// Tutorial //

How To Set Up Logical Replication with PostgreSQL 10 on Ubuntu 18.04

Published on August 31, 2018
How To Set Up Logical Replication with PostgreSQL 10 on Ubuntu 18.04

Introduction

When setting up an application for production, it’s often useful to have multiple copies of your database in place. The process of keeping database copies in sync is called replication. Replication can provide high-availability horizontal scaling for high volumes of simultaneous read operations, along with reduced read latencies. It also allows for peer-to-peer replication between geographically distributed database servers.

PostgreSQL is an open-source object-relational database system that is highly extensible and compliant with ACID (Atomicity, Consistency, Isolation, Durability) and the SQL standard. Version 10.0 of PostgreSQL introduced support for logical replication, in addition to physical replication. In a logical replication scheme, high-level write operations are streamed from a master database server into one or more replica database servers. In a physical replication scheme, binary write operations are instead streamed from master to replica, producing a byte-for-byte exact copy of the original content. In cases where you would like to target a particular subset of data, such as off-load reporting, patching, or upgrading, logical replication can offer speed and flexibility.

In this tutorial, you will configure logical replication with PostgreSQL 10 on two Ubuntu 18.04 servers, with one server acting as the master and the other as the replica. By the end of the tutorial you will be able to replicate data from the master server to the replica using logical replication.

Prerequisites

To follow this tutorial, you will need:

Step 1 — Configuring PostgreSQL for Logical Replication

There are several configuration settings you will need to modify to enable logical replication between your servers. First, you’ll configure Postgres to listen on the private network interface instead of the public one, as exposing data over the public network is a security risk. Then you’ll configure the appropriate settings to allow replication to db-replica.

On db-master, open /etc/postgresql/10/main/postgresql.conf, the main server configuration file:

  1. sudo nano /etc/postgresql/10/main/postgresql.conf

Find the following line:

/etc/postgresql/10/main/postgresql.conf
...
#listen_addresses = 'localhost'         # what IP address(es) to listen on;
...

Uncomment it by removing the #, and add your db_master_private_ip_address to enable connections on the private network:

Note: In this step and the steps that follow, make sure to use the private IP addresses of your servers, and not their public IPs. Exposing a database server to the public internet is a considerable security risk.

/etc/postgresql/10/main/postgresql.conf
...
listen_addresses = 'localhost, db_master_private_ip_address'
...

This makes db-master listen for incoming connections on the private network in addition to the loopback interface.

Next, find the following line:

/etc/postgresql/10/main/postgresql.conf
...
#wal_level = replica                    # minimal, replica, or logical
...

Uncomment it, and change it to set the PostgreSQL Write Ahead Log (WAL) level to logical. This increases the volume of entries in the log, adding the necessary information for extracting discrepancies or changes to particular data sets:

/etc/postgresql/10/main/postgresql.conf
...
wal_level = logical
...

The entries on this log will be consumed by the replica server, allowing for the replication of the high-level write operations from the master.

Save the file and close it.

Next, let’s edit /etc/postgresql/10/main/pg_hba.conf, the file that controls allowed hosts, authentication, and access to databases:

  1. sudo nano /etc/postgresql/10/main/pg_hba.conf

After the last line, let’s add a line to allow incoming network connections from db-replica. We’ll use db-replica’s private IP address, and specify that connections are allowed from all users and databases:

/etc/postgresql/10/main/pg_hba.conf
...
# TYPE      DATABASE        USER            ADDRESS                               METHOD
...
host         all            all             db_replica_private_ip_address/32      md5

Incoming network connections will now be allowed from db-replica, authenticated by a password hash (md5).

Save the file and close it.

Next, let’s set our firewall rules to allow traffic from db-replica to port 5432 on db-master:

  1. sudo ufw allow from db_replica_private_ip_address to any port 5432

Finally, restart the PostgreSQL server for the changes to take effect:

  1. sudo systemctl restart postgresql

With your configuration set to allow logical replication, you can now move on to creating a database, user role, and table.

Step 2 — Setting Up a Database, User Role, and Table

To test the functionality of your replication settings, let’s create a database, table, and user role. You will create an example database with a sample table, which you can then use to test logical replication between your servers. You will also create a dedicated user and assign them privileges over both the database and the table.

First, open the psql prompt as the postgres user with the following command on both db-master and db-replica:

  1. sudo -u postgres psql
  1. sudo -u postgres psql

Create a new database called example on both hosts:

  1. CREATE DATABASE example;
  1. CREATE DATABASE example;

Note: The final ; in these commands is required. On interactive sessions, PostgreSQL will not execute SQL commands until you terminate them with a semicolon. Meta-commands (those starting with a backslash, like \q and \c) directly control the psql client itself, and are therefore exempt from this rule. For more on meta-commands and the psql client, please refer to the PostgreSQL documentation.

Using the \connect meta-command, connect to the databases you just created on each host:

  1. \c example
  1. \c example

Create a new table called widgets with arbitrary fields on both hosts:

  1. CREATE TABLE widgets
  2. (
  3. id SERIAL,
  4. name TEXT,
  5. price DECIMAL,
  6. CONSTRAINT widgets_pkey PRIMARY KEY (id)
  7. );
  1. CREATE TABLE widgets
  2. (
  3. id SERIAL,
  4. name TEXT,
  5. price DECIMAL,
  6. CONSTRAINT widgets_pkey PRIMARY KEY (id)
  7. );

The table on db-replica does not need to be identical to its db-master counterpart. However, it must contain every single column present on the table at db-master. Additional columns must not have NOT NULL or other constraints. If they do, replication will fail.

On db-master, let’s create a new user role with the REPLICATION option and a login password. The REPLICATION attribute must be assigned to any role used for replication. We will call our user sammy, but you can replace this with your own username. Make sure to also replace my_password with your own secure password:

  1. CREATE ROLE sammy WITH REPLICATION LOGIN PASSWORD 'my_password';

Make a note of your password, as you will use it later on db-replica to set up replication.

Still on db-master, grant full privileges on the example database to the user role you just created:

  1. GRANT ALL PRIVILEGES ON DATABASE example TO sammy;

Next, grant privileges on all of the tables contained in the database to your user:

  1. GRANT ALL PRIVILEGES ON ALL TABLES IN SCHEMA public TO sammy;

The public schema is a default schema in each database into which tables are automatically placed.

With these privileges set, you can now move on to making the tables in your example database available for replication.

Step 3 — Setting Up a Publication

Publications are the mechanism that PostgreSQL uses to make tables available for replication. The database server will keep track internally of the connection and replication status of any replica servers associated with a given publication. On db-master, you will create a publication, my_publication, that will function as a master copy of the data that will be sent to your subscribers — in our case, db-replica.

On db-master, create a publication called my_publication:

  1. CREATE PUBLICATION my_publication;

Add the widgets table you created previously to it:

  1. ALTER PUBLICATION my_publication ADD TABLE widgets;

With your publication in place, you can now add a subscriber that will pull data from it.

Step 4 — Creating a Subscription

Subscriptions are used by PostgreSQL to connect to existing publications. A publication can have many subscriptions across different replica servers, and replica servers can also have their own publications with subscribers. To access the data from the table you created on db-master, you will need to create a subscription to the publication you created in the previous step, my_publication.

On db-replica, let’s create a subscription called my_subscription. The CREATE SUBSCRIPTION command will name the subscription, while the CONNECTION parameter will define the connection string to the publisher. This string will include the master server’s connection details and login credentials, including the username and password you defined earlier, along with the name of the example database. Once again, remember to use db-master’s private IP address, and replace my_password with your own password:

  1. CREATE SUBSCRIPTION my_subscription CONNECTION 'host=db_master_private_ip_address port=5432 password=my_password user=sammy dbname=example' PUBLICATION my_publication;

You will see the following output confirming the subscription:

Output
NOTICE: created replication slot "my_subscription" on publisher CREATE SUBSCRIPTION

Upon creating a subscription, PostgreSQL will automatically sync any pre-existing data from the master to the replica. In our case there is no data to sync since the widgets table is empty, but this is a useful feature when adding new subscriptions to an existing database.

With a subscription in place, let’s test the setup by adding some demo data to the widgets table.

Step 5 — Testing and Troubleshooting

To test replication between our master and replica, let’s add some data to the widgets table and verify that it replicates correctly.

On db-master, insert the following data on the widgets table:

  1. INSERT INTO widgets (name, price) VALUES ('Hammer', 4.50), ('Coffee Mug', 6.20), ('Cupholder', 3.80);

On db-replica, run the following query to fetch all the entries on this table:

  1. SELECT * FROM widgets;

You should now see:

Output
id | name | price ----+------------+------- 1 | Hammer | 4.50 2 | Coffee Mug | 6.20 3 | Cupholder | 3.80 (3 rows)

Success! The entries have been successfully replicated from db-master to db-replica. From now on, all INSERT, UPDATE, and DELETE queries will be replicated across servers unidirectionally.

One thing to note about write queries on replica servers is that they are not replicated back to the master server. PostgreSQL currently has limited support for resolving conflicts when the data between servers diverges. If there is a conflict, the replication will stop and PostgreSQL will wait until the issue is manually fixed by the database administrator. For that reason, most applications will direct all write operations to the master server, and distribute reads among available replica servers.

You can now exit the psql prompt on both servers:

  1. \q
  1. \q

Now that you have finished testing your setup, you can add and replicate data on your own.

Troubleshooting

If replication doesn’t seem to be working, a good first step is checking the PostgreSQL log on db-replica for any possible errors:

  1. tail /var/log/postgresql/postgresql-10-main.log

Here are some common problems that can prevent replication from working:

  • Private networking is not enabled on both servers, or the servers are on different networks;
  • db-master is not configured to listen for connections on the correct private network IP;
  • The Write Ahead Log level on db-master is incorrectly configured (it must be set to logical);
  • db-master is not configured to accept incoming connections from the correct db-replica private IP address;
  • A firewall like UFW is blocking incoming PostgreSQL connections on port 5432;
  • There are mismatched table names or fields between db-master and db-replica;
  • The sammy database role is missing the required permissions to access the example database on db-master;
  • The sammy database role is missing the REPLICATION option on db-master;
  • The sammy database role is missing the required permissions to access the widgets table on db-master;
  • The table wasn’t added to the publication on db-master.

After resolving the existing problem(s), replication should take place automatically. If it doesn’t, use following command to remove the existing subscription before recreating it:

  1. DROP SUBSCRIPTION my_subscription;

Conclusion

In this tutorial you’ve successfully installed PostgreSQL 10 on two Ubuntu 18.04 servers and configured logical replication between them.

You now have the required knowledge to experiment with horizontal read scaling, high availability, and the geographical distribution of your PostgreSQL database by adding additional replica servers.

To learn more about logical replication in PostgreSQL 10, you can read the chapter on the topic on the official PostgreSQL documentation, as well as the manual entries on the CREATE PUBLICATION and CREATE SUBSCRIPTION commands.

Thanks for learning with the DigitalOcean Community. Check out our offerings for compute, storage, networking, and managed databases.

Learn more about us


About the authors
Default avatar
coreh

author



Still looking for an answer?

Ask a questionSearch for more help

Was this helpful?
 
4 Comments


This textbox defaults to using Markdown to format your answer.

You can type !ref in this text area to quickly search our full set of tutorials, documentation & marketplace offerings and insert the link!

Why would it it need GRANT ALL PRIVILEGES ON DATABASE and ```GRANT ALL PRIVILEGES ON ALL TABLES IN SCHEMA`` on the master? Wouldn’t it just need read-only grants on the source db and then full privs on the target?

Thanks for this. Now to use this along with one regarding multiple DB’s in a Rails 5.2 app.

One thing to note. Replication slots will cache whatever changes are needed on the replicas until the replicas consume them. This means that if your replica server goes away for a long period of time, you can easily fill up your hard drive. See here for an example of this happening: https://stackoverflow.com/questions/47266359/out-of-space-due-to-wal-files, and here for where it’s discussed in the docs: https://www.postgresql.org/docs/10/warm-standby.html#STREAMING-REPLICATION-SLOTS

need help i got error when create subscription “Cannot read properties of undefined (reading ‘notifies’)”

Try DigitalOcean for free

Click below to sign up and get $200 of credit to try our products over 60 days!

Sign up

Join the Tech Talk
Success! Thank you! Please check your email for further details.

Please complete your information!

card icon
Get our biweekly newsletter

Sign up for Infrastructure as a Newsletter.

Sign up
card icon
Hollie's Hub for Good

Working on improving health and education, reducing inequality, and spurring economic growth? We’d like to help.

Learn more
card icon
Become a contributor

You get paid; we donate to tech nonprofits.

Learn more
Welcome to the developer cloud

DigitalOcean makes it simple to launch in the cloud and scale up as you grow – whether you’re running one virtual machine or ten thousand.

Learn more ->
DigitalOcean Cloud Control Panel