import os import subprocess import neopixel import requests import json import time from threading import Thread import paho.mqtt.client as mqtt from getmac import get_mac_address import board import sys SERVER_IP = '192.168.0.1' SERVER_PORT = 5000 # Dynamically obtain the MAC address of the WLAN interface wlan_mac_address = str(get_mac_address(interface="wlan0")) # Replace with the GPIO pin connected to the data input of the WS2812B LED strip LED_STRIP_PIN = board.D18 global LED_COUNT LED_COUNT = 30 global LEDS_PER_PIXEL LEDS_PER_PIXEL = 5 # Global variables for LED strip control global strip strip = neopixel.NeoPixel(pin = LED_STRIP_PIN, n = LED_COUNT, auto_write = True, pixel_order = neopixel.RGB) def register_tube(): # Register or reauthenticate the tube with the server try: response = requests.post(f'http://{SERVER_IP}:{SERVER_PORT}/register_tube', data={'mac_address': wlan_mac_address}) print(response) data = response.json() if data.get('success'): print('Tube registered successfully.') else: print(f'Registration failed: {data.get("message")}') except requests.RequestException as e: print(f'Registration failed: {e}') def get_assigned_params(): try: response = requests.get(f'http://{SERVER_IP}:{SERVER_PORT}/get_assigned_params/{wlan_mac_address}') data = response.json() if data.get('success'): return data.get('universe'), data.get('dmx_address') else: print(f'Failed to fetch assigned parameters: {data.get("message")}') return None, None except requests.RequestException as e: print(f'Failed to fetch assigned parameters: {e}') return None, None def is_connected_to_wifi(): output = subprocess.check_output(['iwgetid']).decode() return output.split('"')[1] # def update_led_strip(rgb_values, pixel, strip): # for i in range(LEDS_PER_PIXEL): # strip[int(pixel)] = Color(rgb_values[i]) # def mqtt_listner(msg, universe, dmx_address, strip, LEDS_PER_PIXEL): # try: # # Parse the topic to get universe and channel # _, dmx_universe, channel_number = msg.topic.split("/") # channel_number = int(channel_number) # # Calculate the pixel index and channel within the pixel # pixel_index = (channel_number - dmx_address) // LEDS_PER_PIXEL # channel_in_pixel = (channel_number - dmx_address) % LEDS_PER_PIXEL # # Initialize a new pixel entry if not present # if pixel_index not in pixel_data: # pixel_data[pixel_index] = [0] * LEDS_PER_PIXEL # # Update the RGB value for the corresponding channel in the pixel # pixel_data[pixel_index][channel_in_pixel] = int(msg.payload) # # Check if all three channels for the pixel are received # if len(pixel_data[pixel_index]) == LEDS_PER_PIXEL: # # Set the RGB values for the pixel in the LED strip # update_led_strip(pixel_index, pixel_data[pixel_index], strip) # # Remove the pixel entry from the temporary storage # del pixel_data[pixel_index] # except Exception as e: # print(f"Error: {e}") # def on_message(mqttc, obj, msg): # mqtt_listner(msg) def loopCheckSettingUpdates(): while True: try: global universe global dmx_address universe, dmx_address = get_assigned_params() print(universe, dmx_address) except Exception as e: print(f"Error: {e}") exit() sys.exit() time.sleep(2) if __name__ == "__main__": # Connect to Wi-Fi if is_connected_to_wifi() is not None: # Register/reauthenticate the tube register_tube() time.sleep(1) global universe global dmx_address universe, dmx_address = get_assigned_params() # mqttc = mqtt.Client(mqtt.CallbackAPIVersion.VERSION2) # mqttc.connect("192.168.0.1", 1883, 60) # mqttc.on_message = on_message # mqttc.subscribe("PiXelTubes/"+str(universe), 0) settingsUpdateThread = Thread(target=loopCheckSettingUpdates, args=()) # pixelUpdateThread = Thread(target=mqtt_listner, args=(universe, dmx_address, strip, LEDS_PER_PIXEL)) settingsUpdateThread.start() # pixelUpdateThread.start()