356 lines
13 KiB
C++
356 lines
13 KiB
C++
/**
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* Copyright 2015 Vineet Garg <grgvineet@gmail.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License or (at your option) version 3 or any later version
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* accepted by the membership of KDE e.V. (or its successor approved
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* by the membership of KDE e.V.), which shall act as a proxy
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* defined in Section 14 of version 3 of the license.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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// This class tests the behaviour of the class LanLinkProvider, be sure to kill process kdeconnectd to avoid any port binding issues
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#include "../core/backends/lan/lanlinkprovider.h"
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#include "../core/backends/lan/server.h"
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#include "../core/backends/lan/socketlinereader.h"
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#include "../core/kdeconnectconfig.h"
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#include <QAbstractSocket>
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#include <QSslSocket>
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#include <QtTest>
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#include <QUdpSocket>
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/*
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* This class tests the working of LanLinkProvider under different conditions that when identity package is received over TCP, over UDP and same when the device is paired.
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* It depends on KdeConnectConfig since LanLinkProvider internally uses it.
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*/
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class LanLinkProviderTest : public QObject
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{
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Q_OBJECT
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public Q_SLOTS:
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void initTestCase();
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private Q_SLOTS:
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void pairedDeviceTcpPackageReceived();
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void pairedDeviceUdpPackageReceived();
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void unpairedDeviceTcpPackageReceived();
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void unpairedDeviceUdpPackageReceived();
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private:
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const int PORT = 8520;
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// Add some private fields here
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LanLinkProvider mLanLinkProvider;
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QEventLoop mLoop;
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Server* mServer;
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SocketLineReader* mReader;
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QUdpSocket* mUdpSocket;
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QString mIdentityPackage;
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// Attributes for test device
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QString deviceId;
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QString name;
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QCA::PrivateKey privateKey;
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QSslCertificate certificate;
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QSslCertificate generateCertificate(QString&, QCA::PrivateKey&);
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void addTrustedDevice();
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void removeTrustedDevice();
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void setSocketAttributes(QSslSocket *socket);
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void testIdentityPackage(QByteArray& identityPackage);
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};
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void LanLinkProviderTest::initTestCase()
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{
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removeTrustedDevice(); // Remove trusted device if left by chance by any test
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deviceId = QString("testdevice");
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name = QString("Test Device");
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privateKey = QCA::KeyGenerator().createRSA(2048);
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certificate = generateCertificate(deviceId, privateKey);
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mLanLinkProvider.onStart();
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mIdentityPackage = QString("{\"id\":1439365924847,\"type\":\"kdeconnect.identity\",\"body\":{\"deviceId\":\"testdevice\",\"deviceName\":\"Test Device\",\"protocolVersion\":6,\"deviceType\":\"phone\",\"tcpPort\":") + QString::number(PORT) + QString("}}");
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}
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void LanLinkProviderTest::pairedDeviceTcpPackageReceived()
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{
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KdeConnectConfig* kcc = KdeConnectConfig::instance();
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addTrustedDevice();
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QUdpSocket* mUdpServer = new QUdpSocket;
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mUdpServer->bind(QHostAddress::Any, 1714, QUdpSocket::ShareAddress);
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connect(mUdpServer, SIGNAL(readyRead()), &mLoop, SLOT(quit()));
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mLanLinkProvider.onNetworkChange();
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mLoop.exec();
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disconnect(mUdpServer, SIGNAL(readyRead()), &mLoop, SLOT(quit())); // This avoids strange behaviour of mLoop due to incoming udp package
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QByteArray datagram;
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datagram.resize(mUdpServer->pendingDatagramSize());
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QHostAddress sender;
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mUdpServer->readDatagram(datagram.data(), datagram.size(), &sender);
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testIdentityPackage(datagram);
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QJsonDocument jsonDocument = QJsonDocument::fromJson(datagram);
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QJsonObject body = jsonDocument.object().value("body").toObject();
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int tcpPort = body.value("tcpPort").toInt();
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QSslSocket socket;
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connect(&socket, SIGNAL(connected()), &mLoop, SLOT(quit()));
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connect(&socket, SIGNAL(error(QAbstractSocket::SocketError)), &mLoop, SLOT(quit()));
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socket.connectToHost(sender, tcpPort);
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mLoop.exec();
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QVERIFY2(socket.isOpen(), "Socket disconnected immediately");
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socket.write(mIdentityPackage.toLatin1());
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socket.waitForBytesWritten(2000);
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connect(&socket, SIGNAL(encrypted()), &mLoop, SLOT(quit()));
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connect(&socket, SIGNAL(sslErrors(const QList<QSslError>&)), &mLoop, SLOT(quit()));
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setSocketAttributes(&socket);
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socket.addCaCertificate(kcc->certificate());
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socket.setPeerVerifyMode(QSslSocket::VerifyPeer);
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socket.setPeerVerifyName(kcc->name());
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socket.startServerEncryption();
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mLoop.exec();
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QCOMPARE(socket.sslErrors().size(), 0);
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QVERIFY2(socket.isValid(), "Server socket disconnected");
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QVERIFY2(socket.isEncrypted(), "Server socket not yet encrypted");
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QVERIFY2(!socket.peerCertificate().isNull(), "Peer certificate is null");
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removeTrustedDevice();
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delete mUdpServer;
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}
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void LanLinkProviderTest::pairedDeviceUdpPackageReceived()
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{
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KdeConnectConfig* kcc = KdeConnectConfig::instance();
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addTrustedDevice();
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mServer = new Server(this);
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mUdpSocket = new QUdpSocket(this);
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mServer->listen(QHostAddress::Any, PORT);
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connect(mServer, SIGNAL(newConnection()), &mLoop, SLOT(quit()));
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qint64 bytesWritten = mUdpSocket->writeDatagram(mIdentityPackage.toLatin1(), QHostAddress::LocalHost, 1714); // write an identity package to udp socket here, we do not broadcast it here
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QCOMPARE(bytesWritten, mIdentityPackage.size());
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// We should have an incoming connection now, wait for incoming connection
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mLoop.exec();
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QSslSocket* serverSocket = mServer->nextPendingConnection();
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QVERIFY2(serverSocket != 0, "Server socket is null");
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QVERIFY2(serverSocket->isOpen(), "Server socket already closed");
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mReader = new SocketLineReader(serverSocket, this);
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connect(mReader, SIGNAL(readyRead()), &mLoop, SLOT(quit()));
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mLoop.exec();
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QByteArray receivedPackage = mReader->readLine();
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testIdentityPackage(receivedPackage);
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// Received identiy package from LanLinkProvider now start ssl
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connect(serverSocket, SIGNAL(encrypted()), &mLoop, SLOT(quit()));
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connect(serverSocket, SIGNAL(sslErrors(const QList<QSslError>&)), &mLoop, SLOT(quit()));
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setSocketAttributes(serverSocket);
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serverSocket->addCaCertificate(kcc->certificate());
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serverSocket->setPeerVerifyMode(QSslSocket::VerifyPeer);
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serverSocket->setPeerVerifyName(kcc->deviceId());
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serverSocket->startClientEncryption(); // Its TCP server. but SSL client
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mLoop.exec();
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QCOMPARE(serverSocket->sslErrors().size(), 0);
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QVERIFY2(serverSocket->isValid(), "Server socket disconnected");
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QVERIFY2(serverSocket->isEncrypted(), "Server socket not yet encrypted");
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QVERIFY2(!serverSocket->peerCertificate().isNull(), "Peer certificate is null");
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removeTrustedDevice();
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delete mServer;
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delete mUdpSocket;
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}
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void LanLinkProviderTest::unpairedDeviceTcpPackageReceived()
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{
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QUdpSocket* mUdpServer = new QUdpSocket;
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mUdpServer->bind(QHostAddress::Any, 1714, QUdpSocket::ShareAddress);
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connect(mUdpServer, SIGNAL(readyRead()), &mLoop, SLOT(quit()));
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mLanLinkProvider.onNetworkChange();
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mLoop.exec();
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disconnect(mUdpServer, SIGNAL(readyRead()), &mLoop, SLOT(quit()));
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QByteArray datagram;
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datagram.resize(mUdpServer->pendingDatagramSize());
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QHostAddress sender;
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mUdpServer->readDatagram(datagram.data(), datagram.size(), &sender);
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testIdentityPackage(datagram);
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QJsonDocument jsonDocument = QJsonDocument::fromJson(datagram);
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QJsonObject body = jsonDocument.object().value("body").toObject();
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int tcpPort = body.value("tcpPort").toInt();
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QSslSocket socket;
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connect(&socket, SIGNAL(connected()), &mLoop, SLOT(quit()));
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connect(&socket, SIGNAL(error(QAbstractSocket::SocketError)), &mLoop, SLOT(quit()));
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socket.connectToHost(sender, tcpPort);
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mLoop.exec();
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QVERIFY2(socket.isOpen(), "Socket disconnected immediately");
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socket.write(mIdentityPackage.toLatin1());
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socket.waitForBytesWritten(2000);
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connect(&socket, SIGNAL(encrypted()), &mLoop, SLOT(quit()));
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// We don't take care for sslErrors signal here, but signal will emit still we will get successful connection
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setSocketAttributes(&socket);
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socket.setPeerVerifyMode(QSslSocket::QueryPeer);
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socket.startServerEncryption();
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mLoop.exec();
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QVERIFY2(socket.isValid(), "Server socket disconnected");
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QVERIFY2(socket.isEncrypted(), "Server socket not yet encrypted");
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QVERIFY2(!socket.peerCertificate().isNull(), "Peer certificate is null");
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delete mUdpServer;
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}
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void LanLinkProviderTest::unpairedDeviceUdpPackageReceived()
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{
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mServer = new Server(this);
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mUdpSocket = new QUdpSocket(this);
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mServer->listen(QHostAddress::Any, PORT);
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connect(mServer, SIGNAL(newConnection()), &mLoop, SLOT(quit()));
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qint64 bytesWritten = mUdpSocket->writeDatagram(mIdentityPackage.toLatin1(), QHostAddress::LocalHost, 1714); // write an identity package to udp socket here, we do not broadcast it here
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QCOMPARE(bytesWritten, mIdentityPackage.size());
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// We should have an incoming connection now, wait for incoming connection
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mLoop.exec();
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QSslSocket* serverSocket = mServer->nextPendingConnection();
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QVERIFY2(serverSocket != 0, "Server socket is null");
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QVERIFY2(serverSocket->isOpen(), "Server socket already closed");
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mReader = new SocketLineReader(serverSocket, this);
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connect(mReader, SIGNAL(readyRead()), &mLoop, SLOT(quit()));
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mLoop.exec();
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QByteArray receivedPackage = mReader->readLine();
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QVERIFY2(!receivedPackage.isEmpty(), "Empty package received");
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testIdentityPackage(receivedPackage);
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// Received identity package from LanLinkProvider now start ssl
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connect(serverSocket, SIGNAL(encrypted()), &mLoop, SLOT(quit()));
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connect(serverSocket, SIGNAL(disconnected()), &mLoop, SLOT(quit()));
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setSocketAttributes(serverSocket);
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serverSocket->setPeerVerifyMode(QSslSocket::QueryPeer);
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serverSocket->startClientEncryption(); // Its TCP server. but SSL client
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mLoop.exec();
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QVERIFY2(serverSocket->isValid(), "Server socket disconnected");
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QVERIFY2(serverSocket->isEncrypted(), "Server socket not yet encrypted");
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QVERIFY2(!serverSocket->peerCertificate().isNull(), "Peer certificate is null");
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delete mServer;
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delete mUdpSocket;
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}
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void LanLinkProviderTest::testIdentityPackage(QByteArray &identityPackage)
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{
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QJsonDocument jsonDocument = QJsonDocument::fromJson(identityPackage);
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QJsonObject jsonObject = jsonDocument.object();
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QJsonObject body = jsonObject.value("body").toObject();
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QCOMPARE(jsonObject.value("type").toString(), QString("kdeconnect.identity"));
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QVERIFY2(body.contains("deviceName"), "Device name not found in identity package");
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QVERIFY2(body.contains("deviceId"), "Device id not found in identity package");
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QVERIFY2(body.contains("protocolVersion"), "Protocol version not found in identity package");
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QVERIFY2(body.contains("deviceType"), "Device type not found in identity package");
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}
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QSslCertificate LanLinkProviderTest::generateCertificate(QString& commonName, QCA::PrivateKey& privateKey)
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{
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QDateTime startTime = QDateTime::currentDateTime();
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QDateTime endTime = startTime.addYears(10);
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QCA::CertificateInfo certificateInfo;
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certificateInfo.insert(QCA::CommonName,commonName);
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certificateInfo.insert(QCA::Organization,"KDE");
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certificateInfo.insert(QCA::OrganizationalUnit,"Kde connect");
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QCA::CertificateOptions certificateOptions(QCA::PKCS10);
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certificateOptions.setSerialNumber(10);
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certificateOptions.setInfo(certificateInfo);
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certificateOptions.setValidityPeriod(startTime, endTime);
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certificateOptions.setFormat(QCA::PKCS10);
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QSslCertificate certificate = QSslCertificate(QCA::Certificate(certificateOptions, privateKey).toPEM().toLatin1());
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return certificate;
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}
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void LanLinkProviderTest::setSocketAttributes(QSslSocket *socket) {
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socket->setPrivateKey(QSslKey(privateKey.toPEM().toLatin1(), QSsl::Rsa));
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socket->setLocalCertificate(certificate);
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}
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void LanLinkProviderTest::addTrustedDevice()
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{
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KdeConnectConfig *kcc = KdeConnectConfig::instance();
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kcc->addTrustedDevice(deviceId, name, QString("phone"));
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kcc->setDeviceProperty(deviceId, QString("certificate"), QString::fromLatin1(certificate.toPem()));
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kcc->setDeviceProperty(deviceId, QString("publicKey"), privateKey.toPublicKey().toPEM());
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}
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void LanLinkProviderTest::removeTrustedDevice()
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{
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KdeConnectConfig *kcc = KdeConnectConfig::instance();
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kcc->removeTrustedDevice(deviceId);
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}
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QTEST_GUILESS_MAIN(LanLinkProviderTest)
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#include "lanlinkprovidertest.moc"
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