPackage, dl); } else { //kDebug(kdeconnect_kded()) << "It is a new device"; Device* device = new Device(identityPackage, dl); connect(device, SIGNAL(reachableStatusChanged()), this, SLOT(onDeviceReachableStatusChanged())); mDevices[id] = device; Q_EMIT deviceAdded(id); } Q_EMIT deviceVisibilityChanged(id, true); } void Daemon::onDeviceReachableStatusChanged() { Device* device = (Device*)sender(); QString id = device->id(); Q_EMIT deviceVisibilityChanged(id, device->isReachable()); //kDebug(kdeconnect_kded()) << "Device" << device->name() << "reachable status changed:" << device->isReachable(); if (!device->isReachable()) { if (!device->isPaired()) { kDebug(kdeconnect_kded()) << "Destroying device" << device->name(); Q_EMIT deviceRemoved(id); mDevices.remove(id); device->deleteLater(); } } } Daemon::~Daemon() { }