Exemple #1
0
def get_report(index):
    result = None

    if index == 0:
        if lcd_options['d_system_name']:
            result = ASCI_convert(_('System:'))
        else:
            result = None
    elif index == 1:
        if lcd_options['d_system_name']:
            result = ASCI_convert(options.name)
        else:
            result = None
    elif index == 2:
        if lcd_options['d_sw_version_date']:
            result = ASCI_convert(_('SW Version:'))
        else:
            result = None
    elif index == 3:
        if lcd_options['d_sw_version_date']:
            result = ASCI_convert('{} {}'.format(version.ver_str,
                                                 version.ver_date))
        else:
            result = None
    elif index == 4:
        if lcd_options['d_ip']:
            result = ASCI_convert(_('My IP is:'))
        else:
            result = None
    elif index == 5:
        if lcd_options['d_ip']:
            if options.use_ssl:
                result = ASCI_convert(
                    ('https://{}:{}').format(helpers.get_ip(),
                                             options.web_port))
            else:
                result = ASCI_convert(
                    ('http://{}:{}').format(helpers.get_ip(),
                                            options.web_port))
        else:
            result = None
    elif index == 6:
        if lcd_options['d_port']:
            result = ASCI_convert(_('My Port is:'))
        else:
            result = None
    elif index == 7:
        if lcd_options['d_port']:
            result = ASCI_convert('{}'.format(options.web_port))
        else:
            result = None
    elif index == 8:
        if lcd_options['d_cpu_temp']:
            result = ASCI_convert(_('CPU Temperature:'))
        else:
            result = None
    elif index == 9:
        if lcd_options['d_cpu_temp']:
            result = ASCI_convert('{} {}'.format(
                helpers.get_cpu_temp(options.temp_unit), options.temp_unit))
        else:
            result = None
    elif index == 10:
        if lcd_options['d_time_date']:
            result = ASCI_convert(
                _('Date:') + ' {}'.format(datetime.now().strftime('%d.%m.%Y')))
        else:
            result = None
    elif index == 11:
        if lcd_options['d_time_date']:
            result = ASCI_convert(
                _('Time:') + ' {}'.format(datetime.now().strftime('%H:%M:%S')))
        else:
            result = None
    elif index == 12:
        if lcd_options['d_uptime']:
            result = ASCI_convert(_('System Uptime:'))
        else:
            result = None
    elif index == 13:
        if lcd_options['d_uptime']:
            result = ASCI_convert(helpers.uptime())
        else:
            result = None
    elif index == 14:
        if lcd_options['d_rain_sensor']:
            result = ASCI_convert(_('Rain Sensor:'))
        else:
            result = None
    elif index == 15:
        if lcd_options['d_rain_sensor']:
            if inputs.rain_sensed():
                result = ASCI_convert(_('Active'))
            else:
                result = ASCI_convert(_('Inactive'))
        else:
            result = None
    elif index == 16:
        if lcd_options['d_last_run']:
            result = ASCI_convert(_('Last Program:'))
        else:
            result = None
    elif index == 17:
        if lcd_options['d_last_run']:
            finished = [
                run for run in log.finished_runs() if not run['blocked']
            ]
            if finished:
                str_fin = '{}{}'.format(
                    finished[-1]['program_name'],
                    finished[-1]['start'].strftime(' %d.%m.%Y %H:%M:%S'))
                result = ASCI_convert(str_fin)
            else:
                result = ASCI_convert(_('None'))
        else:
            result = None
    elif index == 18:
        if lcd_options['d_pressure_sensor']:
            result = ASCI_convert(_('Pressure Sensor:'))
        else:
            result = None
    elif index == 19:
        if lcd_options['d_pressure_sensor']:
            try:
                from plugins import pressure_monitor
                state_press = pressure_monitor.get_check_pressure()
                if state_press:
                    result = ASCI_convert(_('Inactive'))
                else:
                    result = ASCI_convert(_('Active'))
            except Exception:
                result = ASCI_convert(_('Not Available'))
        else:
            result = None
    elif index == 20:
        if lcd_options['d_water_tank_level']:
            result = ASCI_convert(_('Water Tank Level:'))
        else:
            result = None
    elif index == 21:
        if lcd_options['d_water_tank_level']:
            try:
                from plugins import tank_monitor
                cm = tank_monitor.get_all_values()[0]
                percent = tank_monitor.get_all_values()[1]
                ping = tank_monitor.get_all_values()[2]
                volume = tank_monitor.get_all_values()[3]
                units = tank_monitor.get_all_values()[4]
            except Exception:
                cm = -1
                percent = 0
                ping = -1
                volume = 0
                units = -1

            if cm > 0 and units != -1:
                result = ASCI_convert(
                    _('Level') + ' {}'.format(cm) + _('cm') +
                    ' {}'.format(percent) + _('%') + ' {}'.format(int(volume)))
                if units:
                    result += ASCI_convert(_('liter'))
                else:
                    result += ASCI_convert(_('m3'))
            elif units == -1:
                result = ASCI_convert(_('Not Available'))
            else:
                result = ASCI_convert(_('Error - I2C Device Not Found!'))
        else:
            result = None
    elif index == 22:
        if lcd_options['d_temperature']:
            result = ASCI_convert(_('DS Temperature:'))
        else:
            result = None
    elif index == 23:
        if lcd_options['d_temperature']:
            try:
                from plugins import air_temp_humi
                air_options = air_temp_humi.plugin_options
                if air_options['ds_enabled']:
                    air_result = ''
                    for i in range(0, air_options['ds_used']):
                        air_result += '{}:{} '.format(
                            air_options['label_ds%d' % i],
                            air_temp_humi.DS18B20_read_probe(i))
                    result = ASCI_convert(air_result)
                else:
                    result = ASCI_convert(_('DS temperature not use'))
            except Exception:
                result = ASCI_convert(_('Not Available'))
        else:
            result = None
    elif index == 24:
        if lcd_options['d_running_stations']:
            result = ASCI_convert(_('Station running:'))
        else:
            result = None
    elif index == 25:
        if lcd_options['d_running_stations']:
            if get_active_state() == False:
                result = ASCI_convert(_('Nothing running'))
            else:
                result = ASCI_convert(get_active_state())
        else:
            result = None
    elif index == 26:
        if lcd_options['d_sched_manu']:
            result = ASCI_convert(_('Control:'))
        else:
            result = None
    elif index == 27:
        if lcd_options['d_sched_manu']:
            if options.manual_mode:
                result = ASCI_convert(_('Manual mode'))
            else:
                result = ASCI_convert(_('Scheduler'))
        else:
            result = None
    elif index == 28:
        if lcd_options['d_syst_enabl']:
            result = ASCI_convert(_('Scheduler:'))
        else:
            result = None
    elif index == 29:
        if lcd_options['d_syst_enabl']:
            if options.scheduler_enabled:
                result = ASCI_convert(_('Enabled'))
            else:
                result = ASCI_convert(_('Disabled'))
        else:
            result = None
    ### OSPy sensors ###
    elif index == 30:
        if lcd_options['d_sensors']:
            result = ASCI_convert(_('Sensors:'))
        else:
            result = None
    elif index == 31:
        if lcd_options['d_sensors']:
            try:
                if sensors.count() > 0:
                    sensor_result = ''
                    for sensor in sensors.get():
                        if sensor.enabled:
                            if sensor.response == 1:
                                sensor_result += sensor.name + ': '
                                if sensor.sens_type == 1:  # dry contact
                                    if sensor.last_read_value[4] == 1:
                                        sensor_result += _('Contact Closed')
                                    elif sensor.last_read_value[4] == 0:
                                        sensor_result += _('Contact Open')
                                    else:
                                        sensor_result += _('Probe Error')
                                if sensor.sens_type == 2:  # leak detector
                                    if sensor.last_read_value[5] != -127:
                                        sensor_result += '{}'.format(
                                            sensor.last_read_value[5]
                                        ) + ' ' + _('l/s')
                                    else:
                                        sensor_result += _('Probe Error')
                                if sensor.sens_type == 3:  # moisture
                                    if sensor.last_read_value[6] != -127:
                                        sensor_result += '{}'.format(
                                            sensor.last_read_value[6]) + _('%')
                                    else:
                                        sensor_result += _('Probe Error')
                                if sensor.sens_type == 4:  # motion
                                    if sensor.last_read_value[7] != -127:
                                        sensor_result += _(
                                            'Motion Detected') if int(
                                                sensor.last_read_value[7]
                                            ) == 1 else _('No Motion')
                                    else:
                                        sensor_result += _('Probe Error')
                                if sensor.sens_type == 5:  # temperature
                                    if sensor.last_read_value[0] != -127:
                                        sensor_result += '{}'.format(
                                            sensor.last_read_value[0])
                                    else:
                                        sensor_result += _('Probe Error')
                                if sensor.sens_type == 6:  # multi sensor
                                    if sensor.multi_type >= 0 and sensor.multi_type < 4:  # multi temperature DS1-DS4
                                        if sensor.last_read_value[
                                                sensor.multi_type] != -127:
                                            sensor_result += '{}'.format(
                                                sensor.last_read_value[
                                                    sensor.multi_type])
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 4:  #  multi dry contact
                                        if sensor.last_read_value[4] != -127:
                                            sensor_result += _(
                                                'Contact Closed') if int(
                                                    sensor.last_read_value[4]
                                                ) == 1 else _('Contact Open')
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 5:  #  multi leak detector
                                        if sensor.last_read_value[5] != -127:
                                            sensor_result += '{}'.format(
                                                sensor.last_read_value[5]
                                            ) + ' ' + _('l/s')
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 6:  #  multi moisture
                                        if sensor.last_read_value[6] != -127:
                                            sensor_result += '{}'.format(
                                                sensor.last_read_value[6]
                                            ) + ' ' + _('%')
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 7:  #  multi motion
                                        if sensor.last_read_value[7] != -127:
                                            sensor_result += _(
                                                'Motion Detected') if int(
                                                    sensor.last_read_value[7]
                                                ) == 1 else _('No Motion')
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 8:  #  multi ultrasonic
                                        if sensor.last_read_value[8] != -127:
                                            get_level = get_tank_cm(
                                                sensor.last_read_value[8],
                                                sensor.distance_bottom,
                                                sensor.distance_top)
                                            get_perc = get_percent(
                                                get_level,
                                                sensor.distance_bottom,
                                                sensor.distance_top)
                                            sensor_result += '{}'.format(
                                                get_level) + ' ' + _(
                                                    'cm') + ' (' + '{}'.format(
                                                        get_perc) + ' %)'
                                        else:
                                            sensor_result += _('Probe Error')
                                    if sensor.multi_type == 9:  #  multi soil moisture
                                        err_check = 0
                                        calculate_soil = [0.0] * 16
                                        state = [-127] * 16
                                        for i in range(0, 16):
                                            if type(sensor.
                                                    soil_last_read_value[i]
                                                    ) == float:
                                                state[
                                                    i] = sensor.soil_last_read_value[
                                                        i]
                                                ### voltage from probe to humidity 0-100% with calibration range (for footer info)
                                                if sensor.soil_invert_probe_in[
                                                        i]:  # probe: rotated state 0V=100%, 3V=0% humidity
                                                    calculate_soil[i] = maping(
                                                        state[i],
                                                        float(
                                                            sensor.
                                                            soil_calibration_max[
                                                                i]),
                                                        float(
                                                            sensor.
                                                            soil_calibration_min[
                                                                i]), 0.0,
                                                        100.0)
                                                    calculate_soil[i] = round(
                                                        calculate_soil[i], 1
                                                    )  # round to one decimal point
                                                    calculate_soil[
                                                        i] = 100.0 - calculate_soil[
                                                            i]  # ex: 90% - 90% = 10%, 10% is output in invert probe mode
                                                else:  # probe: normal state 0V=0%, 3V=100%
                                                    calculate_soil[i] = maping(
                                                        state[i],
                                                        float(
                                                            sensor.
                                                            soil_calibration_min[
                                                                i]),
                                                        float(
                                                            sensor.
                                                            soil_calibration_max[
                                                                i]), 0.0,
                                                        100.0)
                                                    calculate_soil[i] = round(
                                                        calculate_soil[i], 1
                                                    )  # round to one decimal point
                                                if state[i] > 0.1:
                                                    if sensor.soil_show_in_footer[
                                                            i]:
                                                        sensor_result += '{} {}% ({}V) '.format(
                                                            sensor.
                                                            soil_probe_label[
                                                                i],
                                                            round(
                                                                calculate_soil[
                                                                    i], 2),
                                                            round(state[i], 2))
                                            else:
                                                err_check += 1
                                        if err_check > 15:
                                            sensor_result += _('Probe Error')
                            else:
                                sensor_result += sensor.name + ': ' + _(
                                    'No response!')
                        else:
                            sensor_result += sensor.name + ': ' + _('Disabled')
                        if sensors.count() > 1:
                            sensor_result += ', '
                    result = ASCI_convert(sensor_result)
                else:
                    result = ASCI_convert(_('No sensors available'))
            except Exception:
                result = ASCI_convert(_('Not Available'))
        else:
            result = None

    return result
Exemple #2
0
    def run(self):
        temperature_ds = [-127, -127, -127, -127, -127, -127]
        msg_a_on = True
        msg_a_off = True
        last_text = ''

        send = False

        temp_sw = None

        if plugin_options['use_footer']:
            temp_sw = showInFooter(
            )  #  instantiate class to enable data in footer
            temp_sw.button = "pool_heating/settings"  # button redirect on footer
            temp_sw.label = _('Pool Heating')  # label on footer

        ds_a_on = -127.0
        ds_a_off = -127.0

        millis = 0  # timer for clearing status on the web pages after 5 sec
        last_millis = int(round(time.time() * 1000))

        safety_start = datetime.datetime.now()
        safety_end = datetime.datetime.now() + datetime.timedelta(
            minutes=plugin_options['safety_mm'])

        a_state = -3  # for state in footer "Waiting."
        regulation_text = _(u'Waiting to turned on or off.')

        if not plugin_options['enabled_a']:
            a_state = -1  # for state in footer "Waiting (not enabled regulation in options)."

        log.info(NAME, datetime_string() + ' ' + _('Waiting.'))
        end = datetime.datetime.now()

        while not self._stop_event.is_set():
            try:
                if plugin_options[
                        "sensor_probe"] == 2:  # loading probe name from plugin air_temp_humi
                    try:
                        from plugins.air_temp_humi import plugin_options as air_temp_data
                        self.status['ds_name_0'] = air_temp_data['label_ds0']
                        self.status['ds_name_1'] = air_temp_data['label_ds1']
                        self.status['ds_name_2'] = air_temp_data['label_ds2']
                        self.status['ds_name_3'] = air_temp_data['label_ds3']
                        self.status['ds_name_4'] = air_temp_data['label_ds4']
                        self.status['ds_name_5'] = air_temp_data['label_ds5']
                        self.status['ds_count'] = air_temp_data['ds_used']

                        from plugins.air_temp_humi import DS18B20_read_probe  # value with temperature from probe DS1-DS6
                        temperature_ds = [
                            DS18B20_read_probe(0),
                            DS18B20_read_probe(1),
                            DS18B20_read_probe(2),
                            DS18B20_read_probe(3),
                            DS18B20_read_probe(4),
                            DS18B20_read_probe(5)
                        ]

                    except:
                        log.error(
                            NAME,
                            _('Unable to load settings from Air Temperature and Humidity Monitor plugin! Is the plugin Air Temperature and Humidity Monitor installed and set up?'
                              ))
                        pass

                # regulation
                if plugin_options['enabled_a'] and plugin_options[
                        "sensor_probe"] != 0:  # enabled regulation and selected input for probes sensor/airtemp plugin
                    if plugin_options["sensor_probe"] == 1 and sensors.count(
                    ) > 0:
                        sensor_on = sensors.get(
                            int(plugin_options['probe_A_on_sens']))  #  pool
                        if sensor_on.sens_type == 5:  # temperature sensor
                            ds_a_on = self._try_read(sensor_on.last_read_value)
                        elif sensor_on.sens_type == 6 and sensor_on.multi_type == 0:  # multitemperature sensor DS1
                            ds_a_on = self._try_read(
                                sensor_on.last_read_value[0])
                        elif sensor_on.sens_type == 6 and sensor_on.multi_type == 1:  # multitemperature sensor DS2
                            ds_a_on = self._try_read(
                                sensor_on.last_read_value[1])
                        elif sensor_on.sens_type == 6 and sensor_on.multi_type == 2:  # multitemperature sensor DS3
                            ds_a_on = self._try_read(
                                sensor_on.last_read_value[2])
                        elif sensor_on.sens_type == 6 and sensor_on.multi_type == 3:  # multitemperature sensor DS4
                            ds_a_on = self._try_read(
                                sensor_on.last_read_value[3])
                        else:
                            ds_a_on = -127.0

                        sensor_off = sensors.get(
                            int(plugin_options['probe_A_off_sens']))  #  solar
                        if sensor_off.sens_type == 5:  # temperature sensor
                            ds_a_off = self._try_read(
                                sensor_off.last_read_value)
                        elif sensor_off.sens_type == 6 and sensor_off.multi_type == 0:  # multitemperature sensor DS1
                            ds_a_off = self._try_read(
                                sensor_off.last_read_value[0])
                        elif sensor_off.sens_type == 6 and sensor_off.multi_type == 1:  # multitemperature sensor DS2
                            ds_a_off = self._try_read(
                                sensor_off.last_read_value[1])
                        elif sensor_off.sens_type == 6 and sensor_off.multi_type == 2:  # multitemperature sensor DS3
                            ds_a_off = self._try_read(
                                sensor_off.last_read_value[2])
                        elif sensor_off.sens_type == 6 and sensor_off.multi_type == 3:  # multitemperature sensor DS4
                            ds_a_off = self._try_read(
                                sensor_off.last_read_value[3])
                        else:
                            ds_a_off = -127.0

                    elif plugin_options["sensor_probe"] == 2:
                        ds_a_on = temperature_ds[
                            plugin_options['probe_A_on']]  #  pool
                        ds_a_off = temperature_ds[
                            plugin_options['probe_A_off']]  #  solar

                    station_a = stations.get(
                        plugin_options['control_output_A'])

                    # only for testing... without airtemp plugin or sensors
                    #ds_a_on = 15
                    #ds_a_off = 25

                    probes_ok = True
                    if ds_a_on == -127.0 or ds_a_off == -127.0:
                        probes_ok = False
                        a_state = -2
                        # The station switches off if the sensors has a fault
                        sid = station_a.index
                        active = log.active_runs()
                        for interval in active:
                            if interval['station'] == sid:
                                stations.deactivate(sid)
                                log.finish_run(interval)
                                regulation_text = datetime_string() + ' ' + _(
                                    'Regulation set OFF.') + ' ' + ' (' + _(
                                        'Output') + ' ' + str(station_a.index +
                                                              1) + ').'
                                log.clear(NAME)
                                log.info(NAME, regulation_text)
                        # release msg_a_on and msg_a_off to true for future regulation (after probes is ok)
                        msg_a_on = True
                        msg_a_off = True

                    if (ds_a_off - ds_a_on
                        ) > plugin_options['temp_a_on'] and probes_ok:  # ON
                        a_state = 1
                        if msg_a_on:
                            msg_a_on = False
                            msg_a_off = True
                            regulation_text = datetime_string() + ' ' + _(
                                'Regulation set ON.') + ' ' + ' (' + _(
                                    'Output') + ' ' + str(station_a.index +
                                                          1) + ').'
                            log.clear(NAME)
                            log.info(NAME, regulation_text)
                            start = datetime.datetime.now()
                            sid = station_a.index
                            end = datetime.datetime.now() + datetime.timedelta(
                                seconds=plugin_options['reg_ss'],
                                minutes=plugin_options['reg_mm'])
                            new_schedule = {
                                'active': True,
                                'program': -1,
                                'station': sid,
                                'program_name': _(u'Pool Heating'),
                                'fixed': True,
                                'cut_off': 0,
                                'manual': True,
                                'blocked': False,
                                'start': start,
                                'original_start': start,
                                'end': end,
                                'uid':
                                '%s-%s-%d' % (str(start), "Manual", sid),
                                'usage': stations.get(sid).usage
                            }

                            log.start_run(new_schedule)
                            stations.activate(new_schedule['station'])

                            if plugin_options[
                                    'enabled_safety']:  # safety check
                                safety_end = datetime.datetime.now(
                                ) + datetime.timedelta(
                                    minutes=plugin_options['safety_mm'])

                    if (ds_a_off - ds_a_on
                        ) < plugin_options['temp_a_off'] and probes_ok:  # OFF
                        a_state = 0
                        if msg_a_off:
                            msg_a_off = False
                            msg_a_on = True
                            regulation_text = datetime_string() + ' ' + _(
                                'Regulation set OFF.') + ' ' + ' (' + _(
                                    'Output') + ' ' + str(station_a.index +
                                                          1) + ').'
                            log.clear(NAME)
                            log.info(NAME, regulation_text)
                            sid = station_a.index
                            stations.deactivate(sid)
                            active = log.active_runs()
                            for interval in active:
                                if interval['station'] == sid:
                                    log.finish_run(interval)

                            if plugin_options[
                                    'enabled_safety']:  # safety check
                                safety_end = datetime.datetime.now(
                                ) + datetime.timedelta(
                                    minutes=plugin_options['safety_mm'])

                    ### if "pool" end in schedule release msg_a_on to true in regulation for next scheduling ###
                    now = datetime.datetime.now()
                    if now > end:
                        msg_a_off = False
                        msg_a_on = True
                        if probes_ok:
                            a_state = -3

                    if plugin_options['enabled_safety']:  # safety check
                        safety_start = datetime.datetime.now()
                        if safety_start > safety_end and probes_ok:  # is time for check
                            if (ds_a_off - ds_a_on) > plugin_options[
                                    'temp_safety']:  # temperature difference is bigger
                                a_state = -4
                                msg_a_off = False
                                msg_a_on = True
                                regulation_text = datetime_string() + ' ' + _(
                                    'Safety shutdown!'
                                ) + ' ' + ' (' + _('Output') + ' ' + str(
                                    station_a.index +
                                    1) + ').\n' + _('Regulation disabled!')
                                log.clear(NAME)
                                log.info(NAME, regulation_text)
                                sid = station_a.index
                                stations.deactivate(sid)
                                active = log.active_runs()
                                for interval in active:  # stop stations
                                    if interval['station'] == sid:
                                        log.finish_run(interval)
                                send = True  # send e-mail
                                plugin_options[
                                    'enabled_a'] = False  # disabling plugin

                else:
                    if a_state != -4:  # if safety error not print waiting also safety shutdown!
                        a_state = -1

                # footer text
                tempText = ' '

                if a_state == 0:
                    tempText += regulation_text
                if a_state == 1:
                    tempText += regulation_text
                if a_state == -1:
                    tempText = _(
                        'Waiting (not enabled regulation in options, or not selected input).'
                    )
                if a_state == -2:
                    tempText = _(
                        'Some probe shows a fault, regulation is blocked!')
                if a_state == -3:
                    tempText = _('Waiting.')
                if a_state == -4:
                    tempText = _('Safety shutdown!')

                if plugin_options['use_footer']:
                    if temp_sw is not None:
                        temp_sw.val = tempText.encode('utf8').decode(
                            'utf8')  # value on footer

                self._sleep(2)

                millis = int(round(time.time() * 1000))
                if (millis - last_millis
                    ) > 5000:  # 5 second to clearing status on the webpage
                    last_millis = millis
                    log.clear(NAME)
                    if plugin_options["sensor_probe"] == 1:
                        try:
                            if options.temp_unit == 'C':
                                log.info(
                                    NAME,
                                    datetime_string() + '\n' + sensor_on.name +
                                    ' (' + _('Pool') +
                                    ') %.1f \u2103 \n' % ds_a_on +
                                    sensor_off.name + ' (' + _('Solar') +
                                    ') %.1f \u2103' % ds_a_off)
                            else:
                                log.info(
                                    NAME,
                                    datetime_string() + '\n' + sensor_on.name +
                                    ' (' + _('Pool') +
                                    ') %.1f \u2109 \n' % ds_a_on +
                                    sensor_off.name + ' (' + _('Solar') +
                                    ') %.1f \u2103' % ds_a_off)
                        except:
                            pass
                    elif plugin_options["sensor_probe"] == 2:
                        log.info(
                            NAME,
                            datetime_string() + '\n' + _('Pool') +
                            u' %.1f \u2103 \n' % ds_a_on + _('Solar') +
                            ' %.1f \u2103' % ds_a_off)

                    if last_text != tempText:
                        log.info(NAME, tempText)
                        last_text = tempText

                if send:
                    msg = '<b>' + _(
                        'Pool Heating plug-in'
                    ) + '</b> ' + '<br><p style="color:red;">' + _(
                        'System detected error: The temperature did not drop when the pump was switched on after the setuped time. Stations set to OFF. Safety shutdown!'
                    ) + '</p>'
                    msglog = _(
                        'System detected error: The temperature did not drop when the pump was switched on after the setuped time. Stations set to OFF. Safety shutdown!'
                    )
                    send = False
                    try:
                        try_mail = None
                        if plugin_options['eplug'] == 0:  # email_notifications
                            from plugins.email_notifications import try_mail
                        if plugin_options[
                                'eplug'] == 1:  # email_notifications SSL
                            from plugins.email_notifications_ssl import try_mail
                        if try_mail is not None:
                            try_mail(
                                msg,
                                msglog,
                                attachment=None,
                                subject=plugin_options['emlsubject']
                            )  # try_mail(text, logtext, attachment=None, subject=None)

                    except Exception:
                        log.error(
                            NAME,
                            _('Pool Heating plug-in') + ':\n' +
                            traceback.format_exc())
                        self._sleep(2)

            except Exception:
                log.error(
                    NAME,
                    _('Pool Heating plug-in') + ':\n' + traceback.format_exc())
                self._sleep(60)
Exemple #3
0
    def GET(self):
        web.header('Access-Control-Allow-Origin', '*')
        web.header('Content-Type', 'application/json')
        data = []

        try:
            from plugins import air_temp_humi
            data.append(air_temp_humi.DS18B20_read_probe(0))
            data.append(air_temp_humi.DS18B20_read_probe(1))
            data.append(air_temp_humi.DS18B20_read_probe(2))
            data.append(air_temp_humi.DS18B20_read_probe(3))
            data.append(air_temp_humi.DS18B20_read_probe(4))
            data.append(air_temp_humi.DS18B20_read_probe(5))
        except:
            data.append(-127)
            data.append(-127)
            data.append(-127)
            data.append(-127)
            data.append(-127)
            data.append(-127)
            pass

        try:
            from plugins import tank_monitor
            data.append(tank_monitor.get_all_values()[1])
            data.append(tank_monitor.get_all_values()[3])
        except:
            data.append(-127)
            data.append(-127)
            pass

        try:
            from plugins import wind_monitor
            data.append(round(wind_monitor.get_all_values()[0], 2))
        except: 
            data.append(-127)
            pass

        if sensors.count()>0:
            for sensor in sensors.get():
                try:
                    if sensor.sens_type > 0 and sensor.sens_type < 6:        # 1-5 is sensor (Dry Contact, Leak Detector, Moisture, Motion, Temperature)
                        if sensor.sens_type == 1:
                            data.append(sensor.last_read_value[4])
                        elif sensor.sens_type == 2:
                            data.append(sensor.last_read_value[5])
                        elif sensor.sens_type == 3:
                            data.append(sensor.last_read_value[6])
                        elif sensor.sens_type == 4:
                            data.append(sensor.last_read_value[7])
                        elif sensor.sens_type == 5:
                            data.append(sensor.last_read_value[0])
                        else:
                            data.append(-127)
                    elif sensor.sens_type == 6:                              # 6 is multisensor
                        if sensor.multi_type >= 0 and sensor.multi_type <4:  # multisensor temperature DS1-DS4
                            data.append(sensor.last_read_value[sensor.multi_type])
                        elif sensor.multi_type == 4:                         # multisensor Dry Contact
                            data.append(sensor.last_read_value[4])
                        elif sensor.multi_type == 5:                         # multisensor Leak Detector
                            data.append(sensor.last_read_value[5])
                        elif sensor.multi_type == 6:                         # multisensor Moisture
                            data.append(sensor.last_read_value[6])
                        elif sensor.multi_type == 7:                         # multisensor Motion
                            data.append(sensor.last_read_value[7])
                        elif sensor.multi_type == 8:                         # multisensor Ultrasonic
                            data.append(sensor.last_read_value[8])
                        else:
                            data.append(-127)                                # any errors
                    else:                                                    # any errors
                        data.append(-127)
                except:
                    log.error(NAME, _(u'Weather stations plug-in') + ':\n' + traceback.format_exc())
                    data.append(-127)                                        # any errors
                    pass

        return json.dumps(data) # example data list [-127, -127, -127, -127, -127, -127, -127, -127, -127, 25]
Exemple #4
0
    def run(self):
        time.sleep(
            randint(3, 10)
        )  # Sleep some time to prevent printing before startup information

        send_interval = 10000 # default time for sending between e-mails (ms)
        last_millis   = 0     # timer for repeating sending e-mails (ms)
        last_rain = False
        body    = u''
        logtext = u''
        finished_count = len([run for run in log.finished_runs() if not run['blocked']])

        if email_options["emlpwron"]:  # if eml_power_on send email is enable (on)
            body += u'<b>' + _(u'System') + u'</b> ' + datetime_string()
            body += u'<br><p style="color:red;">' + _(u'System was powered on.') + u'</p>'
            logtext = _(u'System was powered on.')

            if email_options["emllog"]:
                file_exists = os.path.exists(EVENT_FILE)
                if file_exists:
                   try_mail(body, logtext, EVENT_FILE)
                else:
                   body += u'<br>' + _(u'Error -  events.log file not exists!')
                   try_mail(body, logtext)
            else:
                try_mail(body, logtext)

        while not self._stop_event.is_set():
            body    = u''
            logtext = u''
            try:
                # Send E-amil if rain is detected
                if email_options["emlrain"]:
                    if inputs.rain_sensed() and not last_rain:
                        body += u'<b>' + _(u'System') + u'</b> ' + datetime_string() 
                        body += u'<br><p style="color:red;">' + _(u'System detected rain.') + u'</p><br>'
                        logtext = _(u'System detected rain.')
                        try_mail(body, logtext)
                    last_rain = inputs.rain_sensed()

                # Send E-mail if a new finished run is found
                if email_options["emlrun"]:
                    finished = [run for run in log.finished_runs() if not run['blocked']]
                    if len(finished) > finished_count:
                        for run in finished[finished_count:]:
                            duration = (run['end'] - run['start']).total_seconds()
                            minutes, seconds = divmod(duration, 60)
                            pname = run['program_name']
                            sname = stations.get(run['station']).name
                            body += u'<br>'
                            body += u'<b>' + _(u'System') + u'</b> ' + datetime_string()
                            body += u'<br><b>'  + _(u'Finished run') + u'</b>'
                            body += u'<ul><li>' + _(u'Program') + u': %s \n' % pname + u'</li>'
                            body += u'<li>' + _(u'Station') + u': %s \n' % sname + u'</li>'
                            body += u'<li>' + _(u'Start time') + u': %s \n' % datetime_string(run['start']) + u'</li>'
                            body += u'<li>' + _(u'Duration') + u': %02d:%02d\n' % (minutes, seconds) + u'</li></ul>'
                            logtext  =  _(u'Finished run') + u'-> \n' + _(u'Program') + u': %s\n' % pname 
                            logtext +=  _(u'Station') + u': %s\n' % sname
                            logtext +=  _(u'Start time') + u': %s \n' % datetime_string(run['start'])
                            logtext +=  _(u'Duration') + u': %02d:%02d\n' % (minutes, seconds)

                            # Water Tank Monitor
                            try:
                                from plugins import tank_monitor

                                cm = tank_monitor.get_all_values()[0]
                                percent = tank_monitor.get_all_values()[1]
                                ping = tank_monitor.get_all_values()[2]
                                volume = tank_monitor.get_all_values()[3]
                                units = tank_monitor.get_all_values()[4]

                                msg = ' '
                                if cm > 0:
                                    msg =  _(u'Level') + u': ' + str(cm) + u' ' + _(u'cm')
                                    msg += u' (' + str(percent) + u' %), '
                                    msg += _(u'Ping') + u': ' + str(ping) + u' ' + _(u'cm')
                                    if units:
                                        msg += u', ' + _(u'Volume') + u': ' + str(volume) + u' ' + _(u'liters')
                                    else:
                                        msg += u', ' + _(u'Volume') + u': ' + str(volume) + u' ' + _(u'm3')
                                else: 
                                    msg = _(u'Error - I2C device not found!')

                                body += u'<b>'  + _(u'Water') + u'</b>'
                                body += u'<br><ul><li>' + _(u'Water level in tank') + u': %s \n</li></ul>' % (msg)
                                logtext += _(u'Water') + u'-> \n' + _(u'Water level in tank') + u': %s \n' % (msg)
                            
                            except ImportError:
                                log.debug(NAME, _(u'Cannot import plugin: tank monitor.'))
                                pass

                            # Water Consumption Counter
                            try:
                                from plugins import water_consumption_counter
                                self._sleep(2) # wait for the meter to save consumption

                                consum_from = water_consumption_counter.get_all_values()[0]
                                consum_one  = float(water_consumption_counter.get_all_values()[1])
                                consum_two  = float(water_consumption_counter.get_all_values()[2])

                                msg = u' '
                                msg +=  _(u'Measured from day') + u': ' + str(consum_from) + u', '
                                msg +=  _(u'Master Station') + u': '
                                if consum_one < 1000.0:
                                    msg += str(consum_one) + u' '
                                    msg += _(u'Liter') + u', '
                                else: 
                                    msg += str(round((consum_one/1000.0), 2)) + u' '
                                    msg += _(u'm3') + ', '

                                msg +=  _(u'Second Master Station') + u': '
                                if consum_two < 1000.0:
                                    msg += str(consum_two) + u' '
                                    msg += _(u'Liter') 
                                else:
                                    msg += str(round((consum_two/1000.0), 2)) + u' '
                                    msg += _(u'm3')

                                body += u'<br><b>'  + _(u'Water Consumption Counter') + u'</b>'
                                body += u'<br><ul><li>%s \n</li></ul>' % (msg)
                                logtext += _(u'Water Consumption Counter') + u': %s \n' % (msg)

                            except ImportError:
                                log.debug(NAME, _(u'Cannot import plugin: water consumption counter.'))
                                pass

                            # Air Temperature and Humidity Monitor
                            try:
                                from plugins import air_temp_humi

                                body += u'<br><b>' + _(u'Temperature DS1-DS6') + u'</b><ul>'
                                logtext += _(u'Temperature DS1-DS6') + u'-> \n'
                                for i in range(0, air_temp_humi.plugin_options['ds_used']):
                                    body += u'<li>' + u'%s' % air_temp_humi.plugin_options['label_ds%d' % i] + u': ' + u'%.1f \u2103' % air_temp_humi.DS18B20_read_probe(i) + u'\n</li>'  
                                    logtext += u'%s' % air_temp_humi.plugin_options['label_ds%d' % i] + u': ' + u'%.1f \u2103\n' % air_temp_humi.DS18B20_read_probe(i) 
                                body += u'</ul>'    

                            except ImportError:
                                log.debug(NAME, _(u'Cannot import plugin: air temp humi.'))
                                pass

                            # OSPy Sensors
                            try:
                                body += u'<br><b>' + _(u'Sensors') + u'</b>'
                                logtext += _(u'Sensors') + u'-> \n'
                                sensor_result = ''
                                if sensors.count() > 0:
                                    body += u'<ul>'
                                    for sensor in sensors.get():
                                        sensor_result = ''
                                        body += u'<li>'
                                        sensor_result += u'{}: '.format(sensor.name)
                                        if sensor.enabled:
                                            if sensor.response == 1:
                                                if sensor.sens_type == 1:                               # dry contact
                                                    if sensor.last_read_value[4] == 1:
                                                        sensor_result += _(u'Contact Closed')
                                                    elif sensor.last_read_value[4] == 0:
                                                        sensor_result += _(u'Contact Open')
                                                    else:
                                                        sensor_result += _(u'Probe Error')
                                                if sensor.sens_type == 2:                               # leak detector
                                                    if sensor.last_read_value[5] != -127:
                                                        sensor_result += str(sensor.last_read_value[5]) + ' ' + _(u'l/s')
                                                    else:
                                                        sensor_result += _(u'Probe Error')
                                                if sensor.sens_type == 3:                               # moisture
                                                    if sensor.last_read_value[6] != -127:
                                                        sensor_result += str(sensor.last_read_value[6]) + ' ' + _(u'%')
                                                    else:
                                                        sensor_result += _(u'Probe Error')
                                                if sensor.sens_type == 4:                               # motion
                                                    if sensor.last_read_value[7] != -127:
                                                        sensor_result += _(u'Motion Detected') if int(sensor.last_read_value[7]) == 1 else _(u'No Motion')
                                                    else:
                                                        sensor_result += _(u'Probe Error')
                                                if sensor.sens_type == 5:                               # temperature
                                                    if sensor.last_read_value[0] != -127:
                                                        sensor_result += u'%.1f \u2103' % sensor.last_read_value[0]
                                                    else:
                                                        sensor_result += _(u'Probe Error')
                                                if sensor.sens_type == 6:                               # multi sensor
                                                    if sensor.multi_type >= 0 and sensor.multi_type < 4:# multi temperature DS1-DS4
                                                        if sensor.last_read_value[sensor.multi_type] != -127: 
                                                            sensor_result += u'%.1f \u2103' % sensor.last_read_value[sensor.multi_type]
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 4:                          #  multi dry contact
                                                        if sensor.last_read_value[4] != -127:
                                                            sensor_result += _(u'Contact Closed') if int(sensor.last_read_value[4]) == 1 else _(u'Contact Open')
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 5:                          #  multi leak detector
                                                        if sensor.last_read_value[5] != -127:
                                                            sensor_result += str(sensor.last_read_value[5]) + ' ' + _(u'l/s')
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 6:                          #  multi moisture
                                                        if sensor.last_read_value[6] != -127:
                                                            sensor_result += str(sensor.last_read_value[6]) + ' ' + _(u'%')
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 7:                          #  multi motion
                                                        if sensor.last_read_value[7] != -127:
                                                            sensor_result += _(u'Motion Detected') if int(sensor.last_read_value[7])==1 else _(u'No Motion')
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 8:                          #  multi ultrasonic
                                                        if sensor.last_read_value[8] != -127:
                                                            get_level = get_tank_cm(sensor.last_read_value[8], sensor.distance_bottom, sensor.distance_top)
                                                            get_perc = get_percent(get_level, sensor.distance_bottom, sensor.distance_top)
                                                            sensor_result += u'{} '.format(get_level) + _(u'cm') + u' ({} %)'.format(get_perc)
                                                        else:
                                                            sensor_result += _(u'Probe Error')
                                                    if sensor.multi_type == 9:                          #  multi soil moisture
                                                        err_check = 0
                                                        calculate_soil = [0.0]*16
                                                        state = [-127]*16
                                                        for i in range(0, 16):
                                                            if type(sensor.soil_last_read_value[i]) == float:
                                                                state[i] = sensor.soil_last_read_value[i]
                                                                ### voltage from probe to humidity 0-100% with calibration range (for footer info)
                                                                if sensor.soil_invert_probe_in[i]:                                  # probe: rotated state 0V=100%, 3V=0% humidity
                                                                    calculate_soil[i] = maping(state[i], float(sensor.soil_calibration_max[i]), float(sensor.soil_calibration_min[i]), 0.0, 100.0)
                                                                    calculate_soil[i] = round(calculate_soil[i], 1)                 # round to one decimal point
                                                                    calculate_soil[i] = 100.0 - calculate_soil[i]                   # ex: 90% - 90% = 10%, 10% is output in invert probe mode
                                                                else:                                                               # probe: normal state 0V=0%, 3V=100%
                                                                    calculate_soil[i] = maping(state[i], float(sensor.soil_calibration_min[i]), float(sensor.soil_calibration_max[i]), 0.0, 100.0)
                                                                    calculate_soil[i] = round(calculate_soil[i], 1)                 # round to one decimal point
                                                                if state[i] > 0.1:
                                                                    if sensor.soil_show_in_footer[i]:
                                                                        sensor_result += '{} {}% ({}V) '.format(sensor.soil_probe_label[i], round(calculate_soil[i], 2), round(state[i], 2))
                                                            else:
                                                                err_check += 1
                                                        if err_check > 15:
                                                            sensor_result += _(u'Probe Error')

                                                    if sensor.com_type == 0: # Wi-Fi/LAN
                                                        sensor_result += u' ' + _(u'Last Wi-Fi signal: {}%, Source: {}V.').format(sensor.rssi, sensor.last_battery)
                                                    if sensor.com_type == 1: # Radio
                                                        sensor_result += u' ' + _(u'Last Radio signal: {}%, Source: {}V.').format(sensor.rssi, sensor.last_battery)
                                            else:
                                                sensor_result += _(u'No response!')
                                        else:
                                            sensor_result += _(u'Disabled')

                                        body += sensor_result
                                        body += u'</li>'
                                        logtext += sensor_result
                                        logtext += u'\n'
                                    body += u'</ul>'
                                    body += u'<br>'
                                        
                                else:
                                    sensor_result += _(u'No sensors available')
                                    body += u'<ul><li>'
                                    body += sensor_result
                                    body += u'</li></ul>'
                                    body += u'<br>'
                                    logtext += sensor_result
                                    logtext += u'\n'
                                    
                            except:
                                log.debug(NAME, _(u'E-mail plug-in') + ':\n' + traceback.format_exc())
                                pass

                        try_mail(body, logtext)

                    finished_count = len(finished)

                ###Repeating sending e-mails###
                if email_options["emlrepeater"]:                        # saving e-mails is enabled 
                    try:
                        millis = int(round(time.time() * 1000))         # actual time in ms
                        if(millis - last_millis) > send_interval:       # sending timer
                            last_millis = millis                        # save actual time ms
                            try:                                        # exists file: saved_emails.json?
                                saved_emails = read_saved_emails()      # read from file                  
                            except:                                     # no! create empty file
                                write_email([])                         # create file
                                saved_emails = read_saved_emails()      # read from file 

                            len_saved_emails = len(saved_emails)
                            if len_saved_emails > 0:                    # if there is something in json
                                log.clear(NAME)
                                log.info(NAME, _(u'Unsent E-mails in queue (in file)') + ': ' + str(len_saved_emails))
                                try:                                    # try send e-mail
                                    sendtext = u'%s' % saved_emails[0]["text"]
                                    sendsubject = u'%s' % (saved_emails[0]["subject"] + '-' + _(u'sending from queue.'))
                                    sendattachment = u'%s' % saved_emails[0]["attachment"]
                                    email(sendtext, sendsubject, sendattachment) # send e-mail  
                                    send_interval = 10000               # repetition of 10 seconds
                                    del saved_emails[0]                 # delete sent email in file
                                    write_email(saved_emails)           # save to file after deleting an item
                                    if len(saved_emails) == 0:
                                        log.clear(NAME)
                                        log.info(NAME, _(u'All unsent E-mails in the queue have been sent.'))

                                except Exception:
                                    #print traceback.format_exc()
                                    send_interval = 60000               # repetition of 60 seconds   
                    except:
                        log.error(NAME, _(u'E-mail plug-in') + ':\n' + traceback.format_exc())  

                self._sleep(2)

            except Exception:
                log.error(NAME, _(u'E-mail plug-in') + ':\n' + traceback.format_exc())
                self._sleep(60)