# -*- coding: utf-8 -*- # input-remapper - GUI for device specific keyboard mappings # Copyright (C) 2023 sezanzeb # # This file is part of input-remapper. # # input-remapper 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. # # input-remapper 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 input-remapper. If not, see . """Process that sends stuff to the GUI. It should be started via input-remapper-control and pkexec. GUIs should not run as root https://wiki.archlinux.org/index.php/Running_GUI_applications_as_root The service shouldn't do that even though it has root rights, because that would enable key-loggers to just ask input-remapper for all user-input. Instead, the ReaderService is used, which will be stopped when the gui closes. Whereas for the reader-service to start a password is needed and it stops whe the ui closes. This uses the backend injection.event_reader and mapping_handlers to process all the different input-events into simple on/off events and sends them to the gui. """ from __future__ import annotations import asyncio import logging import multiprocessing import os import subprocess import sys import time from collections import defaultdict from typing import Set, List, Tuple import evdev from evdev.ecodes import EV_KEY, EV_ABS, EV_REL, REL_HWHEEL, REL_WHEEL from inputremapper.configs.input_config import InputCombination, InputConfig from inputremapper.configs.mapping import Mapping from inputremapper.groups import _Groups, _Group from inputremapper.injection.event_reader import EventReader from inputremapper.injection.global_uinputs import GlobalUInputs from inputremapper.injection.mapping_handlers.abs_to_btn_handler import AbsToBtnHandler from inputremapper.injection.mapping_handlers.mapping_handler import ( NotifyCallback, InputEventHandler, MappingHandler, ) from inputremapper.injection.mapping_handlers.rel_to_btn_handler import RelToBtnHandler from inputremapper.input_event import InputEvent, EventActions from inputremapper.ipc.pipe import Pipe from inputremapper.logging.logger import logger from inputremapper.user import UserUtils from inputremapper.utils import get_device_hash # received by the reader-service CMD_TERMINATE = "terminate" CMD_STOP_READING = "stop-reading" CMD_REFRESH_GROUPS = "refresh_groups" # sent by the reader-service to the reader MSG_GROUPS = "groups" MSG_EVENT = "event" MSG_STATUS = "status" class ReaderService: """Service that only reads events and is supposed to run as root. Sends device information and keycodes to the GUI. Commands are either numbers for generic commands, or strings to start listening on a specific device. """ # the speed threshold at which relative axis are considered moving # and will be sent as "pressed" to the frontend. # We want to allow some mouse movement before we record it as an input rel_xy_speed = defaultdict(lambda: 3) # wheel events usually don't produce values higher than 1 rel_xy_speed[REL_WHEEL] = 1 rel_xy_speed[REL_HWHEEL] = 1 # Polkit won't ask for another password if the pid stays the same or something, and # if the previous request was no more than 5 minutes ago. see # https://unix.stackexchange.com/a/458260. # If the user does something after 6 minutes they will get a prompt already if the # reader timed out already, which sounds annoying. Instead, I'd rather have the # password prompt appear at most every 15 minutes. _maximum_lifetime: int = 60 * 15 _timeout_tolerance: int = 60 def __init__(self, groups: _Groups, global_uinputs: GlobalUInputs) -> None: """Construct the reader-service and initialize its communication pipes.""" self._start_time = time.time() self.groups = groups self.global_uinputs = global_uinputs self._results_pipe = Pipe(self.get_pipe_paths()[0]) self._commands_pipe = Pipe(self.get_pipe_paths()[1]) self._pipe = multiprocessing.Pipe() self._tasks: Set[asyncio.Task] = set() self._stop_event = asyncio.Event() self._results_pipe.send({"type": MSG_STATUS, "message": "ready"}) @staticmethod def get_pipe_paths() -> Tuple[str, str]: """Get the path where the pipe can be found.""" return ( f"/tmp/input-remapper-{UserUtils.home}/reader-results", f"/tmp/input-remapper-{UserUtils.home}/reader-commands", ) @staticmethod def pipes_exist() -> bool: # Just checking for one of the 4 files (results, commands both read and write) # should be enough I guess. path = f"{ReaderService.get_pipe_paths()[0]}r" # Use os.path.exists, not lexists or islink, because broken links are bad. # New pipes and symlinks need to be made. return os.path.exists(path) @staticmethod def is_running() -> bool: """Check if the reader-service is running.""" try: subprocess.check_output(["pgrep", "-f", "input-remapper-reader-service"]) except subprocess.CalledProcessError: return False return True @staticmethod def pkexec_reader_service(): """Start reader-service via pkexec to run in the background.""" debug = " -d" if logger.level <= logging.DEBUG else "" cmd = f"pkexec input-remapper-control --command start-reader-service{debug}" logger.debug("Running `%s`", cmd) exit_code = os.system(cmd) if exit_code != 0: raise Exception(f"Failed to pkexec the reader-service, code {exit_code}") async def run(self): """Start doing stuff.""" # the reader will check for new commands later, once it is running # it keeps running for one device or another. logger.debug("Discovering initial groups") self.groups.refresh() self._send_groups() await asyncio.gather( self._read_commands(), self._timeout(), self._stop_if_pipes_broken(), ) def _send_groups(self): """Send the groups to the gui.""" logger.debug("Sending groups") self._results_pipe.send({"type": MSG_GROUPS, "message": self.groups.dumps()}) async def _timeout(self): """Stop automatically after some time.""" # Prevents a permanent hole for key-loggers to exist, in case the gui crashes. # If the ReaderService stops even though the gui needs it, it needs to restart # it. This makes it also more comfortable to have debug mode running during # development, because it won't keep writing inputs containing passwords and # such to the terminal forever. await asyncio.sleep(self._maximum_lifetime) # if it is currently reading, wait a bit longer for the gui to complete # what it is doing. if self._is_reading(): logger.debug("Waiting a bit longer for the gui to finish reading") for _ in range(self._timeout_tolerance): if not self._is_reading(): # once reading completes, it should terminate right away break await asyncio.sleep(1) logger.debug("Maximum life-span reached, terminating") sys.exit(1) async def _read_commands(self): """Handle all unread commands. this will run until it receives CMD_TERMINATE """ logger.debug("Waiting for commands") async for cmd in self._commands_pipe: logger.debug('Received command "%s"', cmd) if cmd == CMD_TERMINATE: await self._stop_reading() logger.debug("Terminating") sys.exit(0) if cmd == CMD_REFRESH_GROUPS: self.groups.refresh() self._send_groups() continue if cmd == CMD_STOP_READING: await self._stop_reading() continue group = self.groups.find(key=cmd) if group is None: # this will block for a bit maybe we want to do this async? self.groups.refresh() group = self.groups.find(key=cmd) if group is not None: await self._stop_reading() self._start_reading(group) continue logger.error('Received unknown command "%s"', cmd) async def _stop_if_pipes_broken(self): # The GUI probably exited, and failed to tell the reader-service to stop. # Pipes are owned by the GUI process, because the non-privileged GUI process # needs to be able to read them. Therefore, they are gone. while True: await asyncio.sleep(1) if not self.pipes_exist(): await self._stop_reading() logger.debug("Pipes broken, exiting") sys.exit(13) def _is_reading(self) -> bool: """Check if the ReaderService is currently sending events to the GUI.""" return len(self._tasks) > 0 def _start_reading(self, group: _Group): """Find all devices of that group, filter interesting ones and send the events to the gui.""" sources = [] for path in group.paths: try: device = evdev.InputDevice(path) except (FileNotFoundError, OSError): logger.error('Could not find "%s"', path) return None capabilities = device.capabilities(absinfo=False) if ( EV_KEY in capabilities or EV_ABS in capabilities or EV_REL in capabilities ): sources.append(device) context = self._create_event_pipeline(sources) # create the event reader and start it for device in sources: reader = EventReader(context, device, self._stop_event) self._tasks.add(asyncio.create_task(reader.run())) async def _stop_reading(self): """Stop the running event_reader.""" self._stop_event.set() if self._tasks: await asyncio.gather(*self._tasks) self._tasks = set() self._stop_event.clear() def _create_event_pipeline(self, sources: List[evdev.InputDevice]) -> ContextDummy: """Create a custom event pipeline for each event code in the capabilities. Instead of sending the events to an uinput they will be sent to the frontend. """ context_dummy = ContextDummy() # create a context for each source for device in sources: device_hash = get_device_hash(device) capabilities = device.capabilities(absinfo=False) for ev_code in capabilities.get(EV_KEY) or (): input_config = InputConfig( type=EV_KEY, code=ev_code, origin_hash=device_hash ) context_dummy.add_handler( input_config, ForwardToUIHandler(self._results_pipe) ) for ev_code in capabilities.get(EV_ABS) or (): # positive direction input_config = InputConfig( type=EV_ABS, code=ev_code, analog_threshold=30, origin_hash=device_hash, ) mapping = Mapping( input_combination=InputCombination([input_config]), target_uinput="keyboard", output_symbol="KEY_A", ) handler: MappingHandler = AbsToBtnHandler( InputCombination([input_config]), mapping, self.global_uinputs, ) handler.set_sub_handler(ForwardToUIHandler(self._results_pipe)) context_dummy.add_handler(input_config, handler) # negative direction input_config = input_config.modify(analog_threshold=-30) mapping = Mapping( input_combination=InputCombination([input_config]), target_uinput="keyboard", output_symbol="KEY_A", ) handler = AbsToBtnHandler( InputCombination([input_config]), mapping, self.global_uinputs, ) handler.set_sub_handler(ForwardToUIHandler(self._results_pipe)) context_dummy.add_handler(input_config, handler) for ev_code in capabilities.get(EV_REL) or (): # positive direction input_config = InputConfig( type=EV_REL, code=ev_code, analog_threshold=self.rel_xy_speed[ev_code], origin_hash=device_hash, ) mapping = Mapping( input_combination=InputCombination([input_config]), target_uinput="keyboard", output_symbol="KEY_A", release_timeout=0.3, force_release_timeout=True, ) handler = RelToBtnHandler( InputCombination([input_config]), mapping, self.global_uinputs, ) handler.set_sub_handler(ForwardToUIHandler(self._results_pipe)) context_dummy.add_handler(input_config, handler) # negative direction input_config = input_config.modify( analog_threshold=-self.rel_xy_speed[ev_code] ) mapping = Mapping( input_combination=InputCombination([input_config]), target_uinput="keyboard", output_symbol="KEY_A", release_timeout=0.3, force_release_timeout=True, ) handler = RelToBtnHandler( InputCombination([input_config]), mapping, self.global_uinputs, ) handler.set_sub_handler(ForwardToUIHandler(self._results_pipe)) context_dummy.add_handler(input_config, handler) return context_dummy class ForwardDummy: @staticmethod def write(*_): pass class ContextDummy: """Used for the reader so that no events are actually written to any uinput.""" def __init__(self): self.listeners = set() self._notify_callbacks = defaultdict(list) self.forward_dummy = ForwardDummy() def add_handler(self, input_config: InputConfig, handler: InputEventHandler): self._notify_callbacks[input_config.input_match_hash].append(handler.notify) def get_notify_callbacks(self, input_event: InputEvent) -> List[NotifyCallback]: return self._notify_callbacks[input_event.input_match_hash] def reset(self): pass def get_forward_uinput(self, origin_hash) -> evdev.UInput: """Don't actually write anything.""" return self.forward_dummy class ForwardToUIHandler: """Implements the InputEventHandler protocol. Sends all events into the pipe.""" def __init__(self, pipe: Pipe): self.pipe = pipe self._last_event = InputEvent.from_tuple((99, 99, 99)) def notify( self, event: InputEvent, source: evdev.InputDevice, suppress: bool = False, ) -> bool: """Filter duplicates and send into the pipe.""" if event != self._last_event: self._last_event = event if EventActions.negative_trigger in event.actions: event = event.modify(value=-1) logger.debug("Sending to %s frontend", event) self.pipe.send( { "type": MSG_EVENT, "message": { "sec": event.sec, "usec": event.usec, "type": event.type, "code": event.code, "value": event.value, "origin_hash": event.origin_hash, }, } ) return True def reset(self): pass