/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://www.qtsoftware.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #ifdef Q_OS_WIN #include #endif #include #include #include #include #include #ifdef Q_OS_UNIX #include #include #include #endif #include #include #include "../network-settings.h" //TESTED_FILES=network/qnativesocketengine.cpp network/qnativesocketengine_p.h network/qnativesocketengine_unix.cpp class tst_QNativeSocketEngine : public QObject { Q_OBJECT public: tst_QNativeSocketEngine(); virtual ~tst_QNativeSocketEngine(); public slots: void init(); void cleanup(); private slots: void construction(); void simpleConnectToIMAP(); void udpLoopbackTest(); void udpIPv6LoopbackTest(); void broadcastTest(); void serverTest(); void udpLoopbackPerformance(); void tcpLoopbackPerformance(); void readWriteBufferSize(); void tooManySockets(); void bind(); void networkError(); void setSocketDescriptor(); void invalidSend(); void receiveUrgentData(); }; tst_QNativeSocketEngine::tst_QNativeSocketEngine() { Q_SET_DEFAULT_IAP } tst_QNativeSocketEngine::~tst_QNativeSocketEngine() { } void tst_QNativeSocketEngine::init() { } void tst_QNativeSocketEngine::cleanup() { } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::construction() { QNativeSocketEngine socketDevice; QVERIFY(!socketDevice.isValid()); // Initialize device QVERIFY(socketDevice.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); QVERIFY(socketDevice.isValid()); QVERIFY(socketDevice.protocol() == QAbstractSocket::IPv4Protocol); QVERIFY(socketDevice.socketType() == QAbstractSocket::TcpSocket); QVERIFY(socketDevice.state() == QAbstractSocket::UnconnectedState); QVERIFY(socketDevice.socketDescriptor() != -1); QVERIFY(socketDevice.localAddress() == QHostAddress()); QVERIFY(socketDevice.localPort() == 0); QVERIFY(socketDevice.peerAddress() == QHostAddress()); QVERIFY(socketDevice.peerPort() == 0); QVERIFY(socketDevice.error() == QAbstractSocket::UnknownSocketError); QTest::ignoreMessage(QtWarningMsg, "QNativeSocketEngine::bytesAvailable() was called in QAbstractSocket::UnconnectedState"); QVERIFY(socketDevice.bytesAvailable() == 0); QTest::ignoreMessage(QtWarningMsg, "QNativeSocketEngine::hasPendingDatagrams() was called in QAbstractSocket::UnconnectedState"); QVERIFY(!socketDevice.hasPendingDatagrams()); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::simpleConnectToIMAP() { QNativeSocketEngine socketDevice; // Initialize device QVERIFY(socketDevice.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); QVERIFY(socketDevice.state() == QAbstractSocket::UnconnectedState); const bool isConnected = socketDevice.connectToHost(QHostAddress(QtNetworkSettings::serverIP()), 143); if (!isConnected) { QVERIFY(socketDevice.state() == QAbstractSocket::ConnectingState); QVERIFY(socketDevice.waitForWrite()); QVERIFY(socketDevice.state() == QAbstractSocket::ConnectedState); } QVERIFY(socketDevice.state() == QAbstractSocket::ConnectedState); QVERIFY(socketDevice.peerAddress() == QHostAddress(QtNetworkSettings::serverIP())); // Wait for the greeting QVERIFY(socketDevice.waitForRead()); // Read the greeting qint64 available = socketDevice.bytesAvailable(); QVERIFY(available > 0); QByteArray array; array.resize(available); QVERIFY(socketDevice.read(array.data(), array.size()) == available); // Check that the greeting is what we expect it to be QCOMPARE(array.constData(), QtNetworkSettings::expectedReplyIMAP().constData()); // Write a logout message QByteArray array2 = "ZZZ LOGOUT\r\n"; QVERIFY(socketDevice.write(array2.data(), array2.size()) == array2.size()); // Wait for the response QVERIFY(socketDevice.waitForRead()); available = socketDevice.bytesAvailable(); QVERIFY(available > 0); array.resize(available); QVERIFY(socketDevice.read(array.data(), array.size()) == available); // Check that the greeting is what we expect it to be QCOMPARE(array.constData(), "* BYE LOGOUT received\r\n" "ZZZ OK Completed\r\n"); // Wait for the response QVERIFY(socketDevice.waitForRead()); char c; QVERIFY(socketDevice.read(&c, sizeof(c)) == -1); QVERIFY(socketDevice.error() == QAbstractSocket::RemoteHostClosedError); QVERIFY(socketDevice.state() == QAbstractSocket::UnconnectedState); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::udpLoopbackTest() { #ifdef SYMBIAN_WINSOCK_CONNECTIVITY QSKIP("Not working on Emulator without WinPCAP", SkipAll); #endif QNativeSocketEngine udpSocket; // Initialize device #1 QVERIFY(udpSocket.initialize(QAbstractSocket::UdpSocket)); QVERIFY(udpSocket.isValid()); QVERIFY(udpSocket.socketDescriptor() != -1); QVERIFY(udpSocket.protocol() == QAbstractSocket::IPv4Protocol); QVERIFY(udpSocket.socketType() == QAbstractSocket::UdpSocket); QVERIFY(udpSocket.state() == QAbstractSocket::UnconnectedState); // Bind #1 to localhost QVERIFY(udpSocket.bind(QHostAddress("127.0.0.1"), 0)); QVERIFY(udpSocket.state() == QAbstractSocket::BoundState); quint16 port = udpSocket.localPort(); QVERIFY(port != 0); // Initialize device #2 QNativeSocketEngine udpSocket2; QVERIFY(udpSocket2.initialize(QAbstractSocket::UdpSocket)); // Connect device #2 to #1 QVERIFY(udpSocket2.connectToHost(QHostAddress("127.0.0.1"), port)); QVERIFY(udpSocket2.state() == QAbstractSocket::ConnectedState); // Write a message to #1 QByteArray message1 = "hei der"; QVERIFY(udpSocket2.write(message1.data(), message1.size()) == message1.size()); // Read the message from #2 QVERIFY(udpSocket.waitForRead()); QVERIFY(udpSocket.hasPendingDatagrams()); qint64 available = udpSocket.pendingDatagramSize(); QVERIFY(available > 0); QByteArray answer; answer.resize(available); QHostAddress senderAddress; quint16 senderPort = 0; QVERIFY(udpSocket.readDatagram(answer.data(), answer.size(), &senderAddress, &senderPort) == message1.size()); QVERIFY(senderAddress == QHostAddress("127.0.0.1")); QVERIFY(senderPort != 0); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::udpIPv6LoopbackTest() { #if defined(Q_OS_SYMBIAN) QSKIP("Symbian: IPv6 is not yet supported", SkipAll); #endif QNativeSocketEngine udpSocket; // Initialize device #1 bool init = udpSocket.initialize(QAbstractSocket::UdpSocket, QAbstractSocket::IPv6Protocol); if (!init) { QVERIFY(udpSocket.error() == QAbstractSocket::UnsupportedSocketOperationError); } else { QVERIFY(udpSocket.protocol() == QAbstractSocket::IPv6Protocol); // Bind #1 to localhost QVERIFY(udpSocket.bind(QHostAddress("::1"), 0)); QVERIFY(udpSocket.state() == QAbstractSocket::BoundState); quint16 port = udpSocket.localPort(); QVERIFY(port != 0); // Initialize device #2 QNativeSocketEngine udpSocket2; QVERIFY(udpSocket2.initialize(QAbstractSocket::UdpSocket, QAbstractSocket::IPv6Protocol)); // Connect device #2 to #1 QVERIFY(udpSocket2.connectToHost(QHostAddress("::1"), port)); QVERIFY(udpSocket2.state() == QAbstractSocket::ConnectedState); // Write a message to #1 QByteArray message1 = "hei der"; QVERIFY(udpSocket2.write(message1.data(), message1.size()) == message1.size()); // Read the message from #2 QVERIFY(udpSocket.waitForRead()); QVERIFY(udpSocket.hasPendingDatagrams()); qint64 available = udpSocket.pendingDatagramSize(); QVERIFY(available > 0); QByteArray answer; answer.resize(available); QHostAddress senderAddress; quint16 senderPort = 0; QVERIFY(udpSocket.readDatagram(answer.data(), answer.size(), &senderAddress, &senderPort) == message1.size()); QVERIFY(senderAddress == QHostAddress("::1")); QVERIFY(senderPort != 0); } } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::broadcastTest() { #ifdef Q_OS_AIX QSKIP("Broadcast does not work on darko", SkipAll); #endif QNativeSocketEngine broadcastSocket; // Initialize a regular Udp socket QVERIFY(broadcastSocket.initialize(QAbstractSocket::UdpSocket)); // Bind to any port on all interfaces QVERIFY(broadcastSocket.bind(QHostAddress::Any, 0)); QVERIFY(broadcastSocket.state() == QAbstractSocket::BoundState); quint16 port = broadcastSocket.localPort(); QVERIFY(port > 0); // Broadcast an inappropriate troll message QByteArray trollMessage = "MOOT wtf is a MOOT? talk english not your sutpiD ENGLISH."; QVERIFY(broadcastSocket.writeDatagram(trollMessage.data(), trollMessage.size(), QHostAddress::Broadcast, port) == trollMessage.size()); // Wait until we receive it ourselves #if defined(Q_OS_FREEBSD) QEXPECT_FAIL("", "Broadcasting to 255.255.255.255 does not work on FreeBSD", Abort); #endif QVERIFY(broadcastSocket.waitForRead()); QVERIFY(broadcastSocket.hasPendingDatagrams()); qlonglong available = broadcastSocket.pendingDatagramSize(); QByteArray response; response.resize(available); QVERIFY(broadcastSocket.readDatagram(response.data(), response.size()) == response.size()); QCOMPARE(response, trollMessage); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::serverTest() { QNativeSocketEngine server; // Initialize a Tcp socket QVERIFY(server.initialize(QAbstractSocket::TcpSocket)); // Bind to any port on all interfaces QVERIFY(server.bind(QHostAddress("0.0.0.0"), 0)); QVERIFY(server.state() == QAbstractSocket::BoundState); quint16 port = server.localPort(); // Listen for incoming connections QVERIFY(server.listen()); QVERIFY(server.state() == QAbstractSocket::ListeningState); // Initialize a Tcp socket QNativeSocketEngine client; QVERIFY(client.initialize(QAbstractSocket::TcpSocket)); if (!client.connectToHost(QHostAddress("127.0.0.1"), port)) { QVERIFY(client.state() == QAbstractSocket::ConnectingState); QVERIFY(client.waitForWrite()); QVERIFY(client.state() == QAbstractSocket::ConnectedState); } // The server accepts the connection int socketDescriptor = server.accept(); QVERIFY(socketDescriptor > 0); // A socket device is initialized on the server side, passing the // socket descriptor from accept(). It's pre-connected. QNativeSocketEngine serverSocket; QVERIFY(serverSocket.initialize(socketDescriptor)); QVERIFY(serverSocket.state() == QAbstractSocket::ConnectedState); // The server socket sends a greeting to the clietn QByteArray greeting = "Greetings!"; QVERIFY(serverSocket.write(greeting.data(), greeting.size()) == greeting.size()); // The client waits for the greeting to arrive QVERIFY(client.waitForRead()); qint64 available = client.bytesAvailable(); QVERIFY(available > 0); // The client reads the greeting and checks that it's correct QByteArray response; response.resize(available); QVERIFY(client.read(response.data(), response.size()) == response.size()); QCOMPARE(response, greeting); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::udpLoopbackPerformance() { #ifdef SYMBIAN_WINSOCK_CONNECTIVITY QSKIP("Not working on Emulator without WinPCAP", SkipAll); #endif QNativeSocketEngine udpSocket; // Initialize device #1 QVERIFY(udpSocket.initialize(QAbstractSocket::UdpSocket)); QVERIFY(udpSocket.isValid()); QVERIFY(udpSocket.socketDescriptor() != -1); QVERIFY(udpSocket.protocol() == QAbstractSocket::IPv4Protocol); QVERIFY(udpSocket.socketType() == QAbstractSocket::UdpSocket); QVERIFY(udpSocket.state() == QAbstractSocket::UnconnectedState); // Bind #1 to localhost QVERIFY(udpSocket.bind(QHostAddress("127.0.0.1"), 0)); QVERIFY(udpSocket.state() == QAbstractSocket::BoundState); quint16 port = udpSocket.localPort(); QVERIFY(port != 0); // Initialize device #2 QNativeSocketEngine udpSocket2; QVERIFY(udpSocket2.initialize(QAbstractSocket::UdpSocket)); // Connect device #2 to #1 QVERIFY(udpSocket2.connectToHost(QHostAddress("127.0.0.1"), port)); QVERIFY(udpSocket2.state() == QAbstractSocket::ConnectedState); const int messageSize = 8192; QByteArray message1(messageSize, '@'); QByteArray answer(messageSize, '@'); QHostAddress localhost = QHostAddress::LocalHost; qlonglong readBytes = 0; QTime timer; timer.start(); while (timer.elapsed() < 5000) { udpSocket2.write(message1.data(), message1.size()); udpSocket.waitForRead(); while (udpSocket.hasPendingDatagrams()) { readBytes += (qlonglong) udpSocket.readDatagram(answer.data(), answer.size()); } } qDebug("\t\t%.1fMB/%.1fs: %.1fMB/s", readBytes / (1024.0 * 1024.0), timer.elapsed() / 1024.0, (readBytes / (timer.elapsed() / 1000.0)) / (1024 * 1024)); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::tcpLoopbackPerformance() { QNativeSocketEngine server; // Initialize a Tcp socket QVERIFY(server.initialize(QAbstractSocket::TcpSocket)); // Bind to any port on all interfaces QVERIFY(server.bind(QHostAddress("0.0.0.0"), 0)); QVERIFY(server.state() == QAbstractSocket::BoundState); quint16 port = server.localPort(); // Listen for incoming connections QVERIFY(server.listen()); QVERIFY(server.state() == QAbstractSocket::ListeningState); // Initialize a Tcp socket QNativeSocketEngine client; QVERIFY(client.initialize(QAbstractSocket::TcpSocket)); // Connect to our server if (!client.connectToHost(QHostAddress("127.0.0.1"), port)) { QVERIFY(client.state() == QAbstractSocket::ConnectingState); QVERIFY(client.waitForWrite()); QVERIFY(client.state() == QAbstractSocket::ConnectedState); } // The server accepts the connectio int socketDescriptor = server.accept(); QVERIFY(socketDescriptor > 0); // A socket device is initialized on the server side, passing the // socket descriptor from accept(). It's pre-connected. QNativeSocketEngine serverSocket; QVERIFY(serverSocket.initialize(socketDescriptor)); QVERIFY(serverSocket.state() == QAbstractSocket::ConnectedState); const int messageSize = 1024 * 256; QByteArray message1(messageSize, '@'); QByteArray answer(messageSize, '@'); QTime timer; timer.start(); qlonglong readBytes = 0; while (timer.elapsed() < 5000) { qlonglong written = serverSocket.write(message1.data(), message1.size()); while (written > 0) { client.waitForRead(); if (client.bytesAvailable() > 0) { qlonglong readNow = client.read(answer.data(), answer.size()); written -= readNow; readBytes += readNow; } } } qDebug("\t\t%.1fMB/%.1fs: %.1fMB/s", readBytes / (1024.0 * 1024.0), timer.elapsed() / 1024.0, (readBytes / (timer.elapsed() / 1000.0)) / (1024 * 1024)); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::readWriteBufferSize() { QNativeSocketEngine device; QVERIFY(device.initialize(QAbstractSocket::TcpSocket)); qint64 bufferSize = device.receiveBufferSize(); QVERIFY(bufferSize != -1); device.setReceiveBufferSize(bufferSize + 1); #if defined(Q_OS_WINCE) QEXPECT_FAIL(0, "Not supported by default on WinCE", Continue); #endif QVERIFY(device.receiveBufferSize() > bufferSize); bufferSize = device.sendBufferSize(); QVERIFY(bufferSize != -1); device.setSendBufferSize(bufferSize + 1); QVERIFY(device.sendBufferSize() > bufferSize); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::tooManySockets() { #if defined Q_OS_WIN QSKIP("Certain windows machines suffocate and spend too much time in this test.", SkipAll); #endif QList sockets; QNativeSocketEngine *socketLayer = 0; for (;;) { socketLayer = new QNativeSocketEngine; sockets.append(socketLayer); if (!socketLayer->initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)) break; } QCOMPARE(socketLayer->error(), QAbstractSocket::SocketResourceError); qDeleteAll(sockets); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::bind() { #if !defined Q_OS_WIN && !defined Q_OS_SYMBIAN QNativeSocketEngine binder; QVERIFY(binder.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); QVERIFY(!binder.bind(QHostAddress::Any, 82)); QVERIFY(binder.error() == QAbstractSocket::SocketAccessError); #endif QNativeSocketEngine binder2; QVERIFY(binder2.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); QVERIFY(binder2.bind(QHostAddress::Any, 31180)); QNativeSocketEngine binder3; QVERIFY(binder3.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); QVERIFY(!binder3.bind(QHostAddress::Any, 31180)); #ifdef SYMBIAN_WINSOCK_CONNECTIVITY qDebug("On Symbian Emulator (WinSock) we get EADDRNOTAVAIL instead of EADDRINUSE"); QVERIFY(binder3.error() == QAbstractSocket::SocketAddressNotAvailableError); #else QVERIFY(binder3.error() == QAbstractSocket::AddressInUseError); #endif } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::networkError() { QNativeSocketEngine client; QVERIFY(client.initialize(QAbstractSocket::TcpSocket, QAbstractSocket::IPv4Protocol)); const bool isConnected = client.connectToHost(QHostAddress(QtNetworkSettings::serverIP()), 143); if (!isConnected) { QVERIFY(client.state() == QAbstractSocket::ConnectingState); QVERIFY(client.waitForWrite()); QVERIFY(client.state() == QAbstractSocket::ConnectedState); } QVERIFY(client.state() == QAbstractSocket::ConnectedState); // An unexpected network error! #ifdef Q_OS_WIN // could use shutdown to produce different errors ::closesocket(client.socketDescriptor()); #else ::close(client.socketDescriptor()); #endif QVERIFY(client.read(0, 0) == -1); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::setSocketDescriptor() { QNativeSocketEngine socket1; QVERIFY(socket1.initialize(QAbstractSocket::TcpSocket)); QNativeSocketEngine socket2; QVERIFY(socket2.initialize(socket1.socketDescriptor())); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::invalidSend() { QNativeSocketEngine socket; QVERIFY(socket.initialize(QAbstractSocket::TcpSocket)); QTest::ignoreMessage(QtWarningMsg, "QNativeSocketEngine::writeDatagram() was" " called by a socket other than QAbstractSocket::UdpSocket"); QCOMPARE(socket.writeDatagram("hei", 3, QHostAddress::LocalHost, 143), (qlonglong) -1); } //--------------------------------------------------------------------------- void tst_QNativeSocketEngine::receiveUrgentData() { QNativeSocketEngine server; QVERIFY(server.initialize(QAbstractSocket::TcpSocket)); // Bind to any port on all interfaces QVERIFY(server.bind(QHostAddress("0.0.0.0"), 0)); QVERIFY(server.state() == QAbstractSocket::BoundState); quint16 port = server.localPort(); QVERIFY(server.listen()); QVERIFY(server.state() == QAbstractSocket::ListeningState); QNativeSocketEngine client; QVERIFY(client.initialize(QAbstractSocket::TcpSocket)); if (!client.connectToHost(QHostAddress("127.0.0.1"), port)) { QVERIFY(client.state() == QAbstractSocket::ConnectingState); QVERIFY(client.waitForWrite()); QVERIFY(client.state() == QAbstractSocket::ConnectedState); } int socketDescriptor = server.accept(); QVERIFY(socketDescriptor > 0); QNativeSocketEngine serverSocket; QVERIFY(serverSocket.initialize(socketDescriptor)); QVERIFY(serverSocket.state() == QAbstractSocket::ConnectedState); char msg; int available; QByteArray response; #if defined Q_OS_HPUX QSKIP("Native OOB data test doesn't work on HP-UX.", SkipAll); #elif defined (Q_OS_WINCE) QSKIP("Native OOB data test doesn't work on WinCE.", SkipAll); #endif // The server sends an urgent message msg = 'Q'; QCOMPARE(int(::send(socketDescriptor, &msg, sizeof(msg), MSG_OOB)), 1); // The client receives the urgent message QVERIFY(client.waitForRead()); available = client.bytesAvailable(); QCOMPARE(available, 1); response.resize(available); QCOMPARE(client.read(response.data(), response.size()), qint64(1)); QCOMPARE(response.at(0), msg); // The client sends an urgent message msg = 'T'; int clientDescriptor = client.socketDescriptor(); QCOMPARE(int(::send(clientDescriptor, &msg, sizeof(msg), MSG_OOB)), 1); // The server receives the urgent message QVERIFY(serverSocket.waitForRead()); available = serverSocket.bytesAvailable(); QCOMPARE(available, 1); response.resize(available); QCOMPARE(serverSocket.read(response.data(), response.size()), qint64(1)); QCOMPARE(response.at(0), msg); } QTEST_MAIN(tst_QNativeSocketEngine) #include "tst_qnativesocketengine.moc"