kwin/autotests/wayland/server/test_datacontrol_interface.cpp
Vlad Zahorodnii 7d56aa3687 Merge wayland tests with other tests
This makes wayland tests organization consistent with other kwin tests.
2023-10-06 11:21:00 +00:00

385 lines
12 KiB
C++

/*
SPDX-FileCopyrightText: 2020 David Edmundson <davidedmundson@kde.org>
SPDX-FileCopyrightText: 2021 David Redondo <kde@david-redondo.de>
SPDX-License-Identifier: LGPL-2.1-only OR LGPL-3.0-only OR LicenseRef-KDE-Accepted-LGPL
*/
// Qt
#include <QHash>
#include <QSignalSpy>
#include <QTest>
#include <QThread>
// WaylandServer
#include "wayland/compositor.h"
#include "wayland/datacontroldevice_v1.h"
#include "wayland/datacontroldevicemanager_v1.h"
#include "wayland/datacontrolsource_v1.h"
#include "wayland/display.h"
#include "wayland/seat.h"
#include <KWayland/Client/compositor.h>
#include <KWayland/Client/connection_thread.h>
#include <KWayland/Client/event_queue.h>
#include <KWayland/Client/registry.h>
#include <KWayland/Client/seat.h>
#include "qwayland-wlr-data-control-unstable-v1.h"
using namespace KWin;
// Faux-client API for tests
Q_DECLARE_OPAQUE_POINTER(::zwlr_data_control_offer_v1 *)
Q_DECLARE_METATYPE(::zwlr_data_control_offer_v1 *)
class DataControlDeviceManager : public QObject, public QtWayland::zwlr_data_control_manager_v1
{
Q_OBJECT
};
class DataControlOffer : public QObject, public QtWayland::zwlr_data_control_offer_v1
{
Q_OBJECT
public:
~DataControlOffer()
{
destroy();
}
QStringList receivedOffers()
{
return m_receivedOffers;
}
protected:
virtual void zwlr_data_control_offer_v1_offer(const QString &mime_type) override
{
m_receivedOffers << mime_type;
}
private:
QStringList m_receivedOffers;
};
class DataControlDevice : public QObject, public QtWayland::zwlr_data_control_device_v1
{
Q_OBJECT
public:
~DataControlDevice()
{
destroy();
}
Q_SIGNALS:
void dataControlOffer(DataControlOffer *offer); // our event receives a new ID, so we make a new object
void selection(struct ::zwlr_data_control_offer_v1 *id);
void primary_selection(struct ::zwlr_data_control_offer_v1 *id);
protected:
void zwlr_data_control_device_v1_data_offer(struct ::zwlr_data_control_offer_v1 *id) override
{
auto offer = new DataControlOffer;
offer->init(id);
Q_EMIT dataControlOffer(offer);
}
void zwlr_data_control_device_v1_selection(struct ::zwlr_data_control_offer_v1 *id) override
{
Q_EMIT selection(id);
}
void zwlr_data_control_device_v1_primary_selection(struct ::zwlr_data_control_offer_v1 *id) override
{
Q_EMIT primary_selection(id);
}
};
class DataControlSource : public QObject, public QtWayland::zwlr_data_control_source_v1
{
Q_OBJECT
public:
~DataControlSource()
{
destroy();
}
public:
};
class TestDataSource : public AbstractDataSource
{
Q_OBJECT
public:
TestDataSource()
: AbstractDataSource(nullptr)
{
}
~TestDataSource()
{
Q_EMIT aboutToBeDestroyed();
}
void requestData(const QString &mimeType, qint32 fd) override
{
};
void cancel() override{};
QStringList mimeTypes() const override
{
return {"text/test1", "text/test2"};
}
};
// The test itself
class DataControlInterfaceTest : public QObject
{
Q_OBJECT
private Q_SLOTS:
void init();
void cleanup();
void testCopyToControl();
void testCopyToControlPrimarySelection();
void testCopyFromControl();
void testCopyFromControlPrimarySelection();
void testKlipperCase();
private:
KWayland::Client::ConnectionThread *m_connection;
KWayland::Client::EventQueue *m_queue;
KWayland::Client::Compositor *m_clientCompositor;
KWayland::Client::Seat *m_clientSeat = nullptr;
QThread *m_thread;
KWin::Display *m_display;
SeatInterface *m_seat;
CompositorInterface *m_serverCompositor;
DataControlDeviceManagerV1Interface *m_dataControlDeviceManagerInterface;
DataControlDeviceManager *m_dataControlDeviceManager;
QVector<SurfaceInterface *> m_surfaces;
};
static const QString s_socketName = QStringLiteral("kwin-wayland-datacontrol-test-0");
void DataControlInterfaceTest::init()
{
m_display = new KWin::Display();
m_display->addSocketName(s_socketName);
m_display->start();
QVERIFY(m_display->isRunning());
m_seat = new SeatInterface(m_display, this);
m_serverCompositor = new CompositorInterface(m_display, this);
m_dataControlDeviceManagerInterface = new DataControlDeviceManagerV1Interface(m_display, this);
// setup connection
m_connection = new KWayland::Client::ConnectionThread;
QSignalSpy connectedSpy(m_connection, &KWayland::Client::ConnectionThread::connected);
m_connection->setSocketName(s_socketName);
m_thread = new QThread(this);
m_connection->moveToThread(m_thread);
m_thread->start();
m_connection->initConnection();
QVERIFY(connectedSpy.wait());
QVERIFY(!m_connection->connections().isEmpty());
m_queue = new KWayland::Client::EventQueue(this);
QVERIFY(!m_queue->isValid());
m_queue->setup(m_connection);
QVERIFY(m_queue->isValid());
KWayland::Client::Registry registry;
connect(&registry, &KWayland::Client::Registry::interfaceAnnounced, this, [this, &registry](const QByteArray &interface, quint32 name, quint32 version) {
if (interface == "zwlr_data_control_manager_v1") {
m_dataControlDeviceManager = new DataControlDeviceManager;
m_dataControlDeviceManager->init(registry.registry(), name, version);
}
});
connect(&registry, &KWayland::Client::Registry::seatAnnounced, this, [this, &registry](quint32 name, quint32 version) {
m_clientSeat = registry.createSeat(name, version);
});
registry.setEventQueue(m_queue);
QSignalSpy compositorSpy(&registry, &KWayland::Client::Registry::compositorAnnounced);
registry.create(m_connection->display());
QVERIFY(registry.isValid());
registry.setup();
wl_display_flush(m_connection->display());
QVERIFY(compositorSpy.wait());
m_clientCompositor = registry.createCompositor(compositorSpy.first().first().value<quint32>(), compositorSpy.first().last().value<quint32>(), this);
QVERIFY(m_clientCompositor->isValid());
QVERIFY(m_dataControlDeviceManager);
}
void DataControlInterfaceTest::cleanup()
{
#define CLEANUP(variable) \
if (variable) { \
delete variable; \
variable = nullptr; \
}
CLEANUP(m_dataControlDeviceManager)
CLEANUP(m_clientSeat)
CLEANUP(m_clientCompositor)
CLEANUP(m_queue)
if (m_connection) {
m_connection->deleteLater();
m_connection = nullptr;
}
if (m_thread) {
m_thread->quit();
m_thread->wait();
delete m_thread;
m_thread = nullptr;
}
CLEANUP(m_display)
#undef CLEANUP
// these are the children of the display
m_seat = nullptr;
m_serverCompositor = nullptr;
}
void DataControlInterfaceTest::testCopyToControl()
{
// we set a dummy data source on the seat using abstract client directly
// then confirm we receive the offer despite not having a surface
std::unique_ptr<DataControlDevice> dataControlDevice(new DataControlDevice);
dataControlDevice->init(m_dataControlDeviceManager->get_data_device(*m_clientSeat));
QSignalSpy newOfferSpy(dataControlDevice.get(), &DataControlDevice::dataControlOffer);
QSignalSpy selectionSpy(dataControlDevice.get(), &DataControlDevice::selection);
std::unique_ptr<TestDataSource> testSelection(new TestDataSource);
m_seat->setSelection(testSelection.get());
// selection will be sent after we've been sent a new offer object and the mimes have been sent to that object
selectionSpy.wait();
QCOMPARE(newOfferSpy.count(), 1);
std::unique_ptr<DataControlOffer> offer(newOfferSpy.first().first().value<DataControlOffer *>());
QCOMPARE(selectionSpy.first().first().value<struct ::zwlr_data_control_offer_v1 *>(), offer->object());
QCOMPARE(offer->receivedOffers().count(), 2);
QCOMPARE(offer->receivedOffers()[0], "text/test1");
QCOMPARE(offer->receivedOffers()[1], "text/test2");
}
void DataControlInterfaceTest::testCopyToControlPrimarySelection()
{
// we set a dummy data source on the seat using abstract client directly
// then confirm we receive the offer despite not having a surface
std::unique_ptr<DataControlDevice> dataControlDevice(new DataControlDevice);
dataControlDevice->init(m_dataControlDeviceManager->get_data_device(*m_clientSeat));
QSignalSpy newOfferSpy(dataControlDevice.get(), &DataControlDevice::dataControlOffer);
QSignalSpy selectionSpy(dataControlDevice.get(), &DataControlDevice::primary_selection);
std::unique_ptr<TestDataSource> testSelection(new TestDataSource);
m_seat->setPrimarySelection(testSelection.get());
// selection will be sent after we've been sent a new offer object and the mimes have been sent to that object
selectionSpy.wait();
QCOMPARE(newOfferSpy.count(), 1);
std::unique_ptr<DataControlOffer> offer(newOfferSpy.first().first().value<DataControlOffer *>());
QCOMPARE(selectionSpy.first().first().value<struct ::zwlr_data_control_offer_v1 *>(), offer->object());
QCOMPARE(offer->receivedOffers().count(), 2);
QCOMPARE(offer->receivedOffers()[0], "text/test1");
QCOMPARE(offer->receivedOffers()[1], "text/test2");
}
void DataControlInterfaceTest::testCopyFromControl()
{
// we create a data device and set a selection
// then confirm the server sees the new selection
QSignalSpy serverSelectionChangedSpy(m_seat, &SeatInterface::selectionChanged);
std::unique_ptr<DataControlDevice> dataControlDevice(new DataControlDevice);
dataControlDevice->init(m_dataControlDeviceManager->get_data_device(*m_clientSeat));
std::unique_ptr<DataControlSource> source(new DataControlSource);
source->init(m_dataControlDeviceManager->create_data_source());
source->offer("cheese/test1");
source->offer("cheese/test2");
dataControlDevice->set_selection(source->object());
serverSelectionChangedSpy.wait();
QVERIFY(m_seat->selection());
QCOMPARE(m_seat->selection()->mimeTypes(), QStringList({"cheese/test1", "cheese/test2"}));
}
void DataControlInterfaceTest::testCopyFromControlPrimarySelection()
{
// we create a data device and set a selection
// then confirm the server sees the new selection
QSignalSpy serverSelectionChangedSpy(m_seat, &SeatInterface::primarySelectionChanged);
std::unique_ptr<DataControlDevice> dataControlDevice(new DataControlDevice);
dataControlDevice->init(m_dataControlDeviceManager->get_data_device(*m_clientSeat));
std::unique_ptr<DataControlSource> source(new DataControlSource);
source->init(m_dataControlDeviceManager->create_data_source());
source->offer("cheese/test1");
source->offer("cheese/test2");
dataControlDevice->set_primary_selection(source->object());
serverSelectionChangedSpy.wait();
QVERIFY(m_seat->primarySelection());
QCOMPARE(m_seat->primarySelection()->mimeTypes(), QStringList({"cheese/test1", "cheese/test2"}));
}
void DataControlInterfaceTest::testKlipperCase()
{
// This tests the setup of klipper's real world operation and a race with a common pattern seen between clients and klipper
// The client's behaviour is faked with direct access to the seat
std::unique_ptr<DataControlDevice> dataControlDevice(new DataControlDevice);
dataControlDevice->init(m_dataControlDeviceManager->get_data_device(*m_clientSeat));
QSignalSpy newOfferSpy(dataControlDevice.get(), &DataControlDevice::dataControlOffer);
QSignalSpy selectionSpy(dataControlDevice.get(), &DataControlDevice::selection);
QSignalSpy serverSelectionChangedSpy(m_seat, &SeatInterface::selectionChanged);
// Client A has a data source
std::unique_ptr<TestDataSource> testSelection(new TestDataSource);
m_seat->setSelection(testSelection.get());
// klipper gets it
selectionSpy.wait();
// Client A deletes it
testSelection.reset();
// klipper gets told
selectionSpy.wait();
// Client A sets something else
std::unique_ptr<TestDataSource> testSelection2(new TestDataSource);
m_seat->setSelection(testSelection2.get());
// Meanwhile klipper updates with the old content
std::unique_ptr<DataControlSource> source(new DataControlSource);
source->init(m_dataControlDeviceManager->create_data_source());
source->offer("fromKlipper/test1");
source->offer("application/x-kde-onlyReplaceEmpty");
dataControlDevice->set_selection(source->object());
QVERIFY(!serverSelectionChangedSpy.wait(10));
QCOMPARE(m_seat->selection(), testSelection2.get());
}
QTEST_GUILESS_MAIN(DataControlInterfaceTest)
#include "test_datacontrol_interface.moc"