Simple test

Ensure your device works with this simple test.

examples/gc_iot_core_simpletest.py
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import time
import board
import busio
from digitalio import DigitalInOut
import neopixel
from adafruit_esp32spi import adafruit_esp32spi
from adafruit_esp32spi import adafruit_esp32spi_wifimanager
import adafruit_esp32spi.adafruit_esp32spi_socket as socket

import adafruit_minimqtt.adafruit_minimqtt as MQTT
from adafruit_gc_iot_core import Cloud_Core, MQTT_API

### 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.ESP_CS)
esp32_ready = DigitalInOut(board.ESP_BUSY)
esp32_reset = DigitalInOut(board.ESP_RESET)

# 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)

### Code ###

# Define callback methods which are called when events occur
# pylint: disable=unused-argument, redefined-outer-name
def connect(client, userdata, flags, rc):
    # This function will be called when the client is connected
    # successfully to the broker.
    print("Connected to MQTT Broker!")
    print("Flags: {0}\n RC: {1}".format(flags, rc))
    # Subscribes to commands/# topic
    google_mqtt.subscribe_to_all_commands()

    # Publish to the default "events" topic
    google_mqtt.publish("testing", "events", qos=1)


def disconnect(client, userdata, rc):
    # This method is called when the client disconnects
    # from the broker.
    print("Disconnected from MQTT Broker!")


def subscribe(client, userdata, topic, granted_qos):
    # This method is called when the client subscribes to a new topic.
    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 topic.
    print("Unsubscribed from {0} with PID {1}".format(topic, pid))


def publish(client, userdata, topic, pid):
    # This method is called when the client publishes data to a topic.
    print("Published to {0} with PID {1}".format(topic, pid))


def message(client, topic, msg):
    # This method is called when the client receives data from a topic.
    print("Message from {}: {}".format(topic, msg))


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

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

# Initialize Google Cloud IoT Core interface
google_iot = Cloud_Core(esp, secrets)

# Optional JSON-Web-Token (JWT) Generation
# print("Generating JWT...")
# jwt = google_iot.generate_jwt()
# print("Your JWT is: ", jwt)

# Set up a new MiniMQTT Client
client = MQTT.MQTT(
    broker=google_iot.broker,
    username=google_iot.username,
    password=secrets["jwt"],
    client_id=google_iot.cid,
)

# Initialize Google MQTT API Client
google_mqtt = MQTT_API(client)

# Connect callback handlers to Google MQTT Client
google_mqtt.on_connect = connect
google_mqtt.on_disconnect = disconnect
google_mqtt.on_subscribe = subscribe
google_mqtt.on_unsubscribe = unsubscribe
google_mqtt.on_publish = publish
google_mqtt.on_message = message

print("Attempting to connect to %s" % client.broker)
google_mqtt.connect()

# Pump the message loop forever, all events are
# handled in their callback handlers
# while True:
#    google_mqtt.loop()

# Start a blocking message loop...
# NOTE: NO code below this loop will execute
# NOTE: Network reconnection is handled within this loop
while True:
    try:
        google_mqtt.loop()
    except (ValueError, RuntimeError) as e:
        print("Failed to get data, retrying\n", e)
        wifi.reset()
        google_mqtt.reconnect()
        continue
    time.sleep(1)