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ilhamsabir
ilhamsabir

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Setup NGINX For Load Balancer

Setup Nginx Load Balancing

Loadbalancing is a useful mechanism to distribute incoming traffic around several capable Virtual Private servers.By apportioning the processing mechanism to several machines, redundancy is provided to the application -- ensuring fault tolerance and heightened stability. The Round Robin algorithm for load balancing sends visitors to one of a set of IPs. At its most basic level Round Robin, which is fairly easy to implement, distributes server load without implementing considering more nuanced factors like server response time and the visitors’ geographic region.

Setup

The steps in this tutorial require the user to have root privileges on your VPS. You can see how to set that up in the Users Tutorial.

Prior to setting up nginx loadbalancing, you should have nginx installed on your VPS. You can install it quickly with apt-get:

sudo apt-get install nginx
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Upstream Module

In order to set up a round robin load balancer, we will need to use the nginx upstream module. We will incorporate the configuration into the nginx settings.

Go ahead and open up your website’s configuration (in my examples I will just work off of the generic default virtual host):

sudo nano /etc/nginx/sites-available/default
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We need to add the load balancing configuration to the file.

First we need to include the upstream module which looks like this:

# Define which servers to include in the load balancing scheme.
# It's best to use the servers' private IPs for better performance and security.
# You can find the private IPs at your UpCloud control panel Network section.
http {
   upstream server {
        server domain-1.com;
        server domain-2.com;
        server domain-3.com;
   }

   # This server accepts all traffic to port 80 and passes it to the upstream.
   # Notice that the upstream name and the proxy_pass need to match.
   server {
        # Add this if use HTTPS
        listen              443 ssl default_server;
        listen              [::]:443 ssl default_server;
        server_name  localhost;
        ssl_certificate /etc/ssl/certs/nginx-selfsigned.crt;
        ssl_certificate_key /etc/ssl/private/nginx-selfsigned.key;

        location / {
            proxy_pass http://server;
            proxy_set_header Upgrade $http_upgrade;
            proxy_set_header Connection "Upgrade";
            proxy_set_header Host            $host;
            proxy_set_header X-Real-IP       $proxy_protocol_addr;
            proxy_set_header X-Forwarded-For $proxy_protocol_addr;
            # Very important, controls proxied websocket connection timeout
            proxy_read_timeout 600s;
        }
   }
}
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Restart nginx:

sudo service nginx restart
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Load balancing methods

Load balancing with nginx uses a round-robin algorithm by default if no other method is defined, like in the first example above. With round-robin scheme each server is selected in turns according to the order you set them in the load-balancer.conf file. This balances the number of requests equally for short operations.

Least Connection

Least connections based load balancing is another straightforward method. As the name suggests, this method directs the requests to the server with the least active connections at that time. It works more fairly than round-robin would with applications where requests might sometimes take longer to complete.

To enable least connections balancing method, add the parameter least_conn to your upstream section as shown in the example below.

upstream backend {
   least_conn;
   server 10.1.0.101;
   server 10.1.0.102;
   server 10.1.0.103;
}
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Weight

One way to begin to allocate users to servers with more precision is to allocate specific weight to certain machines. Nginx allows us to assign a number specifying the proportion of traffic that should be directed to each server.

A load balanced setup that included server weight could look like this:

upstream backend  {
  server backend1.example.com weight=1;
  server backend2.example.com weight=2;
  server backend3.example.com weight=4;
}
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Hash

IP hash allows servers to respond to clients according to their IP address, sending visitors back to the same VPS each time they visit (unless that server is down). If a server is known to be inactive, it should be marked as down. All IPs that were supposed to routed to the down server are then directed to an alternate one.

The configuration below provides an example:

upstream backend {
  ip_hash;
  server   backend1.example.com;
  server   backend2.example.com;
  server   backend3.example.com  down;
 }
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Max Fails

According to the default round robin settings, nginx will continue to send data to the virtual private servers, even if the servers are not responding. Max fails can automatically prevent this by rendering unresponsive servers inoperative for a set amount of time.

There are two factors associated with the max fails: max_fails and fall_timeout. Max fails refers to the maximum number of failed attempts to connect to a server should occur before it is considered inactive. Fall_timeout specifies the length of that the server is considered inoperative. Once the time expires, new attempts to reach the server will start up again. The default timeout value is 10 seconds.

A sample configuration might look like this:

upstream backend  {
  server backend1.example.com max_fails=3  fail_timeout=15s;
  server backend2.example.com weight=2;
  server backend3.example.com weight=4;
 }
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Top comments (2)

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jesuskidz profile image
Ola Popoola

Nice. Thanks

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architekco profile image
Evan

Thanks!