Learning_GTK4_tree/testsuite/headless/headless-input-tests.py

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2023-12-12 11:36:42 +01:00
import sys
import os
import subprocess
import gi
gi.require_version('Gdk', '4.0')
gi.require_version('Gtk', '4.0')
from gi.repository import GLib, GObject, Gdk, Gtk
from pydbus import SessionBus
verbose = True
remote_desktop = None
screen_cast = None
session = None
stream_path = None
done = False
def terminate():
sys.exit(1)
loop = None
def quit_cb(loop):
loop.quit()
print('timed out while waiting')
def wait(millis):
global loop
before = GLib.get_monotonic_time()
loop = GLib.MainLoop()
GLib.timeout_add(millis, quit_cb, loop)
loop.run()
if verbose:
time = (GLib.get_monotonic_time() - before) / 1000
print(f'waited for {time} milliseconds')
display = None
window = None
entry = None
expected_change = None
def key_pressed_cb (controller, keyval, keycode, state):
global expected_change
global loop
if verbose:
print(f'got key press: {keyval}, state {state}')
assert expected_change != None, 'Unexpected key press'
assert expected_change['type'] == 'press', 'Key press event expected'
assert keyval == expected_change['keyval'], 'Unexpected keyval in key press event'
assert state == expected_change['state'], 'Unexpected state in key press event'
expected_change = None
loop.quit()
def key_released_cb (controller, keyval, keycode, state):
global expected_change
global loop
if verbose:
print(f'got key release: {keyval}, state {state}')
assert expected_change != None, 'Unexpected key release'
assert expected_change['type'] == 'release', 'Key release event expected'
assert keyval == expected_change['keyval'], 'Unexpected keyval in key release event'
assert state == expected_change['state'], 'Unexpected state in key release event'
expected_change = None
loop.quit()
def motion_cb (controller, x, y):
global expected_change
global loop
if verbose:
print(f'got motion: {x}, {y}')
if expected_change != None:
assert expected_change['type'] == 'motion', 'Motion event expected'
assert x == expected_change['x'], 'Unexpected x coord in motion event'
assert y == expected_change['y'], 'Unexpected y coord in motion event'
expected_change = None
loop.quit()
def enter_cb (controller, x, y):
global expected_change
global loop
if verbose:
print(f'got enter: {x}, {y}')
assert expected_change != None, 'Unexpected enter'
assert expected_change['type'] == 'enter', 'Enter event expected'
assert x == expected_change['x'], 'Unexpected x coord in enter event'
assert y == expected_change['y'], 'Unexpected y coord in enter event'
expected_change = None
loop.quit()
def pressed_cb(controller, n, x, y):
global expected_change
global loop
if verbose:
print(f'got pressed')
assert expected_change != None, 'Unexpected event'
assert expected_change['type'] == 'press', 'Button press expected'
assert expected_change['button'] == controller.get_current_button(), 'Unexpected button pressed'
assert x == expected_change['x'], 'Unexpected x coord in motion event'
assert y == expected_change['y'], 'Unexpected y coord in motion event'
expected_change = None
loop.quit()
def released_cb(controller, n, x, y):
global expected_change
global loop
if verbose:
print(f'got released')
assert expected_change != None, 'Unexpected event'
assert expected_change['type'] == 'release', 'Button release expected'
expected_change = None
loop.quit()
def expect_key_press(keyval, state, timeout):
global expected_change
expected_change = {
'type' : 'press',
'keyval' : keyval,
'state' : state
}
wait(timeout)
assert expected_change == None, 'Expected event did not happen'
def expect_key_release(keyval, state, timeout):
global expected_change
expected_change = {
'type' : 'release',
'keyval' : keyval,
'state' : state
}
wait(timeout)
assert expected_change == None, 'Expected event did not happen'
def expect_motion(x, y, timeout):
global expected_change
expected_change = {
'type' : 'motion',
'x' : x,
'y' : y
}
wait(timeout)
assert expected_change == None, 'Expected event did not happen'
def expect_enter(x, y, timeout):
global expected_change
expected_change = {
'type' : 'enter',
'x' : x,
'y' : y
}
wait(timeout)
assert expected_change == None, 'Expected event did not happen'
def expect_button_press(button, x, y, timeout):
global expected_change
expected_change = {
'type' : 'press',
'button' : button,
'x' : x,
'y' : y
}
wait(timeout)
assert expected_change == None, 'Button press did not arrive'
def expect_button_release(button, x, y, timeout):
global expected_change
expected_change = {
'type' : 'release',
'button' : button,
'x' : x,
'y' : y
}
wait(timeout)
assert expected_change == None, 'Button release did not arrive'
def got_active(object, pspec):
global loop
object.disconnect_by_func(got_active)
loop.quit()
def launch_observer():
global display
global window
if verbose:
print('launch observer')
if display == None:
display = Gdk.Display.open(os.getenv('WAYLAND_DISPLAY'))
window = Gtk.Window.new()
controller = Gtk.EventControllerKey.new()
controller.set_propagation_phase(Gtk.PropagationPhase.CAPTURE)
controller.connect('key-pressed', key_pressed_cb)
controller.connect('key-released', key_released_cb)
window.add_controller(controller)
controller = Gtk.EventControllerMotion.new()
controller.set_propagation_phase(Gtk.PropagationPhase.CAPTURE)
controller.connect('enter', enter_cb)
controller.connect('motion', motion_cb)
window.add_controller(controller)
controller = Gtk.GestureClick.new()
controller.set_propagation_phase(Gtk.PropagationPhase.CAPTURE)
controller.connect('pressed', pressed_cb)
controller.connect('released', released_cb)
window.add_controller(controller)
window.connect('notify::is-active', got_active)
window.maximize()
window.present()
wait(2000)
assert window.is_active(), 'Observer not active'
assert window.get_width() == 1024, 'Window not maximized'
assert window.get_height() == 768, 'Window not maximized'
# we need to wait out the map animation, or pointer coords will be off
wait(1000)
def launch_entry():
global display
global window
global entry
if verbose:
print('launch entry')
if display == None:
display = Gdk.Display.open(os.getenv('WAYLAND_DISPLAY'))
window = Gtk.Window.new()
entry = Gtk.Entry.new()
window.set_child(entry)
window.connect('notify::is-active', got_active)
window.maximize()
window.present()
wait(500)
assert window.is_active(), "Observer not active"
assert window.get_width() == 1024, "Window not maximized"
assert window.get_height() == 768, "Window not maximized"
# we need to wait out the map animation, or pointer coords will be off
wait(1000)
def stop_observer():
global window
window.destroy()
window = None
def expect_entry_text(text):
assert text == entry.get_text(), 'Unexpected entry text: ' + entry.get_text()
def key_press(keyval):
if verbose:
print(f'press key {keyval}')
session.NotifyKeyboardKeysym(keyval, True)
def key_release(keyval):
if verbose:
print(f'release key {keyval}')
session.NotifyKeyboardKeysym(keyval, False)
buttons = {
1 : 0x110,
2 : 0x111,
3 : 0x112
}
def button_press(button):
if verbose:
print(f'press button {button}')
session.NotifyPointerButton(buttons[button], True)
def button_release(button):
if verbose:
print(f'release button {button}')
session.NotifyPointerButton(buttons[button], False)
def pointer_move(x, y):
if verbose:
print(f'pointer move {x} {y}')
session.NotifyPointerMotionAbsolute(stream_path, x, y)
def basic_keyboard_tests():
try:
if verbose:
print('Starting basic keyboard tests')
launch_observer()
key_press(Gdk.KEY_a)
expect_key_press(keyval=Gdk.KEY_a, state=0, timeout=100)
key_release(Gdk.KEY_a)
expect_key_release(keyval=Gdk.KEY_a, state=0, timeout=100)
key_press(Gdk.KEY_Control_L)
expect_key_press(keyval=Gdk.KEY_Control_L, state=0, timeout=100)
key_press(Gdk.KEY_x)
expect_key_press(keyval=Gdk.KEY_x, state=Gdk.ModifierType.CONTROL_MASK, timeout=100)
key_release(Gdk.KEY_Control_L)
expect_key_release(keyval=Gdk.KEY_Control_L, state=Gdk.ModifierType.CONTROL_MASK, timeout=100)
key_release(Gdk.KEY_x)
expect_key_release(keyval=Gdk.KEY_x, state=0, timeout=100)
stop_observer()
except AssertionError as e:
print(f'Error in basic_keyboard_tests: {e}')
terminate()
def quick_typing_test():
try:
launch_entry()
key_press(Gdk.KEY_T)
key_release(Gdk.KEY_T)
key_press(Gdk.KEY_e)
key_release(Gdk.KEY_e)
key_press(Gdk.KEY_s)
key_release(Gdk.KEY_s)
key_press(Gdk.KEY_t)
key_release(Gdk.KEY_t)
wait(100)
expect_entry_text('Test')
stop_observer()
except AssertionError as e:
print(f'Error in quick_typing_test: {e}')
terminate()
def basic_pointer_tests():
try:
if verbose:
print('Starting basic pointer tests')
pointer_move(-100.0, -100.0)
launch_observer()
# observer window is maximized, so window coords == global coords
pointer_move(500.0, 300.0)
expect_enter(x=500, y=300, timeout=200)
pointer_move(400.0, 200.0)
expect_motion(x=400, y=200, timeout=200)
button_press(1)
expect_button_press(button=1, x=400, y=200, timeout=200)
pointer_move(220.0, 200.0)
expect_motion(x=220, y=200, timeout=200)
button_release(1)
expect_button_release(button=1, x=220, y=200, timeout=200)
stop_observer()
except AssertionError as e:
print(f'Error in basic_pointer_tests: {e}')
terminate()
ds_window = None
ds = None
def drag_begin(controller, drag):
global expected_change
global loop
if verbose:
print('got drag begin')
assert expected_change != None, 'Unexpected drag begin'
assert expected_change['type'] == 'drag', 'Drag begin expected'
expected_change = None
loop.quit()
def launch_drag_source(value):
global display
global ds_window
global ds
if verbose:
print('launch drag source')
if display == None:
display = Gdk.Display.open(os.getenv('WAYLAND_DISPLAY'))
ds_window = Gtk.Window.new()
ds_window.set_title('Drag Source')
ds = Gtk.DragSource.new()
ds.set_content(Gdk.ContentProvider.new_for_value(value))
ds_window.add_controller(ds)
ds.connect('drag-begin', drag_begin)
controller = Gtk.GestureClick.new()
controller.set_propagation_phase(Gtk.PropagationPhase.CAPTURE)
controller.connect('pressed', pressed_cb)
controller.connect('released', released_cb)
ds_window.add_controller(controller)
ds_window.connect('notify::is-active', got_active)
ds_window.maximize()
ds_window.present()
wait(2000)
assert ds_window.is_active(), 'drag source not active'
assert ds_window.get_width() == 1024, 'Window not maximized'
assert ds_window.get_height() == 768, 'Window not maximized'
# we need to wait out the map animation, or pointer coords will be off
wait(1000)
def stop_drag_source():
global ds_window
ds_window.destroy()
ds_window = None
dt_window = None
def do_drop(controller, value, x, y):
global expected_change
global loop
if verbose:
print(f'got drop {value}')
assert expected_change != None, 'Unexpected drop begin'
assert expected_change['type'] == 'drop', 'Drop expected'
assert expected_change['value'] == value, 'Unexpected value dropped'
expected_change = None
loop.quit()
def launch_drop_target():
global display
global dt_window
if verbose:
print('launch drop target')
if display == None:
display = Gdk.Display.open(os.getenv('WAYLAND_DISPLAY'))
dt_window = Gtk.Window.new()
dt_window.set_title('Drop Target')
controller = Gtk.DropTarget.new(GObject.TYPE_STRING, Gdk.DragAction.COPY)
dt_window.add_controller(controller)
controller.connect('drop', do_drop)
dt_window.connect('notify::is-active', got_active)
dt_window.maximize()
dt_window.present()
wait(2000)
assert dt_window.is_active(), 'drop target not active'
assert dt_window.get_width() == 1024, 'Window not maximized'
assert dt_window.get_height() == 768, 'Window not maximized'
# we need to wait out the map animation, or pointer coords will be off
wait(1000)
def stop_drop_target():
global dt_window
dt_window.destroy()
dt_window = None
def expect_drag(timeout):
global expected_change
expected_change = {
'type' : 'drag',
}
wait(timeout)
assert expected_change == None, 'DND operation not started'
def expect_drop(value, timeout):
global expected_change
expected_change = {
'type' : 'drop',
'value' : value
}
wait(timeout)
assert expected_change == None, 'Drop has not happened'
def dnd_tests():
try:
if verbose:
print('Starting dnd tests')
pointer_move(-100, -100)
launch_drag_source('abc')
wait(100);
pointer_move(100, 100)
wait(100);
button_press(1)
expect_button_press(button=1, x=100, y=100, timeout=300)
# need to wait out the MIN_TIME_TO_DND
wait(150)
pointer_move(120, 150)
expect_drag(timeout=2000)
launch_drop_target()
wait(100);
button_release(1)
expect_drop('abc', timeout=2000)
stop_drop_target()
stop_drag_source()
except AssertionError as e:
print(f'Error in dnd_tests: {e}')
terminate()
def session_closed_cb():
print('Session closed')
def run_commands():
basic_keyboard_tests()
basic_pointer_tests()
dnd_tests()
quick_typing_test()
def mutter_appeared(name):
global remote_desktop
global session
global stream_path
global done
if verbose:
print('mutter appeared on the bus')
remote_desktop = bus.get('org.gnome.Mutter.RemoteDesktop',
'/org/gnome/Mutter/RemoteDesktop')
device_types = remote_desktop.Get('org.gnome.Mutter.RemoteDesktop', 'SupportedDeviceTypes')
assert device_types & 1 == 1, 'No keyboard'
assert device_types & 2 == 2, 'No pointer'
screen_cast = bus.get('org.gnome.Mutter.ScreenCast',
'/org/gnome/Mutter/ScreenCast')
session_path = remote_desktop.CreateSession()
session = bus.get('org.gnome.Mutter.RemoteDesktop', session_path)
session.onClosed = session_closed_cb
screen_cast_session_path = screen_cast.CreateSession({ 'remote-desktop-session-id' : GLib.Variant('s', session.SessionId)})
screen_cast_session = bus.get('org.gnome.Mutter.ScreenCast', screen_cast_session_path)
stream_path = screen_cast_session.RecordMonitor('Meta-0', {})
session.Start()
# work around lack of initial devices
key_press(Gdk.KEY_Control_L)
key_release(Gdk.KEY_Control_L)
pointer_move(-100, -100)
run_commands()
session.Stop()
if verbose:
print('Done running commands, exiting...')
done = True
def mutter_vanished():
global done
if remote_desktop != None:
if verbose:
print('mutter left the bus')
done = True
bus = SessionBus()
bus.watch_name('org.gnome.Mutter.RemoteDesktop', 0, mutter_appeared, mutter_vanished)
try:
while not done:
GLib.MainContext.default().iteration(True)
except KeyboardInterrupt:
print('Interrupted')