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29.12.6.1 The events_statements_current Table

The events_statements_current table contains current statement events. The table stores one row per thread showing the current status of the thread's most recent monitored statement event, so there is no system variable for configuring the table size.

Of the tables that contain statement event rows, events_statements_current is the most fundamental. Other tables that contain statement event rows are logically derived from the current events. For example, the events_statements_history and events_statements_history_long tables are collections of the most recent statement events that have ended, up to a maximum number of rows per thread and globally across all threads, respectively.

For more information about the relationship between the three events_statements_xxx event tables, see Section 29.9, “Performance Schema Tables for Current and Historical Events”.

For information about configuring whether to collect statement events, see Section 29.12.6, “Performance Schema Statement Event Tables”.

The events_statements_current table has these columns:

  • THREAD_ID, EVENT_ID

    The thread associated with the event and the thread current event number when the event starts. The THREAD_ID and EVENT_ID values taken together uniquely identify the row. No two rows have the same pair of values.

  • END_EVENT_ID

    This column is set to NULL when the event starts and updated to the thread current event number when the event ends.

  • EVENT_NAME

    The name of the instrument from which the event was collected. This is a NAME value from the setup_instruments table. Instrument names may have multiple parts and form a hierarchy, as discussed in Section 29.6, “Performance Schema Instrument Naming Conventions”.

    For SQL statements, the EVENT_NAME value initially is statement/com/Query until the statement is parsed, then changes to a more appropriate value, as described in Section 29.12.6, “Performance Schema Statement Event Tables”.

  • SOURCE

    The name of the source file containing the instrumented code that produced the event and the line number in the file at which the instrumentation occurs. This enables you to check the source to determine exactly what code is involved.

  • TIMER_START, TIMER_END, TIMER_WAIT

    Timing information for the event. The unit for these values is picoseconds (trillionths of a second). The TIMER_START and TIMER_END values indicate when event timing started and ended. TIMER_WAIT is the event elapsed time (duration).

    If an event has not finished, TIMER_END is the current timer value and TIMER_WAIT is the time elapsed so far (TIMER_ENDTIMER_START).

    If an event is produced from an instrument that has TIMED = NO, timing information is not collected, and TIMER_START, TIMER_END, and TIMER_WAIT are all NULL.

    For discussion of picoseconds as the unit for event times and factors that affect time values, see Section 29.4.1, “Performance Schema Event Timing”.

  • LOCK_TIME

    The time spent waiting for table locks. This value is computed in microseconds but normalized to picoseconds for easier comparison with other Performance Schema timers.

  • SQL_TEXT

    The text of the SQL statement. For a command not associated with an SQL statement, the value is NULL.

    The maximum space available for statement display is 1024 bytes by default. To change this value, set the performance_schema_max_sql_text_length system variable at server startup. (Changing this value affects columns in other Performance Schema tables as well. See Section 29.10, “Performance Schema Statement Digests and Sampling”.)

  • DIGEST

    The statement digest SHA-256 value as a string of 64 hexadecimal characters, or NULL if the statements_digest consumer is no. For more information about statement digesting, see Section 29.10, “Performance Schema Statement Digests and Sampling”.

  • DIGEST_TEXT

    The normalized statement digest text, or NULL if the statements_digest consumer is no. For more information about statement digesting, see Section 29.10, “Performance Schema Statement Digests and Sampling”.

    The performance_schema_max_digest_length system variable determines the maximum number of bytes available per session for digest value storage. However, the display length of statement digests may be longer than the available buffer size due to encoding of statement elements such as keywords and literal values in digest buffer. Consequently, values selected from the DIGEST_TEXT column of statement event tables may appear to exceed the performance_schema_max_digest_length value.

  • CURRENT_SCHEMA

    The default database for the statement, NULL if there is none.

  • OBJECT_SCHEMA, OBJECT_NAME, OBJECT_TYPE

    For nested statements (stored programs), these columns contain information about the parent statement. Otherwise they are NULL.

  • OBJECT_INSTANCE_BEGIN

    This column identifies the statement. The value is the address of an object in memory.

  • MYSQL_ERRNO

    The statement error number, from the statement diagnostics area.

  • RETURNED_SQLSTATE

    The statement SQLSTATE value, from the statement diagnostics area.

  • MESSAGE_TEXT

    The statement error message, from the statement diagnostics area.

  • ERRORS

    Whether an error occurred for the statement. The value is 0 if the SQLSTATE value begins with 00 (completion) or 01 (warning). The value is 1 is the SQLSTATE value is anything else.

  • WARNINGS

    The number of warnings, from the statement diagnostics area.

  • ROWS_AFFECTED

    The number of rows affected by the statement. For a description of the meaning of affected, see mysql_affected_rows().

  • ROWS_SENT

    The number of rows returned by the statement.

  • ROWS_EXAMINED

    The number of rows examined by the server layer (not counting any processing internal to storage engines).

  • CREATED_TMP_DISK_TABLES

    Like the Created_tmp_disk_tables status variable, but specific to the statement.

  • CREATED_TMP_TABLES

    Like the Created_tmp_tables status variable, but specific to the statement.

  • SELECT_FULL_JOIN

    Like the Select_full_join status variable, but specific to the statement.

  • SELECT_FULL_RANGE_JOIN

    Like the Select_full_range_join status variable, but specific to the statement.

  • SELECT_RANGE

    Like the Select_range status variable, but specific to the statement.

  • SELECT_RANGE_CHECK

    Like the Select_range_check status variable, but specific to the statement.

  • SELECT_SCAN

    Like the Select_scan status variable, but specific to the statement.

  • SORT_MERGE_PASSES

    Like the Sort_merge_passes status variable, but specific to the statement.

  • SORT_RANGE

    Like the Sort_range status variable, but specific to the statement.

  • SORT_ROWS

    Like the Sort_rows status variable, but specific to the statement.

  • SORT_SCAN

    Like the Sort_scan status variable, but specific to the statement.

  • NO_INDEX_USED

    1 if the statement performed a table scan without using an index, 0 otherwise.

  • NO_GOOD_INDEX_USED

    1 if the server found no good index to use for the statement, 0 otherwise. For additional information, see the description of the Extra column from EXPLAIN output for the Range checked for each record value in Section 10.8.2, “EXPLAIN Output Format”.

  • NESTING_EVENT_ID, NESTING_EVENT_TYPE, NESTING_EVENT_LEVEL

    These three columns are used with other columns to provide information as follows for top-level (unnested) statements and nested statements (executed within a stored program).

    For top level statements:

    OBJECT_TYPE = NULL
    OBJECT_SCHEMA = NULL
    OBJECT_NAME = NULL
    NESTING_EVENT_ID = the parent transaction EVENT_ID
    NESTING_EVENT_TYPE = 'TRANSACTION'
    NESTING_LEVEL = 0

    For nested statements:

    OBJECT_TYPE = the parent statement object type
    OBJECT_SCHEMA = the parent statement object schema
    OBJECT_NAME = the parent statement object name
    NESTING_EVENT_ID = the parent statement EVENT_ID
    NESTING_EVENT_TYPE = 'STATEMENT'
    NESTING_LEVEL = the parent statement NESTING_LEVEL plus one
  • STATEMENT_ID

    The query ID maintained by the server at the SQL level. The value is unique for the server instance because these IDs are generated using a global counter that is incremented atomically.

  • CPU_TIME

    The time spent on CPU for the current thread, expressed in picoseconds.

  • MAX_CONTROLLED_MEMORY

    Reports the maximum amount of controlled memory used by a statement during execution.

  • MAX_TOTAL_MEMORY

    Reports the maximum amount of memory used by a statement during execution.

  • EXECUTION_ENGINE

    The query execution engine. The value is either PRIMARY or SECONDARY. For use with HeatWave Service and HeatWave, where the PRIMARY engine is InnoDB and the SECONDARY engine is HeatWave (RAPID). For MySQL Community Edition Server, MySQL Enterprise Edition Server (on-premise), and HeatWave Service without HeatWave, the value is always PRIMARY.

The events_statements_current table has these indexes:

  • Primary key on (THREAD_ID, EVENT_ID)

TRUNCATE TABLE is permitted for the events_statements_current table. It removes the rows.