Uptime Kuma is an open-source, self-hosted monitoring tool designed to keep track of your services and their availability. Its user-friendly dashboard provides customizable alerts and reporting features to help identify and address issues quickly. Uptime Kuma provides real-time status updates and detailed performance metrics through a web-based interface. When considering hosting Uptime Kuma, deploying it on Azure is a dependable choice due to its scalable infrastructure and user-friendly deployment solutions. ServerAvatar assists with Azure VPS and simplifies the deployment of the Uptime Kuma application on the Azure platform through easy steps.
Create VM Instance in Azure
Getting Started with Azure:
Azure virtual machines are one of several types of on-demand, scalable computing resources that Azure offers. Typically, you choose a virtual machine when you need more control over the computing environment than the other choices offer. An Azure virtual machine offers the benefits of virtualization without the need to purchase or manage the underlying physical hardware. However, you are responsible for tasks such as configuring, patching, and installing software on the virtual machine to ensure its proper functioning.
Azure virtual machines can serve a variety of purposes. Here are a few examples:
- Development and testing: Azure virtual machines provide a fast and straightforward method to deploy a computer environment tailored for coding and testing applications with specific configurations.
- Cloud-based applications: Given the variable demand for your application, it can be cost-effective to host it on an Azure virtual machine. You scale up by deploying additional virtual machines as needed and scale down by shutting them down during periods of lower demand.
- Extended data center: Virtual machines within an Azure virtual network can seamlessly integrate with your organization's network infrastructure.
Create a VM Instance in Azure:
To create a server in Microsoft Azure, First log in to Microsoft Azure. Once you are there, Follow the steps given below.
Step 1: Create a resource
- To access the resource creation form, Go to the Microsoft Azure Home and click on the addition icon button to create a resource. See the following image for reference.
- Then, click on the Create Virtual Machine as derived in the following image:
- By default, you are in the basic section, you have to fill out the details of your project. Select your Subscription plan and create a Resource group accordingly.
- After that, you have to enter the following details of your instance which includes:
- Virtual machine name: Enter your virtual machine name.
- Region: Select the Location of your Instance.
-
Availability options: There are four options available:
- No infrastructure redundancy is required. (Recommended)
- Availability Zone: If you select this option then you will have to choose the Zones available for your instance.
- Virtual machine scale set: If you select this option then you have to create your own Virtual machine scale set in your current resource and region.
- Availability Set: If you select this option then you can choose Aligned availability sets or Classic availability sets.
-
Security type: Azure offers three types of security:
- Standard: Selecting this type will provide a basic level of security.
- Trusted launch virtual machines: Selecting this will ensure a secure boot process by leveraging hardware-backed security features to protect against firmware-level attacks and other vulnerabilities. (Recommended)
- Confidential virtual machines: Selecting this will provide a secure environment where data can be processed in encrypted memory, safeguarding it from unauthorized access even from the cloud provider.
- Image: The Uptime Kuma application generally requires Ubuntu 20.04 LTS or a later version for compatibility and support. We recommend to use Ubuntu 20.04 LTS x64 or Ubuntu 22.04 LTS x64 as an operating system.
- VM architecture: Select the radio button that shows x64 bit.
- Size: Select the VM component size as per your requirements.
- Enable Hibernation: Ignore this checkbox.
- Following the steps you have to enter the Administrator account details:
- Authentication type: You can either use the SSH public key or password for authentication, we recommend to use SSH public key.
- Username: Enter username of your choice.
-
SSH public key source: There are three sources available in Azure for SSH public key:
- Generate new key pair: If you want to generate a new SSH public key then you can choose this option and also you can select encryption format that is RSA SSH format or Ed25519 SSH Format. (Ed25519 provides enhanced performance and security using a smaller key size, whereas RSA remains prevalent, especially in legacy systems and applications).
- Use existing key stored in Azure: Select this if you have stored any SSH public key in Azure.
- Use existing public key: Select this if you already have a public key of your own.
- Now you have to set up Inbound port rules. Inbound port rules define how incoming network traffic is handled by a device or network service. These rules specify which ports on the device or service are open and accessible from external sources, such as the Internet or other networks. In this section, you have to select the ‘Allow Selected Port’ radio button as public inbound rules and select the inbound port as shown in the picture below.
Step 2: Select the Disk for the Virtual Machine
- You can select the disk according to your requirements and needs. You can refer to the image to see the options available in Azure for configuring the disk.
Step 3: Configuring Network Interface Settings
- Here you have to configure your virtual machine network interface, for that, you have to fill out the details as follows:
- Virtual network: Select the network or you can create one.
- Subnets: Select by default subnets or if you have knowledge you can manage and configure them on your own.
- Public IP: Select the newly created by default public IP or you can create one.
- NIC network security group: Leave it Basic as shown in the below image.
- Public inbound ports: Click on Allow selected ports.
- Select inbound ports: Select port HTTP(80), HTTPS(443) and SSH(22).
- Delete public IP and NIC when VM is deleted: Check this box as needed.
- Enable accelerated networking: Ignore this checkbox.
- Moreover, Microsoft Azure also provides load-balancing features. The purpose of this feature is to enhance resource utilization, increase throughput, reduce response times, and prevent any single resource from becoming overloaded.
- This practice is essential for maintaining high availability and reliability of applications and services by evenly distributing workloads. However, Microsoft Azure offers three options you can choose a radio button according to your needs, for that refer to the image depicted below:
Step 4: Configure management options for your Virtual machine
- In this step, you can set up management of your virtual machine and you can configure it according to your requirements and needs.
Step 5: Configure monitoring options for your Virtual machine
- The next step is to configure monitoring of virtual machines. With the help of this feature, you can monitor your virtual machine's Health by setting up Alerts and Diagnosing the issues related to your virtual machine. Please refer to the image mentioned below.
Step 6: Advanced option for your Virtual machine
- In this step, you can enhance configurations by adding additional agents, scripts, or applications through virtual machine extensions or cloud-init. Microsoft Azure makes various options available in this section to set up your virtual machine. You can select the feature you want to add to your virtual machine. Referring to the image below will give you a better understanding.
- Note: Feel free to skip this step, if you don't want to add additional features to your Virtual machine.
Step 7: Create tags for your Virtual machine
- Tags consist of name and value pairs that allow you to classify resources. They facilitate consolidated billing by applying the same tag to multiple resources and resource groups. You can create tags of your own choice and checkmark the resource as per your needs as depicted in the image below.
Step 8: Review And Create A Virtual Machine
- Lastly, you can check all the details you have entered for creating the Virtual machine in Microsoft Azure and after reviewing it, you can click on the Create button as shown in the image below.
Step 9: Allow ServerAvatar port from Microsoft Azure Cloud panel
- The final step is to allow a port so that you can connect your virtual machine server to ServerAvatar. Follow the steps shown in the image below.
- Go to the Microsoft Azure Dashboard.
- After that click on your newly created Virtual machine
- Next, go to the Network settings and create new inbound port rules.
- Finally, add the details mentioned in the image below.
Congratulations! You have successfully created your instance in Microsoft Azure which is now ready to connect with ServerAvatar.
Initial Server Configuration
The Initial server configuration includes the installation and configuration of various packages required to host your website. Usually, You have to write commands and modify configuration files. Luckily, With ServerAvatar, Your full server configuration and optimization can be automated.
Here are the three ways to automatically configure your server with ServerAvatar.
Connect a server using a direct method
- Login/Register to ServerAvatar account, click the Create button from the right side of the screen, and select Server from the dropdown.
- Select Direct Method in the serve connecting method section.
- Type the Server Name as per your choice.
- Select a Tech Stack as per your need. You can either select Apache, Nginx, OpenLiteSpeed or Node Stack.
- Select a Database: MySQL, MariaDB or MongoDB.
- Enable the toggle if you want to install the latest LTS version of node.js on your server.
- Select a Management plan and click the Connect Now button.
- You’ll see the command on your screen. Login to your server using an ssh connection and execute that command as a root user.
- The server connection process will be started on your ServerAvatar account after executing the command.
Connect a server using integration
- Login/Register to your ServerAvatar account, navigate to the Integration tab from the sidebar of the panel, and access Cloud Platform from the dropdown.
- Now Select a cloud platform you want to link with ServerAvatar.
- The popup form will appear on your screen. Enter details to link your cloud provider account. The integration method is different based on the cloud provider you select.
- You can integrate five different cloud provider platforms with ServerAvatar, which is-
Check the above link of cloud platforms to know more about integrating cloud platforms with ServeAvatar.
Connect a server using commands
Step 1. Login to your server using root user
Once you create a server as per your requirements, connect to your server using an ssh connection and execute the below three commands as a root user in your server console area.
wget https://srvr.so/install
chmod +x install
./install
Step 2. Select a web server
It will ask you which web server you would like to install on your server: Apache, Nginx, OpenLiteSpeed or Node Stack. Type anyone that you would like to install on your server and hit the enter button.
Step 3. Claim your server
Completing the process will give you a link to claim your server.
Open the link on your browser to access the ServerAvatar server panel.
Deploy Self Hosted Monitoring Tool Uptime Kuma on Cloud using ServerAvatar
Note: You must have a Server connected in Node Stack.
What is Uptime Kuma?
Uptime Kuma is a tool that helps you keep track of whether your websites or servers are up and running smoothly. It's free and can be hosted on your own servers or in the cloud. With Uptime Kuma, you can monitor things like website responses, specific keywords on pages, or basic network services. If something goes wrong, it can alert you through different channels. In simple terms, it's like having a personal watchdog for your online presence.
This guide will walk you through how to install the self-hosted monitoring tool UptimeKuma with ServerAvatar.
Features Of Uptime Kuma
- Monitoring uptime for HTTP(s) / TCP / HTTP(s) Keyword / HTTP(s) Json Query / Ping / DNS Record / Push / Steam Game Server / Docker Containers
- Fancy, Reactive, Fast UI/UX
- Notifications via Telegram, Discord, Gotify, Slack, Pushover, Email (SMTP), and 90+ notification services, click here for the full list
- 20-second intervals
- Multi Languages
- Multiple status pages
- Map status pages to specific domains
- Ping chart
- Certificate info
- Proxy support
- 2FA support
Prerequisites
- Node.js (v18 / v20.4)
- NPM (v9)
- Pm2
Step 1: Create An Application
On the ServerAvatar server panel, navigate to the Applications tab and click the Create button like the following image.
To proceed with the installation and deployment of UptimeKuma, ensure you have met the prerequisites.
- Enter an Application Name of your choice.
- Specify a Domain (choose between a Test Domain or a Primary Domain).
Note: If hosting Uptime Kuma on your own domain, ensure your domain points to your server's current IP address.
Select the following options:
Method: One Click Application: UptimeKuma
Now, click on Show Advanced Options to create a new system user or select an existing one based on your needs.
Click on the Create Application button. You will be redirected to the Application Installation Status page where you can monitor the installation process and view command outputs.
Once all commands run successfully you will redirect to the Application Dashboard.
Visit your domain to access your Uptime Kuma application.
Now, create your admin account for Uptime Kuma.
Congratulations! You have successfully installed and deployed Uptime Kuma through ServerAvatar.