Help Center/ GaussDB/ Developer Guide(Centralized_3.x)/ SQL Reference/ Functions and Operators/ Statistics Information Functions
Updated on 2024-05-07 GMT+08:00
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Statistics Information Functions

Statistics information functions are divided into the following two categories: functions that access databases, using the OID of each table or index in a database to mark the database for which statistics are generated; functions that access servers, identified by the server process ID, whose value ranges from 1 to the number of currently active servers.

  • pg_stat_get_db_conflict_tablespace(oid)

    Description: Specifies the number of queries canceled due to a conflict between the restored tablespace and the deleted tablespace in the database.

    Return type: bigint

  • pg_control_group_config()

    Description: Prints Cgroup configurations on the current node. Only users with the SYSADMIN permission can execute this function.

    Return type: record

  • pg_stat_get_db_stat_reset_time(oid)

    Description: Specifies the most recent time when database statistics were reset. It is initialized to the system time during the first connection to each database. The reset time is updated when you call pg_stat_reset on the database and execute pg_stat_reset_single_table_counters against any table or index in it.

    Return type: timestamptz

  • pg_stat_get_function_total_time(oid)

    Description: Specifies the total wall clock time spent in the function, in microseconds. The time spent on this function calling other functions is included.

    Return type: bigint

  • pg_stat_get_xact_tuples_returned(oid)

    Description: Specifies the number of rows read through sequential scans when the parameter is a table in the current transaction or the number of index entries returned when the parameter is an index.

    Return type: bigint

  • pg_lock_status()

    Description: Queries information about locks held by open transactions. All users can execute this function.

    Return type: For details, see the return result of PG_LOCKS, which is obtained by querying this function.

  • gs_lwlock_status()

    Description: Queries information about all lightweight locks in the database system, including lock waiting and lock holding information. All users can execute this function.

    Return type: setofrecord

  • pg_stat_get_xact_numscans(oid)

    Description: Specifies the number of sequential scans performed when the parameter is a table in the current transaction or the number of index scans performed when the parameter is an index.

    Return type: bigint

  • pg_stat_get_xact_blocks_fetched(oid)

    Description: Specifies the number of disk block fetch requests for a table or an index in the current transaction.

    Return type: bigint

  • pg_stat_get_xact_blocks_hit(oid)

    Description: Specifies the number of disk block fetch requests for tables or indexes found in cache in the current transaction.

    Return type: bigint

  • pg_stat_get_xact_function_calls(oid)

    Description: Specifies the number of times the function is called in the current transaction.

    Return type: bigint

  • pg_stat_get_xact_function_self_time(oid)

    Description: Specifies the time spent on this function in the current transaction, excluding the time spent on this function internally calling other functions.

    Return type: bigint

  • pg_stat_get_xact_function_total_time(oid)

    Description: Specifies the total wall clock time (in microseconds) spent on the function in the current transaction, including the time spent on this function internally calling other functions.

    Return type: bigint

  • pg_stat_get_wal_senders()

    Description: Queries walsender information on the primary node.

    Return type: setofrecord

    The following table describes return columns.

    Table 1 Return column description

    Column

    Type

    Description

    pid

    bigint

    Thread ID of the WAL sender

    sender_pid

    integer

    Lightweight thread ID of the WAL sender

    local_role

    text

    Type of the primary node

    peer_role

    text

    Type of the standby node

    peer_state

    text

    Status of the standby node

    state

    text

    Status of the WAL sender

    catchup_start

    timestamp with time zone

    Startup time of a catchup task

    catchup_end

    timestamp with time zone

    End time of a catchup task

    sender_sent_location

    text

    Sending position of the primary node

    sender_write_location

    text

    Writing position of the primary node

    sender_flush_location

    text

    Flushing position of the primary node

    sender_replay_location

    text

    Redo position of the primary node

    receiver_received_location

    text

    Receiving position of the standby node

    receiver_write_location

    text

    Writing position of the standby node

    receiver_flush_location

    text

    Flushing position of the standby node

    receiver_replay_location

    text

    Redo position of the standby node

    sync_percent

    text

    Synchronization percentage

    sync_state

    text

    Synchronization status

    sync_group

    text

    Group to which the synchronous replication belongs

    sync_priority

    text

    Priority of synchronous replication

    sync_most_available

    text

    Maximum availability mode

    channel

    text

    Channel information of the WAL sender
  • get_paxos_replication_info()

    Description: Queries the primary/standby replication status in Paxos mode.

    Return type: setofrecord

    The following table describes return columns.

    Table 2 Return column description

    Column

    Type

    Description

    paxos_write_location

    text

    Location of the Xlog that has been written to the Distribute Consensus Framework (DCF)

    paxos_commit_location

    text

    Location of the Xlog agreed in the DCF

    local_write_location

    text

    Writing position of a node

    local_flush_location

    text

    Flushing position of a node

    local_replay_location

    text

    Redo position of a node

    dcf_replication_info

    text

    DCF module information of a node
  • pg_stat_get_stream_replications()

    Description: Queries the primary/standby replication status.

    Return type: setofrecord

    The following table describes return values.

    Table 3 Return value description

    Return Parameter

    Type

    Description

    local_role

    text

    Local role

    static_connections

    integer

    Connection statistics

    db_state

    text

    Database status

    detail_information

    text

    Detailed information
  • pg_stat_get_db_numbackends(oid)

    Description: Specifies the number of active server processes for a database.

    Return type: integer

  • pg_stat_get_db_xact_commit(oid)

    Description: Specifies the number of transactions committed in a database.

    Return type: bigint

  • pg_stat_get_db_xact_rollback(oid)

    Description: Specifies the number of transactions rolled back in a database.

    Return type: bigint

  • pg_stat_get_db_blocks_fetched(oid)

    Description: Specifies the number of disk blocks fetch requests for a database.

    Return type: bigint

  • pg_stat_get_db_blocks_hit(oid)

    Description: Specifies the number of disk block fetch requests found in cache for a database.

    Return type: bigint

  • pg_stat_get_db_tuples_returned(oid)

    Description: Specifies the number of tuples returned for a database.

    Return type: bigint

  • pg_stat_get_db_tuples_fetched(oid)

    Description: Specifies the number of tuples fetched for a database.

    Return type: bigint

  • pg_stat_get_db_tuples_inserted(oid)

    Description: Specifies the number of tuples inserted in a database.

    Return type: bigint

  • pg_stat_get_db_tuples_updated(oid)

    Description: Specifies the number of tuples updated in a database.

    Return type: bigint

  • pg_stat_get_db_tuples_deleted(oid)

    Description: Specifies the number of tuples deleted in a database.

    Return type: bigint

  • pg_stat_get_db_conflict_lock(oid)

    Description: Specifies the number of lock conflicts in a database.

    Return type: bigint

  • pg_stat_get_db_deadlocks(oid)

    Description: Specifies the number of deadlocks in a database.

    Return type: bigint

  • pg_stat_get_numscans(oid)

    Description: Number of sequential row scans done if parameters are in a table, or the number of index rows if parameters are in an index.

    Return type: bigint

  • pg_stat_get_role_name(oid)

    Description: Obtains the username based on the user OID. Only users with the SYSADMIN and MONADMIN permissions can access the information.

    Return type: text

    Example:

    gaussdb=# select pg_stat_get_role_name(10);
 pg_stat_get_role_name
-----------------------
 aabbcc
(1 row)
  • pg_stat_get_tuples_returned(oid)

    Description: Specifies the number of sequential rows read by sequential scans if parameters are in a table, or the number of index rows if parameters are in an index.

    Return type: bigint

  • pg_stat_get_tuples_fetched(oid)

    Description: Specifies the number of table rows fetched by bitmap scans if parameters are in a table, or the number of table rows fetched by simple index scans if parameters are in an index.

    Return type: bigint

  • pg_stat_get_tuples_inserted(oid)

    Description: Specifies the number of rows inserted into a table.

    Return type: bigint

  • pg_stat_get_tuples_updated(oid)

    Description: Specifies the number of rows updated in a table.

    Return type: bigint

  • pg_stat_get_tuples_deleted(oid)

    Description: Specifies the number of rows deleted from a table.

    Return type: bigint

  • pg_stat_get_tuples_changed(oid)

    Description: Specifies the total number of inserted, updated, and deleted rows after a table was last analyzed or autoanalyzed.

    Return type: bigint

  • pg_stat_get_tuples_hot_updated(oid)

    Description: Specifies the number of rows hot updated in a table.

    Return type: bigint

  • pg_stat_get_live_tuples(oid)

    Description: Specifies the number of live rows in a table.

    Return type: bigint

  • pg_stat_get_dead_tuples(oid)

    Description: Specifies the number of dead rows in a table.

    Return type: bigint

  • pg_stat_get_blocks_fetched(oid)

    Description: Specifies the number of disk block fetch requests for a table or an index.

    Return type: bigint

  • pg_stat_get_blocks_hit(oid)

    Description: Specifies the number of disk block requests found in cache for a table or an index.

    Return type: bigint

  • pg_stat_get_xact_tuples_fetched(oid)

    Description: Specifies the number of tuple rows scanned in a transaction.

    Return type: bigint

  • pg_stat_get_xact_tuples_inserted(oid)

    Description: Specifies the number of tuple inserted into the active subtransactions related to a table.

    Return type: bigint

  • pg_stat_get_xact_tuples_deleted(oid)

    Description: Specifies the number of deleted tuples in the active subtransactions related to a table.

    Return type: bigint

  • pg_stat_get_xact_tuples_hot_updated(oid)

    Description: Specifies the number of hot updated tuples in the active subtransactions related to a table.

    Return type: bigint

  • pg_stat_get_xact_tuples_updated(oid)

    Description: Specifies the number of updated tuples in the active subtransactions related to a table.

    Return type: bigint

  • pg_stat_get_last_vacuum_time(oid)

    Description: Specifies the most recent time when the autovacuum thread is manually started to clear a table.

    Return type: timestamptz

  • pg_stat_get_last_autovacuum_time(oid)

    Description: Specifies the time of the last vacuum initiated by the autovacuum daemon on a table.

    Return type: timestamptz

  • pg_stat_get_vacuum_count(oid)

    Description: Specifies the number of times a table is manually cleared.

    Return type: bigint

  • pg_stat_get_autovacuum_count(oid)

    Description: Specifies the number of times the autovacuum daemon is started to clear a table.

    Return type: bigint

  • pg_stat_get_last_analyze_time(oid)

    Description: Specifies the last time when a table starts to be analyzed manually or by the autovacuum thread.

    Return type: timestamptz

  • pg_stat_get_last_autoanalyze_time(oid)

    Description: Specifies the time when the last analysis initiated by the autovacuum daemon on a table.

    Return type: timestamptz

  • pg_stat_get_analyze_count(oid)

    Description: Specifies the number of times a table is manually analyzed.

    Return type: bigint

  • pg_stat_get_autoanalyze_count(oid)

    Description: Specifies the number of times the autovacuum daemon analyzes a table.

    Return type: bigint

  • pg_total_autovac_tuples(bool)

    Description: Returns tuple records related to the total autovac, such as nodename, nspname, relname, and tuple IUDs. The input parameter specifies whether to query the relation information.

    Return type: setofrecord

    The following table describes return parameters.

    Table 4 Return parameter description

    Return Parameter

    Type

    Description

    nodename

    name

    Node name

    nspname

    name

    Name of a namespace

    relname

    name

    Name of an object, such as a table, an index, or a view

    partname

    name

    Partition name

    n_dead_tuples

    bigint

    Number of dead rows in a table partition

    n_live_tuples

    bigint

    Number of live rows in a table partition

    changes_since_analyze

    bigint

    Number of changes generated by ANALYZE
  • pg_total_gsi_autovac_tuples(bool)

    Description: The function is not supported in centralized mode.

    Return type: setofrecord

  • pg_autovac_status(oid)

    Description: Returns autovac information, such as nodename, nspname, relname, analyze, vacuum, thresholds for the ANALYZE and VACUUM operations, and the number of analyzed or vacuumed tuples. Only users with the SYSADMIN permission can use this function.

    Return type: SETOF record

    The following table describes return parameters.

    Table 5 Return parameter description

    Return Parameter

    Type

    Description

    nspname

    text

    Name of a namespace

    relname

    text

    Name of an object, such as a table, an index, or a view

    nodename

    text

    Node name

    doanalyze

    Boolean

    Specifies whether to execute ANALYZE.

    anltuples

    bigint

    Number of ANALYZE tuples

    anlthresh

    bigint

    ANALYZE threshold

    dovacuum

    Boolean

    Specifies whether to execute VACUUM.

    vactuples

    bigint

    Number of VACUUM tuples

    vacthresh

    bigint

    VACUUM threshold
  • pg_autovac_timeout(oid)

    Description: Returns the number of consecutive timeouts during the autovac operation on a table. If the table information is invalid or the node information is abnormal, NULL will be returned.

    Return type: bigint

  • pg_stat_get_last_data_changed_time(oid)

    Description: Returns the time when INSERT, UPDATE, DELETE, or TRUNCATE was last performed on a table, or the time when EXCHANGE, TRUNCATE, or DROP was last performed on a partition or subpartition. The data in the last_data_changed column of the PG_STAT_ALL_TABLES view is calculated by using this function. The performance of obtaining the last modification time by using the view is poor when the table has a large amount of data. In this case, you are advised to use functions. The input parameter is a table OID.

    Return type: timestamptz

  • pg_stat_set_last_data_changed_time(oid)

    Description: Manually changes the time when INSERT, UPDATE, DELETE, or EXCHANGE/TRUNCATE/DROP PARTITION was last performed.

    Return type: void

  • pg_backend_pid()

    Description: Specifies the thread ID of the server thread attached to the current session.

    Return type: integer

  • pg_stat_get_activity(integer)

    Description: Returns a record about the backend with the specified PID. A record for each active backend in the system is returned if NULL is specified. The returned result does not contain the connection_info column. The initial user, system administrators and users with the MONADMIN permission can view all data. Common users can only query their own results.

    Example:

    gaussdb=# select * from pg_stat_get_activity(139881386280704);
 datid |       pid       | sessionid | usesysid | application_name | state  |                        query                         | waiting |          xact_start           |          query_start          |
    backend_start         |         state_change         | client_addr | client_hostname | client_port | enqueue |     query_id      |   srespool   | global_sessionid | unique_sql_id | trace_id
-------+-----------------+-----------+----------+------------------+--------+------------------------------------------------------+---------+-------------------------------+-------------------------------+-----
--------------------------+------------------------------+-------------+-----------------+-------------+---------+-------------------+--------------+------------------+---------------+----------
 16545 | 139881386280704 |        69 |       10 | gsql             | active | select * from pg_stat_get_activity(139881386280704); | f       | 2022-01-18 19:43:05.167718+08 | 2022-01-18 19:43:05.167718+08 | 2022
-01-18 19:42:33.513507+08 | 2022-01-18 19:43:05.16773+08 |             |                 |          -1 |         | 72620543991624410 | default_pool | 1938253334#69#0  |    3751941862 |
(1 row)

    Return type: SETOF record

    The following table describes return parameters.

    Table 6 Return parameter description

    Return Parameter

    Type

    Description

    datid

    oid

    OID of the database that the user session connects to in the backend

    pid

    bigint

    Backend thread ID

    sessionid

    bigint

    Session ID

    usesysid

    oid

    OID of the user logged in to the backend

    application_name

    text

    Name of the application connected to the backend

    state

    text

    Overall status of the backend

    query

    text

    Latest query at the backend. If state is active, this column shows the ongoing query. In all other states, it shows the last query that was executed.

    waiting

    Boolean

    Specifies whether the backend is currently waiting on a lock. If yes, the value is true.

    xact_start

    timestamp with time zone

    Time when current transaction was started (null if no transaction is active).

    If the current query is the first of its transaction, the value of this column is the same as that of the query_start column.

    query_start

    timestamp with time zone

    Time when the currently active query was started, or time when the last query was started if state is not active For a stored procedure, function, or package, the first query time is queried and does not change with the running of statements in the stored procedure.

    backend_start

    timestamp with time zone

    Time when this process was started, that is, when the client connected to the server

    state_change

    timestamp with time zone

    Time when state was last modified

    client_addr

    inet

    IP address of the client connected to the backend. If this column is NULL, it indicates either the client is connected via a Unix socket on the server or this is an internal process, such as AUTOVACUUM.

    client_hostname

    text

    Host name of the connected client, as reported by a reverse DNS lookup of client_addr. This column will be non-null only for IP connections and only when log_hostname is enabled.

    client_port

    integer

    TCP port number that the client uses for communication with this backend (–1 if a Unix socket is used)

    enqueue

    text

    Unsupported currently

    query_id

    bigint

    ID of a query

    srespool

    name

    Name of the resource pool

    global_sessionid

    text

    Global session ID

    unique_sql_id

    bigint

    Unique SQL statement ID

    trace_id

    text

    Driver-specific trace ID, which is associated with an application request
  • pg_stat_get_activity_with_conninfo(integer)

    Description: Returns a record about the backend with the specified PID. A record for each active backend in the system is returned if NULL is specified. The initial user, system administrators and users with the MONADMIN permission can view all data. Common users can only query their own results.

    Return type: SETOF record

    The following table describes return values.

    Table 7 Return value description

    Return Value

    Return Type

    Return value description

    datid

    oid

    OID of the database that the user session connects to in the backend

    pid

    bigint

    Backend thread ID

    sessionid

    bigint

    Session ID

    usesysid

    oid

    OID of the user logged in to the backend

    application_name

    text

    Name of the application connected to the backend

    state

    text

    Overall status of the backend.

    query

    text

    Latest query at the backend. If state is active, this column shows the ongoing query. In all other states, it shows the last query that was executed.

    waiting

    Boolean

    Specifies whether the backend is currently waiting on a lock. If yes, the value is true.

    xact_start

    timestamp with time zone

    Time when current transaction was started (null if no transaction is active). If the current query is the first of its transaction, the value of this column is the same as that of the query_start column.

    query_start

    timestamp with time zone

    Time when the currently active query was started, or time when the last query was started if state is not active For a stored procedure, function, or package, the first query time is queried and does not change with the running of statements in the stored procedure.

    backend_start

    timestamp with time zone

    Time when this process was started, that is, when the client connected to the server

    state_change

    timestamp with time zone

    Time when state was last modified

    client_addr

    inet

    IP address of the client connected to the backend. If this column is NULL, it indicates either the client is connected via a Unix socket on the server or this is an internal process, such as AUTOVACUUM.

    client_hostname

    text

    Host name of the connected client, as reported by a reverse DNS lookup of client_addr. This column will be non-null only for IP connections and only when log_hostname is enabled.

    client_port

    integer

    TCP port number that the client uses for communication with this backend (–1 if a Unix socket is used)

    enqueue

    text

    Unsupported currently

    query_id

    bigint

    ID of a query

    connection_info

    text

    A string in JSON format recording the driver type, driver version, driver deployment path, and process owner of the connected database

    srespool

    name

    Name of the resource pool

    global_sessionid

    text

    Global session ID

    unique_sql_id

    bigint

    Unique SQL statement ID

    trace_id

    text

    Driver-specific trace ID, which is associated with an application request
  • gs_get_explain(integer)

    Description: Returns a running plan for the background thread with the specified PID. The PID cannot be empty. This function takes effect only when the GUC parameter track_activities is set to on. Only explainable SQL statements whose plans do not contain stream operators are supported. The details are as follows:

    • If the GUC parameter plan_collect_thresh is set to –1, the return result of the function is always empty.
    • If plan_collect_thresh is set to 0, the current SQL execution time is greater than or equal to the value of log_min_duration_statement, and the total number of tuples processed by all operators in the plan is greater than or equal to 10000, the system starts to collect plans in running state. Each time the total number of tuples processed by all operators exceeds 10000, a collection is performed.
    • If plan_collect_thresh is set to a value greater than 0, running plans are collected incrementally based on the threshold specified by this parameter.

    The return value type is text. The types and meanings of the fields are as follows:

    Parameter

    Type

    Description

    Character string of the plans in the running state

    text

    A-rows in the plan string indicates the number of rows returned by the operator in real time.
  • pg_stat_get_function_calls(oid)

    Description: Specifies the number of times the function has been called.

    Return type: bigint

  • pg_stat_get_function_self_time(oid)

    Description: Specifies the time spent in only this function. The time spent on this function calling other functions is excluded.

    Return type: bigint

  • pg_stat_get_backend_idset()

    Description: Sets the number of currently active server processes (from 1 to the number of active server processes).

    Return type: setofinteger

  • pg_stat_get_backend_pid(integer)

    Description: Specifies the ID of the given server thread.

    Return type: bigint

  • pg_stat_get_backend_dbid(integer)

    Description: Specifies the ID of the database connected to the given server process.

    Return type: oid

  • pg_stat_get_backend_userid(integer)

    Description: Specifies the user ID of the given server process. This function can be called only by the system administrator.

    Return type: oid

  • pg_stat_get_backend_activity(integer)

    Description: Active command of the given server process, but only if the current user is a system administrator or the same user as that of the session being queried and track_activities is on

    Return type: text

  • pg_stat_get_backend_waiting(integer)

    Description: True if the given server process is waiting for a lock, but only if the current user is a system administrator or the same user as that of the session being queried and track_activities is on

    Return type: Boolean

  • pg_stat_get_backend_activity_start(integer)

    Description: Specifies the time when the given server process's currently executing query is started only if the current user is the system administrator or the user of the session being queried and track_activities is enabled.

    Return type: timestamp with time zone

  • pg_stat_get_backend_xact_start(integer)

    Description: Specifies the time when the given server process's currently executing transaction is started only if the current user is the system administrator or the user of the session being queried and track_activities is enabled.

    Return type: timestamp with time zone

  • pg_stat_get_backend_start(integer)

    Description: Specifies the time when the given server process is started. If the current user is neither the system administrator nor the user of the session being queried, NULL is returned.

    Return type: timestamp with time zone

  • pg_stat_get_backend_client_addr(integer)

    Description: Specifies the IP address of the client connected to the given server process. If the connection is over a Unix domain socket, or if the current user is neither a system administrator nor the same user as that of the session being queried, NULL will be returned.

    Return type: inet

  • pg_stat_get_backend_client_port(integer)

    Description: Specifies the TCP port number of the client connected to the given server process. If the connection is over a Unix domain socket, -1 will be returned. If the current user is neither a system administrator nor the same user as that of the session being queried, NULL will be returned.

    Return type: integer

  • pg_stat_get_bgwriter_timed_checkpoints()

    Description: Specifies the time when the background writer starts scheduled checkpoints (because the checkpoint_timeout time has expired).

    Return type: bigint

  • pg_stat_get_bgwriter_requested_checkpoints()

    Description: Specifies the time when the background writer starts checkpoints based on requests from the backend because checkpoint_segments has been exceeded or the CHECKPOINT command has been executed.

    Return type: bigint

  • pg_stat_get_bgwriter_buf_written_checkpoints()

    Description: Specifies the number of buffers written by the background writer during checkpoints.

    Return type: bigint

  • pg_stat_get_bgwriter_buf_written_clean()

    Description: Specifies the number of buffers written by the background writer for routine cleaning of dirty pages.

    Return type: bigint

  • pg_stat_get_bgwriter_maxwritten_clean()

    Description: Specifies the time when the background writer stops its cleaning scan because it has written more buffers than specified in the bgwriter_lru_maxpages parameter.

    Return type: bigint

  • pg_stat_get_buf_written_backend()

    Description: Specifies the number of buffers written by the backend because they need to allocate a new buffer.

    Return type: bigint

  • pg_stat_get_buf_alloc()

    Description: Specifies the total number of the allocated buffers.

    Return type: bigint

  • pg_stat_clear_snapshot()

    Description: Clears the current statistics snapshot. This function can be executed only by SYSADMIN and MONADMIN.

    Return type: void

  • pg_stat_reset()

    Description: Resets all statistics counters for the current database to zero (requires system administrator permissions).

    Return type: void

  • pg_stat_reset_shared(text)

    Description: Resets all statistics counters for the current database in each node in a shared cluster to zero (requires system administrator permissions).

    Return type: void

  • pg_stat_reset_single_table_counters(oid)

    Description: Resets statistics for a single table or index in the current database to zero (requires system administrator permissions).

    Return type: void

  • pg_stat_reset_single_function_counters(oid)

    Description: Resets statistics for a single function in the current database to zero (requires system administrator permissions).

    Return type: void

  • fenced_udf_process(integer)

    Description: Shows the number of local UDF Master and Work processes. If the input parameter is set to 1, the number of Master processes is queried. If the input parameter is set to 2, the number of Worker processes is queried. If the input parameter is set to 3, all Worker processes are killed.

    Return type: text

  • total_cpu()

    Description: Obtains the CPU time used by the current node, in jiffies.

    Return type: bigint

  • total_memory()

    Description: Obtains the size of the virtual memory used by the current node, in KB.

    Return type: bigint

  • pg_stat_bad_block(text, int, int, int, int, int, timestamp with time zone, timestamp with time zone)

    Description: Obtains damage information about pages after the current node is started.

    Example: select * from pg_stat_bad_block();

    Return type: record

  • pg_stat_bad_block_clear()

    Description: Deletes the page damage information that is read and recorded on the node (requires system administrator permissions).

    Return type: void

  • gs_respool_exception_info(pool text)

    Description: Queries the query rule of a specified resource pool.

    Return type: record

  • gs_control_group_info(pool text)

    Description: Queries information about Cgroups associated with a resource pool. Only users with the SYSADMIN permission can execute this function.

    Return type: record

    The command output is as follows:

    Attribute

    Value

    Description

    name

    class_a:workload_a1

    Class name and workload name.

    class

    class_a

    Class Cgroup name.

    workload

    workload_a1

    Workload Cgroup name.

    type

    DEFWD

    Cgroup type (Top, CLASS, BAKWD, DEFWD, or TSWD).

    gid

    87

    Cgroup ID.

    shares

    30

    Percentage of CPU resources to those on the parent node.

    limits

    0

    Percentage of CPU cores to those on the parent node.

    rate

    0

    Allocation ratio in Timeshare.

    cpucores

    0-3

    Number of CPU cores.
  • gs_prepared_statements()

    Description: Displays all available prepared statements of all sessions. Only users with the SYSADMIN permission can execute this function. The columns returned by this function are the same as those in GS_ALL_PREPARED_STATEMENTS.

    Return type: record

  • gs_all_control_group_info()

    Description: Collects information about all Cgroups in the database.

    Return type: record

  • gs_get_control_group_info()

    Description: Collects information about all Cgroups. For details about the columns returned by the function, see GS_GET_CONTROL_GROUP_INFO. Only users with the SYSADMIN permission can execute this function.

    Return type: record

  • gs_plan_trace_delete(TIMESTAMPTZ)

    Description: Deletes all plan traces earlier than or equal to max_time for the current user. All users can use this function, and as long as no exception occurs during the execution of this function, this function returns t.

    Return type: Boolean

  • gs_plan_trace_watch_sqlid(bigint)

    Description: Listens to a unique SQL ID for which plan traces are to be generated. The ID is obtained from the unique_sql_id column in the dbe_perf.statement system catalog. In addition, this function can be called only by the initial user and users with the SYSADMIN, opradmin, or MONADMIN permission. If no exception occurs during the execution of this function, t is returned.

    Return type: Boolean

    1. In the database system, the unique SQL ID that is listened to is stored in a cyclic array whose length is 128. If the function is called too frequently, the unique SQL ID that is listened to but does not generate a plan trace may be overwritten.
    2. If a unique SQL ID is listened only once, only one plan trace can be generated for the unique SQL ID. If the same unique SQL ID is listened for multiple times, multiple plan traces are generated for the unique SQL ID.
  • gs_plan_trace_show_sqlids()

    Description: Queries the list of unique SQL IDs for which plan traces are to be generated in the current system. This function can be called only by the initial user and users with the SYSADMIN, opradmin, or MONADMIN permission.

    Return type: text

    1. If there are two unique SQ IDs 730834934 and 730834935 for which plan traces are to be generated in the system, the result of using this function is a character string text "730834934,730834935,".
    2. When this function is used, the unique SQL ID that is generating the plan trace cannot be viewed.
  • get_instr_workload_info(integer)

    Description: Obtains the transaction volume and time information on the primary database node.

    Return type: record

    Attribute

    Value

    Description

    resourcepool_oid

    10

    OID of the resource pool (the logic is equivalent to the load).

    commit_counter

    4

    Number of frontend transactions that were committed.

    rollback_counter

    1

    Number of frontend transactions that were rolled back.

    resp_min

    949

    Minimum response time of frontend transactions (unit: μs).

    resp_max

    201891

    Maximum response time of frontend transactions (unit: μs).

    resp_avg

    43564

    Average response time of frontend transactions (unit: μs).

    resp_total

    217822

    Total response time of frontend transactions (unit: μs).

    bg_commit_counter

    910

    Number of backend transactions that were committed.

    bg_rollback_counter

    0

    Number of backend transactions that were rolled back.

    bg_resp_min

    97

    Minimum response time of backend transactions (unit: μs).

    bg_resp_max

    678080687

    Maximum response time of backend transactions (unit: μs).

    bg_resp_avg

    327847884

    Average response time of backend transactions (unit: μs).

    bg_resp_total

    298341575300

    Total response time of backend transactions (unit: μs).
  • pv_instance_time()

    Description: Obtains the time consumed in each execution phase on the current node.

    Return type: record

    Stat_name Attribute

    Value

    Description

    DB_TIME

    1062385

    Total end-to-end wall time consumed by all threads (unit: μs).

    CPU_TIME

    311777

    Total CPU time consumed by all threads (unit: μs).

    EXECUTION_TIME

    380037

    Total time consumed on the executor (unit: μs).

    PARSE_TIME

    6033

    Total time consumed for parsing SQL statements (unit: μs).

    PLAN_TIME

    173356

    Total time consumed for generating an execution plan (unit: μs).

    REWRITE_TIME

    2274

    Total time consumed on query rewriting (unit: μs).

    PL_EXECUTION_TIME

    0

    Total time consumed for executing PL/SQL statements (unit: μs).

    PL_COMPILATION_TIME

    557

    Total time consumed for compiling SQL statements (unit: μs).

    NET_SEND_TIME

    1673

    Total time consumed for sending data over network (unit: μs).

    DATA_IO_TIME

    426622

    Total time consumed for data read and write (unit: μs).
  • DBE_PERF.get_global_instance_time()

    Description: Provides the time consumed in each key phase in the entire database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • get_instr_unique_sql()

    Description: Obtains information about execution statements (normalized SQL statements) on the current node. Only users with the SYSADMIN or MONADMIN permission can query this function.

    Return type: record

  • reset_unique_sql(text, text, bigint)

    Description: Clears the Unique SQL statements in the memory of CN/DN. (The SYSADMIN or MONADMIN permission is required.)

    Return type: Boolean

    Table 8 reset_unique_sql parameters

    Parameter

    Type

    Description

    scope

    text

    Clearance scope type. The options are as follows:

    'GLOBAL': Clears all CNs/DNs. If the value is 'GLOBAL', this function can be executed only on the CN.

    'LOCAL': Clears the current node.

    clean_type

    text

    'BY_USERID': Clears unique SQL statements based on user IDs.

    'BY_CNID': Clears unique SQL statements based on CN IDs.

    'ALL': Clears all data.

    clean_value

    int8

    Clearance value corresponding to the clearance type. If the second parameter is set to ALL, the third parameter does not take effect and can be set to any value.

    This function involves distributed nodes. Currently, GaussDB is a centralized database, for which the function of the value global is the same as that of the value local and the second parameter cannot set to be BY_CNID.

  • get_instr_wait_event(NULL)

    Description: Obtains the statistics on wait events of the current node.

    Return type: record

  • get_instr_user_login()

    Description: Obtains the number of user login and logout times on the current node. Only users with the SYSADMIN or MONADMIN permission can execute this function.

    Return type: record

  • get_instr_rt_percentile(integer)

    Description: Obtains the SQL response time P80 and P95 distribution information of the database.

    Return type: record

  • get_node_stat_reset_time()

    Description: Obtains statistics about reset (restart, primary/standby switchover, and database deletion) time of the current node.

    Return type: record

  • DBE_PERF.get_global_os_runtime()

    Description: Displays the running status of the current OS. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_os_threads()

    Description: Provides information about the threads under all normal nodes of the entire database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_workload_sql_count()

    Description: Provides statistics about the number of SELECT, UPDATE, INSERT, DELETE, DDL, DML, and DCL statements of different service loads in the entire database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_workload_sql_elapse_time()

    Description: Provides statistics about the number of SELECT, UPDATE, INSERT, and DELETE statements and response time information (TOTAL, AVG, MIN, and MAX) for different loads in the entire database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_workload_transaction()

    Description: Obtains the transaction volume and time information on all nodes of the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_session_stat()

    Description: Obtains the session status information on all nodes of the database. To query this function, you must have the MONADMIN permission.

    Return type: record

    There are 14 status information items: commit, rollback, sql, table_scan, blocks_fetched, physical_read_operation, shared_blocks_dirtied, local_blocks_dirtied, shared_blocks_read, local_blocks_read, blocks_read_time, blocks_write_time, sort_imemory, and sort_idisk.

  • DBE_PERF.get_global_session_time()

    Description: Provides the time consumed in each key phase of each node in the entire database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_session_memory()

    Description: Displays statistics about memory usage at the session level on each node in the unit of MB, including all the memory allocated to GaussDB and stream threads on DNs for jobs currently executed by users. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_session_memory_detail()

    Description: Displays statistics about thread memory usage on each node by MemoryContext node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • create_wlm_session_info(int flag)

    Description: Clears top SQL query statement-level statistics recorded in the current memory. Only the administrator can execute this function.

    Return type: int

  • pg_stat_get_wlm_session_info(int flag)

    Description: Obtains top SQL query statement-level statistics recorded in the current memory. If the input parameter is not 0, the information is cleared from the memory. Only users with the SYSADMIN and MONADMIN permission can execute this function.

    Return type: record

  • gs_paxos_stat_replication()

    Description: Queries the standby node information on the primary node.

    Return type: SETOF record

    The following table describes return columns.

    Column

    Type

    Description

    local_role

    text

    Role of the node that sends logs

    peer_role

    text

    Role of the node that receives logs

    local_dcf_role

    text

    DCF role of the node that sends logs

    peer_dcf_role

    text

    DCF role of the node that receives logs

    peer_state

    text

    Status of the node that receives logs

    sender_write_location

    text

    Location in the Xlog buffer where the node that sends logs is written

    sender_commit_location

    text

    Consistency point reached for the DCF logs of the node that sends logs

    sender_flush_location

    text

    Location in the Xlog disk where the node that sends logs is written

    sender_replay_location

    text

    Location where the node that sends logs replays logs

    receiver_write_location

    text

    Location in the Xlog buffer where the node that receives logs is written

    receiver_commit_location

    text

    Consistency point reached for the DCF logs of the node that receives logs

    receiver_flush_location

    text

    Location in the Xlog disk where the node that receives logs is written

    receiver_replay_location

    text

    Location where the node that receives logs replays Xlogs

    sync_percent

    text

    Synchronization percentage

    dcf_run_mode

    int4

    DCF synchronization mode

    channel

    text

    Channel information

  • gs_wlm_get_resource_pool_info(int)

    Description: Obtains resource usage statistics of all users. The input parameter can be any value of the INT type or be null.

    Return type: record

  • gs_wlm_get_all_user_resource_info()

    Description: Obtains resource usage statistics of all users.

    Return type: record

  • gs_wlm_get_user_info(int)

    Description: Obtains information about all users. The input parameter is of the int type and can be any int value or NULL. Only users with the SYSADMIN permission can execute this function.

    Return type: record

  • gs_wlm_readjust_user_space(oid)

    Description: Corrects the storage space usage of all users. Only the administrator can execute this function.

    Return type: record

  • gs_wlm_readjust_user_space_through_username(text name)

    Description: Corrects the storage space usage of a specified user. Common users can use this function to modify only their own usage. Only the administrator can modify the usage of all users. If the value of name is 0000, the usage of all users needs to be modified.

    Return type: record

  • gs_wlm_readjust_user_space_with_reset_flag(text name, boolean isfirst)

    Description: Corrects the storage space usage of a specified user. If the input parameter isfirst is set to true, statistics are collected from 0. Otherwise, statistics are collected from the previous result. Common users can use this function to modify only their own usage. Only the administrator can modify the usage of all users. If the value of name is 0000, the usage of all users needs to be modified.

    Return type: record

  • gs_wlm_session_respool(bigint)

    Description: Obtains the session resource pool information about all backend threads. The input parameter can be any value of the bigint type or can be null.

    Return type: record

  • gs_wlm_get_session_info()

    Description: This API has been discarded and is unavailable currently.

  • gs_wlm_get_user_session_info()

    Description: This API has been discarded and is unavailable currently.

  • gs_io_wait_status()

    Description: This API does not support single-node systems or centralized systems and is unavailable currently.

  • global_stat_get_hotkeys_info()

    Description: Obtains the statistics on hot keys in the entire database instance. This API does not support single-node systems or centralized systems and is unavailable currently.

  • global_stat_clean_hotkeys()

    Description: Clears statistics on hot keys in the entire database instance. This API does not support single-node systems or centralized systems and is unavailable currently.

  • DBE_PERF.get_global_session_stat_activity()

    Description: Displays information about threads that are running on each node in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_thread_wait_status()

    Description: Displays the block waiting status of backend threads and auxiliary threads on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_operator_history_table()

    Description: Displays the operator-related records (persistent) generated after jobs are executed on the primary database node of the current user. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_operator_history()

    Description: Displays the operator-related records generated after jobs are executed on the primary database node of the current user. To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_operator_runtime()

    Description: Displays real-time operator-related records of jobs executed on the primary database node of the current user. To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statement_complex_history()

    Description: Displays the historical records of complex queries on the primary database node of the current user. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statement_complex_history_table()

    Description: Displays the historical records (persistent) of complex queries on the primary database node of the current user. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statement_complex_runtime()

    Description: Displays the real-time information of complex queries on the primary database node of the current user. To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_memory_node_detail()

    Description: Displays the memory usage of a certain database on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_shared_memory_detail()

    Description: Displays the usage information about all the shared memory contexts of all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_all_indexes()

    Description: Displays statistics about each index displayed in a row in the current database, showing I/O statistics about accesses to that specific index. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_all_tables()

    Description: Displays statistics about a row in each table (including the TOAST table) in the aggregated data of each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_all_tables()

    Description: Displays statistics about a row in each table (including the TOAST table) of data on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_local_toastname_and_toastindexname()

    Description: Provides the mapping between the name and index of the local TOAST table and its associated table. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_all_indexes()

    Description: Collects statistics about each index displayed in a row in the current databases of all nodes and displays the I/O statistics of a specific index. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_all_sequences()

    Description: Provides I/O status information about all sequences in the namespace. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_all_tables()

    Description: Displays the I/O statistics about each table in databases on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_all_tables()

    Description: Collects I/O statistics about each table in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_local_toast_relation()

    Description: Provides the mapping between the name of the local TOAST table and its associated table. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_sys_indexes()

    Description: Displays the I/O status information about all system catalog indexes in namespaces on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_sys_indexes()

    Description: Collects the I/O status information about all system catalog indexes in namespaces on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_sys_sequences()

    Description: Provides the I/O status information about all the system sequences in the namespace. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_sys_tables()

    Description: Provides I/O status information about all system catalogs in namespaces on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_sys_tables()

    Description: Displays the I/O status information of all system catalogs in the namespace in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_user_indexes()

    Description: Displays the I/O status information about all user relationship table indexes in namespaces on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_user_indexes()

    Description: Displays the I/O status information about all user relationship table indexes in namespaces in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_user_sequences()

    Description: Displays the I/O status information about all user sequences in the namespace of each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statio_user_tables()

    Description: Displays the I/O status information about all user relationship tables in namespaces on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statio_user_tables()

    Description: Displays the I/O status information about all user relationship tables in namespaces in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_all_indexes()

    Description: Displays statistics of each index in databases on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_all_indexes()

    Description: Collects statistics of each index in all databases on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_sys_tables()

    Description: Displays statistics about the system catalogs of all the namespaces in pg_catalog and information_schema schemas on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_sys_tables()

    Description: Collects statistics about the system catalogs of all the namespaces in pg_catalog and information_schema schemas on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_sys_indexes()

    Description: Displays index status information about all the system catalogs in the pg_catalog and information_schema schemas on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_sys_indexes()

    Description: Collects statistics about index status information about all the system catalogs in the pg_catalog and information_schema schemas on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_user_tables()

    Description: Displays the status information about customized ordinary tables in all namespaces. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_user_tables()

    Description: Collects statistics about the status information about customized ordinary tables in all namespaces. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_user_indexes()

    Description: Displays the status information about the index of customized ordinary tables in all databases. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_user_indexes()

    Description: Collects statistics about the status information about the index of customized ordinary tables in all databases. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_database()

    Description: Displays database statistics of all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_database_conflicts()

    Description: Collects statistics on the database of all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_xact_all_tables()

    Description: Displays transaction status information about all ordinary tables and TOAST tables in all namespaces. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_xact_all_tables()

    Description: Collects statistics about transaction status information about all ordinary tables and TOAST tables in all namespaces. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_xact_sys_tables()

    Description: Displays transaction status information about all system catalogs in namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_xact_sys_tables()

    Description: Collects statistics about transaction status information about all system catalogs in namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_xact_user_tables()

    Description: Displays the transaction status information of the user tables in the namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_stat_xact_user_tables()

    Description: Collects statistics about the transaction status information of the user tables in the namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_user_functions()

    Description: Displays the transaction status information of customized functions in the namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_xact_user_functions()

    Description: Collects statistics about the transaction status information of customized functions in the namespaces on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_stat_bad_block()

    Description: Displays information about table and index read failures on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_file_redo_iostat()

    Description: Collects statistics on information about table and index read failures on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_file_iostat()

    Description: Displays statistics about data file I/Os on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_locks()

    Description: Displays lock information of all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_replication_slots()

    Description: Displays logical replication information on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.GET_GLOBAL_PARALLEL_DECODE_STATUS()

    Description: Displays parallel decoding information of replication slots on the current node. To query this function, you must have the MONADMIN permission. The return value is the same as that of the view DBE_PERF.GLOBAL_PARALLEL_DECODE_STATUS.

    Return type: record

  • DBE_PERF.GET_GLOBAL_PARALLEL_DECODE_THREAD_INFO()

    Description: Displays parallel decoding thread information of replication slots on the current node. To query this function, you must have the MONADMIN permission. The return value is the same as that of the view DBE_PREF.GLOBAL_PARALLEL_DECODE_THREAD_INFO.

    Return type: record

  • DBE_PERF.get_global_bgwriter_stat()

    Description: Displays statistics about the backend writer process's activities on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_replication_stat()

    Description: Displays information about log synchronization status on each node, such as the locations where the sender sends logs and where the receiver receives logs. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_transactions_running_xacts()

    Description: Displays information about running transactions on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_transactions_running_xacts()

    Description: Collects statistics of information about running transactions on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_transactions_prepared_xacts()

    Description: Displays information about transactions that are currently prepared for two-phase commit on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_transactions_prepared_xacts()

    Description: Collects statistics information about transactions that are currently prepared for two-phase commit on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_statement()

    Description: Displays the status information of the historically executed statements on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_statement_count()

    Description: Displays the number of SELECT, UPDATE, INSERT, and DELETE statements and response time information (TOTAL, AVG, MIN, and MAX) on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_config_settings()

    Description: Displays the wait event status information on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_wait_events()

    Description: Displays the wait event status information on each node. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_statement_responsetime_percentile()

    Description: Obtains the response time distribution for 80% and 95% SQL statements of the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_summary_user_login()

    Description: Collects statistics about number of user login and logout times on each node in the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.get_global_record_reset_time()

    Description: Displays the statistics about reset (restart, primary/standby switchover, and database deletion) time of the database. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.standby_statement_history(only_slow[, time1, time2])

    Description: Queries full SQL statements on the standby node. The primary node queries full SQL statements using the statement_history table, while the standby node queries using this function. To query this function, you must have the MONADMIN permission.

    For details, see Table 9.

    Return type: record, which is the same as that in the statement_history table.

    Table 9 standby_statement_history parameters

    Parameter

    Type

    Description

    only_slow

    bool

    Specifies whether to query only slow SQL statements.

    true: yes, which is equivalent to select .. where is_slow_sql = true;.

    false or NULL indicates that all SQL statements are queried, that is, is_slow_sql is not used as a filtering condition.

    time1

    timestamptz

    Minimum time specified by finish_time for querying SQL statements. This parameter is optional.

    time2

    timestamptz

    Maximum time specified by finish_time for querying SQL statements. This parameter is optional.
    • The two time parameters time1 and time2 indicate the time segment to which finish_time of the queried SQL statement belongs. They indicate the start time and end time respectively. If NULL or no value is entered, there is no limit. The function of time1 and time2 is the same as that of select .. where finish_time between time1 and time2.
    • The data generated from this function on the standby node is not stored in a table, and there is no index on the start_time column. You are advised to use the parameter to search for finish_time.
    • Full/Slow SQL statements on the standby node are written to disks asynchronously. Therefore, the storage of user SQL information may be delayed. You are advised to query this API to expand the query time range.
  • DBE_PERF.track_memory_context(context_list text)

    Description: Sets the memory context whose memory application details need to be collected. The input parameter is the memory context names, which are separated by commas (,), for example, ThreadTopMemoryContext, SessionCacheMemoryContext. Note that the memory context names are context-sensitive. In addition, the length of a single memory context is 63, and the excess part is truncated. The maximum number of memory contexts that can be collected at a time is 16. If the number of memory contexts exceeds 16, the setting fails. Each time this function is called, the previous statistics result is cleared. When the input parameter is set to "", the statistics function is disabled. To query this function, you must have the MONADMIN permission.

    Return type: Boolean

  • DBE_PERF.track_memory_context_detail()

    Description: Obtains the memory application details of the memory context specified by the DBE_PERF.track_memory_context function. For details, see the DBE_PERF.track_memory_context_detail view. To query this function, you must have the MONADMIN permission.

    Return type: record

  • pg_stat_get_mem_mbytes_reserved(tid)

    Description: Collects statistics on variables related to resource management, which is used only for fault locating.

    Parameter: thread ID

    Return type: text

  • gs_wlm_user_resource_info(name text)

    Description: Queries a user's resource quota and resource usage.

    Return type: record

  • pg_stat_get_file_stat()

    Description: Records statistics about data file I/Os to indicate I/O performance and detect performance problems such as abnormal I/O operations.

    Return type: record

  • pg_stat_get_redo_stat()

    Description: Displays statistics on the replay of session thread logs.

    Return type: record

  • pg_stat_get_status(int8)

    Description: Tests the block waiting status about the backend thread and auxiliary thread of the current instance.

    Return type: record

  • get_local_rel_iostat()

    Description: Queries the accumulated I/O status of data files on the current node.

    Return type: record

  • DBE_PERF.get_global_rel_iostat()

    Description: Displays statistics about data file I/Os on all nodes. To query this function, you must have the MONADMIN permission.

    Return type: record

  • DBE_PERF.global_threadpool_status()

    Description: Displays the status of worker threads and sessions in thread pools on all nodes. The GLOBAL_THREADPOOL_STATUS column is returned by the function. To query the function, you must have the MONADMIN permission.

    Return type: record

  • pv_os_run_info()

    Description: Displays the running status of the current OS. For details about the columns, see GS_OS_RUN_INFO.

    Parameter: nan

    Return type: SETOF record

  • pv_session_stat()

    Description: Collects session status information by session thread or AutoVacuum thread. For details about the columns, see GS_SESSION_STAT.

    Parameter: nan

    Return type: SETOF record

  • pv_session_time()

    Description: Collects statistics on the running time of session threads and the time consumed in each execution phase. For details about the columns, see GS_SESSION_TIME.

    Parameter: nan

    Return type: SETOF record

  • pg_stat_get_db_temp_bytes()

    Description: Collects statistics on the total amount of data written to temporary files through database query. All temporary files are counted, regardless of why the temporary file was created, and regardless of the log_temp_files setting.

    Parameter: oid

    Return type: bigint

  • pg_stat_get_db_temp_files()

    Description: Queries the number of temporary files created in the database. All temporary files are counted, regardless of why the temporary file was created (for example, sorting or hashing), and regardless of the log_temp_files setting.

    Parameter: oid

    Return type: bigint

  • create_wlm_instance_statistics_info()

    Description: Saves the historical monitoring data of the current instance persistently.

    Parameter: nan

    Return type: integer

  • remote_candidate_stat()

    Description: Displays the checkpoint information and log flushing information about all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_ckpt_stat()

    Description: Displays the checkpoint information and log flushing information about all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_single_flush_dw_stat()

    Description: Displays the single-page doublewrite file status of all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_double_write_stat()

    Description: Displays doublewrite file status of all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_pagewriter_stat()

    Description: Displays the page flushing information and checkpoint information about all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_recovery_status()

    Description: Displays log flow control information about the primary and standby nodes (except the current node). Centralized systems are not supported.

    Return type: record

  • remote_redo_stat()

    Description: Displays the log replay status of all instances in the database (except the current node). Centralized systems are not supported.

    Return type: record

  • DBE_PERF.gs_stat_activity_timeout(int)

    Description: Obtains information about query jobs whose execution time exceeds the timeout threshold on the current node. The correct result can be returned only when the GUC parameter track_activities is set to on. The timeout threshold ranges from 0 to 2147483. To query this function, you must have the MONADMIN permission.

    Return type: SETOF record

    Name

    Type

    Description

    database

    name

    Name of the database to which a user session is connected

    pid

    bigint

    Backend thread ID

    sessionid

    bigint

    Session ID

    usesysid

    oid

    OID of the user logged in to the backend

    application_name

    text

    Name of the application connected to the backend

    query

    text

    Query that is being executed on the backend

    xact_start

    timestamptz

    Time when the current transaction is started

    query_start

    timestamptz

    Time when the current query starts For a stored procedure, function, or package, the first query time is queried and does not change with the running of statements in the stored procedure.

    query_id

    bigint

    Query statement ID
  • gs_wlm_user_resource_info(name text)

    Description: Queries a user's resource quota and resource usage. Common users can query only their own information. Administrators can query information about all users.

    Return type: record

  • create_wlm_instance_statistics_info

    Description: Saves the historical monitoring data of the current instance persistently.

    Parameter: nan

    Return type: integer

  • create_wlm_operator_info(int flag)

    Description: Clears top SQL operator-level statistics recorded in the current memory. If the input parameter is greater than 0, the information is archived to gs_wlm_operator_info. Otherwise, the information is not archived. Only users with the SYSADMIN permission can execute this function.

    Return type: int

  • GS_ALL_NODEGROUP_CONTROL_GROUP_INFO(text)
    Description: Provides Cgroup information for all logical database instances. Before calling this function, you need to specify the name of the logical database instance to be queried. For example, to query the Cgroup information of the installation logical database instance, run the following command: 
    1
    		 
    SELECT * FROM GS_ALL_NODEGROUP_CONTROL_GROUP_INFO('installation')

    Return type: record

    The following table describes return columns.

    Name

    Type

    Description

    name

    text

    Cgroup name.

    type

    text

    Cgroup type.

    gid

    bigint

    Cgroup ID.

    classgid

    bigint

    ID of the class Cgroup where a workload Cgroup belongs.

    class

    text

    Class Cgroup.

    workload

    text

    Workload Cgroup.

    shares

    bigint

    CPU quota allocated to the Cgroup.

    limits

    bigint

    Limit of CPU resources allocated to a Cgroup.

    wdlevel

    bigint

    Workload Cgroup level.

    cpucores

    text

    Information about the CPU cores used by a Cgroup.
  • gs_total_nodegroup_memory_detail

    Description: Returns information about the memory used by the current logical database, in MB.

    Return type: SETOF record

  • local_redo_time_count()

    Description: Returns the time consumption statistics on each process of each replayer thread on the current node (valid data exists only on the standby node).

    The return values are as follows:

    local_redo_time_count parameters

    Column

    Description

    thread_name

    Thread name.

    step1_total

    Total duration of step 1. The process of each thread is as follows:

    • Ultimate RTO:

      redo batch: obtains a log from a queue.

      redo manager: obtains a log from a queue.

      redo worker: obtains a log from a queue.

      trxn manager: reads a log from a queue.

      trxn worker: reads a log from a queue.

      read worker: reads an Xlog page (overall) from a file.

      read page worker: obtains a log from a queue.

      startup: obtains a log from a queue.

    • Parallel replay:

      page redo: obtains a log from a queue.

      startup: reads a log.

    step1_count

    Number of accumulated execution times of step 1.

    step2_total

    Total duration of step 2. The process of each thread is as follows:

    • Ultimate RTO:

      redo batch: processes logs (overall).

      redo manager: processes logs (overall).

      redo worker: processes logs (overall).

      trxn manager: processes logs (overall).

      trxn worker: processes logs (overall).

      read worker: specifies the time required for reading the Xlog page.

      read page worker: generates and sends LSN forwarders.

      startup: checks whether to replay to the specified position.

    • Parallel replay:

      page redo: processes logs (overall).

      startup: checks whether to replay to the specified position.

    step2_count

    Number of accumulated execution times of step 2.

    step3_total

    Total duration of step 3. The process of each thread is as follows:

    • Ultimate RTO:

      redo batch: updates the standby state.

      redo manager: processes data logs.

      redo worker: replays page logs (overall).

      trxn manager: updates the flushing LSN.

      trxn worker: replays logs.

      read worker: pushes the Xlog segment.

      read page worker: obtains a new item.

      startup: collects statistics on the wait time of delayed replay feature.

    • Parallel replay:

      page redo: updates the standby state.

      startup: collects statistics on the wait time of delayed replay feature.

    step3_count

    Number of accumulated execution times of step 3.

    step4_total

    Total duration of step 4. The process of each thread is as follows:

    • Ultimate RTO:

      redo batch: parses Xlogs.

      redo manager: processes DDL operations.

      redo worker: reads data pages.

      trxn manager: synchronizes the wait time.

      trxn worker: updates the LSN of the current thread.

      read page worker: stores logs in the distribution thread.

      startup: distributes logs (overall).

    • Parallel replay:

      page redo: replays undo logs.

      startup: distributes logs (overall).

    step4_count

    Number of accumulated execution times of step 4.

    step5_total

    Total duration of step 5. The process of each thread is as follows:

    • Ultimate RTO:

      redo batch: distributes to the redo manager.

      redo manager: distributes logs to redo workers.

      redo worker: replays data page logs.

      trxn manager: distributes data to the trxn worker.

      trxn worker: forcibly synchronizes the wait time.

      read page worker: updates the LSN of the current thread.

      startup: decodes logs.

    • Parallel replay:

      page redo: replays shared transaction logs.

      startup: replays logs.

    step5_count

    Number of accumulated execution times of step 5.

    step6_total

    Total duration of step 6. The process of each thread is as follows:

    • Ultimate RTO:

      redo worker: replays non-data page logs.

      trxn manager: updates global LSNs.

      redo manager: performs CRC verification for data page logs stored in hash tables.

    • Parallel replay:

      page redo: replays synctrxn logs.

      startup: forcibly synchronizes the wait time.

    step6_count

    Number of accumulated execution times of step 6.

    step7_total

    Total duration of step 7. The process of each thread is as follows:

    • Ultimate RTO:

      redo manager: creates tablespaces.

      redo worker: updates FSM.

    • Parallel replay:

      page redo: replays a single log.

    step7_count

    Number of accumulated execution times of step 7.

    step8_total

    Total duration of step 8. The process of each thread is as follows:

    • Ultimate RTO:

      redo worker: forcibly synchronizes the wait time.

    • Parallel replay:

      page redo: replays all workers do logs.

    step8_count

    Number of accumulated execution times of step 8.

    step9_total

    Total duration of step 9. The process of each thread is as follows:

    • Ultimate RTO:

      redo manager: distributes logs to the page redo thread.

    • Parallel replay:

      page redo: replays multi-worker do logs.

    step9_count

    Number of accumulated execution times of step 9.
  • local_xlog_redo_statics()

    Description: Returns the statistics on each type of logs that have been replayed on the current node (valid data exists only on the standby node).

    The return values are as follows:
    Table 10 local_xlog_redo_statics parameters

    Column

    Description

    xlog_type

    Log types.

    rmid

    Resource manager ID.

    info

    Xlog operation.

    num

    Number of logs.

    extra
    Valid values are available for page replay logs and xact logs.
    • Number of pages read from the disk if the log is of the page type.
    • Number of deleted files if the log is of the xact type.
  • gs_get_shared_memctx_detail(text)

    Description: Returns the memory application details of the specified memory context, including the file, line number, and size of each memory application (the size of the same line in the same file is accumulated). Only the memory context queried through the pg_shared_memory_detail view can be queried. The input parameter is the memory context name (that is, the contextname column in the result returned by the pg_shared_memory_detail view). To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: SETOF record

    Name

    Type

    Description

    file

    text

    Name of the file where the memory is applied for.

    line

    int8

    Line number of the code in the file where the requested memory is located.

    size

    int8

    Size of the applied memory. The value is accumulated if the memory is applied for multiple times in the same line of the same file.

    This view is not supported in the Lite release version.

  • gs_get_session_memctx_detail(text)

    Description: Returns the memory application details of the specified memory context, including the file, line number, and size of each memory application (the size of the same line in the same file is accumulated). This parameter is valid only in thread pool mode. Only the memory context queried through the gs_session_memory_context view can be queried. The input parameter is the memory context name (that is, the contextname column in the result returned by the gs_session_memory_context view). To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: SETOF record

    Name

    Type

    Description

    file

    text

    Name of the file where the memory is applied for.

    line

    int8

    Line number of the code in the file where the requested memory is located.

    size

    int8

    Size of the allocated memory, in bytes. The value is accumulated if the memory is allocated for multiple times to the same line of the same file.

    This view takes effect only in thread pool mode and is not supported in the Lite release version.

  • gs_get_history_memory_detail(cstring)

    Description: Queries historical memory snapshot information. The input parameter type is cstring. The value can be NULL or the name of the memory snapshot log file.

    1. If the value of the input parameter is NULL, the list of all memory snapshot log files on the current node is displayed.
    2. If the value of the input parameter is the name of the memory snapshot log file in the list queried in 1, the detailed information about the memory snapshot recorded in the log file is displayed.
    3. If you enter any other input parameter, the system displays a message indicating that the input parameter is incorrect or the file fails to be opened.

    To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: text

    Name

    Type

    Description

    memory_info

    text

    Memory information. If the input parameter of the function is set to NULL, the memory snapshot file list is displayed. If the input parameter is set to the name of the memory snapshot file, the content of the file is displayed.
  • gs_stack()

    Description: Displays the call stack of a thread. To query this function, you must have the SYSADMIN or MONADMIN permission.

    Parameter: tid, which indicates the thread ID. tid is an optional parameter. If it is specified, the function returns the call stack of the thread corresponding to tid. If it is not specified, the function returns the call stacks of all threads.

    Return value: If tid is specified, the return value is of the TEXT type. If tid is not specified, the return value is a SETOF record.

    Example:

    Run select * from gs_stack(pid) to obtain the call stack of a specified thread. 
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    gaussdb=# select * from gs_stack(139663481165568);
                              gs_stack
--------------------------------------------------------------------
 __poll + 0x2d                                                     +
 WaitLatchOrSocket(Latch volatile*, int, int, long) + 0x29f        +
 WaitLatch(Latch volatile*, int, long) + 0x2e                      +
 JobScheduleMain() + 0x90f                                         +
 int GaussDbThreadMain<(knl_thread_role)9>(knl_thread_arg*) + 0x456+
 InternalThreadFunc(void*) + 0x2d                                  +
 ThreadStarterFunc(void*) + 0xa4                                   +
 start_thread + 0xc5                                               +
 clone + 0x6d                                                      +
(1 row)
    Run select * from gs_stack() to obtain the call stacks of all threads. 
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    gaussdb=# select * from gs_stack();
-[ RECORD 1 ]-------------------------------------------------------------------------------------------------------
tid   | 139670364324352
lwtid | 308
stack | __poll + 0x2d
      | CommWaitPollParam::caller(int (*)(pollfd*, unsigned long, int), unsigned long) + 0x34
      | int comm_socket_call<CommWaitPollParam, int (*)(pollfd*, unsigned long, int)>(CommWaitPollParam*, int (*)(pollfd*, unsigned long
, int)) + 0x28
      | comm_poll(pollfd*, unsigned long, int) + 0xb1
      | ServerLoop() + 0x72b
      | PostmasterMain(int, char**) + 0x314e
      | main + 0x617
      | __libc_start_main + 0xf5
      | 0x55d38f8db3a7
[ RECORD 2 ]-------------------------------------------------------------------------------------------------------
tid   | 139664851859200
lwtid | 520
stack | __poll + 0x2d
      | WaitLatchOrSocket(Latch volatile*, int, int, long) + 0x29f
      | SysLoggerMain(int) + 0xc86
      | int GaussDbThreadMain<(knl_thread_role)17>(knl_thread_arg*) + 0x45d
      | InternalThreadFunc(void*) + 0x2d
      | ThreadStarterFunc(void*) + 0xa4
      | start_thread + 0xc5
      | clone + 0x6d
  • gs_get_thread_memctx_detail(tid,text)

    Description: Returns the memory application details of the specified memory context, including the file, line number, and size of each memory application (the size of the same line in the same file is accumulated). Only the memory context queried through the gs_thread_memory_context view is supported. The first input parameter is the thread ID (the tid column of the data returned by the gs_thread_memory_context), and the second parameter is the memory context name (the contextname column of the data returned by gs_thread_memory_context). To query this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: SETOF record

    Name

    Type

    Description

    file

    text

    Name of the file where the memory is applied for.

    line

    int8

    Line number of the code in the file where the requested memory is located.

    size

    int8

    Size of the allocated memory, in bytes. The value is accumulated if the memory is allocated for multiple times to the same line of the same file.

    This view is not supported in the Lite release version.

  • gs_tpworker_execstmt_stat()

    Description: Displays the runtime information of a statement. If the SYSADMIN or MONADMIN user runs the statement, the information about all the statements that are being executed is displayed. Common users can query only the information about the SQL statements executed by themselves.

    Return type: SETOF record

    Name

    Type

    Description

    db_oid

    oid

    OID of the database that the user session connects to in the backend.

    db_name

    name

    Name of the database that the user session connects to in the backend

    threadpool_worker

    varchar

    NUMA group to which a thread belongs and thread ID. The format is numagroup_threadid.

    thread_id

    bigint

    Thread ID.

    session_id

    bigint

    Session ID

    query_id

    bigint

    ID of the SQL statement that is being executed

    query_text

    text

    Content of the SQL statement that is being executed

    unique_sql_id

    bigint

    Unique ID generated by the SQL statement

    client_hostname

    text

    Host name of the connected client, as reported by a reverse DNS lookup of client_addr. This column will be non-null only for IP connections and only when log_hostname is enabled.

    client_app_name

    text

    Name of the client app

    stmt_slow_time_threshold

    int

    Preset timeout interval for marking an SQL statement as a slow SQL statement, in milliseconds

    stmt_start_time

    timestamp with time zone

    Time when the statement starts to be executed For a stored procedure, function, or package, the first query time is queried and does not change with the running of statements in the stored procedure.

    stmt_elapse_time

    int

    Time elapsed since the query starts

    stmt_control_status

    varchar
    Current statement state.
    • Waiting: The session access is successful but it is not executed by the thread.
    • Running: The current statement is executed properly.
    • Control: The current statement enters the resource control phase.

    stmt_control_rule

    text

    Slow SQL control rule corresponding to the current language

    stmt_control_iostat

    text

    IOPS value and maximum IOPS of the current statement The format is as follows:

    curVal/maxVal

    stmt_control_memstat

    text

    This field is reserved and is not supported currently.

    stmt_control_cpustat

    text

    This field is reserved and is not supported currently.

    stmt_control_netstat

    text

    This field is reserved and is not supported currently.
  • gs_tpworker_execslot_stat()

    Description: Displays the thread running information. If the SYSADMIN or MONADMIN user runs the command, information about all threads is displayed. Common users can query only information about the threads where the SQL statements executed by themselves are located.

    Return type: SETOF record

    Name

    Type

    Description

    numagroup

    int

    NUMA group to which the current thread belongs

    worker_id

    int

    Thread ID of the current thread

    worker_bind_type

    text

    Thread binding mode. The value can be numabind, cpubind, allbind, or nobind.

    worker_cpu_affinity

    text

    Affinity between threads and CPU cores, that is, the range of CPU cores that can be scheduled by threads.

    worker_status

    varchar
    Current thread status:
    • Waiting: The session access is successful but it is not executed by the thread.
    • Running: The current statement is executed properly.
    • Control: The current statement enters the resource control phase.

    served_query_id

    bigint

    ID of the SQL statement that is being executed

    served_query_text

    text

    Content of the SQL statement that is being executed
  • gs_session_all_settings(sessionid bigint)

    Description: Queries the full GUC parameter settings of the session corresponding to the session ID on the local node. To execute this function, you must have the SYSADMIN or MONADMIN permission.

    Input parameter description: sessionid indicates the session ID.

    Return type: SETOF record

    The following table describes return fields.

    Name

    Type

    Description

    name

    text

    Parameter name

    setting

    text

    Current parameter value

    unit

    text

    Implicit unit of a parameter

    Example:

    gaussdb=# select sessionid from pg_stat_activity where usename = 'testuser';
 sessionid
-----------
    788861
(1 row)

gaussdb=# select * from gs_session_all_settings(788861) where name = 'work_mem';
   name   | setting | unit
----------+---------+------
 work_mem | 131072  | kB
(1 row)
  • gs_session_all_settings()

    Description: Queries full GUC parameter settings of all sessions on the local node. To execute this function, you must have the SYSADMIN or MONADMIN permission.

    Return type: SETOF record

    Name

    Type

    Description

    sessionid

    bigint

    Session ID

    pid

    bigint

    Backend thread ID

    name

    text

    Parameter name

    setting

    text

    Current parameter value

    unit

    text

    Implicit unit of a parameter

    Example:

    gaussdb=# select * from gs_session_all_settings() where name = 'work_mem';
    sessionid    |       pid       |   name   | setting | unit
-----------------+-----------------+----------+---------+------
 140550214145792 |           96974 | work_mem | 65536   | kB
 140550214145792 |           96971 | work_mem | 65536   | kB
 140549731735296 | 140549731735296 | work_mem | 65536   | kB
 140549764413184 | 140549764413184 | work_mem | 65536   | kB
(4 rows)
  • gs_local_wal_preparse_statistics()

    Description: Queries the latest startup of the log pre-parsing thread on the local node as well as the pre-parsing logs. Only the user with the SYSADMIN permission can execute this function.

    Return type: SETOF record

    Name

    Type

    Description

    preparser_term

    text

    Maximum term value obtained from the latest pre-parsing log.

    preparser_start_time

    timestamptz

    Time when the latest pre-parsing is started.

    preparser_end_time

    timestamptz

    End time of the latest pre-parsing.

    preparser_start_location

    text

    Start position of the latest pre-parsing log.

    preparser_end_location

    text

    End position of the latest pre-parsing log.

    preparser_total_bytes

    int8

    Number of latest pre-parsed logs, in bytes.

    preparser_speed

    int8

    Latest pre-parsing speed, in bytes/ms.

    is_valid

    bool

    Specifies whether the latest pre-parsing result can be used for leader selection.
    Example: 
    gaussdb=# select * from gs_local_wal_preparse_statistics();
 preparser_term |     preparser_start_time      |      preparser_end_time       | preparser_start_location | preparser_end_location | preparser_total_bytes | preparser_speed | is_valid 
----------------+-------------------------------+-------------------------------+--------------------------+------------------------+-----------------------+-----------------+----------
 3107           | 2023-02-01 17:04:23.367946+08 | 2023-02-01 17:04:25.354434+08 | 00000003/C3EEA660        | 00000004/0BE60738      |            1207394520 |      1207394520 | f
(1 row)
  • gs_hot_standby_space_info()

    Description: Queries the total number and total size of files in the standby_read/base_page, standby_read/block_info_meta and standby_read/lsn_info_meta folders.

    Return type: SETOF record

    Name

    Type

    Description

    base_page_file_num

    xid

    Total number of bage_page_files.

    base_page_total_size

    xid

    Total size of bage_page_files.

    lsn_info_meta_file_num

    xid

    Total number of lsn_info_meta_files.

    lsn_info_meta_total_size

    xid

    Total size of the lsn_info_meta_files.

    block_info_meta_file_num

    xid

    Total number of block_info_meta_files.

    block_info_meta_total_size

    xid

    Total size of the block_info_meta_files.

    Example:

    gaussdb=# select * from gs_hot_standby_space_info();
 base_page_file_num | base_page_total_size | lsn_info_meta_file_num | lsn_info_meta_total_size | block_info_meta_file_num | block_info_meta_total_size
--------------------+----------------------+------------------------+--------------------------+--------------------------+----------------------------
                  6 |               163840 |                      6 |                     3136 |                       16 |                     147456
(1 row)
  • exrto_file_read_stat()

    Description: Queries the number of disk access times and total access latency of new base page files, lsn info meta files, and block info meta files read by the standby node. Connect to the standby DN for query. In other cases, the query result is 0.

    Return type: SETOF record

    Name

    Type

    Description

    lsn_info_page_disk_read_counter

    int8

    Number of disk access times of lsn info meta files

    lsn_info_page_disk_read_dur

    int8

    Total latency of lsn info meta file access to disks.

    blk_info_meta_disk_read_counter

    int8

    Number of disk access times of block info meta files

    blk_info_meta_disk_read_dur

    int8

    Total latency of block info meta file access to disks.

    base_page_read_disk_counter

    int8

    Number of disk access times of base page files

    base_page_read_disk_dur

    int8

    Total latency of base page file access to disks.

    Example:

    gaussdb=# SELECT * FROM exrto_file_read_stat();
 lsn_info_page_disk_read_counter | lsn_info_page_disk_read_dur | blk_info_meta_disk_read_counter | blk_info_meta_disk_read_dur | base_page_read_disk_counter | base_page_read_disk_dur
---------------------------------+-----------------------------+---------------------------------+-----------------------------+-----------------------------+-------------------------
                           14987 |                       92313 |                           23879 |                      129811 |                           0 |                       0
(1 row)

  • gs_exrto_recycle_info()

    Description: Queries the resource reclamation location, including the reclamation LSN of each thread, global reclamation LSN, and the earliest snapshot LSN of a query thread. Connect to the standby DN for query. In other cases, the query result is 0.

    Return type: SETOF record

    Name

    Type

    Description

    page_redo_worker_thread_id

    text

    Reclamation LSN location of redo thread. thread_id indicates the redo thread ID.

    global_recycle_lsn

    text

    LSN of global reclamation location

    exrto_snapshot_oldest_lsn

    text

    The earliest snapshot LSN of a query thread

    Example:

    gaussdb=# SELECT * FROM gs_exrto_recycle_info();
            thread_id             | recycle_lsn
----------------------------------+-------------
 page_redo_worker_140148895381248 | 0/7B4552E0
 page_redo_worker_140148872312576 | 0/7B4535B8
 global_recycle_lsn               | 0/7B4535B8
 exrto_snapshot_oldest_lsn        | 0/8488E6D0
(4 rows)
  • gs_stat_get_db_conflict_all(oid)

    Input parameter: dbid(oid) indicates the database OID.

    Description: Queries the number of sent replay conflict signals of different types.

    Return type: SETOF record

    Name

    Type

    Description

    conflict_all

    int8

    Number of sent replay conflict signals

    conflict_tablespace

    int8

    Number of sent replay conflict signals of the tablespace type

    conflict_lock

    int8

    Number of sent replay conflict signals of the lock type

    conflict_snapshot

    int8

    Number of sent replay conflict signals of the snapshot type

    conflict_bufferpin

    int8

    Number of sent replay conflict signals of the bufferpin type

    conflict_startup_deadlock

    int8

    Number of sent replay conflict signals of the startup_deadlock type

    conflict_truncate

    int8

    Number of sent replay conflict signals of the truncate type

    conflict_standby_query_timeout

    int8

    Number of sent replay conflict signals of the standby_query_timeout type

    conflict_force_recycle

    int8

    Number of sent replay conflict signals of the force_recycle type
    Example: 
    gaussdb=# SELECT * FROM gs_stat_get_db_conflict_all(12738);
 conflict_all | conflict_tablespace | conflict_lock | conflict_snapshot | conflict_bufferpin | conflict_startup_deadlock | conflict_truncate | conflict_standby_query_timeout | conflict_force_recycle 
--------------+---------------------+---------------+-------------------+--------------------+---------------------------+-------------------+--------------------------------+------------------------
            0 |                   0 |             0 |                 0 |                  0 |                         0 |                 0 |                              0 |                      0
(1 row)
  • gs_redo_stat_info()

    Description: Queries redo information, including the buffer hit ratio of the redo thread, number of unlink_rels files executed, wait event information of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario, and wait event information of wal_read_from_write_buffer. The query must be executed by connecting to the standby DN.

    Return type: SETOF record

    Name

    Type

    Description

    buffer_hit_rate

    float8

    Buffer hit ratio of the redo thread.

    ddl_unlink_nrels_count

    int8

    Number of unlink rel files executed during the redo process of DDL statements.

    read_buffer_io_counter

    int8

    Number of wait events of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario.

    read_buffer_io_total_dur

    int8

    Total wait event duration of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario.

    read_buffer_io_avg_dur

    int8

    Average wait event duration of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario.

    read_buffer_io_min_dur

    int8

    Minimum wait event duration of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario.

    read_buffer_io_max_dur

    int8

    Maximum wait event duration of I/O operations generated when the redo thread reads the buffer in the ultimate RTO scenario.

    read_wal_buf_counter

    int8

    Number of wait events triggered by wal_read_from_write_buffer in the ultimate RTO scenario.

    read_wal_buf_total_dur

    int8

    Total wait event duration of wal_read_from_write_buffer in the ultimate RTO scenario.

    read_wal_buf_avg_dur

    int8

    Average wait event duration of wal_read_from_write_buffer in the ultimate RTO scenario.

    read_wal_buf_min_dur

    int8

    Minimum wait event duration of wal_read_from_write_buffer in the ultimate RTO scenario.

    read_wal_buf_max_dur

    int8

    Maximum wait event duration of wal_read_from_write_buffer in the ultimate RTO scenario.

    Example:

    gaussdb=# SELECT * FROM gs_redo_stat_info();
-[ RECORD 1 ]------------+----------
buffer_hit_rate          | 70.5707
ddl_unlink_nrels_count   | 3
read_buffer_io_counter   | 1732
read_buffer_io_total_dur | 2850806
read_buffer_io_avg_dur   | 1645
read_buffer_io_min_dur   | 3
read_buffer_io_max_dur   | 981639
read_wal_buf_counter     | 9779
read_wal_buf_total_dur   | 193612470
read_wal_buf_avg_dur     | 19798
read_wal_buf_min_dur     | 3
read_wal_buf_max_dur     | 1914777
  • gs_recovery_conflict_waitevent_info()

    Description: Queries wait event information about the function that processes redo conflicts. The query must be executed by connecting to the standby DN.

    Return type: SETOF record

    Name

    Type

    Description

    conflict_lock_counter

    int8

    Number of times that LOCK redo conflicts are triggered.

    conflict_lock_total_dur

    int8

    Total duration for processing LOCK redo conflicts.

    conflict_lock_avg_dur

    int8

    Average duration for processing LOCK redo conflicts.

    conflict_lock_min_dur

    int8

    Minimum duration for processing LOCK redo conflicts.

    conflict_lock_max_dur

    int8

    Maximum duration for processing LOCK redo conflicts.

    conflict_snapshot_counter

    int8

    Number of times that SNAPSHOT redo conflicts are triggered.

    conflict_snapshot_total_dur

    int8

    Total duration for processing SNAPSHOT redo conflicts.

    conflict_snapshot_avg_dur

    int8

    Average duration for processing SNAPSHOT redo conflicts.

    conflict_snapshot_min_dur

    int8

    Minimum duration for processing SNAPSHOT redo conflicts.

    conflict_snapshot_max_dur

    int8

    Maximum duration for processing SNAPSHOT redo conflicts.

    conflict_tablespace_counter

    int8

    Number of times that TABLESPACE redo conflicts are triggered.

    conflict_tablespace_total_dur

    int8

    Total duration for processing TABLESPACE redo conflicts.

    conflict_tablespace_avg_dur

    int8

    Average duration for processing TABLESPACE redo conflicts.

    conflict_tablespace_min_dur

    int8

    Minimum duration for processing TABLESPACE redo conflicts.

    conflict_tablespace_max_dur

    int8

    Maximum duration for processing TABLESPACE redo conflicts.

    conflict_database_counter

    int8

    Number of times that DATABASE redo conflicts are triggered.

    conflict_database_total_dur

    int8

    Total duration for processing DATABASE redo conflicts.

    conflict_database_avg_dur

    int8

    Average duration for processing DATABASE redo conflicts.

    conflict_database_min_dur

    int8

    Minimum duration for processing DATABASE redo conflicts.

    conflict_database_max_dur

    int8

    Maximum duration for processing DATABASE redo conflicts.

    conflict_truncate_counter

    int8

    Number of times that TRUNCATE redo conflicts are triggered.

    conflict_truncate_total_dur

    int8

    Total duration for processing TRUNCATE redo conflicts.

    conflict_truncate_avg_dur

    int8

    Average duration for processing TRUNCATE redo conflicts.

    conflict_truncate_min_dur

    int8

    Minimum duration for processing TRUNCATE redo conflicts.

    conflict_truncate_max_dur

    int8

    Maximum duration for processing TRUNCATE redo conflicts.

    conflict_standby_query_timeout_counter

    int8

    Number of times that STANDBY_QUERY_TIMEOUT redo conflicts are triggered.

    conflict_standby_query_timeout_total_dur

    int8

    Total duration for processing STANDBY_QUERY_TIMEOUT redo conflicts.

    conflict_standby_query_timeout_avg_dur

    int8

    Average duration for processing STANDBY_QUERY_TIMEOUT redo conflicts.

    conflict_standby_query_timeout_min_dur

    int8

    Minimum duration for processing STANDBY_QUERY_TIMEOUT redo conflicts.

    conflict_standby_query_timeout_max_dur

    int8

    Maximum duration for processing STANDBY_QUERY_TIMEOUT redo conflicts.

    conflict_force_recycle_counter

    int8

    Number of times that FORCE_RECYCLE redo conflicts are triggered.

    conflict_force_recycle_total_dur

    int8

    Total duration for processing FORCE_RECYCLE redo conflicts.

    conflict_force_recycle_avg_dur

    int8

    Average duration for processing FORCE_RECYCLE redo conflicts.

    conflict_force_recycle_min_dur

    int8

    Minimum duration for processing FORCE_RECYCLE redo conflicts.

    conflict_force_recycle_max_dur

    int8

    Maximum duration for processing FORCE_RECYCLE redo conflicts.

    Example:

    gaussdb=# SELECT * FROM gs_recovery_conflict_waitevent_info();
-[ RECORD 1 ]----------------------------+------
conflict_lock_counter                    | 0
conflict_lock_total_dur                  | 0
conflict_lock_avg_dur                    | 0
conflict_lock_min_dur                    | 0
conflict_lock_max_dur                    | 0
conflict_snapshot_counter                | 0
conflict_snapshot_total_dur              | 0
conflict_snapshot_avg_dur                | 0
conflict_snapshot_min_dur                | 0
conflict_snapshot_max_dur                | 0
conflict_tablespace_counter              | 0
conflict_tablespace_total_dur            | 0
conflict_tablespace_avg_dur              | 0
conflict_tablespace_min_dur              | 0
conflict_tablespace_max_dur              | 0
conflict_database_counter                | 0
conflict_database_total_dur              | 0
conflict_database_avg_dur                | 0
conflict_database_min_dur                | 0
conflict_database_max_dur                | 0
conflict_truncate_counter                | 6
conflict_truncate_total_dur              | 35872
conflict_truncate_avg_dur                | 5978
conflict_truncate_min_dur                | 5130
conflict_truncate_max_dur                | 7459
conflict_standby_query_timeout_counter   | 0
conflict_standby_query_timeout_total_dur | 0
conflict_standby_query_timeout_avg_dur   | 0
conflict_standby_query_timeout_min_dur   | 0
conflict_standby_query_timeoutmax_dur    | 0
conflict_force_recycle_counter           | 0
conflict_force_recycle_total_dur         | 0
conflict_force_recycle_avg_dur           | 0
conflict_force_recycle_min_dur           | 0
conflict_force_recycle_max_dur           | 0
  • gs_display_delay_ddl_info()

    Description: Views information about files that are delayed for deletion on the standby node.

    Return type: SETOF record

    Name

    Type

    Description

    type

    INT4

    Indicates that the deleted object is a table or database.

    lsn

    TEXT

    Marks the location of a particular log file.

    tablespace

    INT4

    Indicates the physical space for storing tables and indexes in a database.

    database

    INT4

    Indicates the physical storage location of a database.

    relation

    INT4

    Indicates the object in a database, which can be the physical location of a table, view, or index.

    bucketid

    INT4

    Specifies the bucket to which the relationship object belongs.

    opt

    INT4

    Indicates the attribute of a compressed table.

    forknum

    INT4

    Specifies a suffix name for a subject name. You can find a unique physical file based on the subject name and suffix name.
    Example: 
    gaussdb=# SELECT * FROM gs_display_delay_ddl_info();
 type | lsn | tablespace | database | relation | bucketid | opt | forknum 
------+-----+------------+----------+----------+----------+-----+---------
(0 rows)

Functions for Collecting Statistics in Partitioned Tables

  • gs_stat_get_partition_stats(oid)

    Description: Obtains the statistics of a specific partition.

    Return type: record

  • gs_stat_get_xact_partition_stats(oid)

    Description: Obtains transaction statistics of a specific partition.

    Return type: record

  • gs_stat_get_all_partitions_stats()

    Description: Obtains the statistics of all partitions.

    Return type: SETOF record

  • gs_stat_get_xact_all_partitions_stats()

    Description: Obtains transaction statistics of all partitions.

    Return type: SETOF record

  • gs_statio_get_all_partitions_stats()

    Description: Obtains the I/O statistics of all partitions.

    Return type: SETOF record

    Examples of the preceding five functions

    Statistics are reported asynchronously during execution. Based on UDP, delay and packet loss may occur during background thread processing. The following example is for reference only.

    Querying out-of-transaction statistics

    gaussdb=# CREATE TABLE part_tab1
gaussdb-# (
gaussdb(#     a int, b int
gaussdb(# )
gaussdb-# PARTITION BY RANGE(b)
gaussdb-# (
gaussdb(#     PARTITION P1 VALUES LESS THAN(10),
gaussdb(#     PARTITION P2 VALUES LESS THAN(20),
gaussdb(#     PARTITION P3 VALUES LESS THAN(MAXVALUE)
gaussdb(# );
CREATE TABLE
gaussdb=# CREATE TABLE subpart_tab1
gaussdb-# (
gaussdb(#     month_code VARCHAR2 ( 30 ) NOT NULL ,
gaussdb(#     dept_code  VARCHAR2 ( 30 ) NOT NULL ,
gaussdb(#     user_no    VARCHAR2 ( 30 ) NOT NULL ,
gaussdb(#     sales_amt  int
gaussdb(# )
gaussdb-# PARTITION BY RANGE (month_code) SUBPARTITION BY RANGE (dept_code)
gaussdb-# (
gaussdb(#   PARTITION p_201901 VALUES LESS THAN( '201903' )
gaussdb(#   (
gaussdb(#     SUBPARTITION p_201901_a VALUES LESS THAN( '2' ),
gaussdb(#     SUBPARTITION p_201901_b VALUES LESS THAN( '3' )
gaussdb(#   ),
gaussdb(#   PARTITION p_201902 VALUES LESS THAN( '201904' )
gaussdb(#   (
gaussdb(#     SUBPARTITION p_201902_a VALUES LESS THAN( '2' ),
gaussdb(#     SUBPARTITION p_201902_b VALUES LESS THAN( '3' )
gaussdb(#   )
gaussdb(# );
CREATE TABLE
gaussdb=# CREATE INDEX index_part_tab1 ON part_tab1(b) LOCAL
gaussdb-# (
gaussdb(# PARTITION b_index1,
gaussdb(# PARTITION b_index2,
gaussdb(# PARTITION b_index3
gaussdb(# );
CREATE INDEX
gaussdb=# CREATE INDEX idx_user_no ON subpart_tab1(user_no) LOCAL;
CREATE INDEX
gaussdb=# INSERT INTO part_tab1 VALUES(1, 1);
INSERT 0 1
gaussdb=# INSERT INTO part_tab1 VALUES(1, 11);
INSERT 0 1
gaussdb=# INSERT INTO part_tab1 VALUES(1, 21);
INSERT 0 1
gaussdb=# UPDATE part_tab1 SET a = 2 WHERE b = 1;
UPDATE 1
gaussdb=# UPDATE part_tab1 SET a = 3 WHERE b = 11;
UPDATE 1
gaussdb=# UPDATE /*+ indexscan(part_tab1) */ part_tab1 SET a = 4 WHERE b = 21;
UPDATE 1
gaussdb=# DELETE FROM part_tab1;
DELETE 3
gaussdb=# ANALYZE part_tab1;
ANALYZE
gaussdb=# VACUUM part_tab1;
VACUUM
gaussdb=# INSERT INTO subpart_tab1 VALUES('201902', '1', '1', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201902', '2', '2', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201903', '1', '3', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201903', '2', '4', 1);
INSERT 0 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 2 WHERE user_no='1';
UPDATE 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 3 WHERE user_no='2';
UPDATE 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 4 WHERE user_no='3';
UPDATE 1
gaussdb=# UPDATE /*+ indexscan(subpart_tab1) */ subpart_tab1 SET sales_amt = 5 WHERE user_no='4';
UPDATE 1
gaussdb=# DELETE FROM subpart_tab1;
DELETE 4
gaussdb=# ANALYZE subpart_tab1;
ANALYZE
gaussdb=# VACUUM subpart_tab1;
VACUUM
gaussdb=# SELECT * FROM gs_stat_all_partitions;
 partition_oid | schemaname |   relname    | partition_name | sub_partition_name | seq_scan | seq_tup_read | idx_scan | idx_tup_fetch | n_tup_ins | n_tup_upd | n_tup_del | n_tup_hot_upd | n_live_tup |
 n_dead_tup |          last_vacuum          |    last_autovacuum     |         last_analyze          |    last_autoanalyze    | vacuum_count | autovacuum_count | analyze_count | autoanalyze_count 
---------------+------------+--------------+----------------+--------------------+----------+--------------+----------+---------------+-----------+-----------+-----------+---------------+------------+
------------+-------------------------------+------------------------+-------------------------------+------------------------+--------------+------------------+---------------+-------------------
         16964 | public     | subpart_tab1 | p_201902       | p_201902_b         |        5 |            1 |        4 |             1 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:45.293965+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:44.688861+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16963 | public     | subpart_tab1 | p_201902       | p_201902_a         |        5 |            1 |        4 |             0 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:45.291022+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:44.688843+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16961 | public     | subpart_tab1 | p_201901       | p_201901_b         |        5 |            1 |        4 |             0 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:45.288037+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:44.688829+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16960 | public     | subpart_tab1 | p_201901       | p_201901_a         |        5 |            1 |        4 |             0 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:45.285311+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:44.688802+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16954 | public     | part_tab1    | p3             |                    |        2 |            1 |        1 |             1 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:29.490636+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:28.540115+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16953 | public     | part_tab1    | p2             |                    |        4 |            1 |        1 |             0 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:29.487914+08 | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:28.540098+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
         16952 | public     | part_tab1    | p1             |                    |        5 |            1 |        1 |             0 |         1 |         1 |         1 |             1 |          0 |
          1 | 2023-05-15 20:36:29.48536+08  | 2000-01-01 08:00:00+08 | 2023-05-15 20:36:28.540071+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0
(7 rows)

gaussdb=# SELECT * FROM gs_statio_all_partitions;
 partition_oid | schemaname |   relname    | partition_name | sub_partition_name | heap_blks_read | heap_blks_hit | idx_blks_read | idx_blks_hit | toast_blks_read | toast_blks_hit | tidx_blks_read | t
idx_blks_hit 
---------------+------------+--------------+----------------+--------------------+----------------+---------------+---------------+--------------+-----------------+----------------+----------------+--
-------------
         16964 | public     | subpart_tab1 | p_201902       | p_201902_b         |              4 |             8 |             2 |           21 |                 |                |                |  

         16963 | public     | subpart_tab1 | p_201902       | p_201902_a         |              4 |             8 |             2 |           21 |                 |                |                |  

         16961 | public     | subpart_tab1 | p_201901       | p_201901_b         |              4 |             8 |             2 |           21 |                 |                |                |  

         16960 | public     | subpart_tab1 | p_201901       | p_201901_a         |              4 |             8 |             2 |           21 |                 |                |                |  

         16954 | public     | part_tab1    | p3             |                    |              4 |             8 |             2 |           15 |                 |                |                |  

         16953 | public     | part_tab1    | p2             |                    |              4 |             8 |             2 |           15 |                 |                |                |  

         16952 | public     | part_tab1    | p1             |                    |              4 |             8 |             2 |           15 |                 |                |                |  

(7 rows)

gaussdb=# SELECT * FROM gs_stat_get_partition_stats(16952);
 partition_oid | seq_scan | seq_tup_read | idx_scan | idx_tup_fetch | n_tup_ins | n_tup_upd | n_tup_del | n_tup_hot_upd | n_live_tup | n_dead_tup |         last_vacuum          |    last_autovacuum   
  |         last_analyze          |    last_autoanalyze    | vacuum_count | autovacuum_count | analyze_count | autoanalyze_count |   last_data_changed    | heap_blks_read | heap_blks_hit | idx_blks_re
ad | idx_blks_hit | tup_fetch | block_fetch 
---------------+----------+--------------+----------+---------------+-----------+-----------+-----------+---------------+------------+------------+------------------------------+----------------------
--+-------------------------------+------------------------+--------------+------------------+---------------+-------------------+------------------------+----------------+---------------+------------
---+--------------+-----------+-------------
         16952 |        5 |            1 |        1 |             0 |         1 |         1 |         1 |             1 |          0 |          1 | 2023-05-15 20:36:29.48536+08 | 2000-01-01 08:00:00+0
8 | 2023-05-15 20:36:28.540071+08 | 2000-01-01 08:00:00+08 |            1 |                0 |             1 |                 0 | 2000-01-01 08:00:00+08 |              4 |             8 |            
 2 |           21 |         0 |          12
(1 row)

    Querying statistics within a transaction

    gaussdb=# BEGIN;
BEGIN
gaussdb=# INSERT INTO part_tab1 VALUES(1, 1);
INSERT 0 1
gaussdb=# INSERT INTO part_tab1 VALUES(1, 11);
INSERT 0 1
gaussdb=# INSERT INTO part_tab1 VALUES(1, 21);
INSERT 0 1
gaussdb=# UPDATE part_tab1 SET a = 2 WHERE b = 1;
UPDATE 1
gaussdb=# UPDATE part_tab1 SET a = 3 WHERE b = 11;
UPDATE 1
gaussdb=# UPDATE /*+ indexscan(part_tab1) */ part_tab1 SET a = 4 WHERE b = 21;
UPDATE 1
gaussdb=# DELETE FROM part_tab1;
DELETE 3
gaussdb=# INSERT INTO subpart_tab1 VALUES('201902', '1', '1', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201902', '2', '2', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201903', '1', '3', 1);
INSERT 0 1
gaussdb=# INSERT INTO subpart_tab1 VALUES('201903', '2', '4', 1);
INSERT 0 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 2 WHERE user_no='1';
UPDATE 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 3 WHERE user_no='2';
UPDATE 1
gaussdb=# UPDATE subpart_tab1 SET sales_amt = 4 WHERE user_no='3';
UPDATE 1
gaussdb=# UPDATE /*+ indexscan(subpart_tab1) */ subpart_tab1 SET sales_amt = 5 WHERE user_no='4';
UPDATE 1
gaussdb=# DELETE FROM subpart_tab1;
DELETE 4
gaussdb=# SELECT * FROM gs_stat_xact_all_partitions;
 partition_oid | schemaname |   relname    | partition_name | sub_partition_name | seq_scan | seq_tup_read | idx_scan | idx_tup_fetch | n_tup_ins | n_tup_upd | n_tup_del | n_tup_hot_upd 
---------------+------------+--------------+----------------+--------------------+----------+--------------+----------+---------------+-----------+-----------+-----------+---------------
         16964 | public     | subpart_tab1 | p_201902       | p_201902_b         |        4 |            4 |        1 |             2 |         1 |         1 |         1 |             1
         16963 | public     | subpart_tab1 | p_201902       | p_201902_a         |        4 |            4 |        1 |             0 |         1 |         1 |         1 |             1
         16961 | public     | subpart_tab1 | p_201901       | p_201901_b         |        4 |            4 |        1 |             0 |         1 |         1 |         1 |             1
         16960 | public     | subpart_tab1 | p_201901       | p_201901_a         |        4 |            4 |        1 |             0 |         1 |         1 |         1 |             1
         16954 | public     | part_tab1    | p3             |                    |        1 |            1 |        1 |             2 |         1 |         1 |         1 |             1
         16953 | public     | part_tab1    | p2             |                    |        3 |            2 |        0 |             0 |         1 |         1 |         1 |             1
         16952 | public     | part_tab1    | p1             |                    |        4 |            2 |        0 |             0 |         1 |         1 |         1 |             1
(7 rows)

gaussdb=# SELECT * FROM gs_stat_get_xact_partition_stats(16952);
 partition_oid | seq_scan | seq_tup_read | idx_scan | idx_tup_fetch | n_tup_ins | n_tup_upd | n_tup_del | n_tup_hot_upd | tup_fetch 
---------------+----------+--------------+----------+---------------+-----------+-----------+-----------+---------------+-----------
         16952 |        4 |            2 |        0 |             0 |         1 |         1 |         1 |             1 |         0
(1 row)

  • gs_stat_get_partition_analyze_count(oid)

    Description: Specifies the number of times that a user starts analysis on a partition.

    Return type: bigint

  • gs_stat_get_partition_autoanalyze_count(oid)

    Description: Specifies the number of times that the autovacuum daemon starts analysis in a partition.

    Return type: bigint

  • gs_stat_get_partition_autovacuum_count(oid)

    Description: Specifies the number of times that the autovacuum daemon starts vacuum in a partition.

    Return type: bigint

  • gs_stat_get_partition_last_analyze_time(oid)

    Description: Specifies the last time when a partition starts to be analyzed manually or by the autovacuum thread.

    Return type: timestamptz

  • gs_stat_get_partition_last_autoanalyze_time(oid)

    Description: Specifies the time when the last analysis initiated by the autovacuum daemon in a partition.

    Return type: timestamptz

  • gs_stat_get_partition_last_autovacuum_time(oid)

    Description: Specifies the time of the last vacuum initiated by the autovacuum daemon in a partition.

    Return type: timestamptz

  • gs_stat_get_partition_last_data_changed_time(oid)

    Description: Specifies the last time of a modification in a partition, such as insert, update, delete, and truncate. Currently, this parameter is not supported.

    Return type: timestamptz

  • gs_stat_get_partition_last_vacuum_time(oid)

    Description: Specifies the most recent time when the user manually cleared a table or when the autovacuum thread was started to clear a partition.

    Return type: timestamptz

  • gs_stat_get_partition_numscans(oid)

    Description: Specifies the number of rows scanned and read in partition order.

    Return type: bigint

  • gs_stat_get_partition_tuples_returned(oid)

    Description: Specifies the number of sequential row scans in a partition.

    Return type: bigint

  • gs_stat_get_partition_tuples_fetched(oid)

    Description: Specifies the number of rows fetched by bitmap scans in a partition.

    Return type: bigint

  • gs_stat_get_partition_vacuum_count(oid)

    Description: Specifies the number of times that a user starts vacuum in a partition.

    Return type: bigint

  • gs_stat_get_xact_partition_tuples_fetched(oid)

    Description: Specifies the number of tuple rows scanned in a transaction.

    Return type: bigint

  • gs_stat_get_xact_partition_numscans(oid)

    Description: Specifies the number of sequential scans performed on a partition in the current transaction.

    Return type: bigint

  • gs_stat_get_xact_partition_tuples_returned(oid)

    Description: Specifies the number of rows read through sequential scans in a partition in the current transaction.

    Return type: bigint

  • gs_stat_get_partition_blocks_fetched(oid)

    Description: Specifies the number of disk block fetch requests for a partition.

    Return type: bigint

  • gs_stat_get_partition_blocks_hit(oid)

    Description: Specifies the number of disk block requests found in cache for a partition.

    Return type: bigint

  • pg_stat_get_partition_tuples_inserted(oid)

    Description: Specifies the number of rows in the corresponding table partition.

    Return type: bigint

  • pg_stat_get_partition_tuples_updated(oid)

    Description: Specifies the number of rows that have been updated in the corresponding table partition.

    Return type: bigint

  • pg_stat_get_partition_tuples_deleted(oid)

    Description: Specifies the number of rows deleted from the corresponding table partition.

    Return type: bigint

  • pg_stat_get_partition_tuples_changed(oid)

    Description: Specifies the total number of inserted, updated, and deleted rows after a table partition was last analyzed or autoanalyzed.

    Return type: bigint

  • pg_stat_get_partition_live_tuples(oid)

    Description: Specifies the number of live rows in a partitioned table.

    Return type: bigint

  • pg_stat_get_partition_dead_tuples(oid)

    Description: Specifies the number of dead rows in a partitioned table.

    Return type: bigint

  • pg_stat_get_xact_partition_tuples_inserted(oid)

    Description: Specifies the number of inserted tuples in the active sub-transactions related to a table partition.

    Return type: bigint

  • pg_stat_get_xact_partition_tuples_deleted(oid)

    Description: Specifies the number of deleted tuples in the active sub-transactions related to a table partition.

    Return type: bigint

  • pg_stat_get_xact_partition_tuples_hot_updated(oid)

    Description: Specifies the number of hot updated tuples in the active sub-transactions related to a table partition.

    Return type: bigint

  • pg_stat_get_xact_partition_tuples_updated(oid)

    Description: Specifies the number of updated tuples in the active sub-transactions related to a table partition.

    Return type: bigint

  • pg_stat_get_partition_tuples_hot_updated(oid)

    Description: Returns statistics on the number of hot updated tuples in a partition with a specified partition ID.

    Parameter: oid

    Return type: bigint

Parent topic: Functions and Operators