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@ -22,11 +22,12 @@
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"""Device and evdev stuff that is independent from the display server."""
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import asyncio
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import time
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# By using processes instead of threads, the mappings are
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# automatically copied, so that they can be worked with in the ui
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# without breaking the device. And it's possible to terminate processes.
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import multiprocessing
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import asyncio
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import evdev
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@ -37,6 +38,130 @@ from keymapper.state import custom_mapping, system_mapping
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DEV_NAME = 'key-mapper'
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DEVICE_CREATED = 1
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FAILED = 2
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def _grab(path):
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"""Try to grab, repeat a few times with time inbetween on failure."""
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attempts = 0
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while True:
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device = evdev.InputDevice(path)
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try:
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# grab to avoid e.g. the disabled keycode of 10 to confuse
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# X, especially when one of the buttons of your mouse also
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# uses 10. This also avoids having to load an empty xkb
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# symbols file to prevent writing any unwanted keys.
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device.grab()
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break
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except IOError:
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attempts += 1
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logger.debug('Failed attemt to grab %s %d', path, attempts)
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if attempts >= 4:
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logger.error('Cannot grab %s', path)
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return None
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# it might take a little time until the device is free if
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# it was previously grabbed.
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time.sleep(0.1)
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return device
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def _modify_capabilities(device):
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"""Adds all keycode into a copy of a devices capabilities."""
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# copy the capabilities because the keymapper_device is going
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# to act like the device.
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capabilities = device.capabilities(absinfo=False)
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# However, make sure that it supports all keycodes, not just some
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# random ones. That's why I avoid from_device for this
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capabilities[evdev.ecodes.EV_KEY] = evdev.ecodes.keys.keys()
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# just like what python-evdev does in from_device
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if evdev.ecodes.EV_SYN in capabilities:
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del capabilities[evdev.ecodes.EV_SYN]
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if evdev.ecodes.EV_FF in capabilities:
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del capabilities[evdev.ecodes.EV_FF]
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return capabilities
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def _start_injecting_worker(path, pipe):
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"""Inject keycodes for one of the virtual devices.
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Parameters
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----------
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path : string
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path in /dev to read keycodes from
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pipe : multiprocessing.Pipe
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pipe to send status codes over
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"""
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loop = asyncio.new_event_loop()
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asyncio.set_event_loop(loop)
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device = _grab(path)
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if device is None:
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pipe.send(FAILED)
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return
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capabilities = _modify_capabilities(device)
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keymapper_device = evdev.UInput(
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name=f'key-mapper {device.name}',
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phys='key-mapper',
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events=capabilities
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)
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pipe.send(DEVICE_CREATED)
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logger.debug(
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'Started injecting into %s, fd %s',
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device.path, keymapper_device.fd
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)
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for event in device.read_loop():
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if event.type != evdev.ecodes.EV_KEY:
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logger.spam(
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'got type:%s code:%s value:%s, forward',
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event.type, event.code, event.value
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)
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keymapper_device.write(event.type, event.code, event.value)
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keymapper_device.syn()
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continue
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if event.value == 2:
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# linux does them itself, no need to trigger them
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continue
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# this happens to report key codes that are 8 lower
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# than the ones reported by xev and that X expects
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input_keycode = event.code + 8
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character = custom_mapping.get_character(input_keycode)
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if character is None:
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# unknown keycode, forward it
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target_keycode = input_keycode
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else:
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target_keycode = system_mapping.get_keycode(character)
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if target_keycode is None:
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logger.error(
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'Cannot find character %s in the internal mapping',
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character
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)
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continue
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logger.spam(
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'got code:%s value:%s, maps to code:%s char:%s',
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event.code + 8, event.value, target_keycode, character
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)
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keymapper_device.write(
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evdev.ecodes.EV_KEY,
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target_keycode - 8,
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event.value
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)
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keymapper_device.syn()
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class KeycodeInjector:
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@ -59,7 +184,7 @@ class KeycodeInjector:
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for path in paths:
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pipe = multiprocessing.Pipe()
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worker = multiprocessing.Process(
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target=self._start_injecting_worker,
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target=_start_injecting_worker,
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args=(path, pipe[1])
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)
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worker.start()
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@ -78,88 +203,3 @@ class KeycodeInjector:
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if process.is_alive():
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process.terminate()
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self.processes[i] = None
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def _start_injecting_worker(self, path, pipe):
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"""Inject keycodes for one of the virtual devices."""
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loop = asyncio.new_event_loop()
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asyncio.set_event_loop(loop)
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device = evdev.InputDevice(path)
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try:
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# grab to avoid e.g. the disabled keycode of 10 to confuse X,
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|
|
|
# especially when one of the buttons of your mouse also uses 10.
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|
|
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# This also avoids having to load an empty xkb symbols file
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# to prevent writing any unwanted keys.
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device.grab()
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except IOError:
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logger.error('Cannot grab %s', path)
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# copy the capabilities because the keymapper_device is going
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# to act like the device.
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capabilities = device.capabilities(absinfo=False)
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# However, make sure that it supports all keycodes, not just some
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# random ones. That's why I avoid from_device for this
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capabilities[evdev.ecodes.EV_KEY] = evdev.ecodes.keys.keys()
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# just like what python-evdev does in from_device
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if evdev.ecodes.EV_SYN in capabilities:
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del capabilities[evdev.ecodes.EV_SYN]
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if evdev.ecodes.EV_FF in capabilities:
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del capabilities[evdev.ecodes.EV_FF]
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keymapper_device = evdev.UInput(
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name=f'key-mapper {device.name}',
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phys='key-mapper',
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events=capabilities
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)
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pipe.send(DEVICE_CREATED)
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logger.debug(
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'Started injecting into %s, fd %s',
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device.path, keymapper_device.fd
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)
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for event in device.read_loop():
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if event.type != evdev.ecodes.EV_KEY:
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logger.spam(
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'got type:%s code:%s value:%s, forward',
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event.type, event.code, event.value
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)
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keymapper_device.write(event.type, event.code, event.value)
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keymapper_device.syn()
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continue
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if event.value == 2:
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# linux does them itself, no need to trigger them
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continue
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# this happens to report key codes that are 8 lower
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# than the ones reported by xev and that X expects
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input_keycode = event.code + 8
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character = custom_mapping.get_character(input_keycode)
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if character is None:
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# unknown keycode, forward it
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target_keycode = input_keycode
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else:
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target_keycode = system_mapping.get_keycode(character)
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if target_keycode is None:
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logger.error(
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'Cannot find character %s in the internal mapping',
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character
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)
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continue
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logger.spam(
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'got code:%s value:%s, maps to code:%s char:%s',
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event.code + 8, event.value, target_keycode, character
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)
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keymapper_device.write(
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evdev.ecodes.EV_KEY,
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target_keycode - 8,
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event.value
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)
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keymapper_device.syn()
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