diff --git a/autotests/integration/pointer_constraints_test.cpp b/autotests/integration/pointer_constraints_test.cpp index 1225b6224..43b813c7a 100644 --- a/autotests/integration/pointer_constraints_test.cpp +++ b/autotests/integration/pointer_constraints_test.cpp @@ -1,405 +1,417 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2016 Martin Gräßlin This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "kwin_wayland_test.h" #include "cursor.h" #include "keyboard_input.h" #include "platform.h" #include "pointer_input.h" #include "shell_client.h" #include "screens.h" #include "wayland_server.h" #include "workspace.h" #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace KWin; using namespace KWayland::Client; typedef std::function PointerFunc; Q_DECLARE_METATYPE(PointerFunc) static const QString s_socketName = QStringLiteral("wayland_test_kwin_pointer_constraints-0"); class TestPointerConstraints : public QObject { Q_OBJECT private Q_SLOTS: void initTestCase(); void init(); void cleanup(); void testConfinedPointer_data(); void testConfinedPointer(); void testLockedPointer_data(); void testLockedPointer(); void testCloseWindowWithLockedPointer_data(); void testCloseWindowWithLockedPointer(); }; void TestPointerConstraints::initTestCase() { qRegisterMetaType(); qRegisterMetaType(); qRegisterMetaType(); QSignalSpy workspaceCreatedSpy(kwinApp(), &Application::workspaceCreated); QVERIFY(workspaceCreatedSpy.isValid()); kwinApp()->platform()->setInitialWindowSize(QSize(1280, 1024)); QMetaObject::invokeMethod(kwinApp()->platform(), "setVirtualOutputs", Qt::DirectConnection, Q_ARG(int, 2)); QVERIFY(waylandServer()->init(s_socketName.toLocal8Bit())); // set custom config which disables the OnScreenNotification KSharedConfig::Ptr config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup group = config->group("OnScreenNotification"); group.writeEntry(QStringLiteral("QmlPath"), QString("/does/not/exist.qml")); group.sync(); kwinApp()->setConfig(config); kwinApp()->start(); QVERIFY(workspaceCreatedSpy.wait()); QCOMPARE(screens()->count(), 2); QCOMPARE(screens()->geometry(0), QRect(0, 0, 1280, 1024)); QCOMPARE(screens()->geometry(1), QRect(1280, 0, 1280, 1024)); waylandServer()->initWorkspace(); } void TestPointerConstraints::init() { QVERIFY(Test::setupWaylandConnection(Test::AdditionalWaylandInterface::Seat | Test::AdditionalWaylandInterface::PointerConstraints)); QVERIFY(Test::waitForWaylandPointer()); screens()->setCurrent(0); KWin::Cursor::setPos(QPoint(1280, 512)); } void TestPointerConstraints::cleanup() { Test::destroyWaylandConnection(); } void TestPointerConstraints::testConfinedPointer_data() { QTest::addColumn("type"); QTest::addColumn("positionFunction"); QTest::addColumn("xOffset"); QTest::addColumn("yOffset"); PointerFunc bottomLeft = &QRect::bottomLeft; PointerFunc bottomRight = &QRect::bottomRight; PointerFunc topRight = &QRect::topRight; PointerFunc topLeft = &QRect::topLeft; QTest::newRow("wlShell - bottomLeft") << Test::ShellSurfaceType::WlShell << bottomLeft << -1 << 1; QTest::newRow("wlShell - bottomRight") << Test::ShellSurfaceType::WlShell << bottomRight << 1 << 1; QTest::newRow("wlShell - topLeft") << Test::ShellSurfaceType::WlShell << topLeft << -1 << -1; QTest::newRow("wlShell - topRight") << Test::ShellSurfaceType::WlShell << topRight << 1 << -1; QTest::newRow("XdgShellV5 - bottomLeft") << Test::ShellSurfaceType::XdgShellV5 << bottomLeft << -1 << 1; QTest::newRow("XdgShellV5 - bottomRight") << Test::ShellSurfaceType::XdgShellV5 << bottomRight << 1 << 1; QTest::newRow("XdgShellV5 - topLeft") << Test::ShellSurfaceType::XdgShellV5 << topLeft << -1 << -1; QTest::newRow("XdgShellV5 - topRight") << Test::ShellSurfaceType::XdgShellV5 << topRight << 1 << -1; QTest::newRow("XdgShellV6 - bottomLeft") << Test::ShellSurfaceType::XdgShellV6 << bottomLeft << -1 << 1; QTest::newRow("XdgShellV6 - bottomRight") << Test::ShellSurfaceType::XdgShellV6 << bottomRight << 1 << 1; QTest::newRow("XdgShellV6 - topLeft") << Test::ShellSurfaceType::XdgShellV6 << topLeft << -1 << -1; QTest::newRow("XdgShellV6 - topRight") << Test::ShellSurfaceType::XdgShellV6 << topRight << 1 << -1; } void TestPointerConstraints::testConfinedPointer() { // this test sets up a Surface with a confined pointer // simple interaction test to verify that the pointer gets confined QScopedPointer surface(Test::createSurface()); QFETCH(Test::ShellSurfaceType, type); QScopedPointer shellSurface(Test::createShellSurface(type, surface.data())); QScopedPointer pointer(Test::waylandSeat()->createPointer()); QScopedPointer confinedPointer(Test::waylandPointerConstraints()->confinePointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::OneShot)); QSignalSpy confinedSpy(confinedPointer.data(), &ConfinedPointer::confined); QVERIFY(confinedSpy.isValid()); QSignalSpy unconfinedSpy(confinedPointer.data(), &ConfinedPointer::unconfined); QVERIFY(unconfinedSpy.isValid()); // now map the window auto c = Test::renderAndWaitForShown(surface.data(), QSize(100, 100), Qt::blue); QVERIFY(c); if (c->geometry().topLeft() == QPoint(0, 0)) { c->move(QPoint(1, 1)); } QVERIFY(!c->geometry().contains(KWin::Cursor::pos())); // now let's confine QCOMPARE(input()->pointer()->isConstrained(), false); KWin::Cursor::setPos(c->geometry().center()); QCOMPARE(input()->pointer()->isConstrained(), true); QVERIFY(confinedSpy.wait()); // picking a position outside the window geometry should not move pointer QSignalSpy pointerPositionChangedSpy(input(), &InputRedirection::globalPointerChanged); QVERIFY(pointerPositionChangedSpy.isValid()); KWin::Cursor::setPos(QPoint(1280, 512)); QVERIFY(pointerPositionChangedSpy.isEmpty()); QCOMPARE(KWin::Cursor::pos(), c->geometry().center()); // TODO: test relative motion QFETCH(PointerFunc, positionFunction); const QPoint position = positionFunction(c->geometry()); KWin::Cursor::setPos(position); QCOMPARE(pointerPositionChangedSpy.count(), 1); QCOMPARE(KWin::Cursor::pos(), position); // moving one to right should not be possible QFETCH(int, xOffset); KWin::Cursor::setPos(position + QPoint(xOffset, 0)); QCOMPARE(pointerPositionChangedSpy.count(), 1); QCOMPARE(KWin::Cursor::pos(), position); // moving one to bottom should not be possible QFETCH(int, yOffset); KWin::Cursor::setPos(position + QPoint(0, yOffset)); QCOMPARE(pointerPositionChangedSpy.count(), 1); QCOMPARE(KWin::Cursor::pos(), position); // modifier + click should be ignored // first ensure the settings are ok KConfigGroup group = kwinApp()->config()->group("MouseBindings"); group.writeEntry("CommandAllKey", QStringLiteral("Alt")); group.writeEntry("CommandAll1", "Move"); group.writeEntry("CommandAll2", "Move"); group.writeEntry("CommandAll3", "Move"); + group.writeEntry("CommandAllWheel", "change opacity"); group.sync(); workspace()->slotReconfigure(); QCOMPARE(options->commandAllModifier(), Qt::AltModifier); QCOMPARE(options->commandAll1(), Options::MouseUnrestrictedMove); QCOMPARE(options->commandAll2(), Options::MouseUnrestrictedMove); QCOMPARE(options->commandAll3(), Options::MouseUnrestrictedMove); quint32 timestamp = 1; kwinApp()->platform()->keyboardKeyPressed(KEY_LEFTALT, timestamp++); kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); QVERIFY(!c->isMove()); kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); + + // set the opacity to 0.5 + c->setOpacity(0.5); + QCOMPARE(c->opacity(), 0.5); + + // pointer is confined so shortcut should not work + kwinApp()->platform()->pointerAxisVertical(-5, timestamp++); + QCOMPARE(c->opacity(), 0.5); + kwinApp()->platform()->pointerAxisVertical(5, timestamp++); + QCOMPARE(c->opacity(), 0.5); + kwinApp()->platform()->keyboardKeyReleased(KEY_LEFTALT, timestamp++); // deactivate the client, this should unconfine workspace()->activateClient(nullptr); QVERIFY(unconfinedSpy.wait()); QCOMPARE(input()->pointer()->isConstrained(), false); // reconfine pointer (this time with persistent life time) confinedPointer.reset(Test::waylandPointerConstraints()->confinePointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::Persistent)); QSignalSpy confinedSpy2(confinedPointer.data(), &ConfinedPointer::confined); QVERIFY(confinedSpy2.isValid()); QSignalSpy unconfinedSpy2(confinedPointer.data(), &ConfinedPointer::unconfined); QVERIFY(unconfinedSpy2.isValid()); // activate it again, this confines again workspace()->activateClient(static_cast(input()->pointer()->window().data())); QVERIFY(confinedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), true); // deactivate the client one more time with the persistent life time constraint, this should unconfine workspace()->activateClient(nullptr); QVERIFY(unconfinedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), false); // activate it again, this confines again workspace()->activateClient(static_cast(input()->pointer()->window().data())); QVERIFY(confinedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), true); // create a second window and move it above our constrained window QScopedPointer surface2(Test::createSurface()); QScopedPointer shellSurface2(Test::createShellSurface(type, surface2.data())); auto c2 = Test::renderAndWaitForShown(surface2.data(), QSize(1280, 1024), Qt::blue); QVERIFY(c2); QVERIFY(unconfinedSpy2.wait()); // and unmapping the second window should confine again shellSurface2.reset(); surface2.reset(); QVERIFY(confinedSpy2.wait()); // let's set a region which results in unconfined auto r = Test::waylandCompositor()->createRegion(QRegion(2, 2, 3, 3)); confinedPointer->setRegion(r.get()); surface->commit(Surface::CommitFlag::None); QVERIFY(unconfinedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), false); // and set a full region again, that should confine confinedPointer->setRegion(nullptr); surface->commit(Surface::CommitFlag::None); QVERIFY(confinedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), true); // delete pointer confine confinedPointer.reset(nullptr); Test::flushWaylandConnection(); QSignalSpy constraintsChangedSpy(input()->pointer()->window()->surface(), &KWayland::Server::SurfaceInterface::pointerConstraintsChanged); QVERIFY(constraintsChangedSpy.isValid()); QVERIFY(constraintsChangedSpy.wait()); // should be unconfined QCOMPARE(input()->pointer()->isConstrained(), false); // confine again confinedPointer.reset(Test::waylandPointerConstraints()->confinePointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::Persistent)); QSignalSpy confinedSpy3(confinedPointer.data(), &ConfinedPointer::confined); QVERIFY(confinedSpy3.isValid()); QVERIFY(confinedSpy3.wait()); QCOMPARE(input()->pointer()->isConstrained(), true); // and now unmap shellSurface.reset(); surface.reset(); QVERIFY(Test::waitForWindowDestroyed(c)); QCOMPARE(input()->pointer()->isConstrained(), false); } void TestPointerConstraints::testLockedPointer_data() { QTest::addColumn("type"); QTest::newRow("wlShell") << Test::ShellSurfaceType::WlShell; QTest::newRow("xdgShellV5") << Test::ShellSurfaceType::XdgShellV5; QTest::newRow("xdgShellV6") << Test::ShellSurfaceType::XdgShellV6; } void TestPointerConstraints::testLockedPointer() { // this test sets up a Surface with a locked pointer // simple interaction test to verify that the pointer gets locked // the various ways to unlock are not tested as that's already verified by testConfinedPointer QScopedPointer surface(Test::createSurface()); QFETCH(Test::ShellSurfaceType, type); QScopedPointer shellSurface(Test::createShellSurface(type, surface.data())); QScopedPointer pointer(Test::waylandSeat()->createPointer()); QScopedPointer lockedPointer(Test::waylandPointerConstraints()->lockPointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::OneShot)); QSignalSpy lockedSpy(lockedPointer.data(), &LockedPointer::locked); QVERIFY(lockedSpy.isValid()); QSignalSpy unlockedSpy(lockedPointer.data(), &LockedPointer::unlocked); QVERIFY(unlockedSpy.isValid()); // now map the window auto c = Test::renderAndWaitForShown(surface.data(), QSize(100, 100), Qt::blue); QVERIFY(c); QVERIFY(!c->geometry().contains(KWin::Cursor::pos())); // now let's lock QCOMPARE(input()->pointer()->isConstrained(), false); KWin::Cursor::setPos(c->geometry().center()); QCOMPARE(KWin::Cursor::pos(), c->geometry().center()); QCOMPARE(input()->pointer()->isConstrained(), true); QVERIFY(lockedSpy.wait()); // try to move the pointer // TODO: add relative pointer KWin::Cursor::setPos(c->geometry().center() + QPoint(1, 1)); QCOMPARE(KWin::Cursor::pos(), c->geometry().center()); // deactivate the client, this should unlock workspace()->activateClient(nullptr); QCOMPARE(input()->pointer()->isConstrained(), false); QVERIFY(unlockedSpy.wait()); // moving cursor should be allowed again KWin::Cursor::setPos(c->geometry().center() + QPoint(1, 1)); QCOMPARE(KWin::Cursor::pos(), c->geometry().center() + QPoint(1, 1)); lockedPointer.reset(Test::waylandPointerConstraints()->lockPointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::Persistent)); QSignalSpy lockedSpy2(lockedPointer.data(), &LockedPointer::locked); QVERIFY(lockedSpy2.isValid()); // activate the client again, this should lock again workspace()->activateClient(static_cast(input()->pointer()->window().data())); QVERIFY(lockedSpy2.wait()); QCOMPARE(input()->pointer()->isConstrained(), true); // try to move the pointer QCOMPARE(input()->pointer()->isConstrained(), true); KWin::Cursor::setPos(c->geometry().center()); QCOMPARE(KWin::Cursor::pos(), c->geometry().center() + QPoint(1, 1)); // delete pointer lock lockedPointer.reset(nullptr); Test::flushWaylandConnection(); QSignalSpy constraintsChangedSpy(input()->pointer()->window()->surface(), &KWayland::Server::SurfaceInterface::pointerConstraintsChanged); QVERIFY(constraintsChangedSpy.isValid()); QVERIFY(constraintsChangedSpy.wait()); // moving cursor should be allowed again QCOMPARE(input()->pointer()->isConstrained(), false); KWin::Cursor::setPos(c->geometry().center()); QCOMPARE(KWin::Cursor::pos(), c->geometry().center()); } void TestPointerConstraints::testCloseWindowWithLockedPointer_data() { QTest::addColumn("type"); QTest::newRow("wlShell") << Test::ShellSurfaceType::WlShell; QTest::newRow("XdgShellV5") << Test::ShellSurfaceType::XdgShellV5; QTest::newRow("XdgShellV6") << Test::ShellSurfaceType::XdgShellV6; } void TestPointerConstraints::testCloseWindowWithLockedPointer() { // test case which verifies that the pointer gets unlocked when the window for it gets closed QScopedPointer surface(Test::createSurface()); QFETCH(Test::ShellSurfaceType, type); QScopedPointer shellSurface(Test::createShellSurface(type, surface.data())); QScopedPointer pointer(Test::waylandSeat()->createPointer()); QScopedPointer lockedPointer(Test::waylandPointerConstraints()->lockPointer(surface.data(), pointer.data(), nullptr, PointerConstraints::LifeTime::OneShot)); QSignalSpy lockedSpy(lockedPointer.data(), &LockedPointer::locked); QVERIFY(lockedSpy.isValid()); QSignalSpy unlockedSpy(lockedPointer.data(), &LockedPointer::unlocked); QVERIFY(unlockedSpy.isValid()); // now map the window auto c = Test::renderAndWaitForShown(surface.data(), QSize(100, 100), Qt::blue); QVERIFY(c); QVERIFY(!c->geometry().contains(KWin::Cursor::pos())); // now let's lock QCOMPARE(input()->pointer()->isConstrained(), false); KWin::Cursor::setPos(c->geometry().center()); QCOMPARE(KWin::Cursor::pos(), c->geometry().center()); QCOMPARE(input()->pointer()->isConstrained(), true); QVERIFY(lockedSpy.wait()); // close the window shellSurface.reset(); surface.reset(); // this should result in unlocked QVERIFY(unlockedSpy.wait()); QCOMPARE(input()->pointer()->isConstrained(), false); } WAYLANDTEST_MAIN(TestPointerConstraints) #include "pointer_constraints_test.moc" diff --git a/autotests/integration/pointer_input.cpp b/autotests/integration/pointer_input.cpp index db5041d46..1302fbf0a 100644 --- a/autotests/integration/pointer_input.cpp +++ b/autotests/integration/pointer_input.cpp @@ -1,1304 +1,1418 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2016 Martin Gräßlin This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "kwin_wayland_test.h" #include "platform.h" #include "abstract_client.h" #include "cursor.h" #include "deleted.h" #include "effects.h" #include "pointer_input.h" #include "options.h" #include "screenedge.h" #include "screens.h" #include "wayland_server.h" #include "workspace.h" #include "shell_client.h" #include #include #include #include #include #include #include #include #include #include #include namespace KWin { static const QString s_socketName = QStringLiteral("wayland_test_kwin_pointer_input-0"); class PointerInputTest : public QObject { Q_OBJECT private Q_SLOTS: void initTestCase(); void init(); void cleanup(); void testWarpingUpdatesFocus(); void testWarpingGeneratesPointerMotion(); void testWarpingDuringFilter(); void testUpdateFocusAfterScreenChange(); void testModifierClickUnrestrictedMove_data(); void testModifierClickUnrestrictedMove(); + void testModifierClickUnrestrictedMoveGlobalShortcutsDisabled(); void testModifierScrollOpacity_data(); void testModifierScrollOpacity(); + void testModifierScrollOpacityGlobalShortcutsDisabled(); void testScrollAction(); void testFocusFollowsMouse(); void testMouseActionInactiveWindow_data(); void testMouseActionInactiveWindow(); void testMouseActionActiveWindow_data(); void testMouseActionActiveWindow(); void testCursorImage(); void testEffectOverrideCursorImage(); void testPopup(); void testDecoCancelsPopup(); void testWindowUnderCursorWhileButtonPressed(); void testConfineToScreenGeometry_data(); void testConfineToScreenGeometry(); private: void render(KWayland::Client::Surface *surface, const QSize &size = QSize(100, 50)); KWayland::Client::Compositor *m_compositor = nullptr; KWayland::Client::Seat *m_seat = nullptr; KWayland::Client::Shell *m_shell = nullptr; }; void PointerInputTest::initTestCase() { qRegisterMetaType(); qRegisterMetaType(); qRegisterMetaType(); QSignalSpy workspaceCreatedSpy(kwinApp(), &Application::workspaceCreated); QVERIFY(workspaceCreatedSpy.isValid()); kwinApp()->platform()->setInitialWindowSize(QSize(1280, 1024)); QMetaObject::invokeMethod(kwinApp()->platform(), "setVirtualOutputs", Qt::DirectConnection, Q_ARG(int, 2)); QVERIFY(waylandServer()->init(s_socketName.toLocal8Bit())); kwinApp()->setConfig(KSharedConfig::openConfig(QString(), KConfig::SimpleConfig)); if (!QStandardPaths::locateAll(QStandardPaths::GenericDataLocation, QStringLiteral("icons/DMZ-White/index.theme")).isEmpty()) { qputenv("XCURSOR_THEME", QByteArrayLiteral("DMZ-White")); } else { // might be vanilla-dmz (e.g. Arch, FreeBSD) qputenv("XCURSOR_THEME", QByteArrayLiteral("Vanilla-DMZ")); } qputenv("XCURSOR_SIZE", QByteArrayLiteral("24")); qputenv("XKB_DEFAULT_RULES", "evdev"); kwinApp()->start(); QVERIFY(workspaceCreatedSpy.wait()); QCOMPARE(screens()->count(), 2); QCOMPARE(screens()->geometry(0), QRect(0, 0, 1280, 1024)); QCOMPARE(screens()->geometry(1), QRect(1280, 0, 1280, 1024)); setenv("QT_QPA_PLATFORM", "wayland", true); waylandServer()->initWorkspace(); } void PointerInputTest::init() { QVERIFY(Test::setupWaylandConnection(Test::AdditionalWaylandInterface::Seat | Test::AdditionalWaylandInterface::Decoration)); QVERIFY(Test::waitForWaylandPointer()); m_compositor = Test::waylandCompositor(); m_shell = Test::waylandShell(); m_seat = Test::waylandSeat(); screens()->setCurrent(0); Cursor::setPos(QPoint(640, 512)); } void PointerInputTest::cleanup() { Test::destroyWaylandConnection(); } void PointerInputTest::render(KWayland::Client::Surface *surface, const QSize &size) { Test::render(surface, size, Qt::blue); Test::flushWaylandConnection(); } void PointerInputTest::testWarpingUpdatesFocus() { // this test verifies that warping the pointer creates pointer enter and leave events using namespace KWayland::Client; // create pointer and signal spy for enter and leave signals auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy leftSpy(pointer, &Pointer::left); QVERIFY(leftSpy.isValid()); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // currently there should not be a focused pointer surface QVERIFY(!waylandServer()->seat()->focusedPointerSurface()); QVERIFY(!pointer->enteredSurface()); // enter Cursor::setPos(QPoint(25, 25)); QVERIFY(enteredSpy.wait()); QCOMPARE(enteredSpy.count(), 1); QCOMPARE(enteredSpy.first().at(1).toPointF(), QPointF(25, 25)); // window should have focus QCOMPARE(pointer->enteredSurface(), surface); // also on the server QCOMPARE(waylandServer()->seat()->focusedPointerSurface(), window->surface()); // and out again Cursor::setPos(QPoint(250, 250));; QVERIFY(leftSpy.wait()); QCOMPARE(leftSpy.count(), 1); // there should not be a focused pointer surface anymore QVERIFY(!waylandServer()->seat()->focusedPointerSurface()); QVERIFY(!pointer->enteredSurface()); } void PointerInputTest::testWarpingGeneratesPointerMotion() { // this test verifies that warping the pointer creates pointer motion events using namespace KWayland::Client; // create pointer and signal spy for enter and motion auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy movedSpy(pointer, &Pointer::motion); QVERIFY(movedSpy.isValid()); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // enter kwinApp()->platform()->pointerMotion(QPointF(25, 25), 1); QVERIFY(enteredSpy.wait()); QCOMPARE(enteredSpy.first().at(1).toPointF(), QPointF(25, 25)); // now warp Cursor::setPos(QPoint(26, 26)); QVERIFY(movedSpy.wait()); QCOMPARE(movedSpy.count(), 1); QCOMPARE(movedSpy.last().first().toPointF(), QPointF(26, 26)); } void PointerInputTest::testWarpingDuringFilter() { // this test verifies that pointer motion is handled correctly if // the pointer gets warped during processing of input events using namespace KWayland::Client; // create pointer auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy movedSpy(pointer, &Pointer::motion); QVERIFY(movedSpy.isValid()); // warp cursor into expected geometry Cursor::setPos(10, 10); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); QCOMPARE(window->pos(), QPoint(0, 0)); QVERIFY(window->geometry().contains(Cursor::pos())); // is PresentWindows effect for top left screen edge loaded QVERIFY(static_cast(effects)->isEffectLoaded("presentwindows")); QVERIFY(movedSpy.isEmpty()); quint32 timestamp = 0; kwinApp()->platform()->pointerMotion(QPoint(0, 0), timestamp++); // screen edges push back QCOMPARE(Cursor::pos(), QPoint(1, 1)); QVERIFY(movedSpy.wait()); QCOMPARE(movedSpy.count(), 2); QCOMPARE(movedSpy.at(0).first().toPoint(), QPoint(0, 0)); QCOMPARE(movedSpy.at(1).first().toPoint(), QPoint(1, 1)); } void PointerInputTest::testUpdateFocusAfterScreenChange() { // this test verifies that a pointer enter event is generated when the cursor changes to another // screen due to removal of screen using namespace KWayland::Client; // ensure cursor is on second screen Cursor::setPos(1500, 300); // create pointer and signal spy for enter and motion auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface, QSize(1280, 1024)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); QVERIFY(!window->geometry().contains(Cursor::pos())); QSignalSpy screensChangedSpy(screens(), &Screens::changed); QVERIFY(screensChangedSpy.isValid()); // now let's remove the screen containing the cursor QMetaObject::invokeMethod(kwinApp()->platform(), "setVirtualOutputs", Qt::DirectConnection, Q_ARG(int, 1), Q_ARG(QVector, QVector{QRect(0, 0, 1280, 1024)})); QVERIFY(screensChangedSpy.wait()); QCOMPARE(screens()->count(), 1); // this should have warped the cursor QCOMPARE(Cursor::pos(), QPoint(639, 511)); QVERIFY(window->geometry().contains(Cursor::pos())); // and we should get an enter event QVERIFY(enteredSpy.wait()); QCOMPARE(enteredSpy.count(), 1); } void PointerInputTest::testModifierClickUnrestrictedMove_data() { QTest::addColumn("modifierKey"); QTest::addColumn("mouseButton"); QTest::addColumn("modKey"); QTest::addColumn("capsLock"); const QString alt = QStringLiteral("Alt"); const QString meta = QStringLiteral("Meta"); QTest::newRow("Left Alt + Left Click") << KEY_LEFTALT << BTN_LEFT << alt << false; QTest::newRow("Left Alt + Right Click") << KEY_LEFTALT << BTN_RIGHT << alt << false; QTest::newRow("Left Alt + Middle Click") << KEY_LEFTALT << BTN_MIDDLE << alt << false; QTest::newRow("Right Alt + Left Click") << KEY_RIGHTALT << BTN_LEFT << alt << false; QTest::newRow("Right Alt + Right Click") << KEY_RIGHTALT << BTN_RIGHT << alt << false; QTest::newRow("Right Alt + Middle Click") << KEY_RIGHTALT << BTN_MIDDLE << alt << false; // now everything with meta QTest::newRow("Left Meta + Left Click") << KEY_LEFTMETA << BTN_LEFT << meta << false; QTest::newRow("Left Meta + Right Click") << KEY_LEFTMETA << BTN_RIGHT << meta << false; QTest::newRow("Left Meta + Middle Click") << KEY_LEFTMETA << BTN_MIDDLE << meta << false; QTest::newRow("Right Meta + Left Click") << KEY_RIGHTMETA << BTN_LEFT << meta << false; QTest::newRow("Right Meta + Right Click") << KEY_RIGHTMETA << BTN_RIGHT << meta << false; QTest::newRow("Right Meta + Middle Click") << KEY_RIGHTMETA << BTN_MIDDLE << meta << false; // and with capslock QTest::newRow("Left Alt + Left Click/CapsLock") << KEY_LEFTALT << BTN_LEFT << alt << true; QTest::newRow("Left Alt + Right Click/CapsLock") << KEY_LEFTALT << BTN_RIGHT << alt << true; QTest::newRow("Left Alt + Middle Click/CapsLock") << KEY_LEFTALT << BTN_MIDDLE << alt << true; QTest::newRow("Right Alt + Left Click/CapsLock") << KEY_RIGHTALT << BTN_LEFT << alt << true; QTest::newRow("Right Alt + Right Click/CapsLock") << KEY_RIGHTALT << BTN_RIGHT << alt << true; QTest::newRow("Right Alt + Middle Click/CapsLock") << KEY_RIGHTALT << BTN_MIDDLE << alt << true; // now everything with meta QTest::newRow("Left Meta + Left Click/CapsLock") << KEY_LEFTMETA << BTN_LEFT << meta << true; QTest::newRow("Left Meta + Right Click/CapsLock") << KEY_LEFTMETA << BTN_RIGHT << meta << true; QTest::newRow("Left Meta + Middle Click/CapsLock") << KEY_LEFTMETA << BTN_MIDDLE << meta << true; QTest::newRow("Right Meta + Left Click/CapsLock") << KEY_RIGHTMETA << BTN_LEFT << meta << true; QTest::newRow("Right Meta + Right Click/CapsLock") << KEY_RIGHTMETA << BTN_RIGHT << meta << true; QTest::newRow("Right Meta + Middle Click/CapsLock") << KEY_RIGHTMETA << BTN_MIDDLE << meta << true; } void PointerInputTest::testModifierClickUnrestrictedMove() { // this test ensures that Alt+mouse button press triggers unrestricted move using namespace KWayland::Client; // create pointer and signal spy for button events auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy buttonSpy(pointer, &Pointer::buttonStateChanged); QVERIFY(buttonSpy.isValid()); // first modify the config for this run QFETCH(QString, modKey); KConfigGroup group = kwinApp()->config()->group("MouseBindings"); group.writeEntry("CommandAllKey", modKey); group.writeEntry("CommandAll1", "Move"); group.writeEntry("CommandAll2", "Move"); group.writeEntry("CommandAll3", "Move"); group.sync(); workspace()->slotReconfigure(); QCOMPARE(options->commandAllModifier(), modKey == QStringLiteral("Alt") ? Qt::AltModifier : Qt::MetaModifier); QCOMPARE(options->commandAll1(), Options::MouseUnrestrictedMove); QCOMPARE(options->commandAll2(), Options::MouseUnrestrictedMove); QCOMPARE(options->commandAll3(), Options::MouseUnrestrictedMove); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // move cursor on window Cursor::setPos(window->geometry().center()); // simulate modifier+click quint32 timestamp = 1; QFETCH(bool, capsLock); if (capsLock) { kwinApp()->platform()->keyboardKeyPressed(KEY_CAPSLOCK, timestamp++); } QFETCH(int, modifierKey); QFETCH(int, mouseButton); kwinApp()->platform()->keyboardKeyPressed(modifierKey, timestamp++); QVERIFY(!window->isMove()); kwinApp()->platform()->pointerButtonPressed(mouseButton, timestamp++); QVERIFY(window->isMove()); // release modifier should not change it kwinApp()->platform()->keyboardKeyReleased(modifierKey, timestamp++); QVERIFY(window->isMove()); // but releasing the key should end move/resize kwinApp()->platform()->pointerButtonReleased(mouseButton, timestamp++); QVERIFY(!window->isMove()); if (capsLock) { kwinApp()->platform()->keyboardKeyReleased(KEY_CAPSLOCK, timestamp++); } // all of that should not have triggered button events on the surface QCOMPARE(buttonSpy.count(), 0); // also waiting shouldn't give us the event QVERIFY(!buttonSpy.wait(100)); } +void PointerInputTest::testModifierClickUnrestrictedMoveGlobalShortcutsDisabled() +{ + // this test ensures that Alt+mouse button press triggers unrestricted move + using namespace KWayland::Client; + // create pointer and signal spy for button events + auto pointer = m_seat->createPointer(m_seat); + QVERIFY(pointer); + QVERIFY(pointer->isValid()); + QSignalSpy buttonSpy(pointer, &Pointer::buttonStateChanged); + QVERIFY(buttonSpy.isValid()); + + // first modify the config for this run + KConfigGroup group = kwinApp()->config()->group("MouseBindings"); + group.writeEntry("CommandAllKey", "Alt"); + group.writeEntry("CommandAll1", "Move"); + group.writeEntry("CommandAll2", "Move"); + group.writeEntry("CommandAll3", "Move"); + group.sync(); + workspace()->slotReconfigure(); + QCOMPARE(options->commandAllModifier(), Qt::AltModifier); + QCOMPARE(options->commandAll1(), Options::MouseUnrestrictedMove); + QCOMPARE(options->commandAll2(), Options::MouseUnrestrictedMove); + QCOMPARE(options->commandAll3(), Options::MouseUnrestrictedMove); + + // create a window + QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); + QVERIFY(clientAddedSpy.isValid()); + Surface *surface = Test::createSurface(m_compositor); + QVERIFY(surface); + ShellSurface *shellSurface = Test::createShellSurface(surface, surface); + QVERIFY(shellSurface); + render(surface); + QVERIFY(clientAddedSpy.wait()); + AbstractClient *window = workspace()->activeClient(); + QVERIFY(window); + + // disable global shortcuts + QVERIFY(!workspace()->globalShortcutsDisabled()); + workspace()->disableGlobalShortcutsForClient(true); + QVERIFY(workspace()->globalShortcutsDisabled()); + + // move cursor on window + Cursor::setPos(window->geometry().center()); + + // simulate modifier+click + quint32 timestamp = 1; + kwinApp()->platform()->keyboardKeyPressed(KEY_LEFTALT, timestamp++); + QVERIFY(!window->isMove()); + kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); + QVERIFY(!window->isMove()); + // release modifier should not change it + kwinApp()->platform()->keyboardKeyReleased(KEY_LEFTALT, timestamp++); + QVERIFY(!window->isMove()); + kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); + + workspace()->disableGlobalShortcutsForClient(false); +} + void PointerInputTest::testModifierScrollOpacity_data() { QTest::addColumn("modifierKey"); QTest::addColumn("modKey"); QTest::addColumn("capsLock"); const QString alt = QStringLiteral("Alt"); const QString meta = QStringLiteral("Meta"); QTest::newRow("Left Alt") << KEY_LEFTALT << alt << false; QTest::newRow("Right Alt") << KEY_RIGHTALT << alt << false; QTest::newRow("Left Meta") << KEY_LEFTMETA << meta << false; QTest::newRow("Right Meta") << KEY_RIGHTMETA << meta << false; QTest::newRow("Left Alt/CapsLock") << KEY_LEFTALT << alt << true; QTest::newRow("Right Alt/CapsLock") << KEY_RIGHTALT << alt << true; QTest::newRow("Left Meta/CapsLock") << KEY_LEFTMETA << meta << true; QTest::newRow("Right Meta/CapsLock") << KEY_RIGHTMETA << meta << true; } void PointerInputTest::testModifierScrollOpacity() { // this test verifies that mod+wheel performs a window operation and does not // pass the wheel to the window using namespace KWayland::Client; // create pointer and signal spy for button events auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy axisSpy(pointer, &Pointer::axisChanged); QVERIFY(axisSpy.isValid()); // first modify the config for this run QFETCH(QString, modKey); KConfigGroup group = kwinApp()->config()->group("MouseBindings"); group.writeEntry("CommandAllKey", modKey); group.writeEntry("CommandAllWheel", "change opacity"); group.sync(); workspace()->slotReconfigure(); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // set the opacity to 0.5 window->setOpacity(0.5); QCOMPARE(window->opacity(), 0.5); // move cursor on window Cursor::setPos(window->geometry().center()); // simulate modifier+wheel quint32 timestamp = 1; QFETCH(bool, capsLock); if (capsLock) { kwinApp()->platform()->keyboardKeyPressed(KEY_CAPSLOCK, timestamp++); } QFETCH(int, modifierKey); kwinApp()->platform()->keyboardKeyPressed(modifierKey, timestamp++); kwinApp()->platform()->pointerAxisVertical(-5, timestamp++); QCOMPARE(window->opacity(), 0.6); kwinApp()->platform()->pointerAxisVertical(5, timestamp++); QCOMPARE(window->opacity(), 0.5); kwinApp()->platform()->keyboardKeyReleased(modifierKey, timestamp++); if (capsLock) { kwinApp()->platform()->keyboardKeyReleased(KEY_CAPSLOCK, timestamp++); } // axis should have been filtered out QCOMPARE(axisSpy.count(), 0); QVERIFY(!axisSpy.wait(100)); } +void PointerInputTest::testModifierScrollOpacityGlobalShortcutsDisabled() +{ + // this test verifies that mod+wheel performs a window operation and does not + // pass the wheel to the window + using namespace KWayland::Client; + // create pointer and signal spy for button events + auto pointer = m_seat->createPointer(m_seat); + QVERIFY(pointer); + QVERIFY(pointer->isValid()); + QSignalSpy axisSpy(pointer, &Pointer::axisChanged); + QVERIFY(axisSpy.isValid()); + + // first modify the config for this run + KConfigGroup group = kwinApp()->config()->group("MouseBindings"); + group.writeEntry("CommandAllKey", "Alt"); + group.writeEntry("CommandAllWheel", "change opacity"); + group.sync(); + workspace()->slotReconfigure(); + + // create a window + QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); + QVERIFY(clientAddedSpy.isValid()); + Surface *surface = Test::createSurface(m_compositor); + QVERIFY(surface); + ShellSurface *shellSurface = Test::createShellSurface(surface, surface); + QVERIFY(shellSurface); + render(surface); + QVERIFY(clientAddedSpy.wait()); + AbstractClient *window = workspace()->activeClient(); + QVERIFY(window); + // set the opacity to 0.5 + window->setOpacity(0.5); + QCOMPARE(window->opacity(), 0.5); + + // move cursor on window + Cursor::setPos(window->geometry().center()); + + // disable global shortcuts + QVERIFY(!workspace()->globalShortcutsDisabled()); + workspace()->disableGlobalShortcutsForClient(true); + QVERIFY(workspace()->globalShortcutsDisabled()); + + // simulate modifier+wheel + quint32 timestamp = 1; + kwinApp()->platform()->keyboardKeyPressed(KEY_LEFTALT, timestamp++); + kwinApp()->platform()->pointerAxisVertical(-5, timestamp++); + QCOMPARE(window->opacity(), 0.5); + kwinApp()->platform()->pointerAxisVertical(5, timestamp++); + QCOMPARE(window->opacity(), 0.5); + kwinApp()->platform()->keyboardKeyReleased(KEY_LEFTALT, timestamp++); + + workspace()->disableGlobalShortcutsForClient(false); +} + void PointerInputTest::testScrollAction() { // this test verifies that scroll on inactive window performs a mouse action using namespace KWayland::Client; auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy axisSpy(pointer, &Pointer::axisChanged); QVERIFY(axisSpy.isValid()); // first modify the config for this run KConfigGroup group = kwinApp()->config()->group("MouseBindings"); group.writeEntry("CommandWindowWheel", "activate and scroll"); group.sync(); workspace()->slotReconfigure(); // create two windows QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface1 = Test::createSurface(m_compositor); QVERIFY(surface1); ShellSurface *shellSurface1 = Test::createShellSurface(surface1, surface1); QVERIFY(shellSurface1); render(surface1); QVERIFY(clientAddedSpy.wait()); AbstractClient *window1 = workspace()->activeClient(); QVERIFY(window1); Surface *surface2 = Test::createSurface(m_compositor); QVERIFY(surface2); ShellSurface *shellSurface2 = Test::createShellSurface(surface2, surface2); QVERIFY(shellSurface2); render(surface2); QVERIFY(clientAddedSpy.wait()); AbstractClient *window2 = workspace()->activeClient(); QVERIFY(window2); QVERIFY(window1 != window2); // move cursor to the inactive window Cursor::setPos(window1->geometry().center()); quint32 timestamp = 1; QVERIFY(!window1->isActive()); kwinApp()->platform()->pointerAxisVertical(5, timestamp++); QVERIFY(window1->isActive()); // but also the wheel event should be passed to the window QVERIFY(axisSpy.wait()); // we need to wait a little bit, otherwise the test crashes in effectshandler, needs fixing QTest::qWait(100); } void PointerInputTest::testFocusFollowsMouse() { using namespace KWayland::Client; // need to create a pointer, otherwise it doesn't accept focus auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); // move cursor out of the way of first window to be created Cursor::setPos(900, 900); // first modify the config for this run KConfigGroup group = kwinApp()->config()->group("Windows"); group.writeEntry("AutoRaise", true); group.writeEntry("AutoRaiseInterval", 20); group.writeEntry("DelayFocusInterval", 200); group.writeEntry("FocusPolicy", "FocusFollowsMouse"); group.sync(); workspace()->slotReconfigure(); // verify the settings QCOMPARE(options->focusPolicy(), Options::FocusFollowsMouse); QVERIFY(options->isAutoRaise()); QCOMPARE(options->autoRaiseInterval(), 20); QCOMPARE(options->delayFocusInterval(), 200); // create two windows QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface1 = Test::createSurface(m_compositor); QVERIFY(surface1); ShellSurface *shellSurface1 = Test::createShellSurface(surface1, surface1); QVERIFY(shellSurface1); render(surface1, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window1 = workspace()->activeClient(); QVERIFY(window1); Surface *surface2 = Test::createSurface(m_compositor); QVERIFY(surface2); ShellSurface *shellSurface2 = Test::createShellSurface(surface2, surface2); QVERIFY(shellSurface2); render(surface2, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window2 = workspace()->activeClient(); QVERIFY(window2); QVERIFY(window1 != window2); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window2); // geometry of the two windows should be overlapping QVERIFY(window1->geometry().intersects(window2->geometry())); // signal spies for active window changed and stacking order changed QSignalSpy activeWindowChangedSpy(workspace(), &Workspace::clientActivated); QVERIFY(activeWindowChangedSpy.isValid()); QSignalSpy stackingOrderChangedSpy(workspace(), &Workspace::stackingOrderChanged); QVERIFY(stackingOrderChangedSpy.isValid()); QVERIFY(!window1->isActive()); QVERIFY(window2->isActive()); // move on top of first window QVERIFY(window1->geometry().contains(10, 10)); QVERIFY(!window2->geometry().contains(10, 10)); Cursor::setPos(10, 10); QVERIFY(stackingOrderChangedSpy.wait()); QCOMPARE(stackingOrderChangedSpy.count(), 1); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window1); QTRY_VERIFY(window1->isActive()); // move on second window, but move away before active window change delay hits Cursor::setPos(810, 810); QVERIFY(stackingOrderChangedSpy.wait()); QCOMPARE(stackingOrderChangedSpy.count(), 2); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window2); Cursor::setPos(10, 10); QVERIFY(!activeWindowChangedSpy.wait(250)); QVERIFY(window1->isActive()); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window1); // as we moved back on window 1 that should been raised in the mean time QCOMPARE(stackingOrderChangedSpy.count(), 3); // quickly move on window 2 and back on window 1 should not raise window 2 Cursor::setPos(810, 810); Cursor::setPos(10, 10); QVERIFY(!stackingOrderChangedSpy.wait(250)); } void PointerInputTest::testMouseActionInactiveWindow_data() { QTest::addColumn("button"); QTest::newRow("Left") << quint32(BTN_LEFT); QTest::newRow("Middle") << quint32(BTN_MIDDLE); QTest::newRow("Right") << quint32(BTN_RIGHT); } void PointerInputTest::testMouseActionInactiveWindow() { // this test performs the mouse button window action on an inactive window // it should activate the window and raise it using namespace KWayland::Client; // first modify the config for this run - disable FocusFollowsMouse KConfigGroup group = kwinApp()->config()->group("Windows"); group.writeEntry("FocusPolicy", "ClickToFocus"); group.sync(); group = kwinApp()->config()->group("MouseBindings"); group.writeEntry("CommandWindow1", "Activate, raise and pass click"); group.writeEntry("CommandWindow2", "Activate, raise and pass click"); group.writeEntry("CommandWindow3", "Activate, raise and pass click"); group.sync(); workspace()->slotReconfigure(); // create two windows QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface1 = Test::createSurface(m_compositor); QVERIFY(surface1); ShellSurface *shellSurface1 = Test::createShellSurface(surface1, surface1); QVERIFY(shellSurface1); render(surface1, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window1 = workspace()->activeClient(); QVERIFY(window1); Surface *surface2 = Test::createSurface(m_compositor); QVERIFY(surface2); ShellSurface *shellSurface2 = Test::createShellSurface(surface2, surface2); QVERIFY(shellSurface2); render(surface2, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window2 = workspace()->activeClient(); QVERIFY(window2); QVERIFY(window1 != window2); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window2); // geometry of the two windows should be overlapping QVERIFY(window1->geometry().intersects(window2->geometry())); // signal spies for active window changed and stacking order changed QSignalSpy activeWindowChangedSpy(workspace(), &Workspace::clientActivated); QVERIFY(activeWindowChangedSpy.isValid()); QSignalSpy stackingOrderChangedSpy(workspace(), &Workspace::stackingOrderChanged); QVERIFY(stackingOrderChangedSpy.isValid()); QVERIFY(!window1->isActive()); QVERIFY(window2->isActive()); // move on top of first window QVERIFY(window1->geometry().contains(10, 10)); QVERIFY(!window2->geometry().contains(10, 10)); Cursor::setPos(10, 10); // no focus follows mouse QVERIFY(!stackingOrderChangedSpy.wait(200)); QVERIFY(stackingOrderChangedSpy.isEmpty()); QVERIFY(activeWindowChangedSpy.isEmpty()); QVERIFY(window2->isActive()); // and click quint32 timestamp = 1; QFETCH(quint32, button); kwinApp()->platform()->pointerButtonPressed(button, timestamp++); // should raise window1 and activate it QCOMPARE(stackingOrderChangedSpy.count(), 1); QVERIFY(!activeWindowChangedSpy.isEmpty()); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window1); QVERIFY(window1->isActive()); QVERIFY(!window2->isActive()); // release again kwinApp()->platform()->pointerButtonReleased(button, timestamp++); } void PointerInputTest::testMouseActionActiveWindow_data() { QTest::addColumn("clickRaise"); QTest::addColumn("button"); for (quint32 i=BTN_LEFT; i < BTN_JOYSTICK; i++) { QByteArray number = QByteArray::number(i, 16); QTest::newRow(QByteArrayLiteral("click raise/").append(number).constData()) << true << i; QTest::newRow(QByteArrayLiteral("no click raise/").append(number).constData()) << false << i; } } void PointerInputTest::testMouseActionActiveWindow() { // this test verifies the mouse action performed on an active window // for all buttons it should trigger a window raise depending on the // click raise option using namespace KWayland::Client; // create a button spy - all clicks should be passed through auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy buttonSpy(pointer, &Pointer::buttonStateChanged); QVERIFY(buttonSpy.isValid()); // adjust config for this run QFETCH(bool, clickRaise); KConfigGroup group = kwinApp()->config()->group("Windows"); group.writeEntry("ClickRaise", clickRaise); group.sync(); workspace()->slotReconfigure(); QCOMPARE(options->isClickRaise(), clickRaise); // create two windows QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface1 = Test::createSurface(m_compositor); QVERIFY(surface1); ShellSurface *shellSurface1 = Test::createShellSurface(surface1, surface1); QVERIFY(shellSurface1); render(surface1, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window1 = workspace()->activeClient(); QVERIFY(window1); QSignalSpy window1DestroyedSpy(window1, &QObject::destroyed); QVERIFY(window1DestroyedSpy.isValid()); Surface *surface2 = Test::createSurface(m_compositor); QVERIFY(surface2); ShellSurface *shellSurface2 = Test::createShellSurface(surface2, surface2); QVERIFY(shellSurface2); render(surface2, QSize(800, 800)); QVERIFY(clientAddedSpy.wait()); AbstractClient *window2 = workspace()->activeClient(); QVERIFY(window2); QVERIFY(window1 != window2); QSignalSpy window2DestroyedSpy(window2, &QObject::destroyed); QVERIFY(window2DestroyedSpy.isValid()); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window2); // geometry of the two windows should be overlapping QVERIFY(window1->geometry().intersects(window2->geometry())); // lower the currently active window workspace()->lowerClient(window2); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window1); // signal spy for stacking order spy QSignalSpy stackingOrderChangedSpy(workspace(), &Workspace::stackingOrderChanged); QVERIFY(stackingOrderChangedSpy.isValid()); // move on top of second window QVERIFY(!window1->geometry().contains(900, 900)); QVERIFY(window2->geometry().contains(900, 900)); Cursor::setPos(900, 900); // and click quint32 timestamp = 1; QFETCH(quint32, button); kwinApp()->platform()->pointerButtonPressed(button, timestamp++); QVERIFY(buttonSpy.wait()); if (clickRaise) { QCOMPARE(stackingOrderChangedSpy.count(), 1); QTRY_COMPARE_WITH_TIMEOUT(workspace()->topClientOnDesktop(1, -1), window2, 200); } else { QCOMPARE(stackingOrderChangedSpy.count(), 0); QVERIFY(!stackingOrderChangedSpy.wait(100)); QCOMPARE(workspace()->topClientOnDesktop(1, -1), window1); } // release again kwinApp()->platform()->pointerButtonReleased(button, timestamp++); delete surface1; QVERIFY(window1DestroyedSpy.wait()); delete surface2; QVERIFY(window2DestroyedSpy.wait()); } void PointerInputTest::testCursorImage() { // this test verifies that the pointer image gets updated correctly from the client provided data using namespace KWayland::Client; // we need a pointer to get the enter event auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); // move cursor somewhere the new window won't open Cursor::setPos(800, 800); auto p = input()->pointer(); // at the moment it should be the fallback cursor const QImage fallbackCursor = p->cursorImage(); QVERIFY(!fallbackCursor.isNull()); // create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // move cursor to center of window, this should first set a null pointer, so we still show old cursor Cursor::setPos(window->geometry().center()); QCOMPARE(p->window().data(), window); QCOMPARE(p->cursorImage(), fallbackCursor); QVERIFY(enteredSpy.wait()); // create a cursor on the pointer Surface *cursorSurface = Test::createSurface(m_compositor); QVERIFY(cursorSurface); QSignalSpy cursorRenderedSpy(cursorSurface, &Surface::frameRendered); QVERIFY(cursorRenderedSpy.isValid()); QImage red = QImage(QSize(10, 10), QImage::Format_ARGB32_Premultiplied); red.fill(Qt::red); cursorSurface->attachBuffer(Test::waylandShmPool()->createBuffer(red)); cursorSurface->damage(QRect(0, 0, 10, 10)); cursorSurface->commit(); pointer->setCursor(cursorSurface, QPoint(5, 5)); QVERIFY(cursorRenderedSpy.wait()); QCOMPARE(p->cursorImage(), red); QCOMPARE(p->cursorHotSpot(), QPoint(5, 5)); // change hotspot pointer->setCursor(cursorSurface, QPoint(6, 6)); Test::flushWaylandConnection(); QTRY_COMPARE(p->cursorHotSpot(), QPoint(6, 6)); QCOMPARE(p->cursorImage(), red); // change the buffer QImage blue = QImage(QSize(10, 10), QImage::Format_ARGB32_Premultiplied); blue.fill(Qt::blue); auto b = Test::waylandShmPool()->createBuffer(blue); cursorSurface->attachBuffer(b); cursorSurface->damage(QRect(0, 0, 10, 10)); cursorSurface->commit(); QVERIFY(cursorRenderedSpy.wait()); QTRY_COMPARE(p->cursorImage(), blue); QCOMPARE(p->cursorHotSpot(), QPoint(6, 6)); // scaled cursor QImage blueScaled = QImage(QSize(20, 20), QImage::Format_ARGB32_Premultiplied); blueScaled.fill(Qt::blue); auto bs = Test::waylandShmPool()->createBuffer(blueScaled); cursorSurface->attachBuffer(bs); cursorSurface->setScale(2); cursorSurface->damage(QRect(0, 0, 20, 20)); cursorSurface->commit(); QVERIFY(cursorRenderedSpy.wait()); QTRY_COMPARE(p->cursorImage(), blueScaled); QCOMPARE(p->cursorImage().devicePixelRatio(), 2.0); QCOMPARE(p->cursorHotSpot(), QPoint(6, 6)); //surface-local (so not changed) // hide the cursor pointer->setCursor(nullptr); Test::flushWaylandConnection(); QTRY_VERIFY(p->cursorImage().isNull()); // move cursor somewhere else, should reset to fallback cursor Cursor::setPos(window->geometry().bottomLeft() + QPoint(20, 20)); QVERIFY(p->window().isNull()); QVERIFY(!p->cursorImage().isNull()); QCOMPARE(p->cursorImage(), fallbackCursor); } class HelperEffect : public Effect { Q_OBJECT public: HelperEffect() {} ~HelperEffect() {} }; void PointerInputTest::testEffectOverrideCursorImage() { // this test verifies the effect cursor override handling using namespace KWayland::Client; // we need a pointer to get the enter event and set a cursor auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy leftSpy(pointer, &Pointer::left); QVERIFY(leftSpy.isValid()); // move cursor somewhere the new window won't open Cursor::setPos(800, 800); auto p = input()->pointer(); // here we should have the fallback cursor const QImage fallback = p->cursorImage(); QVERIFY(!fallback.isNull()); // now let's create a window QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // and move cursor to the window QVERIFY(!window->geometry().contains(QPoint(800, 800))); Cursor::setPos(window->geometry().center()); QVERIFY(enteredSpy.wait()); // cursor image should still be fallback QCOMPARE(p->cursorImage(), fallback); // now create an effect and set an override cursor QScopedPointer effect(new HelperEffect); effects->startMouseInterception(effect.data(), Qt::SizeAllCursor); const QImage sizeAll = p->cursorImage(); QVERIFY(!sizeAll.isNull()); QVERIFY(sizeAll != fallback); QVERIFY(leftSpy.wait()); // let's change to arrow cursor, this should be our fallback effects->defineCursor(Qt::ArrowCursor); QCOMPARE(p->cursorImage(), fallback); // back to size all effects->defineCursor(Qt::SizeAllCursor); QCOMPARE(p->cursorImage(), sizeAll); // move cursor outside the window area Cursor::setPos(800, 800); // and end the override, which should switch to fallback effects->stopMouseInterception(effect.data()); QCOMPARE(p->cursorImage(), fallback); // start mouse interception again effects->startMouseInterception(effect.data(), Qt::SizeAllCursor); QCOMPARE(p->cursorImage(), sizeAll); // move cursor to area of window Cursor::setPos(window->geometry().center()); // this should not result in an enter event QVERIFY(!enteredSpy.wait(100)); // after ending the interception we should get an enter event effects->stopMouseInterception(effect.data()); QVERIFY(enteredSpy.wait()); QVERIFY(p->cursorImage().isNull()); } void PointerInputTest::testPopup() { // this test validates the basic popup behavior // a button press outside the window should dismiss the popup // first create a parent surface using namespace KWayland::Client; auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy leftSpy(pointer, &Pointer::left); QVERIFY(leftSpy.isValid()); QSignalSpy buttonStateChangedSpy(pointer, &Pointer::buttonStateChanged); QVERIFY(buttonStateChangedSpy.isValid()); QSignalSpy motionSpy(pointer, &Pointer::motion); QVERIFY(motionSpy.isValid()); Cursor::setPos(800, 800); QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); QCOMPARE(window->hasPopupGrab(), false); // move pointer into window QVERIFY(!window->geometry().contains(QPoint(800, 800))); Cursor::setPos(window->geometry().center()); QVERIFY(enteredSpy.wait()); // click inside window to create serial quint32 timestamp = 0; kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); QVERIFY(buttonStateChangedSpy.wait()); // now create the popup surface Surface *popupSurface = Test::createSurface(m_compositor); QVERIFY(popupSurface); ShellSurface *popupShellSurface = Test::createShellSurface(popupSurface, popupSurface); QVERIFY(popupShellSurface); QSignalSpy popupDoneSpy(popupShellSurface, &ShellSurface::popupDone); QVERIFY(popupDoneSpy.isValid()); // TODO: proper serial popupShellSurface->setTransientPopup(surface, m_seat, 0, QPoint(80, 20)); render(popupSurface); QVERIFY(clientAddedSpy.wait()); auto popupClient = clientAddedSpy.last().first().value(); QVERIFY(popupClient); QVERIFY(popupClient != window); QCOMPARE(window, workspace()->activeClient()); QCOMPARE(popupClient->transientFor(), window); QCOMPARE(popupClient->pos(), window->pos() + QPoint(80, 20)); QCOMPARE(popupClient->hasPopupGrab(), true); // let's move the pointer into the center of the window Cursor::setPos(popupClient->geometry().center()); QVERIFY(enteredSpy.wait()); QCOMPARE(enteredSpy.count(), 2); QCOMPARE(leftSpy.count(), 1); QCOMPARE(pointer->enteredSurface(), popupSurface); // let's move the pointer outside of the popup window // this should not really change anything, it gets a leave event Cursor::setPos(popupClient->geometry().bottomRight() + QPoint(2, 2)); QVERIFY(leftSpy.wait()); QCOMPARE(leftSpy.count(), 2); QVERIFY(popupDoneSpy.isEmpty()); // now click, should trigger popupDone kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); QVERIFY(popupDoneSpy.wait()); kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); } void PointerInputTest::testDecoCancelsPopup() { // this test verifies that clicking the window decoration of parent window // cancels the popup // first create a parent surface using namespace KWayland::Client; auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy leftSpy(pointer, &Pointer::left); QVERIFY(leftSpy.isValid()); QSignalSpy buttonStateChangedSpy(pointer, &Pointer::buttonStateChanged); QVERIFY(buttonStateChangedSpy.isValid()); QSignalSpy motionSpy(pointer, &Pointer::motion); QVERIFY(motionSpy.isValid()); Cursor::setPos(800, 800); QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); auto deco = Test::waylandServerSideDecoration()->create(surface, surface); QSignalSpy decoSpy(deco, &ServerSideDecoration::modeChanged); QVERIFY(decoSpy.isValid()); QVERIFY(decoSpy.wait()); deco->requestMode(ServerSideDecoration::Mode::Server); QVERIFY(decoSpy.wait()); QCOMPARE(deco->mode(), ServerSideDecoration::Mode::Server); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); QCOMPARE(window->hasPopupGrab(), false); QVERIFY(window->isDecorated()); // move pointer into window QVERIFY(!window->geometry().contains(QPoint(800, 800))); Cursor::setPos(window->geometry().center()); QVERIFY(enteredSpy.wait()); // click inside window to create serial quint32 timestamp = 0; kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); QVERIFY(buttonStateChangedSpy.wait()); // now create the popup surface Surface *popupSurface = Test::createSurface(m_compositor); QVERIFY(popupSurface); ShellSurface *popupShellSurface = Test::createShellSurface(popupSurface, popupSurface); QVERIFY(popupShellSurface); QSignalSpy popupDoneSpy(popupShellSurface, &ShellSurface::popupDone); QVERIFY(popupDoneSpy.isValid()); // TODO: proper serial popupShellSurface->setTransientPopup(surface, m_seat, 0, QPoint(80, 20)); render(popupSurface); QVERIFY(clientAddedSpy.wait()); auto popupClient = clientAddedSpy.last().first().value(); QVERIFY(popupClient); QVERIFY(popupClient != window); QCOMPARE(window, workspace()->activeClient()); QCOMPARE(popupClient->transientFor(), window); QCOMPARE(popupClient->pos(), window->pos() + window->clientPos() + QPoint(80, 20)); QCOMPARE(popupClient->hasPopupGrab(), true); // let's move the pointer into the center of the deco Cursor::setPos(window->geometry().center().x(), window->y() + (window->height() - window->clientSize().height()) / 2); kwinApp()->platform()->pointerButtonPressed(BTN_RIGHT, timestamp++); QVERIFY(popupDoneSpy.wait()); kwinApp()->platform()->pointerButtonReleased(BTN_RIGHT, timestamp++); } void PointerInputTest::testWindowUnderCursorWhileButtonPressed() { // this test verifies that opening a window underneath the mouse cursor does not // trigger a leave event if a button is pressed // see BUG: 372876 // first create a parent surface using namespace KWayland::Client; auto pointer = m_seat->createPointer(m_seat); QVERIFY(pointer); QVERIFY(pointer->isValid()); QSignalSpy enteredSpy(pointer, &Pointer::entered); QVERIFY(enteredSpy.isValid()); QSignalSpy leftSpy(pointer, &Pointer::left); QVERIFY(leftSpy.isValid()); Cursor::setPos(800, 800); QSignalSpy clientAddedSpy(waylandServer(), &WaylandServer::shellClientAdded); QVERIFY(clientAddedSpy.isValid()); Surface *surface = Test::createSurface(m_compositor); QVERIFY(surface); ShellSurface *shellSurface = Test::createShellSurface(surface, surface); QVERIFY(shellSurface); render(surface); QVERIFY(clientAddedSpy.wait()); AbstractClient *window = workspace()->activeClient(); QVERIFY(window); // move cursor over window QVERIFY(!window->geometry().contains(QPoint(800, 800))); Cursor::setPos(window->geometry().center()); QVERIFY(enteredSpy.wait()); // click inside window quint32 timestamp = 0; kwinApp()->platform()->pointerButtonPressed(BTN_LEFT, timestamp++); // now create a second window as transient Surface *popupSurface = Test::createSurface(m_compositor); QVERIFY(popupSurface); ShellSurface *popupShellSurface = Test::createShellSurface(popupSurface, popupSurface); QVERIFY(popupShellSurface); popupShellSurface->setTransient(surface, QPoint(0, 0)); render(popupSurface); QVERIFY(clientAddedSpy.wait()); auto popupClient = clientAddedSpy.last().first().value(); QVERIFY(popupClient); QVERIFY(popupClient != window); QCOMPARE(window->geometry(), popupClient->geometry()); QVERIFY(!leftSpy.wait()); kwinApp()->platform()->pointerButtonReleased(BTN_LEFT, timestamp++); // now that the button is no longer pressed we should get the leave event QVERIFY(leftSpy.wait()); QCOMPARE(leftSpy.count(), 1); QCOMPARE(enteredSpy.count(), 2); } void PointerInputTest::testConfineToScreenGeometry_data() { QTest::addColumn("startPos"); QTest::addColumn("targetPos"); QTest::addColumn("expectedPos"); // screen layout: // // +----------+----------+---------+ // | left | top | right | // +----------+----------+---------+ // | bottom | // +----------+ // QTest::newRow("move top-left - left screen") << QPoint(640, 512) << QPoint(-100, -100) << QPoint(0, 0); QTest::newRow("move top - left screen") << QPoint(640, 512) << QPoint(640, -100) << QPoint(640, 0); QTest::newRow("move top-right - left screen") << QPoint(640, 512) << QPoint(1380, -100) << QPoint(1380, 0); QTest::newRow("move right - left screen") << QPoint(640, 512) << QPoint(1380, 512) << QPoint(1380, 512); QTest::newRow("move bottom-right - left screen") << QPoint(640, 512) << QPoint(1380, 1124) << QPoint(1380, 1124); QTest::newRow("move bottom - left screen") << QPoint(640, 512) << QPoint(640, 1124) << QPoint(640, 1023); QTest::newRow("move bottom-left - left screen") << QPoint(640, 512) << QPoint(-100, 1124) << QPoint(0, 1023); QTest::newRow("move left - left screen") << QPoint(640, 512) << QPoint(-100, 512) << QPoint(0, 512); QTest::newRow("move top-left - top screen") << QPoint(1920, 512) << QPoint(1180, -100) << QPoint(1180, 0); QTest::newRow("move top - top screen") << QPoint(1920, 512) << QPoint(1920, -100) << QPoint(1920, 0); QTest::newRow("move top-right - top screen") << QPoint(1920, 512) << QPoint(2660, -100) << QPoint(2660, 0); QTest::newRow("move right - top screen") << QPoint(1920, 512) << QPoint(2660, 512) << QPoint(2660, 512); QTest::newRow("move bottom-right - top screen") << QPoint(1920, 512) << QPoint(2660, 1124) << QPoint(2559, 1023); QTest::newRow("move bottom - top screen") << QPoint(1920, 512) << QPoint(1920, 1124) << QPoint(1920, 1124); QTest::newRow("move bottom-left - top screen") << QPoint(1920, 512) << QPoint(1180, 1124) << QPoint(1280, 1023); QTest::newRow("move left - top screen") << QPoint(1920, 512) << QPoint(1180, 512) << QPoint(1180, 512); QTest::newRow("move top-left - right screen") << QPoint(3200, 512) << QPoint(2460, -100) << QPoint(2460, 0); QTest::newRow("move top - right screen") << QPoint(3200, 512) << QPoint(3200, -100) << QPoint(3200, 0); QTest::newRow("move top-right - right screen") << QPoint(3200, 512) << QPoint(3940, -100) << QPoint(3839, 0); QTest::newRow("move right - right screen") << QPoint(3200, 512) << QPoint(3940, 512) << QPoint(3839, 512); QTest::newRow("move bottom-right - right screen") << QPoint(3200, 512) << QPoint(3940, 1124) << QPoint(3839, 1023); QTest::newRow("move bottom - right screen") << QPoint(3200, 512) << QPoint(3200, 1124) << QPoint(3200, 1023); QTest::newRow("move bottom-left - right screen") << QPoint(3200, 512) << QPoint(2460, 1124) << QPoint(2460, 1124); QTest::newRow("move left - right screen") << QPoint(3200, 512) << QPoint(2460, 512) << QPoint(2460, 512); QTest::newRow("move top-left - bottom screen") << QPoint(1920, 1536) << QPoint(1180, 924) << QPoint(1180, 924); QTest::newRow("move top - bottom screen") << QPoint(1920, 1536) << QPoint(1920, 924) << QPoint(1920, 924); QTest::newRow("move top-right - bottom screen") << QPoint(1920, 1536) << QPoint(2660, 924) << QPoint(2660, 924); QTest::newRow("move right - bottom screen") << QPoint(1920, 1536) << QPoint(2660, 1536) << QPoint(2559, 1536); QTest::newRow("move bottom-right - bottom screen") << QPoint(1920, 1536) << QPoint(2660, 2148) << QPoint(2559, 2047); QTest::newRow("move bottom - bottom screen") << QPoint(1920, 1536) << QPoint(1920, 2148) << QPoint(1920, 2047); QTest::newRow("move bottom-left - bottom screen") << QPoint(1920, 1536) << QPoint(1180, 2148) << QPoint(1280, 2047); QTest::newRow("move left - bottom screen") << QPoint(1920, 1536) << QPoint(1180, 1536) << QPoint(1280, 1536); } void PointerInputTest::testConfineToScreenGeometry() { // this test verifies that pointer belongs to at least one screen // after moving it to off-screen area // unload the Present Windows effect because it pushes back // pointer if it's at (0, 0) static_cast(effects)->unloadEffect(QStringLiteral("presentwindows")); // setup screen layout const QVector geometries { QRect(0, 0, 1280, 1024), QRect(1280, 0, 1280, 1024), QRect(2560, 0, 1280, 1024), QRect(1280, 1024, 1280, 1024) }; QMetaObject::invokeMethod(kwinApp()->platform(), "setVirtualOutputs", Qt::DirectConnection, Q_ARG(int, geometries.count()), Q_ARG(QVector, geometries)); QCOMPARE(screens()->count(), geometries.count()); QCOMPARE(screens()->geometry(0), geometries.at(0)); QCOMPARE(screens()->geometry(1), geometries.at(1)); QCOMPARE(screens()->geometry(2), geometries.at(2)); QCOMPARE(screens()->geometry(3), geometries.at(3)); // move pointer to initial position QFETCH(QPoint, startPos); Cursor::setPos(startPos); QCOMPARE(Cursor::pos(), startPos); // perform movement QFETCH(QPoint, targetPos); kwinApp()->platform()->pointerMotion(targetPos, 1); QFETCH(QPoint, expectedPos); QCOMPARE(Cursor::pos(), expectedPos); } } WAYLANDTEST_MAIN(KWin::PointerInputTest) #include "pointer_input.moc" diff --git a/input.cpp b/input.cpp index 39d975d6e..8002bffd9 100644 --- a/input.cpp +++ b/input.cpp @@ -1,2190 +1,2192 @@ /******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2013 Martin Gräßlin This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "input.h" #include "input_event.h" #include "input_event_spy.h" #include "keyboard_input.h" #include "pointer_input.h" #include "touch_input.h" #include "client.h" #include "effects.h" #include "gestures.h" #include "globalshortcuts.h" #include "logind.h" #include "main.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox/tabbox.h" #endif #include "unmanaged.h" #include "screenedge.h" #include "screens.h" #include "workspace.h" #include "libinput/connection.h" #include "libinput/device.h" #include "platform.h" #include "popup_input_filter.h" #include "shell_client.h" #include "wayland_server.h" #include #include #include #include #include #include #include //screenlocker #include // Qt #include #include namespace KWin { InputEventFilter::InputEventFilter() = default; InputEventFilter::~InputEventFilter() { if (input()) { input()->uninstallInputEventFilter(this); } } bool InputEventFilter::pointerEvent(QMouseEvent *event, quint32 nativeButton) { Q_UNUSED(event) Q_UNUSED(nativeButton) return false; } bool InputEventFilter::wheelEvent(QWheelEvent *event) { Q_UNUSED(event) return false; } bool InputEventFilter::keyEvent(QKeyEvent *event) { Q_UNUSED(event) return false; } bool InputEventFilter::touchDown(quint32 id, const QPointF &point, quint32 time) { Q_UNUSED(id) Q_UNUSED(point) Q_UNUSED(time) return false; } bool InputEventFilter::touchMotion(quint32 id, const QPointF &point, quint32 time) { Q_UNUSED(id) Q_UNUSED(point) Q_UNUSED(time) return false; } bool InputEventFilter::touchUp(quint32 id, quint32 time) { Q_UNUSED(id) Q_UNUSED(time) return false; } bool InputEventFilter::pinchGestureBegin(int fingerCount, quint32 time) { Q_UNUSED(fingerCount) Q_UNUSED(time) return false; } bool InputEventFilter::pinchGestureUpdate(qreal scale, qreal angleDelta, const QSizeF &delta, quint32 time) { Q_UNUSED(scale) Q_UNUSED(angleDelta) Q_UNUSED(delta) Q_UNUSED(time) return false; } bool InputEventFilter::pinchGestureEnd(quint32 time) { Q_UNUSED(time) return false; } bool InputEventFilter::pinchGestureCancelled(quint32 time) { Q_UNUSED(time) return false; } bool InputEventFilter::swipeGestureBegin(int fingerCount, quint32 time) { Q_UNUSED(fingerCount) Q_UNUSED(time) return false; } bool InputEventFilter::swipeGestureUpdate(const QSizeF &delta, quint32 time) { Q_UNUSED(delta) Q_UNUSED(time) return false; } bool InputEventFilter::swipeGestureEnd(quint32 time) { Q_UNUSED(time) return false; } bool InputEventFilter::swipeGestureCancelled(quint32 time) { Q_UNUSED(time) return false; } bool InputEventFilter::switchEvent(SwitchEvent *event) { Q_UNUSED(event) return false; } void InputEventFilter::passToWaylandServer(QKeyEvent *event) { Q_ASSERT(waylandServer()); if (event->isAutoRepeat()) { return; } switch (event->type()) { case QEvent::KeyPress: waylandServer()->seat()->keyPressed(event->nativeScanCode()); break; case QEvent::KeyRelease: waylandServer()->seat()->keyReleased(event->nativeScanCode()); break; default: break; } } class VirtualTerminalFilter : public InputEventFilter { public: bool keyEvent(QKeyEvent *event) override { // really on press and not on release? X11 switches on press. if (event->type() == QEvent::KeyPress && !event->isAutoRepeat()) { const xkb_keysym_t keysym = event->nativeVirtualKey(); if (keysym >= XKB_KEY_XF86Switch_VT_1 && keysym <= XKB_KEY_XF86Switch_VT_12) { LogindIntegration::self()->switchVirtualTerminal(keysym - XKB_KEY_XF86Switch_VT_1 + 1); return true; } } return false; } }; class TerminateServerFilter : public InputEventFilter { public: bool keyEvent(QKeyEvent *event) override { if (event->type() == QEvent::KeyPress && !event->isAutoRepeat()) { if (event->nativeVirtualKey() == XKB_KEY_Terminate_Server) { qCWarning(KWIN_CORE) << "Request to terminate server"; QMetaObject::invokeMethod(qApp, "quit", Qt::QueuedConnection); return true; } } return false; } }; class LockScreenFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { if (!waylandServer()->isScreenLocked()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(event->timestamp()); if (event->type() == QEvent::MouseMove) { input()->pointer()->update(); if (pointerSurfaceAllowed()) { seat->setPointerPos(event->screenPos().toPoint()); } } else if (event->type() == QEvent::MouseButtonPress || event->type() == QEvent::MouseButtonRelease) { if (pointerSurfaceAllowed()) { event->type() == QEvent::MouseButtonPress ? seat->pointerButtonPressed(nativeButton) : seat->pointerButtonReleased(nativeButton); } } return true; } bool wheelEvent(QWheelEvent *event) override { if (!waylandServer()->isScreenLocked()) { return false; } auto seat = waylandServer()->seat(); if (pointerSurfaceAllowed()) { seat->setTimestamp(event->timestamp()); const Qt::Orientation orientation = event->angleDelta().x() == 0 ? Qt::Vertical : Qt::Horizontal; seat->pointerAxis(orientation, orientation == Qt::Horizontal ? event->angleDelta().x() : event->angleDelta().y()); } return true; } bool keyEvent(QKeyEvent * event) override { if (!waylandServer()->isScreenLocked()) { return false; } if (event->isAutoRepeat()) { // wayland client takes care of it return true; } // send event to KSldApp for global accel // if event is set to accepted it means a whitelisted shortcut was triggered // in that case we filter it out and don't process it further event->setAccepted(false); QCoreApplication::sendEvent(ScreenLocker::KSldApp::self(), event); if (event->isAccepted()) { return true; } // continue normal processing input()->keyboard()->update(); auto seat = waylandServer()->seat(); seat->setTimestamp(event->timestamp()); if (!keyboardSurfaceAllowed()) { // don't pass event to seat return true; } switch (event->type()) { case QEvent::KeyPress: seat->keyPressed(event->nativeScanCode()); break; case QEvent::KeyRelease: seat->keyReleased(event->nativeScanCode()); break; default: break; } return true; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { if (!waylandServer()->isScreenLocked()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); if (!seat->isTouchSequence()) { input()->touch()->update(pos); } if (touchSurfaceAllowed()) { input()->touch()->insertId(id, seat->touchDown(pos)); } return true; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { if (!waylandServer()->isScreenLocked()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); if (touchSurfaceAllowed()) { const qint32 kwaylandId = input()->touch()->mappedId(id); if (kwaylandId != -1) { seat->touchMove(kwaylandId, pos); } } return true; } bool touchUp(quint32 id, quint32 time) override { if (!waylandServer()->isScreenLocked()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); if (touchSurfaceAllowed()) { const qint32 kwaylandId = input()->touch()->mappedId(id); if (kwaylandId != -1) { seat->touchUp(kwaylandId); input()->touch()->removeId(id); } } return true; } bool pinchGestureBegin(int fingerCount, quint32 time) override { Q_UNUSED(fingerCount) Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool pinchGestureUpdate(qreal scale, qreal angleDelta, const QSizeF &delta, quint32 time) override { Q_UNUSED(scale) Q_UNUSED(angleDelta) Q_UNUSED(delta) Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool pinchGestureEnd(quint32 time) override { Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool pinchGestureCancelled(quint32 time) override { Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool swipeGestureBegin(int fingerCount, quint32 time) override { Q_UNUSED(fingerCount) Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool swipeGestureUpdate(const QSizeF &delta, quint32 time) override { Q_UNUSED(delta) Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool swipeGestureEnd(quint32 time) override { Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } bool swipeGestureCancelled(quint32 time) override { Q_UNUSED(time) // no touchpad multi-finger gestures on lock screen return waylandServer()->isScreenLocked(); } private: bool surfaceAllowed(KWayland::Server::SurfaceInterface *(KWayland::Server::SeatInterface::*method)() const) const { if (KWayland::Server::SurfaceInterface *s = (waylandServer()->seat()->*method)()) { if (Toplevel *t = waylandServer()->findClient(s)) { return t->isLockScreen() || t->isInputMethod(); } return false; } return true; } bool pointerSurfaceAllowed() const { return surfaceAllowed(&KWayland::Server::SeatInterface::focusedPointerSurface); } bool keyboardSurfaceAllowed() const { return surfaceAllowed(&KWayland::Server::SeatInterface::focusedKeyboardSurface); } bool touchSurfaceAllowed() const { return surfaceAllowed(&KWayland::Server::SeatInterface::focusedTouchSurface); } }; class EffectsFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) if (!effects) { return false; } return static_cast(effects)->checkInputWindowEvent(event); } bool keyEvent(QKeyEvent *event) override { if (!effects || !static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab()) { return false; } waylandServer()->seat()->setFocusedKeyboardSurface(nullptr); passToWaylandServer(event); static_cast< EffectsHandlerImpl* >(effects)->grabbedKeyboardEvent(event); return true; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { if (!effects) { return false; } return static_cast< EffectsHandlerImpl* >(effects)->touchDown(id, pos, time); } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { if (!effects) { return false; } return static_cast< EffectsHandlerImpl* >(effects)->touchMotion(id, pos, time); } bool touchUp(quint32 id, quint32 time) override { if (!effects) { return false; } return static_cast< EffectsHandlerImpl* >(effects)->touchUp(id, time); } }; class MoveResizeFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) AbstractClient *c = workspace()->getMovingClient(); if (!c) { return false; } switch (event->type()) { case QEvent::MouseMove: c->updateMoveResize(event->screenPos().toPoint()); break; case QEvent::MouseButtonRelease: if (event->buttons() == Qt::NoButton) { c->endMoveResize(); } break; default: break; } return true; } bool wheelEvent(QWheelEvent *event) override { Q_UNUSED(event) // filter out while moving a window return workspace()->getMovingClient() != nullptr; } bool keyEvent(QKeyEvent *event) override { AbstractClient *c = workspace()->getMovingClient(); if (!c) { return false; } if (event->type() == QEvent::KeyPress) { c->keyPressEvent(event->key() | event->modifiers()); if (c->isMove() || c->isResize()) { // only update if mode didn't end c->updateMoveResize(input()->globalPointer()); } } return true; } }; class WindowSelectorFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) if (!m_active) { return false; } switch (event->type()) { case QEvent::MouseButtonRelease: if (event->buttons() == Qt::NoButton) { if (event->button() == Qt::RightButton) { cancel(); } else { accept(event->globalPos()); } } break; default: break; } return true; } bool wheelEvent(QWheelEvent *event) override { Q_UNUSED(event) // filter out while selecting a window return m_active; } bool keyEvent(QKeyEvent *event) override { Q_UNUSED(event) if (!m_active) { return false; } waylandServer()->seat()->setFocusedKeyboardSurface(nullptr); passToWaylandServer(event); if (event->type() == QEvent::KeyPress) { // x11 variant does this on key press, so do the same if (event->key() == Qt::Key_Escape) { cancel(); } else if (event->key() == Qt::Key_Enter || event->key() == Qt::Key_Return || event->key() == Qt::Key_Space) { accept(input()->globalPointer()); } if (input()->supportsPointerWarping()) { int mx = 0; int my = 0; if (event->key() == Qt::Key_Left) { mx = -10; } if (event->key() == Qt::Key_Right) { mx = 10; } if (event->key() == Qt::Key_Up) { my = -10; } if (event->key() == Qt::Key_Down) { my = 10; } if (event->modifiers() & Qt::ControlModifier) { mx /= 10; my /= 10; } input()->warpPointer(input()->globalPointer() + QPointF(mx, my)); } } // filter out while selecting a window return true; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(time) if (!isActive()) { return false; } m_touchPoints.insert(id, pos); return true; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(time) if (!isActive()) { return false; } auto it = m_touchPoints.find(id); if (it != m_touchPoints.end()) { *it = pos; } return true; } bool touchUp(quint32 id, quint32 time) override { Q_UNUSED(time) if (!isActive()) { return false; } auto it = m_touchPoints.find(id); if (it != m_touchPoints.end()) { const auto pos = it.value(); m_touchPoints.erase(it); if (m_touchPoints.isEmpty()) { accept(pos); } } return true; } bool isActive() const { return m_active; } void start(std::function callback) { Q_ASSERT(!m_active); m_active = true; m_callback = callback; input()->keyboard()->update(); input()->cancelTouch(); } void start(std::function callback) { Q_ASSERT(!m_active); m_active = true; m_pointSelectionFallback = callback; input()->keyboard()->update(); input()->cancelTouch(); } private: void deactivate() { m_active = false; m_callback = std::function(); m_pointSelectionFallback = std::function(); input()->pointer()->removeWindowSelectionCursor(); input()->keyboard()->update(); m_touchPoints.clear(); } void cancel() { if (m_callback) { m_callback(nullptr); } if (m_pointSelectionFallback) { m_pointSelectionFallback(QPoint(-1, -1)); } deactivate(); } void accept(const QPoint &pos) { if (m_callback) { // TODO: this ignores shaped windows m_callback(input()->findToplevel(pos)); } if (m_pointSelectionFallback) { m_pointSelectionFallback(pos); } deactivate(); } void accept(const QPointF &pos) { accept(pos.toPoint()); } bool m_active = false; std::function m_callback; std::function m_pointSelectionFallback; QMap m_touchPoints; }; class GlobalShortcutFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton); if (event->type() == QEvent::MouseButtonPress) { if (input()->shortcuts()->processPointerPressed(event->modifiers(), event->buttons())) { return true; } } return false; } bool wheelEvent(QWheelEvent *event) override { if (event->modifiers() == Qt::NoModifier) { return false; } PointerAxisDirection direction = PointerAxisUp; if (event->angleDelta().x() < 0) { direction = PointerAxisRight; } else if (event->angleDelta().x() > 0) { direction = PointerAxisLeft; } else if (event->angleDelta().y() < 0) { direction = PointerAxisDown; } else if (event->angleDelta().y() > 0) { direction = PointerAxisUp; } return input()->shortcuts()->processAxis(event->modifiers(), direction); } bool keyEvent(QKeyEvent *event) override { if (event->type() == QEvent::KeyPress) { return input()->shortcuts()->processKey(static_cast(event)->modifiersRelevantForGlobalShortcuts(), event->key()); } return false; } bool swipeGestureBegin(int fingerCount, quint32 time) override { Q_UNUSED(time) input()->shortcuts()->processSwipeStart(fingerCount); return false; } bool swipeGestureUpdate(const QSizeF &delta, quint32 time) override { Q_UNUSED(time) input()->shortcuts()->processSwipeUpdate(delta); return false; } bool swipeGestureCancelled(quint32 time) override { Q_UNUSED(time) input()->shortcuts()->processSwipeCancel(); return false; } bool swipeGestureEnd(quint32 time) override { Q_UNUSED(time) input()->shortcuts()->processSwipeEnd(); return false; } }; namespace { enum class MouseAction { ModifierOnly, ModifierAndWindow }; std::pair performClientMouseAction(QMouseEvent *event, AbstractClient *client, MouseAction action = MouseAction::ModifierOnly) { Options::MouseCommand command = Options::MouseNothing; bool wasAction = false; if (static_cast(event)->modifiersRelevantForGlobalShortcuts() == options->commandAllModifier()) { - if (!input()->pointer()->isConstrained()) { + if (!input()->pointer()->isConstrained() && !workspace()->globalShortcutsDisabled()) { wasAction = true; switch (event->button()) { case Qt::LeftButton: command = options->commandAll1(); break; case Qt::MiddleButton: command = options->commandAll2(); break; case Qt::RightButton: command = options->commandAll3(); break; default: // nothing break; } } } else { if (action == MouseAction::ModifierAndWindow) { command = client->getMouseCommand(event->button(), &wasAction); } } if (wasAction) { return std::make_pair(wasAction, !client->performMouseCommand(command, event->globalPos())); } return std::make_pair(wasAction, false); } std::pair performClientWheelAction(QWheelEvent *event, AbstractClient *c, MouseAction action = MouseAction::ModifierOnly) { bool wasAction = false; Options::MouseCommand command = Options::MouseNothing; if (static_cast(event)->modifiersRelevantForGlobalShortcuts() == options->commandAllModifier()) { - wasAction = true; - command = options->operationWindowMouseWheel(-1 * event->angleDelta().y()); + if (!input()->pointer()->isConstrained() && !workspace()->globalShortcutsDisabled()) { + wasAction = true; + command = options->operationWindowMouseWheel(-1 * event->angleDelta().y()); + } } else { if (action == MouseAction::ModifierAndWindow) { command = c->getWheelCommand(Qt::Vertical, &wasAction); } } if (wasAction) { return std::make_pair(wasAction, !c->performMouseCommand(command, event->globalPos())); } return std::make_pair(wasAction, false); } } class InternalWindowEventFilter : public InputEventFilter { bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) auto internal = input()->pointer()->internalWindow(); if (!internal) { return false; } if (event->buttons() == Qt::NoButton) { // update pointer window only if no button is pressed input()->pointer()->update(); } if (!internal) { return false; } // find client switch (event->type()) { case QEvent::MouseButtonPress: case QEvent::MouseButtonRelease: { auto s = waylandServer()->findClient(internal); if (s && s->isDecorated()) { // only perform mouse commands on decorated internal windows const auto actionResult = performClientMouseAction(event, s); if (actionResult.first) { return actionResult.second; } } break; } default: break; } QMouseEvent e(event->type(), event->pos() - internal->position(), event->globalPos(), event->button(), event->buttons(), event->modifiers()); e.setAccepted(false); QCoreApplication::sendEvent(internal.data(), &e); return e.isAccepted(); } bool wheelEvent(QWheelEvent *event) override { auto internal = input()->pointer()->internalWindow(); if (!internal) { return false; } if (event->angleDelta().y() != 0) { auto s = waylandServer()->findClient(internal); if (s && s->isDecorated()) { // client window action only on vertical scrolling const auto actionResult = performClientWheelAction(event, s); if (actionResult.first) { return actionResult.second; } } } const QPointF localPos = event->globalPosF() - QPointF(internal->x(), internal->y()); const Qt::Orientation orientation = (event->angleDelta().x() != 0) ? Qt::Horizontal : Qt::Vertical; const int delta = event->angleDelta().x() != 0 ? event->angleDelta().x() : event->angleDelta().y(); QWheelEvent e(localPos, event->globalPosF(), QPoint(), event->angleDelta() * -1, delta * -1, orientation, event->buttons(), event->modifiers()); e.setAccepted(false); QCoreApplication::sendEvent(internal.data(), &e); return e.isAccepted(); } bool keyEvent(QKeyEvent *event) override { const auto &internalClients = waylandServer()->internalClients(); if (internalClients.isEmpty()) { return false; } QWindow *found = nullptr; auto it = internalClients.end(); do { it--; if (QWindow *w = (*it)->internalWindow()) { if (!w->isVisible()) { continue; } if (!screens()->geometry().contains(w->geometry())) { continue; } if (w->property("_q_showWithoutActivating").toBool()) { continue; } if (w->property("outputOnly").toBool()) { continue; } if (w->flags().testFlag(Qt::ToolTip)) { continue; } found = w; break; } } while (it != internalClients.begin()); if (!found) { return false; } auto xkb = input()->keyboard()->xkb(); Qt::Key key = xkb->toQtKey(xkb->toKeysym(event->nativeScanCode())); if (key == Qt::Key_Super_L || key == Qt::Key_Super_R) { // workaround for QTBUG-62102 key = Qt::Key_Meta; } QKeyEvent internalEvent(event->type(), key, event->modifiers(), event->nativeScanCode(), event->nativeVirtualKey(), event->nativeModifiers(), event->text()); internalEvent.setAccepted(false); if (QCoreApplication::sendEvent(found, &internalEvent)) { waylandServer()->seat()->setFocusedKeyboardSurface(nullptr); passToWaylandServer(event); return true; } return false; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { auto seat = waylandServer()->seat(); if (seat->isTouchSequence()) { // something else is getting the events return false; } auto touch = input()->touch(); if (touch->internalPressId() != -1) { // already on a decoration, ignore further touch points, but filter out return true; } // a new touch point seat->setTimestamp(time); touch->update(pos); auto internal = touch->internalWindow(); if (!internal) { return false; } touch->setInternalPressId(id); // Qt's touch event API is rather complex, let's do fake mouse events instead m_lastGlobalTouchPos = pos; m_lastLocalTouchPos = pos - QPointF(internal->x(), internal->y()); QMouseEvent e(QEvent::MouseButtonPress, m_lastLocalTouchPos, pos, Qt::LeftButton, Qt::LeftButton, input()->keyboardModifiers()); e.setAccepted(false); QCoreApplication::sendEvent(internal.data(), &e); return true; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { auto touch = input()->touch(); auto internal = touch->internalWindow(); if (!internal) { return false; } if (touch->internalPressId() == -1) { return false; } waylandServer()->seat()->setTimestamp(time); if (touch->internalPressId() != qint32(id)) { // ignore, but filter out return true; } m_lastGlobalTouchPos = pos; m_lastLocalTouchPos = pos - QPointF(internal->x(), internal->y()); QMouseEvent e(QEvent::MouseMove, m_lastLocalTouchPos, m_lastGlobalTouchPos, Qt::LeftButton, Qt::LeftButton, input()->keyboardModifiers()); QCoreApplication::instance()->sendEvent(internal.data(), &e); return true; } bool touchUp(quint32 id, quint32 time) override { auto touch = input()->touch(); auto internal = touch->internalWindow(); if (!internal) { return false; } if (touch->internalPressId() == -1) { return false; } waylandServer()->seat()->setTimestamp(time); if (touch->internalPressId() != qint32(id)) { // ignore, but filter out return true; } // send mouse up QMouseEvent e(QEvent::MouseButtonRelease, m_lastLocalTouchPos, m_lastGlobalTouchPos, Qt::LeftButton, Qt::MouseButtons(), input()->keyboardModifiers()); e.setAccepted(false); QCoreApplication::sendEvent(internal.data(), &e); m_lastGlobalTouchPos = QPointF(); m_lastLocalTouchPos = QPointF(); input()->touch()->setInternalPressId(-1); return true; } private: QPointF m_lastGlobalTouchPos; QPointF m_lastLocalTouchPos; }; class DecorationEventFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) auto decoration = input()->pointer()->decoration(); if (!decoration) { return false; } const QPointF p = event->globalPos() - decoration->client()->pos(); switch (event->type()) { case QEvent::MouseMove: { if (event->buttons() == Qt::NoButton) { return false; } QHoverEvent e(QEvent::HoverMove, p, p); QCoreApplication::instance()->sendEvent(decoration->decoration(), &e); decoration->client()->processDecorationMove(p.toPoint(), event->globalPos()); return true; } case QEvent::MouseButtonPress: case QEvent::MouseButtonRelease: { const auto actionResult = performClientMouseAction(event, decoration->client()); if (actionResult.first) { return actionResult.second; } QMouseEvent e(event->type(), p, event->globalPos(), event->button(), event->buttons(), event->modifiers()); e.setAccepted(false); QCoreApplication::sendEvent(decoration->decoration(), &e); if (!e.isAccepted() && event->type() == QEvent::MouseButtonPress) { decoration->client()->processDecorationButtonPress(&e); } if (event->type() == QEvent::MouseButtonRelease) { decoration->client()->processDecorationButtonRelease(&e); } return true; } default: break; } return false; } bool wheelEvent(QWheelEvent *event) override { auto decoration = input()->pointer()->decoration(); if (!decoration) { return false; } if (event->angleDelta().y() != 0) { // client window action only on vertical scrolling const auto actionResult = performClientWheelAction(event, decoration->client()); if (actionResult.first) { return actionResult.second; } } const QPointF localPos = event->globalPosF() - decoration->client()->pos(); const Qt::Orientation orientation = (event->angleDelta().x() != 0) ? Qt::Horizontal : Qt::Vertical; const int delta = event->angleDelta().x() != 0 ? event->angleDelta().x() : event->angleDelta().y(); QWheelEvent e(localPos, event->globalPosF(), QPoint(), event->angleDelta(), delta, orientation, event->buttons(), event->modifiers()); e.setAccepted(false); QCoreApplication::sendEvent(decoration.data(), &e); if (e.isAccepted()) { return true; } if ((orientation == Qt::Vertical) && decoration->client()->titlebarPositionUnderMouse()) { decoration->client()->performMouseCommand(options->operationTitlebarMouseWheel(delta * -1), event->globalPosF().toPoint()); } return true; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { auto seat = waylandServer()->seat(); if (seat->isTouchSequence()) { return false; } if (input()->touch()->decorationPressId() != -1) { // already on a decoration, ignore further touch points, but filter out return true; } seat->setTimestamp(time); input()->touch()->update(pos); auto decoration = input()->touch()->decoration(); if (!decoration) { return false; } input()->touch()->setDecorationPressId(id); m_lastGlobalTouchPos = pos; m_lastLocalTouchPos = pos - decoration->client()->pos(); QMouseEvent e(QEvent::MouseButtonPress, m_lastLocalTouchPos, pos, Qt::LeftButton, Qt::LeftButton, input()->keyboardModifiers()); e.setAccepted(false); QCoreApplication::sendEvent(decoration->decoration(), &e); if (!e.isAccepted()) { decoration->client()->processDecorationButtonPress(&e); } return true; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(time) auto decoration = input()->touch()->decoration(); if (!decoration) { return false; } if (input()->touch()->decorationPressId() == -1) { return false; } if (input()->touch()->decorationPressId() != qint32(id)) { // ignore, but filter out return true; } m_lastGlobalTouchPos = pos; m_lastLocalTouchPos = pos - decoration->client()->pos(); if (auto c = workspace()->getMovingClient()) { c->updateMoveResize(pos); } else { QHoverEvent e(QEvent::HoverMove, m_lastLocalTouchPos, m_lastLocalTouchPos); QCoreApplication::instance()->sendEvent(decoration->decoration(), &e); decoration->client()->processDecorationMove(m_lastLocalTouchPos.toPoint(), pos.toPoint()); } return true; } bool touchUp(quint32 id, quint32 time) override { Q_UNUSED(time); auto decoration = input()->touch()->decoration(); if (!decoration) { return false; } if (input()->touch()->decorationPressId() == -1) { return false; } if (input()->touch()->decorationPressId() != qint32(id)) { // ignore, but filter out return true; } // send mouse up if (auto c = workspace()->getMovingClient()) { c->endMoveResize(); } else { QMouseEvent e(QEvent::MouseButtonRelease, m_lastLocalTouchPos, m_lastGlobalTouchPos, Qt::LeftButton, Qt::MouseButtons(), input()->keyboardModifiers()); e.setAccepted(false); QCoreApplication::sendEvent(decoration->decoration(), &e); decoration->client()->processDecorationButtonRelease(&e); if (input()->pointer()->decoration() == decoration) { // send motion to current pointer position const QPointF p = input()->pointer()->pos() - decoration->client()->pos(); QHoverEvent event(QEvent::HoverMove, p, p); QCoreApplication::instance()->sendEvent(decoration->decoration(), &event); } else { // send leave QHoverEvent event(QEvent::HoverLeave, QPointF(), QPointF()); QCoreApplication::instance()->sendEvent(decoration->decoration(), &event); } } m_lastGlobalTouchPos = QPointF(); m_lastLocalTouchPos = QPointF(); input()->touch()->setDecorationPressId(-1); return true; } private: QPointF m_lastGlobalTouchPos; QPointF m_lastLocalTouchPos; }; #ifdef KWIN_BUILD_TABBOX class TabBoxInputFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 button) override { Q_UNUSED(button) if (!TabBox::TabBox::self() || !TabBox::TabBox::self()->isGrabbed()) { return false; } return TabBox::TabBox::self()->handleMouseEvent(event); } bool keyEvent(QKeyEvent *event) override { if (!TabBox::TabBox::self() || !TabBox::TabBox::self()->isGrabbed()) { return false; } auto seat = waylandServer()->seat(); seat->setFocusedKeyboardSurface(nullptr); input()->pointer()->setEnableConstraints(false); // pass the key event to the seat, so that it has a proper model of the currently hold keys // this is important for combinations like alt+shift to ensure that shift is not considered pressed passToWaylandServer(event); if (event->type() == QEvent::KeyPress) { TabBox::TabBox::self()->keyPress(event->modifiers() | event->key()); } else if (static_cast(event)->modifiersRelevantForGlobalShortcuts() == Qt::NoModifier) { TabBox::TabBox::self()->modifiersReleased(); } return true; } bool wheelEvent(QWheelEvent *event) override { if (!TabBox::TabBox::self() || !TabBox::TabBox::self()->isGrabbed()) { return false; } return TabBox::TabBox::self()->handleWheelEvent(event); } }; #endif class ScreenEdgeInputFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) ScreenEdges::self()->isEntered(event); // always forward return false; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(time) // TODO: better check whether a touch sequence is in progress if (m_touchInProgress || waylandServer()->seat()->isTouchSequence()) { // cancel existing touch ScreenEdges::self()->gestureRecognizer()->cancelSwipeGesture(); m_touchInProgress = false; m_id = 0; return false; } if (ScreenEdges::self()->gestureRecognizer()->startSwipeGesture(pos) > 0) { m_touchInProgress = true; m_id = id; m_lastPos = pos; return true; } return false; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(time) if (m_touchInProgress && m_id == id) { ScreenEdges::self()->gestureRecognizer()->updateSwipeGesture(QSizeF(pos.x() - m_lastPos.x(), pos.y() - m_lastPos.y())); m_lastPos = pos; return true; } return false; } bool touchUp(quint32 id, quint32 time) override { Q_UNUSED(time) if (m_touchInProgress && m_id == id) { ScreenEdges::self()->gestureRecognizer()->endSwipeGesture(); m_touchInProgress = false; return true; } return false; } private: bool m_touchInProgress = false; quint32 m_id = 0; QPointF m_lastPos; }; /** * This filter implements window actions. If the event should not be passed to the * current pointer window it will filter out the event **/ class WindowActionInputFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { Q_UNUSED(nativeButton) if (event->type() != QEvent::MouseButtonPress) { return false; } AbstractClient *c = dynamic_cast(input()->pointer()->window().data()); if (!c) { return false; } const auto actionResult = performClientMouseAction(event, c, MouseAction::ModifierAndWindow); if (actionResult.first) { return actionResult.second; } return false; } bool wheelEvent(QWheelEvent *event) override { if (event->angleDelta().y() == 0) { // only actions on vertical scroll return false; } AbstractClient *c = dynamic_cast(input()->pointer()->window().data()); if (!c) { return false; } const auto actionResult = performClientWheelAction(event, c, MouseAction::ModifierAndWindow); if (actionResult.first) { return actionResult.second; } return false; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { Q_UNUSED(id) Q_UNUSED(time) auto seat = waylandServer()->seat(); if (seat->isTouchSequence()) { return false; } input()->touch()->update(pos); AbstractClient *c = dynamic_cast(input()->touch()->window().data()); if (!c) { return false; } bool wasAction = false; const Options::MouseCommand command = c->getMouseCommand(Qt::LeftButton, &wasAction); if (wasAction) { return !c->performMouseCommand(command, pos.toPoint()); } return false; } }; /** * The remaining default input filter which forwards events to other windows **/ class ForwardInputFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { auto seat = waylandServer()->seat(); seat->setTimestamp(event->timestamp()); switch (event->type()) { case QEvent::MouseMove: { if (event->buttons() == Qt::NoButton) { // update pointer window only if no button is pressed input()->pointer()->update(); input()->pointer()->updatePointerConstraints(); } seat->setPointerPos(event->globalPos()); MouseEvent *e = static_cast(event); if (e->delta() != QSizeF()) { seat->relativePointerMotion(e->delta(), e->deltaUnaccelerated(), e->timestampMicroseconds()); } break; } case QEvent::MouseButtonPress: seat->pointerButtonPressed(nativeButton); break; case QEvent::MouseButtonRelease: seat->pointerButtonReleased(nativeButton); if (event->buttons() == Qt::NoButton) { input()->pointer()->update(); } break; default: break; } return true; } bool wheelEvent(QWheelEvent *event) override { auto seat = waylandServer()->seat(); seat->setTimestamp(event->timestamp()); const Qt::Orientation orientation = event->angleDelta().x() == 0 ? Qt::Vertical : Qt::Horizontal; seat->pointerAxis(orientation, orientation == Qt::Horizontal ? event->angleDelta().x() : event->angleDelta().y()); return true; } bool keyEvent(QKeyEvent *event) override { if (!workspace()) { return false; } if (event->isAutoRepeat()) { // handled by Wayland client return false; } auto seat = waylandServer()->seat(); input()->keyboard()->update(); seat->setTimestamp(event->timestamp()); passToWaylandServer(event); return true; } bool touchDown(quint32 id, const QPointF &pos, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); if (!seat->isTouchSequence()) { input()->touch()->update(pos); } input()->touch()->insertId(id, seat->touchDown(pos)); return true; } bool touchMotion(quint32 id, const QPointF &pos, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); const qint32 kwaylandId = input()->touch()->mappedId(id); if (kwaylandId != -1) { seat->touchMove(kwaylandId, pos); } return true; } bool touchUp(quint32 id, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); const qint32 kwaylandId = input()->touch()->mappedId(id); if (kwaylandId != -1) { seat->touchUp(kwaylandId); input()->touch()->removeId(id); } return true; } bool pinchGestureBegin(int fingerCount, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->startPointerPinchGesture(fingerCount); return true; } bool pinchGestureUpdate(qreal scale, qreal angleDelta, const QSizeF &delta, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->updatePointerPinchGesture(delta, scale, angleDelta); return true; } bool pinchGestureEnd(quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->endPointerPinchGesture(); return true; } bool pinchGestureCancelled(quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->cancelPointerPinchGesture(); return true; } bool swipeGestureBegin(int fingerCount, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->startPointerSwipeGesture(fingerCount); return true; } bool swipeGestureUpdate(const QSizeF &delta, quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->updatePointerSwipeGesture(delta); return true; } bool swipeGestureEnd(quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->endPointerSwipeGesture(); return true; } bool swipeGestureCancelled(quint32 time) override { if (!workspace()) { return false; } auto seat = waylandServer()->seat(); seat->setTimestamp(time); seat->cancelPointerSwipeGesture(); return true; } }; class DragAndDropInputFilter : public InputEventFilter { public: bool pointerEvent(QMouseEvent *event, quint32 nativeButton) override { auto seat = waylandServer()->seat(); if (!seat->isDragPointer()) { return false; } seat->setTimestamp(event->timestamp()); switch (event->type()) { case QEvent::MouseMove: { if (Toplevel *t = input()->findToplevel(event->globalPos())) { // TODO: consider decorations if (t->surface() != seat->dragSurface()) { if (AbstractClient *c = qobject_cast(t)) { workspace()->activateClient(c); } seat->setPointerPos(event->globalPos()); seat->setDragTarget(t->surface(), event->globalPos(), t->inputTransformation()); } } else { // no window at that place, if we have a surface we need to reset seat->setDragTarget(nullptr); } seat->setPointerPos(event->globalPos()); break; } case QEvent::MouseButtonPress: seat->pointerButtonPressed(nativeButton); break; case QEvent::MouseButtonRelease: seat->pointerButtonReleased(nativeButton); break; default: break; } // TODO: should we pass through effects? return true; } }; KWIN_SINGLETON_FACTORY(InputRedirection) static const QString s_touchpadComponent = QStringLiteral("kcm_touchpad"); InputRedirection::InputRedirection(QObject *parent) : QObject(parent) , m_keyboard(new KeyboardInputRedirection(this)) , m_pointer(new PointerInputRedirection(this)) , m_touch(new TouchInputRedirection(this)) , m_shortcuts(new GlobalShortcutsManager(this)) { qRegisterMetaType(); qRegisterMetaType(); qRegisterMetaType(); if (Application::usesLibinput()) { if (LogindIntegration::self()->hasSessionControl()) { setupLibInput(); } else { LibInput::Connection::createThread(); if (LogindIntegration::self()->isConnected()) { LogindIntegration::self()->takeControl(); } else { connect(LogindIntegration::self(), &LogindIntegration::connectedChanged, LogindIntegration::self(), &LogindIntegration::takeControl); } connect(LogindIntegration::self(), &LogindIntegration::hasSessionControlChanged, this, [this] (bool sessionControl) { if (sessionControl) { setupLibInput(); } } ); } } connect(kwinApp(), &Application::workspaceCreated, this, &InputRedirection::setupWorkspace); reconfigure(); } InputRedirection::~InputRedirection() { s_self = NULL; qDeleteAll(m_filters); qDeleteAll(m_spies); } void InputRedirection::installInputEventFilter(InputEventFilter *filter) { Q_ASSERT(!m_filters.contains(filter)); m_filters << filter; } void InputRedirection::prependInputEventFilter(InputEventFilter *filter) { Q_ASSERT(!m_filters.contains(filter)); m_filters.prepend(filter); } void InputRedirection::uninstallInputEventFilter(InputEventFilter *filter) { m_filters.removeOne(filter); } void InputRedirection::installInputEventSpy(InputEventSpy *spy) { m_spies << spy; } void InputRedirection::uninstallInputEventSpy(InputEventSpy *spy) { m_spies.removeOne(spy); } void InputRedirection::init() { m_shortcuts->init(); } void InputRedirection::setupWorkspace() { if (waylandServer()) { using namespace KWayland::Server; FakeInputInterface *fakeInput = waylandServer()->display()->createFakeInput(this); fakeInput->create(); connect(fakeInput, &FakeInputInterface::deviceCreated, this, [this] (FakeInputDevice *device) { connect(device, &FakeInputDevice::authenticationRequested, this, [this, device] (const QString &application, const QString &reason) { Q_UNUSED(application) Q_UNUSED(reason) // TODO: make secure device->setAuthentication(true); } ); connect(device, &FakeInputDevice::pointerMotionRequested, this, [this] (const QSizeF &delta) { // TODO: Fix time m_pointer->processMotion(globalPointer() + QPointF(delta.width(), delta.height()), 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::pointerButtonPressRequested, this, [this] (quint32 button) { // TODO: Fix time m_pointer->processButton(button, InputRedirection::PointerButtonPressed, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::pointerButtonReleaseRequested, this, [this] (quint32 button) { // TODO: Fix time m_pointer->processButton(button, InputRedirection::PointerButtonReleased, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::pointerAxisRequested, this, [this] (Qt::Orientation orientation, qreal delta) { // TODO: Fix time InputRedirection::PointerAxis axis; switch (orientation) { case Qt::Horizontal: axis = InputRedirection::PointerAxisHorizontal; break; case Qt::Vertical: axis = InputRedirection::PointerAxisVertical; break; default: Q_UNREACHABLE(); break; } // TODO: Fix time m_pointer->processAxis(axis, delta, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::touchDownRequested, this, [this] (quint32 id, const QPointF &pos) { // TODO: Fix time m_touch->processDown(id, pos, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::touchMotionRequested, this, [this] (quint32 id, const QPointF &pos) { // TODO: Fix time m_touch->processMotion(id, pos, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::touchUpRequested, this, [this] (quint32 id) { // TODO: Fix time m_touch->processUp(id, 0); waylandServer()->simulateUserActivity(); } ); connect(device, &FakeInputDevice::touchCancelRequested, this, [this] () { m_touch->cancel(); } ); connect(device, &FakeInputDevice::touchFrameRequested, this, [this] () { m_touch->frame(); } ); } ); connect(workspace(), &Workspace::configChanged, this, &InputRedirection::reconfigure); m_keyboard->init(); m_pointer->init(); m_touch->init(); } setupInputFilters(); } void InputRedirection::setupInputFilters() { if (LogindIntegration::self()->hasSessionControl()) { installInputEventFilter(new VirtualTerminalFilter); } if (waylandServer()) { installInputEventFilter(new TerminateServerFilter); installInputEventFilter(new DragAndDropInputFilter); installInputEventFilter(new LockScreenFilter); installInputEventFilter(new PopupInputFilter); m_windowSelector = new WindowSelectorFilter; installInputEventFilter(m_windowSelector); } installInputEventFilter(new ScreenEdgeInputFilter); installInputEventFilter(new EffectsFilter); installInputEventFilter(new MoveResizeFilter); #ifdef KWIN_BUILD_TABBOX installInputEventFilter(new TabBoxInputFilter); #endif installInputEventFilter(new GlobalShortcutFilter); installInputEventFilter(new InternalWindowEventFilter); installInputEventFilter(new DecorationEventFilter); if (waylandServer()) { installInputEventFilter(new WindowActionInputFilter); installInputEventFilter(new ForwardInputFilter); } } void InputRedirection::reconfigure() { if (Application::usesLibinput()) { auto inputConfig = kwinApp()->inputConfig(); inputConfig->reparseConfiguration(); const auto config = inputConfig->group(QStringLiteral("keyboard")); const int delay = config.readEntry("RepeatDelay", 660); const int rate = config.readEntry("RepeatRate", 25); const bool enabled = config.readEntry("KeyboardRepeating", 0) == 0; waylandServer()->seat()->setKeyRepeatInfo(enabled ? rate : 0, delay); } } static KWayland::Server::SeatInterface *findSeat() { auto server = waylandServer(); if (!server) { return nullptr; } return server->seat(); } void InputRedirection::setupLibInput() { if (!Application::usesLibinput()) { return; } if (m_libInput) { return; } LibInput::Connection *conn = LibInput::Connection::create(this); m_libInput = conn; if (conn) { if (waylandServer()) { // create relative pointer manager waylandServer()->display()->createRelativePointerManager(KWayland::Server::RelativePointerInterfaceVersion::UnstableV1, waylandServer()->display())->create(); } conn->setInputConfig(kwinApp()->inputConfig()); conn->updateLEDs(m_keyboard->xkb()->leds()); connect(m_keyboard, &KeyboardInputRedirection::ledsChanged, conn, &LibInput::Connection::updateLEDs); connect(conn, &LibInput::Connection::eventsRead, this, [this] { m_libInput->processEvents(); }, Qt::QueuedConnection ); conn->setup(); connect(conn, &LibInput::Connection::pointerButtonChanged, m_pointer, &PointerInputRedirection::processButton); connect(conn, &LibInput::Connection::pointerAxisChanged, m_pointer, &PointerInputRedirection::processAxis); connect(conn, &LibInput::Connection::pinchGestureBegin, m_pointer, &PointerInputRedirection::processPinchGestureBegin); connect(conn, &LibInput::Connection::pinchGestureUpdate, m_pointer, &PointerInputRedirection::processPinchGestureUpdate); connect(conn, &LibInput::Connection::pinchGestureEnd, m_pointer, &PointerInputRedirection::processPinchGestureEnd); connect(conn, &LibInput::Connection::pinchGestureCancelled, m_pointer, &PointerInputRedirection::processPinchGestureCancelled); connect(conn, &LibInput::Connection::swipeGestureBegin, m_pointer, &PointerInputRedirection::processSwipeGestureBegin); connect(conn, &LibInput::Connection::swipeGestureUpdate, m_pointer, &PointerInputRedirection::processSwipeGestureUpdate); connect(conn, &LibInput::Connection::swipeGestureEnd, m_pointer, &PointerInputRedirection::processSwipeGestureEnd); connect(conn, &LibInput::Connection::swipeGestureCancelled, m_pointer, &PointerInputRedirection::processSwipeGestureCancelled); connect(conn, &LibInput::Connection::keyChanged, m_keyboard, &KeyboardInputRedirection::processKey); connect(conn, &LibInput::Connection::pointerMotion, this, [this] (const QSizeF &delta, const QSizeF &deltaNonAccel, uint32_t time, quint64 timeMicroseconds, LibInput::Device *device) { m_pointer->processMotion(m_pointer->pos() + QPointF(delta.width(), delta.height()), delta, deltaNonAccel, time, timeMicroseconds, device); } ); connect(conn, &LibInput::Connection::pointerMotionAbsolute, this, [this] (QPointF orig, QPointF screen, uint32_t time, LibInput::Device *device) { Q_UNUSED(orig) m_pointer->processMotion(screen, time, device); } ); connect(conn, &LibInput::Connection::touchDown, m_touch, &TouchInputRedirection::processDown); connect(conn, &LibInput::Connection::touchUp, m_touch, &TouchInputRedirection::processUp); connect(conn, &LibInput::Connection::touchMotion, m_touch, &TouchInputRedirection::processMotion); connect(conn, &LibInput::Connection::touchCanceled, m_touch, &TouchInputRedirection::cancel); connect(conn, &LibInput::Connection::touchFrame, m_touch, &TouchInputRedirection::frame); auto handleSwitchEvent = [this] (SwitchEvent::State state, quint32 time, quint64 timeMicroseconds, LibInput::Device *device) { SwitchEvent event(state, time, timeMicroseconds, device); processSpies(std::bind(&InputEventSpy::switchEvent, std::placeholders::_1, &event)); processFilters(std::bind(&InputEventFilter::switchEvent, std::placeholders::_1, &event)); }; connect(conn, &LibInput::Connection::switchToggledOn, this, std::bind(handleSwitchEvent, SwitchEvent::State::On, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3)); connect(conn, &LibInput::Connection::switchToggledOff, this, std::bind(handleSwitchEvent, SwitchEvent::State::Off, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3)); if (screens()) { setupLibInputWithScreens(); } else { connect(kwinApp(), &Application::screensCreated, this, &InputRedirection::setupLibInputWithScreens); } if (auto s = findSeat()) { // Workaround for QTBUG-54371: if there is no real keyboard Qt doesn't request virtual keyboard s->setHasKeyboard(true); s->setHasPointer(conn->hasPointer()); s->setHasTouch(conn->hasTouch()); connect(conn, &LibInput::Connection::hasAlphaNumericKeyboardChanged, this, [this] (bool set) { if (m_libInput->isSuspended()) { return; } // TODO: this should update the seat, only workaround for QTBUG-54371 emit hasAlphaNumericKeyboardChanged(set); } ); connect(conn, &LibInput::Connection::hasTabletModeSwitchChanged, this, [this] (bool set) { if (m_libInput->isSuspended()) { return; } emit hasTabletModeSwitchChanged(set); } ); connect(conn, &LibInput::Connection::hasPointerChanged, this, [this, s] (bool set) { if (m_libInput->isSuspended()) { return; } s->setHasPointer(set); } ); connect(conn, &LibInput::Connection::hasTouchChanged, this, [this, s] (bool set) { if (m_libInput->isSuspended()) { return; } s->setHasTouch(set); } ); } connect(LogindIntegration::self(), &LogindIntegration::sessionActiveChanged, m_libInput, [this] (bool active) { if (!active) { m_libInput->deactivate(); } } ); } setupTouchpadShortcuts(); } void InputRedirection::setupTouchpadShortcuts() { if (!m_libInput) { return; } QAction *touchpadToggleAction = new QAction(this); QAction *touchpadOnAction = new QAction(this); QAction *touchpadOffAction = new QAction(this); touchpadToggleAction->setObjectName(QStringLiteral("Toggle Touchpad")); touchpadToggleAction->setProperty("componentName", s_touchpadComponent); touchpadOnAction->setObjectName(QStringLiteral("Enable Touchpad")); touchpadOnAction->setProperty("componentName", s_touchpadComponent); touchpadOffAction->setObjectName(QStringLiteral("Disable Touchpad")); touchpadOffAction->setProperty("componentName", s_touchpadComponent); KGlobalAccel::self()->setDefaultShortcut(touchpadToggleAction, QList{Qt::Key_TouchpadToggle}); KGlobalAccel::self()->setShortcut(touchpadToggleAction, QList{Qt::Key_TouchpadToggle}); KGlobalAccel::self()->setDefaultShortcut(touchpadOnAction, QList{Qt::Key_TouchpadOn}); KGlobalAccel::self()->setShortcut(touchpadOnAction, QList{Qt::Key_TouchpadOn}); KGlobalAccel::self()->setDefaultShortcut(touchpadOffAction, QList{Qt::Key_TouchpadOff}); KGlobalAccel::self()->setShortcut(touchpadOffAction, QList{Qt::Key_TouchpadOff}); #ifndef KWIN_BUILD_TESTING registerShortcut(Qt::Key_TouchpadToggle, touchpadToggleAction); registerShortcut(Qt::Key_TouchpadOn, touchpadOnAction); registerShortcut(Qt::Key_TouchpadOff, touchpadOffAction); #endif connect(touchpadToggleAction, &QAction::triggered, m_libInput, &LibInput::Connection::toggleTouchpads); connect(touchpadOnAction, &QAction::triggered, m_libInput, &LibInput::Connection::enableTouchpads); connect(touchpadOffAction, &QAction::triggered, m_libInput, &LibInput::Connection::disableTouchpads); } bool InputRedirection::hasAlphaNumericKeyboard() { if (m_libInput) { return m_libInput->hasAlphaNumericKeyboard(); } return true; } bool InputRedirection::hasTabletModeSwitch() { if (m_libInput) { return m_libInput->hasTabletModeSwitch(); } return false; } void InputRedirection::setupLibInputWithScreens() { if (!screens() || !m_libInput) { return; } m_libInput->setScreenSize(screens()->size()); m_libInput->updateScreens(); connect(screens(), &Screens::sizeChanged, this, [this] { m_libInput->setScreenSize(screens()->size()); } ); connect(screens(), &Screens::changed, m_libInput, &LibInput::Connection::updateScreens); } void InputRedirection::processPointerMotion(const QPointF &pos, uint32_t time) { m_pointer->processMotion(pos, time); } void InputRedirection::processPointerButton(uint32_t button, InputRedirection::PointerButtonState state, uint32_t time) { m_pointer->processButton(button, state, time); } void InputRedirection::processPointerAxis(InputRedirection::PointerAxis axis, qreal delta, uint32_t time) { m_pointer->processAxis(axis, delta, time); } void InputRedirection::processKeyboardKey(uint32_t key, InputRedirection::KeyboardKeyState state, uint32_t time) { m_keyboard->processKey(key, state, time); } void InputRedirection::processKeyboardModifiers(uint32_t modsDepressed, uint32_t modsLatched, uint32_t modsLocked, uint32_t group) { m_keyboard->processModifiers(modsDepressed, modsLatched, modsLocked, group); } void InputRedirection::processKeymapChange(int fd, uint32_t size) { m_keyboard->processKeymapChange(fd, size); } void InputRedirection::processTouchDown(qint32 id, const QPointF &pos, quint32 time) { m_touch->processDown(id, pos, time); } void InputRedirection::processTouchUp(qint32 id, quint32 time) { m_touch->processUp(id, time); } void InputRedirection::processTouchMotion(qint32 id, const QPointF &pos, quint32 time) { m_touch->processMotion(id, pos, time); } void InputRedirection::cancelTouch() { m_touch->cancel(); } void InputRedirection::touchFrame() { m_touch->frame(); } Qt::MouseButtons InputRedirection::qtButtonStates() const { return m_pointer->buttons(); } static bool acceptsInput(Toplevel *t, const QPoint &pos) { const QRegion input = t->inputShape(); if (input.isEmpty()) { return true; } return input.translated(t->pos()).contains(pos); } Toplevel *InputRedirection::findToplevel(const QPoint &pos) { if (!Workspace::self()) { return nullptr; } const bool isScreenLocked = waylandServer() && waylandServer()->isScreenLocked(); // TODO: check whether the unmanaged wants input events at all if (!isScreenLocked) { // if an effect overrides the cursor we don't have a window to focus if (effects && static_cast(effects)->isMouseInterception()) { return nullptr; } const UnmanagedList &unmanaged = Workspace::self()->unmanagedList(); foreach (Unmanaged *u, unmanaged) { if (u->geometry().contains(pos) && acceptsInput(u, pos)) { return u; } } } const ToplevelList &stacking = Workspace::self()->stackingOrder(); if (stacking.isEmpty()) { return NULL; } auto it = stacking.end(); do { --it; Toplevel *t = (*it); if (t->isDeleted()) { // a deleted window doesn't get mouse events continue; } if (AbstractClient *c = dynamic_cast(t)) { if (!c->isOnCurrentActivity() || !c->isOnCurrentDesktop() || c->isMinimized() || !c->isCurrentTab() || c->isHiddenInternal()) { continue; } } if (!t->readyForPainting()) { continue; } if (isScreenLocked) { if (!t->isLockScreen() && !t->isInputMethod()) { continue; } } if (t->inputGeometry().contains(pos) && acceptsInput(t, pos)) { return t; } } while (it != stacking.begin()); return NULL; } Qt::KeyboardModifiers InputRedirection::keyboardModifiers() const { return m_keyboard->modifiers(); } Qt::KeyboardModifiers InputRedirection::modifiersRelevantForGlobalShortcuts() const { return m_keyboard->modifiersRelevantForGlobalShortcuts(); } void InputRedirection::registerShortcut(const QKeySequence &shortcut, QAction *action) { Q_UNUSED(shortcut) kwinApp()->platform()->setupActionForGlobalAccel(action); } void InputRedirection::registerPointerShortcut(Qt::KeyboardModifiers modifiers, Qt::MouseButton pointerButtons, QAction *action) { m_shortcuts->registerPointerShortcut(action, modifiers, pointerButtons); } void InputRedirection::registerAxisShortcut(Qt::KeyboardModifiers modifiers, PointerAxisDirection axis, QAction *action) { m_shortcuts->registerAxisShortcut(action, modifiers, axis); } void InputRedirection::registerTouchpadSwipeShortcut(SwipeDirection direction, QAction *action) { m_shortcuts->registerTouchpadSwipe(action, direction); } void InputRedirection::registerGlobalAccel(KGlobalAccelInterface *interface) { m_shortcuts->setKGlobalAccelInterface(interface); } void InputRedirection::warpPointer(const QPointF &pos) { m_pointer->warp(pos); } bool InputRedirection::supportsPointerWarping() const { return m_pointer->supportsWarping(); } QPointF InputRedirection::globalPointer() const { return m_pointer->pos(); } void InputRedirection::startInteractiveWindowSelection(std::function callback, const QByteArray &cursorName) { if (!m_windowSelector || m_windowSelector->isActive()) { callback(nullptr); return; } m_windowSelector->start(callback); m_pointer->setWindowSelectionCursor(cursorName); } void InputRedirection::startInteractivePositionSelection(std::function callback) { if (!m_windowSelector || m_windowSelector->isActive()) { callback(QPoint(-1, -1)); return; } m_windowSelector->start(callback); m_pointer->setWindowSelectionCursor(QByteArray()); } bool InputRedirection::isSelectingWindow() const { return m_windowSelector ? m_windowSelector->isActive() : false; } InputDeviceHandler::InputDeviceHandler(InputRedirection *input) : QObject(input) , m_input(input) { } InputDeviceHandler::~InputDeviceHandler() = default; void InputDeviceHandler::updateDecoration(Toplevel *t, const QPointF &pos) { const auto oldDeco = m_decoration; bool needsReset = waylandServer()->isScreenLocked(); if (AbstractClient *c = dynamic_cast(t)) { // check whether it's on a Decoration if (c->decoratedClient()) { const QRect clientRect = QRect(c->clientPos(), c->clientSize()).translated(c->pos()); if (!clientRect.contains(pos.toPoint())) { m_decoration = c->decoratedClient(); } else { needsReset = true; } } else { needsReset = true; } } else { needsReset = true; } if (needsReset) { m_decoration.clear(); } bool leftSend = false; auto oldWindow = qobject_cast(m_window.data()); if (oldWindow && (m_decoration && m_decoration->client() != oldWindow)) { leftSend = true; oldWindow->leaveEvent(); } if (oldDeco && oldDeco != m_decoration) { if (oldDeco->client() != t && !leftSend) { leftSend = true; oldDeco->client()->leaveEvent(); } // send leave QHoverEvent event(QEvent::HoverLeave, QPointF(), QPointF()); QCoreApplication::instance()->sendEvent(oldDeco->decoration(), &event); } if (m_decoration) { if (m_decoration->client() != oldWindow) { m_decoration->client()->enterEvent(pos.toPoint()); workspace()->updateFocusMousePosition(pos.toPoint()); } const QPointF p = pos - t->pos(); QHoverEvent event(QEvent::HoverMove, p, p); QCoreApplication::instance()->sendEvent(m_decoration->decoration(), &event); m_decoration->client()->processDecorationMove(p.toPoint(), pos.toPoint()); } } void InputDeviceHandler::updateInternalWindow(const QPointF &pos) { const auto oldInternalWindow = m_internalWindow; bool found = false; // TODO: screen locked check without going through wayland server bool needsReset = waylandServer()->isScreenLocked(); const auto &internalClients = waylandServer()->internalClients(); const bool change = m_internalWindow.isNull() || !(m_internalWindow->flags().testFlag(Qt::Popup) && m_internalWindow->isVisible()); if (!internalClients.isEmpty() && change) { auto it = internalClients.end(); do { it--; if (QWindow *w = (*it)->internalWindow()) { if (!w->isVisible()) { continue; } if ((*it)->geometry().contains(pos.toPoint())) { // check input mask const QRegion mask = w->mask().translated(w->geometry().topLeft()); if (!mask.isEmpty() && !mask.contains(pos.toPoint())) { continue; } if (w->property("outputOnly").toBool()) { continue; } m_internalWindow = QPointer(w); found = true; break; } } } while (it != internalClients.begin()); if (!found) { needsReset = true; } } if (needsReset) { m_internalWindow.clear(); } if (oldInternalWindow != m_internalWindow) { // changed if (oldInternalWindow) { QEvent event(QEvent::Leave); QCoreApplication::sendEvent(oldInternalWindow.data(), &event); } if (m_internalWindow) { QEnterEvent event(pos - m_internalWindow->position(), pos - m_internalWindow->position(), pos); QCoreApplication::sendEvent(m_internalWindow.data(), &event); } emit internalWindowChanged(); } } } // namespace