Esempio n. 1
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    def do_control(self, control_order, para):
        result_object = dict(success=False, message='unknown error')
        logger.debug(json.dumps(para, sort_keys=True, indent=4))

        try:
            for parameter_name in para.keys():
                try:
                    para[parameter_name] = unquote_plus(
                        para[parameter_name][0])
                except KeyError:
                    para[parameter_name] = ''
                except IndexError:
                    para[parameter_name] = ''

            if control_order == "trigger_event":
                result_object['message'] = doorpi.DoorPi(
                ).event_handler.fire_event_synchron(**para)
                if result_object['message'] is True:
                    result_object['success'] = True
                    result_object['message'] = "fire Event was success"
                else:
                    result_object['success'] = False
            elif control_order == "config_value_get":
                # section, key, default, store
                result_object['success'] = True
                result_object['message'] = control_config_get_value(**para)
            elif control_order == "config_value_set":
                # section, key, value, password
                result_object['success'] = control_config_set_value(**para)
                result_object['message'] = "config_value_set %s" % (
                    'success' if result_object['success'] else 'failed')
            elif control_order == "config_value_delete":
                # section and key
                result_object['success'] = control_config_delete_key(**para)
                result_object['message'] = "config_value_delete %s" % (
                    'success' if result_object['success'] else 'failed')
            elif control_order == "config_save":
                # configfile
                result_object['success'] = control_config_save(**para)
                result_object['message'] = "config_save %s" % (
                    'success' if result_object['success'] else 'failed')
            elif control_order == "config_get_configfile":
                result_object['message'] = control_config_get_configfile()
                result_object['success'] = True if result_object[
                    'message'] != "" else False

        except Exception as exp:
            result_object['message'] = str(exp)

        return result_object
Esempio n. 2
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def write_statusfile(filename, filecontent):
    try:
        filename = doorpi.DoorPi().parse_string(filename)
        filecontent = doorpi.DoorPi().parse_string(filecontent)

        try:
            doorpi_status = DoorPiStatus(doorpi.DoorPi())
            doorpi_status_json_beautified = doorpi_status.json_beautified
            doorpi_status_json = doorpi_status.json

            filecontent = filecontent.replace(
                '!DOORPI_STATUS.json_beautified!',
                doorpi_status_json_beautified)
            filecontent = filecontent.replace('!DOORPI_STATUS.json!',
                                              doorpi_status_json)

        except:
            logger.exception("error while creating status")

    except:
        logger.warning(
            "while action statusfile - error to get DoorPi().parse_string")
        return False

    try:
        file = open(filename, 'w')
        try:
            file.write(filecontent)
            file.flush()
        finally:
            file.close()
    except IOError as e:
        logger.warning("while action statusfile - I/O error(%s): %s" %
                       (e.errno, e.strerror))
        return False

    return True
Esempio n. 3
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    def __init__(self, input_pins, output_pins, keyboard_name, conf_pre, conf_post, *args, **kwargs):
        self.keyboard_name = keyboard_name
        self._InputPins = map(int, input_pins)
        self._OutputPins = map(int, output_pins)
        self.last_key = ""
        self.last_key_time = 0
        self.__active = False
        self.__timeout = 0

        ## Spezielle Handler für (Un-)bekannte Finger registrieren
        doorpi.DoorPi().event_handler.register_event('OnFingerprintFoundUnknown', __name__)
        doorpi.DoorPi().event_handler.register_event('OnFingerprintFoundKnown', __name__)
        ## Config-Einträge lesen, falls dort vorhanden.
        section_name = conf_pre + 'keyboard' + conf_post
        self.__port = doorpi.DoorPi().config.get(section_name, 'port', "/dev/ttyAMA0")
        self.__baudrate = doorpi.DoorPi().config.get_int(section_name, 'baudrate', 57600)
        self.__sensoraddr = doorpi.DoorPi().config.get(section_name, 'address', 0xFFFFFFFF)
        self.__password = doorpi.DoorPi().config.get(section_name, 'password', 0x00000000)
        self.__security = doorpi.DoorPi().config.get_int(section_name, 'security', 70)
        self.__ontime = doorpi.DoorPi().config.get_int(section_name, 'ontime', False)

        ## Sensor initialisieren
        try:
            self.__sensor = PyFingerprint(self.__port, self.__baudrate, self.__sensoraddr, self.__password)
            if (self.__sensor.verifyPassword() == False):
                logger.warning('The given fingerprint sensor password is wrong!')

            logger.debug('Currently used templates: ' + str(self.__sensor.getTemplateCount()) + '/' + str(self.__sensor.getStorageCapacity()))

            ## Events für hinterlegte InputPins registrieren (damit diese auch ausgelöst werden)
            for input_pin in self._InputPins:
                self._register_EVENTS_for_pin(input_pin, __name__)

            ## Dauerbetrieb oder nur auf Kommando? (ontime ist null)
            if self.__ontime < 1:
                self.__active = True
                logger.debug('ontime =0 ! Running permanently')
                ## Thread für den eigtl Lesevorgang starten
                self._shutdown = False
                self._thread = threading.Thread(target = self.readFingerprint)
                self._thread.daemon = True
                self._thread.start()
                self.register_destroy_action()

        except Exception as ex:
                logger.exception(ex)
Esempio n. 4
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def get(parameters):
    conf = doorpi.DoorPi().config
    snapshot_size = conf.get_string(DOORPI_SECTION, 'snapshot_size',
                                    '1280x720')
    snapshot_path = conf.get_string_parsed(
        DOORPI_SECTION, 'snapshot_path', '!BASEPATH!/../DoorPiWeb/snapshots/')
    number_of_snapshots = conf.get_int(DOORPI_SECTION, 'number_of_snapshots',
                                       10)

    if len(conf.get(SIPPHONE_SECTION, 'capture_device', '')) > 0:
        return SnapShotAction(take_snapshot,
                              size=snapshot_size,
                              path=snapshot_path,
                              max=number_of_snapshots)
    logger.warning('can not create snapshot - video disabled')
Esempio n. 5
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    def set_output(self, pin, value, log_output=True):
        parsed_pin = doorpi.DoorPi().parse_string('!' + str(pin) + '!')
        if parsed_pin != ('!' + str(pin) + '!'):
            pin = parsed_pin

        if pin not in self._OutputPins:
            return False
        
        value = str(value).lower() in HIGH_LEVEL
        log_output = str(log_output).lower() in HIGH_LEVEL
        written_value = self.__write_file(os.path.join(self.__base_path_output, pin), value)
        if log_output:
            logger.debug('out(pin = %s, value = %s, log_output = %s)', pin, written_value, log_output)

        self._OutputStatus[pin] = value
        return True
Esempio n. 6
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def get(parameters):
    parameter_list = parameters.split(',')
    if len(parameter_list) > 3: return fallback_out_triggered(parameters)

    pin = parameter_list[0]
    value = parameter_list[1]

    if len(parameter_list) is 2:
        log_output = True
    else:
        log_output = parameter_list[2]

    return OutAction(doorpi.DoorPi().keyboard.set_output,
                     pin=pin,
                     value=value,
                     log_output=log_output)
Esempio n. 7
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def createSnapshot():
    snapshot_file = '/tmp/doorpi.jpg'
    size = doorpi.DoorPi().config.get_string('DoorPi', 'snapshot_size',
                                             '1280x720')
    command = "fswebcam --no-banner -r " + size + " " + snapshot_file
    try:
        retcode = subprocess.call(command, shell=True)
        if retcode != 0:
            logger.error('error creating snapshot')
        else:
            logger.info('snapshot created: %s', snapshot_file)
            return snapshot_file

    except OSError as e:
        logger.error('error creating snapshot')
    return ''
Esempio n. 8
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    def set_output(self, pin, value, log_output=True):
        parsed_pin = doorpi.DoorPi().parse_string("!" + str(pin) + "!")
        if parsed_pin != "!" + str(pin) + "!":
            pin = parsed_pin

        value = str(value).lower() in HIGH_LEVEL
        if self._polarity is 1: value = not value
        log_output = str(log_output).lower() in HIGH_LEVEL

        if pin not in self._OutputPins: return False
        if log_output:
            logger.debug("out(pin = %s, value = %s, log_output = %s)", pin,
                         value, log_output)

        self._OutputStatus[pin] = value
        return True
Esempio n. 9
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def get(parameters):
    parameter_list = parameters.split(',')
    # more than 3 parameters? 4. parameter should be timeout
    if len(parameter_list) > 3:
        return fallback_out_triggered(parameters)

    pin = parameter_list[0]
    value = parameter_list[1]

    # logging specified in action call?
    if len(parameter_list) is 2:
        log_output = True
    else:
        log_output = parameter_list[2]

    return OutAction(doorpi.DoorPi().keyboard.set_output, pin=pin, value=value, log_output=log_output)
Esempio n. 10
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    def prepare():
        doorpi.DoorPi().event_handler.register_event('OnWebServerRequest',
                                                     __name__)
        doorpi.DoorPi().event_handler.register_event('OnWebServerRequestGet',
                                                     __name__)
        doorpi.DoorPi().event_handler.register_event('OnWebServerRequestPost',
                                                     __name__)
        doorpi.DoorPi().event_handler.register_event(
            'OnWebServerVirtualResource', __name__)
        doorpi.DoorPi().event_handler.register_event('OnWebServerRealResource',
                                                     __name__)

        # for do_control
        doorpi.DoorPi().event_handler.register_event('OnFireEvent', __name__)
        doorpi.DoorPi().event_handler.register_event('OnConfigKeySet',
                                                     __name__)
        doorpi.DoorPi().event_handler.register_event('OnConfigKeyDelete',
                                                     __name__)
Esempio n. 11
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    def __init__(self, input_pins, output_pins, conf_pre, conf_post, keyboard_name, *args, **kwargs):
        logger.debug("FileSystem.__init__(input_pins = %s, output_pins = %s)", input_pins, output_pins)
        self.keyboard_name = keyboard_name
        self._InputPins = map(str, input_pins)
        self._OutputPins = map(str, output_pins)

        self._last_received_chars = ""
        self.last_key = ""

        for input_pin in self._InputPins:
            self._register_EVENTS_for_pin(input_pin, __name__)

        # use set_output to register status @ dict self.__OutputStatus
        for output_pin in self._OutputPins:
            self.set_output(output_pin, 0, False)

        # somit wirds aus der Config-Datei geladen, falls dort vorhanden.
        section_name = conf_pre+'keyboard'+conf_post

        port = CONFIG.get(section_name, 'port', "/dev/ttyUSB0")
        baudrate = CONFIG.get_int(section_name, 'baudrate', 9600)

        self._input_stop_flag = CONFIG.get(section_name, 'input_stop_flag', OS_LINESEP)
        self._input_max_size = CONFIG.get_int(section_name, 'input_max_size', 255)
        self._output_stop_flag = CONFIG.get(section_name, 'output_stop_flag', OS_LINESEP)

        self._ser = serial.Serial(port, baudrate)

        self._ser.timeout = 1             #block read, 0 for #non-block read, > 0 for timeout block read
        self._ser.close()
        #self._ser.bytesize = serial.EIGHTBITS       #number of bits per bytes
        #self._ser.parity = serial.PARITY_NONE       #set parity check: no parity
        #self._ser.stopbits = serial.STOPBITS_ONE    #number of stop bits
        #self._ser.xonxoff = False         #disable software flow control
        #self._ser.rtscts = False          #disable hardware (RTS/CTS) flow control
        #self._ser.dsrdtr = False          #disable hardware (DSR/DTR) flow control
        #self._ser.writeTimeout = 0        #timeout for write

        self._ser.open()

        self._shutdown = False
        self._thread = threading.Thread(target = self.read_usb_plain)
        self._thread.daemon = True
        self._thread.start()

        doorpi.DoorPi().event_handler.register_action('OnShutdown', self.destroy)
Esempio n. 12
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    def destroy(self):
        if self.is_destroyed:
            return
        logger.debug('destroy')

        # shutdown listener
        self.__listener.deactivate()

        # shutdown all output-pins
        for output_pin in self._OutputPins:
            self.set_output(output_pin, 0, False)

        # shutdown piface
        p.deinit()

        # unregister all event handler
        doorpi.DoorPi().event_handler.unregister_source(__name__, True)
        self.__destroyed = True
Esempio n. 13
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def ips_rpc_call_phonenumber_from_variable(key):
    try:
        if ips_rpc_check_variable_exists(key) is not True: raise Exception("var %s doesn't exist", key)
        type = ips_rpc_get_variable_type(key)
        if type is None: raise Exception("type of var %s couldn't find", key)
        # http://www.ip-symcon.de/service/dokumentation/befehlsreferenz/variablenverwaltung/ips-getvariable/
        # Variablentyp (0: Boolean, 1: Integer, 2: Float, 3: String)
        elif type is not 3: raise Exception("phonenumber from var %s is not a string", key)

        phonenumber = ips_rpc_get_variable_value(key)
        logger.debug("fire now sipphone.call for this number: %s", phonenumber)
        doorpi.DoorPi().sipphone.call(phonenumber)
        logger.debug("finished sipphone.call for this number: %s", phonenumber)

    except Exception as ex:
        logger.exception("couldn't get phonenumber from IpsRpc (%s)", ex)
        return False
    return True
Esempio n. 14
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 def pn532_recognized(self, tag):
     try:
         logger.debug("tag: %s", tag)
         hmm = str(tag)
         ID = str(hmm.split('ID=')[-1:])[2:-2]
         logger.debug("ID: %s", ID)
         if ID in self._InputPins:
             logger.debug("ID gefunden: %s", ID)
             self.last_key = ID
             self._fire_OnKeyDown(self.last_key, __name__)
             self._fire_OnKeyPressed(self.last_key, __name__)
             self._fire_OnKeyUp(self.last_key, __name__)
             doorpi.DoorPi().event_handler('OnFoundKnownTag', __name__)
             logger.debug("last_key is %s", self.last_key)
     except Exception as ex:
         logger.exception(ex)
     finally:
         logger.debug("pn532_recognized thread ended")
Esempio n. 15
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    def set_output(self, pin, value, log_output=True):
        parsed_pin = doorpi.DoorPi().parse_string('!' + str(pin) + '!')
        if parsed_pin != ('!' + str(pin) + '!'):
            pin = parsed_pin

        pin = int(pin)
        value = str(value).lower() in HIGH_LEVEL
        if self._polarity is 1:
            value = not value
        log_output = str(log_output).lower() in HIGH_LEVEL

        if pin not in self._OutputPins:
            return False
        if log_output:
            logger.debug('out(pin = %s, value = %s, log_output = %s)', pin,
                         value, log_output)

        p.digital_write(pin, value)
        self._OutputStatus[pin] = value
        return True
Esempio n. 16
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def ips_rpc_call_phonenumber_from_variable(key, config=None):
    try:
        if config is None:
            config = ips_rpc_create_config()
        if ips_rpc_check_variable_exists(key, config) is not True:
            raise Exception('no variable %s', key)
        type = ips_rpc_get_variable_type(key, config)
        if type is None:
            raise Exception('type of variable %s unknown', key)
        # variable types (0: boolean, 1: integer, 2: float, 3: string)
        elif type is not 3:
            raise Exception("type of variable %s is not a string", key)

        phonenumber = ips_rpc_get_variable_value(key, config)
        logger.debug('fire now sipphone.call for this number: %s', phonenumber)
        doorpi.DoorPi().sipphone.call(phonenumber)
        logger.debug('finished sipphone.call for this number: %s', phonenumber)
    except Exception as ex:
        logger.exception('couldn\'t get phonenumber from IpsRpc (%s)', ex)
        return False
    return True
Esempio n. 17
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    def __init__(self, input_pins, output_pins, keyboard_name, conf_pre,
                 conf_post, *args, **kwargs):
        self.keyboard_name = keyboard_name
        self._InputPins = map(int, input_pins)
        self._OutputPins = map(int, output_pins)
        self.last_key = ""
        self.last_key_time = 0
        self.__timeout = 0

        # Spezielle Handler fuer (Un-)bekannte Finger registrieren
        doorpi.DoorPi().event_handler.register_event(
            'OnFingerprintFoundUnknown', __name__)
        doorpi.DoorPi().event_handler.register_event('OnFingerprintFoundKnown',
                                                     __name__)
        # Config-Eintraege lesen, falls dort vorhanden.
        section_name = conf_pre + 'keyboard' + conf_post
        self.__port = doorpi.DoorPi().config.get(section_name, 'port',
                                                 '/dev/ttyAMA0')
        self.__baudrate = doorpi.DoorPi().config.get_int(
            section_name, 'baudrate', 57600)
        self.__sensoraddr = doorpi.DoorPi().config.get(section_name, 'address',
                                                       0xFFFFFFFF)
        self.__password = doorpi.DoorPi().config.get(section_name, 'password',
                                                     0x00000000)
        self.__security = doorpi.DoorPi().config.get_int(
            section_name, 'security', 70)

        # Events für hinterlegte InputPins registrieren (damit diese auch ausgeloest werden)
        for input_pin in self._InputPins:
            self._register_EVENTS_for_pin(input_pin, __name__)

        # Dauerbetrieb oder nur auf Kommando? (Trigger-Pin definiert?)
        self.__active = (len(self._OutputPins) == 0)
        self._shutdown = False

        if self.__active:
            logger.debug('No trigger pin defined! Running permanently')
            # Thread für den eigtl Lesevorgang starten
            self._thread = threading.Thread(target=self.readFingerprint)
            self._thread.daemon = True
            self._thread.start()
            self.register_destroy_action()
Esempio n. 18
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    def __init__(self, input_pins, output_pins, keyboard_name, conf_pre,
                 conf_post, *args, **kwargs):
        self.keyboard_name = keyboard_name
        self.last_key = ""
        self.last_key_time = 0
        # auslesen aus ini:
        section_name = conf_pre + 'keyboard' + conf_post
        self._device = doorpi.DoorPi().config.get_string_parsed(
            section_name, 'device', 'tty:AMA0:pn532')
        self._InputPins = map(str.upper, input_pins)
        self._InputPairs = {}
        self.__clf = nfc.ContactlessFrontend(self._device)  #init nfc-reader
        for input_pin in self._InputPins:
            self._register_EVENTS_for_pin(input_pin, __name__)
            logger.debug("__init__ (input_pin = %s)", input_pin)

        #doorpi.DoorPi().event_handler.register_event('OnFoundKnownTag', __name__)
        self._shutdown = False
        self._thread = threading.Thread(target=self.pn532_read)
        self._thread.daemon = True
        self._thread.start()
        self.register_destroy_action()
Esempio n. 19
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 def pn532_recognized(self, tag):
     try:
         if self.in_bouncetime:
             logger.debug('founded tag while bouncetime -> skip')
             return
         self.last_key_time = self.current_millisecond_timestamp
         logger.debug("tag: %s", tag)
         hmm = str(tag)
         ID = str(hmm.split('ID=')[-1:])[2:-2]
         logger.debug("ID: %s", ID)
         if ID in self._InputPins:
             logger.debug("ID gefunden: %s", ID)
             self.last_key = ID
             self._fire_OnKeyDown(self.last_key, __name__)
             self._fire_OnKeyPressed(self.last_key, __name__)
             self._fire_OnKeyUp(self.last_key, __name__)
             doorpi.DoorPi().event_handler('OnFoundKnownTag', __name__)
             logger.debug("last_key is %s", self.last_key)
     except Exception as ex:
         logger.exception(ex)
     finally:
         logger.debug("pn532_recognized thread ended")
Esempio n. 20
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    def start(self):
        if self.__player_id is not None:
            logger.trace(
                'player already created as player_id %s and playing %s',
                self.__player_id, self.player_filename)
            return

        doorpi.DoorPi().sipphone.lib.thread_register(
            'PjsuaPlayer_start_thread')

        self.__player_filename = doorpi.DoorPi().parse_string(
            self.__player_filename)
        logger.debug('starting player from %s', self.__player_filename)
        self.__player_id = doorpi.DoorPi().sipphone.lib.create_player(
            self.__player_filename, True)
        doorpi.DoorPi().sipphone.lib.player_set_pos(self.__player_id, 0)
        self.__slot_id = doorpi.DoorPi().sipphone.lib.player_get_slot(
            self.__player_id)
        doorpi.DoorPi().sipphone.lib.conf_connect(self.__slot_id, 0)
        doorpi.DoorPi().event_handler('OnPlayerStarted', __name__)
Esempio n. 21
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    def pn532_recognized(self, tag):
        try:
            if self.in_bouncetime:
                logger.debug('found tag while bouncetime -> skip')
                return

            hmm = str(tag)
            id = str(hmm.split('ID=')[-1:])[2:-2]
            logger.debug('Tag: %s ID: %s', tag, id)

            if id in self._InputPins:
                logger.debug('ID %s is registered', id)
                self.last_key = id
                self.last_key_time = time.time()
                self._fire_OnKeyDown(self.last_key, __name__)
                self._fire_OnKeyPressed(self.last_key, __name__)
                self._fire_OnKeyUp(self.last_key, __name__)
                doorpi.DoorPi().event_handler('OnFoundKnownTag', __name__)
        except Exception as ex:
            logger.exception(ex)
        finally:
            logger.debug('pn532_recognized thread ended')
Esempio n. 22
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    def save_config(self, configfile=''):
        if not configfile: configfile = self.config_file
        if not configfile: configfile = self.find_config(configfile)
        if not configfile:
            configfile = doorpi.DoorPi().parse_string(
                '!BASEPATH!/conf/doorpi.ini')

        #if not configfile: return False
        logger.debug("write configfile: %s", configfile)
        try:
            cfgfile = open(configfile, 'w')
            config = ConfigParser.ConfigParser(allow_no_value=True)
            for section in sorted(self.__sections.keys()):
                config.add_section(section)
                for key in sorted(self.__sections[section].keys()):
                    config.set(section, key, self.__sections[section][key])
            config.write(cfgfile)
            cfgfile.close()
            logger.info("write configfile was success: %s", configfile)
            return True
        except Exception as exp:
            logger.exception(exp)
            return False
Esempio n. 23
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def load_sipphone():
    conf_pre = ''
    conf_post = ''

    sipphone_name = doorpi.DoorPi().config.get('SIP-Phone', 'sipphonetyp',
                                               find_first_installed_sipphone())

    try:
        sipphone = importlib.import_module('doorpi.sipphone.from_' +
                                           sipphone_name).get(
                                               sipphone_name=sipphone_name,
                                               conf_pre=conf_pre,
                                               conf_post=conf_post)
    except ImportError as exp:
        logger.exception(
            'sipphone %s not found @ sipphone.from_%s with exception %s',
            sipphone_name, sipphone_name, exp)
        logger.warning('use dummy sipphone after last exception!')
        sipphone = importlib.import_module('doorpi.sipphone.from_dummy').get(
            sipphone_name=sipphone_name,
            conf_pre=conf_pre,
            conf_post=conf_post)

    return sipphone
Esempio n. 24
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def load_single_keyboard(keyboard_name):
    conf_pre = keyboard_name + '_'
    conf_post = ''

    keyboard_type = doorpi.DoorPi().config.get('keyboards', keyboard_name,
                                               'dummy').lower()
    store_if_not_exists = False if keyboard_type == "dummy" else True

    section_name = conf_pre + 'keyboard' + conf_post
    input_pins = doorpi.DoorPi().config.get_keys(conf_pre + 'InputPins' +
                                                 conf_post)
    output_pins = doorpi.DoorPi().config.get_keys(conf_pre + 'OutputPins' +
                                                  conf_post)
    bouncetime = doorpi.DoorPi().config.get_float(
        section_name,
        'bouncetime',
        2000,
        store_if_not_exists=store_if_not_exists)
    polarity = doorpi.DoorPi().config.get_int(
        section_name, 'polarity', 0, store_if_not_exists=store_if_not_exists)
    pressed_on_key_down = doorpi.DoorPi().config.get_bool(
        section_name,
        'pressed_on_keydown',
        True,
        store_if_not_exists=store_if_not_exists)
    try:
        keyboard = importlib.import_module(
            'doorpi.keyboard.from_' + keyboard_type).get(
                input_pins=input_pins,
                output_pins=output_pins,
                bouncetime=bouncetime,
                polarity=polarity,
                keyboard_name=keyboard_name,
                keyboard_type=keyboard_type,
                conf_pre=conf_pre,
                conf_post=conf_post,
                pressed_on_key_down=pressed_on_key_down)
    except ImportError as exp:
        logger.exception('keyboard %s not found @ keyboard.from_%s (msg: %s)',
                         keyboard_name, keyboard_type, exp)
        return None

    return keyboard
Esempio n. 25
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def hangup(waittime):
    if waittime > 0:
        logger.debug('Waiting %s seconds before sending hangup request',
                     waittime)
        sleep(float(waittime))
    return doorpi.DoorPi().sipphone.hangup()
Esempio n. 26
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 def destroy(self):
     if self.is_destroyed: return
     logger.debug("destroy")
     self._shutdown = True
     doorpi.DoorPi().event_handler.unregister_source(__name__, True)
     self.__destroyed = True
Esempio n. 27
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    def __init__(self,
                 input_pins,
                 output_pins,
                 conf_pre,
                 conf_post,
                 keyboard_name,
                 bouncetime=200,
                 polarity=0,
                 pressed_on_key_down=True,
                 *args,
                 **kwargs):
        logger.debug(
            "__init__(input_pins = %s, output_pins = %s, bouncetime = %s, polarity = %s)",
            input_pins, output_pins, bouncetime, polarity)
        self.keyboard_name = keyboard_name
        self._polarity = polarity
        self._InputPins = list(map(int, input_pins))
        self._OutputPins = list(map(int, output_pins))
        self._pressed_on_key_down = pressed_on_key_down

        RPiGPIO.setwarnings(False)

        section_name = conf_pre + 'keyboard' + conf_post
        if doorpi.DoorPi().config.get(section_name, 'mode',
                                      "BOARD").upper() == "BOARD":
            RPiGPIO.setmode(RPiGPIO.BOARD)
        else:
            RPiGPIO.setmode(RPiGPIO.BCM)

        # issue 134
        pull_up_down = doorpi.DoorPi().config.get(section_name, 'pull_up_down',
                                                  "PUD_OFF").upper()
        if pull_up_down == "PUD_DOWN":
            pull_up_down = RPiGPIO.PUD_DOWN
        elif pull_up_down == "PUD_UP":
            pull_up_down = RPiGPIO.PUD_UP
        else:
            pull_up_down = RPiGPIO.PUD_OFF

        # issue #133
        try:
            RPiGPIO.setup(self._InputPins,
                          RPiGPIO.IN,
                          pull_up_down=pull_up_down)
        except TypeError:
            logger.warning(
                'you use an old version of GPIO library - fallback to single-register of input pins'
            )
            for input_pin in self._InputPins:
                RPiGPIO.setup(input_pin, RPiGPIO.IN, pull_up_down=pull_up_down)

        for input_pin in self._InputPins:
            RPiGPIO.add_event_detect(input_pin,
                                     RPiGPIO.BOTH,
                                     callback=self.event_detect,
                                     bouncetime=int(bouncetime))
            self._register_EVENTS_for_pin(input_pin, __name__)

        # issue #133
        try:
            RPiGPIO.setup(self._OutputPins, RPiGPIO.OUT)
        except TypeError:
            logger.warning(
                'you use an old version of GPIO library - fallback to single-register of input pins'
            )
            for output_pin in self._OutputPins:
                RPiGPIO.setup(output_pin, RPiGPIO.OUT)

        # use set_output to register status @ dict self._OutputStatus
        for output_pin in self._OutputPins:
            self.set_output(output_pin, 0, False)

        self.register_destroy_action()
Esempio n. 28
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def time_tick(last_tick):
    global last_time_tick_second
    timestamp_now = time.time()
    timestamp_past = last_time_tick_second

    datetime_now = datetime.datetime.fromtimestamp(timestamp_now)
    datetime_past = datetime.datetime.fromtimestamp(timestamp_past)

    if datetime_now.year != datetime_past.year:
        doorpi.DoorPi().event_handler('OnTimeYear', __name__)
        if datetime_now.year % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeYearEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeYearUnevenNumber', __name__)

    if datetime_now.month != datetime_past.month:
        doorpi.DoorPi().event_handler('OnTimeMonth', __name__)
        if datetime_now.month % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeMonthEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeMonthUnevenNumber', __name__)

    if datetime_now.day != datetime_past.day:
        doorpi.DoorPi().event_handler('OnTimeDay', __name__)
        if datetime_now.day % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeDayEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeDayUnevenNumber', __name__)

    if datetime_now.hour != datetime_past.hour:
        doorpi.DoorPi().event_handler('OnTimeHour', __name__)
        if datetime_now.hour % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeHourEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeHourUnevenNumber', __name__)

        for hour in HOUR_RANGE:
            if hour is datetime_now.hour:
                doorpi.DoorPi().event_handler(('OnTimeHour{0}').format(hour),
                                              __name__)

    if datetime_now.minute != datetime_past.minute:
        doorpi.DoorPi().event_handler('OnTimeMinute', __name__)
        if datetime_now.minute % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeMinuteEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeMinuteUnevenNumber', __name__)

        for minute in MINUTE_RANGE:
            if minute is datetime_now.minute:
                doorpi.DoorPi().event_handler(
                    ('OnTimeMinute{0}').format(minute), __name__)

        if datetime_now.minute % 5 is 0:
            doorpi.DoorPi().event_handler('OnTimeMinuteEvery5', __name__)

    if datetime_now.second != datetime_past.second:
        doorpi.DoorPi().event_handler('OnTimeSecond', __name__)
        if datetime_now.second % 2 is 0:
            doorpi.DoorPi().event_handler('OnTimeSecondEvenNumber', __name__)
        else:
            doorpi.DoorPi().event_handler('OnTimeSecondUnevenNumber', __name__)

    last_time_tick_second = timestamp_now
    return True
Esempio n. 29
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def destroy_time_tick():
    doorpi.DoorPi().event_handler.unregister_source(__name__, True)
Esempio n. 30
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 def config(self):
     return doorpi.DoorPi().config