Difference between revisions of "AWS MQTT cloud connection"

From Teltonika Networks Wiki
 
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=== Enabling MODBUS TCP Slave ===
 
=== Enabling MODBUS TCP Slave ===
Enabling the MODBUS Slave option on the router allows it to answer any requests coming from a MODBUS Master. To do that, go to the router configuration page->Services->MODBUS-> MODBUS TCP Slave. Then clock the "Enable" slider and save.
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Enabling the MODBUS Slave option on the router allows it to answer any requests coming from a MODBUS Master. To do that, go to the router configuration page→Services→MODBUS→MODBUS TCP Slave. Then clock the "Enable" slider and save.
  
 
[[File:Networking rutos configuration examples AWS 014.png|border|class=tlt-border]]
 
[[File:Networking rutos configuration examples AWS 014.png|border|class=tlt-border]]
  
 
=== Enabling MODBUS TCP Master ===
 
=== Enabling MODBUS TCP Master ===
Enabling the MODBUS Master option on the router allows it to make specific requests to any slave in the MODBUS network. To do that, go to the router configuration page->Services->MODBUS-> MODBUS TCP Master. Click on the "Add" button, and do the following configuration on the page:
+
Enabling the MODBUS Master option on the router allows it to make specific requests to any slave in the MODBUS network. To do that, go to the router configuration page→Services→MODBUS→MODBUS TCP Master. Click on the "Add" button, and do the following configuration on the page:
  
 
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=== Configuring Data to Server ===
 
=== Configuring Data to Server ===
Go to the router configuration page->Services->Data to server. Click on the "Add" button, and the configuration is basically the same as described on the "Publishing Bluetooth/Wifi scanner/Modbus data" section of this article, just change the data source to "MODBUS data" and format the data as you wish. You should have something similar to this.
+
Go to the router configuration page→Services→Data to server. Click on the "Add" button, and the configuration is basically the same as described on the "Publishing Bluetooth/Wifi scanner/Modbus data" section of this article, just change the data source to "MODBUS data" and format the data as you wish. You should have something similar to this.
  
 
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[[File:Networking rutos configuration examples AWS 017.png|border|class=tlt-border]]

Latest revision as of 16:13, 22 June 2022

Introduction

In this article you will find instructions on how to setup AWS IoT as a MQTT Broker and how to setup a RUT router as a MQTT Publisher and send data over to this AWS Broker.

With that, you will be able to configure any other device as a MQTT Subscriber, and listen to any published info by the router or other devices on this same broker.

Prerequisites

You will need:

  • An AWS account
  • A router from the RUT2xx or RUT9xx or RUTXxx series

Setting up AWS IoT

Creating a thing

Networking rutos configuration examples AWS 001.png

First off, open the AWS Management Console and login with your credentials. After that, you will see a screen similar to this:

On the search bar on the top, search for "IoT Core", and click on the first search result. You will see a screen like the one below, open the "Manage" section and click on "Things".

Networking rutos configuration examples AWS 002.png

Then, do the following procedure to create a Thing: click on the "Create Things" button "Create single thing" Give it any name "No shadow" "Auto-generate a new certificate (recommended)" "Create thing".

Certificate Handling

Certificates are used by Publishers and Subscribers to connect to your AWS MQTT Broker.

You will be prompted to download the certificates, download the "Device certificate", "Private key file, "Public key file" and "Amazon Root CA 1".Networking rutos configuration examples AWS 003.png

Move all the 4 files to a folder on the C:\ drive, so it's easy to locate them. Then, rename them as following: Keep the "AmazonRootCA1.pem" as it is, the file xxxxx.pem.crt as device_certificate.pem.crt, the file xxxxx-private.pem.key as private_key.pem.key and the file xxxxx-public.pem.key as public_key.pem.key. After that, you will have the following:

Networking rutos configuration examples AWS 004.png

Setting up policies

The policies are needed for allowing incoming data into AWS.

Go back to the AWS IoT HuB, open the "Secure" tab and click on "Policies".

Networking rutos configuration examples AWS 005.png

Do the following procedure: Click on "Create policy" Give it a name Policy effect: allow Policy action: * Policy resource: * Create.Networking rutos configuration examples AWS 006.png

Then, on the same "Secure" tab, click on certificates. There you will see one certificate, the one you've created, select it by checking the checkbox, then go to "Actions", and click on "Attach policy".

Networking rutos configuration examples AWS 007.png

Then select the policy you've created previously, and click on "Attach policies"

Networking rutos configuration examples AWS 008.png

Getting your endpoint

The endpoint is the host address of your MQTT Broker, where Publishers and Subscribers will connect to.

You can find it into the "Settings" tab, copy and save it.

Networking rutos configuration examples AWS 009.png

With that, your MQTT Broker is all setup, and you can start setting up your RUT router as a Publisher.

RUT as MQTT Publisher

What data do you want to publish?

Depending on your RUT model, you can have the following options of data sources to send over MQTT:

  • Bluetooth
  • Wifi scanner
  • MODBUS

Publishing Bluetooth/Wifi scanner/Modbus data

Before sending data from those sources to the MQTT Broker, the router needs to know what data from each source to send:

  • For Bluetooth, first you have to pair the device you want to get data from
  • For WiFi scanner data, you have to enable the wifi scanner functionality first
  • For MODBUS data, you need to set what data from what MODBUS slave the router has to get

If you need any help on setting up each functionality, the Teltonika Wiki has topics for each one of them: Bluetooth, WiFi Scanner, MODBUS

Then, you will use the "Data to server" functionality, under "Services" menu.

Networking rutos configuration examples AWS 010.png

Click on the "Add" button on the right side of the page, you will see the following menu.

Networking rutos configuration examples AWS 011.png

The main fields you have to fill up are pretty straight forward, just pay more attention for the fields needed for AWS MQTT Broker connection:

"URL / Host / Connection string" : There you will paste your AWS Endpoint

"Port" : 8883

"Topic" : Any name you want, just write it down so you can subscribe this topic later

"Use TLS" : On

"TLS type" : "Certificate based"

"CA File, Client certificate, Private key" : There you will select the files you've downloaded from AWS IoT HuB

After setting up all, you should have something similar to the screen below. Click on save and apply.

Networking rutos configuration examples AWS 012.png

To check if your setup is working, you can use any MQTT client, and subscribe to the topic you've created, you should be able to see the data of the source you've selected. You can use the AWS IoT MQTT test client to subscribe to the topic that the router was publishing.

Networking rutos configuration examples AWS 013.png

Example: Publishing RUT MODBUS to AWS IoT using MQTT

In this example the RUT device will act as MODBUS TCP Master and MODBUS TCP Slave, so the device will make requests (Master) and answer to himself (Slave). The received reply, will be sent over MQTT. You can also send data from another MODBUS Slave devices connected to the router.

Enabling MODBUS TCP Slave

Enabling the MODBUS Slave option on the router allows it to answer any requests coming from a MODBUS Master. To do that, go to the router configuration page→Services→MODBUS→MODBUS TCP Slave. Then clock the "Enable" slider and save.

Networking rutos configuration examples AWS 014.png

Enabling MODBUS TCP Master

Enabling the MODBUS Master option on the router allows it to make specific requests to any slave in the MODBUS network. To do that, go to the router configuration page→Services→MODBUS→MODBUS TCP Master. Click on the "Add" button, and do the following configuration on the page:

Networking rutos configuration examples AWS 015.png

"Name" : Any name

"Slave ID" : The slave ID you've set on the slave configuration, by default its 1

"IP address" : The LAN IP address of the router, by default its 192.168.1.1

"Port" : 502

"Period" : 10

"Timeout" : 5

Then scroll down the page a bit, on the "Add new request" section, give any name to your request and click on the "Add" button. Then do the following configuration

Networking rutos configuration examples AWS 016.png

"Data type" : Data type of the data you are going to receive, in this case, the router reports its device name using ASCII

"Function" : MODBUS Protocol function, in this case, we are going to Read holding registers

"First register number" : Depends on your MODBUS device, in this case, its 8

"Register count / Values" : Depends on your MODBUS device, in this case, its 10

Save and apply settings.

Configuring Data to Server

Go to the router configuration page→Services→Data to server. Click on the "Add" button, and the configuration is basically the same as described on the "Publishing Bluetooth/Wifi scanner/Modbus data" section of this article, just change the data source to "MODBUS data" and format the data as you wish. You should have something similar to this.

Networking rutos configuration examples AWS 017.png

Checking if it works

Then, you can use the AWS MQTT test client to check if your setup works, if everything was setup correctly, you should see something like this.

Networking rutos configuration examples AWS 018.png