diff --git a/core/backends/lan/lanlinkprovider.cpp b/core/backends/lan/lanlinkprovider.cpp index 2e143a7b..82c6a800 100644 --- a/core/backends/lan/lanlinkprovider.cpp +++ b/core/backends/lan/lanlinkprovider.cpp @@ -1,542 +1,543 @@ /** * 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 "lanlinkprovider.h" #include "core_debug.h" #ifndef Q_OS_WIN #include #include #include #include #endif #include #include #include #include #include #include #include #include #include "daemon.h" #include "landevicelink.h" #include "lanpairinghandler.h" #include "kdeconnectconfig.h" #define MIN_VERSION_WITH_SSL_SUPPORT 6 LanLinkProvider::LanLinkProvider(bool testMode) : m_server(new Server(this)) , m_udpSocket(this) , m_tcpPort(0) , m_testMode(testMode) , m_combineBroadcastsTimer(this) { m_combineBroadcastsTimer.setInterval(0); // increase this if waiting a single event-loop iteration is not enough m_combineBroadcastsTimer.setSingleShot(true); connect(&m_combineBroadcastsTimer, &QTimer::timeout, this, &LanLinkProvider::broadcastToNetwork); connect(&m_udpSocket, &QIODevice::readyRead, this, &LanLinkProvider::udpBroadcastReceived); m_server->setProxy(QNetworkProxy::NoProxy); connect(m_server, &QTcpServer::newConnection, this, &LanLinkProvider::newConnection); m_udpSocket.setProxy(QNetworkProxy::NoProxy); //Detect when a network interface changes status, so we announce ourselves in the new network QNetworkConfigurationManager* networkManager = new QNetworkConfigurationManager(this); connect(networkManager, &QNetworkConfigurationManager::configurationChanged, this, &LanLinkProvider::onNetworkConfigurationChanged); } void LanLinkProvider::onNetworkConfigurationChanged(const QNetworkConfiguration& config) { if (m_lastConfig != config && config.state() == QNetworkConfiguration::Active) { m_lastConfig = config; onNetworkChange(); } } LanLinkProvider::~LanLinkProvider() { } void LanLinkProvider::onStart() { const QHostAddress bindAddress = m_testMode? QHostAddress::LocalHost : QHostAddress::Any; bool success = m_udpSocket.bind(bindAddress, UDP_PORT, QUdpSocket::ShareAddress); Q_ASSERT(success); m_tcpPort = MIN_TCP_PORT; while (!m_server->listen(bindAddress, m_tcpPort)) { m_tcpPort++; if (m_tcpPort > MAX_TCP_PORT) { //No ports available? qCritical(KDECONNECT_CORE) << "Error opening a port in range" << MIN_TCP_PORT << "-" << MAX_TCP_PORT; m_tcpPort = 0; return; } } onNetworkChange(); qCDebug(KDECONNECT_CORE) << "LanLinkProvider started"; } void LanLinkProvider::onStop() { m_udpSocket.close(); m_server->close(); qCDebug(KDECONNECT_CORE) << "LanLinkProvider stopped"; } void LanLinkProvider::onNetworkChange() { if (m_combineBroadcastsTimer.isActive()) { qCDebug(KDECONNECT_CORE()) << "Preventing duplicate broadcasts"; return; } m_combineBroadcastsTimer.start(); } //I'm in a new network, let's be polite and introduce myself void LanLinkProvider::broadcastToNetwork() { if (!m_server->isListening()) { //Not started return; } Q_ASSERT(m_tcpPort != 0); qCDebug(KDECONNECT_CORE()) << "Broadcasting identity packet"; QHostAddress destAddress = m_testMode? QHostAddress::LocalHost : QHostAddress(QStringLiteral("255.255.255.255")); NetworkPacket np(QLatin1String("")); NetworkPacket::createIdentityPacket(&np); np.set(QStringLiteral("tcpPort"), m_tcpPort); #ifdef Q_OS_WIN //On Windows we need to broadcast from every local IP address to reach all networks QUdpSocket sendSocket; sendSocket.setProxy(QNetworkProxy::NoProxy); for (const QNetworkInterface& iface : QNetworkInterface::allInterfaces()) { if ( (iface.flags() & QNetworkInterface::IsUp) && (iface.flags() & QNetworkInterface::IsRunning) && (iface.flags() & QNetworkInterface::CanBroadcast)) { for (const QNetworkAddressEntry& ifaceAddress : iface.addressEntries()) { QHostAddress sourceAddress = ifaceAddress.ip(); if (sourceAddress.protocol() == QAbstractSocket::IPv4Protocol && sourceAddress != QHostAddress::LocalHost) { qCDebug(KDECONNECT_CORE()) << "Broadcasting as" << sourceAddress; sendSocket.bind(sourceAddress, UDP_PORT); sendSocket.writeDatagram(np.serialize(), destAddress, UDP_PORT); sendSocket.close(); } } } } #else m_udpSocket.writeDatagram(np.serialize(), destAddress, UDP_PORT); #endif } //I'm the existing device, a new device is kindly introducing itself. //I will create a TcpSocket and try to connect. This can result in either tcpSocketConnected() or connectError(). void LanLinkProvider::udpBroadcastReceived() { while (m_udpSocket.hasPendingDatagrams()) { QByteArray datagram; datagram.resize(m_udpSocket.pendingDatagramSize()); QHostAddress sender; m_udpSocket.readDatagram(datagram.data(), datagram.size(), &sender); if (sender.isLoopback() && !m_testMode) continue; NetworkPacket* receivedPacket = new NetworkPacket(QLatin1String("")); bool success = NetworkPacket::unserialize(datagram, receivedPacket); //qCDebug(KDECONNECT_CORE) << "udp connection from " << receivedPacket->; //qCDebug(KDECONNECT_CORE) << "Datagram " << datagram.data() ; if (!success) { qCDebug(KDECONNECT_CORE) << "Could not unserialize UDP packet"; delete receivedPacket; continue; } if (receivedPacket->type() != PACKET_TYPE_IDENTITY) { qCDebug(KDECONNECT_CORE) << "Received a UDP packet of wrong type" << receivedPacket->type(); delete receivedPacket; continue; } if (receivedPacket->get(QStringLiteral("deviceId")) == KdeConnectConfig::instance()->deviceId()) { //qCDebug(KDECONNECT_CORE) << "Ignoring my own broadcast"; delete receivedPacket; continue; } int tcpPort = receivedPacket->get(QStringLiteral("tcpPort")); //qCDebug(KDECONNECT_CORE) << "Received Udp identity packet from" << sender << " asking for a tcp connection on port " << tcpPort; QSslSocket* socket = new QSslSocket(this); socket->setProxy(QNetworkProxy::NoProxy); m_receivedIdentityPackets[socket].np = receivedPacket; m_receivedIdentityPackets[socket].sender = sender; connect(socket, &QAbstractSocket::connected, this, &LanLinkProvider::tcpSocketConnected); connect(socket, QOverload::of(&QAbstractSocket::error), this, &LanLinkProvider::connectError); socket->connectToHost(sender, tcpPort); } } -void LanLinkProvider::connectError() +void LanLinkProvider::connectError(QAbstractSocket::SocketError socketError) { QSslSocket* socket = qobject_cast(sender()); if (!socket) return; + qCDebug(KDECONNECT_CORE) << "Socket error" << socketError; qCDebug(KDECONNECT_CORE) << "Fallback (1), try reverse connection (send udp packet)" << socket->errorString(); NetworkPacket np(QLatin1String("")); NetworkPacket::createIdentityPacket(&np); np.set(QStringLiteral("tcpPort"), m_tcpPort); m_udpSocket.writeDatagram(np.serialize(), m_receivedIdentityPackets[socket].sender, UDP_PORT); //The socket we created didn't work, and we didn't manage //to create a LanDeviceLink from it, deleting everything. delete m_receivedIdentityPackets.take(socket).np; delete socket; } //We received a UDP packet and answered by connecting to them by TCP. This gets called on a successful connection. void LanLinkProvider::tcpSocketConnected() { QSslSocket* socket = qobject_cast(sender()); if (!socket) return; // TODO Delete me? disconnect(socket, QOverload::of(&QAbstractSocket::error), this, &LanLinkProvider::connectError); configureSocket(socket); // If socket disconnects due to any reason after connection, link on ssl failure connect(socket, &QAbstractSocket::disconnected, socket, &QObject::deleteLater); NetworkPacket* receivedPacket = m_receivedIdentityPackets[socket].np; const QString& deviceId = receivedPacket->get(QStringLiteral("deviceId")); //qCDebug(KDECONNECT_CORE) << "tcpSocketConnected" << socket->isWritable(); // If network is on ssl, do not believe when they are connected, believe when handshake is completed NetworkPacket np2(QLatin1String("")); NetworkPacket::createIdentityPacket(&np2); socket->write(np2.serialize()); bool success = socket->waitForBytesWritten(); if (success) { qCDebug(KDECONNECT_CORE) << "TCP connection done (i'm the existing device)"; // if ssl supported if (receivedPacket->get(QStringLiteral("protocolVersion")) >= MIN_VERSION_WITH_SSL_SUPPORT) { bool isDeviceTrusted = KdeConnectConfig::instance()->trustedDevices().contains(deviceId); configureSslSocket(socket, deviceId, isDeviceTrusted); qCDebug(KDECONNECT_CORE) << "Starting server ssl (I'm the client TCP socket)"; connect(socket, &QSslSocket::encrypted, this, &LanLinkProvider::encrypted); if (isDeviceTrusted) { connect(socket, QOverload &>::of(&QSslSocket::sslErrors), this, &LanLinkProvider::sslErrors); } socket->startServerEncryption(); return; // Return statement prevents from deleting received packet, needed in slot "encrypted" } else { qWarning() << receivedPacket->get(QStringLiteral("deviceName")) << "uses an old protocol version, this won't work"; //addLink(deviceId, socket, receivedPacket, LanDeviceLink::Remotely); } } else { //I think this will never happen, but if it happens the deviceLink //(or the socket that is now inside it) might not be valid. Delete them. qCDebug(KDECONNECT_CORE) << "Fallback (2), try reverse connection (send udp packet)"; m_udpSocket.writeDatagram(np2.serialize(), m_receivedIdentityPackets[socket].sender, UDP_PORT); } delete m_receivedIdentityPackets.take(socket).np; //We don't delete the socket because now it's owned by the LanDeviceLink } void LanLinkProvider::encrypted() { qCDebug(KDECONNECT_CORE) << "Socket successfully established an SSL connection"; QSslSocket* socket = qobject_cast(sender()); if (!socket) return; // TODO delete me? disconnect(socket, QOverload &>::of(&QSslSocket::sslErrors), this, &LanLinkProvider::sslErrors); Q_ASSERT(socket->mode() != QSslSocket::UnencryptedMode); LanDeviceLink::ConnectionStarted connectionOrigin = (socket->mode() == QSslSocket::SslClientMode)? LanDeviceLink::Locally : LanDeviceLink::Remotely; NetworkPacket* receivedPacket = m_receivedIdentityPackets[socket].np; const QString& deviceId = receivedPacket->get(QStringLiteral("deviceId")); addLink(deviceId, socket, receivedPacket, connectionOrigin); // Copied from tcpSocketConnected slot, now delete received packet delete m_receivedIdentityPackets.take(socket).np; } void LanLinkProvider::sslErrors(const QList& errors) { QSslSocket* socket = qobject_cast(sender()); if (!socket) return; qCDebug(KDECONNECT_CORE) << "Failing due to " << errors; Device* device = Daemon::instance()->getDevice(socket->peerVerifyName()); if (device) { device->unpair(); } delete m_receivedIdentityPackets.take(socket).np; // Socket disconnects itself on ssl error and will be deleted by deleteLater slot, no need to delete manually } //I'm the new device and this is the answer to my UDP identity packet (no data received yet). They are connecting to us through TCP, and they should send an identity. void LanLinkProvider::newConnection() { qCDebug(KDECONNECT_CORE) << "LanLinkProvider newConnection"; while (m_server->hasPendingConnections()) { QSslSocket* socket = m_server->nextPendingConnection(); configureSocket(socket); //This socket is still managed by us (and child of the QTcpServer), if //it disconnects before we manage to pass it to a LanDeviceLink, it's //our responsibility to delete it. We do so with this connection. connect(socket, &QAbstractSocket::disconnected, socket, &QObject::deleteLater); connect(socket, &QIODevice::readyRead, this, &LanLinkProvider::dataReceived); } } //I'm the new device and this is the answer to my UDP identity packet (data received) void LanLinkProvider::dataReceived() { QSslSocket* socket = qobject_cast(sender()); socket->startTransaction(); const QByteArray data = socket->readLine(); qCDebug(KDECONNECT_CORE) << "LanLinkProvider received reply:" << data; NetworkPacket* np = new NetworkPacket(QLatin1String("")); bool success = NetworkPacket::unserialize(data, np); if (!success) { delete np; socket->rollbackTransaction(); return; } socket->commitTransaction(); if (np->type() != PACKET_TYPE_IDENTITY) { qCWarning(KDECONNECT_CORE) << "LanLinkProvider/newConnection: Expected identity, received " << np->type(); delete np; return; } // Needed in "encrypted" if ssl is used, similar to "tcpSocketConnected" m_receivedIdentityPackets[socket].np = np; const QString& deviceId = np->get(QStringLiteral("deviceId")); //qCDebug(KDECONNECT_CORE) << "Handshaking done (i'm the new device)"; //This socket will now be owned by the LanDeviceLink or we don't want more data to be received, forget about it disconnect(socket, &QIODevice::readyRead, this, &LanLinkProvider::dataReceived); if (np->get(QStringLiteral("protocolVersion")) >= MIN_VERSION_WITH_SSL_SUPPORT) { bool isDeviceTrusted = KdeConnectConfig::instance()->trustedDevices().contains(deviceId); configureSslSocket(socket, deviceId, isDeviceTrusted); qCDebug(KDECONNECT_CORE) << "Starting client ssl (but I'm the server TCP socket)"; connect(socket, &QSslSocket::encrypted, this, &LanLinkProvider::encrypted); if (isDeviceTrusted) { connect(socket, QOverload &>::of(&QSslSocket::sslErrors), this, &LanLinkProvider::sslErrors); } socket->startClientEncryption(); } else { qWarning() << np->get(QStringLiteral("deviceName")) << "uses an old protocol version, this won't work"; //addLink(deviceId, socket, np, LanDeviceLink::Locally); delete m_receivedIdentityPackets.take(socket).np; } } void LanLinkProvider::deviceLinkDestroyed(QObject* destroyedDeviceLink) { const QString id = destroyedDeviceLink->property("deviceId").toString(); //qCDebug(KDECONNECT_CORE) << "deviceLinkDestroyed" << id; QMap< QString, LanDeviceLink* >::iterator linkIterator = m_links.find(id); Q_ASSERT(linkIterator != m_links.end()); if (linkIterator != m_links.end()) { Q_ASSERT(linkIterator.value() == destroyedDeviceLink); m_links.erase(linkIterator); auto pairingHandler = m_pairingHandlers.take(id); if (pairingHandler) { pairingHandler->deleteLater(); } } } void LanLinkProvider::configureSslSocket(QSslSocket* socket, const QString& deviceId, bool isDeviceTrusted) { // Setting supported ciphers manually, to match those on Android (FIXME: Test if this can be left unconfigured and still works for Android 4) QList socketCiphers; socketCiphers.append(QSslCipher(QStringLiteral("ECDHE-ECDSA-AES256-GCM-SHA384"))); socketCiphers.append(QSslCipher(QStringLiteral("ECDHE-ECDSA-AES128-GCM-SHA256"))); socketCiphers.append(QSslCipher(QStringLiteral("ECDHE-RSA-AES128-SHA"))); // Configure for ssl QSslConfiguration sslConfig; sslConfig.setCiphers(socketCiphers); socket->setSslConfiguration(sslConfig); socket->setLocalCertificate(KdeConnectConfig::instance()->certificate()); socket->setPrivateKey(KdeConnectConfig::instance()->privateKeyPath()); socket->setPeerVerifyName(deviceId); if (isDeviceTrusted) { QString certString = KdeConnectConfig::instance()->getDeviceProperty(deviceId, QStringLiteral("certificate"), QString()); socket->addCaCertificate(QSslCertificate(certString.toLatin1())); socket->setPeerVerifyMode(QSslSocket::VerifyPeer); } else { socket->setPeerVerifyMode(QSslSocket::QueryPeer); } //Usually SSL errors are only bad for trusted devices. Uncomment this section to log errors in any case, for debugging. //QObject::connect(socket, static_cast&)>(&QSslSocket::sslErrors), [](const QList& errors) //{ // Q_FOREACH (const QSslError& error, errors) { // qCDebug(KDECONNECT_CORE) << "SSL Error:" << error.errorString(); // } //}); } void LanLinkProvider::configureSocket(QSslSocket* socket) { socket->setProxy(QNetworkProxy::NoProxy); socket->setSocketOption(QAbstractSocket::KeepAliveOption, QVariant(1)); #ifdef TCP_KEEPIDLE // time to start sending keepalive packets (seconds) int maxIdle = 10; setsockopt(socket->socketDescriptor(), IPPROTO_TCP, TCP_KEEPIDLE, &maxIdle, sizeof(maxIdle)); #endif #ifdef TCP_KEEPINTVL // interval between keepalive packets after the initial period (seconds) int interval = 5; setsockopt(socket->socketDescriptor(), IPPROTO_TCP, TCP_KEEPINTVL, &interval, sizeof(interval)); #endif #ifdef TCP_KEEPCNT // number of missed keepalive packets before disconnecting int count = 3; setsockopt(socket->socketDescriptor(), IPPROTO_TCP, TCP_KEEPCNT, &count, sizeof(count)); #endif } void LanLinkProvider::addLink(const QString& deviceId, QSslSocket* socket, NetworkPacket* receivedPacket, LanDeviceLink::ConnectionStarted connectionOrigin) { // Socket disconnection will now be handled by LanDeviceLink disconnect(socket, &QAbstractSocket::disconnected, socket, &QObject::deleteLater); LanDeviceLink* deviceLink; //Do we have a link for this device already? QMap< QString, LanDeviceLink* >::iterator linkIterator = m_links.find(deviceId); if (linkIterator != m_links.end()) { //qCDebug(KDECONNECT_CORE) << "Reusing link to" << deviceId; deviceLink = linkIterator.value(); deviceLink->reset(socket, connectionOrigin); } else { deviceLink = new LanDeviceLink(deviceId, this, socket, connectionOrigin); connect(deviceLink, &QObject::destroyed, this, &LanLinkProvider::deviceLinkDestroyed); m_links[deviceId] = deviceLink; if (m_pairingHandlers.contains(deviceId)) { //We shouldn't have a pairinghandler if we didn't have a link. //Crash if debug, recover if release (by setting the new devicelink to the old pairinghandler) Q_ASSERT(m_pairingHandlers.contains(deviceId)); m_pairingHandlers[deviceId]->setDeviceLink(deviceLink); } } Q_EMIT onConnectionReceived(*receivedPacket, deviceLink); } LanPairingHandler* LanLinkProvider::createPairingHandler(DeviceLink* link) { LanPairingHandler* ph = m_pairingHandlers.value(link->deviceId()); if (!ph) { ph = new LanPairingHandler(link); qCDebug(KDECONNECT_CORE) << "creating pairing handler for" << link->deviceId(); connect (ph, &LanPairingHandler::pairingError, link, &DeviceLink::pairingError); m_pairingHandlers[link->deviceId()] = ph; } return ph; } void LanLinkProvider::userRequestsPair(const QString& deviceId) { LanPairingHandler* ph = createPairingHandler(m_links.value(deviceId)); ph->requestPairing(); } void LanLinkProvider::userRequestsUnpair(const QString& deviceId) { LanPairingHandler* ph = createPairingHandler(m_links.value(deviceId)); ph->unpair(); } void LanLinkProvider::incomingPairPacket(DeviceLink* deviceLink, const NetworkPacket& np) { LanPairingHandler* ph = createPairingHandler(deviceLink); ph->packetReceived(np); } diff --git a/core/backends/lan/lanlinkprovider.h b/core/backends/lan/lanlinkprovider.h index 21b78c01..6304fcee 100644 --- a/core/backends/lan/lanlinkprovider.h +++ b/core/backends/lan/lanlinkprovider.h @@ -1,99 +1,99 @@ /** * 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 . */ #ifndef LANLINKPROVIDER_H #define LANLINKPROVIDER_H #include #include #include #include #include #include #include "kdeconnectcore_export.h" #include "backends/linkprovider.h" #include "server.h" #include "landevicelink.h" class LanPairingHandler; class KDECONNECTCORE_EXPORT LanLinkProvider : public LinkProvider { Q_OBJECT public: LanLinkProvider(bool testMode = false); ~LanLinkProvider() override; QString name() override { return QStringLiteral("LanLinkProvider"); } int priority() override { return PRIORITY_HIGH; } void userRequestsPair(const QString& deviceId); void userRequestsUnpair(const QString& deviceId); void incomingPairPacket(DeviceLink* device, const NetworkPacket& np); static void configureSslSocket(QSslSocket* socket, const QString& deviceId, bool isDeviceTrusted); static void configureSocket(QSslSocket* socket); const static quint16 UDP_PORT = 1716; const static quint16 MIN_TCP_PORT = 1716; const static quint16 MAX_TCP_PORT = 1764; public Q_SLOTS: void onNetworkChange() override; void onStart() override; void onStop() override; void tcpSocketConnected(); void encrypted(); - void connectError(); + void connectError(QAbstractSocket::SocketError socketError); private Q_SLOTS: void udpBroadcastReceived(); void newConnection(); void dataReceived(); void deviceLinkDestroyed(QObject* destroyedDeviceLink); void sslErrors(const QList& errors); void broadcastToNetwork(); private: LanPairingHandler* createPairingHandler(DeviceLink* link); void onNetworkConfigurationChanged(const QNetworkConfiguration& config); void addLink(const QString& deviceId, QSslSocket* socket, NetworkPacket* receivedPacket, LanDeviceLink::ConnectionStarted connectionOrigin); Server* m_server; QUdpSocket m_udpSocket; quint16 m_tcpPort; QMap m_links; QMap m_pairingHandlers; struct PendingConnect { NetworkPacket* np; QHostAddress sender; }; QMap m_receivedIdentityPackets; QNetworkConfiguration m_lastConfig; const bool m_testMode; QTimer m_combineBroadcastsTimer; }; #endif