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|
/****************************************************************************
**
** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** 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 <QtTest/QtTest>
#include <qcoreapplication.h>
#include <qfileinfo.h>
#include <qdatastream.h>
#include <qudpsocket.h>
#include <qhostaddress.h>
#include <qhostinfo.h>
#include <qmap.h>
#include <QNetworkProxy>
#include <QNetworkInterface>
#include <qstringlist.h>
#include "../network-settings.h"
Q_DECLARE_METATYPE(QHostAddress)
Q_DECLARE_METATYPE(QNetworkInterface)
//TESTED_CLASS=
//TESTED_FILES=
QT_FORWARD_DECLARE_CLASS(QUdpSocket)
class tst_QUdpSocket : public QObject
{
Q_OBJECT
public:
tst_QUdpSocket();
virtual ~tst_QUdpSocket();
public slots:
void initTestCase_data();
void init();
void cleanup();
private slots:
void constructing();
void unconnectedServerAndClientTest();
void broadcasting();
void loop_data();
void loop();
void ipv6Loop_data();
void ipv6Loop();
void readLine();
void pendingDatagramSize();
void writeDatagram();
void performance();
void bindMode();
void writeDatagramToNonExistingPeer_data();
void writeDatagramToNonExistingPeer();
void writeToNonExistingPeer_data();
void writeToNonExistingPeer();
void outOfProcessConnectedClientServerTest();
void outOfProcessUnconnectedClientServerTest();
void zeroLengthDatagram();
void multicastTtlOption_data();
void multicastTtlOption();
void multicastLoopbackOption_data();
void multicastLoopbackOption();
void multicastJoinBeforeBind_data();
void multicastJoinBeforeBind();
void multicastLeaveAfterClose_data();
void multicastLeaveAfterClose();
void setMulticastInterface_data();
void setMulticastInterface();
void multicast_data();
void multicast();
protected slots:
void empty_readyReadSlot();
void empty_connectedSlot();
};
tst_QUdpSocket::tst_QUdpSocket()
{
Q_SET_DEFAULT_IAP
}
tst_QUdpSocket::~tst_QUdpSocket()
{
}
void tst_QUdpSocket::initTestCase_data()
{
QTest::addColumn<bool>("setProxy");
QTest::addColumn<int>("proxyType");
QTest::newRow("WithoutProxy") << false << 0;
QTest::newRow("WithSocks5Proxy") << true << int(QNetworkProxy::Socks5Proxy);
}
void tst_QUdpSocket::init()
{
QFETCH_GLOBAL(bool, setProxy);
if (setProxy) {
QFETCH_GLOBAL(int, proxyType);
if (proxyType == QNetworkProxy::Socks5Proxy) {
QNetworkProxy::setApplicationProxy(QNetworkProxy(QNetworkProxy::Socks5Proxy, QtNetworkSettings::serverName(), 1080));
}
}
}
void tst_QUdpSocket::cleanup()
{
QNetworkProxy::setApplicationProxy(QNetworkProxy::DefaultProxy);
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::constructing()
{
QUdpSocket socket;
QVERIFY(socket.isSequential());
QVERIFY(!socket.isOpen());
QVERIFY(socket.socketType() == QUdpSocket::UdpSocket);
QCOMPARE((int) socket.bytesAvailable(), 0);
QCOMPARE(socket.canReadLine(), false);
QCOMPARE(socket.readLine(), QByteArray());
QCOMPARE(socket.socketDescriptor(), -1);
QCOMPARE(socket.error(), QUdpSocket::UnknownSocketError);
QCOMPARE(socket.errorString(), QString("Unknown error"));
// Check the state of the socket api
}
void tst_QUdpSocket::unconnectedServerAndClientTest()
{
QUdpSocket serverSocket;
qRegisterMetaType<QAbstractSocket::SocketState>("QAbstractSocket::SocketState");
QSignalSpy stateChangedSpy(&serverSocket, SIGNAL(stateChanged(QAbstractSocket::SocketState)));
QVERIFY2(serverSocket.bind(), serverSocket.errorString().toLatin1().constData());
QCOMPARE(stateChangedSpy.count(), 1);
const char *message[] = {"Yo mista", "Yo", "Wassap"};
QHostAddress serverAddress = QHostAddress::LocalHost;
if (!(serverSocket.localAddress() == QHostAddress::Any))
serverAddress = serverSocket.localAddress();
for (int i = 0; i < 3; ++i) {
QUdpSocket clientSocket;
QCOMPARE(int(clientSocket.writeDatagram(message[i], strlen(message[i]),
serverAddress, serverSocket.localPort())),
int(strlen(message[i])));
char buf[1024];
QHostAddress host;
quint16 port;
QVERIFY(serverSocket.waitForReadyRead(5000));
QCOMPARE(int(serverSocket.readDatagram(buf, sizeof(buf), &host, &port)),
int(strlen(message[i])));
buf[strlen(message[i])] = '\0';
QCOMPARE(QByteArray(buf), QByteArray(message[i]));
}
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::broadcasting()
{
QFETCH_GLOBAL(bool, setProxy);
if (setProxy) {
QFETCH_GLOBAL(int, proxyType);
if (proxyType == QNetworkProxy::Socks5Proxy) {
QSKIP("With socks5 Broadcast is not supported.", SkipSingle);
}
}
#ifdef Q_OS_AIX
QSKIP("Broadcast does not work on darko", SkipAll);
#endif
const char *message[] = {"Yo mista", "", "Yo", "Wassap"};
for (int i = 0; i < 4; ++i) {
QUdpSocket serverSocket;
QVERIFY2(serverSocket.bind(QHostAddress::Any, 5000), serverSocket.errorString().toLatin1().constData());
QCOMPARE(serverSocket.state(), QUdpSocket::BoundState);
connect(&serverSocket, SIGNAL(readyRead()), SLOT(empty_readyReadSlot()));
QUdpSocket broadcastSocket;
for (int j = 0; j < 100; ++j) {
broadcastSocket.writeDatagram(message[i], strlen(message[i]),
QHostAddress::Broadcast, 5000);
QTestEventLoop::instance().enterLoop(15);
if (QTestEventLoop::instance().timeout()) {
#if defined(Q_OS_FREEBSD)
QEXPECT_FAIL("",
"Broadcasting to 255.255.255.255 does not work on FreeBSD",
Abort);
QVERIFY(false); // seems that QFAIL() doesn't respect the QEXPECT_FAIL() :/
#endif
QFAIL("Network operation timed out");
}
QVERIFY(serverSocket.hasPendingDatagrams());
do {
QByteArray arr; arr.resize(serverSocket.pendingDatagramSize() + 1);
QHostAddress host;
quint16 port;
QCOMPARE((int) serverSocket.readDatagram(arr.data(), arr.size() - 1, &host, &port),
(int) strlen(message[i]));
arr.resize(strlen(message[i]));
QCOMPARE(arr, QByteArray(message[i]));
} while (serverSocket.hasPendingDatagrams());
}
}
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::loop_data()
{
QTest::addColumn<QByteArray>("peterMessage");
QTest::addColumn<QByteArray>("paulMessage");
QTest::addColumn<bool>("success");
QTest::newRow("\"Almond!\" | \"Joy!\"") << QByteArray("Almond!") << QByteArray("Joy!") << true;
QTest::newRow("\"A\" | \"B\"") << QByteArray("A") << QByteArray("B") << true;
QTest::newRow("\"AB\" | \"B\"") << QByteArray("AB") << QByteArray("B") << true;
QTest::newRow("\"AB\" | \"BB\"") << QByteArray("AB") << QByteArray("BB") << true;
QTest::newRow("\"A\\0B\" | \"B\\0B\"") << QByteArray::fromRawData("A\0B", 3) << QByteArray::fromRawData("B\0B", 3) << true;
QTest::newRow("\"(nil)\" | \"(nil)\"") << QByteArray() << QByteArray() << true;
QTest::newRow("Bigmessage") << QByteArray(600, '@') << QByteArray(600, '@') << true;
}
void tst_QUdpSocket::loop()
{
QFETCH(QByteArray, peterMessage);
QFETCH(QByteArray, paulMessage);
QFETCH(bool, success);
QUdpSocket peter;
QUdpSocket paul;
QVERIFY2(peter.bind(), peter.errorString().toLatin1().constData());
QVERIFY2(paul.bind(), paul.errorString().toLatin1().constData());
QHostAddress peterAddress = QHostAddress::LocalHost;
if (!(peter.localAddress() == QHostAddress::Any))
peterAddress = peter.localAddress();
QHostAddress pualAddress = QHostAddress::LocalHost;
if (!(paul.localAddress() == QHostAddress::Any))
pualAddress = paul.localAddress();
QCOMPARE(peter.writeDatagram(peterMessage.data(), peterMessage.length(),
pualAddress, paul.localPort()), qint64(peterMessage.length()));
QCOMPARE(paul.writeDatagram(paulMessage.data(), paulMessage.length(),
peterAddress, peter.localPort()), qint64(paulMessage.length()));
QVERIFY(peter.waitForReadyRead(9000));
QVERIFY(paul.waitForReadyRead(9000));
char peterBuffer[16*1024];
char paulBuffer[16*1024];
if (success) {
QCOMPARE(peter.readDatagram(peterBuffer, sizeof(peterBuffer)), qint64(paulMessage.length()));
QCOMPARE(paul.readDatagram(paulBuffer, sizeof(peterBuffer)), qint64(peterMessage.length()));
} else {
QVERIFY(peter.readDatagram(peterBuffer, sizeof(peterBuffer)) != paulMessage.length());
QVERIFY(paul.readDatagram(paulBuffer, sizeof(peterBuffer)) != peterMessage.length());
}
QCOMPARE(QByteArray(peterBuffer, paulMessage.length()), paulMessage);
QCOMPARE(QByteArray(paulBuffer, peterMessage.length()), peterMessage);
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::ipv6Loop_data()
{
loop_data();
}
void tst_QUdpSocket::ipv6Loop()
{
#if defined(Q_OS_SYMBIAN)
QSKIP("Symbian IPv6 is not yet supported", SkipAll);
#endif
QFETCH(QByteArray, peterMessage);
QFETCH(QByteArray, paulMessage);
QFETCH(bool, success);
QUdpSocket peter;
QUdpSocket paul;
quint16 peterPort = 28124;
quint16 paulPort = 28123;
if (!peter.bind(QHostAddress::LocalHostIPv6, peterPort)) {
QCOMPARE(peter.error(), QUdpSocket::UnsupportedSocketOperationError);
} else {
QVERIFY(paul.bind(QHostAddress::LocalHostIPv6, paulPort));
QCOMPARE(peter.writeDatagram(peterMessage.data(), peterMessage.length(), QHostAddress("::1"),
paulPort), qint64(peterMessage.length()));
QCOMPARE(paul.writeDatagram(paulMessage.data(), paulMessage.length(),
QHostAddress("::1"), peterPort), qint64(paulMessage.length()));
char peterBuffer[16*1024];
char paulBuffer[16*1024];
#if !defined(Q_OS_WINCE)
QVERIFY(peter.waitForReadyRead(5000));
QVERIFY(paul.waitForReadyRead(5000));
#else
QVERIFY(peter.waitForReadyRead(15000));
QVERIFY(paul.waitForReadyRead(15000));
#endif
if (success) {
QCOMPARE(peter.readDatagram(peterBuffer, sizeof(peterBuffer)), qint64(paulMessage.length()));
QCOMPARE(paul.readDatagram(paulBuffer, sizeof(peterBuffer)), qint64(peterMessage.length()));
} else {
QVERIFY(peter.readDatagram(peterBuffer, sizeof(peterBuffer)) != paulMessage.length());
QVERIFY(paul.readDatagram(paulBuffer, sizeof(peterBuffer)) != peterMessage.length());
}
QCOMPARE(QByteArray(peterBuffer, paulMessage.length()), paulMessage);
QCOMPARE(QByteArray(paulBuffer, peterMessage.length()), peterMessage);
}
}
void tst_QUdpSocket::empty_readyReadSlot()
{
QTestEventLoop::instance().exitLoop();
}
void tst_QUdpSocket::empty_connectedSlot()
{
QTestEventLoop::instance().exitLoop();
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::readLine()
{
QUdpSocket socket1;
QVERIFY2(socket1.bind(), socket1.errorString().toLatin1().constData());
QUdpSocket socket2;
socket2.connectToHost("127.0.0.1", socket1.localPort());
QVERIFY(socket2.waitForConnected(5000));
}
//----------------------------------------------------------------------------------
void tst_QUdpSocket::pendingDatagramSize()
{
QUdpSocket server;
QVERIFY2(server.bind(), server.errorString().toLatin1().constData());
QHostAddress serverAddress = QHostAddress::LocalHost;
if (!(server.localAddress() == QHostAddress::Any))
serverAddress = server.localAddress();
QUdpSocket client;
QVERIFY(client.writeDatagram("this is", 7, serverAddress, server.localPort()) == 7);
QVERIFY(client.writeDatagram(0, 0, serverAddress, server.localPort()) == 0);
QVERIFY(client.writeDatagram("3 messages", 10, serverAddress, server.localPort()) == 10);
char c = 0;
QVERIFY(server.waitForReadyRead());
if (server.hasPendingDatagrams()) {
#if defined Q_OS_HPUX && defined __ia64
QEXPECT_FAIL("", "HP-UX 11i v2 can't determine the datagram size correctly.", Abort);
#endif
QCOMPARE(server.pendingDatagramSize(), qint64(7));
c = '\0';
QCOMPARE(server.readDatagram(&c, 1), qint64(1));
QCOMPARE(c, 't');
c = '\0';
} else {
QSKIP("does not have the 1st datagram", SkipSingle);
}
if (server.hasPendingDatagrams()) {
QCOMPARE(server.pendingDatagramSize(), qint64(0));
QCOMPARE(server.readDatagram(&c, 1), qint64(0));
QCOMPARE(c, '\0'); // untouched
c = '\0';
} else {
QSKIP("does not have the 2nd datagram", SkipSingle);
}
if (server.hasPendingDatagrams()) {
QCOMPARE(server.pendingDatagramSize(), qint64(10));
QCOMPARE(server.readDatagram(&c, 1), qint64(1));
QCOMPARE(c, '3');
} else {
QSKIP("does not have the 3rd datagram", SkipSingle);
}
}
void tst_QUdpSocket::writeDatagram()
{
QUdpSocket server;
QVERIFY2(server.bind(), server.errorString().toLatin1().constData());
QHostAddress serverAddress = QHostAddress::LocalHost;
if (!(server.localAddress() == QHostAddress::Any))
serverAddress = server.localAddress();
QUdpSocket client;
qRegisterMetaType<qint64>("qint64");
qRegisterMetaType<QAbstractSocket::SocketError>("QAbstractSocket::SocketError");
for(int i=0;;i++) {
QSignalSpy errorspy(&client, SIGNAL(error(QAbstractSocket::SocketError)));
QSignalSpy bytesspy(&client, SIGNAL(bytesWritten(qint64)));
qint64 written = client.writeDatagram(QByteArray(i * 1024, 'w'), serverAddress,
server.localPort());
if (written != i * 1024) {
#if defined (Q_OS_HPUX)
QSKIP("HP-UX 11.11 on hai (PA-RISC 64) truncates too long datagrams.", SkipSingle);
#endif
QCOMPARE(bytesspy.count(), 0);
QCOMPARE(errorspy.count(), 1);
QCOMPARE(*static_cast<const int *>(errorspy.at(0).at(0).constData()),
int(QUdpSocket::DatagramTooLargeError));
QCOMPARE(client.error(), QUdpSocket::DatagramTooLargeError);
break;
}
QVERIFY(bytesspy.count() == 1);
QCOMPARE(*static_cast<const qint64 *>(bytesspy.at(0).at(0).constData()),
qint64(i * 1024));
QCOMPARE(errorspy.count(), 0);
if (!server.waitForReadyRead(5000))
QSKIP(QString("UDP packet lost at size %1, unable to complete the test.").arg(i * 1024).toLatin1().data(), SkipSingle);
QCOMPARE(server.pendingDatagramSize(), qint64(i * 1024));
QCOMPARE(server.readDatagram(0, 0), qint64(0));
}
}
void tst_QUdpSocket::performance()
{
#if defined(Q_OS_SYMBIAN)
// Large packets seems not to go through on Symbian
// Reason might be also fragmentation due to VPN connection etc
QFETCH_GLOBAL(bool, setProxy);
QFETCH_GLOBAL(int, proxyType);
int arrSize = 8192;
if (setProxy && proxyType == QNetworkProxy::Socks5Proxy)
arrSize = 1024;
QByteArray arr(arrSize, '@');
#else
QByteArray arr(8192, '@');
#endif // Q_OS_SYMBIAN
QUdpSocket server;
QVERIFY2(server.bind(), server.errorString().toLatin1().constData());
QHostAddress serverAddress = QHostAddress::LocalHost;
if (!(server.localAddress() == QHostAddress::Any))
serverAddress = server.localAddress();
QUdpSocket client;
client.connectToHost(serverAddress, server.localPort());
QTime stopWatch;
stopWatch.start();
qint64 nbytes = 0;
while (stopWatch.elapsed() < 5000) {
for (int i = 0; i < 100; ++i) {
if (client.write(arr.data(), arr.size()) > 0) {
do {
nbytes += server.readDatagram(arr.data(), arr.size());
} while (server.hasPendingDatagrams());
}
}
}
float secs = stopWatch.elapsed() / 1000.0;
qDebug("\t%.2fMB/%.2fs: %.2fMB/s", float(nbytes / (1024.0*1024.0)),
secs, float(nbytes / (1024.0*1024.0)) / secs);
#if defined(Q_OS_SYMBIAN)
if(nbytes == 0) {
qDebug("No bytes passed through local UDP socket, since UDP socket write returns EWOULDBLOCK");
qDebug("Should try with blocking sockets, but it is not currently possible due to Open C defect");
}
#endif
}
void tst_QUdpSocket::bindMode()
{
QFETCH_GLOBAL(bool, setProxy);
if (setProxy) {
QFETCH_GLOBAL(int, proxyType);
if (proxyType == QNetworkProxy::Socks5Proxy) {
QSKIP("With socks5 explicit port binding is not supported.", SkipAll);
}
}
QUdpSocket socket;
QVERIFY2(socket.bind(), socket.errorString().toLatin1().constData());
QUdpSocket socket2;
QVERIFY(!socket2.bind(socket.localPort()));
#if defined(Q_OS_SYMBIAN)
if(RProcess().HasCapability(ECapabilityNetworkControl)) {
qDebug("Test executed *with* NetworkControl capability");
// In Symbian OS ReuseAddressHint together with NetworkControl capability
// gives application *always* right to bind to port. I.e. it does not matter
// if first socket was bound with any bind flag. Since autotests in Symbian
// are currently executed with ALL -TCB rights, this path is the one executed.
QVERIFY(socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
socket.close();
socket2.close();
QVERIFY2(socket.bind(0, QUdpSocket::ShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
QVERIFY2(socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint), socket2.errorString().toLatin1().constData());
socket.close();
socket2.close();
QVERIFY2(socket.bind(0, QUdpSocket::DontShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
QVERIFY(socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
socket.close();
socket2.close();
} else {
qDebug("Test executed *without* NetworkControl capability");
// If we don't have NetworkControl capability, attempt to bind already bound
// address will *always* fail. I.e. it does not matter if first socket was
// bound with any bind flag.
QVERIFY(!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
socket.close();
QVERIFY2(socket.bind(0, QUdpSocket::ShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
QVERIFY2(!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint), socket2.errorString().toLatin1().constData());
socket.close();
QVERIFY2(socket.bind(0, QUdpSocket::DontShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
QVERIFY(!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
socket.close();
}
#elif defined(Q_OS_UNIX)
QVERIFY(!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
socket.close();
QVERIFY2(socket.bind(0, QUdpSocket::ShareAddress), socket.errorString().toLatin1().constData());
QVERIFY2(socket2.bind(socket.localPort()), socket2.errorString().toLatin1().constData());
socket2.close();
QVERIFY2(socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint), socket2.errorString().toLatin1().constData());
#else
// Depending on the user's privileges, this or will succeed or
// fail. Admins are allowed to reuse the address, but nobody else.
if (!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint), socket2.errorString().toLatin1().constData())
qWarning("Failed to bind with QUdpSocket::ReuseAddressHint, user isn't an adminstrator?");
socket.close();
QVERIFY2(socket.bind(0, QUdpSocket::ShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
socket.close();
QVERIFY2(socket.bind(0, QUdpSocket::DontShareAddress), socket.errorString().toLatin1().constData());
QVERIFY(!socket2.bind(socket.localPort()));
QVERIFY(!socket2.bind(socket.localPort(), QUdpSocket::ReuseAddressHint));
#endif
}
void tst_QUdpSocket::writeDatagramToNonExistingPeer_data()
{
QTest::addColumn<bool>("bind");
QTest::addColumn<QHostAddress>("peerAddress");
QHostAddress localhost(QHostAddress::LocalHost);
#if !defined(Q_OS_SYMBIAN)
QHostAddress remote = QHostInfo::fromName(QtNetworkSettings::serverName()).addresses().first();
#endif
QTest::newRow("localhost-unbound") << false << localhost;
QTest::newRow("localhost-bound") << true << localhost;
#if !defined(Q_OS_SYMBIAN)
QTest::newRow("remote-unbound") << false << remote;
QTest::newRow("remote-bound") << true << remote;
#endif
}
void tst_QUdpSocket::writeDatagramToNonExistingPeer()
{
QFETCH(bool, bind);
QFETCH(QHostAddress, peerAddress);
quint16 peerPort = 33533 + int(bind);
QUdpSocket sUdp;
QSignalSpy sReadyReadSpy(&sUdp, SIGNAL(readyRead()));
if (bind)
QVERIFY(sUdp.bind());
QCOMPARE(sUdp.writeDatagram("", 1, peerAddress, peerPort), qint64(1));
QTestEventLoop::instance().enterLoop(1);
QCOMPARE(sReadyReadSpy.count(), 0);
}
void tst_QUdpSocket::writeToNonExistingPeer_data()
{
QTest::addColumn<QHostAddress>("peerAddress");
QHostAddress localhost(QHostAddress::LocalHost);
#if !defined(Q_OS_SYMBIAN)
QHostAddress remote = QHostInfo::fromName(QtNetworkSettings::serverName()).addresses().first();
#endif
// write (required to be connected)
QTest::newRow("localhost") << localhost;
#if !defined(Q_OS_SYMBIAN)
QTest::newRow("remote") << remote;
#endif
}
void tst_QUdpSocket::writeToNonExistingPeer()
{
QSKIP("Connected-mode UDP sockets and their behaviour are erratic", SkipAll);
QFETCH(QHostAddress, peerAddress);
quint16 peerPort = 34534;
qRegisterMetaType<QAbstractSocket::SocketError>("QAbstractSocket::SocketError");
QUdpSocket sConnected;
QSignalSpy sConnectedReadyReadSpy(&sConnected, SIGNAL(readyRead()));
QSignalSpy sConnectedErrorSpy(&sConnected, SIGNAL(error(QAbstractSocket::SocketError)));
sConnected.connectToHost(peerAddress, peerPort, QIODevice::ReadWrite);
// the first write succeeds...
QCOMPARE(sConnected.write("", 1), qint64(1));
// the second one should fail!
QTest::qSleep(1000); // do not process events
QCOMPARE(sConnected.write("", 1), qint64(-1));
QCOMPARE(int(sConnected.error()), int(QUdpSocket::ConnectionRefusedError));
// the third one will succeed...
QCOMPARE(sConnected.write("", 1), qint64(1));
QTestEventLoop::instance().enterLoop(1);
QCOMPARE(sConnectedReadyReadSpy.count(), 0);
QCOMPARE(sConnectedErrorSpy.count(), 1);
QCOMPARE(int(sConnected.error()), int(QUdpSocket::ConnectionRefusedError));
// we should now get a read error
QCOMPARE(sConnected.write("", 1), qint64(1));
QTest::qSleep(1000); // do not process events
char buf[2];
QVERIFY(!sConnected.hasPendingDatagrams());
QCOMPARE(sConnected.bytesAvailable(), Q_INT64_C(0));
QCOMPARE(sConnected.pendingDatagramSize(), Q_INT64_C(-1));
QCOMPARE(sConnected.readDatagram(buf, 2), Q_INT64_C(-1));
QCOMPARE(int(sConnected.error()), int(QUdpSocket::ConnectionRefusedError));
QCOMPARE(sConnected.write("", 1), qint64(1));
QTest::qSleep(1000); // do not process events
QCOMPARE(sConnected.read(buf, 2), Q_INT64_C(0));
QCOMPARE(int(sConnected.error()), int(QUdpSocket::ConnectionRefusedError));
// we should still be connected
QCOMPARE(int(sConnected.state()), int(QUdpSocket::ConnectedState));
}
void tst_QUdpSocket::outOfProcessConnectedClientServerTest()
{
#if defined(Q_OS_WINCE) || defined (Q_OS_SYMBIAN)
QSKIP("This test depends on reading data from QProcess (not supported on Qt/WinCE and Symbian).", SkipAll);
#endif
#if defined(QT_NO_PROCESS)
QSKIP("Qt was compiled with QT_NO_PROCESS", SkipAll);
#else
QProcess serverProcess;
serverProcess.start(QLatin1String("clientserver/clientserver server 1 1"),
QIODevice::ReadWrite | QIODevice::Text);
QVERIFY2(serverProcess.waitForStarted(3000),
qPrintable("Failed to start subprocess: " + serverProcess.errorString()));
// Wait until the server has started and reports success.
while (!serverProcess.canReadLine())
QVERIFY(serverProcess.waitForReadyRead(3000));
QByteArray serverGreeting = serverProcess.readLine();
QVERIFY(serverGreeting != QByteArray("XXX\n"));
int serverPort = serverGreeting.trimmed().toInt();
QVERIFY(serverPort > 0 && serverPort < 65536);
QProcess clientProcess;
clientProcess.start(QString::fromLatin1("clientserver/clientserver connectedclient %1 %2")
.arg(QLatin1String("127.0.0.1")).arg(serverPort),
QIODevice::ReadWrite | QIODevice::Text);
QVERIFY2(clientProcess.waitForStarted(3000),
qPrintable("Failed to start subprocess: " + clientProcess.errorString()));
// Wait until the server has started and reports success.
while (!clientProcess.canReadLine())
QVERIFY(clientProcess.waitForReadyRead(3000));
QByteArray clientGreeting = clientProcess.readLine();
QCOMPARE(clientGreeting, QByteArray("ok\n"));
// Let the client and server talk for 3 seconds
QTest::qWait(3000);
QStringList serverData = QString::fromLocal8Bit(serverProcess.readAll()).split("\n");
QStringList clientData = QString::fromLocal8Bit(clientProcess.readAll()).split("\n");
QVERIFY(serverData.size() > 5);
QVERIFY(clientData.size() > 5);
for (int i = 0; i < clientData.size() / 2; ++i) {
QCOMPARE(clientData.at(i * 2), QString("readData()"));
QCOMPARE(serverData.at(i * 3), QString("readData()"));
QString cdata = clientData.at(i * 2 + 1);
QString sdata = serverData.at(i * 3 + 1);
QVERIFY(cdata.startsWith(QLatin1String("got ")));
QCOMPARE(cdata.mid(4).trimmed().toInt(), sdata.mid(4).trimmed().toInt() * 2);
QVERIFY(serverData.at(i * 3 + 2).startsWith(QLatin1String("sending ")));
QCOMPARE(serverData.at(i * 3 + 2).trimmed().mid(8).toInt(),
sdata.mid(4).trimmed().toInt() * 2);
}
clientProcess.kill();
QVERIFY(clientProcess.waitForFinished());
serverProcess.kill();
QVERIFY(serverProcess.waitForFinished());
#endif
}
void tst_QUdpSocket::outOfProcessUnconnectedClientServerTest()
{
#if defined(Q_OS_WINCE) || defined (Q_OS_SYMBIAN)
QSKIP("This test depends on reading data from QProcess (not supported on Qt/WinCE and Symbian).", SkipAll);
#endif
#if defined(QT_NO_PROCESS)
QSKIP("Qt was compiled with QT_NO_PROCESS", SkipAll);
#else
QProcess serverProcess;
serverProcess.start(QLatin1String("clientserver/clientserver server 1 1"),
QIODevice::ReadWrite | QIODevice::Text);
QVERIFY2(serverProcess.waitForStarted(3000),
qPrintable("Failed to start subprocess: " + serverProcess.errorString()));
// Wait until the server has started and reports success.
while (!serverProcess.canReadLine())
QVERIFY(serverProcess.waitForReadyRead(3000));
QByteArray serverGreeting = serverProcess.readLine();
QVERIFY(serverGreeting != QByteArray("XXX\n"));
int serverPort = serverGreeting.trimmed().toInt();
QVERIFY(serverPort > 0 && serverPort < 65536);
QProcess clientProcess;
clientProcess.start(QString::fromLatin1("clientserver/clientserver unconnectedclient %1 %2")
.arg(QLatin1String("127.0.0.1")).arg(serverPort),
QIODevice::ReadWrite | QIODevice::Text);
QVERIFY2(clientProcess.waitForStarted(3000),
qPrintable("Failed to start subprocess: " + clientProcess.errorString()));
// Wait until the server has started and reports success.
while (!clientProcess.canReadLine())
QVERIFY(clientProcess.waitForReadyRead(3000));
QByteArray clientGreeting = clientProcess.readLine();
QCOMPARE(clientGreeting, QByteArray("ok\n"));
// Let the client and server talk for 3 seconds
QTest::qWait(3000);
QStringList serverData = QString::fromLocal8Bit(serverProcess.readAll()).split("\n");
QStringList clientData = QString::fromLocal8Bit(clientProcess.readAll()).split("\n");
QVERIFY(serverData.size() > 5);
QVERIFY(clientData.size() > 5);
for (int i = 0; i < clientData.size() / 2; ++i) {
QCOMPARE(clientData.at(i * 2), QString("readData()"));
QCOMPARE(serverData.at(i * 3), QString("readData()"));
QString cdata = clientData.at(i * 2 + 1);
QString sdata = serverData.at(i * 3 + 1);
QVERIFY(cdata.startsWith(QLatin1String("got ")));
QCOMPARE(cdata.mid(4).trimmed().toInt(), sdata.mid(4).trimmed().toInt() * 2);
QVERIFY(serverData.at(i * 3 + 2).startsWith(QLatin1String("sending ")));
QCOMPARE(serverData.at(i * 3 + 2).trimmed().mid(8).toInt(),
sdata.mid(4).trimmed().toInt() * 2);
}
clientProcess.kill();
QVERIFY(clientProcess.waitForFinished());
serverProcess.kill();
QVERIFY(serverProcess.waitForFinished());
#endif
}
void tst_QUdpSocket::zeroLengthDatagram()
{
QFETCH_GLOBAL(bool, setProxy);
if (setProxy)
return;
QUdpSocket receiver;
QVERIFY(receiver.bind());
QVERIFY(!receiver.waitForReadyRead(100));
QVERIFY(!receiver.hasPendingDatagrams());
QUdpSocket sender;
QCOMPARE(sender.writeDatagram(QByteArray(), QHostAddress::LocalHost, receiver.localPort()), qint64(0));
QVERIFY(receiver.waitForReadyRead(1000));
QVERIFY(receiver.hasPendingDatagrams());
char buf;
QCOMPARE(receiver.readDatagram(&buf, 1), qint64(0));
}
void tst_QUdpSocket::multicastTtlOption_data()
{
QTest::addColumn<int>("ttl");
QTest::addColumn<int>("expected");
QTest::newRow("0") << 0 << 0;
QTest::newRow("1") << 1 << 1;
QTest::newRow("2") << 2 << 2;
QTest::newRow("128") << 128 << 128;
QTest::newRow("255") << 255 << 255;
QTest::newRow("1024") << 1024 << 1;
}
void tst_QUdpSocket::multicastTtlOption()
{
QFETCH_GLOBAL(bool, setProxy);
QFETCH(int, ttl);
QFETCH(int, expected);
if (setProxy) {
// UDP multicast does not work with proxies
expected = 0;
}
QUdpSocket udpSocket;
QVERIFY2(udpSocket.bind(),
qPrintable(udpSocket.errorString()));
udpSocket.setSocketOption(QUdpSocket::MulticastTtlOption, ttl);
QCOMPARE(udpSocket.socketOption(QUdpSocket::MulticastTtlOption).toInt(), expected);
}
void tst_QUdpSocket::multicastLoopbackOption_data()
{
QTest::addColumn<int>("loopback");
QTest::addColumn<int>("expected");
QTest::newRow("0") << 0 << 0;
QTest::newRow("1") << 1 << 1;
QTest::newRow("2") << 2 << 1;
QTest::newRow("0 again") << 0 << 0;
QTest::newRow("2 again") << 2 << 1;
QTest::newRow("0 last time") << 0 << 0;
QTest::newRow("1 again") << 1 << 1;
}
void tst_QUdpSocket::multicastLoopbackOption()
{
QFETCH_GLOBAL(bool, setProxy);
QFETCH(int, loopback);
QFETCH(int, expected);
if (setProxy) {
// UDP multicast does not work with proxies
expected = 0;
}
QUdpSocket udpSocket;
QVERIFY2(udpSocket.bind(),
qPrintable(udpSocket.errorString()));
udpSocket.setSocketOption(QUdpSocket::MulticastLoopbackOption, loopback);
QCOMPARE(udpSocket.socketOption(QUdpSocket::MulticastLoopbackOption).toInt(), expected);
}
void tst_QUdpSocket::multicastJoinBeforeBind_data()
{
QTest::addColumn<QHostAddress>("groupAddress");
QTest::newRow("valid group address") << QHostAddress("239.255.118.62");
QTest::newRow("invalid group address") << QHostAddress(QHostAddress::Broadcast);
}
void tst_QUdpSocket::multicastJoinBeforeBind()
{
QFETCH(QHostAddress, groupAddress);
QUdpSocket udpSocket;
// cannot join group before binding
QTest::ignoreMessage(QtWarningMsg, "QUdpSocket::joinMulticastGroup() called on a QUdpSocket when not in QUdpSocket::BoundState");
QVERIFY(!udpSocket.joinMulticastGroup(groupAddress));
}
void tst_QUdpSocket::multicastLeaveAfterClose_data()
{
QTest::addColumn<QHostAddress>("groupAddress");
QTest::newRow("valid group address") << QHostAddress("239.255.118.62");
}
void tst_QUdpSocket::multicastLeaveAfterClose()
{
QFETCH_GLOBAL(bool, setProxy);
QFETCH(QHostAddress, groupAddress);
if (setProxy) {
QSKIP("UDP Multicast does not work with proxies", SkipAll);
}
QUdpSocket udpSocket;
QVERIFY2(udpSocket.bind(),
qPrintable(udpSocket.errorString()));
QVERIFY2(udpSocket.joinMulticastGroup(groupAddress),
qPrintable(udpSocket.errorString()));
udpSocket.close();
QTest::ignoreMessage(QtWarningMsg, "QUdpSocket::leaveMulticastGroup() called on a QUdpSocket when not in QUdpSocket::BoundState");
QVERIFY(!udpSocket.leaveMulticastGroup(groupAddress));
}
void tst_QUdpSocket::setMulticastInterface_data()
{
QTest::addColumn<QNetworkInterface>("iface");
QTest::addColumn<QHostAddress>("address");
QList<QNetworkInterface> interfaces = QNetworkInterface::allInterfaces();
foreach (const QNetworkInterface &iface, interfaces) {
foreach (const QNetworkAddressEntry &entry, iface.addressEntries()) {
QTest::newRow(QString("%1:%2").arg(iface.name()).arg(entry.ip().toString()).toAscii())
<< iface
<< entry.ip();
}
}
}
void tst_QUdpSocket::setMulticastInterface()
{
QFETCH_GLOBAL(bool, setProxy);
QFETCH(QNetworkInterface, iface);
QFETCH(QHostAddress, address);
QUdpSocket udpSocket;
// bind initializes the socket
bool bound = udpSocket.bind((address.protocol() == QAbstractSocket::IPv6Protocol
? QHostAddress(QHostAddress::AnyIPv6)
: QHostAddress(QHostAddress::Any)),
0);
if (!bound)
QTest::ignoreMessage(QtWarningMsg, "QUdpSocket::setMulticastInterface() called on a QUdpSocket when not in QUdpSocket::BoundState");
udpSocket.setMulticastInterface(iface);
if (!bound)
QTest::ignoreMessage(QtWarningMsg, "QUdpSocket::multicastInterface() called on a QUdpSocket when not in QUdpSocket::BoundState");
QNetworkInterface iface2 = udpSocket.multicastInterface();
if (!setProxy) {
QVERIFY(iface2.isValid());
QCOMPARE(iface.name(), iface2.name());
} else {
QVERIFY(!iface2.isValid());
}
}
void tst_QUdpSocket::multicast_data()
{
QHostAddress anyAddress = QHostAddress(QHostAddress::Any);
QHostAddress groupAddress = QHostAddress("239.255.118.62");
QTest::addColumn<QHostAddress>("bindAddress");
QTest::addColumn<bool>("bindResult");
QTest::addColumn<QHostAddress>("groupAddress");
QTest::addColumn<bool>("joinResult");
QTest::newRow("valid bind, group address") << anyAddress << true << groupAddress << true;
QTest::newRow("same bind, group address") << groupAddress << true << groupAddress << true;
}
void tst_QUdpSocket::multicast()
{
QFETCH_GLOBAL(bool, setProxy);
QFETCH(QHostAddress, bindAddress);
QFETCH(bool, bindResult);
QFETCH(QHostAddress, groupAddress);
QFETCH(bool, joinResult);
if (setProxy) {
// UDP multicast does not work with proxies
if ((bindAddress.toIPv4Address() & 0xffff0000) == 0xefff0000) {
// proxy cannot bind to a multicast address
bindResult = false;
}
joinResult = false;
}
QUdpSocket receiver;
// bind first, then verify that we can join the multicast group
QVERIFY2(receiver.bind(bindAddress, 0) == bindResult,
qPrintable(receiver.errorString()));
if (!bindResult)
return;
QVERIFY2(receiver.joinMulticastGroup(groupAddress) == joinResult,
qPrintable(receiver.errorString()));
if (!joinResult)
return;
QList<QByteArray> datagrams = QList<QByteArray>()
<< QByteArray("0123")
<< QByteArray("4567")
<< QByteArray("89ab")
<< QByteArray("cdef");
QUdpSocket sender;
foreach (const QByteArray &datagram, datagrams) {
QCOMPARE(int(sender.writeDatagram(datagram, groupAddress, receiver.localPort())),
int(datagram.size()));
}
QVERIFY2(receiver.waitForReadyRead(),
qPrintable(receiver.errorString()));
QVERIFY(receiver.hasPendingDatagrams());
QList<QByteArray> receivedDatagrams;
while (receiver.hasPendingDatagrams()) {
QByteArray datagram;
datagram.resize(receiver.pendingDatagramSize());
receiver.readDatagram(datagram.data(), datagram.size(), 0, 0);
receivedDatagrams << datagram;
}
QCOMPARE(receivedDatagrams, datagrams);
QVERIFY2(receiver.leaveMulticastGroup(groupAddress), qPrintable(receiver.errorString()));
}
QTEST_MAIN(tst_QUdpSocket)
#include "tst_qudpsocket.moc"
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