weather_station/test_software/weather_station_rs485_client.py

# Copyright 2021 Marcel Konstapel
# https://www.meezenest.nl/mees
#
# This file is part of SolarGeneratorDatalogger.
# A set of programs and scripts to log all the available data from a self build solar generator.
# It runs on a Raspberry Pi Zero 1 W with Raspbian
#
# It logs data from a EPEVER Soalrge Charge Controller (via Bluetooth) and an EPEVER solar charger (via RS485-USB).
# The data is analyzed and stored in a file. The data is also available via a web browser over Wifi
# (Raspberry Pi acts as access point).
# Future plan is to implement LoRa so the data can be accessed remotely.
#
# Program is configured via the file "config.json"
#
# Example of config_file:
#
#    {
#        "epever_data_file": "epever_data.json",
#        "RS485_port": "/dev/ttyXRUSB0",
#        "RS485_address": 1
#    }
#
# Usage of program:
#
#  -c, --config_file : reads the most important registers of the charge
#                      controller and writes it to the file specified in the
#                      config_file
#  -s, --set_date    : sets the date and time from the given argument with
#                      format: YYYY-MM-DD HH:MM:SS
#  -l, --load        : switches load on or off as given by the argument")
#  -d, --dump_file   : dumps all the registers in the specified file
#
#
# A lot of effort is made to catch all possible communication errors, so the program never hangs.
# When an error occurs, the program exits and has probably not written any data to  'epever_data_file'
# But at least we did not crash! Check the date of the data file to make sure the data is written or not.
#
# Example of epever_data_file (JSON format):
#
#{
# "solar_voltage": 0,
# "solar_current": 0,
# "solar_power": 0,
# "load_voltage": 13.11,
# "load_current": 0,
# "load_power": 0,
# "battery_voltage": 13.14,
# "battery_current": 0,
# "battery_power": 0,
# "controller_temp": 18.1,
# "ambient_temp": 16.42,
# "generated_energy_today": 0,
# "controller_date_time": "2021-11-12 15:56:52",
# "battery_status": {
#  "wrong_identifaction_for_rated_voltage": false,
#  "battery_inner_resistence_abnormal": false,
#  "temperature_warning_status": "NORMAL",
#  "battery_status": "NORMAL"
# },
# "controller_status": {
#  "input_voltage_status": "NORMAL",
#  "charging_mosfet_is_short_circuit": false,
#  "charging_or_anti_reverse_mosfet_is_open_circuit": false,
#  "anti_reverse_mosfet_is_short_circuit": false,
#  "input_over_current": false,
#  "load_over_current": false,
#  "load_short_circuit": false,
#  "load_mosfet_short_circuit": false,
#  "disequilibrium_in_three_circuits": false,
#  "pv_input_short_circuit": false,
#  "charging_status": "NO_CHARGING",
#  "fault": false,
#  "running": true
# },
# "load_on": true
#}
#
# This code is based on:
#   https://github.com/rosswarren/epevermodbus
#   https://minimalmodbus.readthedocs.io/en/master/index.html
#   https://github.com/kasbert/epsolar-tracer (Linux driver for CC-USB-RS485-150U USB to RS485 cable)
#
# Thanks for sharing your knowledge!
#
# V0.1 2021-11-12
#   - First working program
#   - Generic read works
#   - Dump all registers works
#   - Set date does not work yet
#   - Make LOAD-switch availible through command line arguments
#
# V0.2 2021-11-15
#   - Set date and time works
#   - Load switch can now be set from command line
#   - Started to implement programming of the controller, but stumbled across a problem: when the
#     controller is in lithium mode, it seems like it is not possible to program some registers.
#     This functionality is not documented by EPEVER. Bummer!
#
# This Python3 program gathers the data from the Liontron BMS over Bluetooth BLE.
#
#    SolarGeneratorDatalogger is free software: you can redistribute it and/or modify
#    it under the terms of the GNU General Public License as published by
#    the Free Software Foundation, either version 3 of the License, or
#    (at your option) any later version.
#
#    SolarGeneratorDatalogger is distributed in the hope that it will be useful,
#    but WITHOUT ANY WARRANTY; without even the implied warranty of
#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
#    GNU General Public License for more details.
#
#    You should have received a copy of the GNU General Public License
#    along with SolarGeneratorDatalogger.  If not, see <https://www.gnu.org/licenses/>.
#
import json
import sys
import time
import getopt

from json.decoder import JSONDecodeError
from datetime import datetime
from itertools import count
from multiprocessing import Process
from epever_control import EpeverChargeController

# This function is very much a work in progress.
# It seems that is is not possible to program the registers when the controller is in lithium mode. This part of the protocol (lithium programming)
# is undocumented by EPEVER and no one in the community has figured it out yet. I could try to reverse engineer this, but for now I decided not to.
# The program as it is has all the functionality I need for my application, so that's all folk!
def dump_all_registers():

    rawdat={}
    #Address range 0x3000
    rawdat['rated_solar_voltage'] = controller.get_rated_solar_voltage()
    rawdat['rated_solar_current'] = controller.get_rated_solar_current()
    rawdat['rated_solar_power'] = controller.get_rated_solar_power_l() + 256*controller.get_rated_solar_power_h()
    rawdat['rated_charging_voltage'] = controller.get_rated_charging_voltage()
    rawdat['rated_charging_current'] = controller.get_rated_charging_current()
    rawdat['rated_charging_power'] = controller.get_rated_charging_power_l() + 256 * controller.get_rated_charging_power_h()
    rawdat['charging_mode'] = controller.get_charging_mode()
    rawdat['rated_load_current'] = controller.get_rated_load_current()
    # Address range 0x3100
    rawdat['solar_voltage'] = controller.get_solar_voltage()
    rawdat['solar_current'] = controller.get_solar_current()
    rawdat['solar_power'] = controller.get_solar_power_l() + 256 * controller.get_solar_power_h()
    rawdat['battery_voltage'] = controller.get_battery_voltage()
    rawdat['battery_current'] = controller.get_battery_current()
    rawdat['battery_power'] = controller.get_battery_power_l() + 256 * controller.get_battery_power_h()
    rawdat['load_voltage'] = controller.get_load_voltage()
    rawdat['load_current'] = controller.get_load_current()
    rawdat['load_power'] = controller.get_load_power_l() + 256 * controller.get_load_power_h()
    rawdat['battery_temperature'] = controller.get_battery_temperature()
    rawdat['controller_temperature'] = controller.get_controller_temperature()
    rawdat['heatsink_temperature'] = controller.get_heatsink_temperature()
    rawdat['battery_state_of_charge'] = controller.get_battery_state_of_charge()
    rawdat['remote_battery_temperature'] = controller.get_remote_battery_temperature()
    rawdat['battery_real_rated_voltage'] = controller.get_battery_real_rated_voltage()
    # Address range 0x3200
    rawdat['battery_status'] = controller.get_battery_status()
    rawdat['charging_equipment_status'] = controller.get_charging_equipment_status()
    # Address 0x3300
    rawdat['maximum_solar_voltage_today'] = controller.get_maximum_solar_voltage_today()
    rawdat['minimum_solar_voltage_today'] = controller.get_minimum_solar_voltage_today()
    rawdat['maximum_battery_voltage_today'] = controller.get_maximum_battery_voltage_today()
    rawdat['minimum_battery_voltage_today'] = controller.get_minimum_battery_voltage_today()
    rawdat['consumed_energy_today'] = controller.get_consumed_energy_today_l() + 256 * controller.get_consumed_energy_today_h()
    rawdat['consumed_energy_month'] = controller.get_consumed_energy_month_l() + 256 * controller.get_consumed_energy_month_h()
    rawdat['consumed_energy_year'] = controller.get_consumed_energy_year_l() + 256 * controller.get_consumed_energy_year_h()
    rawdat['consumed_energy_total'] = controller.get_consumed_energy_total_l() + 256 * controller.get_consumed_energy_total_h()
    rawdat['generated_energy_today'] = controller.get_generated_energy_today_l() + 256 * controller.get_generated_energy_today_h()
    rawdat['generated_energy_month'] = controller.get_generated_energy_month_l() + 256 * controller.get_generated_energy_month_h()
    rawdat['generated_energy_year'] = controller.get_generated_energy_year_l() + 256 * controller.get_generated_energy_year_h()
    rawdat['generated_energy_total'] = controller.get_generated_energy_total_l() + 256 * controller.get_generated_energy_total_h()
    rawdat['carbon_reduction'] = controller.get_carbon_reduction_l() + 256 * controller.get_carbon_reduction_h()
    rawdat['battery_net_current'] = controller.get_battery_net_current_l() + 256 * controller.get_battery_net_current_h()
    rawdat['battery_temperature'] = controller.get_battery_temperature()
    rawdat['ambient_temperature'] = controller.get_ambient_temperature()
    # Address range 0x9000
    rawdat['battery_type'] = controller.get_battery_type()
    rawdat['battery_capacity'] = controller.get_battery_capacity()
    rawdat['temperature_compensation_coefficient'] = controller.get_temperature_compensation_coefficient()
    rawdat['over_voltage_disconnect_voltage'] = controller.get_over_voltage_disconnect_voltage()
    rawdat['charging_limit_voltage'] = controller.get_charging_limit_voltage()
    rawdat['over_voltage_reconnect_voltage'] = controller.get_over_voltage_reconnect_voltage()
    rawdat['equalize_charging_voltage'] = controller.get_equalize_charging_voltage()
    rawdat['boost_charging_voltage'] = controller.get_boost_charging_voltage()
    rawdat['float_charging_voltage'] = controller.get_float_charging_voltage()
    rawdat['boost_reconnect_charging_voltage'] = controller.get_boost_reconnect_charging_voltage()
    rawdat['low_voltage_reconnect_voltage'] = controller.get_low_voltage_reconnect_voltage()
    rawdat['under_voltage_recover_voltage'] = controller.get_under_voltage_recover_voltage()
    rawdat['under_voltage_warning_voltage'] = controller.get_under_voltage_warning_voltage()
    rawdat['low_voltage_disconnect_voltage'] = controller.get_low_voltage_disconnect_voltage()
    rawdat['discharging_limit_voltage'] = controller.get_discharging_limit_voltage()
    rawdat['controller_date_time'] = controller.get_datetime()
    rawdat['equalization_charging_cycle'] = controller.get_equalization_charging_cycle()
    rawdat['battery_temp_upper_warning_limit'] = controller.get_battery_temp_upper_warning_limit()
    rawdat['battery_temp_lower_warning_limit'] = controller.get_battery_temp_lower_warning_limit()
    rawdat['controller_inner_temp_upper_limit'] = controller.get_controller_inner_temp_upper_limit()
    rawdat['controller_inner_temp_upper_limit_recover'] = controller.get_controller_inner_temp_upper_limit_recover()
    rawdat['power_comp_temp_upper_limit'] = controller.get_power_comp_temp_upper_limit()
    rawdat['power_comp_temp_upper_limit_recover'] = controller.get_power_comp_temp_upper_limit_recover()
    rawdat['line_impedance'] = controller.get_line_impedance()
    rawdat['night_time_threshold_volt'] = controller.get_night_time_threshold_volt()
    rawdat['light_signal_startup_delay'] = controller.get_light_signal_startup_delay()
    rawdat['day_time_threshold_volt'] = controller.get_day_time_threshold_volt()
    rawdat['light_signal_turnoff_delay'] = controller.get_light_signal_turnoff_delay()
    rawdat['controling_mode'] = controller.get_controling_mode()
    rawdat['working_time_lenght_1'] = controller.get_working_time_lenght_1()
    rawdat['working_time_lenght_2'] = controller.get_working_time_lenght_2()
    rawdat['turn_on_time_1_sec'] = controller.get_turn_on_time_1_sec()
    rawdat['turn_on_time_1_min'] = controller.get_turn_on_time_1_min()
    rawdat['turn_on_time_1_hours'] = controller.get_turn_on_time_1_hours()
    rawdat['turn_off_time_1_sec'] = controller.get_turn_off_time_1_sec()
    rawdat['turn_off_time_1_min'] = controller.get_turn_off_time_1_min()
    rawdat['turn_off_time_1_hours'] = controller.get_turn_off_time_1_hours()
    rawdat['turn_on_time_2_sec'] = controller.get_turn_on_time_2_sec()
    rawdat['turn_on_time_2_min'] = controller.get_turn_on_time_2_min()
    rawdat['turn_on_time_2_hours'] = controller.get_turn_on_time_2_hours()
    rawdat['turn_off_time_2_sec'] = controller.get_turn_off_time_2_sec()
    rawdat['turn_off_time_2_min'] = controller.get_turn_off_time_2_min()
    rawdat['turn_off_time_2_hours'] = controller.get_turn_off_time_2_hours()
    rawdat['length_of_night'] = controller.get_length_of_night()
    rawdat['battery_rated_voltage'] = controller.get_battery_rated_voltage()
    rawdat['load_timing_control_selection'] = controller.get_load_timing_control_selection()
    rawdat['default_load_on_off_in_manual_mode'] = controller.get_default_load_on_off_in_manual_mode()
    rawdat['equalize_duration'] = controller.get_equalize_duration()
    rawdat['boost_duration'] = controller.get_boost_duration()
    rawdat['battery_discharge'] = controller.get_battery_discharge()
    rawdat['battery_charge'] = controller.get_battery_charge()
    rawdat['management_mode'] = controller.get_management_mode()
    # Address range 0x0
    rawdat['manual_control'] = controller.get_manual_control()
    rawdat['enable_load_test_mode'] = controller.get_enable_load_test_mode()
    rawdat['force_load_on'] = controller.get_force_load_on()
    # Address range 0x2000
    rawdat['is_device_over_temperature'] = controller.is_device_over_temperature()
    rawdat['is_night'] = controller.is_night()

    print (json.dumps(rawdat, indent=1, sort_keys=False))
    with open(dump_file, 'w') as f:
        json.dump(rawdat, f, indent=1) 

# Reads the given config-file and programs all the registers defined in this file to the solar controller
def program_registers():   
    print("Program the registers specified in the register file:", register_file)
    
    # read configuration file
    try:
        with open(register_file, 'r') as myfile:
            register_data=myfile.read()
    except FileNotFoundError:
        print("Configuration file <"+ register_file +"> not found.")
        sys.exit();

    # parse configuration file
    try:
        register_obj = json.loads(register_data)
    except JSONDecodeError as e:
        print("Error decoding configuration file. Not JSON format?")
        sys.exit()
    except TypeError as e:
        print("Error decoding configuration file: JSON objects not str, bytes or bytearray.")
        sys.exit()
    except KeyError:
        print("Error reading configuration file: needed fields not found.")
        sys.exit()
    
    if 'battery_type' in register_obj:
        #controller.set_battery_type(register_obj['battery_type']):
        print("battery_type =", register_obj['battery_type'])            
            
    if 'battery_capacity' in register_obj:
        #controller.set_battery_capacity(register_obj['battery_capacity'])
        print("battery_capacity =", register_obj['battery_capacity'])

    if 'temperature_compensation_coefficient' in register_obj:
        #controller.set_temperature_compensation_coefficient(register_obj['temperature_compensation_coefficient'])
        print("temperature_compensation_coefficient =", register_obj['temperature_compensation_coefficient'])
    
    if 'over_voltage_disconnect_voltage' in register_obj:
        #controller.set_over_voltage_disconnect_voltage(register_obj['over_voltage_disconnect_voltage'])
        print("over_voltage_disconnect_voltage =", register_obj['over_voltage_disconnect_voltage'])            
    
    if 'charging_limit_voltage' in register_obj:
        #controller.set_charging_limit_voltage(register_obj['charging_limit_voltage'])
        print("charging_limit_voltage =", register_obj['charging_limit_voltage'])            
    
    if 'over_voltage_reconnect_voltage' in register_obj:
        #controller.set_over_voltage_reconnect_voltage(register_obj['charging_limit_voltage'])
        print("over_voltage_reconnect_voltage =", register_obj['over_voltage_reconnect_voltage'])
        
    if 'equalize_charging_voltage' in register_obj:
        #controller.set_equalize_charging_voltage(register_obj['charging_limit_voltage'])
        print("equalize_charging_voltage =", register_obj['equalize_charging_voltage'])
        
    if 'boost_charging_voltage' in register_obj:
        #controller.set_boost_charging_voltage(register_obj['charging_limit_voltage'])
        print("boost_charging_voltage =", register_obj['boost_charging_voltage'])
        
    if 'float_charging_voltage' in register_obj:
        #controller.set_float_charging_voltage(register_obj['charging_limit_voltage'])
        print("float_charging_voltage =", register_obj['float_charging_voltage'])
        
    if 'boost_reconnect_charging_voltage' in register_obj:
        #controller.set_boost_reconnect_charging_voltage(register_obj['charging_limit_voltage'])
        print("boost_reconnect_charging_voltage =", register_obj['boost_reconnect_charging_voltage'])
        
    if 'low_voltage_reconnect_voltage' in register_obj:
        #controller.set_low_voltage_reconnect_voltage(register_obj['charging_limit_voltage'])
        print("low_voltage_reconnect_voltage =", register_obj['low_voltage_reconnect_voltage'])
        
    if 'under_voltage_recover_voltage' in register_obj:
        #controller.set_under_voltage_recover_voltage(register_obj['charging_limit_voltage'])
        print("under_voltage_recover_voltage =", register_obj['under_voltage_recover_voltage'])
        
    if 'under_voltage_warning_voltage' in register_obj:
        #controller.set_under_voltage_warning_voltage(register_obj['charging_limit_voltage'])
        print("under_voltage_warning_voltage =", register_obj['under_voltage_warning_voltage'])
        
    if 'low_voltage_disconnect_voltage' in register_obj:
        #controller.set_low_voltage_disconnect_voltage(register_obj['charging_limit_voltage'])
        print("low_voltage_disconnect_voltage =", register_obj['low_voltage_disconnect_voltage'])            
        
    if 'discharging_limit_voltage' in register_obj:
        #controller.set_discharging_limit_voltage(register_obj['charging_limit_voltage'])
        print("discharging_limit_voltage =", register_obj['discharging_limit_voltage'])
        
    if 'datetime_sec_min' in register_obj:
        #controller.set_datetime_sec_min(self, value):
        print("datetime_sec_min =", register_obj['datetime_sec_min'])
        
    if 'datetime_hour_day' in register_obj:
        #controller.set_datetime_hour_day(self, value):
        print("datetime_hour_day =", register_obj['datetime_hour_day'])
        
    if 'datetime_month_year' in register_obj:
        #controller.set_datetime_month_year(self, value):
        print("datetime_month_year =", register_obj['datetime_month_year'])
        
    if 'equalization_charging_cycle' in register_obj:
        #controller.set_equalization_charging_cycle(self, value):
        print("equalization_charging_cycle =", register_obj['equalization_charging_cycle'])
        
    if 'battery_temp_upper_warning_limit' in register_obj:
        #controller.set_battery_temp_upper_warning_limit(self, value):
        print("battery_temp_upper_warning_limit =", register_obj['battery_temp_upper_warning_limit'])
        
    if 'battery_temp_lower_warning_limit' in register_obj:
        #controller.set_battery_temp_lower_warning_limit(self, value):
        print("battery_temp_lower_warning_limit =", register_obj['battery_temp_lower_warning_limit'])
        
    if 'controller_inner_temp_upper_limit' in register_obj:
        #controller.set_controller_inner_temp_upper_limit(self, value):
        print("controller_inner_temp_upper_limit =", register_obj['controller_inner_temp_upper_limit'])
        
    if 'controller_inner_temp_upper_limit_recover' in register_obj:
        #controller.set_controller_inner_temp_upper_limit_recover(self, value):
        print("controller_inner_temp_upper_limit_recover =", register_obj['controller_inner_temp_upper_limit_recover'])
        
    if 'power_comp_temp_upper_limit' in register_obj:
        #controller.set_power_comp_temp_upper_limit(self, value):
        print("equalization_charging_cycle =", register_obj['equalization_charging_cycle'])
        
    if 'power_comp_temp_upper_limit_recover' in register_obj:
        #controller.set_power_comp_temp_upper_limit_recover(self, value):
        print("power_comp_temp_upper_limit_recover =", register_obj['power_comp_temp_upper_limit_recover'])
        
    if 'line_impedance' in register_obj:
        #controller.set_line_impedance(self, value):
        print("line_impedance =", register_obj['line_impedance'])
        
    if 'night_time_threshold_volt' in register_obj:
        #controller.set_night_time_threshold_volt(self, value):
        print("night_time_threshold_volt =", register_obj['night_time_threshold_volt'])
        
    if 'light_signal_startup_delay' in register_obj:
        #controller.set_light_signal_startup_delay(self, value):
        print("light_signal_startup_delay =", register_obj['light_signal_startup_delay'])            
        
    if 'day_time_threshold_volt' in register_obj:
        #controller.set_day_time_threshold_volt(self, value):
        print("day_time_threshold_volt =", register_obj['day_time_threshold_volt'])
        
    if 'light_signal_turnoff_delay' in register_obj:
        #controller.set_light_signal_turnoff_delay(self, value)
        print("light_signal_turnoff_delay =", register_obj['light_signal_turnoff_delay'])        
        
    if 'controling_mode' in register_obj:
        #controller.set_controling_mode(self, value):
        print("controling_mode =", register_obj['controling_mode'])
        
    if 'working_time_lenght_1' in register_obj:
        #controller.set_working_time_lenght_1(self, value):
        print("working_time_lenght_1 =", register_obj['working_time_lenght_1'])
        
    if 'working_time_lenght_2' in register_obj:
        #controller.set_working_time_lenght_2(self, value):
        print("working_time_lenght_2 =", register_obj['working_time_lenght_2'])
        
    if 'turn_on_time_1_sec' in register_obj:
        #controller.set_turn_on_time_1_sec(self, value):
        print("turn_on_time_1_sec =", register_obj['turn_on_time_1_sec'])
        
    if 'turn_on_time_1_min' in register_obj:
        #controller.set_turn_on_time_1_min(self, value):
        print("turn_on_time_1_min =", register_obj['turn_on_time_1_min'])
        
    if 'turn_on_time_1_hours' in register_obj:
        #controller.set_turn_on_time_1_hours(self, value):
        print("turn_on_time_1_hours =", register_obj['turn_on_time_1_hours'])
        
    if 'turn_off_time_1_sec' in register_obj:
        #controller.set_turn_off_time_1_sec(self, value):
        print("turn_off_time_1_sec =", register_obj['turn_off_time_1_sec'])
        
    if 'turn_off_time_1_min' in register_obj:
        #controller.set_turn_off_time_1_min(self, value):
        print("turn_off_time_1_min =", register_obj['turn_off_time_1_min'])
        
    if 'turn_off_time_1_hours' in register_obj:
        #controller.set_turn_off_time_1_hours(self, value):
        print("turn_off_time_1_hours =", register_obj['turn_off_time_1_hours'])
        
    if 'turn_on_time_2_sec' in register_obj:
        #controller.set_turn_on_time_2_sec(self, value):
        print("turn_on_time_2_sec =", register_obj['turn_on_time_2_sec'])
        
    if 'turn_on_time_2_min' in register_obj:
        #controller.set_turn_on_time_2_min(self, value):
        print("turn_on_time_2_min =", register_obj['turn_on_time_2_min'])            
        
    if 'turn_on_time_2_hours' in register_obj:
        #controller.set_turn_on_time_2_hours(self, value):
        print("turn_on_time_2_hours =", register_obj['turn_on_time_2_hours'])
        
    if 'turn_off_time_2_sec' in register_obj:
        #controller.set_turn_off_time_2_sec(self, value):
        print("turn_off_time_2_sec =", register_obj['turn_off_time_2_sec'])
        
    if 'turn_off_time_2_min' in register_obj:
        #controller.set_turn_off_time_2_min(self, value):
        print("turn_off_time_2_min =", register_obj['turn_off_time_2_min'])
        
    if 'turn_off_time_2_hours' in register_obj:
        #controller.set_turn_off_time_2_hours(self, value):
        print("turn_off_time_2_hours =", register_obj['turn_off_time_2_hours'])
        
    if 'length_of_night' in register_obj:
        #controller.set_length_of_night(self, value):
        print("length_of_night =", register_obj['length_of_night'])            
        
    if 'battery_rated_voltage' in register_obj:
        #controller.set_battery_rated_voltage(self, value):
        print("battery_rated_voltage =", register_obj['battery_rated_voltage'])
        
    if 'load_timing_control_selection' in register_obj:
        #controller.set_load_timing_control_selection(self, value):
        print("load_timing_control_selection =", register_obj['load_timing_control_selection'])
        
    if 'default_load_on_off_in_manual_mode' in register_obj:
        #controller.set_default_load_on_off_in_manual_mode(self, value):
        print("default_load_on_off_in_manual_mode =", register_obj['default_load_on_off_in_manual_mode'])
        
    if 'equalize_duration' in register_obj:
        #controller.set_equalize_duration(self, value):
        print("equalize_duration =", register_obj['equalize_duration'])
        
    if 'boost_duration' in register_obj:
        #controller.set_boost_duration(self, value):
        print("boost_duration =", register_obj['boost_duration'])
        
    if 'battery_discharge' in register_obj:
        #controller.set_battery_discharge(self, value):
        print("battery_discharge =", register_obj['battery_discharge'])
        
    if 'battery_charge' in register_obj:
        #controller.set_battery_charge(self, value):
        print("battery_charge =", register_obj['battery_charge'])
        
    if 'management_mode' in register_obj:
        #controller.set_management_mode(self, value):
        print("management_mode =", register_obj['management_mode'])            
        
    print("This functionality is not implemented yet. Nothing is actually written to the solar charger.")

config_file =""
set_date =""
load_switch=""
register_file=""
dump_file=""

argv = sys.argv[1:]
try:
    options, args = getopt.getopt(argv, "c:s:l:p:d:",
                               ["config_file =",
                                "set_date =",
                                "load_switch =",
                                "register_file=",
                                "dump_file ="])
except:
    print("epever-charge-controller can read and write the registers of a EPEVER solar")
    print("charge controller using the Modbus protocol.")
    print("")
    print("-c, --config_file : reads the most important registers of the charge")
    print("                    controller and writes it to the file specified in the")
    print("                    config_file")
    print("-s, --set_date    : sets the date and time from the given argument with")
    print("                    format: YYYY-MM-DD HH:MM:SS")
    print("-l, --load        : switches load on or off as given by the argument")
    print("-p, --program     : programs all the registers of the solar charger given in")
    print("                    the specified register file.")
    print("-d, --dump_file   : dumps all the registers in the specified file")
    sys.exit()
 
for name, value in options:
    if name in ['-c', '--config_file']:
        config_file = value
    elif name in ['-s', '--set_date']:
        set_date = value
    elif name in ['-l', '--load']:
        load_switch = value
    elif name in ['-p', '--program']:
        register_file = value
    elif name in ['-d', '--dump']:
        dump_file = value
        
if not config_file:
    print("No configuration file given.")
    sys.exit();
    
# read configuration file
try:
    with open(config_file, 'r') as myfile:
        data=myfile.read()
except FileNotFoundError:
    print("Configuration file <"+ config_file +"> not found.")
    sys.exit();

# parse configuration file
try:
    obj = json.loads(data)
    tmp = obj['epever_data_file']
    tmp1 = obj['RS485_port']
    tmp2 = obj['RS485_address']
except JSONDecodeError as e:
    print("Error decoding configuration file. Not JSON format?")
    sys.exit()
except TypeError as e:
    print("Error decoding configuration file: JSON objects not str, bytes or bytearray.")
    sys.exit()
except KeyError:
    print("Error reading configuration file: needed fields not found.")
    sys.exit()

# show values from config file
print("Using RRS485 port    : " + str(obj['RS485_port']))
print("Using RRS485 address : " + str(obj['RS485_address']))
print("Saving EPEVER data to: " + str(obj['epever_data_file']))

controller = EpeverChargeController(obj['RS485_port'], obj['RS485_address'])
    
if set_date:
    try:
        iso_date = datetime.fromisoformat(set_date)
    except:
        print("Error in date and time. Date and time should be in ISO format.")
        sys.exit()
        
    print("Setting the time and date to", iso_date)
    datetime={}    
    datetime['year'] = int(iso_date.strftime('%Y')) - 2000
    datetime['month'] = int(iso_date.strftime('%m'))
    datetime['day'] = int(iso_date.strftime('%d'))
    datetime['hours'] = int(iso_date.strftime('%H'))
    datetime['minutes'] = int(iso_date.strftime('%M'))
    datetime['seconds'] = int(iso_date.strftime('%S'))
    
    controller.write_date(datetime)

elif load_switch:
    if (load_switch.lower()=='on'):
        print("Switching load ON.")
        controller.switch_load_on()
    elif (load_switch.lower()=='off'):
        print("Switching load OFF.")
        controller.switch_load_off()
    else:
        print("No argument given. Cannot switch load.")

elif register_file:    
    program_registers();
    
elif dump_file:
    print("Dumping all registers to file: "+ dump_file)
    dump_all_registers()
    
else:

    while (1):
        time.sleep(3) # Sleep for 3 seconds
        print ("Retrieving all known registers.")
        rawdat={}
        rawdat['ID'] = controller.get_id()
        rawdat['Wind direction'] = controller.get_wind_direction()
        rawdat['Wind speed'] = controller.get_wind_speedl()
        rawdat['Wind gust'] = controller.get_wind_gust()
        rawdat['Rain last hour'] = controller.get_rain()
        rawdat['Rain last 24 hours'] = controller.get_rain_last24()
        rawdat['Temperature'] = controller.get_temperature()
        rawdat['Humidity'] = controller.get_humidity()

        print (json.dumps(rawdat, indent=1, sort_keys=False))