Creating a MongoDB Replica Set
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In this guide, you’ll learn how to create a MongoDB replica set. A replica set is a cluster of MongoDB database servers that implements master-slave (primary-secondary) replication. Replica sets also fail over automatically, so if one of the members becomes unavailable, a new primary host is elected and your data is still accessible. When combined with sharded database clusters, replica sets allow you to create scalable, highly available database systems for use with growing datasets.
This guide has been tested with Ubuntu 16.04 and CentOS 7. Because most of the configuration is done within the MongoDB application, the steps should not vary significantly among other distributions, but additional configuration may be required.
Before You Begin
If you have not already done so, create a Linode account and at least 3 Compute Instances. See our Getting Started with Linode and Creating a Compute Instance guides.
Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.
Follow the guide on how to install MongoDB for your distribution. See MongoDB guides
sudo
. If you’re not familiar with the sudo
command, see the
Users and Groups guide.Configure Networking
To allow for consistent replication, each node will need to communicate with all the others in the cluster. For example, in a three node set, data transfer will look like this:
There are two major ways to allow the members of your replica set to communicate.
The first method is to use private IP addresses for each member of the replica set. This allows the Linodes in your replica set to communicate without exposing your data to the public internet. This method is recommended, but note that it requires all members of the replica set be in the same data center.
The second method is to simply use the public IP address assigned to each Linode. You’ll need to use this method if your Linodes are located in different data centers, although this is not recommended because network latency will have a negative impact on replication. If you must use public IP addresses, you should configure SSL/TLS encryption for data sent between your hosts, or configure them to communicate over a VPN.
Whether you’re using public or private IP addresses to send data, you’ll need to secure each Linode with a firewall before deploying your replica set into production.
Configure Hosts Files
Each member of your replica set should have a hostname that identifies it as a member of the set. This way, you’ll be able to keep your infrastructure organized at scale (for example, if you add more replica sets). In order to simplify the configuration of your replica set, add the following lines to the /etc/hosts
file on each member of the replica set:
- File: /etc/hosts
1 2 3
192.0.2.1 mongo-repl-1 192.0.2.2 mongo-repl-2 192.0.2.3 mongo-repl-3
If you’re using more than three Linodes, add all of your hosts at this stage. Replace the hostnames with your actual hostnames, and the IP addresses with the IP addresses of your Linodes.
Set Up MongoDB Authentication
In this section you’ll create a key file that will be used to secure authentication between the members of your replica set. While in this example you’ll be using a key file generated with openssl
, MongoDB recommends using an X.509 certificate to secure connections between production systems.
Generate a Key file
Issue this command to generate your key file:
openssl rand -base64 756 > mongo-keyfile
The rest of the steps in this section should be performed on each member of the replica set, so that they all have the key file located in the same directory, with identical permissions. Create the
/opt/mongo
directory to store your key file:sudo mkdir /opt/mongo
Assuming that your key file is under the home directory for your user, move it to
/opt/mongo
, and assign it the correct permissions:sudo mv ~/mongo-keyfile /opt/mongo sudo chmod 400 /opt/mongo/mongo-keyfile
Note Ensure that you copy the same generated key, to each member of your replica set in themongo-keyfile
file under/opt/mongo
.Update the ownership of your key file, so that it belongs to the MongoDB user. Use the appropriate command for your distribution:
Ubuntu / Debian:
sudo chown mongodb:mongodb /opt/mongo/mongo-keyfile
CentOS:
sudo chown mongod:mongod /opt/mongo/mongo-keyfile
Create an Administrative User
On the Linode that you intend to use as the primary member of your replication set, log in to the
mongo
shell:mongosh
Connect to the
admin
database:use admin
Create an administrative user with
root
privileges. Replace “password” with a strong password of your choice:db.createUser({user: "mongo-admin", pwd: "password", roles:[{role: "root", db: "admin"}]})
Configure MongoDB
On each of your Linodes, make the following changes to your /etc/mongod.conf
file:
- File: /etc/mongod.conf
1 2 3 4 5 6 7 8 9
net: port: 27017 bindIp: 127.0.0.1,192.0.2.1 security: keyFile: /opt/mongo/mongo-keyfile replication: replSetName: rs0
The port
value of 27017 is the default. If you have reason to use a different port you may do so, but the rest of this guide will use the default. The bindIp
directive specifies the IP address on which the MongoDB daemon will listen, and since we’re connecting several hosts, this should be the IP address that corresponds with the Linode on which you’re configuring it (the same address added to the hosts files in the previous section). Leaving the default of 127.0.0.1
allows you to connect locally as well, which may be useful for testing replication.
Uncomment the security
section, and use the keyFile
option to direct MongoDB to the key you created previously. Enabling keyFile
authentication automatically enables role-based access control as well, so you will need to
create users and assign them privileges to access specific databases.
The replication
section needs to be uncommented to be enabled. Directives in this section are what directly affect the configuration of your replica set. The value rs0
is the name we’re using for our replica set; you can use a different naming convention if you like, but we’ll be using rs0
throughout this guide.
Once you’ve made these changes, restart the mongod
service:
sudo systemctl restart mongod
Start Replication and Add Members
Connect via SSH to the Linode that you intend to use as your primary. Once you’re logged in, connect to the MongoDB shell using the administrative user you created previously:
mongosh -u mongo-admin -p --authenticationDatabase admin
Note If your connection is refused, be sure that the address for localhost (127.0.0.1
) is included in your configuration’sbindIp
value.From the
mongo
shell, initiate the replica set:rs.initiate()
This command initiates a replica set with the current host as its only member. This is confirmed by the output, which should resemble the following:
{ "info2" : "no configuration specified. Using a default configuration for the set", "me" : "192.0.2.1:27017", "ok" : 1 }
While still connected to the
mongo
shell, add the other hosts to the replica set:rs.add("mongo-repl-2") rs.add("mongo-repl-3")
If you configured other members for your replica set, add them using the same command and the hostnames you set in your
/etc/hosts
file.Once all members have been added, check the configuration of your replica set:
rs.conf()
This will display a replica set configuration object with information about each member as well as some metadata about the replica set.
If you need to do so in the future, you can also check the status of your replica set:
rs.status()
This shows the state, uptime, and other data about the set.
Test Replication
At this stage, your replica set is fully functional and ready to use. The steps in this section are optional, but if you’d like a visual confirmation that your replication is working, you can follow along.
Connect to the
mongo
as the administrative user, on the primary member of your replica set. This is usually the Linode from which you initiated the set, but if you’re not sure, you can check the output ofrs.status()
from any of the members.Enter test data:
use exampleDB for (var i = 0; i <= 10; i++) db.exampleCollection.insert( { x : i } )
The first command creates a database called
exampleDB
, and the second command generates 20 simple documents, which are then inserted into a collection calledexampleCollection
.If your replica set is configured properly, the data should be present on your secondary members as well as the primary. To test this, connect to the
mongo
shell with the administrative user on one of your secondary members, and run:db.getMongo().setSlaveOk()
This command enables secondary member read operations on a per-connection basis, so be sure to disconnect before you deploy your replica set into production. By default, read queries are not allowed on secondary members to avoid problems with your application retrieving stale data. This can become an issue when your database is undergoing more complex queries at a higher load, but because of the relatively simple test data we wrote, this is not an issue here.
However, changing the overall read preference can have benefits in some cases. For more information, see the official MongoDB documentation.
Before running the command in the previous step, any read operations, including simple ones like
show dbs
andshow collections
would fail with an error. Now that you’ve enabled reading, switch to theexampleDB
database:use exampleDB
Next, run a
find()
method with no arguments to show all documents inexampleCollection
:db.exampleCollection.find()
If replication is working, you’ll see a list of the sample documents we created on the primary host.
Disconnect from the
mongo
shell on your secondary member:quit()
If you reconnect on the secondary host in the future, you’ll be unable to perform read operations unless you enable it using the command in Step 3.
Next Steps
Replica sets can be used as standalone components of a high availability system, or as part of a sharded database cluster. For larger datasets, a cluster allows you to distribute data across many database servers or replica sets and route queries to them based on criteria you specify. For more information on how to create a sharded cluster, see our guide on building database clusters with MongoDB.
More Information
You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.
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