Connect to WiFi
OK, now that you have your settings.toml file set up - you can connect to the Internet.
To do this, you need to first install a few libraries, into the lib folder on your CIRCUITPY drive. Then you need to update code.py with the example script.
Thankfully, we can do this in one go. In the example below, click the Download Project Bundle button below to download the necessary libraries and the code.py file in a zip file. Extract the contents of the zip file, open the directory examples/ and then click on the directory that matches the version of CircuitPython you're using and copy the contents of that directory to your CIRCUITPY drive.
Your CIRCUITPY drive should now look similar to the following image:
If you are using CircuitPython 9.0.x on a board with frozen libraries, such the Matrix Portal M4, use this version of the "Internet Connect" program. If you are using CircuitPython 9.1.0 or later, use the second version below.
# SPDX-FileCopyrightText: 2019 ladyada for Adafruit Industries # SPDX-License-Identifier: MIT from os import getenv import board import busio from digitalio import DigitalInOut import adafruit_connection_manager import adafruit_requests from adafruit_esp32spi import adafruit_esp32spi # Get wifi details and more from a settings.toml file # tokens used by this Demo: CIRCUITPY_WIFI_SSID, CIRCUITPY_WIFI_PASSWORD secrets = { "ssid": getenv("CIRCUITPY_WIFI_SSID"), "password": getenv("CIRCUITPY_WIFI_PASSWORD"), } if secrets == {"ssid": None, "password": None}: try: # Fallback on secrets.py until depreciation is over and option is removed from secrets import secrets except ImportError: print("WiFi secrets are kept in settings.toml, please add them there!") raise print("ESP32 SPI webclient test") TEXT_URL = "http://wifitest.adafruit.com/testwifi/index.html" JSON_URL = "http://api.coindesk.com/v1/bpi/currentprice/USD.json" # 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 AirLift Shield: # esp32_cs = DigitalInOut(board.D10) # esp32_ready = DigitalInOut(board.D7) # esp32_reset = DigitalInOut(board.D5) # If you have an AirLift Featherwing or ItsyBitsy Airlift: # esp32_cs = DigitalInOut(board.D13) # esp32_ready = DigitalInOut(board.D11) # esp32_reset = DigitalInOut(board.D12) # If you have an externally connected ESP32: # NOTE: You may need to change the pins to reflect your wiring # esp32_cs = DigitalInOut(board.D9) # esp32_ready = DigitalInOut(board.D10) # esp32_reset = DigitalInOut(board.D5) # Secondary (SCK1) SPI used to connect to WiFi board on Arduino Nano Connect RP2040 if "SCK1" in dir(board): spi = busio.SPI(board.SCK1, board.MOSI1, board.MISO1) else: spi = busio.SPI(board.SCK, board.MOSI, board.MISO) esp = adafruit_esp32spi.ESP_SPIcontrol(spi, esp32_cs, esp32_ready, esp32_reset) pool = adafruit_connection_manager.get_radio_socketpool(esp) ssl_context = adafruit_connection_manager.get_radio_ssl_context(esp) requests = adafruit_requests.Session(pool, ssl_context) if esp.status == adafruit_esp32spi.WL_IDLE_STATUS: print("ESP32 found and in idle mode") print("Firmware vers.", esp.firmware_version.decode("utf-8")) print("MAC addr:", ":".join("%02X" % byte for byte in esp.MAC_address)) for ap in esp.scan_networks(): print("\t%-23s RSSI: %d" % (str(ap["ssid"], "utf-8"), ap["rssi"])) print("Connecting to AP...") while not esp.is_connected: try: esp.connect_AP(secrets["ssid"], secrets["password"]) except OSError as e: print("could not connect to AP, retrying: ", e) continue print("Connected to", str(esp.ssid, "utf-8"), "\tRSSI:", esp.rssi) print("My IP address is", esp.pretty_ip(esp.ip_address)) print( "IP lookup adafruit.com: %s" % esp.pretty_ip(esp.get_host_by_name("adafruit.com")) ) print("Ping google.com: %d ms" % esp.ping("google.com")) # esp._debug = True print("Fetching text from", TEXT_URL) r = requests.get(TEXT_URL) print("-" * 40) print(r.text) print("-" * 40) r.close() print() print("Fetching json from", JSON_URL) r = requests.get(JSON_URL) print("-" * 40) print(r.json()) print("-" * 40) r.close() print("Done!")
If you are using CircuitPython 9.1.0, or using the latest version of the ESP32SPI library, using the version below. If you are using CircuitPython 9.0.x on a board with frozen libraries, such as the Matrix Portal M4, use the first version above.
# SPDX-FileCopyrightText: 2019 ladyada for Adafruit Industries # SPDX-License-Identifier: MIT from os import getenv import board import busio from digitalio import DigitalInOut import adafruit_connection_manager import adafruit_requests from adafruit_esp32spi import adafruit_esp32spi # Get wifi details and more from a settings.toml file # tokens used by this Demo: CIRCUITPY_WIFI_SSID, CIRCUITPY_WIFI_PASSWORD secrets = { "ssid": getenv("CIRCUITPY_WIFI_SSID"), "password": getenv("CIRCUITPY_WIFI_PASSWORD"), } if secrets == {"ssid": None, "password": None}: try: # Fallback on secrets.py until depreciation is over and option is removed from secrets import secrets except ImportError: print("WiFi secrets are kept in settings.toml, please add them there!") raise print("ESP32 SPI webclient test") TEXT_URL = "http://wifitest.adafruit.com/testwifi/index.html" JSON_URL = "http://api.coindesk.com/v1/bpi/currentprice/USD.json" # 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 AirLift Shield: # esp32_cs = DigitalInOut(board.D10) # esp32_ready = DigitalInOut(board.D7) # esp32_reset = DigitalInOut(board.D5) # If you have an AirLift Featherwing or ItsyBitsy Airlift: # esp32_cs = DigitalInOut(board.D13) # esp32_ready = DigitalInOut(board.D11) # esp32_reset = DigitalInOut(board.D12) # If you have an externally connected ESP32: # NOTE: You may need to change the pins to reflect your wiring # esp32_cs = DigitalInOut(board.D9) # esp32_ready = DigitalInOut(board.D10) # esp32_reset = DigitalInOut(board.D5) # Secondary (SCK1) SPI used to connect to WiFi board on Arduino Nano Connect RP2040 if "SCK1" in dir(board): spi = busio.SPI(board.SCK1, board.MOSI1, board.MISO1) else: spi = busio.SPI(board.SCK, board.MOSI, board.MISO) esp = adafruit_esp32spi.ESP_SPIcontrol(spi, esp32_cs, esp32_ready, esp32_reset) pool = adafruit_connection_manager.get_radio_socketpool(esp) ssl_context = adafruit_connection_manager.get_radio_ssl_context(esp) requests = adafruit_requests.Session(pool, ssl_context) if esp.status == adafruit_esp32spi.WL_IDLE_STATUS: print("ESP32 found and in idle mode") print("Firmware vers.", esp.firmware_version) print("MAC addr:", ":".join("%02X" % byte for byte in esp.MAC_address)) for ap in esp.scan_networks(): print("\t%-23s RSSI: %d" % (ap.ssid, ap.rssi)) print("Connecting to AP...") while not esp.is_connected: try: esp.connect_AP(secrets["ssid"], secrets["password"]) except OSError as e: print("could not connect to AP, retrying: ", e) continue print("Connected to", esp.ap_info.ssid, "\tRSSI:", esp.ap_info.rssi) print("My IP address is", esp.ipv4_address) print( "IP lookup adafruit.com: %s" % esp.pretty_ip(esp.get_host_by_name("adafruit.com")) ) print("Ping google.com: %d ms" % esp.ping("google.com")) # esp._debug = True print("Fetching text from", TEXT_URL) r = requests.get(TEXT_URL) print("-" * 40) print(r.text) print("-" * 40) r.close() print() print("Fetching json from", JSON_URL) r = requests.get(JSON_URL) print("-" * 40) print(r.json()) print("-" * 40) r.close() print("Done!")
And save it to your board, with the name code.py.
Don't forget you'll also need to create the settings.toml file as seen above, with your WiFi ssid and password.
In a serial console, you should see something like the following. For more information about connecting with a serial console, view the guide Connecting to the Serial Console.
In order, the example code...
Initializes the ESP32 over SPI using the SPI port and 3 control pins:
esp32_cs = DigitalInOut(board.ESP_CS) esp32_ready = DigitalInOut(board.ESP_BUSY) esp32_reset = DigitalInOut(board.ESP_RESET) #... else: spi = busio.SPI(board.SCK, board.MOSI, board.MISO) esp = adafruit_esp32spi.ESP_SPIcontrol(spi, esp32_cs, esp32_ready, esp32_reset)
Gets the socket pool and the SSL context, and then tells the adafruit_requests
library about them.
pool = adafruit_connection_manager.get_radio_socketpool(esp) ssl_context = adafruit_connection_manager.get_radio_ssl_context(esp) requests = adafruit_requests.Session(pool, ssl_context)
Verifies an ESP32 is found, checks the firmware and MAC address
if esp.status == adafruit_esp32spi.WL_IDLE_STATUS: print("ESP32 found and in idle mode") print("Firmware vers.", esp.firmware_version) print("MAC addr:", [hex(i) for i in esp.MAC_address])
Performs a scan of all access points it can see and prints out the name and signal strength:
for ap in esp.scan_networks(): print("\t%s\t\tRSSI: %d" % (str(ap['ssid'], 'utf-8'), ap['rssi']))
Connects to the AP we've defined here, then prints out the local IP address, attempts to do a domain name lookup and ping google.com to check network connectivity (note sometimes the ping fails or takes a while, this isn't a big deal)
print("Connecting to AP...") while not esp.is_connected: try: esp.connect_AP(secrets["ssid"], secrets["password"]) except RuntimeError as e: print("could not connect to AP, retrying: ", e) continue print("Connected to", str(esp.ssid, "utf-8"), "\tRSSI:", esp.rssi) print("My IP address is", esp.pretty_ip(esp.ip_address)) print( "IP lookup adafruit.com: %s" % esp.pretty_ip(esp.get_host_by_name("adafruit.com"))
OK now we're getting to the really interesting part. With a SAMD51 or other large-RAM (well, over 32 KB) device, we can do a lot of neat tricks. Like for example we can implement an interface a lot like requests - which makes getting data really really easy
To read in all the text from a web URL call requests.get
- you can pass in https
URLs for SSL connectivity
TEXT_URL = "http://wifitest.adafruit.com/testwifi/index.html" print("Fetching text from", TEXT_URL) r = requests.get(TEXT_URL) print('-'*40) print(r.text) print('-'*40) r.close()
Or, if the data is in structured JSON, you can get the json pre-parsed into a Python dictionary that can be easily queried or traversed. (Again, only for nRF52840, M4 and other high-RAM boards)
JSON_URL = "http://api.coindesk.com/v1/bpi/currentprice/USD.json" print("Fetching json from", JSON_URL) r = requests.get(JSON_URL) print('-'*40) print(r.json()) print('-'*40) r.close()
Requests
To use with CircuitPython, you need to first install a few libraries, into the lib folder on your CIRCUITPY drive. Then you need to update code.py with the example script.
Thankfully, we can do this in one go. In the example below, click the Download Project Bundle button below to download the necessary libraries and the code.py file in a zip file. Extract the contents of the zip file, open the directory examples/ and then click on the directory that matches the version of CircuitPython you're using and copy the contents of that directory to your CIRCUITPY drive.
Your CIRCUITPY drive should now look similar to the following image:
Temporarily unable to load content:
The code first sets up the ESP32SPI interface. Then, it initializes a request
object using an ESP32 socket
and the esp
object.
import board import busio from digitalio import DigitalInOut import adafruit_esp32spi.adafruit_esp32spi_socket as socket from adafruit_esp32spi import adafruit_esp32spi import adafruit_connection_manager import adafruit_requests as requests # 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) print("Connecting to AP...") while not esp.is_connected: try: esp.connect_AP(b'MY_SSID_NAME', b'MY_SSID_PASSWORD') except RuntimeError as e: print("could not connect to AP, retrying: ",e) continue print("Connected to", str(esp.ssid, 'utf-8'), "\tRSSI:", esp.rssi) pool = adafruit_connection_manager.get_radio_socketpool(esp) ssl_context = adafruit_connection_manager.get_radio_ssl_context(esp) requests = adafruit_requests.Session(pool, ssl_context)
HTTP GET with Requests
The code makes a HTTP GET request to Adafruit's WiFi testing website - http://wifitest.adafruit.com/testwifi/index.html.
To do this, we'll pass the URL into requests.get()
. We're also going to save the response from the server into a variable named response
.
Having requested data from the server, we'd now like to see what the server responded with. Since we already saved the server's response
, we can read it back. Luckily for us, requests automatically decodes the server's response into human-readable text, you can read it back by calling response.text
.
Lastly, we'll perform a bit of cleanup by calling response.close()
. This closes, deletes, and collect's the response's data.
print("Fetching text from %s"%TEXT_URL) response = requests.get(TEXT_URL) print('-'*40) print("Text Response: ", response.text) print('-'*40) response.close()
While some servers respond with text, some respond with json-formatted data consisting of attribute–value pairs.
CircuitPython_Requests can convert a JSON-formatted response from a server into a CPython dict.
object.
We can also fetch and parse json data. We'll send a HTTP get to a url we know returns a json-formatted response (instead of text data).
Then, the code calls response.json()
to convert the response to a CPython dict
.
print("Fetching JSON data from %s"%JSON_GET_URL) response = requests.get(JSON_GET_URL) print('-'*40) print("JSON Response: ", response.json()) print('-'*40) response.close()
HTTP POST with Requests
Requests can also POST data to a server by calling the requests.post
method, passing it a data
value.
data = '31F' print("POSTing data to {0}: {1}".format(JSON_POST_URL, data)) response = requests.post(JSON_POST_URL, data=data) print('-'*40) json_resp = response.json() # Parse out the 'data' key from json_resp dict. print("Data received from server:", json_resp['data']) print('-'*40) response.close()
You can also post json-formatted data to a server by passing json_data
into the requests.post
method.
json_data = {"Date" : "July 25, 2019"} print("POSTing data to {0}: {1}".format(JSON_POST_URL, json_data)) response = requests.post(JSON_POST_URL, json=json_data) print('-'*40) json_resp = response.json() # Parse out the 'json' key from json_resp dict. print("JSON Data received from server:", json_resp['json']) print('-'*40) response.close()
Advanced Requests Usage
Want to send custom HTTP headers, parse the response as raw bytes, or handle a response's http status code in your CircuitPython code?
We've written an example to show advanced usage of the requests module below.
To use with CircuitPython, you need to first install a few libraries, into the lib folder on your CIRCUITPY drive. Then you need to update code.py with the example script.
Thankfully, we can do this in one go. In the example below, click the Download Project Bundle button below to download the necessary libraries and the code.py file in a zip file. Extract the contents of the zip file, open the directory examples/ and then click on the directory that matches the version of CircuitPython you're using and copy the contents of that directory to your CIRCUITPY drive.
Your CIRCUITPY drive should now look similar to the following image:
Temporarily unable to load content:
WiFi Manager
That simpletest example works but it's a little finicky - you need to constantly check WiFi status and have many loops to manage connections and disconnections. For more advanced uses, we recommend using the WiFiManager object. It will wrap the connection/status/requests loop for you - reconnecting if WiFi drops, resetting the ESP32 if it gets into a bad state, etc.
Here's a more advanced example that shows the WiFi manager and also how to POST data with some extra headers:
To use with CircuitPython, you need to first install a few libraries, into the lib folder on your CIRCUITPY drive. Then you need to update code.py with the example script.
Thankfully, we can do this in one go. In the example below, click the Download Project Bundle button below to download the necessary libraries and the code.py file in a zip file. Extract the contents of the zip file, open the directory examples/ and then click on the directory that matches the version of CircuitPython you're using and copy the contents of that directory to your CIRCUITPY drive.
Your CIRCUITPY drive should now look similar to the following image:
# SPDX-FileCopyrightText: 2019 ladyada for Adafruit Industries # SPDX-License-Identifier: MIT import time from os import getenv import board import busio from digitalio import DigitalInOut import neopixel from adafruit_esp32spi import adafruit_esp32spi from adafruit_esp32spi import adafruit_esp32spi_wifimanager print("ESP32 SPI webclient test") # Get wifi details and more from a settings.toml file # tokens used by this Demo: CIRCUITPY_WIFI_SSID, CIRCUITPY_WIFI_PASSWORD # CIRCUITPY_AIO_USERNAME, CIRCUITPY_AIO_KEY secrets = {} for token in ["ssid", "password"]: if getenv("CIRCUITPY_WIFI_" + token.upper()): secrets[token] = getenv("CIRCUITPY_WIFI_" + token.upper()) for token in ["aio_username", "aio_key"]: if getenv("CIRCUITPY_" + token.upper()): secrets[token] = getenv("CIRCUITPY_" + token.upper()) if not secrets: try: # Fallback on secrets.py until depreciation is over and option is removed from secrets import secrets except ImportError: print("WiFi secrets are kept in settings.toml, 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) # Secondary (SCK1) SPI used to connect to WiFi board on Arduino Nano Connect RP2040 if "SCK1" in dir(board): spi = busio.SPI(board.SCK1, board.MOSI1, board.MISO1) else: 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 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 (including Arduino Nano Connect)""" # 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) counter = 0 while True: try: print("Posting data...", end="") data = counter feed = "test" payload = {"value": data} response = wifi.post( "https://io.adafruit.com/api/v2/" + secrets["aio_username"] + "/feeds/" + feed + "/data", json=payload, headers={"X-AIO-KEY": secrets["aio_key"]}, ) print(response.json()) response.close() counter = counter + 1 print("OK") except OSError as e: print("Failed to get data, retrying\n", e) wifi.reset() continue response = None time.sleep(15)
You'll note here we use a secrets.py file to manage our SSID info. The wifimanager is given the ESP32 object, secrets and a neopixel for status indication.
Note, you'll need to add a some additional information to your secrets file so that the code can query the Adafruit IO API:
aio_username
aio_key
You can go to your adafruit.io View AIO Key link to get those two values and add them to the secrets file, which will now look something like this:
# This file is where you keep secret settings, passwords, and tokens! # If you put them in the code you risk committing that info or sharing it secrets = { 'ssid' : '_your_ssid_', 'password' : '_your_wifi_password_', 'timezone' : "America/Los_Angeles", # http://worldtimeapi.org/timezones 'aio_username' : '_your_aio_username_', 'aio_key' : '_your_aio_key_', }
Next, set up an Adafruit IO feed named test
- If you do not know how to set up a feed, follow this page and come back when you've set up a feed named
test
.
We can then have a simple loop for posting data to Adafruit IO without having to deal with connecting or initializing the hardware!
Take a look at your test feed on Adafruit.io and you'll see the value increase each time the CircuitPython board posts data to it!
For more information on the basics of doing networking in CircuitPython, see this guide:
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