tannewt/PMS5003_sample.py

## PMS5003_sample.py
# Example of using the Adafruit IO CircuitPython MQTT client
# to subscribe to an Adafruit IO feed and publish random data
# to be received by the feed.
#
# Example by Tony DiCola for Adafruit Industries
# Modified by Brent Rubell for Adafruit Industries, 2019
import time
from random import randint

from pimoroni_pms5003 import PMS5003

import board
import busio
from digitalio import DigitalInOut
from adafruit_esp32spi import adafruit_esp32spi
from adafruit_esp32spi import adafruit_esp32spi_wifimanager
import adafruit_esp32spi.adafruit_esp32spi_socket as socket
import neopixel
from adafruit_io.adafruit_io import IO_MQTT
import adafruit_minimqtt as MQTT

pms5003 = PMS5003()
### WiFi ###

# Get wifi details and more from a secrets.py file
try:
    from secrets import secrets
except ImportError:
    print("WiFi secrets are kept in secrets.py, please add them there!")
    raise

# If you are using a board with pre-defined ESP32 Pins:
esp32_cs = DigitalInOut(board.D13)
esp32_ready = DigitalInOut(board.D11)
esp32_reset = DigitalInOut(board.D12)

# If you have an externally connected ESP32:
# esp32_cs = DigitalInOut(board.D9)
# esp32_ready = DigitalInOut(board.D10)
# esp32_reset = DigitalInOut(board.D5)

spi = busio.SPI(board.SCK, board.MOSI, board.MISO)
esp = adafruit_esp32spi.ESP_SPIcontrol(spi, esp32_cs, esp32_ready, esp32_reset)
"""Use below for Most Boards"""
status_light = neopixel.NeoPixel(
    board.NEOPIXEL, 1, brightness=0.2
)  # Uncomment for Most Boards
"""Uncomment below for ItsyBitsy M4"""
# status_light = dotstar.DotStar(board.APA102_SCK, board.APA102_MOSI, 1, brightness=0.2)
# Uncomment below for an externally defined RGB LED
# import adafruit_rgbled
# from adafruit_esp32spi import PWMOut
# RED_LED = PWMOut.PWMOut(esp, 26)
# GREEN_LED = PWMOut.PWMOut(esp, 27)
# BLUE_LED = PWMOut.PWMOut(esp, 25)
# status_light = adafruit_rgbled.RGBLED(RED_LED, BLUE_LED, GREEN_LED)
wifi = adafruit_esp32spi_wifimanager.ESPSPI_WiFiManager(esp, secrets, status_light)

# Define callback functions which will be called when certain events happen.
# pylint: disable=unused-argument
def connected(client):
    # Connected function will be called when the client is connected to Adafruit IO.
    # This is a good place to subscribe to feed changes.  The client parameter
    # passed to this function is the Adafruit IO MQTT client so you can make
    # calls against it easily.
    print("Connected to Adafruit IO!  Listening for DemoFeed changes...")
    # Subscribe to changes on a feed named DemoFeed.
    client.subscribe("DemoFeed")


def subscribe(client, userdata, topic, granted_qos):
    # This method is called when the client subscribes to a new feed.
    print("Subscribed to {0} with QOS level {1}".format(topic, granted_qos))


def unsubscribe(client, userdata, topic, pid):
    # This method is called when the client unsubscribes from a feed.
    print("Unsubscribed from {0} with PID {1}".format(topic, pid))


# pylint: disable=unused-argument
def disconnected(client):
    # Disconnected function will be called when the client disconnects.
    print("Disconnected from Adafruit IO!")


# pylint: disable=unused-argument
def message(client, feed_id, payload):
    # Message function will be called when a subscribed feed has a new value.
    # The feed_id parameter identifies the feed, and the payload parameter has
    # the new value.
    print("Feed {0} received new value: {1}".format(feed_id, payload))


# Connect to WiFi
print("Connecting to WiFi...")
wifi.connect()
print("Connected!")

# Initialize MQTT interface with the esp interface
MQTT.set_socket(socket, esp)

# Initialize a new MQTT Client object
mqtt_client = MQTT.MQTT(
    broker="https://io.adafruit.com",
    username=secrets["aio_user"],
    password=secrets["aio_key"],
)


# Initialize an Adafruit IO MQTT Client
io = IO_MQTT(mqtt_client)

# Connect the callback methods defined above to Adafruit IO
io.on_connect = connected
io.on_disconnect = disconnected
io.on_subscribe = subscribe
io.on_unsubscribe = unsubscribe
io.on_message = message

# Connect to Adafruit IO
print("Connecting to Adafruit IO...")
io.connect()

# Below is an example of manually publishing a new  value to Adafruit IO.
last = 0
print("Publishing a new message every 10 seconds...")
while True:
    reading = pms5003.read()
    pm2 = reading.data[1]
    # Explicitly pump the message loop.
    io.loop()
    # Send a new message every 10 seconds.
    if (time.monotonic() - last) >= 10:
#        value = randint(0, 100)
        print("Publishing {0} to DemoFeed.".format(pm2))
        io.publish("DemoFeed", pm2)
        last = time.monotonic()
	# Example of using the Adafruit IO CircuitPython MQTT client
	# to subscribe to an Adafruit IO feed and publish random data
	# to be received by the feed.
	#
	# Example by Tony DiCola for Adafruit Industries
	# Modified by Brent Rubell for Adafruit Industries, 2019
	import time
	from random import randint

	from pimoroni_pms5003 import PMS5003

	import board
	import busio
	from digitalio import DigitalInOut
	from adafruit_esp32spi import adafruit_esp32spi
	from adafruit_esp32spi import adafruit_esp32spi_wifimanager
	import adafruit_esp32spi.adafruit_esp32spi_socket as socket
	import neopixel
	from adafruit_io.adafruit_io import IO_MQTT
	import adafruit_minimqtt as MQTT

	pms5003 = PMS5003()
	### WiFi ###

	# Get wifi details and more from a secrets.py file
	try:
	from secrets import secrets
	except ImportError:
	print("WiFi secrets are kept in secrets.py, please add them there!")
	raise

	# If you are using a board with pre-defined ESP32 Pins:
	esp32_cs = DigitalInOut(board.D13)
	esp32_ready = DigitalInOut(board.D11)
	esp32_reset = DigitalInOut(board.D12)

	# If you have an externally connected ESP32:
	# esp32_cs = DigitalInOut(board.D9)
	# esp32_ready = DigitalInOut(board.D10)
	# esp32_reset = DigitalInOut(board.D5)

	spi = busio.SPI(board.SCK, board.MOSI, board.MISO)
	esp = adafruit_esp32spi.ESP_SPIcontrol(spi, esp32_cs, esp32_ready, esp32_reset)
	"""Use below for Most Boards"""
	status_light = neopixel.NeoPixel(
	board.NEOPIXEL, 1, brightness=0.2
	) # Uncomment for Most Boards
	"""Uncomment below for ItsyBitsy M4"""
	# status_light = dotstar.DotStar(board.APA102_SCK, board.APA102_MOSI, 1, brightness=0.2)
	# Uncomment below for an externally defined RGB LED
	# import adafruit_rgbled
	# from adafruit_esp32spi import PWMOut
	# RED_LED = PWMOut.PWMOut(esp, 26)
	# GREEN_LED = PWMOut.PWMOut(esp, 27)
	# BLUE_LED = PWMOut.PWMOut(esp, 25)
	# status_light = adafruit_rgbled.RGBLED(RED_LED, BLUE_LED, GREEN_LED)
	wifi = adafruit_esp32spi_wifimanager.ESPSPI_WiFiManager(esp, secrets, status_light)

	# Define callback functions which will be called when certain events happen.
	# pylint: disable=unused-argument
	def connected(client):
	# Connected function will be called when the client is connected to Adafruit IO.
	# This is a good place to subscribe to feed changes. The client parameter
	# passed to this function is the Adafruit IO MQTT client so you can make
	# calls against it easily.
	print("Connected to Adafruit IO! Listening for DemoFeed changes...")
	# Subscribe to changes on a feed named DemoFeed.
	client.subscribe("DemoFeed")


	def subscribe(client, userdata, topic, granted_qos):
	# This method is called when the client subscribes to a new feed.
	print("Subscribed to {0} with QOS level {1}".format(topic, granted_qos))


	def unsubscribe(client, userdata, topic, pid):
	# This method is called when the client unsubscribes from a feed.
	print("Unsubscribed from {0} with PID {1}".format(topic, pid))


	# pylint: disable=unused-argument
	def disconnected(client):
	# Disconnected function will be called when the client disconnects.
	print("Disconnected from Adafruit IO!")


	# pylint: disable=unused-argument
	def message(client, feed_id, payload):
	# Message function will be called when a subscribed feed has a new value.
	# The feed_id parameter identifies the feed, and the payload parameter has
	# the new value.
	print("Feed {0} received new value: {1}".format(feed_id, payload))


	# Connect to WiFi
	print("Connecting to WiFi...")
	wifi.connect()
	print("Connected!")

	# Initialize MQTT interface with the esp interface
	MQTT.set_socket(socket, esp)

	# Initialize a new MQTT Client object
	mqtt_client = MQTT.MQTT(
	broker="https://io.adafruit.com",
	username=secrets["aio_user"],
	password=secrets["aio_key"],
	)


	# Initialize an Adafruit IO MQTT Client
	io = IO_MQTT(mqtt_client)

	# Connect the callback methods defined above to Adafruit IO
	io.on_connect = connected
	io.on_disconnect = disconnected
	io.on_subscribe = subscribe
	io.on_unsubscribe = unsubscribe
	io.on_message = message

	# Connect to Adafruit IO
	print("Connecting to Adafruit IO...")
	io.connect()

	# Below is an example of manually publishing a new value to Adafruit IO.
	last = 0
	print("Publishing a new message every 10 seconds...")
	while True:
	reading = pms5003.read()
	pm2 = reading.data[1]
	# Explicitly pump the message loop.
	io.loop()
	# Send a new message every 10 seconds.
	if (time.monotonic() - last) >= 10:
	# value = randint(0, 100)
	print("Publishing {0} to DemoFeed.".format(pm2))
	io.publish("DemoFeed", pm2)
	last = time.monotonic()