pg_rewind — synchronize a PostgreSQL data directory with another data directory that was forked from it
pg_rewind
[option
...] { -D
| --target-pgdata
} directory
{ --source-pgdata=
| directory
--source-server=
} connstr
pg_rewind is a tool for synchronizing a PostgreSQL cluster with another copy of the same cluster, after the clusters' timelines have diverged. A typical scenario is to bring an old primary server back online after failover as a standby that follows the new primary.
After a successful rewind, the state of the target data directory is analogous to a base backup of the source data directory. Unlike taking a new base backup or using a tool like rsync, pg_rewind does not require comparing or copying unchanged relation blocks in the cluster. Only changed blocks from existing relation files are copied; all other files, including new relation files, configuration files, and WAL segments, are copied in full. As such the rewind operation is significantly faster than other approaches when the database is large and only a small fraction of blocks differ between the clusters.
pg_rewind examines the timeline histories of the source
and target clusters to determine the point where they diverged, and
expects to find WAL in the target cluster's pg_wal
directory
reaching all the way back to the point of divergence. The point of divergence
can be found either on the target timeline, the source timeline, or their common
ancestor. In the typical failover scenario where the target cluster was
shut down soon after the divergence, this is not a problem, but if the
target cluster ran for a long time after the divergence, its old WAL
files might no longer be present. In this case, you can manually copy them
from the WAL archive to the pg_wal
directory, or run
pg_rewind with the -c
option to
automatically retrieve them from the WAL archive. The use of
pg_rewind is not limited to failover, e.g., a standby
server can be promoted, run some write transactions, and then rewound
to become a standby again.
After running pg_rewind, WAL replay needs to
complete for the data directory to be in a consistent state. When the
target server is started again it will enter archive recovery and replay
all WAL generated in the source server from the last checkpoint before
the point of divergence. If some of the WAL was no longer available in the
source server when pg_rewind was run, and
therefore could not be copied by the pg_rewind
session, it must be made available when the target server is started.
This can be done by creating a recovery.signal
file
in the target data directory and by configuring a suitable
restore_command in
postgresql.conf
.
pg_rewind requires that the target server either has
the wal_log_hints option enabled
in postgresql.conf
or data checksums enabled when
the cluster was initialized with initdb. Neither of these
are currently on by default. full_page_writes
must also be set to on
, but is enabled by default.
If pg_rewind fails while processing, then the data folder of the target is likely not in a state that can be recovered. In such a case, taking a new fresh backup is recommended.
As pg_rewind copies configuration files entirely from the source, it may be required to correct the configuration used for recovery before restarting the target server, especially if the target is reintroduced as a standby of the source. If you restart the server after the rewind operation has finished but without configuring recovery, the target may again diverge from the primary.
pg_rewind will fail immediately if it finds files it cannot write directly to. This can happen for example when the source and the target server use the same file mapping for read-only SSL keys and certificates. If such files are present on the target server it is recommended to remove them before running pg_rewind. After doing the rewind, some of those files may have been copied from the source, in which case it may be necessary to remove the data copied and restore back the set of links used before the rewind.
pg_rewind accepts the following command-line arguments:
-D directory
--target-pgdata=directory
This option specifies the target data directory that is synchronized with the source. The target server must be shut down cleanly before running pg_rewind
-K
--encryption-key-command=command
If the cluster is encrypted, run this command to retrieve the encryption key. See Chapter 31 for details.
--source-pgdata=directory
Specifies the file system path to the data directory of the source server to synchronize the target with. This option requires the source server to be cleanly shut down.
--source-server=connstr
Specifies a libpq connection string to connect to the source PostgreSQL server to synchronize the target with. The connection must be a normal (non-replication) connection with a role having sufficient permissions to execute the functions used by pg_rewind on the source server (see Notes section for details) or a superuser role. This option requires the source server to be running and accepting connections.
-R
--write-recovery-conf
Create standby.signal
and append connection
settings to postgresql.auto.conf
in the output
directory. --source-server
is mandatory with
this option.
-n
--dry-run
Do everything except actually modifying the target directory.
-N
--no-sync
By default, pg_rewind
will wait for all files
to be written safely to disk. This option causes
pg_rewind
to return without waiting, which is
faster, but means that a subsequent operating system crash can leave
the data directory corrupt. Generally, this option is useful for
testing but should not be used on a production
installation.
-P
--progress
Enables progress reporting. Turning this on will deliver an approximate progress report while copying data from the source cluster.
-c
--restore-target-wal
Use restore_command
defined in the target cluster
configuration to retrieve WAL files from the WAL archive if these
files are no longer available in the pg_wal
directory.
--config-file=filename
Use the specified main server configuration file for the target
cluster. This affects pg_rewind when
it uses internally the postgres command
for the rewind operation on this cluster (when retrieving
restore_command
with the option
-c/--restore-target-wal
and when forcing a
completion of crash recovery).
--debug
Print verbose debugging output that is mostly useful for developers debugging pg_rewind.
--no-ensure-shutdown
pg_rewind requires that the target server is cleanly shut down before rewinding. By default, if the target server is not shut down cleanly, pg_rewind starts the target server in single-user mode to complete crash recovery first, and stops it. By passing this option, pg_rewind skips this and errors out immediately if the server is not cleanly shut down. Users are expected to handle the situation themselves in that case.
--sync-method=method
When set to fsync
, which is the default,
pg_rewind
will recursively open and synchronize all
files in the data directory. The search for files will follow symbolic
links for the WAL directory and each configured tablespace.
On Linux, syncfs
may be used instead to ask the
operating system to synchronize the whole file systems that contain the
data directory, the WAL files, and each tablespace. See
recovery_init_sync_method for information about
the caveats to be aware of when using syncfs
.
This option has no effect when --no-sync
is used.
-V
--version
Display version information, then exit.
-?
--help
Show help, then exit.
When --source-server
option is used,
pg_rewind also uses the environment variables
supported by libpq (see Section 34.15).
The environment variable PG_COLOR
specifies whether to use
color in diagnostic messages. Possible values are
always
, auto
and
never
.
When executing pg_rewind using an online
cluster as source, a role having sufficient permissions to execute the
functions used by pg_rewind on the source
cluster can be used instead of a superuser. Here is how to create such
a role, named rewind_user
here:
CREATE USER rewind_user LOGIN; GRANT EXECUTE ON function pg_catalog.pg_ls_dir(text, boolean, boolean) TO rewind_user; GRANT EXECUTE ON function pg_catalog.pg_stat_file(text, boolean) TO rewind_user; GRANT EXECUTE ON function pg_catalog.pg_read_binary_file(text) TO rewind_user; GRANT EXECUTE ON function pg_catalog.pg_read_binary_file(text, bigint, bigint, boolean) TO rewind_user;
The basic idea is to copy all file system-level changes from the source cluster to the target cluster:
Scan the WAL log of the target cluster, starting from the last
checkpoint before the point where the source cluster's timeline
history forked off from the target cluster. For each WAL record,
record each data block that was touched. This yields a list of all
the data blocks that were changed in the target cluster, after the
source cluster forked off. If some of the WAL files are no longer
available, try re-running pg_rewind with
the -c
option to search for the missing files in
the WAL archive.
Copy all those changed blocks from the source cluster to
the target cluster, either using direct file system access
(--source-pgdata
) or SQL (--source-server
).
Relation files are now in a state equivalent to the moment of the last
completed checkpoint prior to the point at which the WAL timelines of the
source and target diverged plus the current state on the source of any
blocks changed on the target after that divergence.
Copy all other files, including new relation files, WAL segments,
pg_xact
, and configuration files from the source
cluster to the target cluster. Similarly to base backups, the contents
of the directories pg_dynshmem/
,
pg_notify/
, pg_replslot/
,
pg_serial/
, pg_snapshots/
,
pg_stat_tmp/
, and pg_subtrans/
are omitted from the data copied from the source cluster. The files
backup_label
,
tablespace_map
,
pg_internal.init
,
postmaster.opts
,
postmaster.pid
and
.DS_Store
as well as any file or directory
beginning with pgsql_tmp
, are omitted.
Create a backup_label
file to begin WAL replay at
the checkpoint created at failover and configure the
pg_control
file with a minimum consistency LSN
defined as the result of pg_current_wal_insert_lsn()
when rewinding from a live source or the last checkpoint LSN when
rewinding from a stopped source.
When starting the target, PostgreSQL replays all the required WAL, resulting in a data directory in a consistent state.