Provided by: postgresql-13_13.4-1_amd64 bug

NAME

       pg_standby - supports the creation of a PostgreSQL warm standby server

SYNOPSIS

       pg_standby [option...] archivelocation nextwalfile walfilepath [restartwalfile]

DESCRIPTION

       pg_standby supports creation of a “warm standby” database server. It is designed to be a
       production-ready program, as well as a customizable template should you require specific
       modifications.

       pg_standby is designed to be a waiting restore_command, which is needed to turn a standard
       archive recovery into a warm standby operation. Other configuration is required as well,
       all of which is described in the main server manual (see Section 26.2).

       To configure a standby server to use pg_standby, put this into its postgresql.conf
       configuration file:

           restore_command = 'pg_standby archiveDir %f %p %r'

       where archiveDir is the directory from which WAL segment files should be restored.

       If restartwalfile is specified, normally by using the %r macro, then all WAL files
       logically preceding this file will be removed from archivelocation. This minimizes the
       number of files that need to be retained, while preserving crash-restart capability. Use
       of this parameter is appropriate if the archivelocation is a transient staging area for
       this particular standby server, but not when the archivelocation is intended as a
       long-term WAL archive area.

       pg_standby assumes that archivelocation is a directory readable by the server-owning user.
       If restartwalfile (or -k) is specified, the archivelocation directory must be writable
       too.

       There are two ways to fail over to a “warm standby” database server when the master server
       fails:

       Smart Failover
           In smart failover, the server is brought up after applying all WAL files available in
           the archive. This results in zero data loss, even if the standby server has fallen
           behind, but if there is a lot of unapplied WAL it can be a long time before the
           standby server becomes ready. To trigger a smart failover, create a trigger file
           containing the word smart, or just create it and leave it empty.

       Fast Failover
           In fast failover, the server is brought up immediately. Any WAL files in the archive
           that have not yet been applied will be ignored, and all transactions in those files
           are lost. To trigger a fast failover, create a trigger file and write the word fast
           into it.  pg_standby can also be configured to execute a fast failover automatically
           if no new WAL file appears within a defined interval.

OPTIONS

       pg_standby accepts the following command-line arguments:

       -c
           Use cp or copy command to restore WAL files from archive. This is the only supported
           behavior so this option is useless.

       -d
           Print lots of debug logging output on stderr.

       -k
           Remove files from archivelocation so that no more than this many WAL files before the
           current one are kept in the archive. Zero (the default) means not to remove any files
           from archivelocation. This parameter will be silently ignored if restartwalfile is
           specified, since that specification method is more accurate in determining the correct
           archive cut-off point. Use of this parameter is deprecated as of PostgreSQL 8.3; it is
           safer and more efficient to specify a restartwalfile parameter. A too small setting
           could result in removal of files that are still needed for a restart of the standby
           server, while a too large setting wastes archive space.

       -r maxretries
           Set the maximum number of times to retry the copy command if it fails (default 3).
           After each failure, we wait for sleeptime * num_retries so that the wait time
           increases progressively. So by default, we will wait 5 secs, 10 secs, then 15 secs
           before reporting the failure back to the standby server. This will be interpreted as
           end of recovery and the standby will come up fully as a result.

       -s sleeptime
           Set the number of seconds (up to 60, default 5) to sleep between tests to see if the
           WAL file to be restored is available in the archive yet. The default setting is not
           necessarily recommended; consult Section 26.2 for discussion.

       -t triggerfile
           Specify a trigger file whose presence should cause failover. It is recommended that
           you use a structured file name to avoid confusion as to which server is being
           triggered when multiple servers exist on the same system; for example
           /tmp/pgsql.trigger.5432.

       -V
       --version
           Print the pg_standby version and exit.

       -w maxwaittime
           Set the maximum number of seconds to wait for the next WAL file, after which a fast
           failover will be performed. A setting of zero (the default) means wait forever. The
           default setting is not necessarily recommended; consult Section 26.2 for discussion.

       -?
       --help
           Show help about pg_standby command line arguments, and exit.

NOTES

       pg_standby is designed to work with PostgreSQL 8.2 and later.

       PostgreSQL 8.3 provides the %r macro, which is designed to let pg_standby know the last
       file it needs to keep. With PostgreSQL 8.2, the -k option must be used if archive cleanup
       is required. This option remains available in 8.3, but its use is deprecated.

       PostgreSQL 8.4 provides the recovery_end_command option. Without this option a leftover
       trigger file can be hazardous.

       pg_standby is written in C and has an easy-to-modify source code, with specifically
       designated sections to modify for your own needs

EXAMPLES

       On Linux or Unix systems, you might use:

           archive_command = 'cp %p .../archive/%f'

           restore_command = 'pg_standby -d -s 2 -t /tmp/pgsql.trigger.5442 .../archive %f %p %r 2>>standby.log'

           recovery_end_command = 'rm -f /tmp/pgsql.trigger.5442'

       where the archive directory is physically located on the standby server, so that the
       archive_command is accessing it across NFS, but the files are local to the standby
       (enabling use of ln). This will:

       ·   produce debugging output in standby.log

       ·   sleep for 2 seconds between checks for next WAL file availability

       ·   stop waiting only when a trigger file called /tmp/pgsql.trigger.5442 appears, and
           perform failover according to its content

       ·   remove the trigger file when recovery ends

       ·   remove no-longer-needed files from the archive directory

       On Windows, you might use:

           archive_command = 'copy %p ...\\archive\\%f'

           restore_command = 'pg_standby -d -s 5 -t C:\pgsql.trigger.5442 ...\archive %f %p %r 2>>standby.log'

           recovery_end_command = 'del C:\pgsql.trigger.5442'

       Note that backslashes need to be doubled in the archive_command, but not in the
       restore_command or recovery_end_command. This will:

       ·   use the copy command to restore WAL files from archive

       ·   produce debugging output in standby.log

       ·   sleep for 5 seconds between checks for next WAL file availability

       ·   stop waiting only when a trigger file called C:\pgsql.trigger.5442 appears, and
           perform failover according to its content

       ·   remove the trigger file when recovery ends

       ·   remove no-longer-needed files from the archive directory

       The copy command on Windows sets the final file size before the file is completely copied,
       which would ordinarily confuse pg_standby. Therefore pg_standby waits sleeptime seconds
       once it sees the proper file size. GNUWin32's cp sets the file size only after the file
       copy is complete.

       Since the Windows example uses copy at both ends, either or both servers might be
       accessing the archive directory across the network.

AUTHOR

       Simon Riggs <simon@2ndquadrant.com>

SEE ALSO

       pg_archivecleanup(1)