/**************************************************************************** ** ** 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 Technology Preview License Agreement accompanying ** this package. ** ** 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 1.1, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include "../network-settings.h" class tst_NetworkSelfTest: public QObject { Q_OBJECT public: tst_NetworkSelfTest(); virtual ~tst_NetworkSelfTest(); private slots: void hostTest(); void dnsResolution_data(); void dnsResolution(); void serverReachability(); void remotePortsOpen_data(); void remotePortsOpen(); // specific protocol tests void ftpServer(); void imapServer(); void httpServer(); void httpsServer(); void httpProxy(); void httpProxyBasicAuth(); void httpProxyNtlmAuth(); void socks5Proxy(); void socks5ProxyAuth(); }; class Chat { public: enum Type { Reconnect, Send, Expect, SkipBytes, DiscardUntil, DiscardUntilDisconnect, Disconnect, RemoteDisconnect, StartEncryption }; Chat(Type t, const QByteArray &d) : data(d), type(t) { } Chat(Type t, int val = 0) : value(val), type(t) { } static inline Chat send(const QByteArray &data) { return Chat(Send, data); } static inline Chat expect(const QByteArray &data) { return Chat(Expect, data); } static inline Chat discardUntil(const QByteArray &data) { return Chat(DiscardUntil, data); } static inline Chat skipBytes(int count) { return Chat(SkipBytes, count); } QByteArray data; int value; Type type; }; static QString prettyByteArray(const QByteArray &array) { // any control chars? QString result; result.reserve(array.length() + array.length() / 3); for (int i = 0; i < array.length(); ++i) { char c = array.at(i); switch (c) { case '\n': result += "\\n"; continue; case '\r': result += "\\r"; continue; case '\t': result += "\\t"; continue; case '"': result += "\\\""; continue; default: break; } if (c < 0x20 || uchar(c) >= 0x7f) { result += '\\'; result += QString::number(uchar(c), 8); } else { result += c; } } return result; } static bool doSocketRead(QTcpSocket *socket, int minBytesAvailable, int timeout = 2000) { QTime timer; timer.start(); forever { if (socket->bytesAvailable() >= minBytesAvailable) return true; if (socket->state() == QAbstractSocket::UnconnectedState || timer.elapsed() >= timeout) return false; if (!socket->waitForReadyRead(timeout - timer.elapsed())) return false; } } static bool doSocketFlush(QTcpSocket *socket, int timeout = 2000) { #ifndef QT_NO_OPENSSL QSslSocket *sslSocket = qobject_cast(socket); #endif QTime timer; timer.start(); forever { if (socket->bytesToWrite() == 0 #ifndef QT_NO_OPENSSL && sslSocket->encryptedBytesToWrite() == 0 #endif ) return true; if (socket->state() == QAbstractSocket::UnconnectedState || timer.elapsed() >= timeout) return false; if (!socket->waitForBytesWritten(timeout - timer.elapsed())) return false; } } static void netChat(int port, const QList &chat) { #ifndef QT_NO_OPENSSL QSslSocket socket; #else QTcpSocket socket; #endif socket.connectToHost(QtNetworkSettings::serverName(), port); qDebug() << 0 << "Connecting to server on port" << port; QVERIFY2(socket.waitForConnected(10000), QString("Failed to connect to server in step 0: %1").arg(socket.errorString()).toLocal8Bit()); // now start the chat QList::ConstIterator it = chat.constBegin(); for (int i = 1; it != chat.constEnd(); ++it, ++i) { switch (it->type) { case Chat::Expect: { qDebug() << i << "Expecting" << prettyByteArray(it->data); if (!doSocketRead(&socket, it->data.length())) QFAIL(QString("Failed to receive data in step %1: timeout").arg(i).toLocal8Bit()); // pop that many bytes off the socket QByteArray received = socket.read(it->data.length()); // is it what we expected? QVERIFY2(received == it->data, QString("Did not receive expected data in step %1: data received was:\n%2") .arg(i).arg(prettyByteArray(received)).toLocal8Bit()); break; } case Chat::DiscardUntil: qDebug() << i << "Discarding until" << prettyByteArray(it->data); while (true) { // scan the buffer until we have our string if (!doSocketRead(&socket, it->data.length())) QFAIL(QString("Failed to receive data in step %1: timeout").arg(i).toLocal8Bit()); QByteArray buffer; buffer.resize(socket.bytesAvailable()); socket.peek(buffer.data(), socket.bytesAvailable()); int pos = buffer.indexOf(it->data); if (pos == -1) { // data not found, keep trying continue; } buffer = socket.read(pos + it->data.length()); qDebug() << i << "Discarded" << prettyByteArray(buffer); break; } break; case Chat::SkipBytes: { qDebug() << i << "Skipping" << it->value << "bytes"; if (!doSocketRead(&socket, it->value)) QFAIL(QString("Failed to receive data in step %1: timeout").arg(i).toLocal8Bit()); // now discard the bytes QByteArray buffer = socket.read(it->value); qDebug() << i << "Skipped" << prettyByteArray(buffer); break; } case Chat::Send: { qDebug() << i << "Sending" << prettyByteArray(it->data); socket.write(it->data); if (!doSocketFlush(&socket)) { QVERIFY2(socket.state() == QAbstractSocket::ConnectedState, QString("Socket disconnected while sending data in step %1").arg(i).toLocal8Bit()); QFAIL(QString("Failed to send data in step %1: timeout").arg(i).toLocal8Bit()); } break; } case Chat::Disconnect: qDebug() << i << "Disconnecting from host"; socket.disconnectFromHost(); // is this the last command? if (it + 1 != chat.constEnd()) break; // fall through: case Chat::RemoteDisconnect: case Chat::DiscardUntilDisconnect: qDebug() << i << "Waiting for remote disconnect"; if (socket.state() != QAbstractSocket::UnconnectedState) socket.waitForDisconnected(10000); QVERIFY2(socket.state() == QAbstractSocket::UnconnectedState, QString("Socket did not disconnect as expected in step %1").arg(i).toLocal8Bit()); // any data left? if (it->type == Chat::DiscardUntilDisconnect) { QByteArray buffer = socket.readAll(); qDebug() << i << "Discarded in the process:" << prettyByteArray(buffer); } if (socket.bytesAvailable() != 0) QFAIL(QString("Unexpected bytes still on buffer when disconnecting in step %1:\n%2") .arg(i).arg(prettyByteArray(socket.readAll())).toLocal8Bit()); break; case Chat::Reconnect: qDebug() << i << "Reconnecting to server on port" << port; socket.connectToHost(QtNetworkSettings::serverName(), port); QVERIFY2(socket.waitForConnected(10000), QString("Failed to reconnect to server in step %1: %2").arg(i).arg(socket.errorString()).toLocal8Bit()); break; case Chat::StartEncryption: #ifdef QT_NO_OPENSSL QFAIL("Internal error: SSL required for this test"); #else qDebug() << i << "Starting client encryption"; socket.ignoreSslErrors(); socket.startClientEncryption(); QVERIFY2(socket.waitForEncrypted(5000), QString("Failed to start client encryption in step %1: %2").arg(i) .arg(socket.errorString()).toLocal8Bit()); break; #endif } } } tst_NetworkSelfTest::tst_NetworkSelfTest() { Q_SET_DEFAULT_IAP } tst_NetworkSelfTest::~tst_NetworkSelfTest() { } void tst_NetworkSelfTest::hostTest() { // this is a localhost self-test QHostInfo localhost = QHostInfo::fromName("localhost"); QCOMPARE(localhost.error(), QHostInfo::NoError); QVERIFY(!localhost.addresses().isEmpty()); QTcpServer server; QVERIFY(server.listen()); QTcpSocket socket; socket.connectToHost("127.0.0.1", server.serverPort()); QVERIFY(socket.waitForConnected(10000)); } void tst_NetworkSelfTest::dnsResolution_data() { QTest::addColumn("hostName"); QTest::newRow("local-name") << QtNetworkSettings::serverLocalName(); QTest::newRow("fqdn") << QtNetworkSettings::serverName(); } void tst_NetworkSelfTest::dnsResolution() { QFETCH(QString, hostName); QHostInfo resolved = QHostInfo::fromName(hostName); QVERIFY2(resolved.error() == QHostInfo::NoError, QString("Failed to resolve hostname %1: %2").arg(hostName, resolved.errorString()).toLocal8Bit()); } void tst_NetworkSelfTest::serverReachability() { // check that we get a proper error connecting to port 1 QTcpSocket socket; socket.connectToHost(QtNetworkSettings::serverName(), 1); socket.waitForConnected(10000); QVERIFY2(socket.state() == QAbstractSocket::UnconnectedState, "Socket connected unexpectedly!"); QVERIFY2(socket.error() == QAbstractSocket::ConnectionRefusedError, QString("Could not reach server: %1").arg(socket.errorString()).toLocal8Bit()); } void tst_NetworkSelfTest::remotePortsOpen_data() { QTest::addColumn("portNumber"); QTest::newRow("ftp") << 21; QTest::newRow("ssh") << 22; QTest::newRow("imap") << 143; QTest::newRow("http") << 80; QTest::newRow("https") << 443; QTest::newRow("http-proxy") << 3128; QTest::newRow("http-proxy-auth-basic") << 3129; QTest::newRow("http-proxy-auth-ntlm") << 3130; QTest::newRow("socks5-proxy") << 1080; QTest::newRow("socks5-proxy-auth") << 1081; } void tst_NetworkSelfTest::remotePortsOpen() { #ifdef Q_OS_SYMBIAN if (qstrcmp(QTest::currentDataTag(), "http-proxy-auth-ntlm") == 0) QSKIP("NTML authentication not yet supported in Symbian", SkipSingle); #endif QFETCH(int, portNumber); QTcpSocket socket; socket.connectToHost(QtNetworkSettings::serverName(), portNumber); if (!socket.waitForConnected(10000)) { if (socket.error() == QAbstractSocket::SocketTimeoutError) QFAIL(QString("Network timeout connecting to the server on port %1").arg(portNumber).toLocal8Bit()); else QFAIL(QString("Error connecting to server on port %1: %2").arg(portNumber).arg(socket.errorString()).toLocal8Bit()); } QVERIFY(socket.state() == QAbstractSocket::ConnectedState); } static QList ftpChat() { return QList() << Chat::expect("220") << Chat::discardUntil("\r\n") << Chat::send("USER anonymous\r\n") << Chat::expect("331") << Chat::discardUntil("\r\n") << Chat::send("PASS user@hostname\r\n") << Chat::expect("230") << Chat::discardUntil("\r\n") << Chat::send("QUIT\r\n") << Chat::expect("221") << Chat::discardUntil("\r\n") << Chat::RemoteDisconnect; } void tst_NetworkSelfTest::ftpServer() { netChat(21, ftpChat()); } void tst_NetworkSelfTest::imapServer() { netChat(143, QList() << Chat::expect("* OK ") << Chat::discardUntil("\r\n") << Chat::send("1 CAPABILITY\r\n") << Chat::expect("* CAPABILITY ") << Chat::discardUntil("1 OK") << Chat::discardUntil("\r\n") << Chat::send("2 LOGOUT\r\n") << Chat::discardUntil("2 OK") << Chat::discardUntil("\r\n") << Chat::RemoteDisconnect); } void tst_NetworkSelfTest::httpServer() { netChat(80, QList() // HTTP/0.9 chat: << Chat::send("GET /\r\n") << Chat::DiscardUntilDisconnect // HTTP/1.0 chat: << Chat::Reconnect << Chat::send("GET / HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Connection: close\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::DiscardUntilDisconnect // HTTP/1.0 POST: << Chat::Reconnect << Chat::send("POST / HTTP/1.0\r\n" "Content-Length: 5\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Connection: close\r\n" "\r\n" "Hello") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::DiscardUntilDisconnect ); } void tst_NetworkSelfTest::httpsServer() { #ifndef QT_NO_OPENSSL netChat(443, QList() << Chat::StartEncryption << Chat::send("GET / HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Connection: close\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::DiscardUntilDisconnect); #else QSKIP("SSL not enabled, cannot test", SkipAll); #endif } void tst_NetworkSelfTest::httpProxy() { netChat(3128, QList() // proxy GET << Chat::send("GET http://" + QtNetworkSettings::serverName().toLatin1() + "/ HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Proxy-connection: close\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::DiscardUntilDisconnect // proxy CONNECT << Chat::Reconnect << Chat::send("CONNECT " + QtNetworkSettings::serverName().toLatin1() + ":21 HTTP/1.0\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::discardUntil("\r\n\r\n") << ftpChat()); } void tst_NetworkSelfTest::httpProxyBasicAuth() { netChat(3129, QList() // test auth required response << Chat::send("GET http://" + QtNetworkSettings::serverName().toLatin1() + "/ HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Proxy-connection: close\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("407 ") << Chat::discardUntil("\r\nProxy-Authenticate: Basic realm=\"") << Chat::DiscardUntilDisconnect // now try sending our credentials << Chat::Reconnect << Chat::send("GET http://" + QtNetworkSettings::serverName().toLatin1() + "/ HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Proxy-connection: close\r\n" "Proxy-Authorization: Basic cXNvY2tzdGVzdDpwYXNzd29yZA==\r\n" "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("200 ") << Chat::DiscardUntilDisconnect); } void tst_NetworkSelfTest::httpProxyNtlmAuth() { #ifdef Q_OS_SYMBIAN QSKIP("NTML authentication not yet supported in Symbian", SkipAll); #else netChat(3130, QList() // test auth required response << Chat::send("GET http://" + QtNetworkSettings::serverName().toLatin1() + "/ HTTP/1.0\r\n" "Host: " + QtNetworkSettings::serverName().toLatin1() + "\r\n" "Proxy-connection: keep-alive\r\n" // NTLM auth will disconnect "\r\n") << Chat::expect("HTTP/1.") << Chat::discardUntil(" ") << Chat::expect("407 ") << Chat::discardUntil("\r\nProxy-Authenticate: NTLM\r\n") << Chat::DiscardUntilDisconnect ); #endif } // SOCKSv5 is a binary protocol static const char handshakeNoAuth[] = "\5\1\0"; static const char handshakeOkNoAuth[] = "\5\0"; static const char handshakeAuthPassword[] = "\5\1\2\1\12qsockstest\10password"; static const char handshakeOkPasswdAuth[] = "\5\2\1\0"; static const char handshakeAuthNotOk[] = "\5\377"; static const char connect1[] = "\5\1\0\1\177\0\0\1\0\25"; // Connect IPv4 127.0.0.1 port 21 static const char connect2[] = "\5\1\0\3\11localhost\0\25"; // Connect hostname localhost 21 static const char connected[] = "\5\0\0"; void tst_NetworkSelfTest::socks5Proxy() { netChat(1080, QList() // IP address connection << Chat::send(QByteArray(handshakeNoAuth, -1 + sizeof handshakeNoAuth)) << Chat::expect(QByteArray(handshakeOkNoAuth, -1 + sizeof handshakeOkNoAuth)) << Chat::send(QByteArray(connect1, -1 + sizeof connect1)) << Chat::expect(QByteArray(connected, -1 + sizeof connected)) << Chat::expect("\1") // IPv4 address following << Chat::skipBytes(6) // the server's local address and port << ftpChat() // hostname connection << Chat::Reconnect << Chat::send(QByteArray(handshakeNoAuth, -1 + sizeof handshakeNoAuth)) << Chat::expect(QByteArray(handshakeOkNoAuth, -1 + sizeof handshakeOkNoAuth)) << Chat::send(QByteArray(connect2, -1 + sizeof connect2)) << Chat::expect(QByteArray(connected, -1 + sizeof connected)) << Chat::expect("\1") // IPv4 address following << Chat::skipBytes(6) // the server's local address and port << ftpChat() ); } void tst_NetworkSelfTest::socks5ProxyAuth() { netChat(1081, QList() // unauthenticated connect -- will get error << Chat::send(QByteArray(handshakeNoAuth, -1 + sizeof handshakeNoAuth)) << Chat::expect(QByteArray(handshakeAuthNotOk, -1 + sizeof handshakeAuthNotOk)) << Chat::RemoteDisconnect // now try to connect with authentication << Chat::Reconnect << Chat::send(QByteArray(handshakeAuthPassword, -1 + sizeof handshakeAuthPassword)) << Chat::expect(QByteArray(handshakeOkPasswdAuth, -1 + sizeof handshakeOkPasswdAuth)) << Chat::send(QByteArray(connect1, -1 + sizeof connect1)) << Chat::expect(QByteArray(connected, -1 + sizeof connected)) << Chat::expect("\1") // IPv4 address following << Chat::skipBytes(6) // the server's local address and port << ftpChat() ); } QTEST_MAIN(tst_NetworkSelfTest) #include "tst_networkselftest.moc"