REINDEX
REINDEX
REINDEX - rebuild indexes
Synopsis
REINDEX [ ( VERBOSE ) ] { INDEX | TABLE | SCHEMA | DATABASE | SYSTEM } name
Description
REINDEX
rebuilds an index using the data
stored in the index's table, replacing the old copy of the index. There are
several scenarios in which to use
REINDEX
:
-
An index has become corrupted, and no longer contains valid data. Although in theory this should never happen, in practice indexes can become corrupted due to software bugs or hardware failures.
REINDEX
provides a recovery method. -
An index has become " bloated " , that is it contains many empty or nearly-empty pages. This can occur with B-tree indexes in PostgreSQL under certain uncommon access patterns.
REINDEX
provides a way to reduce the space consumption of the index by writing a new version of the index without the dead pages. See Section 24.2 for more information. -
You have altered a storage parameter (such as fillfactor) for an index, and wish to ensure that the change has taken full effect.
-
An index build with the
CONCURRENTLY
option failed, leaving an " invalid " index. Such indexes are useless but it can be convenient to useREINDEX
to rebuild them. Note thatREINDEX
will not perform a concurrent build. To build the index without interfering with production you should drop the index and reissue theCREATE INDEX CONCURRENTLY
command.
Parameters
-
INDEX
-
Recreate the specified index.
-
TABLE
-
Recreate all indexes of the specified table. If the table has a secondary " TOAST " table, that is reindexed as well.
-
SCHEMA
-
Recreate all indexes of the specified schema. If a table of this schema has a secondary " TOAST " table, that is reindexed as well. Indexes on shared system catalogs are also processed. This form of
REINDEX
cannot be executed inside a transaction block. -
DATABASE
-
Recreate all indexes within the current database. Indexes on shared system catalogs are also processed. This form of
REINDEX
cannot be executed inside a transaction block. -
SYSTEM
-
Recreate all indexes on system catalogs within the current database. Indexes on shared system catalogs are included. Indexes on user tables are not processed. This form of
REINDEX
cannot be executed inside a transaction block. -
name
-
The name of the specific index, table, or database to be reindexed. Index and table names can be schema-qualified. Presently,
REINDEX DATABASE
andREINDEX SYSTEM
can only reindex the current database, so their parameter must match the current database's name. -
VERBOSE
-
Prints a progress report as each index is reindexed.
Notes
If you suspect corruption of an index on a user table, you can
simply rebuild that index, or all indexes on the table, using
REINDEX INDEX
or
REINDEX TABLE
.
Things are more difficult if you need to recover from corruption of
an index on a system table. In this case it's important for the
system to not have used any of the suspect indexes itself.
(Indeed, in this sort of scenario you might find that server
processes are crashing immediately at start-up, due to reliance on
the corrupted indexes.) To recover safely, the server must be started
with the
-P
option, which prevents it from using
indexes for system catalog lookups.
One way to do this is to shut down the server and start a single-user
PostgreSQL
server
with the
-P
option included on its command line.
Then,
REINDEX DATABASE
,
REINDEX SYSTEM
,
REINDEX TABLE
, or
REINDEX INDEX
can be
issued, depending on how much you want to reconstruct. If in
doubt, use
REINDEX SYSTEM
to select
reconstruction of all system indexes in the database. Then quit
the single-user server session and restart the regular server.
See the
postgres
reference page for more
information about how to interact with the single-user server
interface.
Alternatively, a regular server session can be started with
-P
included in its command line options.
The method for doing this varies across clients, but in all
libpq
-based clients, it is possible to set
the
PGOPTIONS
environment variable to
-P
before starting the client. Note that while this method does not
require locking out other clients, it might still be wise to prevent
other users from connecting to the damaged database until repairs
have been completed.
REINDEX
is similar to a drop and recreate of the index
in that the index contents are rebuilt from scratch. However, the locking
considerations are rather different.
REINDEX
locks out writes
but not reads of the index's parent table. It also takes an
ACCESS EXCLUSIVE
lock on the specific index being processed,
which will block reads that attempt to use that index. In contrast,
DROP INDEX
momentarily takes an
ACCESS EXCLUSIVE
lock on the parent table, blocking both
writes and reads. The subsequent
CREATE INDEX
locks out
writes but not reads; since the index is not there, no read will attempt to
use it, meaning that there will be no blocking but reads might be forced
into expensive sequential scans.
Reindexing a single index or table requires being the owner of that
index or table. Reindexing a schema or database requires being the
owner of that schema or database. Note that is therefore sometimes
possible for non-superusers to rebuild indexes of tables owned by
other users. However, as a special exception, when
REINDEX DATABASE
,
REINDEX SCHEMA
or
REINDEX SYSTEM
is issued by a non-superuser,
indexes on shared catalogs will be skipped unless the user owns the
catalog (which typically won't be the case). Of course, superusers
can always reindex anything.
Reindexing partitioned tables or partitioned indexes is not supported. Each individual partition can be reindexed separately instead.
Examples
Rebuild a single index:
REINDEX INDEX my_index;
Rebuild all the indexes on the table
my_table
:
REINDEX TABLE my_table;
Rebuild all indexes in a particular database, without trusting the system indexes to be valid already:
$export PGOPTIONS="-P"
$psql broken_db
... broken_db=> REINDEX DATABASE broken_db; broken_db=> \q
Compatibility
There is no
REINDEX
command in the SQL standard.