F.47. pg_prewarm — preload relation data into buffer caches #
The pg_prewarm
module provides a convenient way to load relation data into either the operating system buffer cache or the Postgres Pro buffer cache. Prewarming can be performed manually using the pg_prewarm
function, or can be performed automatically by including pg_prewarm
in shared_preload_libraries. In the latter case, the system will run a background worker which periodically records the contents of shared buffers in a file called autoprewarm.blocks
and will, using 2 background workers, reload those same blocks after a restart.
F.47.1. Functions #
pg_prewarm(regclass, mode text default 'buffer', fork text default 'main', first_block int8 default null, last_block int8 default null) RETURNS int8
The first argument is the relation to be prewarmed. The second argument is the prewarming method to be used, as further discussed below; the third is the relation fork to be prewarmed, usually main
. The fourth argument is the first block number to prewarm (NULL
is accepted as a synonym for zero). The fifth argument is the last block number to prewarm (NULL
means prewarm through the last block in the relation). The return value is the number of blocks prewarmed.
There are three available prewarming methods. prefetch
issues asynchronous prefetch requests to the operating system, if this is supported, or throws an error otherwise. read
reads the requested range of blocks; unlike prefetch
, this is synchronous and supported on all platforms and builds, but may be slower. buffer
reads the requested range of blocks into the database buffer cache.
Note that with any of these methods, attempting to prewarm more blocks than can be cached — by the OS when using prefetch
or read
, or by Postgres Pro when using buffer
— will likely result in lower-numbered blocks being evicted as higher numbered blocks are read in. Prewarmed data also enjoys no special protection from cache evictions, so it is possible that other system activity may evict the newly prewarmed blocks shortly after they are read; conversely, prewarming may also evict other data from cache. For these reasons, prewarming is typically most useful at startup, when caches are largely empty.
autoprewarm_start_worker() RETURNS void
Launch the main autoprewarm worker. This will normally happen automatically, but is useful if automatic prewarm was not configured at server startup time and you wish to start up the worker at a later time.
autoprewarm_dump_now() RETURNS int8
Update autoprewarm.blocks
immediately. This may be useful if the autoprewarm worker is not running but you anticipate running it after the next restart. The return value is the number of records written to autoprewarm.blocks
.
F.47.2. Configuration Parameters #
These parameters must be set in postgresql.conf
. Typical usage might be:
# postgresql.conf shared_preload_libraries = 'pg_prewarm' pg_prewarm.autoprewarm = true pg_prewarm.autoprewarm_interval = 300s
F.47.3. Author #
Robert Haas <rhaas@postgresql.org>