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main.py
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"""
Auto-Light
Raspberry Pi controlled VL53L0X activated lights via PCA9685
"""
import argparse
import json
import logging
import sys
import threading
import atexit
import time
import socket
import platform
import functools
from ha_mqtt_discoverable import Settings as HASettings
from ha_mqtt_discoverable.sensors import (
BinarySensor,
BinarySensorInfo,
Sensor,
SensorInfo,
DeviceInfo,
Light,
LightInfo,
)
from paho.mqtt.client import Client, MQTTMessage
import psutil
from loguru import logger
from rich.traceback import install as traceback_install
from subsystems.leds import (
PCA9685LedArray,
PCA9685ExtraChannel,
LedSettings,
NullAnimation,
PowerUnits,
FadeAnimation,
)
from subsystems.sensors import VL53L0XSensor, GPIOSensor, NullSensor
from terminal import banner, is_interactive
from service import SystemdInstaller
from utils import (
surround_list,
is_os_64bit,
square_wave
)
from data_types import (
LightingData,
LIGHT_EFFECTS,
Animations,
ExtraLightData,
EXTRA_LIGHT_EFFECTS,
)
import checks
from settings import Settings
__version__ = "0.5.0"
class Main:
def __init__(self, args) -> None:
self.sensors = None
self.ha_light = None
# Application start time
startup_time = time.time()
# Visual setup
if settings.do_banner:
banner()
atexit.register(self.at_exit)
# Quick sanity checks
if not checks.run_sanity(settings):
sys.exit()
# Network connectivity test
network_available = False
while not network_available:
try:
socket.getaddrinfo(
settings.mqtt_host,
settings.mqtt_port,
)
network_available = True
except socket.gaierror as e:
logger.error(f"Network test failed, retrying, {repr(e)}")
time.sleep(1)
# MQTT
self.mqtt_settings = HASettings.MQTT(
host=settings.mqtt_host,
port=settings.mqtt_port,
username=settings.mqtt_user,
password=settings.mqtt_pass,
)
# Global lighting state
self.lighting_data = LightingData()
self.extra_lighting_data = [ExtraLightData()] * settings.extra_led_count
# Home Assistant Device Class
self.device_info = DeviceInfo(
name=settings.device_name,
identifiers=settings.device_id,
)
# Create physical and Home Assistant sensors
self.sensors, self.ha_sensors = self.create_sensors(self.device_info)
logger.info(
f"Initialized {settings.sensor_count} sensors of type {type(self.sensors[0]).__name__}"
)
self.sensor_trips = [[]] * settings.sensor_count
# Physical led outputs
self.led_array = PCA9685LedArray(
LedSettings(
led_count=settings.led_count,
freq=settings.led_freq,
fps=settings.led_fps_on,
)
)
logger.info(f"Initialized {settings.led_count} leds over PCA")
# Create Home Assistant Light
self.ha_light, self.ha_light_info = self.create_ha_light(
self.ha_light_callback, self.device_info
)
# Create Home Asisstant Extra Lights
self.extra_lights, self.ha_extra_lights = self.create_extra_lights(self.device_info)
# Create Home Assistant Debug Devices
self.cpu_sensor = None
self.mem_sensor = None
if settings.create_debug_entities:
sensor_info = SensorInfo(
device=self.device_info,
name="CPU Usage",
icon="mdi:cpu-64-bit" if is_os_64bit() else "mdi:cpu-32-bit",
unit_of_measurement="%",
unique_id="cpu",
)
self.cpu_sensor = Sensor(
HASettings(mqtt=self.mqtt_settings, entity=sensor_info)
)
sensor_info = SensorInfo(
device=self.device_info,
name="Memory Usage",
icon="mdi:memory",
unit_of_measurement="%",
unique_id="mem",
)
self.mem_sensor = Sensor(
HASettings(mqtt=self.mqtt_settings, entity=sensor_info)
)
# Launch led thread
self.led_update_thread = threading.Thread(
target=self.led_array.update_loop, daemon=True
)
self.led_update_thread.start()
# Sensor thread
self.sensor_thread = threading.Thread(target=self.sensor_loop, daemon=True)
self.sensor_thread.start()
# Animation thread
self.animator_thread = threading.Thread(target=self.animator_loop, daemon=True)
self.animator_thread.start()
# Extra Animation thread
self.extra_animator_thread = threading.Thread(target=self.extra_animator_loop, daemon=True)
if settings.extra_led_count > 0:
self.extra_animator_thread.start()
# Set light startup
time.sleep(0.1) # Home Assistant needs this small delay
self.ha_light.brightness(255)
self.ha_light.effect("Walking")
self.ha_light.on()
for light in self.ha_extra_lights:
light.brightness(255)
light.effect("Sensor")
light.on()
logger.success(f"Auto-Light version {__version__} is up!")
logger.info(f"Startup time: {round(time.time() - startup_time, 2)}s")
# Main loop
while True:
if self.cpu_sensor:
self.cpu_sensor.set_state(psutil.cpu_percent())
if self.mem_sensor:
self.mem_sensor.set_state(psutil.virtual_memory()[2])
time.sleep(settings.debug_update_rate)
def ha_light_callback(self, client: Client, user_data, message: MQTTMessage):
if not self.ha_light:
logger.error("Callback was called without an existing ha_light")
return
if not self.ha_light_info:
logger.error("Callback was called without an existing ha_light_info")
return
# Make sure received payload is json
try:
payload = json.loads(message.payload.decode())
except ValueError as e:
logging.error(f"Ony JSON schema is supported for light entities! {e}")
return
if "brightness" in payload:
self.lighting_data.brightness = payload["brightness"]
self.ha_light.brightness(payload["brightness"])
return
if "effect" in payload:
self.lighting_data.effect = LIGHT_EFFECTS[payload["effect"]]
self.ha_light.effect(payload["effect"])
return
if "state" in payload:
if payload["state"] == self.ha_light_info.payload_on:
self.lighting_data.power = True
self.ha_light.on()
else:
self.lighting_data.power = False
self.ha_light.off()
return
logger.warning(f"Unknown light payload: {payload}")
def ha_extra_light_callback(
self, client: Client, user_data, message: MQTTMessage, index: int
):
if not self.ha_extra_lights:
logger.error("Callback was called without an existing ha_extra_lights")
return
# Make sure received payload is json
try:
payload = json.loads(message.payload.decode())
except ValueError as e:
logging.error(f"Ony JSON schema is supported for light entities! {e}")
return
if "brightness" in payload:
self.extra_lighting_data[index].brightness = payload["brightness"]
self.ha_extra_lights[index].brightness(payload["brightness"])
return
if "effect" in payload:
self.extra_lighting_data[index].effect = EXTRA_LIGHT_EFFECTS[
payload["effect"]
]
self.ha_extra_lights[index].effect(payload["effect"])
return
if "state" in payload:
if payload["state"] == self.ha_light_info.payload_on:
self.extra_lighting_data[index].power = True
self.ha_extra_lights[index].on()
else:
self.extra_lighting_data[index].power = False
self.ha_extra_lights[index].off()
return
def create_ha_light(self, callback, device_info):
# Information about the light
ha_light_info = LightInfo(
name=settings.light_name,
icon=settings.light_icon,
device=device_info,
unique_id=settings.light_id,
brightness=True,
color_mode=False,
effect=True,
effect_list=list(LIGHT_EFFECTS.keys()),
)
ha_light_settings = HASettings(mqtt=self.mqtt_settings, entity=ha_light_info)
ha_light = Light(ha_light_settings, callback)
start_connect_time = time.time()
while not ha_light.mqtt_client.is_connected():
if time.time() - start_connect_time > settings.mqtt_timeout:
logger.critical("MQTT Client Timeout")
sys.exit()
time.sleep(0.05)
logger.success("MQTT Client Connected")
return ha_light, ha_light_info
def create_extra_lights(self, device_info):
logger.debug(f"Using extra light config: {settings.extra_led_settings}")
if not self.ha_light:
logger.critical(
"Extra lights are being created before main lights. Exiting"
)
sys.exit()
ha_lights: list[Light] = []
extra_lights: list[PCA9685ExtraChannel] = []
for i in range(settings.extra_led_count):
# Information about the light
ha_light_info = LightInfo(
name=settings.extra_led_settings[i].get(
"ha_name",
f"Extra Channel {settings.extra_led_settings[i].get('channel', '?')}",
),
icon=settings.extra_led_settings[i].get("ha_icon", "mdi:lightbulb"),
device=device_info,
unique_id=settings.extra_led_settings[i].get(
"ha_id",
f"extra{settings.extra_led_settings[i].get('channel')}",
),
brightness=True,
color_mode=False,
effect=True,
effect_list=list(EXTRA_LIGHT_EFFECTS.keys()),
)
ha_light_settings = HASettings(
mqtt=self.mqtt_settings, entity=ha_light_info
)
ha_lights.append(
Light(
ha_light_settings,
functools.partial(self.ha_extra_light_callback, index=i),
)
)
sensor_setting = settings.extra_led_settings[i].get('sensor')
if sensor_setting.get("type") == "gpio":
sensor = GPIOSensor(
sensor_setting.get("pin"),
sensor_setting.get("invert", False),
sensor_setting.get("pullup", False),
sensor_setting.get("bounce_time", 0)
)
else:
sensor = NullSensor()
extra_lights.append(
PCA9685ExtraChannel(
self.led_array,
settings.extra_led_settings[i].get('channel'),
sensor
)
)
return extra_lights, ha_lights
def create_sensors(self, device_info):
sensors: list[VL53L0XSensor | GPIOSensor] = []
vl_sensors: list[VL53L0XSensor] = []
vl_budgets: list[int] = []
io_sensors: list[GPIOSensor] = []
ha_sensors: list[BinarySensor] = []
for sensor in settings.sensor_settings:
logger.trace(f"Adding new sensor, {sensor}")
if sensor.get("type") == "vl53l0x_i2c":
s = VL53L0XSensor(
sensor.get("xshut_pin"), trip_distance=sensor.get("calibration")
)
vl_budgets.append(sensor.get("timing_budget"))
vl_sensors.append(s)
else:
s = GPIOSensor(
sensor.get("pin"),
sensor.get("invert", False),
sensor.get("pullup", False),
sensor.get("bounce_time", 0.0),
)
io_sensors.append(s)
sensors.append(s)
for index, s in enumerate(vl_sensors):
# Physical device
vl_sensors[index].begin()
vl_sensors[index].timing_budget = vl_budgets[index]
for index in range(len(sensors)):
# HA entity
sensor_info = BinarySensorInfo(
name=settings.sensor_naming_scheme.format(index+1),
device_class=settings.sensor_device_class,
unique_id=settings.sensor_id_scheme.format(index),
device=device_info,
)
ha_sensor = BinarySensor(
HASettings(mqtt=self.mqtt_settings, entity=sensor_info)
)
ha_sensors.append(ha_sensor)
return sensors, ha_sensors
def sensor_loop(self):
while True:
for i, s in enumerate(self.sensors):
self.sensor_trips[i] = s.tripped
self.ha_sensors[i]._update_state(self.sensor_trips[i])
if isinstance(s, VL53L0XSensor):
self.ha_sensors[i].set_attributes({"distance": s.distance})
time.sleep(0.05)
def animator_loop(self):
logger.info("Animation loop started")
while True:
time.sleep(
1
/ (
settings.led_fps_on
if self.lighting_data.power
else settings.led_fps_off
)
)
if self.lighting_data.power is False:
for index in range(settings.led_count):
self.led_array.set_power_state(index, False)
continue
if self.lighting_data.effect == Animations.WALKING:
powers = surround_list(self.sensor_trips, settings.walking_activation_radius)
for index, value in enumerate(powers):
self.led_array.set_power_state(index, value)
self.led_array.set_brightness(
index, self.lighting_data.brightness, PowerUnits.BITS8
)
self.led_array.set_animation(index, NullAnimation())
elif self.lighting_data.effect == Animations.STEADY:
for i in range(settings.led_count):
self.led_array.set_power_state(i, True)
self.led_array.set_brightness(
i, self.lighting_data.brightness, PowerUnits.BITS8
)
self.led_array.set_animation(i, NullAnimation())
elif self.lighting_data.effect == Animations.BLINK:
if square_wave(time.time(), settings.blink_animation_hz, 1) == 1:
for index in range(settings.led_count):
self.led_array.set_power_state(index, True)
self.led_array.set_brightness(
index, self.lighting_data.brightness, PowerUnits.BITS8
)
self.led_array.set_animation(index, NullAnimation())
else:
for index in range(settings.led_count):
self.led_array.set_power_state(index, False)
self.led_array.set_brightness(
index, self.lighting_data.brightness, PowerUnits.BITS8
)
self.led_array.set_animation(index, NullAnimation())
elif self.lighting_data.effect == Animations.FADE:
for index in range(settings.led_count):
self.led_array.set_power_state(index, True)
self.led_array.set_brightness(
index, self.lighting_data.brightness, PowerUnits.BITS8
)
self.led_array.set_animation(
index,
FadeAnimation(settings.fade_animation_multiplier),
)
def extra_animator_loop(self):
while True:
time.sleep(1 / settings.led_fps_on)
for index, light in enumerate(self.extra_lights):
light.animation_cycle(self.extra_lighting_data[index])
def at_exit(self):
for sensor in self.sensors:
if isinstance(sensor, VL53L0XSensor):
sensor.end()
logger.info("Auto-Light stopped")
if __name__ == "__main__":
# CLI Argument Parser
parser = argparse.ArgumentParser(
prog="Auto-Light",
description="Control up to 16 leds with ToF sensors and additional GPIO channels",
)
parser.add_argument(
"--version",
action="version",
version=f"%(prog)s {__version__}, using Python {platform.python_version()}",
)
parser.add_argument(
"-c",
"--config",
default="config.yaml",
type=str,
help="YAML based configuration path",
action="store",
)
parser.add_argument(
"-V",
"--verbose",
default=False,
help="Enable verbose logging",
action="store_true",
)
parser.add_argument(
"-Vt",
"--trace",
default=False,
help="Enable extra-verbose trace logging",
action="store_true",
)
parser.add_argument(
"--systemd-install",
default=False,
help="Install systemd service to start on boot",
action="store_true",
)
args = parser.parse_args()
# Load settings
settings = Settings(args.config)
# Create logger
if settings.rich_tracebacks and is_interactive():
traceback_install(show_locals=True)
if args.trace:
log_level = 0
elif args.verbose:
log_level = logging.DEBUG
elif is_interactive():
log_level = settings.interactive_log_level
else:
log_level = settings.regular_log_level
logger.remove()
logger.add(sys.stderr, level=log_level)
if settings.log_to_file:
logger.add(settings.log_file_path, level=log_level)
# Run mode
if args.systemd_install:
main = SystemdInstaller()
else:
main = Main(args)