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Secure MQTT broker communication using BrokerListener

Important

This page includes instructions for managing Azure IoT Operations components using Kubernetes deployment manifests, which is in preview. This feature is provided with several limitations, and shouldn't be used for production workloads.

See the Supplemental Terms of Use for Microsoft Azure Previews for legal terms that apply to Azure features that are in beta, preview, or otherwise not yet released into general availability.

A BrokerListener corresponds to a network endpoint that exposes the broker to clients over the network. You can have one or more BrokerListener resources for each Broker, with multiple ports and different access control on each.

Each BrokerListener port can have its own authentication and authorization rules that define who can connect on that listener port and what actions they can perform on the broker. You can use BrokerAuthentication and BrokerAuthorization resources to specify the access control policies for each listener port. This flexibility allows you to fine-tune the permissions and roles for your MQTT clients based on their needs and use cases.

Tip

The default MQTT broker deployment is a cluster IP service that requires clients to connect with TLS and authenticate with service account tokens. Clients connecting from outside the cluster need extra configuration before they can connect.

Broker listeners have the following characteristics:

For a list of all available settings, see the Broker Listener API reference.

Default BrokerListener

When you deploy Azure IoT Operations, the deployment creates a BrokerListener resource named default. This listener is used for encrypted internal communication between Azure IoT Operations components. The default listener is part of the default Broker.

Caution

To avoid disrupting internal Azure IoT Operations communication, keep the default listener unchanged and dedicated for internal use. For external communication, create a new listener. If you need to use the ClusterIp service, add more ports to the default listener without changing any of the existing settings.

To view or edit the default listener:

  1. In the Azure portal, navigate to your IoT Operations instance.

  2. Under Components, select MQTT Broker.

    Screenshot using Azure portal to view Azure IoT Operations MQTT configuration.

  3. From the broker listener list, select the default listener.

    Screenshot using Azure portal to view or edit the default broker listener.

  4. Review the listener settings, but avoid modifying any of the existing settings. Instead, create a new port and configure it as needed.

Avoid modifying default broker listener

To prevent disrupting internal Azure IoT Operations communication, keep the default listener unchanged and dedicated for internal use. For external communication, create a new listener.

Since the default broker listener uses the service type ClusterIp, and you can have only one listener per service type, add more ports to the default listener without changing any of the existing settings if you need to use the ClusterIp service.

Create new broker listeners

To create a new listener, specify the following settings:

  • Name: Name of the listener. This name is also the Kubernetes service name unless overridden.
  • Service type: Type of the Kubernetes service. See Service type.
  • Ports: List of ports that to listen on. See Ports.
  • (Optional) Service name: override the Kubernetes service name. See Service name.

Example: Create a new listener with two ports

This example shows how to create a new listener with load balancer service type. The BrokerListener resource defines two ports that accept MQTT connections from clients.

  1. In the Azure portal, navigate to your IoT Operations instance.

  2. Under Components, select MQTT Broker.

  3. Select MQTT broker listener for LoadBalancer > Create.

    Enter the following settings:

    Setting Description
    Name Name of the BrokerListener resource.
    Service name Name of the Kubernetes service. Leave empty to use the listener name as service name.
    Service type LoadBalancer already selected.
  4. Under Ports, enter the following settings for the first port:

    Setting Description
    Port Enter 1883
    Authentication Choose None
    Authorization Choose None
    Protocol Choose MQTT
    TLS Don't add
  5. Select Add port entry to add a second port and enter the following settings:

    Setting Description
    Port Enter 8883
    Authentication Choose default
    Authorization Choose None
    Protocol Choose MQTT
    TLS Select Add
  6. In the TLS configuration pane, enter the following settings:

    Setting Description
    TLS Mode Choose Automatic
    Issuer name Enter azure-iot-operations-aio-certificate-issuer
    Issuer kind Choose ClusterIssuer

    Leave other settings as default, and select Apply.

  7. Select Create listener.

    Screenshot using Azure portal to create MQTT broker for load balancer listener.

Service type

Each BrokerListener maps to a Kubernetes service. The service type determines how the broker is exposed to the network. The supported service types are:

  • ClusterIp: Exposes the broker on a cluster-internal IP. Clients can connect to the broker from within the cluster. This is the default service type for the default listener.
  • NodePort: Exposes the broker on each node's IP at a static port. Clients can connect to the broker from outside the cluster. This service type is useful for development and testing.
  • LoadBalancer: Exposes the broker externally. The service is assigned an external IP address that clients can use to connect to the broker. This is the most common service type for production deployments.

Only one listener per service type

Only one listener per service type is allowed. If you need more connectivity of the same service type, add more ports to the existing listener of that service type.

Service name

The service name is the name of the Kubernetes service associated with the broker. If not specified, the broker listener name is used as the service name. The service name must be unique within the namespace.

Tip

To prevent management overhead, we recommend leaving the service name empty. The listener name is unique and can be used to identify the service. Use the service name as an override only when you can't name the service after the listener.

Ports

Each listener can have multiple ports, and each port can have its own settings for authentication, authorization, protocol, and TLS.

To use your own authentication or authorization setting for a port, you must create the corresponding resources before using it with a listener. For more information, see Configure MQTT broker authentication and Configure MQTT broker authorization.

To use TLS, see Configure TLS with automatic certificate management or Configure TLS with manual certificate management sections.

Using same port across listeners

Using the same port number across different listeners isn't supported. Each port number must be unique within the Azure IoT Operations MQTT broker.

For example, if you have a listener using port 1883, you can't create another listener with port 1883. Similarly, the default listener uses port 18883, so you can't create another listener with port 18883.

WebSockets support

Azure IoT Operations MQTT broker supports MQTT over WebSockets. To enable WebSockets, set the protocol to WebSockets for the port.

Configure TLS with automatic certificate management

To enable TLS with automatic certificate management, specify the TLS settings on a listener port.

Verify cert-manager installation

With automatic certificate management, you use cert-manager to manage the TLS server certificate. By default, cert-manager is installed alongside Azure IoT Operations in the cert-manager namespace already. Verify the installation before proceeding.

  1. Use kubectl to check for the pods matching the cert-manager app labels.

    kubectl get pods --namespace cert-manager -l 'app in (cert-manager,cainjector,webhook)'
    
    NAME                                           READY   STATUS    RESTARTS       AGE
    aio-cert-manager-64f9548744-5fwdd              1/1     Running   4 (145m ago)   4d20h
    aio-cert-manager-cainjector-6c7c546578-p6vgv   1/1     Running   4 (145m ago)   4d20h
    aio-cert-manager-webhook-7f676965dd-8xs28      1/1     Running   4 (145m ago)   4d20h
    
  2. If you see the pods shown as ready and running, cert-manager is installed and ready to use.

Tip

To further verify the installation, check the cert-manager documentation verify installation. Remember to use the cert-manager namespace.

Create an Issuer for the TLS server certificate

The cert-manager Issuer resource defines how certificates are automatically issued. Cert-manager supports several Issuers types natively. It also supports an external issuer type for extending functionality beyond the natively supported issuers. MQTT broker can be used with any type of cert-manager issuer.

Important

During initial deployment, Azure IoT Operations is installed with a default Issuer for TLS server certificates. You can use this issuer for development and testing. For more information, see Default root CA and issuer with Azure IoT Operations. The steps below are only required if you want to use a different issuer.

The approach to create the issuer is different depending on your scenario. The following sections list examples to help you get started.

The CA issuer is useful for development and testing. It must be configured with a certificate and private key stored in a Kubernetes secret.

Set up the root certificate as a Kubernetes secret

If you have an existing CA certificate, create a Kubernetes secret with the CA certificate and CA private key PEM files. Run the following command to import the CA certificate as a Kubernetes secret and skip the next section.

kubectl create secret tls test-ca --cert tls.crt --key tls.key -n azure-iot-operations

If you don't have a CA certificate, cert-manager can generate a CA certificate for you. Using cert-manager to generate a CA certificate is known as bootstrapping a CA issuer with a self-signed certificate.

  1. Start by creating ca.yaml:

    apiVersion: cert-manager.io/v1
    kind: Issuer
    metadata:
      name: selfsigned-ca-issuer
      namespace: azure-iot-operations
    spec:
      selfSigned: {}
    ---
    apiVersion: cert-manager.io/v1
    kind: Certificate
    metadata:
      name: selfsigned-ca-cert
      namespace: azure-iot-operations
    spec:
      isCA: true
      commonName: test-ca
      secretName: test-ca
      issuerRef:
        # Must match Issuer name above
        name: selfsigned-ca-issuer
        # Must match Issuer kind above
        kind: Issuer
        group: cert-manager.io
      # Override default private key config to use an EC key
      privateKey:
        rotationPolicy: Always
        algorithm: ECDSA
        size: 256
    
  2. Create the self-signed CA certificate with the following command:

    kubectl apply -f ca.yaml
    

Cert-manager creates a CA certificate using its defaults. The properties of this certificate can be changed by modifying the Certificate specification. See cert-manager documentation for a list of valid options.

Distribute the root certificate

The prior example stores the CA certificate in a Kubernetes secret called test-ca. The certificate in PEM format can be retrieved from the secret and stored in a file ca.crt with the following command:

kubectl get secret test-ca -n azure-iot-operations -o json | jq -r '.data["tls.crt"]' | base64 -d > ca.crt

This certificate must be distributed and trusted by all clients. For example, use the --cafile flag for a mosquitto client.

Create issuer based on CA certificate

Cert-manager needs an issuer based on the CA certificate generated or imported in the earlier step. Create the following file as issuer-ca.yaml:

apiVersion: cert-manager.io/v1
kind: Issuer
metadata:
  name: my-issuer
  namespace: azure-iot-operations
spec:
  ca:
    # Must match secretName of generated or imported CA cert
    secretName: test-ca

Create the issuer with the following command:

kubectl apply -f issuer-ca.yaml

The prior command creates an issuer for issuing TLS server certificates. Note the name and kind of the issuer. In the example, the name is my-issuer and the kind is Issuer. These values are set in the BrokerListener resource later.

Enable TLS automatic certificate management for a port

The following is an example of a BrokerListener resource that enables TLS on port 8884 with automatic certificate management.

  1. In the Azure portal, go to your IoT Operations instance.

  2. Under Components, select MQTT Broker.

  3. Select or create a listener. You can only create one listener per service type. If you already have a listener of the same service type, you can add more ports to the existing listener.

  4. You can add TLS settings to the listener by selecting the TLS on an existing port or by adding a new port.

    Screenshot using Azure portal to create MQTT broker for load balancer listener with automatic TLS certificates.

    Enter the following settings:

    Setting Description
    Name Name of the BrokerListener resource. Enter aio-broker-loadbalancer-tls.
    Port Port number on which the BrokerListener listens for MQTT connections. Enter 8884.
    Authentication The authentication resource reference.
    Authorization The authorization resource reference.
    TLS Select the Add button.
    Issuer name Name of the cert-manager issuer. Required.
    Issuer kind Kind of the cert-manager issuer. Required.
    Issuer group Group of the cert-manager issuer. Required.
    Private key algorithm Algorithm for the private key.
    Private key rotation policy Policy for rotating the private key.
    DNS names DNS subject alternate names for the certificate.
    IP addresses IP addresses of the subject alternate names for the certificate.
    Secret name Kubernetes secret containing an X.509 client certificate.
    Duration Total lifetime of the TLS server certificate Defaults to 90 days.
    Renew before When to begin renewing the certificate.
  5. Select Apply to save the TLS settings.

Once the BrokerListener resource is configured, MQTT broker automatically creates a new service with the specified port and TLS enabled.

Optional: Configure server certificate parameters

The only required parameters are Issuer name and Issuer kind. All other properties of the generated TLS server certificates are automatically chosen. However, MQTT broker allows certain properties to be customized following the same syntax as cert-manager Certificates. For example, you can specify the private key algorithm and rotation policy. These settings are under tls.certManagerCertificateSpec or the TLS configuration pane in the Azure portal.

For a full list of these settings, see Broker Listener CertManagerCertificateSpec API reference.

Verify deployment

Use kubectl to check that the service associated with the BrokerListener resource is running. From the example above, the service name is aio-broker-loadbalancer-tls and the namespace is azure-iot-operations. The following command checks the service status:

$ kubectl get service my-new-tls-listener -n azure-iot-operations
NAME                           TYPE           CLUSTER-IP      EXTERNAL-IP   PORT(S)          AGE
aio-broker-loadbalancer-tls    LoadBalancer   10.X.X.X        172.X.X.X     8884:32457/TCP   33s

Connect to the broker with TLS

Once the server certificate is configured, TLS is enabled. To test with mosquitto:

mosquitto_pub -h $HOST -p 8884 -V mqttv5 -i "test" -t "test" -m "test" --cafile ca.crt

The --cafile argument enables TLS on the mosquitto client and specifies that the client should trust all server certificates issued by the given file. You must specify a file that contains the issuer of the configured TLS server certificate.

Replace $HOST with the appropriate host:

  • If connecting from within the same cluster, replace with the service name given (my-new-tls-listener in example) or the service CLUSTER-IP.
  • If connecting from outside the cluster, the service EXTERNAL-IP.

Remember to specify authentication methods if needed.

Default root CA and issuer

To help you get started, Azure IoT Operations is deployed with a default "quickstart" CA certificate and issuer for TLS server certificates. You can use this issuer for development and testing. For more information, see Default root CA and issuer for TLS server certificates.

For production, you must configure a CA issuer with a certificate from a trusted CA, as described in the previous sections.

Configure TLS with manual certificate management

To manually configure MQTT broker to use a specific TLS certificate, specify it in a BrokerListener resource with a reference to a Kubernetes secret and deploy it using kubectl. This article shows an example that configures TLS with self-signed certificates for testing.

Create certificate authority with Step CLI

Step is a certificate manager that can quickly get you up and running when creating and managing your own private CA.

  1. Install Step CLI and create a root certificate authority (CA) certificate and key.

    step certificate create --profile root-ca "Example Root CA" root_ca.crt root_ca.key
    
  2. Create an intermediate CA certificate and key signed by the root CA.

    step certificate create --profile intermediate-ca "Example Intermediate CA" intermediate_ca.crt intermediate_ca.key \
    --ca root_ca.crt --ca-key root_ca.key
    

Create server certificate

Use Step CLI to create a server certificate from the signed by the intermediate CA.

step certificate create mqtts-endpoint mqtts-endpoint.crt mqtts-endpoint.key \
--profile leaf \
--not-after 8760h \
--san mqtts-endpoint \
--san localhost \
--ca intermediate_ca.crt --ca-key intermediate_ca.key \
--no-password --insecure

Here, mqtts-endpoint and localhost are the Subject Alternative Names (SANs) for MQTT broker's frontend in Kubernetes and local clients, respectively. To connect over the Internet, add a --san with an external IP. The --no-password --insecure flags are used for testing to skip password prompts and disable password protection for the private key because it's stored in a Kubernetes secret. For production, use a password and store the private key in a secure location like Azure Key Vault.

Certificate key algorithm requirements

Both EC and RSA keys are supported, but all certificates in the chain must use the same key algorithm. If you import your own CA certificates, ensure that the server certificate uses the same key algorithm as the CAs.

Import server certificate chain as a Kubernetes secret

  1. Create a full server certificate chain, where the order of the certificates matters: the server certificate is the first one in the file, the intermediate is the second.

    cat  mqtts-endpoint.crt intermediate_ca.crt  > server_chain.crt
    
  2. Create a Kubernetes secret with the server certificate chain and server key using kubectl.

    kubectl create secret tls server-cert-secret -n azure-iot-operations \
    --cert server_chain.crt \
    --key mqtts-endpoint.key
    

Enable TLS manual certificate management for a port

The following is an example of a BrokerListener resource that enables TLS on port 8884 with manual certificate management.

  1. In the Azure portal, navigate to your IoT Operations instance.

  2. Under Components, select MQTT Broker.

  3. Select or create a listener. You can only create one listener per service type. If you already have a listener of the same service type, you can add more ports to the existing listener. To follow the example, specify the listener service name as mqtts-endpoint.

  4. You can add TLS settings to the listener by selecting the TLS on an existing port or by adding a new port.

    Screenshot using Azure portal to create MQTT broker for load balancer listener with manual TLS certificates.

    Enter the following settings:

    Setting Description
    Port Port number on which the BrokerListener listens for MQTT connections. Required.
    Authentication The authentication resource reference.
    Authorization The authorization resource reference.
    TLS Select the Add button.
    Secret name Kubernetes secret containing an X.509 client certificate.
  5. Select Apply to save the TLS settings.

Connect to the broker with TLS

To test the TLS connection with mosquitto client, publish a message and pass the root CA certificate in the parameter --cafile.

mosquitto_pub -d -h localhost -p 8885 -i "my-client" -t "test-topic" -m "Hello" --cafile root_ca.crt

Remember to specify username, password, etc. if MQTT broker authentication is enabled.

Client my-client sending CONNECT
Client my-client received CONNACK (0)
Client my-client sending PUBLISH (d0, q0, r0, m1, 'test-topic', ... (5 bytes))
Client my-client sending DISCONNECT

Tip

To use localhost, the port must be available on the host machine. For example, kubectl port-forward svc/mqtts-endpoint 8885:8885 -n azure-iot-operations. With some Kubernetes distributions like K3d, you can add a forwarded port with k3d cluster edit $CLUSTER_NAME --port-add 8885:8885@loadbalancer.

Note

To connect to the broker, you need to distribute root of trust, also known as trust bundle, to all clients. In this case, the root of trust is the self-signed root CA created by Step CLI. Distribution of root of trust is required for the client to verify the server certificate chain. If your MQTT clients are workloads on the Kubernetes cluster you also need to create a ConfigMap with the root CA and mount it in your Pod.

Use external IP for the server certificate

To connect with TLS over the Internet, MQTT broker's server certificate must have its external hostname or IP address as a SAN. In production, this is usually a DNS name or a well-known IP address. However, during dev/test, you might not know what hostname or external IP is assigned before deployment. To solve this, deploy the listener without the server certificate first, create the server certificate and secret with the external IP, and import the secret to the listener.

If you try to deploy the example TLS listener manual-tls-listener but the referenced Kubernetes secret server-cert-secret doesn't exist, the associated service gets created, but the pods don't start. The service is created because the operator needs to reserve the external IP for the listener.

kubectl get svc mqtts-endpoint -n azure-iot-operations
NAME                   TYPE           CLUSTER-IP      EXTERNAL-IP   PORT(S)             AGE
mqtts-endpoint         LoadBalancer   10.X.X.X        172.X.X.X     8885:30674/TCP      1m15s

However, this behavior is expected while we import the server certificate. The health manager logs mention MQTT broker is waiting for the server certificate.

kubectl logs -l app=health-manager -n azure-iot-operations
...
<6>2023-11-06T21:36:13.634Z [INFO] [1] - Server certificate server-cert-secret not found. Awaiting creation of secret.

Note

Generally, in a distributed system, pods logs aren't deterministic and should be used with caution. The right way for information like this to surface is through Kubernetes events and custom resource status, which is in the backlog. Consider the previous step as a temporary workaround.

Even though the frontend pods aren't up, the external IP is already available.

kubectl get svc mqtts-endpoint -n azure-iot-operations
NAME                   TYPE           CLUSTER-IP      EXTERNAL-IP   PORT(S)             AGE
mqtts-endpoint         LoadBalancer   10.X.X.X        172.X.X.X     8885:30674/TCP      1m15s

From here, follow the same steps as previously to create a server certificate with this external IP in --san and create the Kubernetes secret in the same way. Once the secret is created, it's automatically imported to the listener.