void tst_QLlcpSocket::tst_construction()
{
QLlcpSocket socket;
QVERIFY(!socket.isOpen());
QCOMPARE(socket.state(), QLlcpSocket::UnconnectedState);
QCOMPARE(socket.error(), QLlcpSocket::UnknownSocketError);
QVERIFY(!socket.hasPendingDatagrams());
QCOMPARE(socket.pendingDatagramSize(), Q_INT64_C(-1));
QCOMPARE(socket.bytesAvailable(), Q_INT64_C(0));
QVERIFY(!socket.canReadLine());
QVERIFY(socket.isSequential());
}
void tst_QLlcpSocket::tst_invalidServiceUri()
{
QLatin1String invalidServiceUri("invalid");
QLlcpSocket *socket = new QLlcpSocket;
QSignalSpy stateSpy(socket, SIGNAL(stateChanged(QLlcpSocket::SocketState)));
QSignalSpy errorSpy(socket, SIGNAL(error(QLlcpSocket::SocketError)));
socket->connectToService(0, invalidServiceUri);
QCOMPARE(stateSpy.count(), 1);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::ConnectingState);
QCOMPARE(socket->state(), QLlcpSocket::ConnectingState);
QTRY_VERIFY(!errorSpy.isEmpty());
QCOMPARE(stateSpy.count(), 1);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::UnconnectedState);
QCOMPARE(socket->state(), QLlcpSocket::UnconnectedState);
QCOMPARE(errorSpy.takeFirst().at(0).value<QLlcpSocket::SocketError>(),
QLlcpSocket::SocketAccessError);
QCOMPARE(socket->error(), QLlcpSocket::SocketAccessError);
QVERIFY(!socket->errorString().isEmpty());
delete socket;
}
/*!
Description: LLCP Server API test & Socket readDatagram API test
TestScenario:
1) Read two datagrams from llcp client device
2) Covered API: readDatagram(), serviceUri(), servicePort(), isListening(), serverError()
*/
void tst_QLlcpServer::api_coverage()
{
QString uri = TestUri;
QLlcpServer server;
QSignalSpy connectionSpy(&server, SIGNAL(newConnection()));
bool ret = server.listen(uri);
QVERIFY(ret);
QString message("api_coverage test");
QNfcTestUtil::ShowAutoMsg(message, &connectionSpy, 1);
QTRY_VERIFY(!connectionSpy.isEmpty());
bool hasPending = server.hasPendingConnections();
QVERIFY(hasPending);
QLlcpSocket *socket = server.nextPendingConnection();
QVERIFY(socket != NULL);
QSignalSpy readyReadSpy(socket, SIGNAL(readyRead()));
//Get data from client
QTRY_VERIFY(!readyReadSpy.isEmpty());
qint64 size = socket->bytesAvailable();
QTRY_VERIFY(size > 0);
QByteArray datagram;
datagram.resize(size);
qint64 readSize = socket->readDatagram(datagram.data(), datagram.size());
QVERIFY(readSize == size);
qDebug()<<"Server Uri = " << server.serviceUri();
QCOMPARE(uri,server.serviceUri());
quint8 unsupportedPort = 0;
QCOMPARE(unsupportedPort,server.serverPort());
QVERIFY(server.isListening() == true);
QVERIFY(server.serverError() == QLlcpSocket::UnknownSocketError);
server.close();
}
/*!
Description: Add a llcp2 server which will always
run( actually run twice ), then a client in a device connect,
after the case finish, another device connect the
server again.
CounterPart: tst_qllcpsockettype2 echo:"0"
run this case twice to test multiConnection()
*/
void tst_QLlcpServer::multiConnection()
{
QString uri = TestUri;
QString hint ="multiConnection test";
QLlcpServer server;
qDebug() << "Create QLlcpServer completed";
qDebug() << "Start listening...";
QSignalSpy connectionSpy(&server, SIGNAL(newConnection()));
bool ret = server.listen(uri);
QVERIFY(ret);
qDebug() << "Listen() return ok";
const int KLoopCount = 2;
int loopCount = 0;
while(loopCount < KLoopCount)
{
qDebug() << "#########Loop count = " << loopCount <<" #########";
QNfcTestUtil::ShowAutoMsg(hint, &connectionSpy, 1);
QTRY_VERIFY(!connectionSpy.isEmpty());
qDebug() << "try to call nextPendingConnection()";
QLlcpSocket *socket = server.nextPendingConnection();
QVERIFY(socket != NULL);
QSignalSpy readyReadSpy(socket, SIGNAL(readyRead()));
QSignalSpy errorSpy(socket, SIGNAL(error(QLlcpSocket::SocketError)));
//Get data from client
QTRY_VERIFY(!readyReadSpy.isEmpty());
qDebug() << "Bytes available = " << socket->bytesAvailable();
quint16 blockSize = 0;
QDataStream in(socket);
in.setVersion(QDataStream::Qt_4_6);
while (socket->bytesAvailable() < (int)sizeof(quint16)) {
QSignalSpy readyRead(socket, SIGNAL(readyRead()));
QTRY_VERIFY(!readyRead.isEmpty());
}
in >> blockSize;
qDebug()<<"Read blockSize from client: " << blockSize;
while (socket ->bytesAvailable() < blockSize) {
QSignalSpy readyRead(socket, SIGNAL(readyRead()));
QTRY_VERIFY(!readyRead.isEmpty());
}
QString echo;
in >> echo;
qDebug() << "Read data from client:" << echo;
//Send data to client
QSignalSpy bytesWrittenSpy(socket, SIGNAL(bytesWritten(qint64)));
QByteArray block;
QDataStream out(&block, QIODevice::WriteOnly);
out.setVersion(QDataStream::Qt_4_6);
out << (quint16)0;
out << echo;
qDebug()<<"Write echoed data back to client";
out.device()->seek(0);
out << (quint16)(block.size() - sizeof(quint16));
qint64 val = socket->write(block);
qDebug("Write() return value = %d", val);
QVERIFY(val == 0);
QTRY_VERIFY(!bytesWrittenSpy.isEmpty());
qint64 written = countBytesWritten(bytesWrittenSpy);
qDebug()<<"Server::bytesWritten signal return value = " << written;
while (written < block.size())
{
QSignalSpy bytesWrittenSpy(socket, SIGNAL(bytesWritten(qint64)));
QTRY_VERIFY(!bytesWrittenSpy.isEmpty());
written += countBytesWritten(bytesWrittenSpy);
}
QVERIFY(written == block.size());
//Now data has been sent,check the if existing error
QVERIFY(errorSpy.isEmpty());
connectionSpy.removeFirst();
loopCount++;
}
QTest::qWait(1500);//give some time to client to finish
server.close();
}
/*!
Description: Unit test for NFC LLCP server sync(waitXXX) functions
TestScenario: 1. Server will listen to a pre-defined URI
2. Wait client to connect.
3. Read message from client.
4. Echo the same message back to client
5. Wait client disconnect event.
TestExpectedResults:
1. The listen successfully set up.
2. The message has be received from client.
3. The echoed message has been sent to client.
4. Connection disconnected and NO error signals emitted.
*/
void tst_QLlcpServer::newConnection_wait()
{
QFETCH(QString, uri);
QFETCH(QString, hint);
QLlcpServer server;
qDebug() << "Create QLlcpServer completed";
qDebug() << "Start listening...";
bool ret = server.listen(uri);
QVERIFY(ret);
qDebug() << "Listen() return ok";
QSignalSpy connectionSpy(&server, SIGNAL(newConnection()));
QNfcTestUtil::ShowAutoMsg(hint, &connectionSpy, 1);
QTRY_VERIFY(!connectionSpy.isEmpty());
qDebug() << "try to call nextPendingConnection()";
QLlcpSocket *socket = server.nextPendingConnection();
QVERIFY(socket != NULL);
QSignalSpy errorSpy(socket, SIGNAL(error(QLlcpSocket::SocketError)));
//Get data from client
const int Timeout = 10 * 1000;
quint16 blockSize = 0;
QDataStream in(socket);
in.setVersion(QDataStream::Qt_4_6);
while (socket->bytesAvailable() < (int)sizeof(quint16)) {
bool ret = socket->waitForReadyRead(Timeout);
QVERIFY(ret);
}
in >> blockSize;
qDebug()<<"Read blockSize from client: " << blockSize;
while (socket ->bytesAvailable() < blockSize) {
bool ret = socket->waitForReadyRead(Timeout);
QVERIFY(ret);
}
QString echo;
in >> echo;
qDebug() << "Read data from client:" << echo;
//Send data to client
QSignalSpy bytesWrittenSpy(socket, SIGNAL(bytesWritten(qint64)));
QByteArray block;
QDataStream out(&block, QIODevice::WriteOnly);
out.setVersion(QDataStream::Qt_4_6);
out << (quint16)0;
out << echo;
qDebug()<<"Write echoed data back to client";
out.device()->seek(0);
out << (quint16)(block.size() - sizeof(quint16));
qint64 val = socket->write(block);
qDebug("Write() return value = %d", val);
QVERIFY(val == 0);
ret = socket->waitForBytesWritten(Timeout);
QVERIFY(ret);
QTRY_VERIFY(!bytesWrittenSpy.isEmpty());
qint64 written = countBytesWritten(bytesWrittenSpy);
while (written < block.size())
{
QSignalSpy bytesWrittenSpy(socket, SIGNAL(bytesWritten(qint64)));
bool ret = socket->waitForBytesWritten(Timeout);
QVERIFY(ret);
QTRY_VERIFY(!bytesWrittenSpy.isEmpty());
written += countBytesWritten(bytesWrittenSpy);
}
QVERIFY(written == block.size());
//Now data has been sent,check the if existing error
if (!errorSpy.isEmpty())
{
QLlcpSocket::SocketError error = errorSpy.first().at(0).value<QLlcpSocket::SocketError>();
qDebug("QLlcpSocket::SocketError =%d", error);
}
QVERIFY(errorSpy.isEmpty());
QTest::qWait(1500);//give some time to client to finish
server.close();
}
void tst_QLlcpSocket::tst_waitFor()
{
QFETCH(ClientConnectionShutdown, shutdown);
QString service = QLatin1String("urn:nfc:sn:com.nokia.qtmobility.commandserver.stream");
/* Construction */
QLlcpSocket *socket = new QLlcpSocket;
QCOMPARE(socket->state(), QLlcpSocket::UnconnectedState);
/* Connection */
socket->connectToService(0, service);
QCOMPARE(socket->state(), QLlcpSocket::ConnectingState);
QVERIFY(socket->waitForConnected());
QCOMPARE(socket->state(), QLlcpSocket::ConnectedState);
/* Verify connected to correct service */
{
socket->write("URI\n");
QVERIFY(socket->waitForBytesWritten());
QVERIFY(socket->waitForReadyRead());
const QByteArray line = socket->readLine().trimmed();
QCOMPARE(line, service.toLatin1());
}
/* Shutdown */
switch (shutdown) {
case ServerDisconnect:
socket->write("DISCONNECT\n");
break;
case ServerClose:
socket->write("CLOSE\n");
break;
case ClientDisconnect:
socket->disconnectFromService();
QCOMPARE(socket->state(), QLlcpSocket::ClosingState);
break;
case ClientClose:
socket->close();
QCOMPARE(socket->state(), QLlcpSocket::ClosingState);
break;
}
QVERIFY(socket->waitForDisconnected());
QVERIFY(!socket->isOpen());
QCOMPARE(socket->state(), QLlcpSocket::UnconnectedState);
if (shutdown == ServerDisconnect || shutdown == ServerClose)
QCOMPARE(socket->error(), QLlcpSocket::RemoteHostClosedError);
delete socket;
}
void tst_QLlcpSocket::tst_clientConnection()
{
QFETCH(ClientConnectionShutdown, shutdown);
QFETCH(bool, stream);
QString service = QLatin1String("urn:nfc:sn:com.nokia.qtmobility.commandserver") +
(stream ? QLatin1String(".stream") : QLatin1String(".datagram"));
/* Construction */
QLlcpSocket *socket = new QLlcpSocket;
QSignalSpy stateSpy(socket, SIGNAL(stateChanged(QLlcpSocket::SocketState)));
QCOMPARE(socket->state(), QLlcpSocket::UnconnectedState);
/* Connection */
QSignalSpy connectedSpy(socket, SIGNAL(connected()));
QSignalSpy errorSpy(socket, SIGNAL(error(QLlcpSocket::SocketError)));
socket->connectToService(0, service);
QCOMPARE(stateSpy.count(), 1);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::ConnectingState);
QCOMPARE(socket->state(), QLlcpSocket::ConnectingState);
stateSpy.clear();
QTRY_VERIFY_TIMEOUT(30000, !connectedSpy.isEmpty() || !errorSpy.isEmpty());
if (errorSpy.count() != 0) {
qDebug() << errorSpy.takeFirst().at(0).toInt();
QSKIP("Connection error", SkipSingle);
}
QCOMPARE(connectedSpy.count(), 1);
QCOMPARE(stateSpy.count(), 1);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::ConnectedState);
QCOMPARE(socket->state(), QLlcpSocket::ConnectedState);
stateSpy.clear();
QSignalSpy bytesWrittenSpy(socket, SIGNAL(bytesWritten(qint64)));
QSignalSpy readyReadSpy(socket, SIGNAL(readyRead()));
/* Verify connected to correct service */
if (stream) {
socket->write("URI\n");
QCOMPARE(bytesWrittenSpy.count(), 1);
QCOMPARE(bytesWrittenSpy.takeFirst().at(0).value<qint64>(), qint64(4));
QTRY_VERIFY(!readyReadSpy.isEmpty() && socket->canReadLine());
const QByteArray line = socket->readLine().trimmed();
QCOMPARE(line, service.toLatin1());
} else {
socket->writeDatagram("URI");
QCOMPARE(bytesWrittenSpy.count(), 1);
QCOMPARE(bytesWrittenSpy.takeFirst().at(0).value<qint64>(), qint64(3));
QTRY_VERIFY(!readyReadSpy.isEmpty() && socket->hasPendingDatagrams());
QByteArray datagram;
datagram.resize(socket->pendingDatagramSize());
socket->readDatagram(datagram.data(), datagram.size());
QCOMPARE(datagram, service.toLatin1());
}
bytesWrittenSpy.clear();
readyReadSpy.clear();
/* Read / Write */
if (stream) {
QByteArray data("ECHO Test data\n");
socket->write(data);
QCOMPARE(bytesWrittenSpy.count(), 1);
QCOMPARE(bytesWrittenSpy.takeFirst().at(0).value<qint64>(), qint64(data.size()));
QTRY_VERIFY(!readyReadSpy.isEmpty());
const QByteArray line = socket->readLine().trimmed();
QCOMPARE(line.constData(), "Test data");
} else {
socket->writeDatagram("ECHO Test data");
QCOMPARE(bytesWrittenSpy.count(), 1);
QCOMPARE(bytesWrittenSpy.takeFirst().at(0).value<qint64>(), qint64(14));
QTRY_VERIFY(!readyReadSpy.isEmpty());
QByteArray datagram;
datagram.resize(socket->pendingDatagramSize());
socket->readDatagram(datagram.data(), datagram.size());
QCOMPARE(datagram.constData(), "Test data");
}
bytesWrittenSpy.clear();
readyReadSpy.clear();
QSignalSpy disconnectedSpy(socket, SIGNAL(disconnected()));
errorSpy.clear();
/* Shutdown */
switch (shutdown) {
case ServerDisconnect:
if (stream)
socket->write("DISCONNECT\n");
else
socket->writeDatagram("DISCONNECT");
break;
case ServerClose:
if (stream)
socket->write("CLOSE\n");
else
socket->writeDatagram("CLOSE");
break;
case ClientDisconnect:
socket->disconnectFromService();
break;
case ClientClose:
socket->close();
break;
}
QTRY_VERIFY(!disconnectedSpy.isEmpty());
QCOMPARE(disconnectedSpy.count(), 1);
QCOMPARE(stateSpy.count(), 2);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::ClosingState);
QCOMPARE(stateSpy.takeFirst().at(0).value<QLlcpSocket::SocketState>(),
QLlcpSocket::UnconnectedState);
QVERIFY(!socket->isOpen());
if (shutdown == ServerDisconnect || shutdown == ServerClose) {
QTRY_VERIFY(!errorSpy.isEmpty());
QCOMPARE(errorSpy.count(), 1);
QCOMPARE(errorSpy.takeFirst().at(0).value<QLlcpSocket::SocketError>(),
QLlcpSocket::RemoteHostClosedError);
QCOMPARE(socket->error(), QLlcpSocket::RemoteHostClosedError);
}
delete socket;
}
