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User Guide - Debian & Ubuntu

Introduction

This user guide is intended to be followed sequentially from beginning to end — each section depends on the last. For example, the Restore section relies on setup that is performed in the Quick Start section. Once pgBackRest is up and running then skipping around is possible but following the user guide in order is recommended the first time through.
Although the examples in this guide are targeted at Debian/Ubuntu and PostgreSQL 12, it should be fairly easy to apply the examples to any Unix distribution and PostgreSQL version. The only OS-specific commands are those to create, start, stop, and drop PostgreSQL clusters. The pgBackRest commands will be the same on any Unix system though the location of the executable may vary. While pgBackRest strives to operate consistently across versions of PostgreSQL , there are subtle differences between versions of PostgreSQL that may show up in this guide when illustrating certain examples, e.g. PostgreSQL path/file names and settings.
Configuration information and documentation for PostgreSQL can be found in the PostgreSQL Manual .
A somewhat novel approach is taken to documentation in this user guide. Each command is run on a virtual machine when the documentation is built from the XML source. This means you can have a high confidence that the commands work correctly in the order presented. Output is captured and displayed below the command when appropriate. If the output is not included it is because it was deemed not relevant or was considered a distraction from the narrative.
All commands are intended to be run as an unprivileged user that has sudo privileges for both the root and postgres users. It's also possible to run the commands directly as their respective users without modification and in that case the sudo commands can be stripped off.

Concepts

The following concepts are defined as they are relevant to pgBackRest , PostgreSQL , and this user guide.

Backup

A backup is a consistent copy of a database cluster that can be restored to recover from a hardware failure, to perform Point-In-Time Recovery, or to bring up a new standby.
Full Backup : pgBackRest copies the entire contents of the database cluster to the backup. The first backup of the database cluster is always a Full Backup. pgBackRest is always able to restore a full backup directly. The full backup does not depend on any files outside of the full backup for consistency.
Differential Backup : pgBackRest copies only those database cluster files that have changed since the last full backup. pgBackRest restores a differential backup by copying all of the files in the chosen differential backup and the appropriate unchanged files from the previous full backup. The advantage of a differential backup is that it requires less disk space than a full backup, however, the differential backup and the full backup must both be valid to restore the differential backup.
Incremental Backup : pgBackRest copies only those database cluster files that have changed since the last backup (which can be another incremental backup, a differential backup, or a full backup). As an incremental backup only includes those files changed since the prior backup, they are generally much smaller than full or differential backups. As with the differential backup, the incremental backup depends on other backups to be valid to restore the incremental backup. Since the incremental backup includes only those files since the last backup, all prior incremental backups back to the prior differential, the prior differential backup, and the prior full backup must all be valid to perform a restore of the incremental backup. If no differential backup exists then all prior incremental backups back to the prior full backup, which must exist, and the full backup itself must be valid to restore the incremental backup.

Restore

A restore is the act of copying a backup to a system where it will be started as a live database cluster. A restore requires the backup files and one or more WAL segments in order to work correctly.

Write Ahead Log (WAL)

WAL is the mechanism that PostgreSQL uses to ensure that no committed changes are lost. Transactions are written sequentially to the WAL and a transaction is considered to be committed when those writes are flushed to disk. Afterwards, a background process writes the changes into the main database cluster files (also known as the heap). In the event of a crash, the WAL is replayed to make the database consistent.
WAL is conceptually infinite but in practice is broken up into individual 16MB files called segments. WAL segments follow the naming convention 0000000100000A1E000000FE where the first 8 hexadecimal digits represent the timeline and the next 16 digits are the logical sequence number (LSN).

Encryption

Encryption is the process of converting data into a format that is unrecognizable unless the appropriate password (also referred to as passphrase) is provided.
pgBackRest will encrypt the repository based on a user-provided password, thereby preventing unauthorized access to data stored within the repository.

Upgrading pgBackRest

Upgrading pgBackRest from v1 to v2

Upgrading from v1 to v2 is fairly straight-forward. The repository format has not changed and all non-deprecated options from v1 are accepted, so for most installations it is simply a matter of installing the new version.
However, there are a few caveats:
  • The deprecated thread-max option is no longer valid. Use process-max instead.
  • The deprecated archive-max-mb option is no longer valid. This has been replaced with the archive-push-queue-max option which has different semantics.
  • The default for the backup-user option has changed from backrest to pgbackrest .
  • In v2.02 the default location of the pgBackRest configuration file has changed from /etc/pgbackrest.conf to /etc/pgbackrest/pgbackrest.conf . If /etc/pgbackrest/pgbackrest.conf does not exist, the /etc/pgbackrest.conf file will be loaded instead, if it exists.
Many option names have changed to improve consistency although the old names from v1 are still accepted. In general, db-* options have been renamed to pg-* and backup-* / retention-* options have been renamed to repo-* when appropriate.
PostgreSQL and repository options must be indexed when using the new names introduced in v2 , e.g. pg1-host , pg1-path , repo1-path , repo1-type , etc.

Build

Debian/Ubuntu packages for pgBackRest are available at apt.postgresql.org . If they are not provided for your distribution/version it is easy to download the source and install manually.
When building from source it is best to use a build host rather than building on production. Many of the tools required for the build should generally not be installed in production. pgBackRest consists of a single executable so it is easy to copy to a new host once it is built.
build Download version 2.44 of pgBackRest to /build path 
mkdir -p /build
wget -q -O - \
       https://github.com/pgbackrest/pgbackrest/archive/release/2.44.tar.gz | \
       tar zx -C /build
build Install build dependencies 
sudo apt-get install make gcc libpq-dev libssl-dev libxml2-dev pkg-config \
       liblz4-dev libzstd-dev libbz2-dev libz-dev libyaml-dev
build Configure and compile pgBackRest 
cd /build/pgbackrest-release-2.44/src && ./configure && make

Installation

A new host named pg-primary is created to contain the demo cluster and run pgBackRest examples.
pgBackRest needs to be installed from a package or installed manually as shown here.
pg-primary Install dependencies 
sudo apt-get install postgresql-client libxml2
pg-primary Copy pgBackRest binary from build host 
sudo scp build:/build/pgbackrest-release-2.44/src/pgbackrest /usr/bin
sudo chmod 755 /usr/bin/pgbackrest
pgBackRest requires log and configuration directories and a configuration file.
pg-primary Create pgBackRest configuration file and directories 
sudo mkdir -p -m 770 /var/log/pgbackrest
sudo chown postgres:postgres /var/log/pgbackrest
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
pgBackRest should now be properly installed but it is best to check. If any dependencies were missed then you will get an error when running pgBackRest from the command line.
pg-primary Make sure the installation worked 
sudo -u postgres pgbackrest
pgBackRest 2.44 - General help

Usage:
    pgbackrest [options] [command]

Commands:
    annotate        Add or modify backup annotation.
    archive-get     Get a WAL segment from the archive.
    archive-push    Push a WAL segment to the archive.
    backup          Backup a database cluster.
    check           Check the configuration.
    expire          Expire backups that exceed retention.
    help            Get help.
    info            Retrieve information about backups.
    repo-get        Get a file from a repository.
    repo-ls         List files in a repository.
    restore         Restore a database cluster.
    server          pgBackRest server.
    server-ping     Ping pgBackRest server.
    stanza-create   Create the required stanza data.
    stanza-delete   Delete a stanza.
    stanza-upgrade  Upgrade a stanza.
    start           Allow pgBackRest processes to run.
    stop            Stop pgBackRest processes from running.
    verify          Verify contents of the repository.
    version         Get version.

Use 'pgbackrest help [command]' for more information.

Quick Start

The Quick Start section will cover basic configuration of pgBackRest and PostgreSQL and introduce the backup , restore , and info commands.

Setup Demo Cluster

Creating the demo cluster is optional but is strongly recommended, especially for new users, since the example commands in the user guide reference the demo cluster; the examples assume the demo cluster is running on the default port (i.e. 5432). The cluster will not be started until a later section because there is still some configuration to do.
pg-primary Create the demo cluster 
sudo -u postgres /usr/lib/postgresql/12/bin/initdb \
       -D /var/lib/postgresql/12/demo -k -A peer
sudo pg_createcluster 12 demo
Configuring already existing cluster (configuration: /etc/postgresql/12/demo, data: /var/lib/postgresql/12/demo, owner: 102:103)
Ver Cluster Port Status Owner    Data directory              Log file
12  demo    5432 down   postgres /var/lib/postgresql/12/demo /var/log/postgresql/postgresql-12-demo.log

Configure Cluster Stanza

A stanza is the configuration for a PostgreSQL database cluster that defines where it is located, how it will be backed up, archiving options, etc. Most db servers will only have one PostgreSQL database cluster and therefore one stanza, whereas backup servers will have a stanza for every database cluster that needs to be backed up.

It is tempting to name the stanza after the primary cluster but a better name describes the databases contained in the cluster. Because the stanza name will be used for the primary and all replicas it is more appropriate to choose a name that describes the actual function of the cluster, such as app or dw, rather than the local cluster name, such as main or prod.
The name 'demo' describes the purpose of this cluster accurately so that will also make a good stanza name.
pgBackRest needs to know where the base data directory for the PostgreSQL cluster is located. The path can be requested from PostgreSQL directly but in a recovery scenario the PostgreSQL process will not be available. During backups the value supplied to pgBackRest will be compared against the path that PostgreSQL is running on and they must be equal or the backup will return an error. Make sure that pg-path is exactly equal to data_directory in postgresql.conf .
By default Debian/Ubuntu stores clusters in /var/lib/postgresql/[version]/[cluster] so it is easy to determine the correct path for the data directory.
When creating the /etc/pgbackrest/pgbackrest.conf file, the database owner (usually postgres ) must be granted read privileges.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure the PostgreSQL cluster data directory
[demo]
pg1-path=/var/lib/postgresql/12/demo
pgBackRest configuration files follow the Windows INI convention. Sections are denoted by text in brackets and key/value pairs are contained in each section. Lines beginning with # are ignored and can be used as comments.
There are multiple ways the pgBackRest configuration files can be loaded:
  • config and config-include-path are default: the default config file will be loaded, if it exists, and *.conf files in the default config include path will be appended, if they exist.
  • config option is specified: only the specified config file will be loaded and is expected to exist.
  • config-include-path is specified: *.conf files in the config include path will be loaded and the path is required to exist. The default config file will be be loaded if it exists. If it is desirable to load only the files in the specified config include path, then the --no-config option can also be passed.
  • config and config-include-path are specified: using the user-specified values, the config file will be loaded and *.conf files in the config include path will be appended. The files are expected to exist.
  • config-path is specified: this setting will override the base path for the default location of the config file and/or the base path of the default config-include-path setting unless the config and/or config-include-path option is explicitly set.
The files are concatenated as if they were one big file; order doesn't matter, but there is precedence based on sections. The precedence (highest to lowest) is:
  • [ stanza : command ]
  • [ stanza ]
  • [global: command ]
  • [global]
NOTE:
--config , --config-include-path and --config-path are command-line only options.
pgBackRest can also be configured using environment variables as described in the command reference .
pg-primary Configure log-path using the environment 
sudo -u postgres bash -c ' \
       export PGBACKREST_LOG_PATH=/path/set/by/env && \
       pgbackrest --log-level-console=error help backup log-path'
pgBackRest 2.44 - 'backup' command - 'log-path' option help

Path where log files are stored.

The log path provides a location for pgBackRest to store log files. Note that
if log-level-file=off then no log path is required.

current: /path/set/by/env
default: /var/log/pgbackrest

Create the Repository

The repository is where pgBackRest stores backups and archives WAL segments.

It may be difficult to estimate in advance how much space you'll need. The best thing to do is take some backups then record the size of different types of backups (full/incr/diff) and measure the amount of WAL generated per day. This will give you a general idea of how much space you'll need, though of course requirements will likely change over time as your database evolves.
For this demonstration the repository will be stored on the same host as the PostgreSQL server. This is the simplest configuration and is useful in cases where traditional backup software is employed to backup the database host.
pg-primary Create the pgBackRest repository 
sudo mkdir -p /var/lib/pgbackrest
sudo chmod 750 /var/lib/pgbackrest
sudo chown postgres:postgres /var/lib/pgbackrest
The repository path must be configured so pgBackRest knows where to find it.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure the pgBackRest repository path
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-path=/var/lib/pgbackrest
Multiple repositories may also be configured. See Multiple Repositories for details.

Configure Archiving

Backing up a running PostgreSQL cluster requires WAL archiving to be enabled. Note that at least one WAL segment will be created during the backup process even if no explicit writes are made to the cluster.
pg-primary : /etc/postgresql/12/demo/postgresql.conf Configure archive settings
archive_command = 'pgbackrest --stanza=demo archive-push %p'
archive_mode = on
max_wal_senders = 3
wal_level = replica
%p is how PostgreSQL specifies the location of the WAL segment to be archived. Setting wal_level to at least replica and increasing max_wal_senders is a good idea even if there are currently no replicas as this will allow them to be added later without restarting the primary cluster.
The PostgreSQL cluster must be restarted after making these changes and before performing a backup.
pg-primary Restart the demo cluster 
sudo pg_ctlcluster 12 demo restart
When archiving a WAL segment is expected to take more than 60 seconds (the default) to reach the pgBackRest repository, then the pgBackRest archive-timeout option should be increased. Note that this option is not the same as the PostgreSQL archive_timeout option which is used to force a WAL segment switch; useful for databases where there are long periods of inactivity. For more information on the PostgreSQL archive_timeout option, see PostgreSQL Write Ahead Log .
The archive-push command can be configured with its own options. For example, a lower compression level may be set to speed archiving without affecting the compression used for backups.
pg-primary : /etc/pgbackrest/pgbackrest.conf Config archive-push to use a lower compression level
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-path=/var/lib/pgbackrest

[global:archive-push]
compress-level=3
This configuration technique can be used for any command and can even target a specific stanza, e.g. demo:archive-push .

Configure Retention

pgBackRest expires backups based on retention options.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure retention to 2 full backups
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2

[global:archive-push]
compress-level=3
More information about retention can be found in the Retention section.

Configure Repository Encryption

The repository will be configured with a cipher type and key to demonstrate encryption. Encryption is always performed client-side even if the repository type (e.g. S3 or other object store) supports encryption.
It is important to use a long, random passphrase for the cipher key. A good way to generate one is to run: openssl rand -base64 48 .
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure pgBackRest repository encryption
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2

[global:archive-push]
compress-level=3
Once the repository has been configured and the stanza created and checked, the repository encryption settings cannot be changed.

Create the Stanza

The stanza-create command must be run to initialize the stanza. It is recommended that the check command be run after stanza-create to ensure archiving and backups are properly configured.
pg-primary Create the stanza and check the configuration 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info stanza-create
P00   INFO: stanza-create command begin 2.44: --exec-id=1314-16d92b89 --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --stanza=demo
P00   INFO: stanza-create for stanza 'demo' on repo1
P00   INFO: stanza-create command end: completed successfully

Check the Configuration

The check command validates that pgBackRest and the archive_command setting are configured correctly for archiving and backups for the specified stanza. It will attempt to check all repositories and databases that are configured for the host on which the command is run. It detects misconfigurations, particularly in archiving, that result in incomplete backups because required WAL segments did not reach the archive. The command can be run on the PostgreSQL or repository host. The command may also be run on the standby host, however, since pg_switch_xlog() / pg_switch_wal() cannot be performed on the standby, the command will only test the repository configuration.

Note that pg_create_restore_point('pgBackRest Archive Check') and pg_switch_xlog() / pg_switch_wal() are called to force PostgreSQL to archive a WAL segment.
pg-primary Check the configuration 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info check
P00   INFO: check command begin 2.44: --exec-id=1324-9b4bc945 --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --stanza=demo
P00   INFO: check repo1 configuration (primary)
P00   INFO: check repo1 archive for WAL (primary)
P00   INFO: WAL segment 000000010000000000000001 successfully archived to '/var/lib/pgbackrest/archive/demo/12-1/0000000100000000/000000010000000000000001-08380556f800dbca7df0d2fb3c0a39668012c5d9.gz' on repo1
P00   INFO: check command end: completed successfully

Perform a Backup

By default pgBackRest will wait for the next regularly scheduled checkpoint before starting a backup. Depending on the checkpoint_timeout and checkpoint_segments settings in PostgreSQL it may be quite some time before a checkpoint completes and the backup can begin. Generally, it is best to set start-fast=y so that the backup starts immediately. This forces a checkpoint, but since backups are usually run once a day an additional checkpoint should not have a noticeable impact on performance. However, on very busy clusters it may be best to pass --start-fast on the command-line as needed.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure backup fast start
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y

[global:archive-push]
compress-level=3
To perform a backup of the PostgreSQL cluster run pgBackRest with the backup command.
pg-primary Backup the demo cluster 
sudo -u postgres pgbackrest --stanza=demo \
       --log-level-console=info backup
P00   INFO: backup command begin 2.44: --exec-id=1354-27214f5f --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo1-retention-full=2 --stanza=demo --start-fast
P00   WARN: no prior backup exists, incr backup has been changed to full
P00   INFO: execute non-exclusive backup start: backup begins after the requested immediate checkpoint completes
P00   INFO: backup start archive = 000000010000000000000002, lsn = 0/2000028
       [filtered 3 lines of output]
P00   INFO: check archive for segment(s) 000000010000000000000002:000000010000000000000003
P00   INFO: new backup label = 20230324-202505F
P00   INFO: full backup size = 23.4MB, file total = 976
P00   INFO: backup command end: completed successfully
P00   INFO: expire command begin 2.44: --exec-id=1354-27214f5f --log-level-console=info --log-level-stderr=off --no-log-timestamp --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo1-retention-full=2 --stanza=demo
By default pgBackRest will attempt to perform an incremental backup. However, an incremental backup must be based on a full backup and since no full backup existed pgBackRest ran a full backup instead.
The type option can be used to specify a full or differential backup.
pg-primary Differential backup of the demo cluster 
sudo -u postgres pgbackrest --stanza=demo --type=diff \
       --log-level-console=info backup
       [filtered 7 lines of output]
P00   INFO: check archive for segment(s) 000000010000000000000004:000000010000000000000005
P00   INFO: new backup label = 20230324-202505F_20230324-202509D
P00   INFO: diff backup size = 8.3KB, file total = 976
P00   INFO: backup command end: completed successfully
P00   INFO: expire command begin 2.44: --exec-id=1383-0cf3d397 --log-level-console=info --log-level-stderr=off --no-log-timestamp --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo1-retention-full=2 --stanza=demo
This time there was no warning because a full backup already existed. While incremental backups can be based on a full or differential backup, differential backups must be based on a full backup. A full backup can be performed by running the backup command with --type=full .
During an online backup pgBackRest waits for WAL segments that are required for backup consistency to be archived. This wait time is governed by the pgBackRest archive-timeout option which defaults to 60 seconds. If archiving an individual segment is known to take longer then this option should be increased.

Schedule a Backup

Backups can be scheduled with utilities such as cron.
In the following example, two cron jobs are configured to run; full backups are scheduled for 6:30 AM every Sunday with differential backups scheduled for 6:30 AM Monday through Saturday. If this crontab is installed for the first time mid-week, then pgBackRest will run a full backup the first time the differential job is executed, followed the next day by a differential backup. 
#m h   dom mon dow   command
30 06  *   *   0     pgbackrest --type=full --stanza=demo backup
30 06  *   *   1-6   pgbackrest --type=diff --stanza=demo backup
Once backups are scheduled it's important to configure retention so backups are expired on a regular schedule, see Retention .

Backup Information

Use the info command to get information about backups.
pg-primary Get info for the demo cluster 
sudo -u postgres pgbackrest info
stanza: demo
    status: ok
    cipher: aes-256-cbc

    db (current)
        wal archive min/max (12): 000000010000000000000001/000000010000000000000005

        full backup: 20230324-202505F
            timestamp start/stop: 2023-03-24 20:25:05 / 2023-03-24 20:25:08
            wal start/stop: 000000010000000000000002 / 000000010000000000000003
            database size: 23.4MB, database backup size: 23.4MB
            repo1: backup set size: 2.8MB, backup size: 2.8MB

        diff backup: 20230324-202505F_20230324-202509D
            timestamp start/stop: 2023-03-24 20:25:09 / 2023-03-24 20:25:11
            wal start/stop: 000000010000000000000004 / 000000010000000000000005
            database size: 23.4MB, database backup size: 8.3KB
            repo1: backup set size: 2.8MB, backup size: 480B
            backup reference list: 20230324-202505F
The info command operates on a single stanza or all stanzas. Text output is the default and gives a human-readable summary of backups for the stanza(s) requested. This format is subject to change with any release.

For machine-readable output use --output=json . The JSON output contains far more information than the text output and is kept stable unless a bug is found.

Each stanza has a separate section and it is possible to limit output to a single stanza with the --stanza option. The stanza ' status ' gives a brief indication of the stanza's health. If this is ' ok ' then pgBackRest is functioning normally. If there are multiple repositories, then a status of ' mixed ' indicates that the stanza is not in a healthy state on one or more of the repositories; in this case the state of the stanza will be detailed per repository. For cases in which an error on a repository occurred that is not one of the known error codes, then an error code of ' other ' will be used and the full error details will be provided. The ' wal archive min/max ' shows the minimum and maximum WAL currently stored in the archive and, in the case of multiple repositories, will be reported across all repositories unless the --repo option is set. Note that there may be gaps due to archive retention policies or other reasons.

The ' backup/expire running ' message will appear beside the ' status ' information if one of those commands is currently running on the host.

The backups are displayed oldest to newest. The oldest backup will always be a full backup (indicated by an F at the end of the label) but the newest backup can be full, differential (ends with D ), or incremental (ends with I ).

The ' timestamp start/stop ' defines the time period when the backup ran. The ' timestamp stop ' can be used to determine the backup to use when performing Point-In-Time Recovery. More information about Point-In-Time Recovery can be found in the Point-In-Time Recovery section.

The ' wal start/stop ' defines the WAL range that is required to make the database consistent when restoring. The backup command will ensure that this WAL range is in the archive before completing.

The ' database size ' is the full uncompressed size of the database while ' database backup size ' is the amount of data in the database to actually back up (these will be the same for full backups).

The ' repo ' indicates in which repository this backup resides. The ' backup set size ' includes all the files from this backup and any referenced backups in the repository that are required to restore the database from this backup while ' backup size ' includes only the files in this backup (these will also be the same for full backups). Repository sizes reflect compressed file sizes if compression is enabled in pgBackRest .

The ' backup reference list ' contains the additional backups that are required to restore this backup.

Restore a Backup

Backups can protect you from a number of disaster scenarios, the most common of which are hardware failure and data corruption. The easiest way to simulate data corruption is to remove an important PostgreSQL cluster file.
pg-primary Stop the demo cluster and delete the pg_control file 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres rm /var/lib/postgresql/12/demo/global/pg_control
Starting the cluster without this important file will result in an error.
pg-primary Attempt to start the corrupted demo cluster 
sudo pg_ctlcluster 12 demo start
Error: /usr/lib/postgresql/12/bin/pg_ctl /usr/lib/postgresql/12/bin/pg_ctl start -D /var/lib/postgresql/12/demo -l /var/log/postgresql/postgresql-12-demo.log -s -o  -c config_file="/etc/postgresql/12/demo/postgresql.conf"  exited with status 1: 
postgres: could not find the database system
Expected to find it in the directory "/var/lib/postgresql/12/demo",
but could not open file "/var/lib/postgresql/12/demo/global/pg_control": No such file or directory
Examine the log output.
To restore a backup of the PostgreSQL cluster run pgBackRest with the restore command. The cluster needs to be stopped (in this case it is already stopped) and all files must be removed from the PostgreSQL data directory.
pg-primary Remove old files from demo cluster 
sudo -u postgres find /var/lib/postgresql/12/demo -mindepth 1 -delete
pg-primary Restore the demo cluster and start PostgreSQL 
sudo -u postgres pgbackrest --stanza=demo restore
sudo pg_ctlcluster 12 demo start
This time the cluster started successfully since the restore replaced the missing pg_control file.
More information about the restore command can be found in the Restore section.

Monitoring

Monitoring is an important part of any production system. There are many tools available and pgBackRest can be monitored on any of them with a little work.
pgBackRest can output information about the repository in JSON format which includes a list of all backups for each stanza and WAL archive info.

In PostgreSQL

The PostgreSQL COPY command allows pgBackRest info to be loaded into a table. The following example wraps that logic in a function that can be used to perform real-time queries.
pg-primary Load pgBackRest info function for PostgreSQL 
sudo -u postgres cat \
       /var/lib/postgresql/pgbackrest/doc/example/pgsql-pgbackrest-info.sql
-- An example of monitoring pgBackRest from within PostgreSQL
--
-- Use copy to export data from the pgBackRest info command into the jsonb
-- type so it can be queried directly by PostgreSQL.

-- Create monitor schema
create schema monitor;

-- Get pgBackRest info in JSON format
create function monitor.pgbackrest_info()
    returns jsonb AS $$
declare
    data jsonb;
begin
    -- Create a temp table to hold the JSON data
    create temp table temp_pgbackrest_data (data text);

    -- Copy data into the table directly from the pgBackRest info command
    copy temp_pgbackrest_data (data)
        from program
            'pgbackrest --output=json info' (format text);

    select replace(temp_pgbackrest_data.data, E'\n', '\n')::jsonb
      into data
      from temp_pgbackrest_data;

    drop table temp_pgbackrest_data;

    return data;
end $$ language plpgsql;
sudo -u postgres psql -f \
       /var/lib/postgresql/pgbackrest/doc/example/pgsql-pgbackrest-info.sql
Now the monitor.pgbackrest_info() function can be used to determine the last successful backup time and archived WAL for a stanza.
pg-primary Query last successful backup time and archived WAL 
sudo -u postgres cat \
       /var/lib/postgresql/pgbackrest/doc/example/pgsql-pgbackrest-query.sql
-- Get last successful backup for each stanza
--
-- Requires the monitor.pgbackrest_info function.
with stanza as
(
    select data->'name' as name,
           data->'backup'->(
               jsonb_array_length(data->'backup') - 1) as last_backup,
           data->'archive'->(
               jsonb_array_length(data->'archive') - 1) as current_archive
      from jsonb_array_elements(monitor.pgbackrest_info()) as data
)
select name,
       to_timestamp(
           (last_backup->'timestamp'->>'stop')::numeric) as last_successful_backup,
       current_archive->>'max' as last_archived_wal
  from stanza;
sudo -u postgres psql -f \
       /var/lib/postgresql/pgbackrest/doc/example/pgsql-pgbackrest-query.sql
  name  | last_successful_backup |    last_archived_wal     
--------+------------------------+--------------------------
 "demo" | 2023-03-24 20:25:11+00 | 000000010000000000000005
(1 row)

Using jq

jq is a command-line utility that can easily extract data from JSON.
pg-primary Install jq utility 
sudo apt-get install jq
Now jq can be used to query the last successful backup time for a stanza.
pg-primary Query last successful backup time 
sudo -u postgres pgbackrest --output=json --stanza=demo info | \
       jq '.[0] | .backup[-1] | .timestamp.stop'
1679689511
Or the last archived WAL.
pg-primary Query last archived WAL 
sudo -u postgres pgbackrest --output=json --stanza=demo info | \
       jq '.[0] | .archive[-1] | .max'
"000000010000000000000005"
NOTE:
This syntax requires jq v1.5 .
NOTE:
jq may round large numbers such as system identifiers. Test your queries carefully.

Backup

When multiple repositories are configured, pgBackRest will backup to the highest priority repository (e.g. repo1 ) unless the --repo option is specified.

pgBackRest does not have a built-in scheduler so it's best to run it from cron or some other scheduling mechanism.

See Perform a Backup for more details and examples.

File Bundling

Bundling files together in the repository saves time during the backup and some space in the repository. This is especially pronounced when the repository is stored on an object store such as S3 . Per-file creation time on object stores is higher and very small files might cost as much to store as larger files.
The file bundling feature is enabled with the repo-bundle option.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure repo1-bundle
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y

[global:archive-push]
compress-level=3
A full backup without file bundling will have 1000+ files in the backup path, but with bundling the total number of files is greatly reduced. An additional benefit is that zero-length files are not stored (except in the manifest), whereas in a normal backup each zero-length file is stored individually.
pg-primary Perform a full backup 
sudo -u postgres pgbackrest --stanza=demo --type=full backup
pg-primary Check file total 
sudo -u postgres find /var/lib/pgbackrest/backup/demo/latest/ -type f | wc -l
5
The repo-bundle-size and repo-bundle-limit options can be used for tuning, though the defaults should be optimal in most cases.
While file bundling is generally more efficient, the downside is that it is more difficult to manually retrieve files from the repository. It may not be ideal for deduplicated storage since each full backup will arrange files in the bundles differently. Lastly, file bundles cannot be resumed, so be careful not to set repo-bundle-size too high.

Backup Annotations

Users can attach informative key/value pairs to the backup. This option may be used multiple times to attach multiple annotations.
pg-primary Perform a full backup with annotations 
sudo -u postgres pgbackrest --stanza=demo --annotation=source="demo backup" \
       --annotation=key=value --type=full backup
Annotations are output by the info command text output when a backup is specified with --set and always appear in the JSON output.
pg-primary Get info for the demo cluster 
sudo -u postgres pgbackrest --stanza=demo --set=20230324-202529F info
stanza: demo
    status: ok
    cipher: aes-256-cbc

    db (current)
        wal archive min/max (12): 000000020000000000000007/000000020000000000000009

        full backup: 20230324-202529F
            timestamp start/stop: 2023-03-24 20:25:29 / 2023-03-24 20:25:32
            wal start/stop: 000000020000000000000008 / 000000020000000000000009
            lsn start/stop: 0/8000028 / 0/9000088
            database size: 23.4MB, database backup size: 23.4MB
            repo1: backup set size: 2.8MB, backup size: 2.8MB
            database list: postgres (13398)
            annotation(s)
                key: value
                source: demo backup
Annotations included with the backup command can be added, modified, or removed afterwards using the annotate command.
pg-primary Change backup annotations 
sudo -u postgres pgbackrest --stanza=demo --set=20230324-202529F \
       --annotation=key= --annotation=new_key=new_value annotate
sudo -u postgres pgbackrest --stanza=demo --set=20230324-202529F info
stanza: demo
    status: ok
    cipher: aes-256-cbc

    db (current)
        wal archive min/max (12): 000000020000000000000007/000000020000000000000009

        full backup: 20230324-202529F
            timestamp start/stop: 2023-03-24 20:25:29 / 2023-03-24 20:25:32
            wal start/stop: 000000020000000000000008 / 000000020000000000000009
            lsn start/stop: 0/8000028 / 0/9000088
            database size: 23.4MB, database backup size: 23.4MB
            repo1: backup set size: 2.8MB, backup size: 2.8MB
            database list: postgres (13398)
            annotation(s)
                new_key: new_value
                source: demo backup

Retention

Generally it is best to retain as many backups as possible to provide a greater window for Point-in-Time Recovery , but practical concerns such as disk space must also be considered. Retention options remove older backups once they are no longer needed.
pgBackRest does full backup rotation based on the retention type which can be a count or a time period. When a count is specified, then expiration is not concerned with when the backups were created but with how many must be retained. Differential and Incremental backups are count-based but will always be expired when the backup they depend on is expired. See sections Full Backup Retention and Differential Backup Retention for details and examples. Archived WAL is retained by default for backups that have not expired, however, although not recommended, this schedule can be modified per repository with the retention-archive options. See section Archive Retention for details and examples.

The expire command is run automatically after each successful backup and can also be run by the user. When run by the user, expiration will occur as defined by the retention settings for each configured repository. If the --repo option is provided, expiration will occur only on the specified repository. Expiration can also be limited by the user to a specific backup set with the --set option and, unless the --repo option is specified, all repositories will be searched and any matching the set criteria will be expired. It should be noted that the archive retention schedule will be checked and performed any time the expire command is run.

Full Backup Retention

The repo1-retention-full-type determines how the option repo1-retention-full is interpreted; either as the count of full backups to be retained or how many days to retain full backups. New backups must be completed before expiration will occur — that means if repo1-retention-full-type=count and repo1-retention-full=2 then there will be three full backups stored before the oldest one is expired, or if repo1-retention-full-type=time and repo1-retention-full=20 then there must be one full backup that is at least 20 days old before expiration can occur.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure repo1-retention-full
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y

[global:archive-push]
compress-level=3
Backup repo1-retention-full=2 but currently there is only one full backup so the next full backup to run will not expire any full backups.
pg-primary Perform a full backup 
sudo -u postgres pgbackrest --stanza=demo --type=full \
       --log-level-console=detail backup
       [filtered 988 lines of output]
P00   INFO: repo1: remove expired backup 20230324-202525F
P00 DETAIL: repo1: 12-1 archive retention on backup 20230324-202529F, start = 000000020000000000000008
P00   INFO: repo1: 12-1 remove archive, start = 000000020000000000000007, stop = 000000020000000000000007
P00   INFO: expire command end: completed successfully
Archive is expired because WAL segments were generated before the oldest backup. These are not useful for recovery — only WAL segments generated after a backup can be used to recover that backup.
pg-primary Perform a full backup 
sudo -u postgres pgbackrest --stanza=demo --type=full \
       --log-level-console=info backup
       [filtered 11 lines of output]
P00   INFO: repo1: expire full backup 20230324-202529F
P00   INFO: repo1: remove expired backup 20230324-202529F
P00   INFO: repo1: 12-1 remove archive, start = 000000020000000000000008, stop = 000000020000000000000009
P00   INFO: expire command end: completed successfully
The 20230324-202505F full backup is expired and archive retention is based on the 20230324-202534F which is now the oldest full backup.

Differential Backup Retention

Set repo1-retention-diff to the number of differential backups required. Differentials only rely on the prior full backup so it is possible to create a rolling set of differentials for the last day or more. This allows quick restores to recent points-in-time but reduces overall space consumption.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure repo1-retention-diff
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-diff=1
repo1-retention-full=2
start-fast=y

[global:archive-push]
compress-level=3
Backup repo1-retention-diff=1 so two differentials will need to be performed before one is expired. An incremental backup is added to demonstrate incremental expiration. Incremental backups cannot be expired independently — they are always expired with their related full or differential backup.
pg-primary Perform differential and incremental backups 
sudo -u postgres pgbackrest --stanza=demo --type=diff backup
sudo -u postgres pgbackrest --stanza=demo --type=incr backup
Now performing a differential backup will expire the previous differential and incremental backups leaving only one differential backup.
pg-primary Perform a differential backup 
sudo -u postgres pgbackrest --stanza=demo --type=diff \
       --log-level-console=info backup
       [filtered 10 lines of output]
P00   INFO: backup command end: completed successfully
P00   INFO: expire command begin 2.44: --exec-id=1883-b9d38017 --log-level-console=info --log-level-stderr=off --no-log-timestamp --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo1-retention-diff=1 --repo1-retention-full=2 --stanza=demo
P00   INFO: repo1: expire diff backup set 20230324-202538F_20230324-202542D, 20230324-202538F_20230324-202545I
P00   INFO: repo1: remove expired backup 20230324-202538F_20230324-202545I
P00   INFO: repo1: remove expired backup 20230324-202538F_20230324-202542D
P00   INFO: expire command end: completed successfully

Archive Retention

Although pgBackRest automatically removes archived WAL segments when expiring backups (the default expires WAL for full backups based on the repo1-retention-full option), it may be useful to expire archive more aggressively to save disk space. Note that full backups are treated as differential backups for the purpose of differential archive retention.
Expiring archive will never remove WAL segments that are required to make a backup consistent. However, since Point-in-Time-Recovery (PITR) only works on a continuous WAL stream, care should be taken when aggressively expiring archive outside of the normal backup expiration process. To determine what will be expired without actually expiring anything, the dry-run option can be provided on the command line with the expire command.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure repo1-retention-diff
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-diff=2
repo1-retention-full=2
start-fast=y

[global:archive-push]
compress-level=3
pg-primary Perform differential backup 
sudo -u postgres pgbackrest --stanza=demo --type=diff \
       --log-level-console=info backup
       [filtered 6 lines of output]
P00   INFO: backup stop archive = 000000020000000000000017, lsn = 0/17000050
P00   INFO: check archive for segment(s) 000000020000000000000016:000000020000000000000017
P00   INFO: new backup label = 20230324-202538F_20230324-202552D
P00   INFO: diff backup size = 8.3KB, file total = 976
P00   INFO: backup command end: completed successfully
       [filtered 2 lines of output]
pg-primary Expire archive 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=detail \
       --repo1-retention-archive-type=diff --repo1-retention-archive=1 expire
P00   INFO: expire command begin 2.44: --exec-id=1972-3bc491d4 --log-level-console=detail --log-level-stderr=off --no-log-timestamp --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo1-retention-archive=1 --repo1-retention-archive-type=diff --repo1-retention-diff=2 --repo1-retention-full=2 --stanza=demo
P00 DETAIL: repo1: 12-1 archive retention on backup 20230324-202534F, start = 00000002000000000000000A, stop = 00000002000000000000000B
P00 DETAIL: repo1: 12-1 archive retention on backup 20230324-202538F, start = 00000002000000000000000C, stop = 00000002000000000000000D
P00 DETAIL: repo1: 12-1 archive retention on backup 20230324-202538F_20230324-202548D, start = 000000020000000000000012, stop = 000000020000000000000013
P00 DETAIL: repo1: 12-1 archive retention on backup 20230324-202538F_20230324-202552D, start = 000000020000000000000016
P00   INFO: repo1: 12-1 remove archive, start = 00000002000000000000000E, stop = 000000020000000000000011
P00   INFO: repo1: 12-1 remove archive, start = 000000020000000000000014, stop = 000000020000000000000015
P00   INFO: expire command end: completed successfully
The 20230324-202538F_20230324-202548D differential backup has archived WAL segments that must be retained to make the older backups consistent even though they cannot be played any further forward with PITR. WAL segments generated after 20230324-202538F_20230324-202548D but before 20230324-202538F_20230324-202552D are removed. WAL segments generated after the new backup 20230324-202538F_20230324-202552D remain and can be used for PITR.
Since full backups are considered differential backups for the purpose of differential archive retention, if a full backup is now performed with the same settings, only the archive for that full backup is retained for PITR.

Restore

The restore command automatically defaults to selecting the latest backup from the first repository where backups exist (see Quick Start - Restore a Backup ). The order in which the repositories are checked is dictated by the pgbackrest.conf (e.g. repo1 will be checked before repo2). To select from a specific repository, the --repo option can be passed (e.g. --repo=1 ). The --set option can be passed if a backup other than the latest is desired.

When PITR of --type=time or --type=lsn is specified, then the target time or target lsn must be specified with the --target option. If a backup is not specified via the --set option, then the configured repositories will be checked, in order, for a backup that contains the requested time or lsn. If no matching backup is found, the latest backup from the first repository containing backups will be used for --type=time while no backup will be selected for --type=lsn . For other types of PITR, e.g. xid , the --set option must be provided if the target is prior to the latest backup. See Point-in-Time Recovery for more details and examples.

Replication slots are not included per recommendation of PostgreSQL . See Backing Up The Data Directory in the PostgreSQL documentation for more information.
The following sections introduce additional restore command features.

File Ownership

If a restore is run as a non-root user (the typical scenario) then all files restored will belong to the user/group executing pgBackRest . If existing files are not owned by the executing user/group then an error will result if the ownership cannot be updated to the executing user/group. In that case the file ownership will need to be updated by a privileged user before the restore can be retried.
If a restore is run as the root user then pgBackRest will attempt to recreate the ownership recorded in the manifest when the backup was made. Only user/group names are stored in the manifest so the same names must exist on the restore host for this to work. If the user/group name cannot be found locally then the user/group of the PostgreSQL data directory will be used and finally root if the data directory user/group cannot be mapped to a name.

Delta Option

Restore a Backup in Quick Start required the database cluster directory to be cleaned before the restore could be performed. The delta option allows pgBackRest to automatically determine which files in the database cluster directory can be preserved and which ones need to be restored from the backup — it also removes files not present in the backup manifest so it will dispose of divergent changes. This is accomplished by calculating a SHA-1 cryptographic hash for each file in the database cluster directory. If the SHA-1 hash does not match the hash stored in the backup then that file will be restored. This operation is very efficient when combined with the process-max option. Since the PostgreSQL server is shut down during the restore, a larger number of processes can be used than might be desirable during a backup when the PostgreSQL server is running.
pg-primary Stop the demo cluster, perform delta restore 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta \
       --log-level-console=detail restore
       [filtered 2 lines of output]
P00 DETAIL: check '/var/lib/postgresql/12/demo' exists
P00 DETAIL: remove 'global/pg_control' so cluster will not start if restore does not complete
P00   INFO: remove invalid files/links/paths from '/var/lib/postgresql/12/demo'
P00 DETAIL: remove invalid file '/var/lib/postgresql/12/demo/backup_label.old'
P00 DETAIL: remove invalid file '/var/lib/postgresql/12/demo/base/1/pg_internal.init'
       [filtered 17 lines of output]
P00 DETAIL: remove invalid file '/var/lib/postgresql/12/demo/postmaster.opts'
P01 DETAIL: restore file /var/lib/postgresql/12/demo/backup_label (259B, 0.00%) checksum 73108472f4f178a38be7e76594b80bf3434c3414
P01 DETAIL: restore file /var/lib/postgresql/12/demo/PG_VERSION - exists and matches backup (bundle 20230324-202538F/1/0, 3B, 0.00%) checksum ad552e6dc057d1d825bf49df79d6b98eba846ebe
P01 DETAIL: restore file /var/lib/postgresql/12/demo/pg_multixact/members/0000 - exists and matches backup (bundle 20230324-202538F/1/48, 8KB, 0.03%) checksum 0631457264ff7f8d5fb1edc2c0211992a67c73e6
P01 DETAIL: restore file /var/lib/postgresql/12/demo/global/pg_filenode.map - exists and matches backup (bundle 20230324-202538F/1/112, 512B, 0.04%) checksum 05ed0e142d7f6556d9f852f259ad47eb13718996
       [filtered 1001 lines of output]
pg-primary Restart PostgreSQL 
sudo pg_ctlcluster 12 demo start

Restore Selected Databases

There may be cases where it is desirable to selectively restore specific databases from a cluster backup. This could be done for performance reasons or to move selected databases to a machine that does not have enough space to restore the entire cluster backup.
To demonstrate this feature two databases are created: test1 and test2.
pg-primary Create two test databases 
sudo -u postgres psql -c "create database test1;"
CREATE DATABASE
sudo -u postgres psql -c "create database test2;"
CREATE DATABASE
Each test database will be seeded with tables and data to demonstrate that recovery works with selective restore.
pg-primary Create a test table in each database 
sudo -u postgres psql -c "create table test1_table (id int); \
       insert into test1_table (id) values (1);" test1
CREATE TABLE
INSERT 0 1
sudo -u postgres psql -c "create table test2_table (id int); \
       insert into test2_table (id) values (2);" test2
CREATE TABLE
INSERT 0 1
A fresh backup is run so pgBackRest is aware of the new databases.
pg-primary Perform a backup 
sudo -u postgres pgbackrest --stanza=demo --type=incr backup
One of the main reasons to use selective restore is to save space. The size of the test1 database is shown here so it can be compared with the disk utilization after a selective restore.
pg-primary Show space used by test1 database 
sudo -u postgres du -sh /var/lib/postgresql/12/demo/base/32768
7.8M	/var/lib/postgresql/12/demo/base/32768
If the database to restore is not known, use the info command set option to discover databases that are part of the backup set.
pg-primary Show database list for backup 
sudo -u postgres pgbackrest --stanza=demo \
       --set=20230324-202538F_20230324-202602I info
       [filtered 12 lines of output]
            repo1: backup set size: 4.7MB, backup size: 1.9MB
            backup reference list: 20230324-202538F, 20230324-202538F_20230324-202552D
            database list: postgres (13398), test1 (32768), test2 (32769)
Stop the cluster and restore only the test2 database. Built-in databases ( template0 , template1 , and postgres ) are always restored.
WARNING:
Recovery may error unless --type=immediate is specified. This is because after consistency is reached PostgreSQL will flag zeroed pages as errors even for a full-page write. For PostgreSQL 13 the ignore_invalid_pages setting may be used to ignore invalid pages. In this case it is important to check the logs after recovery to ensure that no invalid pages were reported in the selected databases.
pg-primary Restore from last backup including only the test2 database 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta \
       --db-include=test2 --type=immediate --target-action=promote restore
sudo pg_ctlcluster 12 demo start
Once recovery is complete the test2 database will contain all previously created tables and data.
pg-primary Demonstrate that the test2 database was recovered 
sudo -u postgres psql -c "select * from test2_table;" test2
 id 
----
  2
(1 row)
The test1 database, despite successful recovery, is not accessible. This is because the entire database was restored as sparse, zeroed files. PostgreSQL can successfully apply WAL on the zeroed files but the database as a whole will not be valid because key files contain no data. This is purposeful to prevent the database from being accidentally used when it might contain partial data that was applied during WAL replay.
pg-primary Attempting to connect to the test1 database will produce an error 
sudo -u postgres psql -c "select * from test1_table;" test1
psql: error: connection to server on socket "/var/run/postgresql/.s.PGSQL.5432" failed: FATAL:  relation mapping file "base/32768/pg_filenode.map" contains invalid data
Since the test1 database is restored with sparse, zeroed files it will only require as much space as the amount of WAL that is written during recovery. While the amount of WAL generated during a backup and applied during recovery can be significant it will generally be a small fraction of the total database size, especially for large databases where this feature is most likely to be useful.
It is clear that the test1 database uses far less disk space during the selective restore than it would have if the entire database had been restored.
pg-primary Show space used by test1 database after recovery 
sudo -u postgres du -sh /var/lib/postgresql/12/demo/base/32768
16K	/var/lib/postgresql/12/demo/base/32768
At this point the only action that can be taken on the invalid test1 database is drop database . pgBackRest does not automatically drop the database since this cannot be done until recovery is complete and the cluster is accessible.
pg-primary Drop the test1 database 
sudo -u postgres psql -c "drop database test1;"
DROP DATABASE
Now that the invalid test1 database has been dropped only the test2 and built-in databases remain.
pg-primary List remaining databases 
sudo -u postgres psql -c "select oid, datname from pg_database order by oid;"
  oid  |  datname  
-------+-----------
     1 | template1
 13397 | template0
 13398 | postgres
 32769 | test2
(4 rows)

Point-in-Time Recovery

Restore a Backup in Quick Start performed default recovery, which is to play all the way to the end of the WAL stream. In the case of a hardware failure this is usually the best choice but for data corruption scenarios (whether machine or human in origin) Point-in-Time Recovery (PITR) is often more appropriate.
Point-in-Time Recovery (PITR) allows the WAL to be played from the last backup to a specified lsn, time, transaction id, or recovery point. For common recovery scenarios time-based recovery is arguably the most useful. A typical recovery scenario is to restore a table that was accidentally dropped or data that was accidentally deleted. Recovering a dropped table is more dramatic so that's the example given here but deleted data would be recovered in exactly the same way.
pg-primary Backup the demo cluster and create a table with very important data 
sudo -u postgres pgbackrest --stanza=demo --type=diff backup
sudo -u postgres psql -c "begin; \
       create table important_table (message text); \
       insert into important_table values ('Important Data'); \
       commit; \
       select * from important_table;"
       [filtered 4 lines of output]
    message     
----------------
 Important Data
(1 row)
It is important to represent the time as reckoned by PostgreSQL and to include timezone offsets. This reduces the possibility of unintended timezone conversions and an unexpected recovery result.
pg-primary Get the time from PostgreSQL 
sudo -u postgres psql -Atc "select current_timestamp"
2023-03-24 20:26:17.762461+00
Now that the time has been recorded the table is dropped. In practice finding the exact time that the table was dropped is a lot harder than in this example. It may not be possible to find the exact time, but some forensic work should be able to get you close.
pg-primary Drop the important table 
sudo -u postgres psql -c "begin; \
       drop table important_table; \
       commit; \
       select * from important_table;"
BEGIN
DROP TABLE
COMMITERROR:  relation "important_table" does not exist
LINE 1: ...le important_table;     commit;     select * from important_...
                                                             ^
Now the restore can be performed with time-based recovery to bring back the missing table.
pg-primary Stop PostgreSQL , restore the demo cluster to 2023-03-24 20:26:17.762461+00 , and display postgresql.auto.conf 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta \
       --type=time "--target=2023-03-24 20:26:17.762461+00" \
       --target-action=promote restore
sudo -u postgres cat /var/lib/postgresql/12/demo/postgresql.auto.conf
       [filtered 11 lines of output]
# Removed by pgBackRest restore on 2023-03-24 20:26:20 # recovery_target = 'immediate'
# Removed by pgBackRest restore on 2023-03-24 20:26:20 # recovery_target_action = 'promote'
# Removed by pgBackRest restore on 2023-03-24 20:26:20 # recovery_target_timeline = 'current'
# Recovery settings generated by pgBackRest restore on 2023-03-24 20:26:20
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
recovery_target_time = '2023-03-24 20:26:17.762461+00'
recovery_target_action = 'promote'
pgBackRest has automatically generated the recovery settings in postgresql.auto.conf so PostgreSQL can be started immediately. %f is how PostgreSQL specifies the WAL segment it needs and %p is the location where it should be copied. Once PostgreSQL has finished recovery the table will exist again and can be queried.
pg-primary Start PostgreSQL and check that the important table exists 
sudo pg_ctlcluster 12 demo start
sudo -u postgres psql -c "select * from important_table"
    message     
----------------
 Important Data
(1 row)
The PostgreSQL log also contains valuable information. It will indicate the time and transaction where the recovery stopped and also give the time of the last transaction to be applied.
pg-primary Examine the PostgreSQL log output 
sudo -u postgres cat /var/log/postgresql/postgresql-12-demo.log
       [filtered 3 lines of output]
LOG:  listening on Unix socket "/var/run/postgresql/.s.PGSQL.5432"
LOG:  database system was interrupted; last known up at 2023-03-24 20:26:14 UTC
LOG:  starting point-in-time recovery to 2023-03-24 20:26:17.762461+00
LOG:  restored log file "00000004.history" from archive
LOG:  restored log file "00000004000000000000001A" from archive
       [filtered 2 lines of output]
LOG:  database system is ready to accept read only connections
LOG:  restored log file "00000004000000000000001B" from archive
LOG:  recovery stopping before commit of transaction 496, time 2023-03-24 20:26:19.184543+00
LOG:  redo done at 0/1B019E88
LOG:  last completed transaction was at log time 2023-03-24 20:26:16.359208+00
LOG:  selected new timeline ID: 5
LOG:  archive recovery complete
       [filtered 2 lines of output]
This example was rigged to give the correct result. If a backup after the required time is chosen then PostgreSQL will not be able to recover the lost table. PostgreSQL can only play forward, not backward. To demonstrate this the important table must be dropped (again).
pg-primary Drop the important table (again) 
sudo -u postgres psql -c "begin; \
       drop table important_table; \
       commit; \
       select * from important_table;"
BEGIN
DROP TABLE
COMMITERROR:  relation "important_table" does not exist
LINE 1: ...le important_table;     commit;     select * from important_...
                                                             ^
Now take a new backup and attempt recovery from the new backup by specifying the --set option. The info command can be used to find the new backup label.
pg-primary Perform a backup and get backup info 
sudo -u postgres pgbackrest --stanza=demo --type=incr backup
sudo -u postgres pgbackrest info
stanza: demo
    status: ok
    cipher: aes-256-cbc

    db (current)
        wal archive min/max (12): 00000002000000000000000A/00000005000000000000001C

        full backup: 20230324-202534F
            timestamp start/stop: 2023-03-24 20:25:34 / 2023-03-24 20:25:37
            wal start/stop: 00000002000000000000000A / 00000002000000000000000B
            database size: 23.4MB, database backup size: 23.4MB
            repo1: backup set size: 2.8MB, backup size: 2.8MB

        full backup: 20230324-202538F
            timestamp start/stop: 2023-03-24 20:25:38 / 2023-03-24 20:25:41
            wal start/stop: 00000002000000000000000C / 00000002000000000000000D
            database size: 23.4MB, database backup size: 23.4MB
            repo1: backup set size: 2.8MB, backup size: 2.8MB

        diff backup: 20230324-202538F_20230324-202552D
            timestamp start/stop: 2023-03-24 20:25:52 / 2023-03-24 20:25:54
            wal start/stop: 000000020000000000000016 / 000000020000000000000017
            database size: 23.4MB, database backup size: 8.3KB
            repo1: backup set size: 2.8MB, backup size: 512B
            backup reference list: 20230324-202538F

        incr backup: 20230324-202538F_20230324-202602I
            timestamp start/stop: 2023-03-24 20:26:02 / 2023-03-24 20:26:05
            wal start/stop: 000000030000000000000019 / 000000030000000000000019
            database size: 38.7MB, database backup size: 15.8MB
            repo1: backup set size: 4.7MB, backup size: 1.9MB
            backup reference list: 20230324-202538F, 20230324-202538F_20230324-202552D

        diff backup: 20230324-202538F_20230324-202613D
            timestamp start/stop: 2023-03-24 20:26:13 / 2023-03-24 20:26:15
            wal start/stop: 00000004000000000000001A / 00000004000000000000001A
            database size: 31MB, database backup size: 8.2MB
            repo1: backup set size: 3.8MB, backup size: 1008.6KB
            backup reference list: 20230324-202538F

        incr backup: 20230324-202538F_20230324-202626I
            timestamp start/stop: 2023-03-24 20:26:26 / 2023-03-24 20:26:28
            wal start/stop: 00000005000000000000001C / 00000005000000000000001C
            database size: 31MB, database backup size: 2.2MB
            repo1: backup set size: 3.8MB, backup size: 234KB
            backup reference list: 20230324-202538F, 20230324-202538F_20230324-202613D
pg-primary Attempt recovery from the specified backup 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta \
       --set=20230324-202538F_20230324-202626I \
       --type=time "--target=2023-03-24 20:26:17.762461+00" --target-action=promote restore
sudo pg_ctlcluster 12 demo start
sudo -u postgres psql -c "select * from important_table"
ERROR:  relation "important_table" does not exist
LINE 1: select * from important_table
                      ^
Looking at the log output it's not obvious that recovery failed to restore the table. The key is to look for the presence of the recovery stopping before... and last completed transaction... log messages. If they are not present then the recovery to the specified point-in-time was not successful.
pg-primary Examine the PostgreSQL log output to discover the recovery was not successful 
sudo -u postgres cat /var/log/postgresql/postgresql-12-demo.log
       [filtered 3 lines of output]
LOG:  listening on Unix socket "/var/run/postgresql/.s.PGSQL.5432"
LOG:  database system was interrupted; last known up at 2023-03-24 20:26:27 UTC
LOG:  starting point-in-time recovery to 2023-03-24 20:26:17.762461+00
LOG:  restored log file "00000005.history" from archive
LOG:  restored log file "00000005000000000000001C" from archive
LOG:  redo starts at 0/1C000028
LOG:  consistent recovery state reached at 0/1C000100
LOG:  database system is ready to accept read only connections
LOG:  redo done at 0/1C000100
       [filtered 7 lines of output]
The default behavior for time-based restore, if the --set option is not specified, is to attempt to discover an earlier backup to play forward from. If a backup set cannot be found, then restore will default to the latest backup which, as shown earlier, may not give the desired result.
pg-primary Stop PostgreSQL , restore from auto-selected backup, and start PostgreSQL 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta \
       --type=time "--target=2023-03-24 20:26:17.762461+00" \
       --target-action=promote restore
sudo pg_ctlcluster 12 demo start
sudo -u postgres psql -c "select * from important_table"
    message     
----------------
 Important Data
(1 row)
Now the log output will contain the expected recovery stopping before... and last completed transaction... messages showing that the recovery was successful.
pg-primary Examine the PostgreSQL log output for log messages indicating success 
sudo -u postgres cat /var/log/postgresql/postgresql-12-demo.log
       [filtered 5 lines of output]
LOG:  restored log file "00000005.history" from archive
LOG:  restored log file "00000006.history" from archive
LOG:  starting point-in-time recovery to 2023-03-24 20:26:17.762461+00
LOG:  restored log file "00000006.history" from archive
LOG:  restored log file "00000004000000000000001A" from archive
       [filtered 4 lines of output]
LOG:  database system is ready to accept read only connections
LOG:  restored log file "00000005000000000000001B" from archive
LOG:  recovery stopping before commit of transaction 497, time 2023-03-24 20:26:26.05379+00
LOG:  redo done at 0/1B022530
LOG:  last completed transaction was at log time 2023-03-24 20:26:16.359208+00
LOG:  selected new timeline ID: 7
LOG:  archive recovery complete
       [filtered 2 lines of output]

Multiple Repositories

Multiple repositories may be configured as demonstrated in S3 Support . A potential benefit is the ability to have a local repository for fast restores and a remote repository for redundancy.
Some commands, e.g. stanza-create / stanza-upgrade , will automatically work with all configured repositories while others, e.g. stanza-delete , will require a repository to be specified using the repo option. See the command reference for details on which commands require the repository to be specified.
Note that the repo option is not required when only repo1 is configured in order to maintain backward compatibility. However, the repo option is required when a single repo is configured as, e.g. repo2 . This is to prevent command breakage if a new repository is added later.
The archive-push command will always push WAL to the archive in all configured repositories but backups will need to be scheduled individually for each repository. In many cases this is desirable since backup types and retention will vary by repository. Likewise, restores must specify a repository. It is generally better to specify a repository for restores that has low latency/cost even if that means more recovery time. Only restore testing can determine which repository will be most efficient.

Azure-Compatible Object Store Support

pgBackRest supports locating repositories in Azure-compatible object stores. The container used to store the repository must be created in advance — pgBackRest will not do it automatically. The repository can be located in the container root ( / ) but it's usually best to place it in a subpath so object store logs or other data can also be stored in the container without conflicts.
WARNING:
Do not enable hierarchical namespace as this will cause errors during expire.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure Azure
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
process-max=4
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-diff=2
repo1-retention-full=2
repo2-azure-account=pgbackrest
repo2-azure-container=demo-container
repo2-azure-key=YXpLZXk=
repo2-path=/demo-repo
repo2-retention-full=4
repo2-type=azure
start-fast=y

[global:archive-push]
compress-level=3
Shared access signatures may be used by setting the repo2-azure-key-type option to sas and the repo2-azure-key option to the shared access signature token.
Commands are run exactly as if the repository were stored on a local disk.
pg-primary Create the stanza 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info stanza-create
       [filtered 2 lines of output]
P00   INFO: stanza 'demo' already exists on repo1 and is valid
P00   INFO: stanza-create for stanza 'demo' on repo2
P00   INFO: stanza-create command end: completed successfully
File creation time in object stores is relatively slow so commands benefit by increasing process-max to parallelize file creation.
pg-primary Backup the demo cluster 
sudo -u postgres pgbackrest --stanza=demo --repo=2 \
       --log-level-console=info backup
P00   INFO: backup command begin 2.44: --exec-id=2779-cf156c51 --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=4 --repo=2 --repo2-azure-account= --repo2-azure-container=demo-container --repo2-azure-key= --repo1-bundle --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo2-path=/demo-repo --repo1-retention-diff=2 --repo1-retention-full=2 --repo2-retention-full=4 --repo2-type=azure --stanza=demo --start-fast
P00   WARN: no prior backup exists, incr backup has been changed to full
P00   INFO: execute non-exclusive backup start: backup begins after the requested immediate checkpoint completes
P00   INFO: backup start archive = 00000007000000000000001C, lsn = 0/1C000028
       [filtered 3 lines of output]
P00   INFO: check archive for segment(s) 00000007000000000000001C:00000007000000000000001C
P00   INFO: new backup label = 20230324-202644F
P00   INFO: full backup size = 31MB, file total = 1282
P00   INFO: backup command end: completed successfully
P00   INFO: expire command begin 2.44: --exec-id=2779-cf156c51 --log-level-console=info --log-level-stderr=off --no-log-timestamp --repo=2 --repo2-azure-account= --repo2-azure-container=demo-container --repo2-azure-key= --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo2-path=/demo-repo --repo1-retention-diff=2 --repo1-retention-full=2 --repo2-retention-full=4 --repo2-type=azure --stanza=demo

S3-Compatible Object Store Support

pgBackRest supports locating repositories in S3-compatible object stores. The bucket used to store the repository must be created in advance — pgBackRest will not do it automatically. The repository can be located in the bucket root ( / ) but it's usually best to place it in a subpath so object store logs or other data can also be stored in the bucket without conflicts.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure S3
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
process-max=4
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-diff=2
repo1-retention-full=2
repo2-azure-account=pgbackrest
repo2-azure-container=demo-container
repo2-azure-key=YXpLZXk=
repo2-path=/demo-repo
repo2-retention-full=4
repo2-type=azure
repo3-path=/demo-repo
repo3-retention-full=4
repo3-s3-bucket=demo-bucket
repo3-s3-endpoint=s3.us-east-1.amazonaws.com
repo3-s3-key=accessKey1
repo3-s3-key-secret=verySecretKey1
repo3-s3-region=us-east-1
repo3-type=s3
start-fast=y

[global:archive-push]
compress-level=3
NOTE:
The region and endpoint will need to be configured to where the bucket is located. The values given here are for the us-east-1 region.
A role should be created to run pgBackRest and the bucket permissions should be set as restrictively as possible. If the role is associated with an instance in AWS then pgBackRest will automatically retrieve temporary credentials when repo3-s3-key-type=auto , which means that keys do not need to be explicitly set in /etc/pgbackrest/pgbackrest.conf .
This sample Amazon S3 policy will restrict all reads and writes to the bucket and repository path. 
{
    "Version": "2012-10-17",
    "Statement": [
        {
            "Effect": "Allow",
            "Action": [
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::demo-bucket"
            ],
            "Condition": {
                "StringEquals": {
                    "s3:prefix": [
                        "",
                        "demo-repo"
                    ],
                    "s3:delimiter": [
                        "/"
                    ]
                }
            }
        },
        {
            "Effect": "Allow",
            "Action": [
                "s3:ListBucket"
            ],
            "Resource": [
                "arn:aws:s3:::demo-bucket"
            ],
            "Condition": {
                "StringLike": {
                    "s3:prefix": [
                        "demo-repo/*"
                    ]
                }
            }
        },
        {
            "Effect": "Allow",
            "Action": [
                "s3:PutObject",
                "s3:GetObject",
                "s3:DeleteObject"
            ],
            "Resource": [
                "arn:aws:s3:::demo-bucket/demo-repo/*"
            ]
        }
    ]
}
Commands are run exactly as if the repository were stored on a local disk.
pg-primary Create the stanza 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info stanza-create
       [filtered 4 lines of output]
P00   INFO: stanza 'demo' already exists on repo2 and is valid
P00   INFO: stanza-create for stanza 'demo' on repo3
P00   INFO: stanza-create command end: completed successfully
File creation time in object stores is relatively slow so commands benefit by increasing process-max to parallelize file creation.
pg-primary Backup the demo cluster 
sudo -u postgres pgbackrest --stanza=demo --repo=3 \
       --log-level-console=info backup
P00   INFO: backup command begin 2.44: --exec-id=2849-93250f5d --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=4 --repo=3 --repo2-azure-account= --repo2-azure-container=demo-container --repo2-azure-key= --repo1-bundle --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo2-path=/demo-repo --repo3-path=/demo-repo --repo1-retention-diff=2 --repo1-retention-full=2 --repo2-retention-full=4 --repo3-retention-full=4 --repo3-s3-bucket=demo-bucket --repo3-s3-endpoint=s3.us-east-1.amazonaws.com --repo3-s3-key= --repo3-s3-key-secret= --repo3-s3-region=us-east-1 --repo2-type=azure --repo3-type=s3 --stanza=demo --start-fast
P00   WARN: no prior backup exists, incr backup has been changed to full
P00   INFO: execute non-exclusive backup start: backup begins after the requested immediate checkpoint completes
P00   INFO: backup start archive = 00000007000000000000001E, lsn = 0/1E000028
       [filtered 3 lines of output]
P00   INFO: check archive for segment(s) 00000007000000000000001E:00000007000000000000001E
P00   INFO: new backup label = 20230324-202655F
P00   INFO: full backup size = 31MB, file total = 1282
P00   INFO: backup command end: completed successfully
P00   INFO: expire command begin 2.44: --exec-id=2849-93250f5d --log-level-console=info --log-level-stderr=off --no-log-timestamp --repo=3 --repo2-azure-account= --repo2-azure-container=demo-container --repo2-azure-key= --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo1-path=/var/lib/pgbackrest --repo2-path=/demo-repo --repo3-path=/demo-repo --repo1-retention-diff=2 --repo1-retention-full=2 --repo2-retention-full=4 --repo3-retention-full=4 --repo3-s3-bucket=demo-bucket --repo3-s3-endpoint=s3.us-east-1.amazonaws.com --repo3-s3-key= --repo3-s3-key-secret= --repo3-s3-region=us-east-1 --repo2-type=azure --repo3-type=s3 --stanza=demo

GCS-Compatible Object Store Support

pgBackRest supports locating repositories in GCS-compatible object stores. The bucket used to store the repository must be created in advance — pgBackRest will not do it automatically. The repository can be located in the bucket root ( / ) but it's usually best to place it in a subpath so object store logs or other data can also be stored in the bucket without conflicts.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure GCS
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
process-max=4
repo1-bundle=y
repo1-cipher-pass=zWaf6XtpjIVZC5444yXB+cgFDFl7MxGlgkZSaoPvTGirhPygu4jOKOXf9LO4vjfO
repo1-cipher-type=aes-256-cbc
repo1-path=/var/lib/pgbackrest
repo1-retention-diff=2
repo1-retention-full=2
repo2-azure-account=pgbackrest
repo2-azure-container=demo-container
repo2-azure-key=YXpLZXk=
repo2-path=/demo-repo
repo2-retention-full=4
repo2-type=azure
repo3-path=/demo-repo
repo3-retention-full=4
repo3-s3-bucket=demo-bucket
repo3-s3-endpoint=s3.us-east-1.amazonaws.com
repo3-s3-key=accessKey1
repo3-s3-key-secret=verySecretKey1
repo3-s3-region=us-east-1
repo3-type=s3
repo4-gcs-bucket=demo-bucket
repo4-gcs-key=/etc/pgbackrest/gcs-key.json
repo4-path=/demo-repo
repo4-type=gcs
start-fast=y

[global:archive-push]
compress-level=3
When running in GCE set repo4-gcs-key-type=auto to automatically authenticate using the instance service account.
Commands are run exactly as if the repository were stored on a local disk.
File creation time in object stores is relatively slow so commands benefit by increasing process-max to parallelize file creation.

Delete a Stanza

The stanza-delete command removes data in the repository associated with a stanza.
WARNING:
Use this command with caution — it will permanently remove all backups and archives from the pgBackRest repository for the specified stanza.
To delete a stanza:
  • Shut down the PostgreSQL cluster associated with the stanza (or use --force to override).
  • Run the stop command on the host where the stanza-delete command will be run.
  • Run the stanza-delete command.
Once the command successfully completes, it is the responsibility of the user to remove the stanza from all pgBackRest configuration files and/or environment variables.

A stanza may only be deleted from one repository at a time. To delete the stanza from multiple repositories, repeat the stanza-delete command for each repository while specifying the --repo option.
pg-primary Stop PostgreSQL cluster to be removed 
sudo pg_ctlcluster 12 demo stop
pg-primary Stop pgBackRest for the stanza 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info stop
P00   INFO: stop command begin 2.44: --exec-id=2900-baea5ac4 --log-level-console=info --log-level-stderr=off --no-log-timestamp --stanza=demo
P00   INFO: stop command end: completed successfully
pg-primary Delete the stanza from one repository 
sudo -u postgres pgbackrest --stanza=demo --repo=1 \
       --log-level-console=info stanza-delete
P00   INFO: stanza-delete command begin 2.44: --exec-id=2909-29ed5c01 --log-level-console=info --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo=1 --repo2-azure-account= --repo2-azure-container=demo-container --repo2-azure-key= --repo1-cipher-pass= --repo1-cipher-type=aes-256-cbc --repo4-gcs-bucket=demo-bucket --repo4-gcs-key= --repo1-path=/var/lib/pgbackrest --repo2-path=/demo-repo --repo3-path=/demo-repo --repo4-path=/demo-repo --repo3-s3-bucket=demo-bucket --repo3-s3-endpoint=s3.us-east-1.amazonaws.com --repo3-s3-key= --repo3-s3-key-secret= --repo3-s3-region=us-east-1 --repo2-type=azure --repo3-type=s3 --repo4-type=gcs --stanza=demo
P00   INFO: stanza-delete command end: completed successfully

Dedicated Repository Host

The configuration described in Quickstart is suitable for simple installations but for enterprise configurations it is more typical to have a dedicated repository host where the backups and WAL archive files are stored. This separates the backups and WAL archive from the database server so database host failures have less impact. It is still a good idea to employ traditional backup software to backup the repository host.
On PostgreSQL hosts, pg1-path is required to be the path of the local PostgreSQL cluster and no pg1-host should be configured. When configuring a repository host, the pgbackrest configuration file must have the pg-host option configured to connect to the primary and standby (if any) hosts. The repository host has the only pgbackrest configuration that should be aware of more than one PostgreSQL host. Order does not matter, e.g. pg1-path/pg1-host, pg2-path/pg2-host can be primary or standby.

Installation

A new host named repository is created to store the cluster backups.
NOTE:
The pgBackRest version installed on the repository host must exactly match the version installed on the PostgreSQL host.
The pgbackrest user is created to own the pgBackRest repository. Any user can own the repository but it is best not to use postgres (if it exists) to avoid confusion.
repository Create pgbackrest user 
sudo adduser --disabled-password --gecos "" pgbackrest
pgBackRest needs to be installed from a package or installed manually as shown here.
repository Install dependencies 
sudo apt-get install postgresql-client libxml2
repository Copy pgBackRest binary from build host 
sudo scp build:/build/pgbackrest-release-2.44/src/pgbackrest /usr/bin
sudo chmod 755 /usr/bin/pgbackrest
pgBackRest requires log and configuration directories and a configuration file.
repository Create pgBackRest configuration file and directories 
sudo mkdir -p -m 770 /var/log/pgbackrest
sudo chown pgbackrest:pgbackrest /var/log/pgbackrest
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 pgbackrest:pgbackrest /etc/pgbackrest/pgbackrest.conf
repository Create the pgBackRest repository 
sudo mkdir -p /var/lib/pgbackrest
sudo chmod 750 /var/lib/pgbackrest
sudo chown pgbackrest:pgbackrest /var/lib/pgbackrest

Setup Passwordless SSH

pgBackRest can use passwordless SSH to enable communication between the hosts. It is also possible to use TLS, see Setup TLS .
repository Create repository host key pair 
sudo -u pgbackrest mkdir -m 750 /home/pgbackrest/.ssh
sudo -u pgbackrest ssh-keygen -f /home/pgbackrest/.ssh/id_rsa \
       -t rsa -b 4096 -N ""
pg-primary Create pg-primary host key pair 
sudo -u postgres mkdir -m 750 -p /var/lib/postgresql/.ssh
sudo -u postgres ssh-keygen -f /var/lib/postgresql/.ssh/id_rsa \
       -t rsa -b 4096 -N ""
Exchange keys between repository and pg-primary .
repository Copy pg-primary public key to repository 
(echo -n 'no-agent-forwarding,no-X11-forwarding,no-port-forwarding,' && \
       echo -n 'command="/usr/bin/pgbackrest ${SSH_ORIGINAL_COMMAND#* }" ' && \
       sudo ssh root@pg-primary cat /var/lib/postgresql/.ssh/id_rsa.pub) | \
       sudo -u pgbackrest tee -a /home/pgbackrest/.ssh/authorized_keys
pg-primary Copy repository public key to pg-primary 
(echo -n 'no-agent-forwarding,no-X11-forwarding,no-port-forwarding,' && \
       echo -n 'command="/usr/bin/pgbackrest ${SSH_ORIGINAL_COMMAND#* }" ' && \
       sudo ssh root@repository cat /home/pgbackrest/.ssh/id_rsa.pub) | \
       sudo -u postgres tee -a /var/lib/postgresql/.ssh/authorized_keys
Test that connections can be made from repository to pg-primary and vice versa.
repository Test connection from repository to pg-primary 
sudo -u pgbackrest ssh postgres@pg-primary
pg-primary Test connection from pg-primary to repository 
sudo -u postgres ssh pgbackrest@repository
NOTE:
ssh has been configured to only allow pgBackRest to be run via passwordless ssh. This enhances security in the event that one of the service accounts is hijacked.

Configuration

The repository host must be configured with the pg-primary host/user and database path. The primary will be configured as pg1 to allow a standby to be added later.
repository : /etc/pgbackrest/pgbackrest.conf Configure pg1-host / pg1-host-user and pg1-path
[demo]
pg1-host=pg-primary
pg1-path=/var/lib/postgresql/12/demo

[global]
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y
The database host must be configured with the repository host/user. The default for the repo1-host-user option is pgbackrest . If the postgres user does restores on the repository host it is best not to also allow the postgres user to perform backups. However, the postgres user can read the repository directly if it is in the same group as the pgbackrest user.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure repo1-host / repo1-host-user
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
log-level-file=detail
repo1-host=repository
PostgreSQL configuration may be found in the Configure Archiving section.
Commands are run the same as on a single host configuration except that some commands such as backup and expire are run from the repository host instead of the database host.

Create and Check Stanza

Create the stanza in the new repository.
repository Create the stanza 
sudo -u pgbackrest pgbackrest --stanza=demo stanza-create
Check that the configuration is correct on both the database and repository hosts. More information about the check command can be found in Check the Configuration .
pg-primary Check the configuration 
sudo -u postgres pgbackrest --stanza=demo check
repository Check the configuration 
sudo -u pgbackrest pgbackrest --stanza=demo check

Perform a Backup

To perform a backup of the PostgreSQL cluster run pgBackRest with the backup command on the repository host.
repository Backup the demo cluster 
sudo -u pgbackrest pgbackrest --stanza=demo backup
P00   WARN: no prior backup exists, incr backup has been changed to full
Since a new repository was created on the repository host the warning about the incremental backup changing to a full backup was emitted.

Restore a Backup

To perform a restore of the PostgreSQL cluster run pgBackRest with the restore command on the database host.
pg-primary Stop the demo cluster, restore, and restart PostgreSQL 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta restore
sudo pg_ctlcluster 12 demo start

Parallel Backup / Restore

pgBackRest offers parallel processing to improve performance of compression and transfer. The number of processes to be used for this feature is set using the --process-max option.
It is usually best not to use more than 25% of available CPUs for the backup command. Backups don't have to run that fast as long as they are performed regularly and the backup process should not impact database performance, if at all possible.
The restore command can and should use all available CPUs because during a restore the PostgreSQL cluster is shut down and there is generally no other important work being done on the host. If the host contains multiple clusters then that should be considered when setting restore parallelism.
repository Perform a backup with single process 
sudo -u pgbackrest pgbackrest --stanza=demo --type=full backup
repository : /etc/pgbackrest/pgbackrest.conf Configure pgBackRest to use multiple backup processes
[demo]
pg1-host=pg-primary
pg1-path=/var/lib/postgresql/12/demo

[global]
process-max=3
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y
repository Perform a backup with multiple processes 
sudo -u pgbackrest pgbackrest --stanza=demo --type=full backup
repository Get backup info for the demo cluster 
sudo -u pgbackrest pgbackrest info
stanza: demo
    status: ok
    cipher: none

    db (current)
        wal archive min/max (12): 000000080000000000000024/000000080000000000000026

        full backup: 20230324-202739F
            timestamp start/stop: 2023-03-24 20:27:39 / 2023-03-24 20:27:43
            wal start/stop: 000000080000000000000024 / 000000080000000000000024
            database size: 31MB, database backup size: 31MB
            repo1: backup set size: 3.7MB, backup size: 3.7MB

        full backup: 20230324-202745F
            timestamp start/stop: 2023-03-24 20:27:45 / 2023-03-24 20:27:50
            wal start/stop: 000000080000000000000025 / 000000080000000000000026
            database size: 31MB, database backup size: 31MB
            repo1: backup set size: 3.7MB, backup size: 3.7MB
The performance of the last backup should be improved by using multiple processes. For very small backups the difference may not be very apparent, but as the size of the database increases so will time savings.

Starting and Stopping

Sometimes it is useful to prevent pgBackRest from running on a system. For example, when failing over from a primary to a standby it's best to prevent pgBackRest from running on the old primary in case PostgreSQL gets restarted or can't be completely killed. This will also prevent pgBackRest from running on cron .
pg-primary Stop the pgBackRest services 
sudo -u postgres pgbackrest stop
New pgBackRest processes will no longer run.
repository Attempt a backup 
sudo -u pgbackrest pgbackrest --stanza=demo backup
P00   WARN: unable to check pg1: [StopError] raised from remote-0 ssh protocol on 'pg-primary': stop file exists for all stanzas
P00  ERROR: [056]: unable to find primary cluster - cannot proceed
            HINT: are all available clusters in recovery?
Specify the --force option to terminate any pgBackRest process that are currently running. If pgBackRest is already stopped then stopping again will generate a warning.
pg-primary Stop the pgBackRest services again 
sudo -u postgres pgbackrest stop
P00   WARN: stop file already exists for all stanzas
Start pgBackRest processes again with the start command.
pg-primary Start the pgBackRest services 
sudo -u postgres pgbackrest start
It is also possible to stop pgBackRest for a single stanza.
pg-primary Stop pgBackRest services for the demo stanza 
sudo -u postgres pgbackrest --stanza=demo stop
New pgBackRest processes for the specified stanza will no longer run.
repository Attempt a backup 
sudo -u pgbackrest pgbackrest --stanza=demo backup
P00   WARN: unable to check pg1: [StopError] raised from remote-0 ssh protocol on 'pg-primary': stop file exists for stanza demo
P00  ERROR: [056]: unable to find primary cluster - cannot proceed
            HINT: are all available clusters in recovery?
The stanza must also be specified when starting the pgBackRest processes for a single stanza.
pg-primary Start the pgBackRest services for the demo stanza 
sudo -u postgres pgbackrest --stanza=demo start

Replication

Replication allows multiple copies of a PostgreSQL cluster (called standbys) to be created from a single primary. The standbys are useful for balancing reads and to provide redundancy in case the primary host fails.

Installation

A new host named pg-standby is created to run the standby.
pgBackRest needs to be installed from a package or installed manually as shown here.
pg-standby Install dependencies 
sudo apt-get install postgresql-client libxml2
pg-standby Copy pgBackRest binary from build host 
sudo scp build:/build/pgbackrest-release-2.44/src/pgbackrest /usr/bin
sudo chmod 755 /usr/bin/pgbackrest
pgBackRest requires log and configuration directories and a configuration file.
pg-standby Create pgBackRest configuration file and directories 
sudo mkdir -p -m 770 /var/log/pgbackrest
sudo chown postgres:postgres /var/log/pgbackrest
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

Setup Passwordless SSH

pgBackRest can use passwordless SSH to enable communication between the hosts. It is also possible to use TLS, see Setup TLS .
pg-standby Create pg-standby host key pair 
sudo -u postgres mkdir -m 750 -p /var/lib/postgresql/.ssh
sudo -u postgres ssh-keygen -f /var/lib/postgresql/.ssh/id_rsa \
       -t rsa -b 4096 -N ""
Exchange keys between repository and pg-standby .
repository Copy pg-standby public key to repository 
(echo -n 'no-agent-forwarding,no-X11-forwarding,no-port-forwarding,' && \
       echo -n 'command="/usr/bin/pgbackrest ${SSH_ORIGINAL_COMMAND#* }" ' && \
       sudo ssh root@pg-standby cat /var/lib/postgresql/.ssh/id_rsa.pub) | \
       sudo -u pgbackrest tee -a /home/pgbackrest/.ssh/authorized_keys
pg-standby Copy repository public key to pg-standby 
(echo -n 'no-agent-forwarding,no-X11-forwarding,no-port-forwarding,' && \
       echo -n 'command="/usr/bin/pgbackrest ${SSH_ORIGINAL_COMMAND#* }" ' && \
       sudo ssh root@repository cat /home/pgbackrest/.ssh/id_rsa.pub) | \
       sudo -u postgres tee -a /var/lib/postgresql/.ssh/authorized_keys
Test that connections can be made from repository to pg-standby and vice versa.
repository Test connection from repository to pg-standby 
sudo -u pgbackrest ssh postgres@pg-standby
pg-standby Test connection from pg-standby to repository 
sudo -u postgres ssh pgbackrest@repository

Hot Standby

A hot standby performs replication using the WAL archive and allows read-only queries.
pgBackRest configuration is very similar to pg-primary except that the standby recovery type will be used to keep the cluster in recovery mode when the end of the WAL stream has been reached.
pg-standby : /etc/pgbackrest/pgbackrest.conf Configure pgBackRest on the standby
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
log-level-file=detail
repo1-host=repository
The demo cluster must be created (even though it will be overwritten on restore) in order to create the PostgreSQL configuration files.
pg-standby Create demo cluster 
sudo pg_createcluster 12 demo
Now the standby can be created with the restore command.
IMPORTANT:
If the cluster is intended to be promoted without becoming the new primary (e.g. for reporting or testing), use --archive-mode=off or set archive_mode=off in postgresql.conf to disable archiving. If archiving is not disabled then the repository may be polluted with WAL that can make restores more difficult.
pg-standby Restore the demo standby cluster 
sudo -u postgres pgbackrest --stanza=demo --delta --type=standby restore
sudo -u postgres cat /var/lib/postgresql/12/demo/postgresql.auto.conf
# Do not edit this file manually!
# It will be overwritten by the ALTER SYSTEM command.

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:25:14
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:25:56
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:26:07
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target = 'immediate'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target_action = 'promote'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target_timeline = 'current'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:26:36
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
# Removed by pgBackRest restore on 2023-03-24 20:27:32 # recovery_target_time = '2023-03-24 20:26:17.762461+00'
# Removed by pgBackRest restore on 2023-03-24 20:27:32 # recovery_target_action = 'promote'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:27:32
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:28:09
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
The hot_standby setting must be enabled before starting PostgreSQL to allow read-only connections on pg-standby . Otherwise, connection attempts will be refused. The rest of the configuration is in case the standby is promoted to a primary.
pg-standby : /etc/postgresql/12/demo/postgresql.conf Configure PostgreSQL
archive_command = 'pgbackrest --stanza=demo archive-push %p'
archive_mode = on
hot_standby = on
max_wal_senders = 3
wal_level = replica
pg-standby Start PostgreSQL 
sudo pg_ctlcluster 12 demo start
The PostgreSQL log gives valuable information about the recovery. Note especially that the cluster has entered standby mode and is ready to accept read-only connections.
pg-standby Examine the PostgreSQL log output for log messages indicating success 
sudo -u postgres cat /var/log/postgresql/postgresql-12-demo.log
       [filtered 3 lines of output]
LOG:  listening on Unix socket "/var/run/postgresql/.s.PGSQL.5432"
LOG:  database system was interrupted; last known up at 2023-03-24 20:27:45 UTC
LOG:  entering standby mode
LOG:  restored log file "00000008.history" from archive
LOG:  restored log file "000000080000000000000025" from archive
LOG:  redo starts at 0/25000028
LOG:  restored log file "000000080000000000000026" from archive
LOG:  consistent recovery state reached at 0/26000088
LOG:  database system is ready to accept read only connections
An easy way to test that replication is properly configured is to create a table on pg-primary .
pg-primary Create a new table on the primary 
sudo -u postgres psql -c " \
       begin; \
       create table replicated_table (message text); \
       insert into replicated_table values ('Important Data'); \
       commit; \
       select * from replicated_table";
       [filtered 4 lines of output]
    message     
----------------
 Important Data
(1 row)
And then query the same table on pg-standby .
pg-standby Query new table on the standby 
sudo -u postgres psql -c "select * from replicated_table;"
ERROR:  relation "replicated_table" does not exist
LINE 1: select * from replicated_table;
                      ^
So, what went wrong? Since PostgreSQL is pulling WAL segments from the archive to perform replication, changes won't be seen on the standby until the WAL segment that contains those changes is pushed from pg-primary .
This can be done manually by calling pg_switch_wal() which pushes the current WAL segment to the archive (a new WAL segment is created to contain further changes).
pg-primary Call pg_switch_wal() 
sudo -u postgres psql -c "select *, current_timestamp from pg_switch_wal()";
 pg_switch_wal |       current_timestamp       
---------------+-------------------------------
 0/270217D8    | 2023-03-24 20:28:18.238442+00
(1 row)
Now after a short delay the table will appear on pg-standby .
pg-standby Now the new table exists on the standby (may require a few retries) 
sudo -u postgres psql -c " \
       select *, current_timestamp from replicated_table"
    message     |       current_timestamp       
----------------+-------------------------------
 Important Data | 2023-03-24 20:28:19.402062+00
(1 row)
Check the standby configuration for access to the repository.
pg-standby Check the configuration 
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info check
P00   INFO: check command begin 2.44: --exec-id=1370-8bb3ff02 --log-level-console=info --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo1-host=repository --stanza=demo
P00   INFO: check repo1 (standby)
P00   INFO: switch wal not performed because this is a standby
P00   INFO: check command end: completed successfully

Streaming Replication

Instead of relying solely on the WAL archive, streaming replication makes a direct connection to the primary and applies changes as soon as they are made on the primary. This results in much less lag between the primary and standby.
Streaming replication requires a user with the replication privilege.
pg-primary Create replication user 
sudo -u postgres psql -c " \
       create user replicator password 'jw8s0F4' replication";
CREATE ROLE
The pg_hba.conf file must be updated to allow the standby to connect as the replication user. Be sure to replace the IP address below with the actual IP address of your pg-standby . A reload will be required after modifying the pg_hba.conf file.
pg-primary Create pg_hba.conf entry for replication user 
sudo -u postgres sh -c 'echo \
       "host    replication     replicator      172.17.0.6/32           md5" \
       >> /etc/postgresql/12/demo/pg_hba.conf'
sudo pg_ctlcluster 12 demo reload
The standby needs to know how to contact the primary so the primary_conninfo setting will be configured in pgBackRest .
pg-standby : /etc/pgbackrest/pgbackrest.conf Set primary_conninfo
[demo]
pg1-path=/var/lib/postgresql/12/demo
recovery-option=primary_conninfo=host=172.17.0.4 port=5432 user=replicator

[global]
log-level-file=detail
repo1-host=repository
It is possible to configure a password in the primary_conninfo setting but using a .pgpass file is more flexible and secure.
pg-standby Configure the replication password in the .pgpass file. 
sudo -u postgres sh -c 'echo \
       "172.17.0.4:*:replication:replicator:jw8s0F4" \
       >> /var/lib/postgresql/.pgpass'
sudo -u postgres chmod 600 /var/lib/postgresql/.pgpass
Now the standby can be created with the restore command.
pg-standby Stop PostgreSQL and restore the demo standby cluster 
sudo pg_ctlcluster 12 demo stop
sudo -u postgres pgbackrest --stanza=demo --delta --type=standby restore
sudo -u postgres cat /var/lib/postgresql/12/demo/postgresql.auto.conf
# Do not edit this file manually!
# It will be overwritten by the ALTER SYSTEM command.

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:25:14
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:25:56
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:26:07
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target = 'immediate'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target_action = 'promote'
# Removed by pgBackRest restore on 2023-03-24 20:26:36 # recovery_target_timeline = 'current'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:26:36
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
# Removed by pgBackRest restore on 2023-03-24 20:27:32 # recovery_target_time = '2023-03-24 20:26:17.762461+00'
# Removed by pgBackRest restore on 2023-03-24 20:27:32 # recovery_target_action = 'promote'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:27:32
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'

# Recovery settings generated by pgBackRest restore on 2023-03-24 20:28:23
primary_conninfo = 'host=172.17.0.4 port=5432 user=replicator'
restore_command = 'pgbackrest --stanza=demo archive-get %f "%p"'
NOTE:
The primary_conninfo setting has been written into the postgresql.auto.conf file because it was configured as a recovery-option in pgbackrest.conf . The --type=preserve option can be used with the restore to leave the existing postgresql.auto.conf file in place if that behavior is preferred.
pg-standby Start PostgreSQL 
sudo pg_ctlcluster 12 demo start
The PostgreSQL log will confirm that streaming replication has started.
pg-standby Examine the PostgreSQL log output for log messages indicating success 
sudo -u postgres cat /var/log/postgresql/postgresql-12-demo.log
       [filtered 11 lines of output]
LOG:  database system is ready to accept read only connections
LOG:  restored log file "000000080000000000000027" from archive
LOG:  started streaming WAL from primary at 0/28000000 on timeline 8
Now when a table is created on pg-primary it will appear on pg-standby quickly and without the need to call pg_switch_wal() .
pg-primary Create a new table on the primary 
sudo -u postgres psql -c " \
       begin; \
       create table stream_table (message text); \
       insert into stream_table values ('Important Data'); \
       commit; \
       select *, current_timestamp from stream_table";
       [filtered 4 lines of output]
    message     |       current_timestamp       
----------------+-------------------------------
 Important Data | 2023-03-24 20:28:30.734955+00
(1 row)
pg-standby Query table on the standby 
sudo -u postgres psql -c " \
       select *, current_timestamp from stream_table"
    message     |       current_timestamp       
----------------+-------------------------------
 Important Data | 2023-03-24 20:28:31.152009+00
(1 row)

Asynchronous Archiving

Asynchronous archiving is enabled with the archive-async option. This option enables asynchronous operation for both the archive-push and archive-get commands.
A spool path is required. The commands will store transient data here but each command works quite a bit differently so spool path usage is described in detail in each section.
pg-primary Create the spool directory 
sudo mkdir -p -m 750 /var/spool/pgbackrest
sudo chown postgres:postgres /var/spool/pgbackrest
pg-standby Create the spool directory 
sudo mkdir -p -m 750 /var/spool/pgbackrest
sudo chown postgres:postgres /var/spool/pgbackrest
The spool path must be configured and asynchronous archiving enabled. Asynchronous archiving automatically confers some benefit by reducing the number of connections made to remote storage, but setting process-max can drastically improve performance by parallelizing operations. Be sure not to set process-max so high that it affects normal database operations.
pg-primary : /etc/pgbackrest/pgbackrest.conf Configure the spool path and asynchronous archiving
[demo]
pg1-path=/var/lib/postgresql/12/demo

[global]
archive-async=y
log-level-file=detail
repo1-host=repository
spool-path=/var/spool/pgbackrest

[global:archive-get]
process-max=2

[global:archive-push]
process-max=2
pg-standby : /etc/pgbackrest/pgbackrest.conf Configure the spool path and asynchronous archiving
[demo]
pg1-path=/var/lib/postgresql/12/demo
recovery-option=primary_conninfo=host=172.17.0.4 port=5432 user=replicator

[global]
archive-async=y
log-level-file=detail
repo1-host=repository
spool-path=/var/spool/pgbackrest

[global:archive-get]
process-max=2

[global:archive-push]
process-max=2
NOTE:
process-max is configured using command sections so that the option is not used by backup and restore. This also allows different values for archive-push and archive-get .
For demonstration purposes streaming replication will be broken to force PostgreSQL to get WAL using the restore_command .
pg-primary Break streaming replication by changing the replication password 
sudo -u postgres psql -c "alter user replicator password 'bogus'"
ALTER ROLE
pg-standby Restart standby to break connection 
sudo pg_ctlcluster 12 demo restart

Archive Push

The asynchronous archive-push command offloads WAL archiving to a separate process (or processes) to improve throughput. It works by looking ahead to see which WAL segments are ready to be archived beyond the request that PostgreSQL is currently making via the archive_command . WAL segments are transferred to the archive directly from the pg_xlog / pg_wal directory and success is only returned by the archive_command when the WAL segment has been safely stored in the archive.
The spool path holds the current status of WAL archiving. Status files written into the spool directory are typically zero length and should consume a minimal amount of space (a few MB at most) and very little IO. All the information in this directory can be recreated so it is not necessary to preserve the spool directory if the cluster is moved to new hardware.
IMPORTANT:
In the original implementation of asynchronous archiving, WAL segments were copied to the spool directory before compression and transfer. The new implementation copies WAL directly from the pg_xlog directory. If asynchronous archiving was utilized in v1.12 or prior, read the v1.13 release notes carefully before upgrading.
The [stanza]-archive-push-async.log file can be used to monitor the activity of the asynchronous process. A good way to test this is to quickly push a number of WAL segments.
pg-primary Test parallel asynchronous archiving 
sudo -u postgres psql -c " \
       select pg_create_restore_point('test async push'); select pg_switch_wal(); \
       select pg_create_restore_point('test async push'); select pg_switch_wal(); \
       select pg_create_restore_point('test async push'); select pg_switch_wal(); \
       select pg_create_restore_point('test async push'); select pg_switch_wal(); \
       select pg_create_restore_point('test async push'); select pg_switch_wal();"
sudo -u postgres pgbackrest --stanza=demo --log-level-console=info check
P00   INFO: check command begin 2.44: --exec-id=3523-61b18b01 --log-level-console=info --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --repo1-host=repository --stanza=demo
P00   INFO: check repo1 configuration (primary)
P00   INFO: check repo1 archive for WAL (primary)
P00   INFO: WAL segment 00000008000000000000002D successfully archived to '/var/lib/pgbackrest/archive/demo/12-1/0000000800000000/00000008000000000000002D-a33f9d8e62a3e349e195db1d5a778f1cbf08e9d3.gz' on repo1
P00   INFO: check command end: completed successfully
Now the log file will contain parallel, asynchronous activity.
pg-primary Check results in the log 
sudo -u postgres cat /var/log/pgbackrest/demo-archive-push-async.log
-------------------PROCESS START-------------------
P00   INFO: archive-push:async command begin 2.44: [/var/lib/postgresql/12/demo/pg_wal] --archive-async --exec-id=3508-03a906a4 --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: push 1 WAL file(s) to archive: 000000080000000000000028
P01 DETAIL: pushed WAL file '000000080000000000000028' to the archive
P00   INFO: archive-push:async command end: completed successfully

-------------------PROCESS START-------------------
P00   INFO: archive-push:async command begin 2.44: [/var/lib/postgresql/12/demo/pg_wal] --archive-async --exec-id=3526-9999e4fa --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: push 4 WAL file(s) to archive: 000000080000000000000029...00000008000000000000002C
P01 DETAIL: pushed WAL file '000000080000000000000029' to the archive
P02 DETAIL: pushed WAL file '00000008000000000000002A' to the archive
P01 DETAIL: pushed WAL file '00000008000000000000002B' to the archive
P02 DETAIL: pushed WAL file '00000008000000000000002C' to the archive
P00   INFO: archive-push:async command end: completed successfully

-------------------PROCESS START-------------------
P00   INFO: archive-push:async command begin 2.44: [/var/lib/postgresql/12/demo/pg_wal] --archive-async --exec-id=3542-3541d8eb --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: push 1 WAL file(s) to archive: 00000008000000000000002D
P01 DETAIL: pushed WAL file '00000008000000000000002D' to the archive
P00   INFO: archive-push:async command end: completed successfully

Archive Get

The asynchronous archive-get command maintains a local queue of WAL to improve throughput. If a WAL segment is not found in the queue it is fetched from the repository along with enough consecutive WAL to fill the queue. The maximum size of the queue is defined by archive-get-queue-max . Whenever the queue is less than half full more WAL will be fetched to fill it.
Asynchronous operation is most useful in environments that generate a lot of WAL or have a high latency connection to the repository storage (i.e., S3 or other object stores). In the case of a high latency connection it may be a good idea to increase process-max .
The [stanza]-archive-get-async.log file can be used to monitor the activity of the asynchronous process.
pg-standby Check results in the log 
sudo -u postgres cat /var/log/pgbackrest/demo-archive-get-async.log
-------------------PROCESS START-------------------
P00   INFO: archive-get:async command begin 2.44: [000000080000000000000025, 000000080000000000000026, 000000080000000000000027, 000000080000000000000028, 000000080000000000000029, 00000008000000000000002A, 00000008000000000000002B, 00000008000000000000002C] --archive-async --exec-id=1595-3bc7b1e7 --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: get 8 WAL file(s) from archive: 000000080000000000000025...00000008000000000000002C
P01 DETAIL: found 000000080000000000000025 in the repo1: 12-1 archive
P02 DETAIL: found 000000080000000000000026 in the repo1: 12-1 archive
P01 DETAIL: found 000000080000000000000027 in the repo1: 12-1 archive
P00 DETAIL: unable to find 000000080000000000000028 in the archive
P00   INFO: archive-get:async command end: completed successfully
       [filtered 14 lines of output]
P00   INFO: archive-get:async command begin 2.44: [000000080000000000000028, 000000080000000000000029, 00000008000000000000002A, 00000008000000000000002B, 00000008000000000000002C, 00000008000000000000002D, 00000008000000000000002E, 00000008000000000000002F] --archive-async --exec-id=1639-9cbbaa8f --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: get 8 WAL file(s) from archive: 000000080000000000000028...00000008000000000000002F
P01 DETAIL: found 000000080000000000000028 in the repo1: 12-1 archive
P02 DETAIL: found 000000080000000000000029 in the repo1: 12-1 archive
P01 DETAIL: found 00000008000000000000002A in the repo1: 12-1 archive
P02 DETAIL: found 00000008000000000000002B in the repo1: 12-1 archive
P01 DETAIL: found 00000008000000000000002C in the repo1: 12-1 archive
P00 DETAIL: unable to find 00000008000000000000002D in the archive
P00   INFO: archive-get:async command end: completed successfully
       [filtered 2 lines of output]
P00   INFO: archive-get:async command begin 2.44: [00000008000000000000002D, 00000008000000000000002E, 00000008000000000000002F, 000000080000000000000030, 000000080000000000000031, 000000080000000000000032, 000000080000000000000033, 000000080000000000000034] --archive-async --exec-id=1656-344ec41b --log-level-console=off --log-level-file=detail --log-level-stderr=off --no-log-timestamp --pg1-path=/var/lib/postgresql/12/demo --process-max=2 --repo1-host=repository --spool-path=/var/spool/pgbackrest --stanza=demo
P00   INFO: get 8 WAL file(s) from archive: 00000008000000000000002D...000000080000000000000034
P01 DETAIL: found 00000008000000000000002D in the repo1: 12-1 archive
P00 DETAIL: unable to find 00000008000000000000002E in the archive
P00   INFO: archive-get:async command end: completed successfully
       [filtered 11 lines of output]
pg-primary Fix streaming replication by changing the replication password 
sudo -u postgres psql -c "alter user replicator password 'jw8s0F4'"
ALTER ROLE

Backup from a Standby

pgBackRest can perform backups on a standby instead of the primary. Standby backups require the pg-standby host to be configured and the backup-standby option enabled. If more than one standby is configured then the first running standby found will be used for the backup.
repository : /etc/pgbackrest/pgbackrest.conf Configure pg2-host / pg2-host-user and pg2-path
[demo]
pg1-host=pg-primary
pg1-path=/var/lib/postgresql/12/demo
pg2-host=pg-standby
pg2-path=/var/lib/postgresql/12/demo

[global]
backup-standby=y
process-max=3
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y
Both the primary and standby databases are required to perform the backup, though the vast majority of the files will be copied from the standby to reduce load on the primary. The database hosts can be configured in any order. pgBackRest will automatically determine which is the primary and which is the standby.
repository Backup the demo cluster from pg2 
sudo -u pgbackrest pgbackrest --stanza=demo --log-level-console=detail backup
       [filtered 2 lines of output]
P00   INFO: execute non-exclusive backup start: backup begins after the requested immediate checkpoint completes
P00   INFO: backup start archive = 00000008000000000000002F, lsn = 0/2F000028
P00   INFO: wait for replay on the standby to reach 0/2F000028
P00   INFO: replay on the standby reached 0/2F000028
P00   INFO: check archive for prior segment 00000008000000000000002E
P03 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/1249 (440KB, 18.83%) checksum 72935618b551143398c9db54446b9e837da8c782
P04 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/2674 (344KB, 33.56%) checksum b7e1782a23e5b432ace1ef89f59e9b30fb9fbc0d
P01 DETAIL: backup file pg-primary:/var/lib/postgresql/12/demo/global/pg_control (8KB, 33.90%) checksum 925a6a2e73c18ac9c72fc7648aff541e8152a464
P02 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/2608 (456KB, 53.42%) checksum e999dc1062f36f283651a5647badcc772aec56bb
P03 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/2673 (280KB, 65.41%) checksum b3c90dafb991ff5b8e01080e9e5d9ba48067a3bd
P04 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/2658 (128KB, 70.89%) checksum facbe01a7d50c0b0337ded5a72e663995d3b0857
P01 DETAIL: backup file pg-primary:/var/lib/postgresql/12/demo/pg_logical/replorigin_checkpoint (8B, 70.89%) checksum 347fc8f2df71bd4436e38bd1516ccd7ea0d46532
P02 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/1259 (104KB, 75.34%) checksum 7820ab5e7be59279eea29a7bbe7d6234accaf120
P03 DETAIL: backup file pg-standby:/var/lib/postgresql/12/demo/base/13398/2659 (88KB, 79.10%) checksum 391d7443d3405fada2629db67676e07e8d8b0db1
       [filtered 1288 lines of output]
This incremental backup shows that most of the files are copied from the pg-standby host and only a few are copied from the pg-primary host.
pgBackRest creates a standby backup that is identical to a backup performed on the primary. It does this by starting/stopping the backup on the pg-primary host, copying only files that are replicated from the pg-standby host, then copying the remaining few files from the pg-primary host. This means that logs and statistics from the primary database will be included in the backup.

Upgrading PostgreSQL

Immediately after upgrading PostgreSQL to a newer major version, the pg-path for all pgBackRest configurations must be set to the new database location and the stanza-upgrade command run. If there is more than one repository configured on the host, the stanza will be created on each. If the database is offline use the --no-online option.
The following instructions are not meant to be a comprehensive guide for upgrading PostgreSQL , rather they outline the general process for upgrading a primary and standby with the intent of demonstrating the steps required to reconfigure pgBackRest . It is recommended that a backup be taken prior to upgrading.
pg-primary Stop old cluster 
sudo pg_ctlcluster 12 demo stop
Stop the old cluster on the standby since it will be restored from the newly upgraded cluster.
pg-standby Stop old cluster 
sudo pg_ctlcluster 12 demo stop
Create the new cluster and perform upgrade.
pg-primary Create new cluster and perform the upgrade 
sudo -u postgres /usr/lib/postgresql/14/bin/initdb \
       -D /var/lib/postgresql/14/demo -k -A peer
sudo pg_createcluster 14 demo
sudo -u postgres sh -c 'cd /var/lib/postgresql && \
       /usr/lib/postgresql/14/bin/pg_upgrade \
       --old-bindir=/usr/lib/postgresql/12/bin \
       --new-bindir=/usr/lib/postgresql/14/bin \
       --old-datadir=/var/lib/postgresql/12/demo \
       --new-datadir=/var/lib/postgresql/14/demo \
       --old-options=" -c config_file=/etc/postgresql/12/demo/postgresql.conf" \
       --new-options=" -c config_file=/etc/postgresql/14/demo/postgresql.conf"'
       [filtered 68 lines of output]
Checking for extension updates                              ok

Upgrade Complete
----------------
Optimizer statistics are not transferred by pg_upgrade.
       [filtered 4 lines of output]
Configure the new cluster settings and port.
pg-primary : /etc/postgresql/14/demo/postgresql.conf Configure PostgreSQL
archive_command = 'pgbackrest --stanza=demo archive-push %p'
archive_mode = on
max_wal_senders = 3
wal_level = replica
Update the pgBackRest configuration on all systems to point to the new cluster.
pg-primary : /etc/pgbackrest/pgbackrest.conf Upgrade the pg1-path
[demo]
pg1-path=/var/lib/postgresql/14/demo

[global]
archive-async=y
log-level-file=detail
repo1-host=repository
spool-path=/var/spool/pgbackrest

[global:archive-get]
process-max=2

[global:archive-push]
process-max=2
pg-standby : /etc/pgbackrest/pgbackrest.conf Upgrade the pg-path
[demo]
pg1-path=/var/lib/postgresql/14/demo
recovery-option=primary_conninfo=host=172.17.0.4 port=5432 user=replicator

[global]
archive-async=y
log-level-file=detail
repo1-host=repository
spool-path=/var/spool/pgbackrest

[global:archive-get]
process-max=2

[global:archive-push]
process-max=2
repository : /etc/pgbackrest/pgbackrest.conf Upgrade pg1-path and pg2-path , disable backup from standby
[demo]
pg1-host=pg-primary
pg1-path=/var/lib/postgresql/14/demo
pg2-host=pg-standby
pg2-path=/var/lib/postgresql/14/demo

[global]
backup-standby=n
process-max=3
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y
pg-primary Copy hba configuration 
sudo cp /etc/postgresql/12/demo/pg_hba.conf \
       /etc/postgresql/14/demo/pg_hba.conf
Before starting the new cluster, the stanza-upgrade command must be run.
pg-primary Upgrade the stanza 
sudo -u postgres pgbackrest --stanza=demo --no-online \
       --log-level-console=info stanza-upgrade
P00   INFO: stanza-upgrade command begin 2.44: --exec-id=3971-69a85bd9 --log-level-console=info --log-level-file=detail --log-level-stderr=off --no-log-timestamp --no-online --pg1-path=/var/lib/postgresql/14/demo --repo1-host=repository --stanza=demo
P00   INFO: stanza-upgrade for stanza 'demo' on repo1
P00   INFO: stanza-upgrade command end: completed successfully
Start the new cluster and confirm it is successfully installed.
pg-primary Start new cluster 
sudo pg_ctlcluster 14 demo start
Test configuration using the check command.
pg-primary Check configuration 
sudo -u postgres pg_lsclusters
sudo -u postgres pgbackrest --stanza=demo check
Remove the old cluster.
pg-primary Remove old cluster 
sudo pg_dropcluster 12 demo
Install the new PostgreSQL binaries on the standby and create the cluster.
pg-standby Remove old cluster and create the new cluster 
sudo pg_dropcluster 12 demo
sudo pg_createcluster 14 demo
Run the check on the repository host. The warning regarding the standby being down is expected since the standby cluster is down. Running this command demonstrates that the repository server is aware of the standby and is configured properly for the primary server.
repository Check configuration 
sudo -u pgbackrest pgbackrest --stanza=demo check
P00   WARN: unable to check pg2: [DbConnectError] raised from remote-0 ssh protocol on 'pg-standby': unable to connect to 'dbname='postgres' port=5432': connection to server on socket "/var/run/postgresql/.s.PGSQL.5432" failed: No such file or directory
            	Is the server running locally and accepting connections on that socket?
Run a full backup on the new cluster and then restore the standby from the backup. The backup type will automatically be changed to full if incr or diff is requested.
repository Run a full backup 
sudo -u pgbackrest pgbackrest --stanza=demo --type=full backup
pg-standby Restore the demo standby cluster 
sudo -u postgres pgbackrest --stanza=demo --delta --type=standby restore
pg-standby : /etc/postgresql/14/demo/postgresql.conf Configure PostgreSQL
hot_standby = on
pg-standby Start PostgreSQL and check the pgBackRest configuration 
sudo pg_ctlcluster 14 demo start
sudo -u postgres pgbackrest --stanza=demo check
Backup from standby can be enabled now that the standby is restored.
repository : /etc/pgbackrest/pgbackrest.conf Reenable backup from standby
[demo]
pg1-host=pg-primary
pg1-path=/var/lib/postgresql/14/demo
pg2-host=pg-standby
pg2-path=/var/lib/postgresql/14/demo

[global]
backup-standby=y
process-max=3
repo1-path=/var/lib/pgbackrest
repo1-retention-full=2
start-fast=y