#!/usr/bin/python2 -u # coding=utf-8 import logging import re import socket import sys import gobject import signals import config as cfg from dbus.mainloop.glib import DBusGMainLoop from pymodbus.client.sync import ModbusSerialClient as Modbus from pymodbus.exceptions import ModbusException, ModbusIOException from pymodbus.other_message import ReportSlaveIdRequest from pymodbus.pdu import ExceptionResponse from pymodbus.register_read_message import ReadInputRegistersResponse from data import BatteryStatus, BatterySignal, Battery, ServiceSignal from data import BatteryStatus, BatterySignal, Battery, ServiceSignal from python_libs.ie_dbus.dbus_service import DBusService import time import os import csv import pika import zipfile import hashlib import base64 import hmac import requests from datetime import datetime import io import json from convert import first import shutil CSV_DIR = "/data/csv_files/" INSTALLATION_NAME_FILE = '/data/innovenergy/openvpn/installation-name' # trick the pycharm type-checker into thinking Callable is in scope, not used at runtime # noinspection PyUnreachableCode if False: from typing import Callable, List, Iterable, NoReturn RESET_REGISTER = 0x2087 def compress_csv_data(csv_data, file_name="data.csv"): memory_stream = io.BytesIO() # Create a zip archive in the memory buffer with zipfile.ZipFile(memory_stream, 'w', zipfile.ZIP_DEFLATED) as archive: # Add CSV data to the ZIP archive using writestr archive.writestr(file_name, csv_data.encode('utf-8')) # Get the compressed byte array from the memory buffer compressed_bytes = memory_stream.getvalue() # Encode the compressed byte array as a Base64 string base64_string = base64.b64encode(compressed_bytes).decode('utf-8') return base64_string class S3config: def __init__(self): self.bucket = cfg.S3BUCKET self.region = "sos-ch-dk-2" self.provider = "exo.io" self.key = cfg.S3KEY self.secret = cfg.S3SECRET self.content_type = "application/base64; charset=utf-8" @property def host(self): return "{}.{}.{}".format(self.bucket, self.region, self.provider) @property def url(self): return "https://{}".format(self.host) def create_put_request(self, s3_path, data): headers = self._create_request("PUT", s3_path) url = "{}/{}".format(self.url, s3_path) response = requests.put(url, headers=headers, data=data) return response def _create_request(self, method, s3_path): date = datetime.utcnow().strftime('%a, %d %b %Y %H:%M:%S GMT') auth = self._create_authorization(method, self.bucket, s3_path, date, self.key, self.secret, self.content_type) headers = { "Host": self.host, "Date": date, "Authorization": auth, "Content-Type": self.content_type } return headers @staticmethod def _create_authorization(method, bucket, s3_path, date, s3_key, s3_secret, content_type="", md5_hash=""): payload = "{}\n{}\n{}\n{}\n/{}/{}".format( method, md5_hash, content_type, date, bucket.strip('/'), s3_path.strip('/') ) signature = base64.b64encode( hmac.new(s3_secret.encode(), payload.encode(), hashlib.sha1).digest() ).decode() return "AWS {}:{}".format(s3_key, signature) def SubscribeToQueue(): try: connection = pika.BlockingConnection(pika.ConnectionParameters(host="10.2.0.11", port=5672, virtual_host="/", credentials=pika.PlainCredentials("producer", "b187ceaddb54d5485063ddc1d41af66f"))) channel = connection.channel() channel.queue_declare(queue="statusQueue", durable=True) print("Subscribed to queue") except Exception as ex: print("An error occurred while connecting to the RabbitMQ queue:", ex) return channel previous_warnings = {} previous_alarms = {} class MessageType: ALARM_OR_WARNING = "AlarmOrWarning" HEARTBEAT = "Heartbeat" class AlarmOrWarning: def __init__(self, description, created_by): self.date = datetime.now().strftime('%Y-%m-%d') self.time = datetime.now().strftime('%H:%M:%S') self.description = description self.created_by = created_by def to_dict(self): return { "Date": self.date, "Time": self.time, "Description": self.description, "CreatedBy": self.created_by } channel = SubscribeToQueue() # Create an S3config instance s3_config = S3config() INSTALLATION_ID=int(s3_config.bucket.split('-')[0]) PRODUCT_ID = 1 is_first_update = True prev_status = 0 def update_state_from_dictionaries(current_warnings, current_alarms, node_numbers): global previous_warnings, previous_alarms, INSTALLATION_ID, PRODUCT_ID, is_first_update, channel, prev_status if is_first_update: changed_warnings = current_warnings changed_alarms = current_alarms is_first_update = False else: changed_alarms = {} changed_warnings = {} for key in current_alarms: current_value = current_alarms[key] prev_value = previous_alarms.get(key, False) # Use False if the key doesn't exist if current_value != prev_value: changed_alarms[key] = True else: changed_alarms[key] = False for key in current_warnings: current_value = current_warnings[key] prev_value = previous_warnings.get(key, False) if current_value != prev_value: changed_warnings[key] = True else: changed_warnings[key] = False status_message = { "InstallationId": INSTALLATION_ID, "Product": PRODUCT_ID, "Status": 0, "Type": 1, "Warnings": [], "Alarms": [] } alarms_number_list = [] for node_number in node_numbers: cnt = 0 for i, alarm_value in enumerate(current_alarms.values()): if int(list(current_alarms.keys())[i].split("/")[3]) == int(node_number): if alarm_value: cnt+=1 alarms_number_list.append(cnt) warnings_number_list = [] for node_number in node_numbers: cnt = 0 for i, warning_value in enumerate(current_warnings.values()): if int(list(current_warnings.keys())[i].split("/")[3]) == int(node_number): if warning_value: cnt+=1 warnings_number_list.append(cnt) # Evaluate alarms if any(changed_alarms.values()): for i, changed_alarm in enumerate(changed_alarms.values()): if changed_alarm and list(current_alarms.values())[i]: description = list(current_alarms.keys())[i].split("/")[-1] device_created = "Battery node " + list(current_alarms.keys())[i].split("/")[3] status_message["Alarms"].append(AlarmOrWarning(description, device_created).to_dict()) if any(changed_warnings.values()): for i, changed_warning in enumerate(changed_warnings.values()): if changed_warning and list(current_warnings.values())[i]: description = list(current_warnings.keys())[i].split("/")[-1] device_created = "Battery node " + list(current_warnings.keys())[i].split("/")[3] status_message["Warnings"].append(AlarmOrWarning(description, device_created).to_dict()) if any(current_alarms.values()): status_message["Status"]=2 if not any(current_alarms.values()) and any(current_warnings.values()): status_message["Status"]=1 if not any(current_alarms.values()) and not any(current_warnings.values()): status_message["Status"]=0 if status_message["Status"]!=prev_status or len(status_message["Warnings"])>0 or len(status_message["Alarms"])>0: prev_status=status_message["Status"] status_message["Type"]=0 status_message = json.dumps(status_message) channel.basic_publish(exchange="", routing_key="statusQueue", body=status_message) print(status_message) print("Message sent successfully") previous_warnings = current_warnings.copy() previous_alarms = current_alarms.copy() return status_message, alarms_number_list, warnings_number_list def read_csv_as_string(file_path): """ Reads a CSV file from the given path and returns its content as a single string. """ try: # Note: 'encoding' is not available in open() in Python 2.7, so we'll use 'codecs' module. import codecs with codecs.open(file_path, 'r', encoding='utf-8') as file: return file.read() except IOError as e: if e.errno == 2: # errno 2 corresponds to "No such file or directory" print("Error: The file {} does not exist.".format(file_path)) else: print("IO error occurred: {}".format(str(e))) return None def init_modbus(tty): # type: (str) -> Modbus logging.debug('initializing Modbus') return Modbus( port='/dev/' + tty, method=cfg.MODE, baudrate=cfg.BAUD_RATE, stopbits=cfg.STOP_BITS, bytesize=cfg.BYTE_SIZE, timeout=cfg.TIMEOUT, parity=cfg.PARITY) def init_udp_socket(): # type: () -> socket s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) s.setblocking(False) return s def report_slave_id(modbus, slave_address): # type: (Modbus, int) -> str slave = str(slave_address) logging.debug('requesting slave id from node ' + slave) with modbus: request = ReportSlaveIdRequest(unit=slave_address) response = modbus.execute(request) if response is ExceptionResponse or issubclass(type(response), ModbusException): raise Exception('failed to get slave id from ' + slave + ' : ' + str(response)) return response.identifier def identify_battery(modbus, slave_address): # type: (Modbus, int) -> Battery logging.info('identifying battery...') hardware_version, bms_version, ampere_hours = parse_slave_id(modbus, slave_address) firmware_version = read_firmware_version(modbus, slave_address) specs = Battery( slave_address=slave_address, hardware_version=hardware_version, firmware_version=firmware_version, bms_version=bms_version, ampere_hours=ampere_hours) logging.info('battery identified:\n{0}'.format(str(specs))) return specs def identify_batteries(modbus): # type: (Modbus) -> List[Battery] def _identify_batteries(): slave_address = 0 n_missing = -7 while n_missing < 3: slave_address += 1 try: yield identify_battery(modbus, slave_address) n_missing = 0 except Exception as e: logging.info('failed to identify battery at {0} : {1}'.format(str(slave_address), str(e))) n_missing += 1 logging.info('giving up searching for further batteries') batteries = list(_identify_batteries()) # dont be lazy! n = len(batteries) logging.info('found ' + str(n) + (' battery' if n == 1 else ' batteries')) return batteries def parse_slave_id(modbus, slave_address): # type: (Modbus, int) -> (str, str, int) slave_id = report_slave_id(modbus, slave_address) sid = re.sub(r'[^\x20-\x7E]', '', slave_id) # remove weird special chars match = re.match('(?P48TL(?P[0-9]+)) *(?P.*)', sid) if match is None: raise Exception('no known battery found') return match.group('hw').strip(), match.group('bms').strip(), int(match.group('ah').strip()) def read_firmware_version(modbus, slave_address): # type: (Modbus, int) -> str logging.debug('reading firmware version') with modbus: response = read_modbus_registers(modbus, slave_address, base_address=1054, count=1) register = response.registers[0] return '{0:0>4X}'.format(register) def read_modbus_registers(modbus, slave_address, base_address=cfg.BASE_ADDRESS, count=cfg.NO_OF_REGISTERS): # type: (Modbus, int, int, int) -> ReadInputRegistersResponse logging.debug('requesting modbus registers {0}-{1}'.format(base_address, base_address + count)) return modbus.read_input_registers( address=base_address, count=count, unit=slave_address) def read_battery_status(modbus, battery): # type: (Modbus, Battery) -> BatteryStatus """ Read the modbus registers containing the battery's status info. """ logging.debug('reading battery status') with modbus: data = read_modbus_registers(modbus, battery.slave_address) return BatteryStatus(battery, data.registers) def publish_values_on_dbus(service, battery_signals, battery_statuses): # type: (DBusService, Iterable[BatterySignal], Iterable[BatteryStatus]) -> () publish_individuals(service, battery_signals, battery_statuses) publish_aggregates(service, battery_signals, battery_statuses) def publish_aggregates(service, signals, battery_statuses): # type: (DBusService, Iterable[BatterySignal], Iterable[BatteryStatus]) -> () for s in signals: if s.aggregate is None: continue values = [s.get_value(battery_status) for battery_status in battery_statuses] value = s.aggregate(values) service.own_properties.set(s.dbus_path, value, s.unit) def publish_individuals(service, signals, battery_statuses): # type: (DBusService, Iterable[BatterySignal], Iterable[BatteryStatus]) -> () for signal in signals: for battery_status in battery_statuses: address = battery_status.battery.slave_address dbus_path = '/_Battery/' + str(address) + signal.dbus_path value = signal.get_value(battery_status) service.own_properties.set(dbus_path, value, signal.unit) def publish_service_signals(service, signals): # type: (DBusService, Iterable[ServiceSignal]) -> NoReturn for signal in signals: service.own_properties.set(signal.dbus_path, signal.value, signal.unit) def upload_status_to_innovenergy(sock, statuses): # type: (socket, Iterable[BatteryStatus]) -> bool logging.debug('upload status') try: for s in statuses: sock.sendto(s.serialize(), (cfg.INNOVENERGY_SERVER_IP, cfg.INNOVENERGY_SERVER_PORT)) except: logging.debug('FAILED') return False else: return True def print_usage(): print ('Usage: ' + __file__ + ' ') print ('Example: ' + __file__ + ' ttyUSB0') def parse_cmdline_args(argv): # type: (List[str]) -> str if len(argv) == 0: logging.info('missing command line argument for tty device') print_usage() sys.exit(1) return argv[0] def reset_batteries(modbus, batteries): # type: (Modbus, Iterable[Battery]) -> NoReturn logging.info('Resetting batteries...') for battery in batteries: result = modbus.write_registers(RESET_REGISTER, [1], unit=battery.slave_address) # expecting a ModbusIOException (timeout) # BMS can no longer reply because it is already reset success = isinstance(result, ModbusIOException) outcome = 'successfully' if success else 'FAILED to' logging.info('Battery {0} {1} reset'.format(str(battery.slave_address), outcome)) logging.info('Shutting down fz-sonick driver') exit(0) alive = True # global alive flag, watchdog_task clears it, update_task sets it start_time = time.time() def count_files_in_folder(folder_path): try: # List all files in the folder files = os.listdir(folder_path) # Filter out directories, only count files num_files = sum(1 for f in files if os.path.isfile(os.path.join(folder_path, f))) return num_files except FileNotFoundError: return "Folder not found" except Exception as e: return str(e) def create_update_task(modbus, service, batteries): # type: (Modbus, DBusService, Iterable[Battery]) -> Callable[[],bool] """ Creates an update task which runs the main update function and resets the alive flag """ global start_time _socket = init_udp_socket() _signals = signals.init_battery_signals() csv_signals = signals.create_csv_signals() node_numbers = [battery.slave_address for battery in batteries] warnings_signals, alarm_signals = signals.read_warning_and_alarm_flags() current_warnings = {} current_alarms = {} def update_task(): # type: () -> bool global alive, start_time logging.debug('starting update cycle') if service.own_properties.get('/ResetBatteries').value == 1: reset_batteries(modbus, batteries) statuses = [read_battery_status(modbus, battery) for battery in batteries] # Iterate over each node and signal to create rows in the new format for i, node in enumerate(node_numbers): for s in warnings_signals: signal_name = insert_id(s.name, node) value = s.get_value(statuses[i]) current_warnings[signal_name] = value for s in alarm_signals: signal_name = insert_id(s.name, node) value = s.get_value(statuses[i]) current_alarms[signal_name] = value status_message, alarms_number_list, warnings_number_list = update_state_from_dictionaries(current_warnings, current_alarms, node_numbers) publish_values_on_dbus(service, _signals, statuses) elapsed_time = time.time() - start_time create_csv_files(csv_signals, statuses, node_numbers, alarms_number_list, warnings_number_list) print("11111111111111111111111111111111111111111111 elapsed time is ",elapsed_time) # keep at most 1900 files at CSV_DIR for logging and aggregation manage_csv_files(CSV_DIR, 1900) num_files_in_csv_dir = count_files_in_folder(CSV_DIR) if elapsed_time >= 1200: print("CREATE BATCH ======================================>") create_batch_of_csv_files() start_time = time.time() upload_status_to_innovenergy(_socket, statuses) # logging.debug('finished update cycleeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee\n') alive = True return True return update_task def manage_csv_files(directory_path, max_files=20): csv_files = [f for f in os.listdir(directory_path) if os.path.isfile(os.path.join(directory_path, f))] csv_files.sort(key=lambda x: os.path.getctime(os.path.join(directory_path, x))) print("len of csv files is "+str(len(csv_files))) # Remove oldest files if exceeds maximum while len(csv_files) > max_files: file_to_delete = os.path.join(directory_path, csv_files.pop(0)) os.remove(file_to_delete) def insert_id(path, id_number): parts = path.split("/") insert_position = parts.index("Devices") + 1 parts.insert(insert_position, str(id_number)) return "/".join(parts) def create_batch_of_csv_files(): global prev_status,channel,INSTALLATION_ID, PRODUCT_ID # list all files in the directory files = os.listdir(CSV_DIR) # filter out only csv files csv_files = [file for file in files if file.endswith('.csv')] # sort csv files by creation time csv_files.sort(key=lambda x: os.path.getctime(os.path.join(CSV_DIR, x))) # keep the 600 MOST RECENT FILES recent_csv_files = csv_files[-600:] if len(csv_files) > 600 else csv_files # get the name of the first csv file if not csv_files: print("No csv files found in the directory.") exit(0) first_csv_file = os.path.join(CSV_DIR, recent_csv_files.pop(0)) first_csv_filename = os.path.basename(first_csv_file) temp_file_path = os.path.join(CSV_DIR, 'temp_batch_file.csv') # create a temporary file and write the timestamp and the original content of the first file with open(temp_file_path, 'wb') as temp_file: # Write the timestamp (filename) at the beginning temp_file.write('Timestamp;{}\n'.format(first_csv_filename.split('.')[0])) # write the original content of the first csv file with open(first_csv_file, 'rb') as f: temp_file.write(f.read()) for csv_file in recent_csv_files: file_path = os.path.join(CSV_DIR, csv_file) # write an empty line temp_file.write('\n') # write the timestamp (filename) temp_file.write('Timestamp;{}\n'.format(csv_file.split('.')[0])) # write the content of the file with open(file_path, 'rb') as f: temp_file.write(f.read()) # replace the original first csv file with the temporary file os.remove(first_csv_file) os.rename(temp_file_path, first_csv_file) # create a loggin directory that contains at max 20 batch files for logging info # logging_dir = os.path.join(CSV_DIR, 'logging_batch_files') # if not os.path.exists(logging_dir): # os.makedirs(logging_dir) # # shutil.copy(first_csv_file, logging_dir) # manage_csv_files(logging_dir) # print("The batch csv file is: {}".format(recent_csv_files[-1])) # prepare for compression csv_data = read_csv_as_string(first_csv_file) if csv_data is None: print("error while reading csv as string") return # zip-comp additions compressed_csv = compress_csv_data(csv_data) # Use the name of the last (most recent) CSV file in sorted csv_files as the name for the compressed file last_csv_file_name = os.path.basename(recent_csv_files[-1]) if recent_csv_files else first_csv_filename # we send the csv files every 30 seconds and the timestamp is adjusted to be a multiple of 30 numeric_part = int(last_csv_file_name.split('.')[0][:-2]) # compressed_filename = "{}.csv".format(new_numeric_part) compressed_filename = "{}.csv".format(numeric_part) print("FILE NAME =========================================================> ", compressed_filename) response = s3_config.create_put_request(compressed_filename, compressed_csv) # response = s3_config.create_put_request(first_csv_filename, csv_data) print(response) if response.status_code == 200: os.remove(first_csv_file) print("Successfully uploaded the compresseed batch of files in s3") status_message = { "InstallationId": INSTALLATION_ID, "Product": PRODUCT_ID, "Status": prev_status, "Type": 1, "Warnings": [], "Alarms": [], } print(status_message) status_message = json.dumps(status_message) try: channel.basic_publish(exchange="", routing_key="statusQueue", body=status_message) except: channel = SubscribeToQueue() channel.basic_publish(exchange="", routing_key="statusQueue", body=status_message) print("Successfully sent the heartbit with timestamp") else: # we save data that were not successfully uploaded in s3 in a failed directory inside the CSV_DIR for logging failed_dir = os.path.join(CSV_DIR, "failed") if not os.path.exists(failed_dir): os.makedirs(failed_dir) failed_path = os.path.join(failed_dir, first_csv_filename) os.rename(first_csv_file, failed_path) print("Uploading failed") manage_csv_files(failed_dir, 100) def create_csv_files(signals, statuses, node_numbers, alarms_number_list, warnings_number_list): timestamp = int(time.time()) if timestamp % 2 != 0: timestamp -= 1 if not os.path.exists(CSV_DIR): os.makedirs(CSV_DIR) csv_filename = "{}.csv".format(timestamp) csv_path = os.path.join(CSV_DIR, csv_filename) if not os.path.exists(csv_path): with open(csv_path, 'ab') as csvfile: csv_writer = csv.writer(csvfile, delimiter=';') nodes_config_path = "/Config/Devices/BatteryNodes" nodes_list = ",".join(str(node) for node in node_numbers) config_row = [nodes_config_path, nodes_list, ""] csv_writer.writerow(config_row) for i, node in enumerate(node_numbers): csv_writer.writerow(["/Battery/Devices/{}/Alarms".format(str(i+1)), alarms_number_list[i], ""]) csv_writer.writerow(["/Battery/Devices/{}/Warnings".format(str(i+1)), warnings_number_list[i], ""]) for s in signals: signal_name = insert_id(s.name, i+1) value = s.get_value(statuses[i]) row_values = [signal_name, value, s.get_text] csv_writer.writerow(row_values) def create_watchdog_task(main_loop): # type: (DBusGMainLoop) -> Callable[[],bool] """ Creates a Watchdog task that monitors the alive flag. The watchdog kills the main loop if the alive flag is not periodically reset by the update task. Who watches the watchdog? """ def watchdog_task(): # type: () -> bool global alive if alive: logging.debug('watchdog_task: update_task is alive') alive = False return True else: logging.info('watchdog_task: killing main loop because update_task is no longer alive') main_loop.quit() return False return watchdog_task BATTERY_COUNTS_FILE = '/data/battery_count.csv' def load_battery_counts(): if os.path.exists(BATTERY_COUNTS_FILE): with open(BATTERY_COUNTS_FILE, 'r') as f: reader = csv.reader(f) return [int(row[0]) for row in reader] return [] def save_battery_counts(battery_counts): with open(BATTERY_COUNTS_FILE, 'wb') as f: # Use 'wb' mode for Python 2 writer = csv.writer(f) for count in battery_counts: writer.writerow([count]) def main(argv): # type: (List[str]) -> () print("INSIDE DBUS SONICK") logging.basicConfig(level=cfg.LOG_LEVEL) logging.info('starting ' + __file__) # tty = parse_cmdline_args(argv) # modbus = init_modbus(tty) # batteries = identify_batteries(modbus) # if len(batteries) <= 0: # sys.exit(2) tty = parse_cmdline_args(argv) battery_counts = load_battery_counts() max_retry_attempts = 3 # Stop retrying in case it's a real battery loss case retry_attempts = 0 while True: modbus = init_modbus(tty) batteries = identify_batteries(modbus) n = len(batteries) logging.info('found %d %s', n, "battery" if n == 1 else "batteries") if n <= 0: sys.exit(2) # Exit if no batteries are found if not battery_counts or n > max(battery_counts): # If it's the first detection or detect more batteries than ever before logging.info("It's new or more batteries detected") battery_counts.append(n) retry_attempts = 0 save_battery_counts(battery_counts) elif n < max(battery_counts): retry_attempts += 1 logging.warning('Attempt %d/%d: Detected fewer batteries than previously detected.', retry_attempts, max_retry_attempts) # If max retry attempts are exceeded, continue with fewer batteries if retry_attempts >= max_retry_attempts: logging.warning('Max retry attempts reached. Continuing with fewer batteries.') save_battery_counts(battery_counts) break continue elif n == max(battery_counts): logging.info('Detected the same number of batteries as before. No need to re-detect.') break service = DBusService(service_name=cfg.SERVICE_NAME_PREFIX + tty) service.own_properties.set('/ResetBatteries', value=False, writable=True) # initial value = False main_loop = gobject.MainLoop() service_signals = signals.init_service_signals(batteries) publish_service_signals(service, service_signals) update_task = create_update_task(modbus, service, batteries) update_task() # run it right away, so that all props are initialized before anyone can ask watchdog_task = create_watchdog_task(main_loop) gobject.timeout_add(cfg.UPDATE_INTERVAL * 2, watchdog_task, priority = gobject.PRIORITY_LOW) # add watchdog first gobject.timeout_add(cfg.UPDATE_INTERVAL, update_task, priority = gobject.PRIORITY_LOW) # call update once every update_interval logging.info('starting gobject.MainLoop') main_loop.run() logging.info('gobject.MainLoop was shut down') sys.exit(0xFF) # reaches this only on error main(sys.argv[1:])