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Raspberry Pi and MQTT Essentials
Raspberry Pi and MQTT Essentials

Raspberry Pi and MQTT Essentials: A complete guide to helping you build innovative full-scale prototype projects using Raspberry Pi and MQTT protocol

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Raspberry Pi and MQTT Essentials

Introduction to Raspberry Pi and MQTT

In recent years, the Internet of Things (IoT) has been a trending field for research and development. The future of IoT has the potential to be limitless. By 2025, it is estimated that there will be more than 21 billion IoT devices. So, wouldn’t it be great if you could add these to your known technological stacks? In this book, we will start with the absolute basics.

I will walk you through two fascinating subjects throughout this book: Raspberry Pi, which is a prevalent development board for beginners, and MQTT, a very commonly used and robust communication protocol to delve into the world of IoT.

This chapter will introduce you to the basics of MQTT and Raspberry Pi. Moreover, it will help you set up your Raspberry Pi. Although simple, it is crucial to perform each step as this will help us set up our own local MQTT broker on the Raspberry Pi. This will also help you understand how to get started with your new Raspberry Pi by installing an operating system onto it.

First, we will flash the popular Debian-based Raspberry Pi OS on our Raspberry Pi. After that, we will install all the necessary libraries and packages to make our device a local MQTT broker.

We will cover the following main topics in this chapter:

  • What is MQTT and how does it work?
  • A gentle introduction to Raspberry Pi
  • Setting up your Raspberry Pi

So, let’s start by knowing what MQTT is.

What is MQTT and how does it work?

In this section, we will learn about the essential concepts of MQTT. First, we will look at the basic concepts of MQTT and some history, followed by the functionality and components of MQTT. Finally, we will have a brief encounter with the salient features of MQTT.

Please note that there are different versions of MQTT, and most of what we discuss is relevant to the MQTT protocol version 3.1.

What is MQTT?

MQTT stands for Message Queuing Telemetry Transport. It is a lightweight communication protocol.

According to the official MQTT v3.1 documentation:

MQTT is a Client-Server publish/subscribe messaging transport protocol. It is lightweight, open, simple, and designed to be easy to implement. These characteristics make it ideal for use in many situations, including constrained environments for communication in Machine to Machine (M2M) and Internet of Things (IoT) contexts where a small code footprint is required, and network bandwidth is at a premium.

This is a clear and clean definition of the MQTT protocol in just a few lines. It is a messaging protocol designed for easy implementation, primarily client side. It is an open and lightweight communication protocol with minimal packet overhead. It is generally used for communication between two or more devices.

Basic concepts of MQTT

Now that we know what MQTT is, we will explore the basic concepts of MQTT we came across in the previous section. More specifically, we will look at MQTT as a publish/subscribe protocol.

What exactly is a publish/subscribe protocol?

The publish/subscribe protocol is an alternative to the traditional client-server architecture. It means that instead of categorizing both sending and receiving machines as clients, the clients who send a message are publishers and the clients who receive the messages are the subscribers.

Another essential feature of such protocols is the decoupling between the clients. In simple words, the clients never directly communicate with each other. They are mediated by the third component of this system, known as the broker. In this book, we will be using our Raspberry Pi as an MQTT broker, which connects different client devices within a local network. The primary function of the broker is to mediate and manage all communications between the various clients (i.e., publishers and subscribers).

To better understand how the whole system works, please see Figure 1.1, which shows how the communication protocol operates with a very simplified diagram. In this example, the publishing client is a temperature monitor and the subscribing device is a mobile phone:

Figure 1.1 – Basic MQTT communication flow

Figure 1.1 – Basic MQTT communication flow

Please note that this is just a simplified representation. There can be multiple publishers and subscribers connected to a single broker. As you can see, the temperature monitor sends the current temperature value of 27°C through the MQTT communication protocol, which is then received by the MQTT broker, which routes it to the subscriber, a mobile application in our case.

We will now look into some details about publishers, subscribers, and brokers with the help of an example:

  • Publishers: These devices or machines are responsible for sending the collected data to the brokers. For instance, if you have an air quality monitoring system that monitors the CO2 levels in the air every 30 seconds, the device will be set to publish the CO2 concentration every 30 seconds.
  • Subscribers: These devices receive the requested sensor data from the brokers. Considering the preceding example, an air purifier can be a subscriber of our air quality monitoring system. It constantly receives the CO2 concentration values, and when it crosses a threshold value, the purifier automatically turns on.
  • Broker: This intermediary device connects various publishers and subscribers by managing and routing the data. We will be using Raspberry Pi as a broker for the entirety of this book.

Please note that both the publishers and subscribers are referred to as clients. A client can be a publisher, subscriber, or both as both these processes are entirely independent of each other, as we will see in the later chapters.

But another question arises now: how does the broker manage or route which information is sent where? The following section will answer this question, exploring MQTT functionality.

Functionality and components of MQTT

We have already seen the significant components of MQTT, but we will now explore how these components communicate with each other.

MQTT has no client device addresses or identifiers, making it easy to build an expansible, ad hoc network. The only thing all clients must know is the address of the broker. So, how do messages get routed between the clients? The solution for this is topics and messages.

This is how the whole system works:

  1. First, the publisher sends the data collected to the broker on a particular topic, which is similar to a channel for data transmission and reception. Please note that a topic can have several subtopics too. For example, in an application where you send the temperature data from a sensor connected to your fridge, the topic will look something like this:

Kitchen/Fridge/

The main topic is the kitchen, and the appliance is the subtopic. The message will be Temperature:14 on the given topic.

  1. The subscribers listen to the topic. So, if the subscriber is listening to the Kitchen topic, it will have access to all the subtopics that are a part of this topic.
  2. The primary function of the broker is to manage all the available topics and route the information according to the type of client, namely publishers and subscribers.

Now that we are aware of the details of MQTT, we will have a look at the salient features of this communication protocol.

Salient features of MQTT

This section will cover the main features of this communication protocol:

  • Lightweight and efficient:

MQTT clients are tiny, and they require minimal resources to operate. So, even microcontrollers such as ESP8266 can be used as a client as long as they have an active connection to a network.

This protocol is highly efficient thanks to the small message headers that provide maximum network bandwidth efficiency.

  • Bidirectional communication protocol

MQTT allows to-and-fro messaging capability. This means a device can be a publisher and a subscriber simultaneously. This also allows easy broadcasting of messages to several devices at once. 

  • Highly scalable:

There is no worry about maintaining clients’ addresses or IDs; it is effortless to expand the MQTT network. Moreover, the decoupling between the publishers and subscribers makes things even more accessible. The only things required on the client side are the broker’s IP address and the topic name

  • Reliability:

MQTT is highly reliable when it comes to message delivery. As this is an essential aspect of any communication protocol, MQTT comes with three predefined quality of service (QoS) levels:

  • QoS 0: At most once
  • QoS 1: At least once
  • QoS 2: Exactly once
  • Support for unreliable networks:

Many IoT devices are connected over unreliable networks, and MQTT’s support for persistent sessions reduces the client’s time with the broker. For example, several monitoring devices are deployed on moving vehicles or in remote areas such as forests.

  • Highly secure:

MQTT makes it easy to encrypt messages using TLS and authenticate clients using modern authentication protocols, such as OAuth.

This is the end of this section. We covered the basics of MQTT and the components and salient features of this popular communication protocol. This protocol will be discussed in detail in Chapter 2,MQTT in Detail, of this book.

A gentle introduction to Raspberry Pi

This section will introduce you to the Raspberry Pi, the world’s most affordable credit card-sized computer.

There is a wide range of available Raspberry Pi development boards available. They are primarily available in four formats:

  • Model B: These are full-size boards equipped with Ethernet and USB ports.
  • Model A: These are square-shaped boards, considered light models of Raspberry Pi. They are different from the Model B because of the absence of an Ethernet port, fewer USB ports, and a slightly less powerful processor chip. They come at a lower price due to these cuts.
  • Zero: This is the cheapest and smallest Raspberry Pi available. It is equipped with a significantly less powerful and low-power processor, includes no USB or Ethernet port, and is equipped with a mini-HDMI port instead of a full-size HDMI.
  • Compute: This is Raspberry Pi 4 in a compact package for embedded applications. Additional RAM and eMMC Flash customizations are available (32 different variant configurations are listed on the official Raspberry Pi website).

The latest models of the Pi available are as follows:

  • Raspberry Pi Model 4B
  • Raspberry Pi Model 3 (B+, B, and A)
  • Raspberry Pi Zero W
  • Raspberry Pi 400 (a personal computer kit)
  • Raspberry Pi 4 Compute Module

We will cover the Raspberry Pi Model 4B in depth as it is the latest variant available and is the model we will be using throughout the book.

Raspberry Pi Model 4B

This is the latest development board from Raspberry Pi (Figure 1.2). It has several new and improved features that make it an incredible upgrade over the older models. The most significant change is the support of two 4K displays, which is an astonishing feat on hardware that costs 35 dollars.

Another distinctive feature is the upgraded CPU and RAM options. The latest board is powered by a new 1.5 GHz quad-core CPU, almost three times faster than the previous-generation processor. Moreover, the boards are available in 2 GB, 4 GB, and 8 GB LPDDR4 RAM configurations.

It also has USB C support, USB 3.0 support, and Gigabit Ethernet. The Raspberry Pi 4 is a viable dual-display desktop computer with these new hardware capabilities.

Figure 1.2 – Raspberry Pi Model 4B+: the latest Raspberry Pi development board

Figure 1.2 – Raspberry Pi Model 4B+: the latest Raspberry Pi development board

Now, we will dig a bit deeper and cover the hardware specifications of this development board in detail followed by a brief discussion of some popular operating systems that are available for this board.

Hardware specifications

The hardware specifications of the Raspberry Pi model 4 are as follows, as mentioned on the official Raspberry Pi 4 product page:

  • Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
  • 2 GB, 4 GB, or 8 GB LPDDR4-3200 SDRAM (depending on model)
  • 2.4 GHz and 5.0 GHz IEEE 802.11ac wireless, Bluetooth 5.0, BLE
  • Gigabit Ethernet
  • Two USB 3.0 ports; two USB 2.0 ports
  • Raspberry Pi standard 40-pin GPIO header (fully backward compatible with previous boards)
  • Two micro-HDMI ports (up to 4kp60 supported)
  • Two-lane MIPI DSI display port
  • Two-lane MIPI CSI camera port
  • Four-pole stereo audio and composite video port
  • H.265 (4kp60 decode), H264 (1080p60 decode, 1080p30 encode)
  • OpenGL ES 3.0 graphics
  • microSD card slot for loading operating system and data storage
  • 5V DC via USB-C connector (minimum 3A*)
  • 5V DC via GPIO header (minimum 3A*)
  • Power over Ethernet (PoE) enabled (requires separate PoE HAT)
  • Operating temperature: 0–50 degrees °C ambient

The following figure shows the available ports and some technical specifications of the Raspberry Pi 4:

Figure 1.3 – Raspberry Pi 4 ports and hardware specifications

Figure 1.3 – Raspberry Pi 4 ports and hardware specifications

Now that we are done with the hardware specifications, let’s move toward the available software options. As the Pi is a full-blown computer, it will run an operating system of its own. Hence, we will look at some popular operating systems available for the Raspberry Pi.

Operating systems

There are several operating systems available for the Raspberry Pi. We will look at some of the most popular operating systems listed on their official website:

  • Raspberry Pi OS (previously known as Raspbian OS).
  • Ubuntu Core: Ubuntu operating system developed explicitly for embedded boards, with optimizations focused on security and reliability.
  • LibreELEC: A distribution for multimedia applications based on the Kodi entertainment center.
  • Ubuntu Desktop: This is the desktop version of Ubuntu supported on Raspberry Pi Model 3B+ and above. One of the most popular Linux operating systems used worldwide focused on daily applications for home, school, and work.

Now that we have some knowledge about Raspberry Pi and MQTT, the next step is to learn how to setup our Raspberry Pi so that we can use it as a MQTT broker. That is exactly what the next section is about!

Setting Up Your Raspberry Pi

In this section, we will cover how to set up the Raspberry Pi. Although simple, it is crucial to perform each step as this will help us set up our own local MQTT broker on the Raspberry Pi. This will also help you understand how to get started with your new Raspberry Pi by installing an operating system onto it.

First, we will flash the popular Debian-based Raspberry Pi OS on our Raspberry Pi. After that, we will install all the necessary libraries and packages to make our device a local MQTT broker.

The topics we will be covering will be as follows:

  • Setting up an SD card for your Raspberry Pi
  • Flashing the OS image onto the SD card
  • Setting up your Raspberry Pi for the first time
  • Setting up VNC for the Raspberry Pi
  • Setting up and testing the MQTT broker
  • Testing the MQTT broker locally

First, we will discuss what will be required in terms of hardware to follow this setup process.

Technical requirements

To follow the instructions provided in this section, you will need the following hardware:

  • Raspberry Pi (model 3B or higher, preferably Raspberry Pi 4)
  • HDMI display (for first boot only)
  • Keyboard and mouse (for first boot only)
  • Power supply for the Pi (the official Pi power supply is recommended)
  • MicroSD card (minimum 8 GB storage option is recommended)

So, let us proceed to the next step, which is installing the official Raspberry Pi OS image and setting up the SD card.

Setting up an SD card for your Raspberry Pi

In this step, the main aim is to get the microSD Card ready for the Raspberry Pi.

Important Note

If you have purchased a Raspberry Pi bundle with a pre-burnt SD card and some optional accessories, you can skip this step, as the SD card you have is already loaded with the required OS. But, if you would like to install a different OS, you can follow this step to do so.

Before installing the OS onto the SD card, we need to format the SD card to make sure nothing corrupts the OS. There are two methods to do so. The first is the easy way, using software to do this task, and this can be done in Windows and macOS systems. The second method is a little more complicated, and it will cover how to do the same for Linux-based systems.

The SD Card Formatter software (managed by the SD Association) helps you wipe the SD card totally so it can be used for the desired purpose, which, in our case, is to burn an OS image onto it.

We need to perform this step when the SD card we are using has been previously used or has some data stored on it already. This can corrupt the OS, and so all the existing data needs to be wiped. Moreover, this is perfect practice and should be done every time we install a new OS.

Let’s look at the following steps:

  1. To install this software, go to the relevant link depending on the OS you are using:
  2. When you open the link on your browser, you will see an agreement on your screen, as shown in Figure 1.4. Scroll down to the end and press the Accept button:
Figure 1.4 – Download page for SD Card Formatter

Figure 1.4 – Download page for SD Card Formatter

  1. Once you’ve clicked the Accept button, the software setup ZIP file will automatically start downloading on your system. Once complete, extract the ZIP file and just run the setup file. This will open an installer window; follow the steps to install the software onto your system. After the software is successfully installed, you will see the dialog box shown in the following screenshot:
Figure 1.5 – The dialog box that appears after successful installation of the software

Figure 1.5 – The dialog box that appears after successful installation of the software

  1. After the software has been installed, the next step is to format our SD card. For this, an SD card reader is required. There are two options available on the market. One is a USB SD card reader stick, and the other is an SD card adapter, as shown in the following figure:
Figure 1.6 – Common SD card adapters

Figure 1.6 – Common SD card adapters

  1. Once getting an adapter, the next step is to insert the SD card into the adapter and then insert it into the PC. Please note that not all PCs and laptops have SD card readers, so getting a USB adapter is better to avoid any problems.
  2. Once the stick has been inserted and detected by your machine, launch the SD Card Formatter software. A dialog box will open, which looks something like the following:
Figure 1.7 – SD Card Formatter application page

Figure 1.7 – SD Card Formatter application page

  1. Next, you have to select your card, which will be visible in the Select card dropdown menu. There will be two partitions available (in your file explorer) for formatting if you have an OS image already burned on it. In that case, select the one that has the name boot.
  2. Once the card is selected, keep all the other settings as default and press the Format button. This will start the process of wiping the SD card. Once the process is complete, you will see a dialog box saying Formatting was successfully completed, as seen in the following screenshot:
Figure 1.8 – Formatting completion dialog box

Figure 1.8 – Formatting completion dialog box

We have successfully formatted our SD card! Now, we are all set to burn our Raspberry Pi OS image onto our card.

Important Note

Please keep in mind that if you are using an SD card adapter, make sure it is in unlock mode or you could face formatting issues. Unlocking the adapter means giving the computer access to the SD card. This is done by simply flipping a small switch on the side of the adapter.

SD card formatting in Linux systems

We will use GParted to format our SD card on a Linux system. It is an open source disk management software. Just follow these steps:

  1. First, we will need to install this software, as this does not come preinstalled. We will use the Ubuntu OS for this tutorial, the most common and widely used Linux OS. Use this command to install the software via the Linux Terminal:
    sudo apt install gparted

Once the app has been installed, it will be available in the Applications menu. Just find and launch the application, as shown in the following figure:

Figure 1.9 – Launching GParted from the Applications menu

Figure 1.9 – Launching GParted from the Applications menu

  1. This application requires root privileges to run, so enter your password when prompted. After that, the application window will pop open, and you will be able to see all the disks presently connected to your system:
Figure 1.10 – GParted application home screen

Figure 1.10 – GParted application home screen

The user interface is relatively easy to navigate and much more intuitive than the one we get with the preinstalled disk utility software. There are additional features that this software provides, such as creating bootable USB drives and downloading an ISO file, for example.

  1. Now, select the SD card drive from the top-right corner dropdown, as shown here:
Figure 1.11 – Selecting the USB drive to format

Figure 1.11 – Selecting the USB drive to format

  1. We will now format this drive, but to do so, we first need to unmount it. Just right-click on the visible partition, and you will see an option to unmount it , as shown in the following screenshot:
Figure 1.12 – Unmounting the USB adapter before formatting

Figure 1.12 – Unmounting the USB adapter before formatting

  1. You can start the formatting process once the drive has been unmounted. To do that, right-click on the USB drive and select the Format to option. Select the file system of your SD card (fat32, in most commonly available SD cards):
Figure 1.13 – Selecting the desired file format (fat32 in most cases)

Figure 1.13 – Selecting the desired file format (fat32 in most cases)

This won’t start the formatting process. It will just add a new operation to the list of pending operations, as seen here:

Figure 1.14 – List of pending operations

Figure 1.14 – List of pending operations

  1. Now, click the Apply All Operations button, which is the green tick icon at the top, as shown in Figure 1.15:
Figure 1.15 – Clicking on Apply All Operations

Figure 1.15 – Clicking on Apply All Operations

  1. A window will pop up, warning you that the operation will lead to complete loss of data on the USB drive. Just click on Apply to start the formatting process:
Figure 1.16 – Clicking Apply to continue formatting

Figure 1.16 – Clicking Apply to continue formatting

The formatting process will start. You can track the progress using the window that pops up:

Figure 1.17 – Formatting progress dialog box – GParted

Figure 1.17 – Formatting progress dialog box – GParted

You will see the window shown in the following screenshot once the formatting process has been completed:

Figure 1.18 – Formatting process completed dialog box

Figure 1.18 – Formatting process completed dialog box

Your SD card is formatted! Close the application, and your USB adapter will be listed in the file manager. We can now move to the next step.

Flashing the OS image onto the SD card

Now that our SD card is ready for the Raspberry Pi OS, the next step is to install the Raspberry Pi Imager software, which is the easiest way to install the OS onto our SD card.

Important Note

For more advanced users who are looking to install a particular OS, follow this link: https://www.raspberrypi.org/documentation/installation/installing-images/README.md.

In the next section, we’re going to follow the step-by-step process to install the Raspberry Pi OS on your SD card.

Downloading and installing the Raspberry Pi Imager software

The first step is to install the software:

  1. To do that, visit the following link: https://www.raspberrypi.org/software/.
  2. Once the page is loaded, you will see a section for Raspberry Pi Imager. Just download the latest version of the software for your OS:
Figure 1.19 – Downloading Raspberry Pi Imager

Figure 1.19 – Downloading Raspberry Pi Imager

  1. Once you press any one of the download links, the latest version of the installer will download onto your system. (At the time of writing this book, the latest version is v1.5.)
  2. To run the installer, follow the process by pressing the Next button until the software is installed. Once the installation is complete, open the Raspberry Pi Imager software. A dialog box will pop up asking for permission as it requires root/administrator access. Just allow it, and the application will open:
Figure 1.20 – Raspberry Pi Imager application

Figure 1.20 – Raspberry Pi Imager application

  1. We have to choose the OS we want to install, which is the Raspberry Pi OS. To do that, press the CHOOSE OS button, and you will see all the available options as follows:
Figure 1.21 – All the available OS options

Figure 1.21 – All the available OS options

  1. We will select the first option, Raspberry Pi OS (32-bit). As seen in Figure 1.21, the size of the latest OS version is 1.1 GB. That means that before burning the OS, the system will download the 1.1 GB image file.
  2. Next, choose the SD card directory you want to burn the OS onto. At this point, insert your SD adapter if you haven’t already, and you will be able to see it listed when you press the CHOOSE STORAGE button:
Figure 1.22 – Choosing the SD card you want to burn to OS to

Figure 1.22 – Choosing the SD card you want to burn to OS to

  1. After both the OS and SD card have been selected, press the WRITE button, which will now be white-colored:
Figure 1.23 – Pressing the Write button

Figure 1.23 – Pressing the Write button

This will start the writing process. The application will first download the image file you chose and then write it onto the SD card. Please note that you will not see the download progress, just a Writing progress bar. So, it is an excellent time to grab a cup of coffee or go for a short walk, as this may take some time:

Figure 1.24 – You can see the writing progress in the application

Figure 1.24 – You can see the writing progress in the application

  1. Once the writing process is over, you will see a dialog box saying Raspberry Pi OS has been successfully written…. You can now press the Continue button and remove the adapter.

This completes the SD card preparation for our Raspberry Pi. In the next step, we will boot into our new OS for the first time and update and upgrade some software to the latest version, enabling VNC to wirelessly SSH into our Pi (don’t worry, we will discuss this in detail in a later section).

Setting up Raspberry Pi for the first time

After the OS has been written to the SD card, we will insert this card into our Raspberry Pi, as seen in the following figure:

Figure 1.25 – Inserting the SD card into the Pi (image from the official Raspberry Pi website)

Figure 1.25 – Inserting the SD card into the Pi (image from the official Raspberry Pi website)

We will also connect a display using either a display port (if you have a Raspberry Pi 4) or a simple HDMI display, and a USB keyboard and mouse. Finally, after all the peripherals are connected, we will connect our power supply (any USB C or micro-USB charger, depending on the model you are using) to the Pi. Please see the following figure for how to make the connections:

Figure 1.26 – Powering the Raspberry Pi after connecting the peripherals

Figure 1.26 – Powering the Raspberry Pi after connecting the peripherals

Once all the setup is complete, connect the power supply to the Pi, and you should see the Pi booting up on the connected HDMI screen. It will take 20-30 seconds for the first boot. Once it is done, a welcome screen will appear saying Welcome to Raspberry Pi Desktop, as seen in Figure 1.27:

Figure 1.27 – Raspberry Pi welcome screen

Figure 1.27 – Raspberry Pi welcome screen

Just complete the first-time setup by clicking on the Next button. It will first ask you to set the location settings and choose the language and keyboard accordingly:

Figure 1.28 – Setting up the location, language, and timezone

Figure 1.28 – Setting up the location, language, and timezone

After the required information has been entered, press the Next button. It will take a few seconds for the system to set up the location.

Next, the OS will prompt you to change the default password of your system, which is raspberry. Select a strong password, and after entering all the required information, press the Next button:

Figure 1.29 – Setting up a new password

Figure 1.29 – Setting up a new password

After this, the system will help you choose the best resolution according to your display type. You can skip this step, as we will only use this monitor or display once. In the next section, we will learn how to set up VNC and SSH on our Pi to access it wirelessly when we are connected to the same network.

Next, we need to connect to a Wi-Fi network, as shown in Figure 1.30. Select your network from the list of available networks, then authenticate by entering your password to connect to your network. If you have connected via Ethernet or would like to do it later, you can skip this step by pressing the Skip button.

Please note that you will require a shared Wi-Fi network to use VNC, and you will need a local network at the very least. If you skip the step, for now, you can always connect to a network through the Wi-Fi symbol on the top-right side of the desktop in the following figure:

Figure 1.30 – Connecting to a Wi-Fi network

Figure 1.30 – Connecting to a Wi-Fi network

Finally, the last step of the setup is to update the software to the latest version. As we have used the newest version of Raspberry Pi OS, no significant updates will be pending. It is still preferable to use this opportunity to update all the preinstalled software to the latest version (Figure 1.31).

Just click Next as given in the instructions, and the process will automatically start:

Figure 1.31 – Updating to the latest software

Figure 1.31 – Updating to the latest software

Important Note

If you fail to update your system through this setup, it is possible to do this later. For this, open the terminal (the black icon on the top-left side of the home screen) and type the following commands:

sudo apt update – This will fetch the list of all available updates.

sudo apt dist-upgrade – This will download and install the updates.

It will take some time to fetch all the updates and install them, so this would be an excellent time to go for a short walk.

After the updates have been successfully downloaded and installed, the system will prompt you to restart the system for all the changes to take effect. You can do so by simply pressing the Restart button, as shown in the following figure:

Figure 1.32 – Restarting the system after the first setup

Figure 1.32 – Restarting the system after the first setup

This completes the first-time setup of our Raspberry Pi! In the next section, we will learn how to set up VNC on our Raspberry Pi to access it wirelessly through our PC. What’s more, we can also use our PC or laptop keyboard and mouse with the Pi.

Setting up VNC for Raspberry Pi

In this step, we will learn how to set up SSH (Secure Shell) and VNC (Virtual Network Computing) on the Raspberry Pi. Note that the completion of the previous steps of the OS installation and setup on the Raspberry Pi is required to set these up.

Before getting into the practical part, let’s learn a bit more about VNC and SSH:

  • SSH: SSH is a security protocol that gives you remote access to your computer. It can be used for both remote login and file transfer. It provides several alternating options for strong authentication. The following figure shows how SSH technology actually works:
Figure 1.33 – How does SSH work?

Figure 1.33 – How does SSH work?

  • VNC: This is a cross-platform desktop sharing system that allows you to remotely access any computer system with a server through supported client software. It uses the Remote Frame Buffer (RFB) protocol to achieve this. It even enables the use of the keyboard and mouse of the client system as it relays all this information to and fro over a network.

We will be using the RealVNC Server software, which is preinstalled on our Pi. Raspberry Pi will act as a VNC server, and a client software would be needed to access it through the main computer.

Let’s get started on the steps to set up VNC:

  1. As mentioned earlier, the software comes preinstalled on the Raspberry Pi OS (the Desktop OS version), but it is disabled by default. These options must be enabled.
  2. First, open the Start menu. (It is the Raspberry Pi logo on the top left of the screen.) From there, make these selections:

Preferences | Raspberry Pi Configuration

Figure 1.34 – Selecting Raspberry Pi Configuration

Figure 1.34 – Selecting Raspberry Pi Configuration

  1. Once the Raspberry Pi Configuration dialog box opens, there will be five sections available, from which we need to select the Interfaces section:
Figure 1.35 – Raspberry Pi Configuration Interfaces

Figure 1.35 – Raspberry Pi Configuration Interfaces

  1. Enable the VNC and SSH options, then press OK.
Figure 1.36 – Enabling SSH and VNC

Figure 1.36 – Enabling SSH and VNC

This will enable both the protocols on your Pi. Now, the Raspberry Pi is remotely accessible. Congratulations! To verify that it is working, check the top-left part of the screen. A white-colored VNC logo should be visible now:

Figure 1.37 – Checking for the VNC logo when enabled

Figure 1.37 – Checking for the VNC logo when enabled

  1. Click on the VNC icon to get the IP address of our Pi. Make a note of this, as it will be required to access your Pi remotely from your main computer:
Figure 1.38 – Make a note of the IP address

Figure 1.38 – Make a note of the IP address

  1. Move on to the main computer you will be using to access the Pi. The first requirement is to download the VNC Viewer software. Visit the following link to download it: https://www.realvnc.com/en/connect/download/viewer/.

This is what the Download page looks like:

Figure 1.39 – The VNC Viewer download page

Figure 1.39 – The VNC Viewer download page

  1. After downloading the installer for your specific OS, install it onto your system and open the application. The application home page will look something like this:
Figure 1.40 – The VNC Viewer application

Figure 1.40 – The VNC Viewer application

  1. Make sure that your Pi and computer are connected to the same network. Once that is done, enter the IP address of your Pi in the search bar of the application, and then click Enter. It will show a warning message; just press Continue, and you will then see an Authentication window:
Figure 1.41 – The Authentication window

Figure 1.41 – The Authentication window

  1. Enter the username and password and press OK. If the credentials are correct, your attempt to establish a connection will be successful, and now you can remotely log in to your Pi:
Figure 1.42 – Remote access to Raspberry Pi

Figure 1.42 – Remote access to Raspberry Pi

You now have access to your Raspberry Pi wirelessly with the ability to use your computer mouse and keyboard with your Pi’s OS.

The next step is crucial, as we will install a software library that will allow us to use our Raspberry Pi as an MQTT broker. We will install the following two libraries developed by Mosquitto:

  • Mosquitto – MQTT Broker Library.
  • Mosquitto Clients (optional) – This library allows you to run client code on the Pi.

Setting up and testing the MQTT broker

After this setup step and the testing step that follows, you will be able to host a local MQTT broker on your Raspberry Pi device. Moreover, you will also test whether your broker is successfully running by simultaneously running a client code on the Pi itself. Cool, right?

So, let’s get started with the steps to get this done.

Installing the MQTT broker and Clients packages

Mosquitto is a popular MQTT broker well-supported on Debian-based Linux platforms such as Raspbian. To install this package, just open a new terminal, then type in the following command. It’s easy to install using the apt package installer:

sudo apt install mosquitto mosquitto-clients

This command requires root privileges for which we have used sudo in our command. After that, the installation process will start, and once it is complete, you should see an output as shown in the following screenshot:

Figure 1.43 – Terminal view while installing the packages

Figure 1.43 – Terminal view while installing the packages

The mosquitto-clients package is optional for running the Pi as an MQTT broker, but it will help us test whether the broker is running locally.

This package allows you to use your Raspberry Pi as an MQTT client as well. So, if you want to create a local dashboard to control all the MQTT clients from your Pi, you will be able to do so.

Enabling the Mosquitto broker

The broker is still not active. To enable it, type in the following command in your terminal window:

sudo systemctl enable mosquitto

systemd is a Linux package manager that will help you monitor and control the different applications installed. Once the command has been executed, the broker should be running on your Pi. To confirm that, just run the following command:

sudo systemctl status mosquitto

This should produce an output on the terminal window similar to what is shown in the following screenshot:

Figure 1.44 – The output of the status command for the broker

Figure 1.44 – The output of the status command for the broker

The most important thing is that the Active option should show the active (running) status, which will verify that our broker is up and running!

Important Note

If the status command shows an output that says that your process is dead and your MQTT broker stopped, restart the MQTT service by typing the following command:

sudo service mosquitto restart

Now, recheck the status, and it should show the status of your MQTT broker as running!

This marks the conclusion of this section. We successfully set up our Raspberry Pi as a local MQTT broker. Additionally, we installed a package that will let us use the Pi as an MQTT client as well. In the next section, we will test our MQTT broker’s functionality through a short demonstration.

Testing the MQTT broker locally

Now that the MQTT broker is running on the Raspberry Pi, we will test the connection using a straightforward project. First, open two terminal windows on your Raspberry Pi. Now, we will do the following:

  1. In one terminal window, we will subscribe to a particular MQTT topic, for instance:

test/message

To do this, you will require the mosquitto-clients package. Now, type the following command in the terminal:

mosquitto_sub -v -t test/message

This will subscribe to the topic entered after -t.

  1. Next, in the alternate terminal window, we will publish a test message on the same topic to check whether it is sent and received by the other terminal window.

Just imagine the two terminals as different MQTT clients where one client is a subscriber to the topics which the other client publishes. To publish a test message of 'Hello World!', type the following command:

mosquitto_pub -t test/message -m 'Hello World!'
  1. After running the previous command on the second terminal, you should see the message 'Hello World!' on the terminal along with the topic name, as illustrated in the following screenshots:
Figure 1.45 – Raspberry Pi local MQTT test

Figure 1.45 – Raspberry Pi local MQTT test

Congratulations! You have successfully set up your Raspberry Pi. This marks the end of the first chapter of this book. Now, let us summarize what we covered in this chapter.

Summary

This chapter introduced us to Raspberry Pi and MQTT. We started with a brief introduction about MQTT.

Next, we covered the Raspberry Pi, the main hardware we will be using throughout this book. We started by covering the hardware specifications and some popular operating systems available for the Pi. Then we set up our Raspberry Pi to work as a local MQTT broker. To do that, we set up the SD card we will be using for our Pi by formatting it and then flashing the latest version of Raspberry Pi onto it. After that, we did the essential steps to set up our Raspberry Pi for the very first time. Next, we installed the packages that let us use our Pi as an MQTT broker as well as an MQTT client. Finally, we tested the functionality of our Pi as a local MQTT broker.

In the next chapter, we will dive deeper into the different clients we can use with our broker. We will set up an MQTT client on our main computer to understand how MQTT actually works.

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Key benefits

  • Learn some of the most popular tools used in IoT – Raspberry Pi, MQTT, ESP8266 and more
  • Build exciting projects such as an IoT weather station and a smart switch board
  • Discover the advantages of taking your MQTT broker global

Description

The future of IoT has the potential to be limitless. Wouldn’t it be great if you could add it to your own technological stacks? But where to start? With the basics, of course. In this book, you will start by learning about the most popular hardware and communication protocol, Raspberry Pi and MQTT. You will see how to use them together by setting up your own MQTT server on Raspberry Pi and understand how it works. This book explores MQTT in detail, including the clients and devices that you can connect to your server. You will discover two very popular IoT development boards among project developers: the ESP8266 and ESP32 development boards. Then, you will learn how to build interactive dashboards on your Pi and monitor your client devices. The book also shows you how to build a dashboard using another popular software – Node-RED. You will be able to put your skills to the test by creating two full-scale projects. That’s not all: you will also learn how to host your own MQTT server on a virtual cloud service. Finally, you will be guided on how to move forward from here, what technologies to learn, and some project recommendations to polish or test your knowledge. By the end of this book, you will be able to build meaningful projects using Raspberry Pi and MQTT and create dashboards for your projects on Node-RED.

Who is this book for?

This book is for students who are interested in IoT and want to build projects using the available developer hardware. Educators who want to introduce a course on IoT into their curriculum, technology enthusiasts, and IoT developers who are just getting started will also benefit from this book. No prior knowledge about the two main topics that the book covers is required - Raspberry Pi and MQTT. A basic understanding of what IoT is will also be useful but not mandatory.

What you will learn

  • Configure and use a Raspberry Pi for IoT projects
  • Implement the MQTT communication protocol for projects
  • Understand how to set up the NodeMCU and ESP32 boards as MQTT clients
  • Control a NodeMCU board through a Node-RED dashboard hosted on Raspberry Pi
  • Get LAMP server, Home Assistant, and MariaDB on the Raspberry Pi
  • Set up an online MQTT broker on a cloud service or enterprise service provider platform
  • Build full-scale, end-to-end prototype projects

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Table of Contents

13 Chapters
Part 1:Covering the Basics Chevron down icon Chevron up icon
Chapter 1: Introduction to Raspberry Pi and MQTT Chevron down icon Chevron up icon
Chapter 2: MQTT in Detail Chevron down icon Chevron up icon
Chapter 3: Introduction to ESP Development Boards Chevron down icon Chevron up icon
Chapter 4: Node-RED on Raspberry Pi Chevron down icon Chevron up icon
Part 2: Practical Implementation – Building Two Full-Scale Projects Chevron down icon Chevron up icon
Chapter 5: Major Project 1: IoT Weather Station Chevron down icon Chevron up icon
Chapter 6: Major Project 2: Smart Home Control Relay System Chevron down icon Chevron up icon
Part 3: How to Take Things Further – What Next? Chevron down icon Chevron up icon
Chapter 7: Taking Your MQTT Broker Global Chevron down icon Chevron up icon
Chapter 8: Project Prototype to Product – How? Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

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Part 1: Chapters 1-4 Provide an in-depth detail of the MQTT protocol including datagram structure, connectivity handshakes, diagnostics, and applications. Steps include setting up an instance on a Raspberry Pi, adding MCUs, adding logic flows in Node Red, and establishing an MQTT broker. After completing the book the reader will have an advance tool set to efficiently and effectively deploy an enterprise MQTT implementation
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