import time import os from datetime import datetime try: import requests from rpi_ws281x import * import RPi.GPIO as GPIO import socket import threading except ImportError: print('Some modules are missing. Try to install them with "pip3 install -r requirements.txt"') exit() led_power = True idle_mode = 1 global power_button_pressed power_button_pressed = False # LED strip configuration: LED_COUNT = 60 # Number of LED pixels. LED_PIN = 18 # GPIO pin connected to the pixels (18 uses PWM!). #LED_PIN = 10 # GPIO pin connected to the pixels (10 uses SPI /dev/spidev0.0). LED_FREQ_HZ = 800000 # LED signal frequency in hertz (usually 800khz) LED_DMA = 10 # DMA channel to use for generating signal (try 10) LED_BRIGHTNESS = 255 # Set to 0 for darkest and 255 for brightest LED_INVERT = False # True to invert the signal (when using NPN transistor level shift) LED_CHANNEL = 0 # set to '1' for GPIOs 13, 19, 41, 45 or 53 global SOCKET_BIND_IP SOCKET_BIND_IP = '192.168.190.173' global SOCKET_BIND_PORT SOCKET_BIND_PORT = 5760 def debug_print(message: str): now = datetime.now() current_time = now.strftime("%H:%M:%S") print('[DEBUG]['+current_time+'] '+message) def check_internet(url='http://www.google.com/', timeout=1): try: _ = requests.head(url, timeout=timeout) return True except requests.ConnectionError: return False def wheel(pos): if pos < 85: return Color(pos * 3, 255 - pos * 3, 0) elif pos < 170: pos -= 85 return Color(255 - pos * 3, 0, pos * 3) else: pos -= 170 return Color(0, pos * 3, 255 - pos * 3) def rainbowCycle(strip, wait_ms=5, iterations=10): for j in range(256*iterations): if power_button_pressed == True: break elif idle_mode > 1: break for i in range(strip.numPixels()): strip.setPixelColor(i, wheel((int(i * 256 / strip.numPixels()) + j) & 255)) strip.show() time.sleep(wait_ms/1000.0) def setColor(strip, color, wait_ms=10): for i in range(strip.numPixels()): strip.setPixelColor(i, color) strip.show() time.sleep(wait_ms/1000.0) def blink(strip, color1, color2): for i in range(strip.numPixels()): strip.setPixelColor(i, color1) strip.show() time.sleep(1) for i in range(strip.numPixels()): strip.setPixelColor(i, color2) strip.show() time.sleep(1) def change_idle_mode(channel): global idle_mode idle_mode += 1 if idle_mode == 8: idle_mode = 1 debug_print('Change Idlemode executed') def power_toggle(channel): if led_power == True: led_power = False debug_print('LED Power OFF') else: led_power = True debug_print('LED Power ON') def socket_listener(): with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s: s.bind((SOCKET_BIND_IP, SOCKET_BIND_PORT)) s.listen() return s.accept() if __name__ == '__main__': strip = Adafruit_NeoPixel(LED_COUNT, LED_PIN, LED_FREQ_HZ, LED_DMA, LED_INVERT, LED_BRIGHTNESS, LED_CHANNEL) strip.begin() GPIO.setmode(GPIO.BOARD) GPIO.setup(13, GPIO.IN, pull_up_down=GPIO.PUD_UP) GPIO.setup(19, GPIO.IN, pull_up_down=GPIO.PUD_UP) GPIO.add_event_detect(13, GPIO.RISING, callback=power_toggle, bouncetime=300) GPIO.add_event_detect(19, GPIO.RISING, callback=change_idle_mode, bouncetime=300) threading.Thread(target=socket_listener).start() try: while True: conn, addr = socket_listener() socket_data = conn.recv(1024) print(socket_data) print(type(socket_data)) if led_power == True: if check_internet() == False: blink(strip, Color(255,0,0), Color(255,255,255)) else: if idle_mode == 1: rainbowCycle(strip) elif idle_mode == 2: setColor(strip, Color(255,0,0)) elif idle_mode == 3: setColor(strip, Color(0,255,0)) elif idle_mode == 4: setColor(strip, Color(0,0,255)) elif idle_mode == 5: setColor(strip, Color(125,245,255)) elif idle_mode == 6: setColor(strip, Color(255,0,100)) elif idle_mode == 7: setColor(strip, Color(0,255,255)) else: blink(strip, Color(255,0,0), Color(0,0,0)) time.sleep(1) else: setColor(strip, Color(0,0,0)) time.sleep(1) except KeyboardInterrupt: setColor(strip, Color(0,0,0)) GPIO.cleanup()