To accommodate for legacy devices, we rely on the last state of a transition to be valid: for example when we test PEN_IS_OUT_OF_RANGE to PEN_IS_IN_CONTACT, any "normal" device that reports an InRange bit would insert a PEN_IS_IN_RANGE state between the 2.
This is of course valid, but this solution prevents to detect false releases emitted by some firmware: when pressing an "eraser mode" button, they might send an extra PEN_IS_OUT_OF_RANGE that we may want to filter.
So define 2 sets of transitions: one that is the ideal behavior, and one that is OK, it won't break user space, but we have serious doubts if we are doing the right thing. And depending on the test, either ask only for valid transitions, or tolerate weird ones.
Reviewed-by: Peter Hutterer peter.hutterer@who-t.net Signed-off-by: Benjamin Tissoires bentiss@kernel.org
---
changes in v2: - fixed type annotations for apply() - s/historical/historically - explicitly call self._test_states with allow_intermediate_states=(True|False) --- tools/testing/selftests/hid/tests/test_tablet.py | 132 +++++++++++++++++++---- 1 file changed, 113 insertions(+), 19 deletions(-)
diff --git a/tools/testing/selftests/hid/tests/test_tablet.py b/tools/testing/selftests/hid/tests/test_tablet.py index a82db66264c5..9374bd7524ef 100644 --- a/tools/testing/selftests/hid/tests/test_tablet.py +++ b/tools/testing/selftests/hid/tests/test_tablet.py @@ -13,7 +13,7 @@ from hidtools.util import BusType import libevdev import logging import pytest -from typing import Dict, Optional, Tuple +from typing import Dict, List, Optional, Tuple
logger = logging.getLogger("hidtools.test.tablet")
@@ -124,7 +124,7 @@ class PenState(Enum):
return cls((touch, tool, button))
- def apply(self, events) -> "PenState": + def apply(self, events: List[libevdev.InputEvent], strict: bool) -> "PenState": if libevdev.EV_SYN.SYN_REPORT in events: raise ValueError("EV_SYN is in the event sequence") touch = self.touch @@ -163,13 +163,97 @@ class PenState(Enum): button = None
new_state = PenState((touch, tool, button)) - assert ( - new_state in self.valid_transitions() - ), f"moving from {self} to {new_state} is forbidden" + if strict: + assert ( + new_state in self.valid_transitions() + ), f"moving from {self} to {new_state} is forbidden" + else: + assert ( + new_state in self.historically_tolerated_transitions() + ), f"moving from {self} to {new_state} is forbidden"
return new_state
def valid_transitions(self) -> Tuple["PenState", ...]: + """Following the state machine in the URL above. + + Note that those transitions are from the evdev point of view, not HID""" + if self == PenState.PEN_IS_OUT_OF_RANGE: + return ( + PenState.PEN_IS_OUT_OF_RANGE, + PenState.PEN_IS_IN_RANGE, + PenState.PEN_IS_IN_RANGE_WITH_BUTTON, + PenState.PEN_IS_IN_RANGE_WITH_SECOND_BUTTON, + PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT, + PenState.PEN_IS_IN_CONTACT, + PenState.PEN_IS_IN_CONTACT_WITH_BUTTON, + PenState.PEN_IS_IN_CONTACT_WITH_SECOND_BUTTON, + PenState.PEN_IS_ERASING, + ) + + if self == PenState.PEN_IS_IN_RANGE: + return ( + PenState.PEN_IS_IN_RANGE, + PenState.PEN_IS_IN_RANGE_WITH_BUTTON, + PenState.PEN_IS_IN_RANGE_WITH_SECOND_BUTTON, + PenState.PEN_IS_OUT_OF_RANGE, + PenState.PEN_IS_IN_CONTACT, + ) + + if self == PenState.PEN_IS_IN_CONTACT: + return ( + PenState.PEN_IS_IN_CONTACT, + PenState.PEN_IS_IN_CONTACT_WITH_BUTTON, + PenState.PEN_IS_IN_CONTACT_WITH_SECOND_BUTTON, + PenState.PEN_IS_IN_RANGE, + ) + + if self == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT: + return ( + PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT, + PenState.PEN_IS_OUT_OF_RANGE, + PenState.PEN_IS_ERASING, + ) + + if self == PenState.PEN_IS_ERASING: + return ( + PenState.PEN_IS_ERASING, + PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT, + ) + + if self == PenState.PEN_IS_IN_RANGE_WITH_BUTTON: + return ( + PenState.PEN_IS_IN_RANGE_WITH_BUTTON, + PenState.PEN_IS_IN_RANGE, + PenState.PEN_IS_OUT_OF_RANGE, + PenState.PEN_IS_IN_CONTACT_WITH_BUTTON, + ) + + if self == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON: + return ( + PenState.PEN_IS_IN_CONTACT_WITH_BUTTON, + PenState.PEN_IS_IN_CONTACT, + PenState.PEN_IS_IN_RANGE_WITH_BUTTON, + ) + + if self == PenState.PEN_IS_IN_RANGE_WITH_SECOND_BUTTON: + return ( + PenState.PEN_IS_IN_RANGE_WITH_SECOND_BUTTON, + PenState.PEN_IS_IN_RANGE, + PenState.PEN_IS_OUT_OF_RANGE, + PenState.PEN_IS_IN_CONTACT_WITH_SECOND_BUTTON, + ) + + if self == PenState.PEN_IS_IN_CONTACT_WITH_SECOND_BUTTON: + return ( + PenState.PEN_IS_IN_CONTACT_WITH_SECOND_BUTTON, + PenState.PEN_IS_IN_CONTACT, + PenState.PEN_IS_IN_RANGE_WITH_SECOND_BUTTON, + ) + + return tuple() + + def historically_tolerated_transitions(self) -> Tuple["PenState", ...]: """Following the state machine in the URL above, with a couple of addition for skipping the in-range state, due to historical reasons.
@@ -693,10 +777,14 @@ class BaseTest: self.debug_reports(r, uhdev, events) return events
- def validate_transitions(self, from_state, pen, evdev, events): + def validate_transitions( + self, from_state, pen, evdev, events, allow_intermediate_states + ): # check that the final state is correct pen.assert_expected_input_events(evdev)
+ state = from_state + # check that the transitions are valid sync_events = [] while libevdev.InputEvent(libevdev.EV_SYN.SYN_REPORT) in events: @@ -706,12 +794,12 @@ class BaseTest: events = events[idx + 1 :]
# now check for a valid transition - from_state = from_state.apply(sync_events) + state = state.apply(sync_events, not allow_intermediate_states)
if events: - from_state = from_state.apply(sync_events) + state = state.apply(sync_events, not allow_intermediate_states)
- def _test_states(self, state_list, scribble): + def _test_states(self, state_list, scribble, allow_intermediate_states): """Internal method to test against a list of transition between states. state_list is a list of PenState objects @@ -726,7 +814,9 @@ class BaseTest: p = Pen(50, 60) uhdev.move_to(p, PenState.PEN_IS_OUT_OF_RANGE) events = self.post(uhdev, p) - self.validate_transitions(cur_state, p, evdev, events) + self.validate_transitions( + cur_state, p, evdev, events, allow_intermediate_states + )
cur_state = p.current_state
@@ -735,14 +825,18 @@ class BaseTest: p.x += 1 p.y -= 1 events = self.post(uhdev, p) - self.validate_transitions(cur_state, p, evdev, events) + self.validate_transitions( + cur_state, p, evdev, events, allow_intermediate_states + ) assert len(events) >= 3 # X, Y, SYN uhdev.move_to(p, state) if scribble and state != PenState.PEN_IS_OUT_OF_RANGE: p.x += 1 p.y -= 1 events = self.post(uhdev, p) - self.validate_transitions(cur_state, p, evdev, events) + self.validate_transitions( + cur_state, p, evdev, events, allow_intermediate_states + ) cur_state = p.current_state
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"]) @@ -755,7 +849,7 @@ class BaseTest: we don't have Invert nor Erase bits, so just move in/out-of-range or proximity. https://docs.microsoft.com/en-us/windows-hardware/design/component-guideline... """ - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"]) @pytest.mark.parametrize( @@ -769,7 +863,7 @@ class BaseTest: """This is not adhering to the Windows Pen Implementation state machine but we should expect the kernel to behave properly, mostly for historical reasons.""" - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=True)
@pytest.mark.skip_if_uhdev( lambda uhdev: "Barrel Switch" not in uhdev.fields, @@ -785,7 +879,7 @@ class BaseTest: ) def test_valid_primary_button_pen_states(self, state_list, scribble): """Rework the transition state machine by adding the primary button.""" - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.skip_if_uhdev( lambda uhdev: "Secondary Barrel Switch" not in uhdev.fields, @@ -801,7 +895,7 @@ class BaseTest: ) def test_valid_secondary_button_pen_states(self, state_list, scribble): """Rework the transition state machine by adding the secondary button.""" - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.skip_if_uhdev( lambda uhdev: "Invert" not in uhdev.fields, @@ -821,7 +915,7 @@ class BaseTest: to erase. https://docs.microsoft.com/en-us/windows-hardware/design/component-guideline... """ - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.skip_if_uhdev( lambda uhdev: "Invert" not in uhdev.fields, @@ -841,7 +935,7 @@ class BaseTest: to erase. https://docs.microsoft.com/en-us/windows-hardware/design/component-guideline... """ - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=True)
@pytest.mark.skip_if_uhdev( lambda uhdev: "Invert" not in uhdev.fields, @@ -858,7 +952,7 @@ class BaseTest: For example, a pen that has the eraser button might wobble between touching and erasing if the tablet doesn't enforce the Windows state machine.""" - self._test_states(state_list, scribble) + self._test_states(state_list, scribble, allow_intermediate_states=True)
class GXTP_pen(PenDigitizer):