qt5base-lts/tests/auto/network/socket/qlocalsocket/tst_qlocalsocket.cpp
Joerg Bornemann 7b4c02d527 Fix finding a helper executable in tst_QLocalSocket
Use QFINDTESTDATA to find the socketprocess helper executable.
Now tst_QLocalSocket::processConnection() passes when started from Qt
Creator without adjusting the working directory.

Change-Id: I97ca3334a381b3cd646647487529bcd90b969528
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
2016-04-11 10:47:26 +00:00

1298 lines
41 KiB
C++

/****************************************************************************
**
** Copyright (C) 2015 The Qt Company Ltd.
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**
** This file is part of the test suite of the Qt Toolkit.
**
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** following information to ensure the GNU Lesser General Public License
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#include <QtTest/QtTest>
#include <qtextstream.h>
#include <QtNetwork/qlocalsocket.h>
#include <QtNetwork/qlocalserver.h>
#ifdef Q_OS_UNIX
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <unistd.h> // for unlink()
#endif
Q_DECLARE_METATYPE(QLocalSocket::LocalSocketError)
Q_DECLARE_METATYPE(QLocalSocket::LocalSocketState)
Q_DECLARE_METATYPE(QLocalServer::SocketOption)
Q_DECLARE_METATYPE(QFile::Permissions)
class tst_QLocalSocket : public QObject
{
Q_OBJECT
public Q_SLOTS:
void init();
void cleanup();
private slots:
// basics
void server_basic();
void server_connectionsCount();
void socket_basic();
void listen_data();
void listen();
void listenAndConnect_data();
void listenAndConnect();
void connectWithOpen();
void connectWithOldOpen();
void sendData_data();
void sendData();
void readBufferOverflow();
void fullPath();
void hitMaximumConnections_data();
void hitMaximumConnections();
void setSocketDescriptor();
void threadedConnection_data();
void threadedConnection();
void processConnection_data();
void processConnection();
void longPath();
void waitForDisconnect();
void waitForDisconnectByServer();
void removeServer();
void recycleServer();
void recycleClientSocket();
void multiConnect();
void writeOnlySocket();
void writeToClientAndDisconnect_data();
void writeToClientAndDisconnect();
void debug();
void bytesWrittenSignal();
void syncDisconnectNotify();
void asyncDisconnectNotify();
void verifySocketOptions();
void verifySocketOptions_data();
void verifyListenWithDescriptor();
void verifyListenWithDescriptor_data();
};
void tst_QLocalSocket::init()
{
qRegisterMetaType<QLocalSocket::LocalSocketState>("QLocalSocket::LocalSocketState");
qRegisterMetaType<QLocalSocket::LocalSocketError>("QLocalSocket::LocalSocketError");
qRegisterMetaType<QLocalServer::SocketOption>("QLocalServer::SocketOption");
qRegisterMetaType<QFile::Permissions>("QFile::Permissions");
}
void tst_QLocalSocket::cleanup()
{
}
class LocalServer : public QLocalServer
{
Q_OBJECT
public:
LocalServer() : QLocalServer()
{
connect(this, SIGNAL(newConnection()), this, SLOT(slotNewConnection()));
}
bool listen(const QString &name)
{
removeServer(name);
return QLocalServer::listen(name);
}
QList<int> hits;
protected:
void incomingConnection(quintptr socketDescriptor)
{
hits.append(socketDescriptor);
QLocalServer::incomingConnection(socketDescriptor);
}
private slots:
void slotNewConnection() {
QVERIFY(!hits.isEmpty());
QVERIFY(hasPendingConnections());
}
};
class LocalSocket : public QLocalSocket
{
Q_OBJECT
public:
LocalSocket(QObject *parent = 0) : QLocalSocket(parent)
{
connect(this, SIGNAL(connected()),
this, SLOT(slotConnected()));
connect(this, SIGNAL(disconnected()),
this, SLOT(slotDisconnected()));
connect(this, SIGNAL(error(QLocalSocket::LocalSocketError)),
this, SLOT(slotError(QLocalSocket::LocalSocketError)));
connect(this, SIGNAL(stateChanged(QLocalSocket::LocalSocketState)),
this, SLOT(slotStateChanged(QLocalSocket::LocalSocketState)));
connect(this, SIGNAL(readyRead()),
this, SLOT(slotReadyRead()));
}
private slots:
void slotConnected()
{
QCOMPARE(state(), QLocalSocket::ConnectedState);
}
void slotDisconnected()
{
QCOMPARE(state(), QLocalSocket::UnconnectedState);
}
void slotError(QLocalSocket::LocalSocketError newError)
{
QVERIFY(errorString() != "Unknown error");
QCOMPARE(error(), newError);
}
void slotStateChanged(QLocalSocket::LocalSocketState newState)
{
QCOMPARE(state(), newState);
}
void slotReadyRead()
{
QVERIFY(bytesAvailable() > 0);
}
};
// basic test make sure no segfaults and check default values
void tst_QLocalSocket::server_basic()
{
LocalServer server;
QSignalSpy spyNewConnection(&server, SIGNAL(newConnection()));
server.close();
QCOMPARE(server.errorString(), QString());
QCOMPARE(server.hasPendingConnections(), false);
QCOMPARE(server.isListening(), false);
QCOMPARE(server.maxPendingConnections(), 30);
QCOMPARE(server.nextPendingConnection(), (QLocalSocket*)0);
QCOMPARE(server.serverName(), QString());
QCOMPARE(server.fullServerName(), QString());
QCOMPARE(server.serverError(), QAbstractSocket::UnknownSocketError);
server.setMaxPendingConnections(20);
bool timedOut = true;
QCOMPARE(server.waitForNewConnection(3000, &timedOut), false);
QVERIFY(!timedOut);
QCOMPARE(server.listen(QString()), false);
QCOMPARE(server.hits.count(), 0);
QCOMPARE(spyNewConnection.count(), 0);
}
void tst_QLocalSocket::server_connectionsCount()
{
LocalServer server;
server.setMaxPendingConnections(10);
QCOMPARE(server.maxPendingConnections(), 10);
}
// basic test make sure no segfaults and check default values
void tst_QLocalSocket::socket_basic()
{
LocalSocket socket;
QSignalSpy spyConnected(&socket, SIGNAL(connected()));
QSignalSpy spyDisconnected(&socket, SIGNAL(disconnected()));
QSignalSpy spyError(&socket, SIGNAL(error(QLocalSocket::LocalSocketError)));
QSignalSpy spyStateChanged(&socket, SIGNAL(stateChanged(QLocalSocket::LocalSocketState)));
QSignalSpy spyReadyRead(&socket, SIGNAL(readyRead()));
QCOMPARE(socket.serverName(), QString());
QCOMPARE(socket.fullServerName(), QString());
socket.abort();
QCOMPARE(socket.bytesAvailable(), 0);
QCOMPARE(socket.bytesToWrite(), 0);
QCOMPARE(socket.canReadLine(), false);
socket.close();
socket.disconnectFromServer();
QCOMPARE(QLocalSocket::UnknownSocketError, socket.error());
QVERIFY(!socket.errorString().isEmpty());
QCOMPARE(socket.flush(), false);
QCOMPARE(socket.isValid(), false);
QCOMPARE(socket.readBufferSize(), 0);
socket.setReadBufferSize(0);
//QCOMPARE(socket.socketDescriptor(), (qintptr)-1);
QCOMPARE(socket.state(), QLocalSocket::UnconnectedState);
QCOMPARE(socket.waitForConnected(0), false);
QTest::ignoreMessage(QtWarningMsg, "QLocalSocket::waitForDisconnected() is not allowed in UnconnectedState");
QCOMPARE(socket.waitForDisconnected(0), false);
QCOMPARE(socket.waitForReadyRead(0), false);
QCOMPARE(spyConnected.count(), 0);
QCOMPARE(spyDisconnected.count(), 0);
QCOMPARE(spyError.count(), 0);
QCOMPARE(spyStateChanged.count(), 0);
QCOMPARE(spyReadyRead.count(), 0);
}
void tst_QLocalSocket::listen_data()
{
QTest::addColumn<QString>("name");
QTest::addColumn<bool>("canListen");
QTest::addColumn<bool>("close");
QTest::newRow("null") << QString() << false << false;
QTest::newRow("tst_localsocket") << "tst_localsocket" << true << true;
QTest::newRow("tst_localsocket") << "tst_localsocket" << true << false;
}
// start a server that listens, but don't connect a socket, make sure everything is in order
void tst_QLocalSocket::listen()
{
LocalServer server;
QSignalSpy spyNewConnection(&server, SIGNAL(newConnection()));
QFETCH(QString, name);
QFETCH(bool, canListen);
QFETCH(bool, close);
QVERIFY2((server.listen(name) == canListen), server.errorString().toLatin1().constData());
// test listening
QCOMPARE(server.serverName(), name);
QVERIFY(server.fullServerName().contains(name));
QCOMPARE(server.isListening(), canListen);
QCOMPARE(server.hasPendingConnections(), false);
QCOMPARE(server.nextPendingConnection(), (QLocalSocket*)0);
QCOMPARE(server.hits.count(), 0);
QCOMPARE(spyNewConnection.count(), 0);
if (canListen) {
QVERIFY(server.errorString().isEmpty());
QCOMPARE(server.serverError(), QAbstractSocket::UnknownSocketError);
// already isListening
QTest::ignoreMessage(QtWarningMsg, "QLocalServer::listen() called when already listening");
QVERIFY(!server.listen(name));
} else {
QVERIFY(!server.errorString().isEmpty());
QCOMPARE(server.serverError(), QAbstractSocket::HostNotFoundError);
}
QCOMPARE(server.maxPendingConnections(), 30);
bool timedOut = false;
QCOMPARE(server.waitForNewConnection(3000, &timedOut), false);
QCOMPARE(timedOut, canListen);
if (close)
server.close();
}
void tst_QLocalSocket::listenAndConnect_data()
{
QTest::addColumn<QString>("name");
QTest::addColumn<bool>("canListen");
QTest::addColumn<int>("connections");
for (int i = 0; i < 3; ++i) {
int connections = i;
if (i == 2)
connections = 5;
QTest::newRow(QString("null %1").arg(i).toLatin1()) << QString() << false << connections;
QTest::newRow(QString("tst_localsocket %1").arg(i).toLatin1()) << "tst_localsocket" << true << connections;
}
}
void tst_QLocalSocket::listenAndConnect()
{
LocalServer server;
QSignalSpy spyNewConnection(&server, SIGNAL(newConnection()));
QFETCH(QString, name);
QFETCH(bool, canListen);
QCOMPARE(server.listen(name), canListen);
QTRY_COMPARE(server.serverError(),
canListen ? QAbstractSocket::UnknownSocketError : QAbstractSocket::HostNotFoundError);
// test creating connection(s)
QFETCH(int, connections);
QList<QLocalSocket*> sockets;
for (int i = 0; i < connections; ++i) {
LocalSocket *socket = new LocalSocket;
QSignalSpy spyConnected(socket, SIGNAL(connected()));
QSignalSpy spyDisconnected(socket, SIGNAL(disconnected()));
QSignalSpy spyError(socket, SIGNAL(error(QLocalSocket::LocalSocketError)));
QSignalSpy spyStateChanged(socket, SIGNAL(stateChanged(QLocalSocket::LocalSocketState)));
QSignalSpy spyReadyRead(socket, SIGNAL(readyRead()));
socket->connectToServer(name);
#if defined(QT_LOCALSOCKET_TCP)
QTest::qWait(250);
#endif
QCOMPARE(socket->serverName(), name);
QVERIFY(socket->fullServerName().contains(name));
sockets.append(socket);
if (canListen) {
QVERIFY(socket->waitForConnected());
QVERIFY(socket->isValid());
QCOMPARE(socket->errorString(), QString("Unknown error"));
QCOMPARE(socket->error(), QLocalSocket::UnknownSocketError);
QCOMPARE(socket->state(), QLocalSocket::ConnectedState);
//QVERIFY(socket->socketDescriptor() != -1);
QCOMPARE(spyError.count(), 0);
} else {
QVERIFY(!socket->errorString().isEmpty());
QVERIFY(socket->error() != QLocalSocket::UnknownSocketError);
QCOMPARE(socket->state(), QLocalSocket::UnconnectedState);
//QCOMPARE(socket->socketDescriptor(), -1);
QCOMPARE(qvariant_cast<QLocalSocket::LocalSocketError>(spyError.first()[0]),
QLocalSocket::ServerNotFoundError);
}
QCOMPARE(socket->bytesAvailable(), 0);
QCOMPARE(socket->bytesToWrite(), 0);
QCOMPARE(socket->canReadLine(), false);
QCOMPARE(socket->flush(), false);
QCOMPARE(socket->isValid(), canListen);
QCOMPARE(socket->readBufferSize(), (qint64)0);
QCOMPARE(socket->waitForConnected(0), canListen);
QCOMPARE(socket->waitForReadyRead(0), false);
QTRY_COMPARE(spyConnected.count(), canListen ? 1 : 0);
QCOMPARE(spyDisconnected.count(), 0);
// error signals
QVERIFY(spyError.count() >= 0);
if (canListen) {
if (spyError.count() > 0)
QCOMPARE(qvariant_cast<QLocalSocket::LocalSocketError>(spyError.first()[0]),
QLocalSocket::SocketTimeoutError);
} else {
QCOMPARE(qvariant_cast<QLocalSocket::LocalSocketError>(spyError.first()[0]),
QLocalSocket::ServerNotFoundError);
}
// Check first and last state
QCOMPARE(qvariant_cast<QLocalSocket::LocalSocketState>(spyStateChanged.first()[0]),
QLocalSocket::ConnectingState);
if (canListen)
QCOMPARE(qvariant_cast<QLocalSocket::LocalSocketState>(spyStateChanged.last()[0]),
QLocalSocket::ConnectedState);
QCOMPARE(spyStateChanged.count(), 2);
QCOMPARE(spyReadyRead.count(), 0);
bool timedOut = true;
QCOMPARE(server.waitForNewConnection(3000, &timedOut), canListen);
QVERIFY(!timedOut);
QCOMPARE(server.hasPendingConnections(), canListen);
QCOMPARE(server.isListening(), canListen);
// NOTE: socket disconnecting is not tested here
// server checks post connection
if (canListen) {
QCOMPARE(server.serverName(), name);
QVERIFY(server.fullServerName().contains(name));
QVERIFY(server.nextPendingConnection() != (QLocalSocket*)0);
QTRY_COMPARE(server.hits.count(), i + 1);
QCOMPARE(spyNewConnection.count(), i + 1);
QVERIFY(server.errorString().isEmpty());
QCOMPARE(server.serverError(), QAbstractSocket::UnknownSocketError);
} else {
QVERIFY(server.serverName().isEmpty());
QVERIFY(server.fullServerName().isEmpty());
QCOMPARE(server.nextPendingConnection(), (QLocalSocket*)0);
QCOMPARE(spyNewConnection.count(), 0);
QCOMPARE(server.hits.count(), 0);
QVERIFY(!server.errorString().isEmpty());
QCOMPARE(server.serverError(), QAbstractSocket::HostNotFoundError);
}
}
qDeleteAll(sockets.begin(), sockets.end());
server.close();
QCOMPARE(server.hits.count(), (canListen ? connections : 0));
QCOMPARE(spyNewConnection.count(), (canListen ? connections : 0));
}
void tst_QLocalSocket::connectWithOpen()
{
LocalServer server;
QVERIFY(server.listen("tst_qlocalsocket"));
LocalSocket socket;
socket.setServerName("tst_qlocalsocket");
QVERIFY(socket.open());
bool timedOut = true;
QVERIFY(server.waitForNewConnection(3000, &timedOut));
#if defined(QT_LOCALSOCKET_TCP)
QTest::qWait(250);
#endif
QVERIFY(!timedOut);
socket.close();
server.close();
}
void tst_QLocalSocket::connectWithOldOpen()
{
class OverriddenOpen : public LocalSocket
{
public:
virtual bool open(OpenMode mode) Q_DECL_OVERRIDE
{ return QIODevice::open(mode); }
};
LocalServer server;
QCOMPARE(server.listen("tst_qlocalsocket"), true);
OverriddenOpen socket;
socket.connectToServer("tst_qlocalsocket");
bool timedOut = true;
QVERIFY(server.waitForNewConnection(3000, &timedOut));
#if defined(QT_LOCALSOCKET_TCP)
QTest::qWait(250);
#endif
QVERIFY(!timedOut);
socket.close();
server.close();
}
void tst_QLocalSocket::sendData_data()
{
QTest::addColumn<QString>("name");
QTest::addColumn<bool>("canListen");
QTest::newRow("null") << QString() << false;
QTest::newRow("tst_localsocket") << "tst_localsocket" << true;
}
void tst_QLocalSocket::sendData()
{
QFETCH(QString, name);
QFETCH(bool, canListen);
LocalServer server;
QSignalSpy spy(&server, SIGNAL(newConnection()));
QCOMPARE(server.listen(name), canListen);
LocalSocket socket;
QSignalSpy spyConnected(&socket, SIGNAL(connected()));
QSignalSpy spyDisconnected(&socket, SIGNAL(disconnected()));
QSignalSpy spyError(&socket, SIGNAL(error(QLocalSocket::LocalSocketError)));
QSignalSpy spyStateChanged(&socket, SIGNAL(stateChanged(QLocalSocket::LocalSocketState)));
QSignalSpy spyReadyRead(&socket, SIGNAL(readyRead()));
// test creating a connection
socket.connectToServer(name);
bool timedOut = true;
int expectedReadyReadSignals = 0;
QCOMPARE(server.waitForNewConnection(3000, &timedOut), canListen);
#if defined(QT_LOCALSOCKET_TCP)
QTest::qWait(250);
#endif
QVERIFY(!timedOut);
QCOMPARE(spyConnected.count(), canListen ? 1 : 0);
QCOMPARE(socket.state(), canListen ? QLocalSocket::ConnectedState : QLocalSocket::UnconnectedState);
// test sending/receiving data
if (server.hasPendingConnections()) {
QString testLine = "test";
for (int i = 0; i < 50000; ++i)
testLine += "a";
QLocalSocket *serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
QCOMPARE(serverSocket->state(), QLocalSocket::ConnectedState);
QTextStream out(serverSocket);
QTextStream in(&socket);
out << testLine << endl;
bool wrote = serverSocket->waitForBytesWritten(3000);
if (!socket.canReadLine()) {
expectedReadyReadSignals = 1;
QVERIFY(socket.waitForReadyRead());
}
QVERIFY(socket.bytesAvailable() >= 0);
QCOMPARE(socket.bytesToWrite(), (qint64)0);
QCOMPARE(socket.flush(), false);
QCOMPARE(socket.isValid(), canListen);
QCOMPARE(socket.readBufferSize(), (qint64)0);
QCOMPARE(spyReadyRead.count(), expectedReadyReadSignals);
QVERIFY(testLine.startsWith(in.readLine()));
QVERIFY(wrote || serverSocket->waitForBytesWritten(1000));
QCOMPARE(serverSocket->errorString(), QString("Unknown error"));
QCOMPARE(socket.errorString(), QString("Unknown error"));
}
socket.disconnectFromServer();
QCOMPARE(spyConnected.count(), canListen ? 1 : 0);
QCOMPARE(spyDisconnected.count(), canListen ? 1 : 0);
QCOMPARE(spyError.count(), canListen ? 0 : 1);
QCOMPARE(spyStateChanged.count(), canListen ? 4 : 2);
QCOMPARE(spyReadyRead.count(), canListen ? expectedReadyReadSignals : 0);
server.close();
QCOMPARE(server.hits.count(), (canListen ? 1 : 0));
QCOMPARE(spy.count(), (canListen ? 1 : 0));
}
void tst_QLocalSocket::readBufferOverflow()
{
const int readBufferSize = 128;
const int dataBufferSize = readBufferSize * 2;
const QString serverName = QLatin1String("myPreciousTestServer");
LocalServer server;
server.listen(serverName);
QVERIFY(server.isListening());
LocalSocket client;
client.setReadBufferSize(readBufferSize);
client.connectToServer(serverName);
bool timedOut = true;
QVERIFY(server.waitForNewConnection(3000, &timedOut));
QVERIFY(!timedOut);
QCOMPARE(client.state(), QLocalSocket::ConnectedState);
QVERIFY(server.hasPendingConnections());
QLocalSocket* serverSocket = server.nextPendingConnection();
char buffer[dataBufferSize];
memset(buffer, 0, dataBufferSize);
serverSocket->write(buffer, dataBufferSize);
#ifndef Q_OS_WIN
// The data is not immediately sent, but buffered.
// On Windows, the flushing is done by an asynchronous write operation.
// However, this operation will never complete as long as the data is not
// read by the other end, so the call below always times out.
// On Unix, the flushing is synchronous and thus needs to be done before
// attempting to read the data in the same thread. Buffering by the OS
// prevents the deadlock seen on Windows.
serverSocket->waitForBytesWritten();
#endif
// wait until the first 128 bytes are ready to read
QVERIFY(client.waitForReadyRead());
QCOMPARE(client.read(buffer, readBufferSize), qint64(readBufferSize));
// wait until the second 128 bytes are ready to read
QVERIFY(client.waitForReadyRead());
QCOMPARE(client.read(buffer, readBufferSize), qint64(readBufferSize));
// no more bytes available
QCOMPARE(client.bytesAvailable(), 0);
}
// QLocalSocket/Server can take a name or path, check that it works as expected
void tst_QLocalSocket::fullPath()
{
QLocalServer server;
QString name = "qlocalsocket_pathtest";
#if defined(QT_LOCALSOCKET_TCP)
QString path = "QLocalServer";
#elif defined(Q_OS_WIN)
QString path = "\\\\.\\pipe\\";
#else
QString path = "/tmp";
#endif
QString serverName = path + '/' + name;
QVERIFY2(server.listen(serverName), server.errorString().toLatin1().constData());
QCOMPARE(server.serverName(), serverName);
QCOMPARE(server.fullServerName(), serverName);
LocalSocket socket;
socket.connectToServer(serverName);
QCOMPARE(socket.serverName(), serverName);
QCOMPARE(socket.fullServerName(), serverName);
socket.disconnectFromServer();
#ifdef QT_LOCALSOCKET_TCP
QTest::qWait(250);
#endif
QCOMPARE(socket.serverName(), QString());
QCOMPARE(socket.fullServerName(), QString());
}
void tst_QLocalSocket::hitMaximumConnections_data()
{
QTest::addColumn<int>("max");
QTest::newRow("none") << 0;
QTest::newRow("1") << 1;
QTest::newRow("3") << 3;
}
void tst_QLocalSocket::hitMaximumConnections()
{
QFETCH(int, max);
LocalServer server;
QString name = "tst_localsocket";
server.setMaxPendingConnections(max);
QVERIFY2(server.listen(name), server.errorString().toLatin1().constData());
int connections = server.maxPendingConnections() + 1;
QList<QLocalSocket*> sockets;
for (int i = 0; i < connections; ++i) {
LocalSocket *socket = new LocalSocket;
sockets.append(socket);
socket->connectToServer(name);
}
bool timedOut = true;
QVERIFY(server.waitForNewConnection(3000, &timedOut));
QVERIFY(!timedOut);
QVERIFY(server.hits.count() > 0);
qDeleteAll(sockets.begin(), sockets.end());
}
// check that state and mode are kept
void tst_QLocalSocket::setSocketDescriptor()
{
LocalSocket socket;
qintptr minusOne = -1;
socket.setSocketDescriptor(minusOne, QLocalSocket::ConnectingState, QIODevice::Append);
QCOMPARE(socket.socketDescriptor(), minusOne);
QCOMPARE(socket.state(), QLocalSocket::ConnectingState);
QVERIFY((socket.openMode() & QIODevice::Append) != 0);
}
class Client : public QThread
{
public:
void run()
{
QString testLine = "test";
LocalSocket socket;
QSignalSpy spyReadyRead(&socket, SIGNAL(readyRead()));
socket.connectToServer("qlocalsocket_threadtest");
QVERIFY(socket.waitForConnected(1000));
// We should *not* have this signal yet!
QCOMPARE(spyReadyRead.count(), 0);
socket.waitForReadyRead();
QCOMPARE(spyReadyRead.count(), 1);
QTextStream in(&socket);
QCOMPARE(in.readLine(), testLine);
socket.close();
}
};
class Server : public QThread
{
public:
int clients;
QMutex mutex;
QWaitCondition wc;
void run()
{
QString testLine = "test";
LocalServer server;
server.setMaxPendingConnections(10);
QVERIFY2(server.listen("qlocalsocket_threadtest"),
server.errorString().toLatin1().constData());
mutex.lock();
wc.wakeAll();
mutex.unlock();
int done = clients;
while (done > 0) {
bool timedOut = true;
QVERIFY2(server.waitForNewConnection(7000, &timedOut),
(QByteArrayLiteral("done=") + QByteArray::number(done)
+ QByteArrayLiteral(", timedOut=")
+ (timedOut ? "true" : "false")).constData());
QVERIFY(!timedOut);
QLocalSocket *serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
QTextStream out(serverSocket);
out << testLine << endl;
QCOMPARE(serverSocket->state(), QLocalSocket::ConnectedState);
QVERIFY2(serverSocket->waitForBytesWritten(), serverSocket->errorString().toLatin1().constData());
QCOMPARE(serverSocket->errorString(), QString("Unknown error"));
--done;
delete serverSocket;
}
QCOMPARE(server.hits.count(), clients);
}
};
void tst_QLocalSocket::threadedConnection_data()
{
QTest::addColumn<int>("threads");
QTest::newRow("1 client") << 1;
QTest::newRow("2 clients") << 2;
QTest::newRow("5 clients") << 5;
#ifndef Q_OS_WINCE
QTest::newRow("10 clients") << 10;
QTest::newRow("20 clients") << 20;
#endif
}
void tst_QLocalSocket::threadedConnection()
{
QFETCH(int, threads);
Server server;
server.clients = threads;
server.mutex.lock();
server.start();
server.wc.wait(&server.mutex);
server.mutex.unlock();
QList<Client*> clients;
for (int i = 0; i < threads; ++i) {
clients.append(new Client());
clients.last()->start();
}
server.wait();
while (!clients.isEmpty()) {
QVERIFY(clients.first()->wait(3000));
delete clients.takeFirst();
}
}
void tst_QLocalSocket::processConnection_data()
{
QTest::addColumn<int>("processes");
QTest::newRow("1 client") << 1;
QTest::newRow("2 clients") << 2;
QTest::newRow("5 clients") << 5;
QTest::newRow("30 clients") << 30;
}
#ifndef QT_NO_PROCESS
class ProcessOutputDumper
{
public:
ProcessOutputDumper(QProcess *p = 0)
: process(p)
{}
~ProcessOutputDumper()
{
if (process)
fputs(process->readAll().data(), stdout);
}
void clear()
{
process = 0;
}
private:
QProcess *process;
};
#endif
/*!
Create external processes that produce and consume.
*/
void tst_QLocalSocket::processConnection()
{
#ifdef QT_NO_PROCESS
QSKIP("No qprocess support", SkipAll);
#else
#ifdef Q_OS_MAC
QSKIP("The processConnection test is unstable on Mac. See QTBUG-39986.");
#endif
#ifdef Q_OS_WIN
const QString exeSuffix = QStringLiteral(".exe");
#else
const QString exeSuffix;
#endif
const QString socketProcess
= QFINDTESTDATA(QStringLiteral("socketprocess/socketprocess") + exeSuffix);
QVERIFY(QFile::exists(socketProcess));
QFETCH(int, processes);
QStringList serverArguments = QStringList() << "--server" << QString::number(processes);
QProcess producer;
ProcessOutputDumper producerOutputDumper(&producer);
QList<QProcess*> consumers;
producer.start(socketProcess, serverArguments);
QVERIFY2(producer.waitForStarted(-1), qPrintable(producer.errorString()));
for (int i = 0; i < processes; ++i) {
QStringList arguments = QStringList() << "--client";
QProcess *p = new QProcess;
consumers.append(p);
p->start(socketProcess, arguments);
}
while (!consumers.isEmpty()) {
QProcess *consumer = consumers.takeFirst();
ProcessOutputDumper consumerOutputDumper(consumer);
consumer->waitForFinished(20000);
QCOMPARE(consumer->exitStatus(), QProcess::NormalExit);
QCOMPARE(consumer->exitCode(), 0);
consumerOutputDumper.clear();
consumer->terminate();
delete consumer;
}
producer.waitForFinished(15000);
producerOutputDumper.clear();
#endif
}
void tst_QLocalSocket::longPath()
{
#ifndef Q_OS_WIN
QString name;
for (int i = 0; i < 256; ++i)
name += 'a';
LocalServer server;
QVERIFY(!server.listen(name));
LocalSocket socket;
socket.connectToServer(name);
QCOMPARE(socket.state(), QLocalSocket::UnconnectedState);
#endif
}
void tst_QLocalSocket::waitForDisconnect()
{
QString name = "tst_localsocket";
LocalServer server;
QVERIFY(server.listen(name));
LocalSocket socket;
socket.connectToServer(name);
QVERIFY(socket.waitForConnected(3000));
QVERIFY(server.waitForNewConnection(3000));
QLocalSocket *serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
socket.disconnectFromServer();
QTime timer;
timer.start();
QVERIFY(serverSocket->waitForDisconnected(3000));
QVERIFY(timer.elapsed() < 2000);
}
void tst_QLocalSocket::waitForDisconnectByServer()
{
QString name = "tst_localsocket";
LocalServer server;
QVERIFY(server.listen(name));
LocalSocket socket;
QSignalSpy spy(&socket, SIGNAL(disconnected()));
QVERIFY(spy.isValid());
socket.connectToServer(name);
QVERIFY(socket.waitForConnected(3000));
QVERIFY(server.waitForNewConnection(3000));
QLocalSocket *serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
serverSocket->close();
QCOMPARE(serverSocket->state(), QLocalSocket::UnconnectedState);
QVERIFY(socket.waitForDisconnected(3000));
QCOMPARE(spy.count(), 1);
}
void tst_QLocalSocket::removeServer()
{
// this is a hostile takeover, but recovering from a crash results in the same
QLocalServer server, server2;
QVERIFY(QLocalServer::removeServer("cleanuptest"));
QVERIFY(server.listen("cleanuptest"));
#ifndef Q_OS_WIN
// on Windows, there can be several sockets listening on the same pipe
// on Unix, there can only be one socket instance
QVERIFY(! server2.listen("cleanuptest"));
#endif
QVERIFY(QLocalServer::removeServer("cleanuptest"));
QVERIFY(server2.listen("cleanuptest"));
}
void tst_QLocalSocket::recycleServer()
{
QLocalServer server;
QLocalSocket client;
QVERIFY(server.listen("recycletest1"));
client.connectToServer("recycletest1");
QVERIFY(client.waitForConnected(201));
QVERIFY(server.waitForNewConnection(201));
QVERIFY(server.nextPendingConnection() != 0);
server.close();
client.disconnectFromServer();
qApp->processEvents();
QVERIFY(server.listen("recycletest2"));
client.connectToServer("recycletest2");
QVERIFY(client.waitForConnected(202));
QVERIFY(server.waitForNewConnection(202));
QVERIFY(server.nextPendingConnection() != 0);
}
void tst_QLocalSocket::recycleClientSocket()
{
const QByteArrayList lines = QByteArrayList() << "Have you heard of that new band"
<< "\"1023 Megabytes\"?"
<< "They haven't made it to a gig yet.";
QLocalServer server;
const QString serverName = QStringLiteral("recycleClientSocket");
QVERIFY(server.listen(serverName));
QLocalSocket client;
QSignalSpy clientReadyReadSpy(&client, SIGNAL(readyRead()));
QSignalSpy clientErrorSpy(&client, SIGNAL(error(QLocalSocket::LocalSocketError)));
for (int i = 0; i < lines.count(); ++i) {
client.abort();
clientReadyReadSpy.clear();
client.connectToServer(serverName);
QVERIFY(client.waitForConnected());
QVERIFY(server.waitForNewConnection());
QLocalSocket *serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
connect(serverSocket, &QLocalSocket::disconnected, &QLocalSocket::deleteLater);
serverSocket->write(lines.at(i));
serverSocket->flush();
QVERIFY(clientReadyReadSpy.wait());
QCOMPARE(client.readAll(), lines.at(i));
QVERIFY(clientErrorSpy.isEmpty());
}
}
void tst_QLocalSocket::multiConnect()
{
QLocalServer server;
QLocalSocket client1;
QLocalSocket client2;
QLocalSocket client3;
QVERIFY(server.listen("multiconnect"));
client1.connectToServer("multiconnect");
client2.connectToServer("multiconnect");
client3.connectToServer("multiconnect");
QVERIFY(client1.waitForConnected(201));
QVERIFY(client2.waitForConnected(202));
QVERIFY(client3.waitForConnected(203));
QVERIFY(server.waitForNewConnection(201));
QVERIFY(server.nextPendingConnection() != 0);
QVERIFY(server.waitForNewConnection(202));
QVERIFY(server.nextPendingConnection() != 0);
QVERIFY(server.waitForNewConnection(203));
QVERIFY(server.nextPendingConnection() != 0);
}
void tst_QLocalSocket::writeOnlySocket()
{
QLocalServer server;
QVERIFY(server.listen("writeOnlySocket"));
QLocalSocket client;
client.connectToServer("writeOnlySocket", QIODevice::WriteOnly);
QVERIFY(client.waitForConnected());
QVERIFY(server.waitForNewConnection(200));
QLocalSocket* serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
QCOMPARE(client.bytesAvailable(), qint64(0));
QCOMPARE(client.state(), QLocalSocket::ConnectedState);
}
void tst_QLocalSocket::writeToClientAndDisconnect_data()
{
QTest::addColumn<int>("chunks");
QTest::newRow("one chunk") << 1;
QTest::newRow("several chunks") << 20;
}
void tst_QLocalSocket::writeToClientAndDisconnect()
{
QFETCH(int, chunks);
QLocalServer server;
QLocalSocket client;
QSignalSpy readChannelFinishedSpy(&client, SIGNAL(readChannelFinished()));
QVERIFY(server.listen("writeAndDisconnectServer"));
client.connectToServer("writeAndDisconnectServer");
QVERIFY(client.waitForConnected(200));
QVERIFY(server.waitForNewConnection(200));
QLocalSocket* clientSocket = server.nextPendingConnection();
QVERIFY(clientSocket);
char buffer[100];
memset(buffer, 0, sizeof(buffer));
for (int i = 0; i < chunks; ++i)
QCOMPARE(clientSocket->write(buffer, sizeof(buffer)), qint64(sizeof(buffer)));
while (clientSocket->bytesToWrite())
QVERIFY(clientSocket->waitForBytesWritten());
clientSocket->close();
server.close();
client.waitForDisconnected();
QCOMPARE(readChannelFinishedSpy.count(), 1);
const QByteArray received = client.readAll();
QCOMPARE(received.size(), qint64(sizeof(buffer) * chunks));
QCOMPARE(client.state(), QLocalSocket::UnconnectedState);
}
void tst_QLocalSocket::debug()
{
// Make sure this compiles
QTest::ignoreMessage(QtDebugMsg, "QLocalSocket::ConnectionRefusedError QLocalSocket::UnconnectedState");
qDebug() << QLocalSocket::ConnectionRefusedError << QLocalSocket::UnconnectedState;
}
class WriteThread : public QThread
{
Q_OBJECT
public:
void run() {
QLocalSocket socket;
socket.connectToServer("qlocalsocket_readyread");
if (!socket.waitForConnected(3000))
exec();
connect(&socket, SIGNAL(bytesWritten(qint64)),
this, SLOT(bytesWritten(qint64)), Qt::QueuedConnection);
socket.write("testing\n");
exec();
}
public slots:
void bytesWritten(qint64) {
exit();
}
private:
};
/*
Tests the emission of the bytesWritten(qint64)
signal.
Create a thread that will write to a socket.
If the bytesWritten(qint64) signal is generated,
the slot connected to it will exit the thread,
indicating test success.
*/
void tst_QLocalSocket::bytesWrittenSignal()
{
QLocalServer server;
QVERIFY(server.listen("qlocalsocket_readyread"));
WriteThread writeThread;
writeThread.start();
bool timedOut = false;
QVERIFY(server.waitForNewConnection(3000, &timedOut));
QVERIFY(!timedOut);
QTest::qWait(2000);
QVERIFY(writeThread.wait(2000));
}
void tst_QLocalSocket::syncDisconnectNotify()
{
QLocalServer server;
QVERIFY(server.listen("syncDisconnectNotify"));
QLocalSocket client;
client.connectToServer("syncDisconnectNotify");
QVERIFY(server.waitForNewConnection());
QLocalSocket* serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
delete serverSocket;
QCOMPARE(client.waitForReadyRead(), false);
}
void tst_QLocalSocket::asyncDisconnectNotify()
{
QLocalServer server;
QVERIFY(server.listen("asyncDisconnectNotify"));
QLocalSocket client;
QSignalSpy disconnectedSpy(&client, SIGNAL(disconnected()));
client.connectToServer("asyncDisconnectNotify");
QVERIFY(server.waitForNewConnection());
QLocalSocket* serverSocket = server.nextPendingConnection();
QVERIFY(serverSocket);
delete serverSocket;
QTRY_VERIFY(!disconnectedSpy.isEmpty());
}
void tst_QLocalSocket::verifySocketOptions_data()
{
#ifdef Q_OS_LINUX
QTest::addColumn<QString>("service");
QTest::addColumn<QLocalServer::SocketOption>("opts");
QTest::addColumn<QFile::Permissions>("perms");
QFile::Permissions p = QFile::ExeOwner|QFile::WriteOwner|QFile::ReadOwner |
QFile::ExeUser|QFile::WriteUser|QFile::ReadUser;
QTest::newRow("user") << "userPerms" << QLocalServer::UserAccessOption << p;
p = QFile::ExeGroup|QFile::WriteGroup|QFile::ReadGroup;
QTest::newRow("group") << "groupPerms" << QLocalServer::GroupAccessOption << p;
p = QFile::ExeOther|QFile::WriteOther|QFile::ReadOther;
QTest::newRow("other") << "otherPerms" << QLocalServer::OtherAccessOption << p;
p = QFile::ExeOwner|QFile::WriteOwner|QFile::ReadOwner|
QFile::ExeUser|QFile::WriteUser|QFile::ReadUser |
QFile::ExeGroup|QFile::WriteGroup|QFile::ReadGroup|
QFile::ExeOther|QFile::WriteOther|QFile::ReadOther;
QTest::newRow("all") << "worldPerms" << QLocalServer::WorldAccessOption << p;
#endif
}
void tst_QLocalSocket::verifySocketOptions()
{
// These are only guaranteed to be useful on linux at this time
#ifdef Q_OS_LINUX
QFETCH(QString, service);
QFETCH(QLocalServer::SocketOption, opts);
QFETCH(QFile::Permissions, perms);
QLocalServer::removeServer(service);
QLocalServer server;
server.setSocketOptions(opts);
QVERIFY2(server.listen(service), "service failed to start listening");
// find the socket
QString fullServerPath = QDir::cleanPath(QDir::tempPath());
fullServerPath += QLatin1Char('/') + service;
QFile socketFile(fullServerPath);
QVERIFY2(perms == socketFile.permissions(), "permissions on the socket don't match");
#endif
}
void tst_QLocalSocket::verifyListenWithDescriptor()
{
#ifdef Q_OS_UNIX
QFETCH(QString, path);
QFETCH(bool, abstract);
QFETCH(bool, bound);
// qDebug() << "socket" << path << abstract;
int listenSocket;
if (bound) {
// create the unix socket
listenSocket = ::socket(PF_UNIX, SOCK_STREAM, 0);
QVERIFY2(listenSocket != -1, "failed to create test socket");
// Construct the unix address
struct ::sockaddr_un addr;
addr.sun_family = PF_UNIX;
QVERIFY2(sizeof(addr.sun_path) > ((uint)path.size() + 1), "path to large to create socket");
::memset(addr.sun_path, 0, sizeof(addr.sun_path));
if (abstract)
::memcpy(addr.sun_path+1, path.toLatin1().data(), path.toLatin1().size());
else
::memcpy(addr.sun_path, path.toLatin1().data(), path.toLatin1().size());
if (path.startsWith(QLatin1Char('/'))) {
::unlink(path.toLatin1());
}
QVERIFY2(-1 != ::bind(listenSocket, (sockaddr *)&addr, sizeof(sockaddr_un)), "failed to bind test socket to address");
// listen for connections
QVERIFY2(-1 != ::listen(listenSocket, 50), "failed to call listen on test socket");
} else {
int fds[2];
QVERIFY2(-1 != ::socketpair(PF_UNIX, SOCK_STREAM, 0, fds), "failed to create socket pair");
listenSocket = fds[0];
close(fds[1]);
}
QLocalServer server;
QVERIFY2(server.listen(listenSocket), "failed to start create QLocalServer with local socket");
#ifdef Q_OS_LINUX
const QChar at(QLatin1Char('@'));
if (!bound) {
QCOMPARE(server.serverName().at(0), at);
QCOMPARE(server.fullServerName().at(0), at);
} else if (abstract) {
QVERIFY2(server.fullServerName().at(0) == at, "abstract sockets should start with a '@'");
} else {
QCOMPARE(server.fullServerName(), path);
if (path.contains(QLatin1String("/"))) {
QVERIFY2(server.serverName() == path.mid(path.lastIndexOf(QLatin1Char('/'))+1), "server name invalid short name");
} else {
QVERIFY2(server.serverName() == path, "servier name doesn't match the path provided");
}
}
#else
QVERIFY(server.serverName().isEmpty());
QVERIFY(server.fullServerName().isEmpty());
#endif
#endif
}
void tst_QLocalSocket::verifyListenWithDescriptor_data()
{
#ifdef Q_OS_UNIX
QTest::addColumn<QString>("path");
QTest::addColumn<bool>("abstract");
QTest::addColumn<bool>("bound");
QTest::newRow("normal") << QDir::tempPath() + QLatin1String("/testsocket") << false << true;
#ifdef Q_OS_LINUX
QTest::newRow("abstract") << QString::fromLatin1("abstractsocketname") << true << true;
QTest::newRow("abstractwithslash") << QString::fromLatin1("abstractsocketwitha/inthename") << true << true;
#endif
QTest::newRow("no path") << QString::fromLatin1("/invalid/no path name specified") << true << false;
#endif
}
QTEST_MAIN(tst_QLocalSocket)
#include "tst_qlocalsocket.moc"