Table 9.82 列出了可用於查詢和變更執行階段組態參數的函式。
函數 current_setting 會回傳 setting_name 目前的設定值。它對應於 SQL 指令 SHOW。範例如下:
如果沒有名為 setting_name 的設定,也沒有設定 missing_ok 為 true,則 current_setting 會引發執行錯誤訊息。
set_config 將參數 setting_name 設定為 new_value。如果 is_local 為 true,則新值將僅套用於目前交易事務之中。如果您希望新值套用於目前連線,請讓 is_local 為 false。此功能對應的 SQL 命令為 SET。範例如下:
Table 9.83 中列出的功能將系統控制信號發送到其他伺服器程序。預設情況下,這些功能僅限於超級使用者使用,可以在例外情況使用 GRANT 授予其他人存取權限。
如果成功,這些函數均回傳 true,否則回傳 false。
pg_cancel_backend 和 pg_terminate_backend 發送信號(分別為SIGINT 或 SIGTERM)到由程序 ID 指示的後端程序。正在運作中的後端程序 ID 可以從 pg_stat_activity 檢視表的 pid 欄位中找到,或者透過列出伺服器上的 postgres 程序(在 Unix 上使用 ps 或在 Windows 上使用工作管理員)找到。正在執行的後端角色可以在 pg_stat_activity 檢視表的 usename 欄位中找到。
pg_reload_conf 向伺服器發送 SIGHUP 信號,會使所有伺服器程序重新載入組態檔案。
pg_rotate_logfile 指示日誌檔案管理器立即切換到新的輸出檔案。僅當內建的日誌收集器正在運行時,此函數才有作用,因為沒有日誌檔案管理器的子程序可以操作。
The functions shown in Table 9.84 assist in making on-line backups. These functions cannot be executed during recovery (except non-exclusive pg_start_backup
, non-exclusive pg_stop_backup
, pg_is_in_backup
, pg_backup_start_time
and pg_wal_lsn_diff
).
pg_start_backup
accepts an arbitrary user-defined label for the backup. (Typically this would be the name under which the backup dump file will be stored.) When used in exclusive mode, the function writes a backup label file (backup_label
) and, if there are any links in the pg_tblspc/
directory, a tablespace map file (tablespace_map
) into the database cluster's data directory, performs a checkpoint, and then returns the backup's starting write-ahead log location as text. The user can ignore this result value, but it is provided in case it is useful. When used in non-exclusive mode, the contents of these files are instead returned by the pg_stop_backup
function, and should be written to the backup by the caller.
There is an optional second parameter of type boolean
. If true
, it specifies executing pg_start_backup
as quickly as possible. This forces an immediate checkpoint which will cause a spike in I/O operations, slowing any concurrently executing queries.
In an exclusive backup, pg_stop_backup
removes the label file and, if it exists, the tablespace_map
file created by pg_start_backup
. In a non-exclusive backup, the contents of the backup_label
and tablespace_map
are returned in the result of the function, and should be written to files in the backup (and not in the data directory). There is an optional second parameter of type boolean
. If false, the pg_stop_backup
will return immediately after the backup is completed without waiting for WAL to be archived. This behavior is only useful for backup software which independently monitors WAL archiving. Otherwise, WAL required to make the backup consistent might be missing and make the backup useless. When this parameter is set to true, pg_stop_backup
will wait for WAL to be archived when archiving is enabled; on the standby, this means that it will wait only when archive_mode = always
. If write activity on the primary is low, it may be useful to run pg_switch_wal
on the primary in order to trigger an immediate segment switch.
When executed on a primary, the function also creates a backup history file in the write-ahead log archive area. The history file includes the label given to pg_start_backup
, the starting and ending write-ahead log locations for the backup, and the starting and ending times of the backup. The return value is the backup's ending write-ahead log location (which again can be ignored). After recording the ending location, the current write-ahead log insertion point is automatically advanced to the next write-ahead log file, so that the ending write-ahead log file can be archived immediately to complete the backup.
pg_switch_wal
moves to the next write-ahead log file, allowing the current file to be archived (assuming you are using continuous archiving). The return value is the ending write-ahead log location + 1 within the just-completed write-ahead log file. If there has been no write-ahead log activity since the last write-ahead log switch, pg_switch_wal
does nothing and returns the start location of the write-ahead log file currently in use.
pg_create_restore_point
creates a named write-ahead log record that can be used as recovery target, and returns the corresponding write-ahead log location. The given name can then be used with recovery_target_name to specify the point up to which recovery will proceed. Avoid creating multiple restore points with the same name, since recovery will stop at the first one whose name matches the recovery target.
pg_current_wal_lsn
displays the current write-ahead log write location in the same format used by the above functions. Similarly, pg_current_wal_insert_lsn
displays the current write-ahead log insertion location and pg_current_wal_flush_lsn
displays the current write-ahead log flush location. The insertion location is the “logical” end of the write-ahead log at any instant, while the write location is the end of what has actually been written out from the server's internal buffers and flush location is the location guaranteed to be written to durable storage. The write location is the end of what can be examined from outside the server, and is usually what you want if you are interested in archiving partially-complete write-ahead log files. The insertion and flush locations are made available primarily for server debugging purposes. These are both read-only operations and do not require superuser permissions.
You can use pg_walfile_name_offset
to extract the corresponding write-ahead log file name and byte offset from the results of any of the above functions. For example:
Similarly, pg_walfile_name
extracts just the write-ahead log file name. When the given write-ahead log location is exactly at a write-ahead log file boundary, both these functions return the name of the preceding write-ahead log file. This is usually the desired behavior for managing write-ahead log archiving behavior, since the preceding file is the last one that currently needs to be archived.
pg_wal_lsn_diff
calculates the difference in bytes between two write-ahead log locations. It can be used with pg_stat_replication
or some functions shown in Table 9.84 to get the replication lag.
For details about proper usage of these functions, see Section 25.3.
The functions shown in Table 9.85 provide information about the current status of the standby. These functions may be executed both during recovery and in normal running.
The functions shown in Table 9.86 control the progress of recovery. These functions may be executed only during recovery.
While recovery is paused no further database changes are applied. If in hot standby, all new queries will see the same consistent snapshot of the database, and no further query conflicts will be generated until recovery is resumed.
If streaming replication is disabled, the paused state may continue indefinitely without problem. While streaming replication is in progress WAL records will continue to be received, which will eventually fill available disk space, depending upon the duration of the pause, the rate of WAL generation and available disk space.
PostgreSQL allows database sessions to synchronize their snapshots. A snapshot determines which data is visible to the transaction that is using the snapshot. Synchronized snapshots are necessary when two or more sessions need to see identical content in the database. If two sessions just start their transactions independently, there is always a possibility that some third transaction commits between the executions of the two START TRANSACTION
commands, so that one session sees the effects of that transaction and the other does not.
To solve this problem, PostgreSQL allows a transaction to export the snapshot it is using. As long as the exporting transaction remains open, other transactions can import its snapshot, and thereby be guaranteed that they see exactly the same view of the database that the first transaction sees. But note that any database changes made by any one of these transactions remain invisible to the other transactions, as is usual for changes made by uncommitted transactions. So the transactions are synchronized with respect to pre-existing data, but act normally for changes they make themselves.
Snapshots are exported with the pg_export_snapshot
function, shown in Table 9.87, and imported with the SET TRANSACTION command.
The function pg_export_snapshot
saves the current snapshot and returns a text
string identifying the snapshot. This string must be passed (outside the database) to clients that want to import the snapshot. The snapshot is available for import only until the end of the transaction that exported it. A transaction can export more than one snapshot, if needed. Note that doing so is only useful in READ COMMITTED
transactions, since in REPEATABLE READ
and higher isolation levels, transactions use the same snapshot throughout their lifetime. Once a transaction has exported any snapshots, it cannot be prepared with PREPARE TRANSACTION.
See SET TRANSACTION for details of how to use an exported snapshot.
The functions shown in Table 9.88 are for controlling and interacting with replication features. See Section 26.2.5, Section 26.2.6, and Chapter 49 for information about the underlying features. Use of functions for replication origin is restricted to superusers. Use of functions for replication slot is restricted to superusers and users having REPLICATION
privilege.
Many of these functions have equivalent commands in the replication protocol; see Section 52.4.
The functions described in Section 9.26.3, Section 9.26.4, and Section 9.26.5 are also relevant for replication.
Table 9.89 中列出的函數用於計算資料庫物件的磁碟空間使用情況。
pg_column_size 顯示用於儲存任何單一資料內容的空間。
pg_total_relation_size 接受資料表或 Toast 資料表的 OID 或名稱,回傳用於該資料表的磁碟上總空間,包括所有關聯的索引。此函數等效於 pg_table_size + pg_indexes_size。
pg_table_size
accepts the OID or name of a table and returns the disk space needed for that table, exclusive of indexes. (TOAST space, free space map, and visibility map are included.)
pg_indexes_size
accepts the OID or name of a table and returns the total disk space used by all the indexes attached to that table.
pg_database_size 和 pg_tablespace_size 接受資料庫或資料表空間的 OID 或名稱,並回傳其中使用的磁碟空間總量。要使用 pg_database_size,您必須對指定的資料庫具有 CONNECT 權限(預設情況下已授予該權限),或者是 pg_read_all_stats 角色的成員。要使用 pg_tablespace_size,您必須對指定的資料表空間具有 CREATE 權限,或者是 pg_read_all_stats 角色的成員,除非它是目前資料庫的預設資料表空間。
pg_relation_size 接受資料表、索引或 Toast 資料表的 OID 或名稱,回傳該關連物件的一個衍生子物件的磁碟大小(以 Byte 為單位)。(請注意,在大多數情況下,使用更上級的函數 pg_total_relation_size 或 pg_table_size會比較方便,這些函數會加總所有衍生子物件的大小。)只使用一個參數的時候,它回傳衍生子物件 main 所佔的磁碟空間的大小。可以提供第二個參數來指定要檢查的衍生子物件:
'main'
returns the size of the main data fork of the relation.
'fsm'
returns the size of the Free Space Map (see Section 68.3) associated with the relation.
'vm'
returns the size of the Visibility Map (see Section 68.4) associated with the relation.
'init'
returns the size of the initialization fork, if any, associated with the relation.
pg_size_pretty
can be used to format the result of one of the other functions in a human-readable way, using bytes, kB, MB, GB or TB as appropriate.
pg_size_bytes
can be used to get the size in bytes from a string in human-readable format. The input may have units of bytes, kB, MB, GB or TB, and is parsed case-insensitively. If no units are specified, bytes are assumed.
The units kB, MB, GB and TB used by the functions pg_size_pretty
and pg_size_bytes
are defined using powers of 2 rather than powers of 10, so 1kB is 1024 bytes, 1MB is 10242 = 1048576 bytes, and so on.
The functions above that operate on tables or indexes accept a regclass
argument, which is simply the OID of the table or index in the pg_class
system catalog. You do not have to look up the OID by hand, however, since the regclass
data type's input converter will do the work for you. Just write the table name enclosed in single quotes so that it looks like a literal constant. For compatibility with the handling of ordinary SQL names, the string will be converted to lower case unless it contains double quotes around the table name.
If an OID that does not represent an existing object is passed as argument to one of the above functions, NULL is returned.
The functions shown in Table 9.90 assist in identifying the specific disk files associated with database objects.
pg_relation_filenode
accepts the OID or name of a table, index, sequence, or toast table, and returns the “filenode” number currently assigned to it. The filenode is the base component of the file name(s) used for the relation (see Section 68.1 for more information). For most tables the result is the same as pg_class
.relfilenode
, but for certain system catalogs relfilenode
is zero and this function must be used to get the correct value. The function returns NULL if passed a relation that does not have storage, such as a view.
pg_relation_filepath
is similar to pg_relation_filenode
, but it returns the entire file path name (relative to the database cluster's data directory PGDATA
) of the relation.
pg_filenode_relation
is the reverse of pg_relation_filenode
. Given a “tablespace” OID and a “filenode”, it returns the associated relation's OID. For a table in the database's default tablespace, the tablespace can be specified as 0.
Table 9.91 lists functions used to manage collations.
pg_collation_actual_version
returns the actual version of the collation object as it is currently installed in the operating system. If this is different from the value in pg_collation.collversion
, then objects depending on the collation might need to be rebuilt. See also ALTER COLLATION.
pg_import_system_collations
adds collations to the system catalog pg_collation
based on all the locales it finds in the operating system. This is what initdb
uses; see Section 23.2.2 for more details. If additional locales are installed into the operating system later on, this function can be run again to add collations for the new locales. Locales that match existing entries in pg_collation
will be skipped. (But collation objects based on locales that are no longer present in the operating system are not removed by this function.) The schema
parameter would typically be pg_catalog
, but that is not a requirement; the collations could be installed into some other schema as well. The function returns the number of new collation objects it created.
To check the total size of the data contained in measurement
table described in Section 5.11.2.1, one could use the following query:
Table 9.93 shows the functions available for index maintenance tasks. These functions cannot be executed during recovery. Use of these functions is restricted to superusers and the owner of the given index.
brin_summarize_new_values
accepts the OID or name of a BRIN index and inspects the index to find page ranges in the base table that are not currently summarized by the index; for any such range it creates a new summary index tuple by scanning the table pages. It returns the number of new page range summaries that were inserted into the index. brin_summarize_range
does the same, except it only summarizes the range that covers the given block number.
gin_clean_pending_list
accepts the OID or name of a GIN index and cleans up the pending list of the specified index by moving entries in it to the main GIN data structure in bulk. It returns the number of pages removed from the pending list. Note that if the argument is a GIN index built with the fastupdate
option disabled, no cleanup happens and the return value is 0, because the index doesn't have a pending list. Please see Section 66.4.1 and Section 66.5 for details of the pending list and fastupdate
option.
The functions shown in Table 9.94 provide native access to files on the machine hosting the server. Only files within the database cluster directory and the log_directory
can be accessed unless the user is granted the role pg_read_server_files
. Use a relative path for files in the cluster directory, and a path matching the log_directory
configuration setting for log files.
Note that granting users the EXECUTE privilege on pg_read_file()
, or related functions, allows them the ability to read any file on the server which the database can read and that those reads bypass all in-database privilege checks. This means that, among other things, a user with this access is able to read the contents of the pg_authid
table where authentication information is contained, as well as read any file in the database. Therefore, granting access to these functions should be carefully considered.
Some of these functions take an optional missing_ok
parameter, which specifies the behavior when the file or directory does not exist. If true
, the function returns NULL (except pg_ls_dir
, which returns an empty result set). If false
, an error is raised. The default is false
.
pg_ls_dir
returns the names of all files (and directories and other special files) in the specified directory. The include_dot_dirs
indicates whether “.” and “..” are included in the result set. The default is to exclude them (false
), but including them can be useful when missing_ok
is true
, to distinguish an empty directory from an non-existent directory.
pg_ls_logdir
returns the name, size, and last modified time (mtime) of each file in the log directory. By default, only superusers and members of the pg_monitor
role can use this function. Access may be granted to others using GRANT
.
pg_ls_waldir
returns the name, size, and last modified time (mtime) of each file in the write ahead log (WAL) directory. By default only superusers and members of the pg_monitor
role can use this function. Access may be granted to others using GRANT
.
pg_ls_archive_statusdir
returns the name, size, and last modified time (mtime) of each file in the WAL archive status directory pg_wal/archive_status
. By default only superusers and members of the pg_monitor
role can use this function. Access may be granted to others using GRANT
.
pg_ls_tmpdir
returns the name, size, and last modified time (mtime) of each file in the temporary file directory for the specified tablespace
. If tablespace
is not provided, the pg_default
tablespace is used. By default only superusers and members of the pg_monitor
role can use this function. Access may be granted to others using GRANT
.
pg_read_file
returns part of a text file, starting at the given offset
, returning at most length
bytes (less if the end of file is reached first). If offset
is negative, it is relative to the end of the file. If offset
and length
are omitted, the entire file is returned. The bytes read from the file are interpreted as a string in the server encoding; an error is thrown if they are not valid in that encoding.
pg_read_binary_file
is similar to pg_read_file
, except that the result is a bytea
value; accordingly, no encoding checks are performed. In combination with the convert_from
function, this function can be used to read a file in a specified encoding:
pg_stat_file
returns a record containing the file size, last accessed time stamp, last modified time stamp, last file status change time stamp (Unix platforms only), file creation time stamp (Windows only), and a boolean
indicating if it is a directory. Typical usages include:
The functions shown in Table 9.95 manage advisory locks. For details about proper use of these functions, see Section 13.3.5.
pg_advisory_lock
locks an application-defined resource, which can be identified either by a single 64-bit key value or two 32-bit key values (note that these two key spaces do not overlap). If another session already holds a lock on the same resource identifier, this function will wait until the resource becomes available. The lock is exclusive. Multiple lock requests stack, so that if the same resource is locked three times it must then be unlocked three times to be released for other sessions' use.
pg_advisory_lock_shared
works the same as pg_advisory_lock
, except the lock can be shared with other sessions requesting shared locks. Only would-be exclusive lockers are locked out.
pg_try_advisory_lock
is similar to pg_advisory_lock
, except the function will not wait for the lock to become available. It will either obtain the lock immediately and return true
, or return false
if the lock cannot be acquired immediately.
pg_try_advisory_lock_shared
works the same as pg_try_advisory_lock
, except it attempts to acquire a shared rather than an exclusive lock.
pg_advisory_unlock
will release a previously-acquired exclusive session level advisory lock. It returns true
if the lock is successfully released. If the lock was not held, it will return false
, and in addition, an SQL warning will be reported by the server.
pg_advisory_unlock_shared
works the same as pg_advisory_unlock
, except it releases a shared session level advisory lock.
pg_advisory_unlock_all
will release all session level advisory locks held by the current session. (This function is implicitly invoked at session end, even if the client disconnects ungracefully.)
pg_advisory_xact_lock
works the same as pg_advisory_lock
, except the lock is automatically released at the end of the current transaction and cannot be released explicitly.
pg_advisory_xact_lock_shared
works the same as pg_advisory_lock_shared
, except the lock is automatically released at the end of the current transaction and cannot be released explicitly.
pg_try_advisory_xact_lock
works the same as pg_try_advisory_lock
, except the lock, if acquired, is automatically released at the end of the current transaction and cannot be released explicitly.
pg_try_advisory_xact_lock_shared
works the same as pg_try_advisory_lock_shared
, except the lock, if acquired, is automatically released at the end of the current transaction and cannot be released explicitly.
Name
Return Type
Description
current_setting(
setting_name
[, missing_ok
])
text
get current value of setting
set_config(
setting_name
, new_value
, is_local
)
text
set parameter and return new value
Name
Return Type
Description
pg_cancel_backend(
pid
int
)
boolean
從後端服務取消正在執行的查詢。如果呼叫的角色是其後端被取消的角色的成員或已授予呼叫角色 pg_signal_backend 的角色,則也允許進行這個動作,但是只有超級使用者才能取消超級使用者後端行程。
pg_reload_conf()
boolean
使伺服器程序重新載入其組態配置檔案
pg_rotate_logfile()
boolean
輪流使用下一個伺服器的日誌檔案
pg_terminate_backend(
pid
int
)
boolean
終止整個後端程序。如果呼叫的角色是其後端被終止的角色的成員或已授予呼叫角色 pg_signal_backend 的角色,則也允許進行這個動作,但是只有超級使用者才能終止超級使用者的後端程序。
Name
Return Type
Description
pg_create_restore_point(
name
text
)
pg_lsn
Create a named point for performing restore (restricted to superusers by default, but other users can be granted EXECUTE to run the function)
pg_current_wal_flush_lsn()
pg_lsn
Get current write-ahead log flush location
pg_current_wal_insert_lsn()
pg_lsn
Get current write-ahead log insert location
pg_current_wal_lsn()
pg_lsn
Get current write-ahead log write location
pg_start_backup(
label
text
[, fast
boolean
[, exclusive
boolean
]])
pg_lsn
Prepare for performing on-line backup (restricted to superusers by default, but other users can be granted EXECUTE to run the function)
pg_stop_backup()
pg_lsn
Finish performing exclusive on-line backup (restricted to superusers by default, but other users can be granted EXECUTE to run the function)
pg_stop_backup(
exclusive
boolean
[, wait_for_archive
boolean
])
setof record
Finish performing exclusive or non-exclusive on-line backup (restricted to superusers by default, but other users can be granted EXECUTE to run the function)
pg_is_in_backup()
bool
True if an on-line exclusive backup is still in progress.
pg_backup_start_time()
timestamp with time zone
Get start time of an on-line exclusive backup in progress.
pg_switch_wal()
pg_lsn
Force switch to a new write-ahead log file (restricted to superusers by default, but other users can be granted EXECUTE to run the function)
pg_walfile_name(
lsn
pg_lsn
)
text
Convert write-ahead log location to file name
pg_walfile_name_offset(
lsn
pg_lsn
)
text
, integer
Convert write-ahead log location to file name and decimal byte offset within file
pg_wal_lsn_diff(
lsn
pg_lsn
, lsn
pg_lsn
)
numeric
Calculate the difference between two write-ahead log locations
Name
Return Type
Description
pg_is_in_recovery()
bool
True if recovery is still in progress.
pg_last_wal_receive_lsn()
pg_lsn
Get last write-ahead log location received and synced to disk by streaming replication. While streaming replication is in progress this will increase monotonically. If recovery has completed this will remain static at the value of the last WAL record received and synced to disk during recovery. If streaming replication is disabled, or if it has not yet started, the function returns NULL.
pg_last_wal_replay_lsn()
pg_lsn
Get last write-ahead log location replayed during recovery. If recovery is still in progress this will increase monotonically. If recovery has completed then this value will remain static at the value of the last WAL record applied during that recovery. When the server has been started normally without recovery the function returns NULL.
pg_last_xact_replay_timestamp()
timestamp with time zone
Get time stamp of last transaction replayed during recovery. This is the time at which the commit or abort WAL record for that transaction was generated on the primary. If no transactions have been replayed during recovery, this function returns NULL. Otherwise, if recovery is still in progress this will increase monotonically. If recovery has completed then this value will remain static at the value of the last transaction applied during that recovery. When the server has been started normally without recovery the function returns NULL.
Name
Return Type
Description
pg_is_wal_replay_paused()
bool
True if recovery is paused.
pg_promote(
wait
boolean
DEFAULT true, wait_seconds
integer
DEFAULT 60)
boolean
Promotes a physical standby server. With wait
set to true
(the default), the function waits until promotion is completed or wait_seconds
seconds have passed, and returns true
if promotion is successful and false
otherwise. If wait
is set to false
, the function returns true
immediately after sending SIGUSR1
to the postmaster to trigger the promotion. This function is restricted to superusers by default, but other users can be granted EXECUTE to run the function.
pg_wal_replay_pause()
void
Pauses recovery immediately (restricted to superusers by default, but other users can be granted EXECUTE to run the function).
pg_wal_replay_resume()
void
Restarts recovery if it was paused (restricted to superusers by default, but other users can be granted EXECUTE to run the function).
Name
Return Type
Description
pg_export_snapshot()
text
Save the current snapshot and return its identifier
Function
Return Type
Description
pg_create_physical_replication_slot(
slot_name
name
[, immediately_reserve
boolean
, temporary
boolean
])
(slot_name
name
, lsn
pg_lsn
)
Creates a new physical replication slot named slot_name
. The optional second parameter, when true
, specifies that the LSN for this replication slot be reserved immediately; otherwise the LSN is reserved on first connection from a streaming replication client. Streaming changes from a physical slot is only possible with the streaming-replication protocol — see Section 52.4. The optional third parameter, temporary
, when set to true, specifies that the slot should not be permanently stored to disk and is only meant for use by current session. Temporary slots are also released upon any error. This function corresponds to the replication protocol command CREATE_REPLICATION_SLOT ... PHYSICAL
.
pg_drop_replication_slot(
slot_name
name
)
void
Drops the physical or logical replication slot named slot_name
. Same as replication protocol command DROP_REPLICATION_SLOT
. For logical slots, this must be called when connected to the same database the slot was created on.
pg_create_logical_replication_slot(
slot_name
name
, plugin
name
[, temporary
boolean
])
(slot_name
name
, lsn
pg_lsn
)
Creates a new logical (decoding) replication slot named slot_name
using the output plugin plugin
. The optional third parameter, temporary
, when set to true, specifies that the slot should not be permanently stored to disk and is only meant for use by current session. Temporary slots are also released upon any error. A call to this function has the same effect as the replication protocol command CREATE_REPLICATION_SLOT ... LOGICAL
.
pg_copy_physical_replication_slot(
src_slot_name
name
, dst_slot_name
name
[, temporary
boolean
])
(slot_name
name
, lsn
pg_lsn
)
Copies an existing physical replication slot named src_slot_name
to a physical replication slot named dst_slot_name
. The copied physical slot starts to reserve WAL from the same LSN as the source slot. temporary
is optional. If temporary
is omitted, the same value as the source slot is used.
pg_copy_logical_replication_slot(
src_slot_name
name
, dst_slot_name
name
[, temporary
boolean
[, plugin
name
]])
(slot_name
name
, lsn
pg_lsn
)
Copies an existing logical replication slot named src_slot_name
to a logical replication slot named dst_slot_name
while changing the output plugin and persistence. The copied logical slot starts from the same LSN as the source logical slot. Both temporary
and plugin
are optional. If temporary
or plugin
are omitted, the same values as the source logical slot are used.
pg_logical_slot_get_changes(
slot_name
name
, upto_lsn
pg_lsn
, upto_nchanges
int
, VARIADIC options
text[]
)
(lsn
pg_lsn
, xid
xid
, data
text
)
Returns changes in the slot slot_name
, starting from the point at which since changes have been consumed last. If upto_lsn
and upto_nchanges
are NULL, logical decoding will continue until end of WAL. If upto_lsn
is non-NULL, decoding will include only those transactions which commit prior to the specified LSN. If upto_nchanges
is non-NULL, decoding will stop when the number of rows produced by decoding exceeds the specified value. Note, however, that the actual number of rows returned may be larger, since this limit is only checked after adding the rows produced when decoding each new transaction commit.
pg_logical_slot_peek_changes(
slot_name
name
, upto_lsn
pg_lsn
, upto_nchanges
int
, VARIADIC options
text[]
)
(lsn
pg_lsn
, xid
xid
, data
text
)
Behaves just like the pg_logical_slot_get_changes()
function, except that changes are not consumed; that is, they will be returned again on future calls.
pg_logical_slot_get_binary_changes(
slot_name
name
, upto_lsn
pg_lsn
, upto_nchanges
int
, VARIADIC options
text[]
)
(lsn
pg_lsn
, xid
xid
, data
bytea
)
Behaves just like the pg_logical_slot_get_changes()
function, except that changes are returned as bytea
.
pg_logical_slot_peek_binary_changes(
slot_name
name
, upto_lsn
pg_lsn
, upto_nchanges
int
, VARIADIC options
text[]
)
(lsn
pg_lsn
, xid
xid
, data
bytea
)
Behaves just like the pg_logical_slot_get_changes()
function, except that changes are returned as bytea
and that changes are not consumed; that is, they will be returned again on future calls.
pg_replication_slot_advance(
slot_name
name
, upto_lsn
pg_lsn
)
(slot_name
name
, end_lsn
pg_lsn
) bool
Advances the current confirmed position of a replication slot named slot_name
. The slot will not be moved backwards, and it will not be moved beyond the current insert location. Returns the name of the slot and the real position to which it was advanced to. The information of the updated slot is written out at the follow-up checkpoint if any advancing is done. In the event of a crash, the slot may return to an earlier position.
pg_replication_origin_create(
node_name
text
)
oid
Create a replication origin with the given external name, and return the internal id assigned to it.
pg_replication_origin_drop(
node_name
text
)
void
Delete a previously created replication origin, including any associated replay progress.
pg_replication_origin_oid(
node_name
text
)
oid
Lookup a replication origin by name and return the internal id. If no corresponding replication origin is found an error is thrown.
pg_replication_origin_session_setup(
node_name
text
)
void
Mark the current session as replaying from the given origin, allowing replay progress to be tracked. Use pg_replication_origin_session_reset
to revert. Can only be used if no previous origin is configured.
pg_replication_origin_session_reset()
void
Cancel the effects of pg_replication_origin_session_setup()
.
pg_replication_origin_session_is_setup()
bool
Has a replication origin been configured in the current session?
pg_replication_origin_session_progress(
flush
bool
)
pg_lsn
Return the replay location for the replication origin configured in the current session. The parameter flush
determines whether the corresponding local transaction will be guaranteed to have been flushed to disk or not.
pg_replication_origin_xact_setup(
origin_lsn
pg_lsn
, origin_timestamp
timestamptz
)
void
Mark the current transaction as replaying a transaction that has committed at the given LSN and timestamp. Can only be called when a replication origin has previously been configured using pg_replication_origin_session_setup()
.
pg_replication_origin_xact_reset()
void
Cancel the effects of pg_replication_origin_xact_setup()
.
pg_replication_origin_advance(
node_name
text
, lsn
pg_lsn
)
void
Set replication progress for the given node to the given location. This primarily is useful for setting up the initial location or a new location after configuration changes and similar. Be aware that careless use of this function can lead to inconsistently replicated data.
pg_replication_origin_progress(
node_name
text
, flush
bool
)
pg_lsn
Return the replay location for the given replication origin. The parameter flush
determines whether the corresponding local transaction will be guaranteed to have been flushed to disk or not.
pg_logical_emit_message(
transactional
bool
, prefix
text
, content
text
)
pg_lsn
Emit text logical decoding message. This can be used to pass generic messages to logical decoding plugins through WAL. The parameter transactional
specifies if the message should be part of current transaction or if it should be written immediately and decoded as soon as the logical decoding reads the record. The prefix
is textual prefix used by the logical decoding plugins to easily recognize interesting messages for them. The content
is the text of the message.
pg_logical_emit_message(
transactional
bool
, prefix
text
, content
bytea
)
pg_lsn
Emit binary logical decoding message. This can be used to pass generic messages to logical decoding plugins through WAL. The parameter transactional
specifies if the message should be part of current transaction or if it should be written immediately and decoded as soon as the logical decoding reads the record. The prefix
is textual prefix used by the logical decoding plugins to easily recognize interesting messages for them. The content
is the binary content of the message.
Name
Return Type
Description
pg_column_size(any
)
int
欄位用於儲存特定內容的位元組數(可能已壓縮)
pg_database_size(oid
)
bigint
指定 OID 的資料庫磁碟空間使用情況
pg_database_size(name
)
bigint
指定名稱的資料庫磁碟空間使用情況
pg_indexes_size(regclass
)
bigint
指定資料表的索引所使用的磁碟總空間
pg_relation_size(
relation
regclass
, fork
text
)
bigint
指定資料表或索引的衍生物件(“ main”,“ fsm”,“ vm”或“ init”)所使用的磁碟空間
pg_relation_size(
relation
regclass
)
bigint
pg_relation_size(..., 'main') 的簡寫
pg_size_bytes(text
)
bigint
將人類可讀格式的大小(以大小單位)轉換為以位元組表示
pg_size_pretty(bigint
)
text
將以 64 位元整數表示的位元組單位數值轉換為具有量級單位的人類可讀格式
pg_size_pretty(numeric
)
text
將以數字表示的內容轉換為具有大小單位且適於人類易讀的格式
pg_table_size(regclass
)
bigint
回傳指定資料表所使用的磁碟空間,不包括索引(但包括 TOAST、free space map 和 visibility map)
pg_tablespace_size(oid
)
bigint
指定 OID 的資料表空間其所使用的磁碟空間
pg_tablespace_size(name
)
bigint
指定名稱資料表空間所使用的磁碟空間
pg_total_relation_size(regclass
)
bigint
指定資料所表使用的總磁碟空間,包括所有索引和 TOAST 資料
Name
Return Type
Description
pg_relation_filenode(
relation
regclass
)
oid
Filenode number of the specified relation
pg_relation_filepath(
relation
regclass
)
text
File path name of the specified relation
pg_filenode_relation(
tablespace
oid
, filenode
oid
)
regclass
Find the relation associated with a given tablespace and filenode
Name
Return Type
Description
pg_collation_actual_version(oid
)
text
Return actual version of collation from operating system
pg_import_system_collations(
schema
regnamespace
)
integer
Import operating system collations
Name
Return Type
Description
pg_partition_tree(regclass
)
setof record
List information about tables or indexes in a partition tree for a given partitioned table or partitioned index, with one row for each partition. Information provided includes the name of the partition, the name of its immediate parent, a boolean value telling if the partition is a leaf, and an integer telling its level in the hierarchy. The value of level begins at 0
for the input table or index in its role as the root of the partition tree, 1
for its partitions, 2
for their partitions, and so on.
pg_partition_ancestors(regclass
)
setof regclass
List the ancestor relations of the given partition, including the partition itself.
pg_partition_root(regclass
)
regclass
Return the top-most parent of a partition tree to which the given relation belongs.
Name
Return Type
Description
brin_summarize_new_values(
index
regclass
)
integer
summarize page ranges not already summarized
brin_summarize_range(
index
regclass
, blockNumber
bigint
)
integer
summarize the page range covering the given block, if not already summarized
brin_desummarize_range(
index
regclass
, blockNumber
bigint
)
integer
de-summarize the page range covering the given block, if summarized
gin_clean_pending_list(
index
regclass
)
bigint
move GIN pending list entries into main index structure
Name
Return Type
Description
pg_ls_dir(
dirname
text
[, missing_ok
boolean
, include_dot_dirs
boolean
])
setof text
List the contents of a directory. Restricted to superusers by default, but other users can be granted EXECUTE to run the function.
pg_ls_logdir()
setof record
List the name, size, and last modification time of files in the log directory. Access is granted to members of the pg_monitor
role and may be granted to other non-superuser roles.
pg_ls_waldir()
setof record
List the name, size, and last modification time of files in the WAL directory. Access is granted to members of the pg_monitor
role and may be granted to other non-superuser roles.
pg_ls_archive_statusdir()
setof record
List the name, size, and last modification time of files in the WAL archive status directory. Access is granted to members of the pg_monitor
role and may be granted to other non-superuser roles.
pg_ls_tmpdir([
tablespace
oid
])
setof record
List the name, size, and last modification time of files in the temporary directory for tablespace
. If tablespace
is not provided, the pg_default
tablespace is used. Access is granted to members of the pg_monitor
role and may be granted to other non-superuser roles.
pg_read_file(
filename
text
[, offset
bigint
, length
bigint
[, missing_ok
boolean
] ])
text
Return the contents of a text file. Restricted to superusers by default, but other users can be granted EXECUTE to run the function.
pg_read_binary_file(
filename
text
[, offset
bigint
, length
bigint
[, missing_ok
boolean
] ])
bytea
Return the contents of a file. Restricted to superusers by default, but other users can be granted EXECUTE to run the function.
pg_stat_file(
filename
text
[, missing_ok
boolean
])
record
Return information about a file. Restricted to superusers by default, but other users can be granted EXECUTE to run the function.
Name
Return Type
Description
pg_advisory_lock(
key
bigint
)
void
Obtain exclusive session level advisory lock
pg_advisory_lock(
key1
int
, key2
int
)
void
Obtain exclusive session level advisory lock
pg_advisory_lock_shared(
key
bigint
)
void
Obtain shared session level advisory lock
pg_advisory_lock_shared(
key1
int
, key2
int
)
void
Obtain shared session level advisory lock
pg_advisory_unlock(
key
bigint
)
boolean
Release an exclusive session level advisory lock
pg_advisory_unlock(
key1
int
, key2
int
)
boolean
Release an exclusive session level advisory lock
pg_advisory_unlock_all()
void
Release all session level advisory locks held by the current session
pg_advisory_unlock_shared(
key
bigint
)
boolean
Release a shared session level advisory lock
pg_advisory_unlock_shared(
key1
int
, key2
int
)
boolean
Release a shared session level advisory lock
pg_advisory_xact_lock(
key
bigint
)
void
Obtain exclusive transaction level advisory lock
pg_advisory_xact_lock(
key1
int
, key2
int
)
void
Obtain exclusive transaction level advisory lock
pg_advisory_xact_lock_shared(
key
bigint
)
void
Obtain shared transaction level advisory lock
pg_advisory_xact_lock_shared(
key1
int
, key2
int
)
void
Obtain shared transaction level advisory lock
pg_try_advisory_lock(
key
bigint
)
boolean
Obtain exclusive session level advisory lock if available
pg_try_advisory_lock(
key1
int
, key2
int
)
boolean
Obtain exclusive session level advisory lock if available
pg_try_advisory_lock_shared(
key
bigint
)
boolean
Obtain shared session level advisory lock if available
pg_try_advisory_lock_shared(
key1
int
, key2
int
)
boolean
Obtain shared session level advisory lock if available
pg_try_advisory_xact_lock(
key
bigint
)
boolean
Obtain exclusive transaction level advisory lock if available
pg_try_advisory_xact_lock(
key1
int
, key2
int
)
boolean
Obtain exclusive transaction level advisory lock if available
pg_try_advisory_xact_lock_shared(
key
bigint
)
boolean
Obtain shared transaction level advisory lock if available
pg_try_advisory_xact_lock_shared(
key1
int
, key2
int
)
boolean
Obtain shared transaction level advisory lock if available