tools/testing/selftests/hid/tests/test_sony.py - linux - Git at Google

 #!/bin/env python3
 # SPDX-License-Identifier: GPL-2.0
 # -*- coding: utf-8 -*-
 #
 # Copyright (c) 2020 Benjamin Tissoires <benjamin.tissoires@gmail.com>
 # Copyright (c) 2020 Red Hat, Inc.
 #

 from .base import application_matches
 from .test_gamepad import BaseTest
 from hidtools.device.sony_gamepad import (
     PS3Controller,
     PS4ControllerBluetooth,
     PS4ControllerUSB,
     PS5ControllerBluetooth,
     PS5ControllerUSB,
     PSTouchPoint,
 )
 from hidtools.util import BusType

 import libevdev
 import logging
 import pytest

 logger = logging.getLogger("hidtools.test.sony")

 PS3_MODULE = ("sony", "hid_sony")
 PS4_MODULE = ("playstation", "hid_playstation")
 PS5_MODULE = ("playstation", "hid_playstation")


 class SonyBaseTest:
     class SonyTest(BaseTest.TestGamepad):
         pass

     class SonyPS4ControllerTest(SonyTest):
         kernel_modules = [PS4_MODULE]

         def test_accelerometer(self):
             uhdev = self.uhdev
             evdev = uhdev.get_evdev("Accelerometer")

             for x in range(-32000, 32000, 4000):
                 r = uhdev.event(accel=(x, None, None))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_X) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_X]
                 # Check against range due to small loss in precision due
                 # to inverse calibration, followed by calibration by hid-sony.
                 assert x - 1 <= value <= x + 1

             for y in range(-32000, 32000, 4000):
                 r = uhdev.event(accel=(None, y, None))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_Y) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_Y]
                 assert y - 1 <= value <= y + 1

             for z in range(-32000, 32000, 4000):
                 r = uhdev.event(accel=(None, None, z))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_Z) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_Z]
                 assert z - 1 <= value <= z + 1

         def test_gyroscope(self):
             uhdev = self.uhdev
             evdev = uhdev.get_evdev("Accelerometer")

             for rx in range(-2000000, 2000000, 200000):
                 r = uhdev.event(gyro=(rx, None, None))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RX) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_RX]
                 # Sensor internal value is 16-bit, but calibrated is 22-bit, so
                 # 6-bit (64) difference, so allow a range of +/- 64.
                 assert rx - 64 <= value <= rx + 64

             for ry in range(-2000000, 2000000, 200000):
                 r = uhdev.event(gyro=(None, ry, None))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RY) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_RY]
                 assert ry - 64 <= value <= ry + 64

             for rz in range(-2000000, 2000000, 200000):
                 r = uhdev.event(gyro=(None, None, rz))
                 events = uhdev.next_sync_events("Accelerometer")
                 self.debug_reports(r, uhdev, events)

                 assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RZ) in events
                 value = evdev.value[libevdev.EV_ABS.ABS_RZ]
                 assert rz - 64 <= value <= rz + 64

         def test_battery(self):
             uhdev = self.uhdev

             assert uhdev.power_supply_class is not None

             # DS4 capacity levels are in increments of 10.
             # Battery is never below 5%.
             for i in range(5, 105, 10):
                 uhdev.battery.capacity = i
                 uhdev.event()
                 assert uhdev.power_supply_class.capacity == i

             # Discharging tests only make sense for BlueTooth.
             if uhdev.bus == BusType.BLUETOOTH:
                 uhdev.battery.cable_connected = False
                 uhdev.battery.capacity = 45
                 uhdev.event()
                 assert uhdev.power_supply_class.status == "Discharging"

             uhdev.battery.cable_connected = True
             uhdev.battery.capacity = 5
             uhdev.event()
             assert uhdev.power_supply_class.status == "Charging"

             uhdev.battery.capacity = 100
             uhdev.event()
             assert uhdev.power_supply_class.status == "Charging"

             uhdev.battery.full = True
             uhdev.event()
             assert uhdev.power_supply_class.status == "Full"

         def test_mt_single_touch(self):
             """send a single touch in the first slot of the device,
             and release it."""
             uhdev = self.uhdev
             evdev = uhdev.get_evdev("Touch Pad")

             t0 = PSTouchPoint(1, 50, 100)
             r = uhdev.event(touch=[t0])
             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)

             assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 1) in events
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100

             t0.tipswitch = False
             r = uhdev.event(touch=[t0])
             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)
             assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 0) in events
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1

         def test_mt_dual_touch(self):
             """Send 2 touches in the first 2 slots.
             Make sure the kernel sees this as a dual touch.
             Release and check

             Note: PTP will send here BTN_DOUBLETAP emulation"""
             uhdev = self.uhdev
             evdev = uhdev.get_evdev("Touch Pad")

             t0 = PSTouchPoint(1, 50, 100)
             t1 = PSTouchPoint(2, 150, 200)

             r = uhdev.event(touch=[t0])
             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)

             assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 1) in events
             assert evdev.value[libevdev.EV_KEY.BTN_TOUCH] == 1
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1

             r = uhdev.event(touch=[t0, t1])
             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)
             assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH) not in events
             assert evdev.value[libevdev.EV_KEY.BTN_TOUCH] == 1
             assert (
                 libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_X, 5) not in events
             )
             assert (
                 libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_Y, 10) not in events
             )
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 1
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_POSITION_X] == 150
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 200

             t0.tipswitch = False
             r = uhdev.event(touch=[t0, t1])
             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 1
             assert libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_X) not in events
             assert libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_Y) not in events

             t1.tipswitch = False
             r = uhdev.event(touch=[t1])

             events = uhdev.next_sync_events("Touch Pad")
             self.debug_reports(r, uhdev, events)
             assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1
             assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1


 class TestPS3Controller(SonyBaseTest.SonyTest):
     kernel_modules = [PS3_MODULE]

     def create_device(self):
         controller = PS3Controller()
         controller.application_matches = application_matches
         return controller

     @pytest.fixture(autouse=True)
     def start_controller(self):
         # emulate a 'PS' button press to tell the kernel we are ready to accept events
         self.assert_button(17)

         # drain any remaining udev events
         while self.uhdev.dispatch(10):
             pass

         def test_led(self):
             for k, v in self.uhdev.led_classes.items():
                 # the kernel might have set a LED for us
                 logger.info(f"{k}: {v.brightness}")

                 idx = int(k[-1]) - 1
                 assert self.uhdev.hw_leds.get_led(idx)[0] == bool(v.brightness)

                 v.brightness = 0
                 self.uhdev.dispatch(10)
                 assert self.uhdev.hw_leds.get_led(idx)[0] is False

                 v.brightness = v.max_brightness
                 self.uhdev.dispatch(10)
                 assert self.uhdev.hw_leds.get_led(idx)[0]


 class CalibratedPS4Controller(object):
     # DS4 reports uncalibrated sensor data. Calibration coefficients
     # can be retrieved using a feature report (0x2 USB / 0x5 BT).
     # The values below are the processed calibration values for the
     # DS4s matching the feature reports of PS4ControllerBluetooth/USB
     # as dumped from hid-sony 'ds4_get_calibration_data'.
     #
     # Note we duplicate those values here in case the kernel changes them
     # so we can have tests passing even if hid-tools doesn't have the
     # correct values.
     accelerometer_calibration_data = {
         "x": {"bias": -73, "numer": 16384, "denom": 16472},
         "y": {"bias": -352, "numer": 16384, "denom": 16344},
         "z": {"bias": 81, "numer": 16384, "denom": 16319},
     }
     gyroscope_calibration_data = {
         "x": {"bias": 0, "numer": 1105920, "denom": 17827},
         "y": {"bias": 0, "numer": 1105920, "denom": 17777},
         "z": {"bias": 0, "numer": 1105920, "denom": 17748},
     }


 class CalibratedPS4ControllerBluetooth(CalibratedPS4Controller, PS4ControllerBluetooth):
     pass


 class TestPS4ControllerBluetooth(SonyBaseTest.SonyPS4ControllerTest):
     def create_device(self):
         controller = CalibratedPS4ControllerBluetooth()
         controller.application_matches = application_matches
         return controller


 class CalibratedPS4ControllerUSB(CalibratedPS4Controller, PS4ControllerUSB):
     pass


 class TestPS4ControllerUSB(SonyBaseTest.SonyPS4ControllerTest):
     def create_device(self):
         controller = CalibratedPS4ControllerUSB()
         controller.application_matches = application_matches
         return controller


 class CalibratedPS5Controller(object):
     # DualSense reports uncalibrated sensor data. Calibration coefficients
     # can be retrieved using feature report 0x09.
     # The values below are the processed calibration values for the
     # DualSene matching the feature reports of PS5ControllerBluetooth/USB
     # as dumped from hid-playstation 'dualsense_get_calibration_data'.
     #
     # Note we duplicate those values here in case the kernel changes them
     # so we can have tests passing even if hid-tools doesn't have the
     # correct values.
     accelerometer_calibration_data = {
         "x": {"bias": 0, "numer": 16384, "denom": 16374},
         "y": {"bias": -114, "numer": 16384, "denom": 16362},
         "z": {"bias": 2, "numer": 16384, "denom": 16395},
     }
     gyroscope_calibration_data = {
         "x": {"bias": 0, "numer": 1105920, "denom": 17727},
         "y": {"bias": 0, "numer": 1105920, "denom": 17728},
         "z": {"bias": 0, "numer": 1105920, "denom": 17769},
     }


 class CalibratedPS5ControllerBluetooth(CalibratedPS5Controller, PS5ControllerBluetooth):
     pass


 class TestPS5ControllerBluetooth(SonyBaseTest.SonyPS4ControllerTest):
     kernel_modules = [PS5_MODULE]

     def create_device(self):
         controller = CalibratedPS5ControllerBluetooth()
         controller.application_matches = application_matches
         return controller


 class CalibratedPS5ControllerUSB(CalibratedPS5Controller, PS5ControllerUSB):
     pass


 class TestPS5ControllerUSB(SonyBaseTest.SonyPS4ControllerTest):
     kernel_modules = [PS5_MODULE]

     def create_device(self):
         controller = CalibratedPS5ControllerUSB()
         controller.application_matches = application_matches
         return controller
	#!/bin/env python3
	# SPDX-License-Identifier: GPL-2.0
	# -- coding: utf-8 --
	#
	# Copyright (c) 2020 Benjamin Tissoires <benjamin.tissoires@gmail.com>
	# Copyright (c) 2020 Red Hat, Inc.
	#

	from .base import application_matches
	from .test_gamepad import BaseTest
	from hidtools.device.sony_gamepad import (
	PS3Controller,
	PS4ControllerBluetooth,
	PS4ControllerUSB,
	PS5ControllerBluetooth,
	PS5ControllerUSB,
	PSTouchPoint,
	)
	from hidtools.util import BusType

	import libevdev
	import logging
	import pytest

	logger = logging.getLogger("hidtools.test.sony")

	PS3_MODULE = ("sony", "hid_sony")
	PS4_MODULE = ("playstation", "hid_playstation")
	PS5_MODULE = ("playstation", "hid_playstation")


	class SonyBaseTest:
	class SonyTest(BaseTest.TestGamepad):
	pass

	class SonyPS4ControllerTest(SonyTest):
	kernel_modules = [PS4_MODULE]

	def test_accelerometer(self):
	uhdev = self.uhdev
	evdev = uhdev.get_evdev("Accelerometer")

	for x in range(-32000, 32000, 4000):
	r = uhdev.event(accel=(x, None, None))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_X) in events
	value = evdev.value[libevdev.EV_ABS.ABS_X]
	# Check against range due to small loss in precision due
	# to inverse calibration, followed by calibration by hid-sony.
	assert x - 1 <= value <= x + 1

	for y in range(-32000, 32000, 4000):
	r = uhdev.event(accel=(None, y, None))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_Y) in events
	value = evdev.value[libevdev.EV_ABS.ABS_Y]
	assert y - 1 <= value <= y + 1

	for z in range(-32000, 32000, 4000):
	r = uhdev.event(accel=(None, None, z))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_Z) in events
	value = evdev.value[libevdev.EV_ABS.ABS_Z]
	assert z - 1 <= value <= z + 1

	def test_gyroscope(self):
	uhdev = self.uhdev
	evdev = uhdev.get_evdev("Accelerometer")

	for rx in range(-2000000, 2000000, 200000):
	r = uhdev.event(gyro=(rx, None, None))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RX) in events
	value = evdev.value[libevdev.EV_ABS.ABS_RX]
	# Sensor internal value is 16-bit, but calibrated is 22-bit, so
	# 6-bit (64) difference, so allow a range of +/- 64.
	assert rx - 64 <= value <= rx + 64

	for ry in range(-2000000, 2000000, 200000):
	r = uhdev.event(gyro=(None, ry, None))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RY) in events
	value = evdev.value[libevdev.EV_ABS.ABS_RY]
	assert ry - 64 <= value <= ry + 64

	for rz in range(-2000000, 2000000, 200000):
	r = uhdev.event(gyro=(None, None, rz))
	events = uhdev.next_sync_events("Accelerometer")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_RZ) in events
	value = evdev.value[libevdev.EV_ABS.ABS_RZ]
	assert rz - 64 <= value <= rz + 64

	def test_battery(self):
	uhdev = self.uhdev

	assert uhdev.power_supply_class is not None

	# DS4 capacity levels are in increments of 10.
	# Battery is never below 5%.
	for i in range(5, 105, 10):
	uhdev.battery.capacity = i
	uhdev.event()
	assert uhdev.power_supply_class.capacity == i

	# Discharging tests only make sense for BlueTooth.
	if uhdev.bus == BusType.BLUETOOTH:
	uhdev.battery.cable_connected = False
	uhdev.battery.capacity = 45
	uhdev.event()
	assert uhdev.power_supply_class.status == "Discharging"

	uhdev.battery.cable_connected = True
	uhdev.battery.capacity = 5
	uhdev.event()
	assert uhdev.power_supply_class.status == "Charging"

	uhdev.battery.capacity = 100
	uhdev.event()
	assert uhdev.power_supply_class.status == "Charging"

	uhdev.battery.full = True
	uhdev.event()
	assert uhdev.power_supply_class.status == "Full"

	def test_mt_single_touch(self):
	"""send a single touch in the first slot of the device,
	and release it."""
	uhdev = self.uhdev
	evdev = uhdev.get_evdev("Touch Pad")

	t0 = PSTouchPoint(1, 50, 100)
	r = uhdev.event(touch=[t0])
	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 1) in events
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100

	t0.tipswitch = False
	r = uhdev.event(touch=[t0])
	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)
	assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 0) in events
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1

	def test_mt_dual_touch(self):
	"""Send 2 touches in the first 2 slots.
	Make sure the kernel sees this as a dual touch.
	Release and check

	Note: PTP will send here BTN_DOUBLETAP emulation"""
	uhdev = self.uhdev
	evdev = uhdev.get_evdev("Touch Pad")

	t0 = PSTouchPoint(1, 50, 100)
	t1 = PSTouchPoint(2, 150, 200)

	r = uhdev.event(touch=[t0])
	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)

	assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH, 1) in events
	assert evdev.value[libevdev.EV_KEY.BTN_TOUCH] == 1
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1

	r = uhdev.event(touch=[t0, t1])
	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)
	assert libevdev.InputEvent(libevdev.EV_KEY.BTN_TOUCH) not in events
	assert evdev.value[libevdev.EV_KEY.BTN_TOUCH] == 1
	assert (
	libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_X, 5) not in events
	)
	assert (
	libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_Y, 10) not in events
	)
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 0
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_X] == 50
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 100
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 1
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_POSITION_X] == 150
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_POSITION_Y] == 200

	t0.tipswitch = False
	r = uhdev.event(touch=[t0, t1])
	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == 1
	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_X) not in events
	assert libevdev.InputEvent(libevdev.EV_ABS.ABS_MT_POSITION_Y) not in events

	t1.tipswitch = False
	r = uhdev.event(touch=[t1])

	events = uhdev.next_sync_events("Touch Pad")
	self.debug_reports(r, uhdev, events)
	assert evdev.slots[0][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1
	assert evdev.slots[1][libevdev.EV_ABS.ABS_MT_TRACKING_ID] == -1


	class TestPS3Controller(SonyBaseTest.SonyTest):
	kernel_modules = [PS3_MODULE]

	def create_device(self):
	controller = PS3Controller()
	controller.application_matches = application_matches
	return controller

	@pytest.fixture(autouse=True)
	def start_controller(self):
	# emulate a 'PS' button press to tell the kernel we are ready to accept events
	self.assert_button(17)

	# drain any remaining udev events
	while self.uhdev.dispatch(10):
	pass

	def test_led(self):
	for k, v in self.uhdev.led_classes.items():
	# the kernel might have set a LED for us
	logger.info(f"{k}: {v.brightness}")

	idx = int(k[-1]) - 1
	assert self.uhdev.hw_leds.get_led(idx)[0] == bool(v.brightness)

	v.brightness = 0
	self.uhdev.dispatch(10)
	assert self.uhdev.hw_leds.get_led(idx)[0] is False

	v.brightness = v.max_brightness
	self.uhdev.dispatch(10)
	assert self.uhdev.hw_leds.get_led(idx)[0]


	class CalibratedPS4Controller(object):
	# DS4 reports uncalibrated sensor data. Calibration coefficients
	# can be retrieved using a feature report (0x2 USB / 0x5 BT).
	# The values below are the processed calibration values for the
	# DS4s matching the feature reports of PS4ControllerBluetooth/USB
	# as dumped from hid-sony 'ds4_get_calibration_data'.
	#
	# Note we duplicate those values here in case the kernel changes them
	# so we can have tests passing even if hid-tools doesn't have the
	# correct values.
	accelerometer_calibration_data = {
	"x": {"bias": -73, "numer": 16384, "denom": 16472},
	"y": {"bias": -352, "numer": 16384, "denom": 16344},
	"z": {"bias": 81, "numer": 16384, "denom": 16319},
	}
	gyroscope_calibration_data = {
	"x": {"bias": 0, "numer": 1105920, "denom": 17827},
	"y": {"bias": 0, "numer": 1105920, "denom": 17777},
	"z": {"bias": 0, "numer": 1105920, "denom": 17748},
	}


	class CalibratedPS4ControllerBluetooth(CalibratedPS4Controller, PS4ControllerBluetooth):
	pass


	class TestPS4ControllerBluetooth(SonyBaseTest.SonyPS4ControllerTest):
	def create_device(self):
	controller = CalibratedPS4ControllerBluetooth()
	controller.application_matches = application_matches
	return controller


	class CalibratedPS4ControllerUSB(CalibratedPS4Controller, PS4ControllerUSB):
	pass


	class TestPS4ControllerUSB(SonyBaseTest.SonyPS4ControllerTest):
	def create_device(self):
	controller = CalibratedPS4ControllerUSB()
	controller.application_matches = application_matches
	return controller


	class CalibratedPS5Controller(object):
	# DualSense reports uncalibrated sensor data. Calibration coefficients
	# can be retrieved using feature report 0x09.
	# The values below are the processed calibration values for the
	# DualSene matching the feature reports of PS5ControllerBluetooth/USB
	# as dumped from hid-playstation 'dualsense_get_calibration_data'.
	#
	# Note we duplicate those values here in case the kernel changes them
	# so we can have tests passing even if hid-tools doesn't have the
	# correct values.
	accelerometer_calibration_data = {
	"x": {"bias": 0, "numer": 16384, "denom": 16374},
	"y": {"bias": -114, "numer": 16384, "denom": 16362},
	"z": {"bias": 2, "numer": 16384, "denom": 16395},
	}
	gyroscope_calibration_data = {
	"x": {"bias": 0, "numer": 1105920, "denom": 17727},
	"y": {"bias": 0, "numer": 1105920, "denom": 17728},
	"z": {"bias": 0, "numer": 1105920, "denom": 17769},
	}


	class CalibratedPS5ControllerBluetooth(CalibratedPS5Controller, PS5ControllerBluetooth):
	pass


	class TestPS5ControllerBluetooth(SonyBaseTest.SonyPS4ControllerTest):
	kernel_modules = [PS5_MODULE]

	def create_device(self):
	controller = CalibratedPS5ControllerBluetooth()
	controller.application_matches = application_matches
	return controller


	class CalibratedPS5ControllerUSB(CalibratedPS5Controller, PS5ControllerUSB):
	pass


	class TestPS5ControllerUSB(SonyBaseTest.SonyPS4ControllerTest):
	kernel_modules = [PS5_MODULE]

	def create_device(self):
	controller = CalibratedPS5ControllerUSB()
	controller.application_matches = application_matches
	return controller