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Quickstart: Publish and subscribe to MQTT messages on an Event Grid namespace with the Azure CLI

The Azure Event Grid MQTT broker feature supports messaging by using the MQTT protocol. Clients (both devices and cloud applications) can publish and subscribe to MQTT messages over flexible hierarchical topics for scenarios such as high-scale broadcast and command and control.

In this article, you use the Azure CLI to:

  • Create an Event Grid namespace and enable the MQTT broker.
  • Create subresources such as clients, client groups, and topic spaces.
  • Grant clients access to publish and subscribe to topic spaces.
  • Publish and receive MQTT messages.

If you don't have an Azure subscription, create an Azure free account before you begin.

Prerequisites

  • If you're new to Event Grid, read through the Event Grid overview before you start this tutorial.
  • Register the Event Grid resource provider according to the steps in Register the Event Grid resource provider.
  • Make sure that port 8883 is open in your firewall. The sample in this tutorial uses the MQTT protocol, which communicates over port 8883. This port might be blocked in some corporate and educational network environments.
  • Use the Bash environment in Azure Cloud Shell. For more information, see Quickstart for Bash in Azure Cloud Shell.
  • If you prefer to run CLI reference commands locally, install the Azure CLI. If you're running on Windows or macOS, consider running the Azure CLI in a Docker container. For more information, see Run the Azure CLI in a Docker container.
  • If you're using a local installation, sign in to the Azure CLI by using the az login command. To finish the authentication process, follow the steps that appear in your terminal. For other sign-in options, see Sign in with the Azure CLI.
  • When you're prompted, install the Azure CLI extension on first use. For more information about extensions, see Use extensions with the Azure CLI.
  • Run az version to find the version and dependent libraries that are installed. To upgrade to the latest version, run az upgrade.
  • This article requires version 2.53.1 or later of the Azure CLI. If you're using Azure Cloud Shell, the latest version is already installed.
  • You need an X.509 client certificate to generate the thumbprint and authenticate the client connection.
  • Review the Event Grid namespace CLI documentation.

Generate a sample client certificate and thumbprint

If you don't already have a certificate, you can create a sample certificate by using the step CLI. Consider installing manually for Windows.

After a successful installation by using the step CLI, open a command prompt in your user profile folder (Win+R type %USERPROFILE%).

  1. To create root and intermediate certificates, run the following command. Remember the password, which you need to use in the next step.

    step ca init --deployment-type standalone --name MqttAppSamplesCA --dns localhost --address 127.0.0.1:443 --provisioner MqttAppSamplesCAProvisioner
    
  2. Use the certificate authority (CA) files generated to create a certificate for the client. Make sure to use the correct path for the cert and secrets files in the command.

    step certificate create client1-authnID client1-authnID.pem client1-authnID.key --ca .step/certs/intermediate_ca.crt --ca-key .step/secrets/intermediate_ca_key --no-password --insecure --not-after 2400h
    
  3. To view the thumbprint, run the step command.

    step certificate fingerprint client1-authnID.pem
    

Create a namespace

Use the command to create a namespace. Update the command with your resource group and a namespace name.

az eventgrid namespace create -g {Resource Group} -n {Namespace Name} --topic-spaces-configuration "{state:Enabled}"

To keep the quickstart simple, you create a namespace with minimal properties. For detailed steps about configuring network, security, and other settings on other pages of the wizard, see Create and manage namespaces.

Create clients

Use the command to create the client. Update the command with your resource group and a namespace name.

az eventgrid namespace client create -g {Resource Group} --namespace-name {Namespace Name} -n {Client Name} --authentication-name client1-authnID --client-certificate-authentication "{validationScheme:ThumbprintMatch,allowed-thumbprints:[Client Thumbprint]}"
  • To keep the quickstart simple, you use thumbprint match for authentication. For steps on how to use the X.509 CA certificate chain for client authentication, see Client authentication using certificate chain.
  • For this exercise, we use the default $all client group, which includes all the clients in the namespace. To learn more about creating custom client groups by using client attributes, see Client groups.

Create topic spaces

Use the command to create the topic space. Update the command with your resource group, namespace name, and topic space name.

az eventgrid namespace topic-space create -g {Resource Group} --namespace-name {Namespace Name} -n {Topicspace Name} --topic-templates ['contosotopics/topic1']

Create permission bindings

Use the az eventgrid command to create the first permission binding for publisher permission. Update the command with your resource group, namespace name, and permission binding name.

az eventgrid namespace permission-binding create -g {Resource Group} --namespace-name {Namespace Name} -n {Permission Binding Name} --client-group-name '$all' --permission publisher --topic-space-name {Topicspace Name}

Use the command to create the second permission binding. Update the command with your resource group, namespace name, and permission binding name. This permission binding is for subscribers.

az eventgrid namespace permission-binding create -g {Resource Group} --namespace-name {Namespace Name} -n {Name of second Permission Binding} --client-group-name '$all' --permission subscriber --topic-space-name {Topicspace Name}

Publish and subscribe to MQTT messages

The following sample code is a simple .NET publisher that attempts to connect and publish to a namespace and subscribes to the MQTT topic. You can use the code to modify according to your requirement and run the code in Visual Studio or any of your favorite tools.

You need to install the MQTTnet package (version 4.1.4.563) from NuGet to run this code. (In Visual Studio, right-click the project name in Solution Explorer, go to Manage NuGet packages, and search for MQTTnet. Select MQTTnet package and install.)

Note

The following sample code is for demonstration purposes only and isn't intended for production use.

Sample C# code to connect a client, publish, and subscribe to an MQTT message on a topic

Important

Update the client certificate and key pem file paths depending on the location of your client certificate files. Also, ensure that the client authentication name and topic information match with your configuration.

using MQTTnet.Client;
using MQTTnet;
using System.Security.Cryptography.X509Certificates;

string hostname = "{Your Event Grid namespace MQTT hostname}";
string clientId = "client1-session1";  //client ID can be the session identifier.  A client can have multiple sessions using username and clientId.
string x509_pem = @" client certificate cer.pem file path\client.cer.pem";  //Provide your client certificate .cer.pem file path
string x509_key = @"client certificate key.pem file path\client.key.pem";  //Provide your client certificate .key.pem file path

var certificate = new X509Certificate2(X509Certificate2.CreateFromPemFile(x509_pem, x509_key).Export(X509ContentType.Pkcs12));

var mqttClient = new MqttFactory().CreateMqttClient();

var connAck = await mqttClient!.ConnectAsync(new MqttClientOptionsBuilder()
    .WithTcpServer(hostname, 8883)
    .WithClientId(clientId)
    .WithCredentials("client1-authnID", "")  //use client authentication name in the username
    .WithTls(new MqttClientOptionsBuilderTlsParameters()
    {
        UseTls = true,
        Certificates = new X509Certificate2Collection(certificate)
    })

    .Build());

Console.WriteLine($"Client Connected: {mqttClient.IsConnected} with CONNACK: {connAck.ResultCode}");

mqttClient.ApplicationMessageReceivedAsync += async m => await Console.Out.WriteAsync($"Received message on topic: '{m.ApplicationMessage.Topic}' with content: '{m.ApplicationMessage.ConvertPayloadToString()}'\n\n");

var suback = await mqttClient.SubscribeAsync("contosotopics/topic1");
suback.Items.ToList().ForEach(s => Console.WriteLine($"subscribed to '{s.TopicFilter.Topic}' with '{s.ResultCode}'"));

while (true)
{
    var puback = await mqttClient.PublishStringAsync("contosotopics/topic1", "hello world!");
    Console.WriteLine(puback.ReasonString);
    await Task.Delay(1000);
}

You can replicate and modify the same code for multiple clients to publish and subscribe among the clients.

Next steps