Deploying backup and disaster recovery solution in Percona Distribution for PostgreSQL¶

This document provides instructions of how to set up and test the backup and disaster recovery solution in Percona Distribution for PostgreSQL with pgBackRest. For technical overview and architecture description of this solution, refer to Backup and disaster recovery in Percona Distribution for PostgreSQL.

Deployment¶

As the example configuration, we will use the nodes with the following IP addresses:

Node name	Internal IP address
pg-primary	10.104.0.3
pg-repo	10.104.0.5
pg-secondary	10.104.0.4

Set up hostnames¶

In our architecture, the pgBackRest repository is located on a remote host. To allow communication among the nodes, passwordless SSH is required. To achieve this, properly setting up hostnames in the /etc/hosts files is very important.

Define the hostname for every server in the /etc/hostname file. The following are the examples of how the /etc/hostname file in three nodes looks like:
```
cat /etc/hostname
pg-primary
```
```
cat /etc/hostname
pg-repo
```
```
cat /etc/hostname
pg-secondary
```
For the nodes to communicate seamlessly across the network, resolve their hostnames to their IP addresses in the /etc/hosts file. (Alternatively, you can make appropriate entries in your internal DNS servers)

The /etc/hosts file for the pg-primary node looks like this:

```
127.0.1.1 pg-primary pg-primary
127.0.0.1 localhost
10.104.0.5 pg-repo
```

The /etc/hosts file in the pg-repo node looks like this:

```
127.0.1.1 pg-repo pg-repo
127.0.0.1 localhost
10.104.0.3 pg-primary
10.104.0.4 pg-secondary
```

The /etc/hosts file in the pg-secondary node is shown below:

```
127.0.1.1 pg-secondary pg-secondary
127.0.0.1 localhost
10.104.0.3 pg-primary
10.104.0.5 pg-repo
```

Set up passwordless SSH¶

Before setting up passwordless SSH, ensure that the postgres user in all three instances has a password.

To set or change the password, run the following command as a root user:
```
$ passwd postgres
```
Type the new password and confirm it.
After setting up the password, edit the /etc/ssh/sshd_config file and ensure the PasswordAuthentication variable is set as yes.
```
PasswordAuthentication yes 
```
In the pg-repo node, restart the sshd service. Without the restart, the SSH server will not allow you to connect to it using a password while adding the keys.
```
$ sudo service sshd restart
```

In the pg-primary node, generate an SSH key pair and add the public key to the pg-repo node.

Important

Run the commands as the postgres user.

Generate SSH keys:

$ ssh-keygen -t rsa
Generating public/private rsa key pair.
Enter file in which to save the key (/root/.ssh/id_rsa): 
Enter passphrase (empty for no passphrase): 
Enter same passphrase again: 
Your identification has been saved in /root/.ssh/id_rsa
Your public key has been saved in /root/.ssh/id_rsa.pub
The key fingerprint is:
...

Copy the public key to the pg-repo node:

$ ssh-copy-id -i ~/.ssh/id_rsa.pub postgres@pg-repo
/usr/bin/ssh-copy-id: INFO: Source of key(s) to be installed: "/root/.ssh/id_rsa.pub"
/usr/bin/ssh-copy-id: INFO: attempting to log in with the new key(s), to filter out any that are already installed
/usr/bin/ssh-copy-id: INFO: 1 key(s) remain to be installed -- if you are prompted now it is to install the new keys
postgres@pg-repo's password: 

Number of key(s) added: 1


Now try logging into the machine, with:   "ssh 'postgres@pg-repo'"
and check to make sure that only the key(s) you wanted were added.

To verify everything has worked as expected, run the following command from the pg-primary node.
```
$ ssh postgres@pg-repo
```
You should be able to connect to the pg-repo terminal without a password.
Repeat the SSH connection from pg-repo to pg-primary to ensure that passwordless SSH is working.
Set up bidirectional passwordless SSH between pg-repo and pg-secondary using the same method. This will allow pg-repo to recover the backups to pg-secondary.

Install Percona Distribution for PostgreSQL¶

Install Percona Distribution for PostgreSQL in the primary and the secondary nodes from Percona repository.

Install percona-release.
Enable the repository:
```
$ sudo percona-release setup ppg14
```
Install Percona Distribution for PostgreSQL packages
On Debian and UbuntuOn RedHat Enterprise Linux and derivatives
$ sudo apt install percona-postgresql-14 -y
$ sudo yum install percona-postgresql14-server

Configure PostgreSQL on the primary node for continuous backup¶

At this step, configure the PostgreSQL instance on the pg-primary node for continuous archiving of the WAL files.

Note

On Debian and Ubuntu, the path to the configuration file is /etc/postgresql/14/main/postgresql.conf.

On RHEL and CentOS, the path to the configuration file is /var/lib/pgsql/14/data/.

Edit the postgresql.conf configuration file to include the following changes:

archive_command = 'pgbackrest --stanza=prod_backup archive-push %p'
archive_mode = on
listen_addresses = '*'
log_line_prefix = ''
max_wal_senders = 3
wal_level = replica

Once the changes are saved, restart PostgreSQL.
```
$ sudo systemctl restart postgresql
```

Install pgBackRest¶

Install pgBackRest in all three instances from Percona repository. Use the following command:

On Debian / UbuntuOn RHEL / derivatives

$ sudo apt-get install percona-pgbackrest

$ sudo yum install percona-pgbackrest

Create the `pgBackRest` configuration file¶

Run the following commands on all three nodes to set up the required configuration file for pgBackRest.

Configure a location and permissions for the pgBackRest log rotation:

$ sudo mkdir -p -m 770 /var/log/pgbackrest
$ sudo chown postgres:postgres /var/log/pgbackrest

Configure the location and permissions for the pgBackRest configuration file:

$ sudo mkdir -p /etc/pgbackrest
$ sudo mkdir -p /etc/pgbackrest/conf.d
$ sudo touch /etc/pgbackrest/pgbackrest.conf
$ sudo chmod 640 /etc/pgbackrest/pgbackrest.conf
$ sudo chown postgres:postgres /etc/pgbackrest/pgbackrest.conf
$ sudo mkdir -p /home/pgbackrest
$ sudo chmod postgres:postgres /home/pgbackrest

Update `pgBackRest` configuration file in the primary node¶

Configure pgBackRest on the pg-primary node by setting up a stanza. A stanza is a set of configuration parameters that tells pgBackRest where to backup its files. Edit the /etc/pgbackrest/pgbackrest.conf file in the pg-primary node to include the following lines:

[global]
repo1-host=pg-repo 
repo1-host-user=postgres
process-max=2
log-level-console=info
log-level-file=debug

[prod_backup]
pg1-path=/var/lib/postgresql/14/main

You can see the pg1-path attribute for the prod_backup stanza has been set to the PostgreSQL data folder.

Update `pgBackRest` configuration file in the remote backup repository node¶

Add a stanza for the pgBackRest in the pg-repo node. Edit the /etc/pgbackrest/pgbackrest.conf configuration file to include the following lines:

[global]
repo1-path=/home/pgbackrest/pg_backup
repo1-retention-full=2
process-max=2
log-level-console=info
log-level-file=debug
start-fast=y
stop-auto=y

[prod_backup]
pg1-path=/var/lib/postgresql/14/main
pg1-host=pg-primary
pg1-host-user=postgres
pg1-port = 5432

Initialize `pgBackRest` stanza in the remote backup repository node¶

After the configuration files are set up, it’s now time to initialize the pgBackRest stanza. Run the following command in the remote backup repository node (pg-repo).

$ sudo -u postgres pgbackrest --stanza=prod_backup stanza-create
2021-11-07 11:08:18.157 P00   INFO: stanza-create command begin 2.36: --exec-id=155883-2277a3e7 --log-level-console=info --log-level-file=off --pg1-host=pg-primary --pg1-host-user=postgres --pg1-path=/var/lib/postgresql/14/main --pg1-port=5432 --repo1-path=/home/pgbackrest/pg_backup --stanza=prod_backup
2021-11-07 11:08:19.453 P00   INFO: stanza-create for stanza 'prod_backup' on repo1
2021-11-07 11:08:19.566 P00   INFO: stanza-create command end: completed successfully (1412ms)

Once the stanza is created successfully, you can try out the different use cases for disaster recovery.

Testing Backup and Restore with `pgBackRest`¶

This section covers a few use cases where pgBackRest can back up and restore databases either in the same instance or a different node.

Use Case 1: Create a backup with `pgBackRest`¶

To start our testing, let’s create a table in the postgres database in the pg-primary node and add some data.

CREATE TABLE CUSTOMER (id integer, name text);
INSERT INTO CUSTOMER VALUES (1,'john');
INSERT INTO CUSTOMER VALUES (2,'martha');
INSERT INTO CUSTOMER VALUES (3,'mary');

Take a full backup of the database instance. Run the following commands from the pg-repo node:

$ pgbackrest -u postgres  --stanza=prod_backup backup --type=full

If you want an incremental backup, you can omit the type attribute. By default, pgBackRest always takes an incremental backup except the first backup of the cluster which is always a full backup.

If you need a differential backup, use diff for the type field:

$ pgbackrest -u postgres --stanza=prod_backup backup --type=diff

Use Case 2: Restore a PostgreSQL Instance from a full backup¶

For testing purposes, let’s “damage” the PostgreSQL instance.

Run the following command in the pg-primary node to delete the main data directory.
```
$ rm -rf /var/lib/postgresql/14/main/*
```

To restore the backup, run the following commands.

Stop the postgresql instance

$ sudo systemctl stop postgresql

Restore the backup:

$ pgbackrest -u postgres --stanza=prod_backup restore

Start the postgresql instance

$ sudo systemctl start postgresql

After the command executes successfully, you can access PostgreSQL from the psql command line tool and check if the table and data rows have been restored.

Use Case 3: Point-In-Time Recovery¶

If your target PostgreSQL instance has an already existing data directory, the full restore option will fail. You will get an error message stating there are existing data files. In this case, you can use the --delta option to restore only the corrupted files.

For example, let’s say one of your developers mistakenly deleted a few rows from a table. You can use pgBackRest to revert your database to a previous point in time to recover the lost rows.

To test this use case, do the following:

Take a timestamp when the database is stable and error-free. Run the following command from the psqlprompt.
```
SELECT CURRENT_TIMESTAMP;
       current_timestamp       
-------------------------------
 2021-11-07 11:55:47.952405+00
(1 row)
```
Note down the above timestamp since we will use this time in the restore command. Note that in a real life scenario, finding the correct point in time when the database was error-free may require extensive investigation. It is also important to note that all changes after the selected point will be lost after the roll back.
Delete one of the customer records added before.
```
DELETE FROM CUSTOMER WHERE ID=3;
```

To recover the data, run a command with the noted timestamp as an argument. Run the commands below to recover the database up to that time.

Stop the postgresql instance

$ sudo systemctl stop postgresql

Restore the backup

$ pgbackrest -u postgres --stanza=prod_backup --delta \
--type=time "--target= 2021-11-07 11:55:47.952405+00" \
--target-action=promote restore

Start the postgresql instance

$ sudo systemctl start postgresql

Check the database table to see if the record has been restored.

SELECT * FROM customer;
 id |  name  
----+--------
  1 | john
  2 | martha
  3 | mary
(3 rows)

Use Case 4: Restoring to a Separate PostgreSQL Instance¶

Sometimes a PostgreSQL server may encounter hardware issues and become completely inaccessible. In such cases, we will need to recover the database to a separate instance where pgBackRest is not initially configured. To restore the instance to a separate host, you have to first install both PostgreSQL and pgBackRest in this host.

In our test setup, we already have PostgreSQL and pgBackRest installed in the third node, pg-secondary. Change the pgBackRest configuration file in the pg-secondary node as shown below.

[global]
repo1-host=pg-repo
repo1-host-user=postgres
process-max=2
log-level-console=info
log-level-file=debug

[prod_backup]
pg1-path=/var/lib/postgresql/14/main

There should be bidirectional passwordless SSH communication between pg-repo and pg-secondary. Refer to the Set up passwordless SSH section for the steps, if you haven’t configured it.

Stop the PostgreSQL instance

$ sudo systemctl stop postgresql

Restore the database backup from pg-repo to pg-secondary.

$ pgbackrest -u postgres --stanza=prod_backup --delta restore

2021-11-07 13:34:08.897 P00   INFO: restore command begin 2.36: --delta --exec-id=109728-d81c7b0b --log-level-console=info --log-level-file=debug --pg1-path=/var/lib/postgresql/14/main --process-max=2 --repo1-host=pg-repo --repo1-host-user=postgres --stanza=prod_backup
2021-11-07 13:34:09.784 P00   INFO: repo1: restore backup set 20211107-111534F_20211107-131807I, recovery will start at 2021-11-07 13:18:07
2021-11-07 13:34:09.786 P00   INFO: remove invalid files/links/paths from '/var/lib/postgresql/14/main'
2021-11-07 13:34:11.803 P00   INFO: write updated /var/lib/postgresql/14/main/postgresql.auto.conf
2021-11-07 13:34:11.819 P00   INFO: restore global/pg_control (performed last to ensure aborted restores cannot be started)
2021-11-07 13:34:11.819 P00   INFO: restore size = 23.2MB, file total = 937
2021-11-07 13:34:11.820 P00   INFO: restore command end: completed successfully (2924ms)

After the restore completes successfully, restart PostgreSQL:

$ sudo systemctl start postgresql

Check the database contents from the local psql shell.

SELECT * FROM customer;
 id |  name  
----+--------
  1 | john
  2 | martha
  3 | mary
(3 rows)

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