esp-idf/examples/protocols/aws_iot
Mahavir Jain 886b5df30b examples: aws_iot: fine tune stack size for aws_iot task
Signed-off-by: Mahavir Jain <mahavir@espressif.com>
2018-02-20 17:04:07 +05:30
..
subscribe_publish examples: aws_iot: fine tune stack size for aws_iot task 2018-02-20 17:04:07 +05:30
thing_shadow examples: aws_iot: fine tune stack size for aws_iot task 2018-02-20 17:04:07 +05:30
README.md

README.md

Amazon Web Services IoT Examples

These examples are adaptations of some of the AWS IoT C SDK examples.

The provisioning/configuration steps for these examples are the same, and are given in this README.

This README also contains some troubleshooting information for common problems found when connecting to AWS IoT.

Provisioning/Configuration

There are some additional steps that need to be run before you can build this example.

The Getting Started section of the AWS IoT Developer Guide lays out the steps to get started with AWS IoT.

To build and use this example, follow all the AWS IoT Getting Started steps from the beginning ("Sign in to the AWS Iot Console") up until "Configuring Your Device". For configuring the device, these are the steps:

Configuring Your Device

Installing Private Key & Certificate

As part of creating a device certificate, you downloaded a Private Key (xxx-private.pem.key) and a Certificate file (xxx-certificate.pem.crt). These keys need to be loaded by the ESP32 to identify itself.

There are currently two options for how to load the key & cert.

  • Embed the files into the app binary (default)
  • Load the files from SD card

Option 1: Embedded Key & Cert into App Binary

Copy the .pem.key and .pem.crt files to the main/certs subdirectory of the example. Rename them by removing the device-specific prefix - the new names are private.pem.key and certificate.pem.crt.

As these files are bound to your AWS IoT account, take care not to accidentally commit them to public source control. In a commercial IoT device these files would be flashed to the device via a provisioning step, but for these examples they are compiled in.

Option 2: Loading Key & Cert from SD Card

The alternative to embedding the key and certificate is to load them from a FAT filesystem on an SD card.

Before loading data from SD, format your SD card as FAT and run the examples/storage/sd_card example on it to verify that it's working as expected in ESP-IDF. This helps cut down the possible causes of errors in the more complex AWS IoT examples!

Run make menuconfig, navigate to "Example Configuration" and change "AWS IoT Certificate Source" to "Load from SD card".

Three new prompts will appear for filenames for the device key, device certificate and root CA certificate path. These paths start with /sdcard/ as this is where the example mounts the (FAT formatted) SD card.

Copy the certificate and key files to the SD card, and make sure the file names match the names given in the example configuration (either rename the files, or change the config). For the Root CA certificate file (which is not device-specific), you can find the file in the main/certs directory or download it from AWS.

Note: By default, esp-idf's FATFS support only allows 8.3 character filenames. However, the AWS IoT examples pre-configure the sdkconfig to enable long filenames. If you're setting up your projects, you will probably want to enable these options as well (under Component Config -> FAT Filesystem Support). You can also consider configure the FAT filesystem for read-only support, if you don't need to write to the SD card.

Find & Set AWS Endpoint Hostname

Your AWS IoT account has a unique endpoint hostname to connect to. To find it, open the AWS IoT Console and click the "Settings" button on the bottom left side. The endpoint hostname is shown under the "Custom Endpoint" heading on this page.

Run make menuconfig and navigate to Component Config -> Amazon Web Service IoT Config -> AWS IoT MQTT Hostname. Enter the host name here.

Note: It may seem odd that you have to configure parts of the AWS settings under Component Config and some under Example Configuration. The IoT MQTT Hostname and Port are set as part of the component because when using the AWS IoT SDK's Thing Shadow API (in examples or in other projects) the ShadowInitParametersDefault structure means the Thing Shadow connection will default to that host & port. You're not forced to use these config values in your own projects, you can set the values in code via the AWS IoT SDK's init parameter structures - ShadowInitParameters_t for Thing Shadow API or IoT_Client_Init_Params for MQTT API.

(Optional) Set Client ID

Run make menuconfig. Under Example Configuration, set the AWS IoT Client ID to a unique value.

The Client ID is used in the MQTT protocol used to send messages to/from AWS IoT. AWS IoT requires that each connected device within a single AWS account uses a unique Client ID. Other than this restriction, the Client ID can be any value that you like. The example default should be fine if you're only connecting one ESP32 at a time.

In a production IoT app this ID would be set dynamically, but for these examples it is compiled in via menuconfig.

(Optional) Locally Check The Root Certificate

The Root CA certificate provides a root-of-trust when the ESP32 connects to AWS IoT. We have supplied the root CA certificate already (in PEM format) in the file main/certs/aws-root-ca.pem.

If you want to locally verify that this Root CA certificate hasn't changed, you can run the following command against your AWS MQTT Host:

openssl s_client -showcerts -connect hostname:8883 < /dev/null

(Replace hostname with your AWS MQTT endpoint host.) The Root CA certificate is the last certificate in the list of certificates printed. You can copy-paste this in place of the existing aws-root-ca.pem file.

Troubleshooting

Tips

  • Raise the ESP debug log level to Debug in order to see messages about the connection to AWS, certificate contents, etc.

  • Enable mbedTLS debugging (under Components -> mbedTLS -> mbedTLS Debug) in order to see even more low-level debug output from the mbedTLS layer.

  • To create a successful AWS IoT connection, the following factors must all be present:

    • Endpoint hostname is correct for your AWS account.
    • Certificate & private key are both attached to correct Thing in AWS IoT Console.
    • Certificate is activated.
    • Policy is attached to the Certificate in AWS IoT Console.
    • Policy contains sufficient permissions to authorize AWS IoT connection.

TLS connection fails

If connecting fails entirely (handshake doesn't complete), this usually indicates a problem with certification configuration. The error usually looks like this:

aws_iot: failed! mbedtls_ssl_handshake returned -0x7780

(0x7780 is the mbedTLS error code when the server sends an alert message and closes the connection.)

  • Check your client private key and certificate file match a Certificate registered and activated in AWS IoT console. You can find the Certificate in IoT Console in one of two ways, via the Thing or via Certificates:
    • To find the Certificate directly, click on "Registry" -> "Security Certificates". Then click on the Certificate itself to view it.
    • To find the Certificate via the Thing, click on "Registry" -> "Things", then click on the particular Thing you are using. Click "Certificates" in the sidebar to view all Certificates attached to that Thing. Then click on the Certificate itself to view it.

Verify the Certificate is activated (when viewing the Certificate, it will say "ACTIVE" or "INACTIVE" near the top under the certificate name).

If the Certificate appears correct and activated, verify that you are connecting to the correct AWS IoT endpoint (see above.)

TLS connection closes immediately

Sometimes connecting is successful (the handshake completes) but as soon as the client sends its MQTT CONNECT message the server sends back a TLS alert and closes the connection, without anything else happening.

The error returned from AWS IoT is usually -28 (MQTT_REQUEST_TIMEOUT_ERROR). You may also see mbedtls error -0x7780 (server alert), although if this error comes during mbedtls_ssl_handshake then it's usually a different problem (see above).

In the subscribe_publish example, the error may look like this in the log:

subpub: Error(-28) connecting to (endpoint)...

In the thing_shadow example, the error may look like this in the log:

shadow: aws_iot_shadow_connect returned error -28, aborting...

This error implies the Certificate is recognised, but the Certificate is either missing the correct Thing or the correct Policy attached to it.

  • Check in the AWS IoT console that your certificate is activated and has both a security policy and a Thing attached to it. You can find this in IoT Console by clicking "Registry" -> "Security Certificates", then click the Certificate. Once viewing the Certificate, you can click the "Policies" and "Things" links in the sidebar.