''' ____ _ ____ _ / ___| / \ | _ \ / \ \___ \ / _ \ | |_) | / _ \ ___) / ___ \| _ < / ___ \ |____/_/ \_\_| \_\/_/ \_\ Script to send UDP message /usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/UDP/sendUDP_message.py ''' import serial import time import sys import json import re ser_sara = serial.Serial( port='/dev/ttyAMA2', baudrate=115200, #115200 ou 9600 parity=serial.PARITY_NONE, #PARITY_NONE, PARITY_EVEN or PARITY_ODD stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 2 ) def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2, wait_for_lines=None, debug=True): ''' Fonction très importante !!! Reads the complete response from a serial connection and waits for specific lines. ''' if wait_for_lines is None: wait_for_lines = [] # Default to an empty list if not provided response = bytearray() serial_connection.timeout = timeout end_time = time.time() + end_of_response_timeout start_time = time.time() while True: elapsed_time = time.time() - start_time # Time since function start if serial_connection.in_waiting > 0: data = serial_connection.read(serial_connection.in_waiting) response.extend(data) end_time = time.time() + end_of_response_timeout # Reset timeout on new data # Decode and check for any target line decoded_response = response.decode('utf-8', errors='replace') for target_line in wait_for_lines: if target_line in decoded_response: if debug: print(f"[DEBUG] 🔎 Found target line: {target_line} (in {elapsed_time:.2f}s)") return decoded_response # Return response immediately if a target line is found elif time.time() > end_time: if debug: print(f"[DEBUG] Timeout reached. No more data received.") break time.sleep(0.1) # Short sleep to prevent busy waiting # Final response and debug output total_elapsed_time = time.time() - start_time if debug: print(f"[DEBUG] ⏱️ elapsed time: {total_elapsed_time:.2f}s. ⏱️") # Check if the elapsed time exceeded 10 seconds if total_elapsed_time > 10 and debug: print(f"[ALERT] 🚨 The operation took too long 🚨") print(f'[ALERT] ⚠️{total_elapsed_time:.2f}s⚠️') return response.decode('utf-8', errors='replace') # Return the full response if no target line is found try: print('Start script') # Increase verbosity command = f'AT+CMEE=2\r' ser_sara.write(command.encode('utf-8')) response_SARA_1 = read_complete_response(ser_sara, wait_for_lines=["OK", "ERROR"]) print(response_SARA_1, end="") time.sleep(1) # 1. Create SOCKET print('➡️Create SOCKET') command = f'AT+USOCR=17\r' ser_sara.write(command.encode('utf-8')) response_SARA_1 = read_complete_response(ser_sara, wait_for_lines=["OK", "ERROR"]) print(response_SARA_1, end="") time.sleep(1) # 2. Retreive Socket ID match = re.search(r'\+USOCR:\s*(\d+)', response_SARA_1) if match: socket_id = match.group(1) print(f"Socket ID: {socket_id}") else: print("Failed to extract socket ID") #3. Connect to UDP server print("Connect to server:") command = f'AT+USOCO={socket_id},"192.168.0.20",4242\r' ser_sara.write(command.encode('utf-8')) response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["OK", "+CME ERROR", "ERROR"], debug=False) print(response_SARA_2) # 4. Write data and send print("Write data:") command = f'AT+USOWR={socket_id},10\r' ser_sara.write(command.encode('utf-8')) response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["@","OK", "+CME ERROR", "ERROR"], debug=False) print(response_SARA_2) ser_sara.write("1234567890".encode()) response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["@","OK", "+CME ERROR", "ERROR"], debug=False) print(response_SARA_2) #Close socket print("Close socket:") command = f'AT+USOCL={socket_id}\r' ser_sara.write(command.encode('utf-8')) response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["OK", "+CME ERROR", "ERROR"], debug=False) print(response_SARA_2) except Exception as e: print("An error occurred:", e) traceback.print_exc() # This prints the full traceback