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linux/tools/testing/selftests/hid/tests/test_tablet.py
Ping Cheng 10c64d4ff4 selftests/hid-tablet: add ABS_DISTANCE test for stylus/pen 
For pen and stylus, the ABS_Z event reports ABS_DISTANCE values
in the hid generic kernel driver. This test is to make sure that
the assignment is properly done for all pen and stylus tools.
Same as tilt, distance is an optional event.

Signed-off-by: Benjamin Tissoires <benjamin.tissoires@redhat.com>
Signed-off-by: Ping Cheng <ping.cheng@wacom.com>
Signed-off-by: Tatsunosuke Tobit <tatsunosuke.tobita@wacom.com>
Signed-off-by: Jiri Kosina <jkosina@suse.com>
2025-11-20 22:47:14 +01:00

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#!/bin/env python3
# SPDX-License-Identifier: GPL-2.0
# -*- coding: utf-8 -*-
#
# Copyright (c) 2021 Benjamin Tissoires <benjamin.tissoires@gmail.com>
# Copyright (c) 2021 Red Hat, Inc.
#
from . import base
import copy
from enum import Enum
from hidtools.util import BusType
from .base import HidBpf
import libevdev
import logging
import pytest
from typing import Dict, List, Optional, Tuple
logger = logging.getLogger("hidtools.test.tablet")
class BtnTouch(Enum):
"""Represents whether the BTN_TOUCH event is set to True or False"""
DOWN = True
UP = False
class ToolType(Enum):
PEN = libevdev.EV_KEY.BTN_TOOL_PEN
RUBBER = libevdev.EV_KEY.BTN_TOOL_RUBBER
class BtnPressed(Enum):
"""Represents whether a button is pressed on the stylus"""
PRIMARY_PRESSED = libevdev.EV_KEY.BTN_STYLUS
SECONDARY_PRESSED = libevdev.EV_KEY.BTN_STYLUS2
THIRD_PRESSED = libevdev.EV_KEY.BTN_STYLUS3
class PenState(Enum):
"""Pen states according to Microsoft reference:
https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states
We extend it with the various buttons when we need to check them.
"""
PEN_IS_OUT_OF_RANGE = BtnTouch.UP, None, False
PEN_IS_IN_RANGE = BtnTouch.UP, ToolType.PEN, False
PEN_IS_IN_RANGE_WITH_BUTTON = BtnTouch.UP, ToolType.PEN, True
PEN_IS_IN_CONTACT = BtnTouch.DOWN, ToolType.PEN, False
PEN_IS_IN_CONTACT_WITH_BUTTON = BtnTouch.DOWN, ToolType.PEN, True
PEN_IS_IN_RANGE_WITH_ERASING_INTENT = BtnTouch.UP, ToolType.RUBBER, False
PEN_IS_IN_RANGE_WITH_ERASING_INTENT_WITH_BUTTON = BtnTouch.UP, ToolType.RUBBER, True
PEN_IS_ERASING = BtnTouch.DOWN, ToolType.RUBBER, False
PEN_IS_ERASING_WITH_BUTTON = BtnTouch.DOWN, ToolType.RUBBER, True
def __init__(
self, touch: BtnTouch, tool: Optional[ToolType], button: Optional[bool]
):
self.touch = touch # type: ignore
self.tool = tool # type: ignore
self.button = button # type: ignore
@classmethod
def from_evdev(cls, evdev, test_button) -> "PenState":
touch = BtnTouch(evdev.value[libevdev.EV_KEY.BTN_TOUCH])
tool = None
button = False
if (
evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER]
and not evdev.value[libevdev.EV_KEY.BTN_TOOL_PEN]
):
tool = ToolType(libevdev.EV_KEY.BTN_TOOL_RUBBER)
elif (
evdev.value[libevdev.EV_KEY.BTN_TOOL_PEN]
and not evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER]
):
tool = ToolType(libevdev.EV_KEY.BTN_TOOL_PEN)
elif (
evdev.value[libevdev.EV_KEY.BTN_TOOL_PEN]
or evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER]
):
raise ValueError("2 tools are not allowed")
# we take only the provided button into account
if test_button is not None:
button = bool(evdev.value[test_button.value])
# the kernel tends to insert an EV_SYN once removing the tool, so
# the button will be released after
if tool is None:
button = False
return cls((touch, tool, button)) # type: ignore
def apply(
self, events: List[libevdev.InputEvent], strict: bool, test_button: BtnPressed
) -> "PenState":
if libevdev.EV_SYN.SYN_REPORT in events:
raise ValueError("EV_SYN is in the event sequence")
touch = self.touch
touch_found = False
tool = self.tool
tool_found = False
button = self.button
button_found = False
for ev in events:
if ev == libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH):
if touch_found:
raise ValueError(f"duplicated BTN_TOUCH in {events}")
touch_found = True
touch = BtnTouch(ev.value)
elif ev in (
libevdev.InputEvent(libevdev.EV_KEY.BTN_TOOL_PEN),
libevdev.InputEvent(libevdev.EV_KEY.BTN_TOOL_RUBBER),
):
if tool_found:
raise ValueError(f"duplicated BTN_TOOL_* in {events}")
tool_found = True
tool = ToolType(ev.code) if ev.value else None
elif test_button is not None and ev in (test_button.value,):
if button_found:
raise ValueError(f"duplicated BTN_STYLUS* in {events}")
button_found = True
button = bool(ev.value)
# the kernel tends to insert an EV_SYN once removing the tool, so
# the button will be released after
if tool is None:
button = False
new_state = PenState((touch, tool, button)) # type: ignore
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_ERASING_INTENT,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_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_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_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,
)
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.
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_ERASING_INTENT,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_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_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_RANGE,
PenState.PEN_IS_OUT_OF_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,
PenState.PEN_IS_OUT_OF_RANGE,
)
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,
PenState.PEN_IS_OUT_OF_RANGE,
)
return tuple()
@staticmethod
def legal_transitions() -> Dict[str, Tuple["PenState", ...]]:
"""This is the first half of the Windows Pen Implementation state machine:
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-guidelines/windows-pen-states
"""
return {
"in-range": (PenState.PEN_IS_IN_RANGE,),
"in-range -> out-of-range": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_OUT_OF_RANGE,
),
"in-range -> touch": (PenState.PEN_IS_IN_RANGE, PenState.PEN_IS_IN_CONTACT),
"in-range -> touch -> release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_RANGE,
),
"in-range -> touch -> release -> out-of-range": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_OUT_OF_RANGE,
),
}
@staticmethod
def legal_transitions_with_invert() -> Dict[str, Tuple["PenState", ...]]:
"""This is the second half of the Windows Pen Implementation state machine:
we now have Invert and Erase bits, so move in/out or proximity with the intend
to erase.
https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states
"""
return {
"hover-erasing": (PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,),
"hover-erasing -> out-of-range": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_OUT_OF_RANGE,
),
"hover-erasing -> erase": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_ERASING,
),
"hover-erasing -> erase -> release": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
),
"hover-erasing -> erase -> release -> out-of-range": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_OUT_OF_RANGE,
),
"hover-erasing -> in-range": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_IN_RANGE,
),
"in-range -> hover-erasing": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
),
}
@staticmethod
def legal_transitions_with_button() -> Dict[str, Tuple["PenState", ...]]:
"""We revisit the Windows Pen Implementation state machine:
we now have a button.
"""
return {
"hover-button": (PenState.PEN_IS_IN_RANGE_WITH_BUTTON,),
"hover-button -> out-of-range": (
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_OUT_OF_RANGE,
),
"in-range -> button-press": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
),
"in-range -> button-press -> button-release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_RANGE,
),
"in-range -> touch -> button-press -> button-release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT,
),
"in-range -> touch -> button-press -> release -> button-release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_RANGE,
),
"in-range -> button-press -> touch -> release -> button-release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_RANGE,
),
"in-range -> button-press -> touch -> button-release -> release": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_RANGE,
),
}
@staticmethod
def tolerated_transitions() -> Dict[str, Tuple["PenState", ...]]:
"""This is not adhering to the Windows Pen Implementation state machine
but we should expect the kernel to behave properly, mostly for historical
reasons."""
return {
"direct-in-contact": (PenState.PEN_IS_IN_CONTACT,),
"direct-in-contact -> out-of-range": (
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_OUT_OF_RANGE,
),
}
@staticmethod
def tolerated_transitions_with_invert() -> Dict[str, Tuple["PenState", ...]]:
"""This is the second half of the Windows Pen Implementation state machine:
we now have Invert and Erase bits, so move in/out or proximity with the intend
to erase.
https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states
"""
return {
"direct-erase": (PenState.PEN_IS_ERASING,),
"direct-erase -> out-of-range": (
PenState.PEN_IS_ERASING,
PenState.PEN_IS_OUT_OF_RANGE,
),
}
@staticmethod
def broken_transitions() -> Dict[str, Tuple["PenState", ...]]:
"""Those tests are definitely not part of the Windows specification.
However, a half broken device might export those transitions.
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."""
return {
"in-range -> touch -> erase -> hover-erase": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
),
"in-range -> erase -> hover-erase": (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
),
"hover-erase -> erase -> touch -> in-range": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_RANGE,
),
"hover-erase -> touch -> in-range": (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_RANGE,
),
"touch -> erase -> touch -> erase": (
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_ERASING,
),
}
class Pen(object):
def __init__(self, x, y):
self.x = x
self.y = y
self.distance = -10
self.tipswitch = False
self.tippressure = 15
self.azimuth = 0
self.inrange = False
self.width = 10
self.height = 10
self.barrelswitch = False
self.secondarybarrelswitch = False
self.invert = False
self.eraser = False
self.xtilt = 1
self.ytilt = 1
self.twist = 1
self._old_values = None
self.current_state = None
def restore(self):
if self._old_values is not None:
for i in [
"x",
"y",
"distance",
"tippressure",
"azimuth",
"width",
"height",
"twist",
"xtilt",
"ytilt",
]:
setattr(self, i, getattr(self._old_values, i))
def backup(self):
self._old_values = copy.copy(self)
def __assert_axis(self, evdev, axis, value):
if (
axis == libevdev.EV_KEY.BTN_TOOL_RUBBER
and evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER] is None
):
return
assert (
evdev.value[axis] == value
), f"assert evdev.value[{axis}] ({evdev.value[axis]}) != {value}"
def assert_expected_input_events(self, evdev, button):
assert evdev.value[libevdev.EV_ABS.ABS_X] == self.x
assert evdev.value[libevdev.EV_ABS.ABS_Y] == self.y
# assert no other buttons than the tested ones are set
buttons = [
BtnPressed.PRIMARY_PRESSED,
BtnPressed.SECONDARY_PRESSED,
BtnPressed.THIRD_PRESSED,
]
if button is not None:
buttons.remove(button)
for b in buttons:
assert evdev.value[b.value] is None or evdev.value[b.value] == False
assert self.current_state == PenState.from_evdev(evdev, button)
class PenDigitizer(base.UHIDTestDevice):
def __init__(
self,
name,
rdesc_str=None,
rdesc=None,
application="Pen",
physical="Stylus",
input_info=(BusType.USB, 1, 2),
evdev_name_suffix=None,
):
super().__init__(name, application, rdesc_str, rdesc, input_info)
self.physical = physical
self.cur_application = application
if evdev_name_suffix is not None:
self.name += evdev_name_suffix
self.fields = []
for r in self.parsed_rdesc.input_reports.values():
if r.application_name == self.application:
physicals = [f.physical_name for f in r]
if self.physical not in physicals and None not in physicals:
continue
self.fields = [f.usage_name for f in r]
def move_to(self, pen, state, button):
# fill in the previous values
if pen.current_state == PenState.PEN_IS_OUT_OF_RANGE:
pen.restore()
print(f"\n *** pen is moving to {state} ***")
if state == PenState.PEN_IS_OUT_OF_RANGE:
pen.backup()
pen.x = 0
pen.y = 0
pen.tipswitch = False
pen.tippressure = 0
pen.azimuth = 0
pen.distance = 0
pen.inrange = False
pen.width = 0
pen.height = 0
pen.invert = False
pen.eraser = False
pen.xtilt = 0
pen.ytilt = 0
pen.twist = 0
pen.barrelswitch = False
pen.secondarybarrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
pen.secondarybarrelswitch = False
elif state == PenState.PEN_IS_IN_CONTACT:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
pen.secondarybarrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.secondarybarrelswitch = button == BtnPressed.SECONDARY_PRESSED
elif state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
pen.eraser = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.secondarybarrelswitch = button == BtnPressed.SECONDARY_PRESSED
elif state == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT:
pen.tipswitch = False
pen.inrange = True
pen.invert = True
pen.eraser = False
pen.barrelswitch = False
pen.secondarybarrelswitch = False
elif state == PenState.PEN_IS_ERASING:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = True
pen.barrelswitch = False
pen.secondarybarrelswitch = False
pen.current_state = state
def event(self, pen, button):
rs = []
r = self.create_report(application=self.cur_application, data=pen)
self.call_input_event(r)
rs.append(r)
return rs
def get_report(self, req, rnum, rtype):
if rtype != self.UHID_FEATURE_REPORT:
return (1, [])
rdesc = None
for v in self.parsed_rdesc.feature_reports.values():
if v.report_ID == rnum:
rdesc = v
if rdesc is None:
return (1, [])
return (1, [])
def set_report(self, req, rnum, rtype, data):
if rtype != self.UHID_FEATURE_REPORT:
return 1
rdesc = None
for v in self.parsed_rdesc.feature_reports.values():
if v.report_ID == rnum:
rdesc = v
if rdesc is None:
return 1
return 1
class BaseTest:
class TestTablet(base.BaseTestCase.TestUhid):
def create_device(self):
raise Exception("please reimplement me in subclasses")
def post(self, uhdev, pen, test_button):
r = uhdev.event(pen, test_button)
events = uhdev.next_sync_events()
self.debug_reports(r, uhdev, events)
return events
def validate_transitions(
self, from_state, pen, evdev, events, allow_intermediate_states, button
):
# check that the final state is correct
pen.assert_expected_input_events(evdev, button)
state = from_state
# check that the transitions are valid
sync_events = []
while libevdev.InputEvent(libevdev.EV_SYN.SYN_REPORT) in events:
# split the first EV_SYN from the list
idx = events.index(libevdev.InputEvent(libevdev.EV_SYN.SYN_REPORT))
sync_events = events[:idx]
events = events[idx + 1 :]
# now check for a valid transition
state = state.apply(sync_events, not allow_intermediate_states, button)
if events:
state = state.apply(sync_events, not allow_intermediate_states, button)
def _test_states(
self, state_list, scribble, allow_intermediate_states, button=None
):
"""Internal method to test against a list of
transition between states.
state_list is a list of PenState objects
scribble is a boolean which tells if we need
to wobble a little the X,Y coordinates of the pen
between each state transition."""
uhdev = self.uhdev
evdev = uhdev.get_evdev()
cur_state = PenState.PEN_IS_OUT_OF_RANGE
p = Pen(50, 60)
uhdev.move_to(p, PenState.PEN_IS_OUT_OF_RANGE, button)
events = self.post(uhdev, p, button)
self.validate_transitions(
cur_state, p, evdev, events, allow_intermediate_states, button
)
cur_state = p.current_state
for state in state_list:
if scribble and cur_state != PenState.PEN_IS_OUT_OF_RANGE:
p.x += 1
p.y -= 1
events = self.post(uhdev, p, button)
self.validate_transitions(
cur_state, p, evdev, events, allow_intermediate_states, button
)
assert len(events) >= 3 # X, Y, SYN
uhdev.move_to(p, state, button)
if scribble and state != PenState.PEN_IS_OUT_OF_RANGE:
p.x += 1
p.y -= 1
events = self.post(uhdev, p, button)
self.validate_transitions(
cur_state, p, evdev, events, allow_intermediate_states, button
)
cur_state = p.current_state
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[pytest.param(v, id=k) for k, v in PenState.legal_transitions().items()],
)
def test_valid_pen_states(self, state_list, scribble):
"""This is the first half of the Windows Pen Implementation state machine:
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-guidelines/windows-pen-states
"""
self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.tolerated_transitions().items()
],
)
def test_tolerated_pen_states(self, state_list, scribble):
"""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, allow_intermediate_states=True)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Barrel Switch" not in uhdev.fields,
"Device not compatible, missing Barrel Switch usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.legal_transitions_with_button().items()
],
)
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,
allow_intermediate_states=False,
button=BtnPressed.PRIMARY_PRESSED,
)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Secondary Barrel Switch" not in uhdev.fields,
"Device not compatible, missing Secondary Barrel Switch usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.legal_transitions_with_button().items()
],
)
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,
allow_intermediate_states=False,
button=BtnPressed.SECONDARY_PRESSED,
)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Third Barrel Switch" not in uhdev.fields,
"Device not compatible, missing Third Barrel Switch usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.legal_transitions_with_button().items()
],
)
def test_valid_third_button_pen_states(self, state_list, scribble):
"""Rework the transition state machine by adding the secondary button."""
self._test_states(
state_list,
scribble,
allow_intermediate_states=False,
button=BtnPressed.THIRD_PRESSED,
)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Invert" not in uhdev.fields,
"Device not compatible, missing Invert usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.legal_transitions_with_invert().items()
],
)
def test_valid_invert_pen_states(self, state_list, scribble):
"""This is the second half of the Windows Pen Implementation state machine:
we now have Invert and Erase bits, so move in/out or proximity with the intend
to erase.
https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states
"""
self._test_states(state_list, scribble, allow_intermediate_states=False)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Invert" not in uhdev.fields,
"Device not compatible, missing Invert usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[
pytest.param(v, id=k)
for k, v in PenState.tolerated_transitions_with_invert().items()
],
)
def test_tolerated_invert_pen_states(self, state_list, scribble):
"""This is the second half of the Windows Pen Implementation state machine:
we now have Invert and Erase bits, so move in/out or proximity with the intend
to erase.
https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states
"""
self._test_states(state_list, scribble, allow_intermediate_states=True)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Invert" not in uhdev.fields,
"Device not compatible, missing Invert usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[pytest.param(v, id=k) for k, v in PenState.broken_transitions().items()],
)
def test_tolerated_broken_pen_states(self, state_list, scribble):
"""Those tests are definitely not part of the Windows specification.
However, a half broken device might export those transitions.
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, allow_intermediate_states=True)
@pytest.mark.skip_if_uhdev(
lambda uhdev: "Z" not in uhdev.fields,
"Device not compatible, missing Z usage",
)
@pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"])
@pytest.mark.parametrize(
"state_list",
[pytest.param(v, id=k) for k, v in PenState.legal_transitions().items()],
)
def test_z_reported_as_distance(self, state_list, scribble):
"""Verify stylus Z values are reported as ABS_DISTANCE."""
self._test_states(state_list, scribble, allow_intermediate_states=False)
uhdev = self.uhdev
evdev = uhdev.get_evdev()
p = Pen(0, 0)
uhdev.move_to(p, PenState.PEN_IS_OUT_OF_RANGE, None)
p = Pen(100, 200)
uhdev.move_to(p, PenState.PEN_IS_IN_RANGE, None)
p.distance = -1
events = self.post(uhdev, p, None)
assert evdev.value[libevdev.EV_ABS.ABS_DISTANCE] == -1
class GXTP_pen(PenDigitizer):
def event(self, pen, test_button):
if not hasattr(self, "prev_tip_state"):
self.prev_tip_state = False
internal_pen = copy.copy(pen)
# bug in the controller: when the pen touches the
# surface, in-range stays to 1, but when
# the pen moves in-range gets reverted to 0
if pen.tipswitch and self.prev_tip_state:
internal_pen.inrange = False
self.prev_tip_state = pen.tipswitch
# another bug in the controller: when the pen is
# inverted, invert is set to 1, but as soon as
# the pen touches the surface, eraser is correctly
# set to 1 but invert is released
if pen.eraser:
internal_pen.invert = False
return super().event(internal_pen, test_button)
class USIPen(PenDigitizer):
pass
class XPPen_ArtistPro16Gen2_28bd_095b(PenDigitizer):
"""
Pen with two buttons and a rubber end, but which reports
the second button as an eraser
"""
def __init__(
self,
name,
rdesc_str=None,
rdesc=None,
application="Pen",
physical="Stylus",
input_info=(BusType.USB, 0x28BD, 0x095B),
evdev_name_suffix=None,
):
super().__init__(
name, rdesc_str, rdesc, application, physical, input_info, evdev_name_suffix
)
self.fields.append("Secondary Barrel Switch")
def move_to(self, pen, state, button):
# fill in the previous values
if pen.current_state == PenState.PEN_IS_OUT_OF_RANGE:
pen.restore()
print(f"\n *** pen is moving to {state} ***")
if state == PenState.PEN_IS_OUT_OF_RANGE:
pen.backup()
pen.x = 0
pen.y = 0
pen.tipswitch = False
pen.tippressure = 0
pen.azimuth = 0
pen.inrange = False
pen.width = 0
pen.height = 0
pen.invert = False
pen.eraser = False
pen.xtilt = 0
pen.ytilt = 0
pen.twist = 0
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_CONTACT:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.eraser = button == BtnPressed.SECONDARY_PRESSED
elif state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.eraser = button == BtnPressed.SECONDARY_PRESSED
elif state == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT:
pen.tipswitch = False
pen.inrange = True
pen.invert = True
pen.eraser = False
pen.barrelswitch = False
elif state == PenState.PEN_IS_ERASING:
pen.tipswitch = True
pen.inrange = True
pen.invert = True
pen.eraser = False
pen.barrelswitch = False
pen.current_state = state
def event(self, pen, test_button):
import math
pen_copy = copy.copy(pen)
width = 13.567
height = 8.480
tip_height = 0.055677699
hx = tip_height * (32767 / width)
hy = tip_height * (32767 / height)
if pen_copy.xtilt != 0:
pen_copy.x += round(hx * math.sin(math.radians(pen_copy.xtilt)))
if pen_copy.ytilt != 0:
pen_copy.y += round(hy * math.sin(math.radians(pen_copy.ytilt)))
return super().event(pen_copy, test_button)
class XPPen_Artist24_28bd_093a(PenDigitizer):
"""
Pen that reports secondary barrel switch through eraser
"""
def __init__(
self,
name,
rdesc_str=None,
rdesc=None,
application="Pen",
physical="Stylus",
input_info=(BusType.USB, 0x28BD, 0x093A),
evdev_name_suffix=None,
):
super().__init__(
name, rdesc_str, rdesc, application, physical, input_info, evdev_name_suffix
)
self.fields.append("Secondary Barrel Switch")
self.previous_state = PenState.PEN_IS_OUT_OF_RANGE
def move_to(self, pen, state, button, debug=True):
# fill in the previous values
if pen.current_state == PenState.PEN_IS_OUT_OF_RANGE:
pen.restore()
if debug:
print(f"\n *** pen is moving to {state} ***")
if state == PenState.PEN_IS_OUT_OF_RANGE:
pen.backup()
pen.tipswitch = False
pen.tippressure = 0
pen.azimuth = 0
pen.inrange = False
pen.width = 0
pen.height = 0
pen.invert = False
pen.eraser = False
pen.xtilt = 0
pen.ytilt = 0
pen.twist = 0
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_CONTACT:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
elif state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.eraser = button == BtnPressed.SECONDARY_PRESSED
elif state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.eraser = button == BtnPressed.SECONDARY_PRESSED
pen.current_state = state
def send_intermediate_state(self, pen, state, button):
intermediate_pen = copy.copy(pen)
self.move_to(intermediate_pen, state, button, debug=False)
return super().event(intermediate_pen, button)
def event(self, pen, button):
rs = []
# the pen reliably sends in-range events in a normal case (non emulation of eraser mode)
if self.previous_state == PenState.PEN_IS_IN_CONTACT:
if pen.current_state == PenState.PEN_IS_OUT_OF_RANGE:
rs.extend(
self.send_intermediate_state(pen, PenState.PEN_IS_IN_RANGE, button)
)
if button == BtnPressed.SECONDARY_PRESSED:
if self.previous_state == PenState.PEN_IS_IN_RANGE:
if pen.current_state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_OUT_OF_RANGE, button
)
)
if self.previous_state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
if pen.current_state == PenState.PEN_IS_IN_RANGE:
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_OUT_OF_RANGE, button
)
)
if self.previous_state == PenState.PEN_IS_IN_CONTACT:
if pen.current_state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_OUT_OF_RANGE, button
)
)
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_IN_RANGE_WITH_BUTTON, button
)
)
if self.previous_state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
if pen.current_state == PenState.PEN_IS_IN_CONTACT:
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_OUT_OF_RANGE, button
)
)
rs.extend(
self.send_intermediate_state(
pen, PenState.PEN_IS_IN_RANGE, button
)
)
rs.extend(super().event(pen, button))
self.previous_state = pen.current_state
return rs
class Huion_Kamvas_Pro_19_256c_006b(PenDigitizer):
"""
Pen that reports secondary barrel switch through secondary TipSwtich
and 3rd button through Invert
"""
def __init__(
self,
name,
rdesc_str=None,
rdesc=None,
application="Stylus",
physical=None,
input_info=(BusType.USB, 0x256C, 0x006B),
evdev_name_suffix=None,
):
super().__init__(
name, rdesc_str, rdesc, application, physical, input_info, evdev_name_suffix
)
self.fields.append("Secondary Barrel Switch")
self.fields.append("Third Barrel Switch")
self.previous_state = PenState.PEN_IS_OUT_OF_RANGE
def move_to(self, pen, state, button, debug=True):
# fill in the previous values
if pen.current_state == PenState.PEN_IS_OUT_OF_RANGE:
pen.restore()
if debug:
print(f"\n *** pen is moving to {state} ***")
if state == PenState.PEN_IS_OUT_OF_RANGE:
pen.backup()
pen.tipswitch = False
pen.tippressure = 0
pen.azimuth = 0
pen.inrange = False
pen.width = 0
pen.height = 0
pen.invert = False
pen.eraser = False
pen.xtilt = 0
pen.ytilt = 0
pen.twist = 0
pen.barrelswitch = False
pen.secondarytipswitch = False
elif state == PenState.PEN_IS_IN_RANGE:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
pen.secondarytipswitch = False
elif state == PenState.PEN_IS_IN_CONTACT:
pen.tipswitch = True
pen.inrange = True
pen.invert = False
pen.eraser = False
pen.barrelswitch = False
pen.secondarytipswitch = False
elif state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
pen.tipswitch = False
pen.inrange = True
pen.eraser = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.secondarytipswitch = button == BtnPressed.SECONDARY_PRESSED
pen.invert = button == BtnPressed.THIRD_PRESSED
elif state == PenState.PEN_IS_IN_CONTACT_WITH_BUTTON:
pen.tipswitch = True
pen.inrange = True
pen.eraser = False
assert button is not None
pen.barrelswitch = button == BtnPressed.PRIMARY_PRESSED
pen.secondarytipswitch = button == BtnPressed.SECONDARY_PRESSED
pen.invert = button == BtnPressed.THIRD_PRESSED
elif state == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT:
pen.tipswitch = False
pen.inrange = True
pen.invert = True
pen.eraser = False
pen.barrelswitch = False
pen.secondarytipswitch = False
elif state == PenState.PEN_IS_ERASING:
pen.tipswitch = False
pen.inrange = True
pen.invert = False
pen.eraser = True
pen.barrelswitch = False
pen.secondarytipswitch = False
pen.current_state = state
def call_input_event(self, report):
if report[0] == 0x0A:
# ensures the original second Eraser usage is null
report[1] &= 0xDF
# ensures the original last bit is equal to bit 6 (In Range)
if report[1] & 0x40:
report[1] |= 0x80
super().call_input_event(report)
def send_intermediate_state(self, pen, state, test_button):
intermediate_pen = copy.copy(pen)
self.move_to(intermediate_pen, state, test_button, debug=False)
return super().event(intermediate_pen, test_button)
def event(self, pen, button):
rs = []
# it's not possible to go between eraser mode or not without
# going out-of-prox: the eraser mode is activated by presenting
# the tail of the pen
if self.previous_state in (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
) and pen.current_state in (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT_WITH_BUTTON,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_ERASING_WITH_BUTTON,
):
rs.extend(
self.send_intermediate_state(pen, PenState.PEN_IS_OUT_OF_RANGE, button)
)
# same than above except from eraser to normal
if self.previous_state in (
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT,
PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT_WITH_BUTTON,
PenState.PEN_IS_ERASING,
PenState.PEN_IS_ERASING_WITH_BUTTON,
) and pen.current_state in (
PenState.PEN_IS_IN_RANGE,
PenState.PEN_IS_IN_RANGE_WITH_BUTTON,
PenState.PEN_IS_IN_CONTACT,
PenState.PEN_IS_IN_CONTACT_WITH_BUTTON,
):
rs.extend(
self.send_intermediate_state(pen, PenState.PEN_IS_OUT_OF_RANGE, button)
)
if self.previous_state == PenState.PEN_IS_OUT_OF_RANGE:
if pen.current_state == PenState.PEN_IS_IN_RANGE_WITH_BUTTON:
rs.extend(
self.send_intermediate_state(pen, PenState.PEN_IS_IN_RANGE, button)
)
rs.extend(super().event(pen, button))
self.previous_state = pen.current_state
return rs
class Wacom_2d1f_014b(PenDigitizer):
"""
Pen that reports distance values with HID_GD_Z usage.
"""
def __init__(
self,
name,
rdesc_str=None,
rdesc=None,
application="Pen",
physical="Stylus",
input_info=(BusType.USB, 0x2D1F, 0x014B),
evdev_name_suffix=None,
):
super().__init__(
name, rdesc_str, rdesc, application, physical, input_info, evdev_name_suffix
)
def match_evdev_rule(self, application, evdev):
# there are 2 nodes created by the device, only one matters
return evdev.name.endswith("Stylus")
def event(self, pen, test_button):
# this device reports the distance through Z
pen.z = pen.distance
return super().event(pen, test_button)
################################################################################
#
# Windows 7 compatible devices
#
################################################################################
# class TestEgalax_capacitive_0eef_7224(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_7224',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 34 49 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 37 29 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 34 49 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 37 29 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x7224),
# evdev_name_suffix=' Touchscreen')
#
#
# class TestEgalax_capacitive_0eef_72fa(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_72fa',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 72 22 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 87 13 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 72 22 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 87 13 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x72fa),
# evdev_name_suffix=' Touchscreen')
#
#
# class TestEgalax_capacitive_0eef_7336(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_7336',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 c1 20 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 c2 18 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 c1 20 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 c2 18 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x7336),
# evdev_name_suffix=' Touchscreen')
#
#
# class TestEgalax_capacitive_0eef_7337(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_7337',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 ae 17 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 c3 0e 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 ae 17 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 c3 0e 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x7337),
# evdev_name_suffix=' Touchscreen')
#
#
# class TestEgalax_capacitive_0eef_7349(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_7349',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 34 49 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 37 29 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 34 49 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 37 29 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x7349),
# evdev_name_suffix=' Touchscreen')
#
#
# class TestEgalax_capacitive_0eef_73f4(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test egalax-capacitive_0eef_73f4',
# rdesc='05 0d 09 04 a1 01 85 04 09 22 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 09 32 15 00 25 01 81 02 09 51 75 05 95 01 16 00 00 26 10 00 81 02 09 47 75 01 95 01 15 00 25 01 81 02 05 01 09 30 75 10 95 01 55 0d 65 33 35 00 46 96 4e 26 ff 7f 81 02 09 31 75 10 95 01 55 0d 65 33 35 00 46 23 2c 26 ff 7f 81 02 05 0d 09 55 25 08 75 08 95 01 b1 02 c0 c0 05 01 09 01 a1 01 85 01 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 01 75 06 81 01 05 01 09 30 09 31 16 00 00 26 ff 0f 36 00 00 46 ff 0f 66 00 00 75 10 95 02 81 02 c0 c0 06 00 ff 09 01 a1 01 09 01 15 00 26 ff 00 85 03 75 08 95 3f 81 02 06 00 ff 09 01 15 00 26 ff 00 75 08 95 3f 91 02 c0 05 0d 09 04 a1 01 85 02 09 20 a1 00 09 42 09 32 15 00 25 01 95 02 75 01 81 02 95 06 75 01 81 03 05 01 09 30 75 10 95 01 a4 55 0d 65 33 36 00 00 46 96 4e 16 00 00 26 ff 0f 81 02 09 31 16 00 00 26 ff 0f 36 00 00 46 23 2c 81 02 b4 c0 c0 05 0d 09 0e a1 01 85 05 09 22 a1 00 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0',
# input_info=(BusType.USB, 0x0eef, 0x73f4),
# evdev_name_suffix=' Touchscreen')
#
# bogus: BTN_TOOL_PEN is not emitted
# class TestIrtouch_6615_0070(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test irtouch_6615_0070',
# rdesc='05 01 09 02 a1 01 85 10 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 95 02 75 01 81 02 95 06 81 03 05 01 09 30 09 31 15 00 26 ff 7f 75 10 95 02 81 02 c0 c0 05 0d 09 04 a1 01 85 30 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 09 51 75 08 95 01 81 02 05 01 09 30 26 ff 7f 55 0f 65 11 35 00 46 51 02 75 10 95 01 81 02 09 31 35 00 46 73 01 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 09 51 75 08 95 01 81 02 05 01 09 30 26 ff 7f 55 0f 65 11 35 00 46 51 02 75 10 95 01 81 02 09 31 35 00 46 73 01 81 02 c0 05 0d 09 54 15 00 26 02 00 75 08 95 01 81 02 85 03 09 55 15 00 26 ff 00 75 08 95 01 b1 02 c0 05 0d 09 0e a1 01 85 02 09 52 09 53 15 00 26 ff 00 75 08 95 02 b1 02 c0 05 0d 09 02 a1 01 85 20 09 20 a1 00 09 42 15 00 25 01 75 01 95 01 81 02 95 07 81 03 05 01 09 30 26 ff 7f 55 0f 65 11 35 00 46 51 02 75 10 95 01 81 02 09 31 35 00 46 73 01 81 02 85 01 06 00 ff 09 01 75 08 95 01 b1 02 c0 c0',
# input_info=(BusType.USB, 0x6615, 0x0070))
class TestNexio_1870_0100(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test nexio_1870_0100",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0e 65 11 09 30 35 00 46 1e 19 81 02 26 ff 3f 09 31 35 00 46 be 0f 81 02 26 ff 3f c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0e 65 11 09 30 35 00 46 1e 19 81 02 26 ff 3f 09 31 35 00 46 be 0f 81 02 26 ff 3f c0 05 0d 09 54 95 01 75 08 25 02 81 02 85 02 09 55 25 02 b1 02 c0 09 0e a1 01 85 03 09 23 a1 02 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0 05 01 09 02 a1 01 09 01 a1 00 85 04 05 09 95 03 75 01 19 01 29 03 15 00 25 01 81 02 95 01 75 05 81 01 05 01 75 10 95 02 09 30 09 31 15 00 26 ff 7f 81 02 c0 c0 05 0d 09 02 a1 01 85 05 09 20 a1 00 09 42 09 32 15 00 25 01 75 01 95 02 81 02 95 0e 81 03 05 01 26 ff 3f 75 10 95 01 55 0e 65 11 09 30 35 00 46 1e 19 81 02 26 ff 3f 09 31 35 00 46 be 0f 81 02 26 ff 3f c0 c0 06 00 ff 09 01 a1 01 85 06 19 01 29 40 15 00 26 ff 00 75 08 95 40 81 00 19 01 29 40 91 00 c0",
input_info=(BusType.USB, 0x1870, 0x0100),
)
class TestNexio_1870_010d(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test nexio_1870_010d",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 05 0d 09 54 95 01 75 08 25 02 81 02 85 02 09 55 25 06 b1 02 c0 09 0e a1 01 85 03 09 23 a1 02 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0 05 01 09 02 a1 01 09 01 a1 00 85 04 05 09 95 03 75 01 19 01 29 03 15 00 25 01 81 02 95 01 75 05 81 01 05 01 75 10 95 02 09 30 09 31 15 00 26 ff 7f 81 02 c0 c0 05 0d 09 02 a1 01 85 05 09 20 a1 00 09 42 09 32 15 00 25 01 75 01 95 02 81 02 95 0e 81 03 05 01 26 ff 3f 75 10 95 01 55 0e 65 11 09 30 35 00 46 1e 19 81 02 26 ff 3f 09 31 35 00 46 be 0f 81 02 26 ff 3f c0 c0 06 00 ff 09 01 a1 01 85 06 19 01 29 40 15 00 26 ff 00 75 08 95 3e 81 00 19 01 29 40 91 00 c0",
input_info=(BusType.USB, 0x1870, 0x010D),
)
class TestNexio_1870_0119(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test nexio_1870_0119",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 95 06 81 03 75 08 09 51 95 01 81 02 05 01 26 ff 3f 75 10 55 0d 65 00 09 30 35 00 46 00 00 81 02 26 ff 3f 09 31 35 00 46 00 00 81 02 26 ff 3f 05 0d 09 48 35 00 26 ff 3f 81 02 09 49 35 00 26 ff 3f 81 02 c0 05 0d 09 54 95 01 75 08 25 02 81 02 85 02 09 55 25 06 b1 02 c0 09 0e a1 01 85 03 09 23 a1 02 09 52 09 53 15 00 25 0a 75 08 95 02 b1 02 c0 c0 05 01 09 02 a1 01 09 01 a1 00 85 04 05 09 95 03 75 01 19 01 29 03 15 00 25 01 81 02 95 01 75 05 81 01 05 01 75 10 95 02 09 30 09 31 15 00 26 ff 7f 81 02 c0 c0 05 0d 09 02 a1 01 85 05 09 20 a1 00 09 42 09 32 15 00 25 01 75 01 95 02 81 02 95 0e 81 03 05 01 26 ff 3f 75 10 95 01 55 0e 65 11 09 30 35 00 46 1e 19 81 02 26 ff 3f 09 31 35 00 46 be 0f 81 02 26 ff 3f c0 c0 06 00 ff 09 01 a1 01 85 06 19 01 29 40 15 00 26 ff 00 75 08 95 3e 81 00 19 01 29 40 91 00 c0",
input_info=(BusType.USB, 0x1870, 0x0119),
)
################################################################################
#
# Windows 8 compatible devices
#
################################################################################
# bogus: application is 'undefined'
# class Testatmel_03eb_8409(BaseTest.TestTablet):
# def create_device(self):
# return PenDigitizer('uhid test atmel_03eb_8409', rdesc='05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 35 00 35 00 46 18 06 26 77 0f 09 31 81 02 35 00 35 00 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 48 81 02 09 49 81 02 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 35 00 35 00 46 18 06 26 77 0f 09 31 81 02 35 00 35 00 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 48 81 02 09 49 81 02 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 35 00 35 00 46 18 06 26 77 0f 09 31 81 02 35 00 35 00 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 48 81 02 09 49 81 02 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 35 00 35 00 46 18 06 26 77 0f 09 31 81 02 35 00 35 00 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 48 81 02 09 49 81 02 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 35 00 35 00 46 18 06 26 77 0f 09 31 81 02 35 00 35 00 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 48 81 02 09 49 81 02 c0 05 0d 27 ff ff 00 00 75 10 95 01 09 56 81 02 15 00 25 1f 75 05 09 54 95 01 81 02 75 03 25 01 95 01 81 03 75 08 85 02 09 55 25 10 b1 02 06 00 ff 85 05 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 0d 09 00 a1 01 85 03 09 20 a1 00 15 00 25 01 75 01 95 01 09 42 81 02 09 44 81 02 09 45 81 02 81 03 09 32 81 02 95 03 81 03 05 01 55 0e 65 11 35 00 75 10 95 02 46 c8 0a 26 6f 08 09 30 81 02 46 18 06 26 77 0f 09 31 81 02 05 0d 09 30 15 01 26 ff 00 75 08 95 01 81 02 c0 c0')
class Testatmel_03eb_840b(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test atmel_03eb_840b",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 01 46 00 0a 26 ff 0f 09 30 81 02 09 00 81 03 46 a0 05 26 ff 0f 09 31 81 02 09 00 81 03 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 00 81 03 09 00 81 03 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 01 46 00 0a 26 ff 0f 09 30 81 02 09 00 81 03 46 a0 05 26 ff 0f 09 31 81 02 09 00 81 03 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 00 81 03 09 00 81 03 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 01 46 00 0a 26 ff 0f 09 30 81 02 09 00 81 03 46 a0 05 26 ff 0f 09 31 81 02 09 00 81 03 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 00 81 03 09 00 81 03 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 01 46 00 0a 26 ff 0f 09 30 81 02 09 00 81 03 46 a0 05 26 ff 0f 09 31 81 02 09 00 81 03 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 00 81 03 09 00 81 03 c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 95 01 81 03 25 1f 75 05 09 51 81 02 05 01 55 0e 65 11 35 00 75 10 95 01 46 00 0a 26 ff 0f 09 30 81 02 09 00 81 03 46 a0 05 26 ff 0f 09 31 81 02 09 00 81 03 05 0d 95 01 75 08 15 00 26 ff 00 46 ff 00 09 00 81 03 09 00 81 03 c0 05 0d 27 ff ff 00 00 75 10 95 01 09 56 81 02 15 00 25 1f 75 05 09 54 95 01 81 02 75 03 25 01 95 01 81 03 75 08 85 02 09 55 25 10 b1 02 06 00 ff 85 05 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 0d 09 02 a1 01 85 03 09 20 a1 00 15 00 25 01 75 01 95 01 09 42 81 02 09 44 81 02 09 45 81 02 81 03 09 32 81 02 95 03 81 03 05 01 55 0e 65 11 35 00 75 10 95 02 46 00 0a 26 ff 0f 09 30 81 02 46 a0 05 26 ff 0f 09 31 81 02 05 0d 09 30 15 01 26 ff 00 75 08 95 01 81 02 c0 c0",
)
class Testn_trig_1b96_0c01(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test n_trig_1b96_0c01",
rdesc="75 08 15 00 26 ff 00 06 0b ff 09 0b a1 01 95 0f 09 29 85 29 b1 02 95 1f 09 2a 85 2a b1 02 95 3e 09 2b 85 2b b1 02 95 fe 09 2c 85 2c b1 02 96 fe 01 09 2d 85 2d b1 02 95 02 09 48 85 48 b1 02 95 0f 09 2e 85 2e 81 02 95 1f 09 2f 85 2f 81 02 95 3e 09 30 85 30 81 02 95 fe 09 31 85 31 81 02 96 fe 01 09 32 85 32 81 02 75 08 96 fe 0f 09 35 85 35 81 02 c0 05 0d 09 02 a1 01 85 01 09 20 35 00 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 b4 05 0d 09 30 26 00 01 81 02 06 00 ff 09 01 81 02 c0 85 0c 06 00 ff 09 0c 75 08 95 06 26 ff 00 b1 02 85 0b 09 0b 95 02 b1 02 85 11 09 11 b1 02 85 15 09 15 95 05 b1 02 85 18 09 18 95 0c b1 02 c0 05 0d 09 04 a1 01 85 03 06 00 ff 09 01 75 10 95 01 15 00 27 ff ff 00 00 81 02 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 09 32 81 02 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 54 95 01 75 08 81 02 09 56 75 20 95 01 27 ff ff ff 0f 81 02 85 04 09 55 75 08 95 01 25 0b b1 02 85 0a 06 00 ff 09 03 15 00 b1 02 85 1b 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 01 09 02 a1 01 85 02 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 75 01 95 02 81 02 95 06 81 03 05 01 09 30 09 31 15 81 25 7f 75 08 95 02 81 06 c0 c0",
)
class Testn_trig_1b96_0c03(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test n_trig_1b96_0c03",
rdesc="75 08 15 00 26 ff 00 06 0b ff 09 0b a1 01 95 0f 09 29 85 29 b1 02 95 1f 09 2a 85 2a b1 02 95 3e 09 2b 85 2b b1 02 95 fe 09 2c 85 2c b1 02 96 fe 01 09 2d 85 2d b1 02 95 02 09 48 85 48 b1 02 95 0f 09 2e 85 2e 81 02 95 1f 09 2f 85 2f 81 02 95 3e 09 30 85 30 81 02 95 fe 09 31 85 31 81 02 96 fe 01 09 32 85 32 81 02 75 08 96 fe 0f 09 35 85 35 81 02 c0 05 0d 09 02 a1 01 85 01 09 20 35 00 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 b4 05 0d 09 30 26 00 01 81 02 06 00 ff 09 01 81 02 c0 85 0c 06 00 ff 09 0c 75 08 95 06 26 ff 00 b1 02 85 0b 09 0b 95 02 b1 02 85 11 09 11 b1 02 85 15 09 15 95 05 b1 02 85 18 09 18 95 0c b1 02 c0 05 0d 09 04 a1 01 85 03 06 00 ff 09 01 75 10 95 01 15 00 27 ff ff 00 00 81 02 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 15 0a 26 80 25 81 02 09 31 46 b4 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 54 95 01 75 08 81 02 09 56 75 20 95 01 27 ff ff ff 0f 81 02 85 04 09 55 75 08 95 01 25 0b b1 02 85 0a 06 00 ff 09 03 15 00 b1 02 85 1b 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 01 09 02 a1 01 85 02 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 75 01 95 02 81 02 95 06 81 03 05 01 09 30 09 31 15 81 25 7f 75 08 95 02 81 06 c0 c0",
)
class Testn_trig_1b96_0f00(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test n_trig_1b96_0f00",
rdesc="75 08 15 00 26 ff 00 06 0b ff 09 0b a1 01 95 0f 09 29 85 29 b1 02 95 1f 09 2a 85 2a b1 02 95 3e 09 2b 85 2b b1 02 95 fe 09 2c 85 2c b1 02 96 fe 01 09 2d 85 2d b1 02 95 02 09 48 85 48 b1 02 95 0f 09 2e 85 2e 81 02 95 1f 09 2f 85 2f 81 02 95 3e 09 30 85 30 81 02 95 fe 09 31 85 31 81 02 96 fe 01 09 32 85 32 81 02 75 08 96 fe 0f 09 35 85 35 81 02 c0 05 0d 09 02 a1 01 85 01 09 20 35 00 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 b4 05 0d 09 30 26 00 01 81 02 06 00 ff 09 01 81 02 c0 85 0c 06 00 ff 09 0c 75 08 95 06 26 ff 00 b1 02 85 0b 09 0b 95 02 b1 02 85 11 09 11 b1 02 85 15 09 15 95 05 b1 02 85 18 09 18 95 0c b1 02 c0 05 0d 09 04 a1 01 85 03 06 00 ff 09 01 75 10 95 01 15 00 27 ff ff 00 00 81 02 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 54 95 01 75 08 81 02 09 56 75 20 95 01 27 ff ff ff 0f 81 02 85 04 09 55 75 08 95 01 25 0b b1 02 85 0a 06 00 ff 09 03 15 00 b1 02 85 1b 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 01 09 02 a1 01 85 02 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 75 01 95 02 81 02 95 06 81 03 05 01 09 30 09 31 15 81 25 7f 75 08 95 02 81 06 c0 c0",
)
class Testn_trig_1b96_0f04(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test n_trig_1b96_0f04",
rdesc="75 08 15 00 26 ff 00 06 0b ff 09 0b a1 01 95 0f 09 29 85 29 b1 02 95 1f 09 2a 85 2a b1 02 95 3e 09 2b 85 2b b1 02 95 fe 09 2c 85 2c b1 02 96 fe 01 09 2d 85 2d b1 02 95 02 09 48 85 48 b1 02 95 0f 09 2e 85 2e 81 02 95 1f 09 2f 85 2f 81 02 95 3e 09 30 85 30 81 02 95 fe 09 31 85 31 81 02 96 fe 01 09 32 85 32 81 02 75 08 96 fe 0f 09 35 85 35 81 02 c0 05 0d 09 02 a1 01 85 01 09 20 35 00 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0e 65 11 46 7f 0b 26 80 25 81 02 09 31 46 78 06 26 20 1c 81 02 b4 05 0d 09 30 26 00 01 81 02 06 00 ff 09 01 81 02 c0 85 0c 06 00 ff 09 0c 75 08 95 06 26 ff 00 b1 02 85 0b 09 0b 95 02 b1 02 85 11 09 11 b1 02 85 15 09 15 95 05 b1 02 85 18 09 18 95 0c b1 02 c0 05 0d 09 04 a1 01 85 03 06 00 ff 09 01 75 10 95 01 15 00 27 ff ff 00 00 81 02 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 7f 0b 26 80 25 81 02 09 31 46 78 06 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 7f 0b 26 80 25 81 02 09 31 46 78 06 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 54 95 01 75 08 81 02 09 56 75 20 95 01 27 ff ff ff 0f 81 02 85 04 09 55 75 08 95 01 25 0b b1 02 85 0a 06 00 ff 09 03 15 00 b1 02 85 1b 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 01 09 02 a1 01 85 02 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 75 01 95 02 81 02 95 06 81 03 05 01 09 30 09 31 15 81 25 7f 75 08 95 02 81 06 c0 c0",
)
class Testn_trig_1b96_1000(BaseTest.TestTablet):
def create_device(self):
return PenDigitizer(
"uhid test n_trig_1b96_1000",
rdesc="75 08 15 00 26 ff 00 06 0b ff 09 0b a1 01 95 0f 09 29 85 29 b1 02 95 1f 09 2a 85 2a b1 02 95 3e 09 2b 85 2b b1 02 95 fe 09 2c 85 2c b1 02 96 fe 01 09 2d 85 2d b1 02 95 02 09 48 85 48 b1 02 95 0f 09 2e 85 2e 81 02 95 1f 09 2f 85 2f 81 02 95 3e 09 30 85 30 81 02 95 fe 09 31 85 31 81 02 96 fe 01 09 32 85 32 81 02 75 08 96 fe 0f 09 35 85 35 81 02 c0 05 0d 09 02 a1 01 85 01 09 20 35 00 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 b4 05 0d 09 30 26 00 01 81 02 06 00 ff 09 01 81 02 c0 85 0c 06 00 ff 09 0c 75 08 95 06 26 ff 00 b1 02 85 0b 09 0b 95 02 b1 02 85 11 09 11 b1 02 85 15 09 15 95 05 b1 02 85 18 09 18 95 0c b1 02 c0 05 0d 09 04 a1 01 85 03 06 00 ff 09 01 75 10 95 01 15 00 27 ff ff 00 00 81 02 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 01 81 03 09 47 81 02 95 05 81 03 75 10 09 51 27 ff ff 00 00 95 01 81 02 05 01 09 30 75 10 95 02 a4 55 0e 65 11 46 03 0a 26 80 25 81 02 09 31 46 a1 05 26 20 1c 81 02 05 0d 09 48 95 01 26 80 25 81 02 09 49 26 20 1c 81 02 b4 06 00 ff 09 02 75 08 95 04 15 00 26 ff 00 81 02 c0 05 0d 09 54 95 01 75 08 81 02 09 56 75 20 95 01 27 ff ff ff 0f 81 02 85 04 09 55 75 08 95 01 25 0b b1 02 85 0a 06 00 ff 09 03 15 00 b1 02 85 1b 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 01 09 02 a1 01 85 02 09 01 a1 00 05 09 19 01 29 02 15 00 25 01 75 01 95 02 81 02 95 06 81 03 05 01 09 30 09 31 15 81 25 7f 75 08 95 02 81 06 c0 c0",
)
class TestGXTP_27c6_0113(BaseTest.TestTablet):
def create_device(self):
return GXTP_pen(
"uhid test GXTP_27c6_0113",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 55 0e 65 11 35 00 15 00 09 42 25 01 75 01 95 01 81 02 95 07 81 01 95 01 75 08 09 51 81 02 75 10 05 01 26 00 14 46 1f 07 09 30 81 02 26 80 0c 46 77 04 09 31 81 02 05 0d c0 09 22 a1 02 09 42 25 01 75 01 95 01 81 02 95 07 81 01 95 01 75 08 09 51 81 02 75 10 05 01 26 00 14 46 1f 07 09 30 81 02 26 80 0c 46 77 04 09 31 81 02 05 0d c0 09 22 a1 02 09 42 25 01 75 01 95 01 81 02 95 07 81 01 95 01 75 08 09 51 81 02 75 10 05 01 26 00 14 46 1f 07 09 30 81 02 26 80 0c 46 77 04 09 31 81 02 05 0d c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 07 81 01 75 08 09 51 95 01 81 02 05 01 26 00 14 75 10 55 0e 65 11 09 30 35 00 46 1f 07 81 02 26 80 0c 46 77 04 09 31 81 02 05 0d c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 95 07 81 01 75 08 09 51 95 01 81 02 05 01 26 00 14 75 10 55 0e 65 11 09 30 35 00 46 1f 07 81 02 26 80 0c 46 77 04 09 31 81 02 05 0d c0 09 54 15 00 25 7f 75 08 95 01 81 02 85 02 09 55 95 01 25 0a b1 02 85 03 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 0d 09 02 a1 01 85 08 09 20 a1 00 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 04 81 02 95 01 81 03 09 32 81 02 95 02 81 03 95 01 75 08 09 51 81 02 05 01 09 30 75 10 95 01 a4 55 0e 65 11 35 00 26 00 14 46 1f 07 81 42 09 31 26 80 0c 46 77 04 81 42 b4 05 0d 09 30 26 ff 0f 81 02 09 3d 65 14 55 0e 36 d8 dc 46 28 23 16 d8 dc 26 28 23 81 02 09 3e 81 02 c0 c0 06 f0 ff 09 01 a1 01 85 0e 09 01 15 00 25 ff 75 08 95 40 91 02 09 01 15 00 25 ff 75 08 95 40 81 02 c0 05 01 09 06 a1 01 85 04 05 07 09 e3 15 00 25 01 75 01 95 01 81 02 95 07 81 03 c0",
)
################################################################################
#
# Windows 8 compatible devices with USI Pen
#
################################################################################
class TestElan_04f3_2A49(BaseTest.TestTablet):
def create_device(self):
return USIPen(
"uhid test Elan_04f3_2A49",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 75 01 81 03 75 06 09 51 25 3f 81 02 26 ff 00 75 08 55 0f 65 11 35 00 45 ff 09 48 81 02 09 49 81 02 09 30 81 02 95 01 05 01 a4 26 cf 0f 75 10 55 0f 65 11 09 30 35 00 46 26 01 95 01 81 02 26 77 0a 46 a6 00 09 31 81 02 b4 c0 05 0d 09 22 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 75 01 81 03 75 06 09 51 25 3f 81 02 26 ff 00 75 08 55 0f 65 11 35 00 45 ff 09 48 81 02 09 49 81 02 09 30 81 02 95 01 05 01 a4 26 cf 0f 75 10 55 0f 65 11 09 30 35 00 46 26 01 95 01 81 02 26 77 0a 46 a6 00 09 31 81 02 b4 c0 05 0d 09 22 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 75 01 81 03 75 06 09 51 25 3f 81 02 26 ff 00 75 08 55 0f 65 11 35 00 45 ff 09 48 81 02 09 49 81 02 09 30 81 02 95 01 05 01 a4 26 cf 0f 75 10 55 0f 65 11 09 30 35 00 46 26 01 95 01 81 02 26 77 0a 46 a6 00 09 31 81 02 b4 c0 05 0d 09 22 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 75 01 81 03 75 06 09 51 25 3f 81 02 26 ff 00 75 08 55 0f 65 11 35 00 45 ff 09 48 81 02 09 49 81 02 09 30 81 02 95 01 05 01 a4 26 cf 0f 75 10 55 0f 65 11 09 30 35 00 46 26 01 95 01 81 02 26 77 0a 46 a6 00 09 31 81 02 b4 c0 05 0d 09 22 a1 02 05 0d 09 42 15 00 25 01 75 01 95 01 81 02 75 01 81 03 75 06 09 51 25 3f 81 02 26 ff 00 75 08 55 0f 65 11 35 00 45 ff 09 48 81 02 09 49 81 02 09 30 81 02 95 01 05 01 a4 26 cf 0f 75 10 55 0f 65 11 09 30 35 00 46 26 01 95 01 81 02 26 77 0a 46 a6 00 09 31 81 02 b4 c0 05 0d 09 54 25 7f 96 01 00 75 08 81 02 85 0a 09 55 25 0a b1 02 85 44 06 00 ff 09 c5 16 00 00 26 ff 00 75 08 96 00 01 b1 02 c0 06 ff 01 09 01 a1 01 85 02 16 00 00 26 ff 00 75 08 95 40 09 00 81 02 c0 06 00 ff 09 01 a1 01 85 03 75 08 95 20 09 01 91 02 c0 06 00 ff 09 01 a1 01 85 06 09 03 75 08 95 12 91 02 09 04 75 08 95 03 b1 02 c0 06 01 ff 09 01 a1 01 85 04 15 00 26 ff 00 75 08 95 13 09 00 81 02 c0 05 0d 09 02 a1 01 85 07 35 00 09 20 a1 00 09 32 09 42 09 44 09 3c 09 45 15 00 25 01 75 01 95 05 81 02 95 03 81 03 05 01 09 30 75 10 95 01 a4 55 0f 65 11 46 26 01 26 1c 48 81 42 09 31 46 a6 00 26 bc 2f 81 42 b4 05 0d 09 30 26 00 10 81 02 75 08 95 01 09 3b 25 64 81 42 09 38 15 00 25 02 81 02 09 5c 26 ff 00 81 02 09 5e 81 02 09 70 a1 02 15 01 25 06 09 72 09 73 09 74 09 75 09 76 09 77 81 20 09 5b 25 ff 75 40 81 02 c0 06 00 ff 75 08 95 02 09 01 81 02 c0 05 0d 85 60 09 81 a1 02 09 38 75 08 95 01 15 00 25 02 81 02 09 81 15 01 25 04 09 82 09 83 09 84 09 85 81 20 c0 85 61 09 5c a1 02 15 00 26 ff 00 75 08 95 01 09 38 b1 02 09 5c 26 ff 00 b1 02 09 5d 75 01 95 01 25 01 b1 02 95 07 b1 03 c0 85 62 09 5e a1 02 09 38 15 00 25 02 75 08 95 01 b1 02 09 5e 26 ff 00 b1 02 09 5f 75 01 25 01 b1 02 75 07 b1 03 c0 85 63 09 70 a1 02 75 08 95 01 15 00 25 02 09 38 b1 02 09 70 a1 02 25 06 09 72 09 73 09 74 09 75 09 76 09 77 b1 20 c0 09 71 75 01 25 01 b1 02 75 07 b1 03 c0 85 64 09 80 15 00 25 ff 75 40 95 01 b1 02 85 65 09 44 a1 02 09 38 75 08 95 01 25 02 b1 02 15 01 25 03 09 44 a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 09 5a a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 09 45 a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 c0 85 66 75 08 95 01 05 0d 09 90 a1 02 09 38 25 02 b1 02 09 91 75 10 26 ff 0f b1 02 09 92 75 40 25 ff b1 02 05 06 09 2a 75 08 26 ff 00 a1 02 09 2d b1 02 09 2e b1 02 c0 c0 85 67 05 06 09 2b a1 02 05 0d 25 02 09 38 b1 02 05 06 09 2b a1 02 09 2d 26 ff 00 b1 02 09 2e b1 02 c0 c0 85 68 06 00 ff 09 01 a1 02 05 0d 09 38 75 08 95 01 25 02 b1 02 06 00 ff 09 01 75 10 27 ff ff 00 00 b1 02 c0 85 69 05 0d 09 38 75 08 95 01 15 00 25 02 b1 02 c0 06 00 ff 09 81 a1 01 85 17 75 08 95 1f 09 05 81 02 c0",
input_info=(BusType.I2C, 0x04F3, 0x2A49),
)
class TestGoodix_27c6_0e00(BaseTest.TestTablet):
def create_device(self):
return USIPen(
"uhid test Elan_04f3_2A49",
rdesc="05 0d 09 04 a1 01 85 01 09 22 a1 02 55 0e 65 11 35 00 15 00 09 42 25 01 75 01 95 01 81 02 25 7f 09 30 75 07 81 42 95 01 75 08 09 51 81 02 75 10 05 01 26 04 20 46 e6 09 09 30 81 02 26 60 15 46 9a 06 09 31 81 02 05 0d 55 0f 75 08 25 ff 45 ff 09 48 81 42 09 49 81 42 55 0e c0 09 22 a1 02 09 42 25 01 75 01 95 01 81 02 25 7f 09 30 75 07 81 42 95 01 75 08 09 51 81 02 75 10 05 01 26 04 20 46 e6 09 09 30 81 02 26 60 15 46 9a 06 09 31 81 02 05 0d 55 0f 75 08 25 ff 45 ff 09 48 81 42 09 49 81 42 55 0e c0 09 22 a1 02 09 42 25 01 75 01 95 01 81 02 25 7f 09 30 75 07 81 42 95 01 75 08 09 51 81 02 75 10 05 01 26 04 20 46 e6 09 09 30 81 02 26 60 15 46 9a 06 09 31 81 02 05 0d 55 0f 75 08 25 ff 45 ff 09 48 81 42 09 49 81 42 55 0e c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 25 7f 09 30 75 07 81 42 75 08 09 51 95 01 81 02 05 01 26 04 20 75 10 55 0e 65 11 09 30 35 00 46 e6 09 81 02 26 60 15 46 9a 06 09 31 81 02 05 0d 55 0f 75 08 25 ff 45 ff 09 48 81 42 09 49 81 42 55 0e c0 09 22 a1 02 09 42 15 00 25 01 75 01 95 01 81 02 25 7f 09 30 75 07 81 42 75 08 09 51 95 01 81 02 05 01 26 04 20 75 10 55 0e 65 11 09 30 35 00 46 e6 09 81 02 26 60 15 46 9a 06 09 31 81 02 05 0d 55 0f 75 08 25 ff 45 ff 09 48 81 42 09 49 81 42 55 0e c0 09 54 15 00 25 7f 75 08 95 01 81 02 85 02 09 55 95 01 25 0a b1 02 85 03 06 00 ff 09 c5 15 00 26 ff 00 75 08 96 00 01 b1 02 c0 05 0d 09 02 a1 01 09 20 a1 00 85 08 05 01 a4 09 30 35 00 46 e6 09 15 00 26 04 20 55 0d 65 13 75 10 95 01 81 02 09 31 46 9a 06 26 60 15 81 02 b4 05 0d 09 38 95 01 75 08 15 00 25 01 81 02 09 30 75 10 26 ff 0f 81 02 09 31 81 02 09 42 09 44 09 5a 09 3c 09 45 09 32 75 01 95 06 25 01 81 02 95 02 81 03 09 3d 55 0e 65 14 36 d8 dc 46 28 23 16 d8 dc 26 28 23 95 01 75 10 81 02 09 3e 81 02 09 41 15 00 27 a0 8c 00 00 35 00 47 a0 8c 00 00 81 02 05 20 0a 53 04 65 00 16 01 f8 26 ff 07 75 10 95 01 81 02 0a 54 04 81 02 0a 55 04 81 02 0a 57 04 81 02 0a 58 04 81 02 0a 59 04 81 02 0a 72 04 81 02 0a 73 04 81 02 0a 74 04 81 02 05 0d 09 3b 15 00 25 64 75 08 81 02 09 5b 25 ff 75 40 81 02 06 00 ff 09 5b 75 20 81 02 05 0d 09 5c 26 ff 00 75 08 81 02 09 5e 81 02 09 70 a1 02 15 01 25 06 09 72 09 73 09 74 09 75 09 76 09 77 81 20 c0 06 00 ff 09 01 15 00 27 ff ff 00 00 75 10 95 01 81 02 85 09 09 81 a1 02 09 81 15 01 25 04 09 82 09 83 09 84 09 85 81 20 c0 85 10 09 5c a1 02 15 00 25 01 75 08 95 01 09 38 b1 02 09 5c 26 ff 00 b1 02 09 5d 75 01 95 01 25 01 b1 02 95 07 b1 03 c0 85 11 09 5e a1 02 09 38 15 00 25 01 75 08 95 01 b1 02 09 5e 26 ff 00 b1 02 09 5f 75 01 25 01 b1 02 75 07 b1 03 c0 85 12 09 70 a1 02 75 08 95 01 15 00 25 01 09 38 b1 02 09 70 a1 02 25 06 09 72 09 73 09 74 09 75 09 76 09 77 b1 20 c0 09 71 75 01 25 01 b1 02 75 07 b1 03 c0 85 13 09 80 15 00 25 ff 75 40 95 01 b1 02 85 14 09 44 a1 02 09 38 75 08 95 01 25 01 b1 02 15 01 25 03 09 44 a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 09 5a a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 09 45 a1 02 09 a4 09 44 09 5a 09 45 09 a3 b1 20 c0 c0 85 15 75 08 95 01 05 0d 09 90 a1 02 09 38 25 01 b1 02 09 91 75 10 26 ff 0f b1 02 09 92 75 40 25 ff b1 02 05 06 09 2a 75 08 26 ff 00 a1 02 09 2d b1 02 09 2e b1 02 c0 c0 85 16 05 06 09 2b a1 02 05 0d 25 01 09 38 b1 02 05 06 09 2b a1 02 09 2d 26 ff 00 b1 02 09 2e b1 02 c0 c0 85 17 06 00 ff 09 01 a1 02 05 0d 09 38 75 08 95 01 25 01 b1 02 06 00 ff 09 01 75 10 27 ff ff 00 00 b1 02 c0 85 18 05 0d 09 38 75 08 95 01 15 00 25 01 b1 02 c0 c0 06 f0 ff 09 01 a1 01 85 0e 09 01 15 00 25 ff 75 08 95 40 91 02 09 01 15 00 25 ff 75 08 95 40 81 02 c0",
input_info=(BusType.I2C, 0x27C6, 0x0E00),
)
class TestXPPen_ArtistPro16Gen2_28bd_095b(BaseTest.TestTablet):
hid_bpfs = [HidBpf("XPPen__ArtistPro16Gen2.bpf.o", True)]
def create_device(self):
dev = XPPen_ArtistPro16Gen2_28bd_095b(
"uhid test XPPen Artist Pro 16 Gen2 28bd 095b",
rdesc="05 0d 09 02 a1 01 85 07 09 20 a1 00 09 42 09 44 09 45 09 3c 15 00 25 01 75 01 95 04 81 02 95 01 81 03 09 32 15 00 25 01 95 01 81 02 95 02 81 03 75 10 95 01 35 00 a4 05 01 09 30 65 13 55 0d 46 ff 34 26 ff 7f 81 02 09 31 46 20 21 26 ff 7f 81 02 b4 09 30 45 00 26 ff 3f 81 42 09 3d 15 81 25 7f 75 08 95 01 81 02 09 3e 15 81 25 7f 81 02 c0 c0",
input_info=(BusType.USB, 0x28BD, 0x095B),
)
return dev
class TestXPPen_Artist24_28bd_093a(BaseTest.TestTablet):
hid_bpfs = [HidBpf("XPPen__Artist24.bpf.o", True)]
def create_device(self):
return XPPen_Artist24_28bd_093a(
"uhid test XPPen Artist 24 28bd 093a",
rdesc="05 0d 09 02 a1 01 85 07 09 20 a1 00 09 42 09 44 09 45 15 00 25 01 75 01 95 03 81 02 95 02 81 03 09 32 95 01 81 02 95 02 81 03 75 10 95 01 35 00 a4 05 01 09 30 65 13 55 0d 46 f0 50 26 ff 7f 81 02 09 31 46 91 2d 26 ff 7f 81 02 b4 09 30 45 00 26 ff 1f 81 42 09 3d 15 81 25 7f 75 08 95 01 81 02 09 3e 15 81 25 7f 81 02 c0 c0",
input_info=(BusType.USB, 0x28BD, 0x093A),
)
class TestHuion_Kamvas_Pro_19_256c_006b(BaseTest.TestTablet):
hid_bpfs = [HidBpf("Huion__Kamvas-Pro-19.bpf.o", True)]
def create_device(self):
return Huion_Kamvas_Pro_19_256c_006b(
"uhid test HUION Huion Tablet_GT1902",
rdesc="05 0d 09 02 a1 01 85 0a 09 20 a1 01 09 42 09 44 09 43 09 3c 09 45 15 00 25 01 75 01 95 06 81 02 09 32 75 01 95 01 81 02 81 03 05 01 09 30 09 31 55 0d 65 33 26 ff 7f 35 00 46 00 08 75 10 95 02 81 02 05 0d 09 30 26 ff 3f 75 10 95 01 81 02 09 3d 09 3e 15 a6 25 5a 75 08 95 02 81 02 c0 c0 05 0d 09 04 a1 01 85 04 09 22 a1 02 05 0d 95 01 75 06 09 51 15 00 25 3f 81 02 09 42 25 01 75 01 95 01 81 02 75 01 95 01 81 03 05 01 75 10 55 0e 65 11 09 30 26 ff 7f 35 00 46 15 0c 81 42 09 31 26 ff 7f 46 cb 06 81 42 05 0d 09 30 26 ff 1f 75 10 95 01 81 02 c0 05 0d 09 22 a1 02 05 0d 95 01 75 06 09 51 15 00 25 3f 81 02 09 42 25 01 75 01 95 01 81 02 75 01 95 01 81 03 05 01 75 10 55 0e 65 11 09 30 26 ff 7f 35 00 46 15 0c 81 42 09 31 26 ff 7f 46 cb 06 81 42 05 0d 09 30 26 ff 1f 75 10 95 01 81 02 c0 05 0d 09 56 55 00 65 00 27 ff ff ff 7f 95 01 75 20 81 02 09 54 25 7f 95 01 75 08 81 02 75 08 95 08 81 03 85 05 09 55 25 0a 75 08 95 01 b1 02 06 00 ff 09 c5 85 06 15 00 26 ff 00 75 08 96 00 01 b1 02 c0",
input_info=(BusType.USB, 0x256C, 0x006B),
)
################################################################################
#
# Devices Reporting Distance
#
################################################################################
class TestWacom_2d1f_014b(BaseTest.TestTablet):
def create_device(self):
return Wacom_2d1f_014b(
"uhid test Wacom 2d1f_014b",
rdesc="05 0d 09 02 a1 01 85 02 09 20 a1 00 09 42 09 44 09 45 09 3c 09 5a 09 32 15 00 25 01 75 01 95 06 81 02 95 02 81 03 05 01 09 30 26 88 3e 46 88 3e 65 11 55 0d 75 10 95 01 81 02 09 31 26 60 53 46 60 53 81 02 05 0d 09 30 26 ff 0f 45 00 65 00 55 00 81 02 06 00 ff 09 04 75 08 26 ff 00 46 ff 00 65 11 55 0e 81 02 05 0d 09 3d 75 10 16 d8 dc 26 28 23 36 d8 dc 46 28 23 65 14 81 02 09 3e 81 02 05 01 09 32 16 01 ff 25 00 36 01 ff 45 00 65 11 81 02 05 0d 09 56 15 00 27 ff ff 00 00 35 00 47 ff ff 00 00 66 01 10 55 0c 81 02 45 00 65 00 55 00 c0 09 00 75 08 26 ff 00 b1 12 85 03 09 00 95 12 b1 12 85 05 09 00 95 04 b1 02 85 06 09 00 95 24 b1 02 85 16 09 00 15 00 26 ff 00 95 06 b1 02 85 17 09 00 95 0c b1 02 85 19 09 00 95 01 b1 02 85 0a 09 00 75 08 95 01 15 10 26 ff 00 b1 02 85 1e 09 00 95 10 b1 02 c0 06 00 ff 09 00 a1 01 85 09 05 0d 09 20 a1 00 09 00 15 00 26 ff 00 75 08 95 10 81 02 c0 09 00 95 03 b1 12 c0 06 00 ff 09 02 a1 01 85 07 09 00 96 09 01 b1 02 85 08 09 00 95 03 81 02 09 00 b1 02 85 0e 09 00 96 0a 01 b1 02 c0 05 0d 09 02 a1 01 85 1a 09 20 a1 00 09 42 09 44 09 45 09 3c 09 5a 09 32 15 00 25 01 75 01 95 06 81 02 09 38 25 03 75 02 95 01 81 02 05 01 09 30 26 88 3e 46 88 3e 65 11 55 0d 75 10 95 01 81 02 09 31 26 60 53 46 60 53 81 02 05 0d 09 30 26 ff 0f 46 b0 0f 66 11 e1 55 02 81 02 06 00 ff 09 04 75 08 26 ff 00 46 ff 00 65 11 55 0e 81 02 05 0d 09 3d 75 10 16 d8 dc 26 28 23 36 d8 dc 46 28 23 65 14 81 02 09 3e 81 02 05 01 09 32 16 01 ff 25 00 36 01 ff 45 00 65 11 81 02 05 0d 09 56 15 00 27 ff ff 00 00 35 00 47 ff ff 00 00 66 01 10 55 0c 81 02 45 00 65 00 55 00 c0 c0 06 00 ff 09 00 a1 01 85 1b 05 0d 09 20 a1 00 09 00 26 ff 00 75 08 95 10 81 02 c0 c0",
input_info=(BusType.USB, 0x2D1F, 0x014B),
)
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