TLS Certificates for Client Authentication

Instructions for creating key pairs and certificates for use with AUTOSOL Edge products. Prerequisite:

OpenSSL is installed and in your system PATH.

For Debian Linux, you may check to see if openssl is installed and on your PATH using the which command:

$ openssl which

Where the expected output is the file path where openssl is installed. Example:

$ which openssl
/usr/bin/openssl

If openssl is not installed, you will see nothing. The most straightforward way to install openssl in Debian is by using the package manager:

sudo apt-get update && sudo apt-get install openssl

Once openssl is installed you can create your certificate chain.

How you create your certificate chain depends on your desired security posture. There are two options:

1. TLS with Server Certificate Authentication

2. TLS with Server and Client Certificate Authentication

Steps for Creating Certificates for Client Authentication

For this step, the client (the eACM MQTT app, Bridge, Edge Manager, etc.) authenticates to the server with a certificate before the TLS connection is fully established. This takes place after the server has authenticated to to the client with its own (server) certificate.

Create one key pair and one certificate for each uniquely identifiable client desired.

Whether you create one client certificate to share among your MQTT clients -or- each MQTT client has its own certificate is dictated by your organization’s IT security posture.

The outputs for this process are:

• client.key - to be kept private to the MQTT client(s) that use the key pair for authentication

• client.pem - public client certificate used for authenticating to the server (the MQTT broker)

The inputs for this process are:

• Password for client.key

• Common Name (CN) to identify your client certificate (optional). MQTT brokers can be configured to authenticate using the CN in the Subject field.

Create client.key. You will be prompted for a password.

openssl genrsa -aes256 -out client.key 2048

Create the certificate signing request for the client (the MQTT client), client.csr. If you created ca.key on a different machine, you will need to copy client.csr to that machine.

You will be prompted for the password used when creating client.key.

If your broker is configured to authenticate based on the CN section of the Subject field, substitute MyEACM for something else that meaningfully identifies that particular MQTT client or its permissions role on the broker.

openssl req -out client.csr -key client.key -new -subj "/C=US/ST=Texas/O=THIS_COMPANY INC/CN=MyEACM/emailAddress=johnsmith@gmail.com" --outform PEM

Create the client certificate (client.pem). The step must take place where you have your ca.key. The client.csr and ca.pem files are also required. If you used a password when creating your ca.key, you will be prompted for it.

openssl x509 -req -in client.csr -CA ca.pem -CAkey ca.key -CAcreateserial -out client.pem -days 3650 --outform PEM

Configuration

You now have all the files required to configure your client and server (broker) for TLS authentication with both server authentication and client authentication.

1. You will need to provide ca.pem to both your client and server.

2. You will need to provide server.key and server.pem to your server.

3. You will need to provide client.key and client.pem to each client. The client will also need to be provided with the password used to encrypt its client.key.

Client

In older versions of eACM, you must copy (scp) your ca.pem, client.key and client.pem to the host where eACM is installed and reference the path to it in your TLS Settings object (MQTT app) or the Broker 1/2 tab of your Node object (Edge Manager).

In newer versions of eACM, you can upload your ca.pem, client.key and client.pem using the TLS Settings object form or Node object form.

Assign ca.pem to the CA File property of the object.

Assign client.key to the Client Private Key property of the object.

Assign client.pem to the Client Certificate property of the object.

Assign the password used to encrypt client.key to Private Key Password.

Server (Broker)

The broker configuration will be different for each broker. Example for mosquitto:

per_listener_settings true

listener 8883
allow_anonymous false
require_certificate true
certfile C:\Users\myuser\Documents\certs\server.pem
keyfile C:\Users\myuser\Documents\certs\server.key
cafile C:\Users\myuser\Documents\certs\ca.pem
use_identity_as_username true
acl_file C:\Users\myuser\Documents\mosquitto\acl_8883.txt

Where acl_8883.txt may contain by example:

user MyEACM
topic read STATE/+
topic readwrite spBv1.0/#

user SparkplugViewer
topic read STATE/+
topic read spBv1.0/#

user HMI
topic readwrite STATE/+
topic readwrite spBv1.0/#

What to do when authentication fails

When the MQTT client (eACM, Edge Manager or Bridge) fail to connect to the broker the first thing to do is to enable logging on your MQTT broker. Then compare the broker logging in the context of logging from eACM.

The most commonly encountered error is that the connection (almost succeeded) and fails whenever the server authenticates to the client. The client will then drop the connection to the broker at the last minute. This is almost always a symptom of the broker’s certificate CN field not including the IP or hostname of the broker. A shortcut to resolving this scenario is unchecking the Verify Certificate box in eACM. The connection will still be encrypted in this case. However, since the client has not proven it is connected to what it expects to be the right broker … any username or password it provides can be sent to that (possibly) impersonating broker.

Search the log for OpenSSL errors in order to deduce the source of the failure.

If you are using mosquitto you may do so by editing mosquitto.conf. Example:

log_dest file C:\Users\myuser\Documents\mosquitto\mosquitto.log
log_type error
log_type warning
log_type notice
log_type information
log_timestamp true
log_timestamp_format %Y-%m-%dT%H:%M:%S