input-remapper/keymapper/linux.py
2020-11-16 16:30:27 +01:00

175 lines
5.6 KiB
Python

#!/usr/bin/python3
# -*- coding: utf-8 -*-
# key-mapper - GUI for device specific keyboard mappings
# Copyright (C) 2020 sezanzeb <proxima@hip70890b.de>
#
# This file is part of key-mapper.
#
# key-mapper is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# key-mapper is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with key-mapper. If not, see <https://www.gnu.org/licenses/>.
"""Device and evdev stuff that is independent from the display server."""
import subprocess
import multiprocessing
import evdev
from keymapper.logger import logger
def can_grab(path):
"""Can input events from the device be read?
Parameters
----------
path : string
Path in dev, for example '/dev/input/event7'
"""
p = subprocess.run(['fuser', '-v', path])
return p.returncode == 1
class KeycodeReader:
"""Keeps reading keycodes in the background for the UI to use.
When a button was pressed, the newest keycode can be obtained from this
object. This was written before I figured out there is get_keycode in Gdk.
"""
def __init__(self):
self.virtual_devices = []
def clear(self):
"""Next time when reading don't return the previous keycode."""
# read all of them to clear the buffer or whatever
for virtual_device in self.virtual_devices:
while virtual_device.read_one():
pass
def start_reading(self, device):
"""Tell the evdev lib to start looking for keycodes.
If read is called without prior start_reading, no keycodes
will be available.
"""
paths = _devices[device]['paths']
logger.debug(
'Starting reading keycodes for %s on %s',
device,
', '.join(paths)
)
# Watch over each one of the potentially multiple devices per hardware
self.virtual_devices = [
evdev.InputDevice(path)
for path in paths
]
def read(self):
"""Get the newest key or None if none was pressed."""
newest_keycode = None
for virtual_device in self.virtual_devices:
while True:
event = virtual_device.read_one()
if event is None:
break
if event.type == evdev.ecodes.EV_KEY and event.value == 1:
# value: 1 for down, 0 for up, 2 for hold.
# this happens to report key codes that are 8 lower
# than the ones reported by xev
newest_keycode = event.code + 8
return newest_keycode
# not used anymore since the overlooked get_keycode function is now being used
# keycode_reader = KeycodeReader()
_devices = None
class GetDevicesProcess(multiprocessing.Process):
"""Process to get the devices that can be worked with.
Since InputDevice destructors take quite some time, do this
asynchronously so that they can take as much time as they want without
slowing down the initialization. To avoid evdevs asyncio stuff spamming
errors, do this with multiprocessing and not multithreading.
"""
def __init__(self, pipe):
"""Construct the process.
Parameters
----------
pipe : multiprocessing.Pipe
used to communicate the result
"""
self.pipe = pipe
super().__init__()
def run(self):
"""Do what get_devices describes."""
devices = [evdev.InputDevice(path) for path in evdev.list_devices()]
# group them together by usb device because there could be stuff like
# "Logitech USB Keyboard" and "Logitech USB Keyboard Consumer Control"
grouped = {}
for device in devices:
# only keyboard devices
# https://www.kernel.org/doc/html/latest/input/event-codes.html
if evdev.ecodes.EV_KEY not in device.capabilities().keys():
continue
usb = device.phys.split('/')[0]
if grouped.get(usb) is None:
grouped[usb] = []
grouped[usb].append((device.name, device.path))
# now write down all the paths of that group
result = {}
for group in grouped.values():
names = [entry[0] for entry in group]
devs = [entry[1] for entry in group]
shortest_name = sorted(names, key=len)[0]
result[shortest_name] = {
'paths': devs,
'devices': names
}
self.pipe.send(result)
def get_devices():
"""Group devices and get relevant infos per group.
Returns a list containing mappings of
{group_name: {paths: [paths], devices: [names]} for input devices.
For example, group_name could be "Logitech USB Keyboard", devices might
contain "Logitech USB Keyboard System Control" and "Logitech USB Keyboard".
paths is a list of files in /dev/input that belong to the devices.
They are grouped by usb port.
"""
global _devices
if _devices is None:
pipe = multiprocessing.Pipe()
GetDevicesProcess(pipe[1]).start()
# block until devices are available
_devices = pipe[0].recv()
logger.info('Found %s', ', '.join([f'"{name}"' for name in _devices]))
return _devices