AWS IoT Core MQTT Sample
Overview
This sample application demonstrates the implementation of an MQTT client that can publish messages to AWS IoT Core using the MQTT protocol. Key features include:
Acquiring a DHCPv4 lease
Connecting to an SNTP server to obtain the current time
Establishing a TLS 1.2 connection with AWS IoT Core servers
Subscribing to a topic on AWS IoT Core
Publishing data to AWS IoT Core
Passing the AWS Device Qualification Program (DQP) test suite: Device Qualification Program (DQP)
Sending and receiving keep-alive pings
Retrying connections using an exponential backoff algorithm
Requirements
An entropy source
An AWS account with access to AWS IoT Core
AWS credentials and necessary information
Network connectivity
Building and Running
This application has been built and tested on the ST NUCLEO-F429ZI board and QEMU x86 target. A valid certificate and private key are required to authenticate to the AWS IoT Core. The sample includes a script to convert the certificate and private key in order to embed them in the application.
Register a thing in AWS IoT Core and download the certificate and private key.
Copy these files to the samples/net/cloud/aws_iot_mqtt/src/creds
directory. Run the samples/net/cloud/aws_iot_mqtt/src/creds/convert_keys.py
script, which will generate files ca.c
, cert.c
and key.c
.
To configure the sample, set the following Kconfig options based on your AWS IoT Core region, thing, and device advisor configuration:
CONFIG_AWS_ENDPOINT
: The AWS IoT Core broker endpoint, found in the AWS IoT Core console. This will be specific if running a test suite using device advisor.CONFIG_AWS_THING_NAME
: The name of the thing created in AWS IoT Core. Associated with the certificate it will be used as the client id. We will usezephyr_sample
in this example.CONFIG_AWS_SUBSCRIBE_TOPIC
: The topic to subscribe to.CONFIG_AWS_PUBLISH_TOPIC
: The topic to publish to.CONFIG_AWS_QOS
: The QoS level for subscriptions and publications.CONFIG_AWS_EXPONENTIAL_BACKOFF
: Enable the exponential backoff algorithm.
Refer to the AWS IoT Core Documentation for more information.
Additionnaly, it is possible to tune the firmware to pass the AWS DQP test
suite, to do set Kconfig option CONFIG_AWS_TEST_SUITE_DQP
to y
.
More information about the AWS device advisor can be found here: AWS IoT Core Device Advisor.
MQTT test client
Access the MQTT test client in the AWS IoT Core console, subscribe to the
zephyr_sample/data
topic, and publish a payload to the zephyr_sample/downlink
topic. The device console will display the payload received by your device, and
the AWS console will show the JSON message sent by the device under the
zephyr_sample/data
topic.
Sample output
This is the output from the ST-Link UART on the NUCLEO-F429ZI board.
*** Booting Zephyr OS build zephyr-v3.3.0 ***
[00:00:01.626,000] <inf> aws: starting DHCPv4
[00:00:01.969,000] <dbg> aws: sntp_sync_time: Acquired time from NTP server: 1683472436
[00:00:01.977,000] <inf> aws: Resolved: 52.212.60.110:8883
[00:00:03.327,000] <dbg> aws: mqtt_event_cb: MQTT event: CONNACK [0] result: 0
[00:00:03.327,000] <inf> aws: Subscribing to 1 topic(s)
[00:00:03.390,000] <dbg> aws: mqtt_event_cb: MQTT event: SUBACK [7] result: 0
[00:00:03.390,000] <inf> aws: PUBLISHED on topic "zephyr_sample/data" [ id: 1 qos: 0 ], payload: 13 B
[00:00:03.390,000] <dbg> aws: publish_message: Published payload:
7b 22 63 6f 75 6e 74 65 72 22 3a 30 7d |{"counte r":0}
[00:00:11.856,000] <dbg> aws: mqtt_event_cb: MQTT event: PUBLISH [2] result: 0
[00:00:11.856,000] <inf> aws: RECEIVED on topic "zephyr_sample/downlink" [ id: 13 qos: 0 ] payload: 45 / 4096 B
[00:00:11.856,000] <dbg> aws: handle_published_message: Received payload:
7b 0a 20 20 22 6d 65 73 73 61 67 65 22 3a 20 22 |{. "mes sage": "
48 65 6c 6c 6f 20 66 72 6f 6d 20 41 57 53 20 49 |Hello fr om AWS I
6f 54 20 63 6f 6e 73 6f 6c 65 22 0a 7d |oT conso le".}
[00:00:11.857,000] <inf> aws: PUBLISHED on topic "zephyr_sample/data" [ id: 2 qos: 0 ], payload: 13 B
[00:00:11.857,000] <dbg> aws: publish_message: Published payload:
7b 22 63 6f 75 6e 74 65 72 22 3a 31 7d |{"counte r":1}
[00:01:11.755,000] <dbg> aws: mqtt_event_cb: MQTT event: 9 result: 0
[00:02:11.755,000] <dbg> aws: mqtt_event_cb: MQTT event: 9 result: 0
Run in QEMU x86
The sample can be run in QEMU x86. To do so, you will need to configure NAT/MASQUERADE on your host machine. Refer to the Zephyr documentation Networking with QEMU. for more information.