''' Classes that listen for user input ''' import logging, os, sys, stat from exceptionThreading import ExceptionThread from evdev import InputDevice, ecodes from select import select from auxilary import CountdownTimer, waitForPath import stateMachine logger = logging.getLogger(__name__) class KeypadListener(): ''' Interface for standard numpad device. Capabilities include: - accepting numeric input - volume control - arm/disarm the stateMachine This launches two daemon threads: - input listener that accepts events and reacts in fun ways - countdown timer to reset the input buffer after 30 seconds of inactivity ''' def __init__(self, stateMachine, callbackDisarm, callbackArm, soundLib, passwd): ctrlKeys = { 69: 'NUML', 98: '/', 14: 'BS', 96: 'ENTER'} volKeys = { 55: '*', 74: '-', 78: '+'} numKeys = { 71: '7', 72: '8', 73: '9', 75: '4', 76: '5', 77: '6', 79: '1', 80: '2', 81: '3', 82: '0', 83: '.' } devPath = '/dev/input/by-id/usb-04d9_1203-event-kbd' waitForPath(devPath, logger) self._dev = InputDevice(devPath) self._dev.grab() numKeySound = soundLib.soundEffects['numKey'] ctrlKeySound = soundLib.soundEffects['ctrlKey'] wrongPassSound = soundLib.soundEffects['wrongPass'] backspaceSound = soundLib.soundEffects['backspace'] self._clearBuffer() def getInput(): while 1: r, w, x = select([self._dev], [], []) for event in self._dev.read(): if event.type == 1 and event.value == 1: # numeral input if event.code in numKeys: if stateMachine.currentState != stateMachine.states.disarmed: self._buf = self._buf + numKeys[event.code] self._startResetCountdown() numKeySound.play() # ctrl input elif event.code in ctrlKeys: val = ctrlKeys[event.code] # disarm if correct passwd if val=='ENTER': if stateMachine.currentState == stateMachine.states.disarmed: ctrlKeySound.play() else: if self._buf == '': ctrlKeySound.play() elif self._buf == passwd: callbackDisarm() else: self.resetBuffer() wrongPassSound.play() # arm elif val == 'NUML': callbackArm() ctrlKeySound.play() # delete last char in buffer elif val == 'BS': self._buf = self._buf[:-1] if self._buf == '': self._stopResetCountdown() backspaceSound.play() # reset buffer elif val == '/': self.resetBuffer() backspaceSound.play() # volume input elif event.code in volKeys: val = volKeys[event.code] if val == '+': soundLib.changeVolume(10) elif val == '-': soundLib.changeVolume(-10) elif val == '*': soundLib.mute() ctrlKeySound.play() self._dev.set_led(ecodes.LED_NUML, 0 if soundLib.volume > 0 else 1) self._resetCountdown = None self._listener = ExceptionThread(target=getInput, daemon=True) self._listener.start() logger.debug('Started keypad device') def _startResetCountdown(self): self._resetCountdown = CountdownTimer(30, self._clearBuffer) def _stopResetCountdown(self): if self._resetCountdown is not None and self._resetCountdown.is_alive(): self._resetCountdown.stop() self._resetCountdown = None def resetBuffer(self): self._stopResetCountdown self._clearBuffer() def _clearBuffer(self): self._buf = '' def __del__(self): try: self._dev.ungrab() logger.debug('Released keypad device') except IOError: logger.error('Failed to release keypad device') except AttributeError: pass class PipeListener(ExceptionThread): ''' Creates a pipe in the /tmp directory and listens for input. Primarily meant as a receiver for ssh sessions to echo messages to the stateMachine (aka secrets) that trigger a signal ''' def __init__(self, callback, name): self._path = os.path.join('/tmp', name) pipeMode = 0o0777 if not os.path.exists(self._path): os.mkfifo(self._path, mode=pipeMode) else: st_mode = os.stat(self._path).st_mode if not stat.S_ISFIFO(st_mode): os.remove(self._path) os.mkfifo(self._path, mode=pipeMode) elif st_mode % 0o10000 != pipeMode: os.chmod(self._path, pipeMode) def listen(): while 1: with open(self._path, 'r') as f: msg = f.readline()[:-1] callback(msg, logger) super().__init__(target=listen, daemon=True) self.start() logger.debug('Started pipe listener at path %s', self._path) def __del__(self): try: os.remove(self._path) except FileNotFoundError: pass logger.debug('Cleaned up pipe listener at path %s', self._path)