kwin/autotests/integration/CMakeLists.txt

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add_definitions(-DKWINBACKENDPATH="${CMAKE_BINARY_DIR}/plugins/platforms/virtual/KWinWaylandVirtualBackend.so")
[autotest] Welcome to integration testing KWin This is the beginning of a new testing era for KWin: finally we are able to test against a running KWin. This works by making use of the new virtual framebuffer backend for Wayland. It starts a specific Application subclass which is mostly a fork of ApplicationWayland. The individual tests are able to influence the socket name and the size of the virtual screen. This is supposed to be done in initTestCase. To know when KWin is fully started one can use the workspaceCreated signal of KWin::Application. KWin is not started in another process, but the kwin library is used, so the test has pretty much full introspection to everything going on inside KWin. It can access the Workspace, WaylandServer, fake input events through InputRedirection and so on. Once the test KWin is running it's possible to connect to it using KWayland::Client library. This allows to introspect the Workspace to see whether all worked as expected (e.g. correct stacking order, active window and so on). This first autotest is mostly meant to illustrate how to setup a test and how one can use KWayland::Client to interact with the mock KWin. For more tests it is suggested to move the connections to the Wayland server in the init() and cleanup() methods. The change also affects the qpa plugin: the specific check to only run in binaries called kwin_wayland doesn't hold any more. This can now be overwritten by an env variable. Please note that this first test will probably fail in the CI system as it might not have XWayland which is needed by KWin.
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add_definitions(-DKWINQPAPATH="${CMAKE_BINARY_DIR}/plugins/qpa/")
Support for syncing the clipboard from X11 to Wayland and vice versa Summary: The clipboard sync is done by a dedicated helper binary launched by KWin. This helper binary is forced to xcb platform to piggy-back on Qt's implementation of the X11 clipboard. In addition it implements the Wayland clipboard - which is much simpler. Reading the Wayland clipboard is based on the implementation in QtWayland. KWin internally knows the DataDeviceInterface belonging to the helper application. Whenever an xwayland client is focussed, this DataDevice is allowed to set the selection and KWin manually updates the current selection in the SeatInterface. By that the sync from X11 to Wayland is implemented. When afterwards a Wayland client is selected, it's sent the current selection which references the X clipboard and a data transfer can be initiated in the normal Wayland way. For the other direction KWin sends the current selection to the helper's DataDevice whenever an xwayland window is focused. The helper application reads the Wayland clipboard and sets it on the X11 clipboard. Thus the Wayland clipboard is synced to X11. The approach used here will also be useful for implementing a clipboard manager (aka klipper). Currently the implementation is not yet fully completed. We need to make sure that the helper application gets restarted in case of a crash. Test Plan: See added test case Reviewers: #plasma_on_wayland, #kwin Subscribers: plasma-devel, kwin Tags: #plasma_on_wayland, #kwin Differential Revision: https://phabricator.kde.org/D1973
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add_subdirectory(helper)
add_library(KWinIntegrationTestFramework STATIC kwin_wayland_test.cpp test_helpers.cpp)
target_link_libraries(KWinIntegrationTestFramework kwin Qt5::Test)
function(integrationTest)
set(oneValueArgs NAME)
set(multiValueArgs SRCS LIBS)
cmake_parse_arguments(ARGS "" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
add_executable(${ARGS_NAME} ${ARGS_SRCS})
target_link_libraries(${ARGS_NAME} KWinIntegrationTestFramework kwin Qt5::Test ${ARGS_LIBS})
add_test(kwin-${ARGS_NAME} ${ARGS_NAME})
endfunction()
integrationTest(NAME testStart SRCS start_test.cpp)
integrationTest(NAME testTransientNoInput SRCS transient_no_input_test.cpp)
integrationTest(NAME testQuickTiling SRCS quick_tiling_test.cpp)
integrationTest(NAME testDontCrashGlxgears SRCS dont_crash_glxgears.cpp)
integrationTest(NAME testLockScreen SRCS lockscreen.cpp)
integrationTest(NAME testDecorationInput SRCS decoration_input_test.cpp)
integrationTest(NAME testInternalWindow SRCS internal_window.cpp)
integrationTest(NAME testTouchInput SRCS touch_input_test.cpp)
integrationTest(NAME testInputStackingOrder SRCS input_stacking_order.cpp)
integrationTest(NAME testPointerInput SRCS pointer_input.cpp)
integrationTest(NAME testPlatformCursor SRCS platformcursor.cpp)
integrationTest(NAME testDontCrashCancelAnimation SRCS dont_crash_cancel_animation.cpp)
integrationTest(NAME testTransientPlacmenet SRCS transient_placement.cpp)
integrationTest(NAME testDebugConsole SRCS debug_console_test.cpp)
integrationTest(NAME testDontCrashEmptyDeco SRCS dont_crash_empty_deco.cpp)
integrationTest(NAME testPlasmaSurface SRCS plasma_surface_test.cpp)
integrationTest(NAME testMaximized SRCS maximize_test.cpp)
integrationTest(NAME testShellClient SRCS shell_client_test.cpp)
integrationTest(NAME testDontCrashNoBorder SRCS dont_crash_no_border.cpp)
integrationTest(NAME testXClipboardSync SRCS xclipboardsync_test.cpp)
integrationTest(NAME testSceneQPainter SRCS scene_qpainter_test.cpp)
if (XCB_ICCCM_FOUND)
integrationTest(NAME testMoveResize SRCS move_resize_window_test.cpp LIBS XCB::ICCCM)
integrationTest(NAME testStruts SRCS struts_test.cpp LIBS XCB::ICCCM)
integrationTest(NAME testShade SRCS shade_test.cpp LIBS XCB::ICCCM)
integrationTest(NAME testDontCrashAuroraeDestroyDeco SRCS dont_crash_aurorae_destroy_deco.cpp LIBS XCB::ICCCM)
integrationTest(NAME testPlasmaWindow SRCS plasmawindow_test.cpp LIBS XCB::ICCCM)
endif()