ENGINE

The storage engine that holds or requested the lock.

ENGINE_LOCK_ID

The ID of the lock held or requested by the storage engine. Tuples of (ENGINE_LOCK_ID, ENGINE) values are unique.

Lock ID formats are internal and subject to change at any time. Applications should not rely on lock IDs having a particular format.

ENGINE_TRANSACTION_ID

The storage engine internal ID of the transaction that requested the lock. This can be considered the owner of the lock, although the lock might still be pending, not actually granted yet (LOCK_STATUS='WAITING').

If the transaction has not yet performed any write operation (is still considered read only), the column contains internal data that users should not try to interpret. Otherwise, the column is the transaction ID.

For InnoDB, to obtain details about the transaction, join this column with the TRX_ID column of the INFORMATION_SCHEMA INNODB_TRX table.

THREAD_ID

The thread ID of the session that created the lock. To obtain details about the thread, join this column with the THREAD_ID column of the Performance Schema threads table.

THREAD_ID can be used together with EVENT_ID to determine the event during which the lock data structure was created in memory. (This event might have occurred before this particular lock request occurred, if the data structure is used to store multiple locks.)

EVENT_ID

The Performance Schema event that caused the lock. Tuples of (THREAD_ID, EVENT_ID) values implicitly identify a parent event in other Performance Schema tables:

To obtain details about the parent event, join the THREAD_ID and EVENT_ID columns with the columns of like name in the appropriate parent event table. See Section 29.19.2, “Obtaining Parent Event Information”.

OBJECT_SCHEMA

The schema that contains the locked table.

OBJECT_NAME

The name of the locked table.

PARTITION_NAME

The name of the locked partition, if any; NULL otherwise.

SUBPARTITION_NAME

The name of the locked subpartition, if any; NULL otherwise.

INDEX_NAME

The name of the locked index, if any; NULL otherwise.

In practice, InnoDB always creates an index (GEN_CLUST_INDEX), so INDEX_NAME is non-NULL for InnoDB tables.

OBJECT_INSTANCE_BEGIN

The address in memory of the lock.

LOCK_TYPE

The type of lock.

The value is storage engine dependent. For InnoDB, permitted values are RECORD for a row-level lock, TABLE for a table-level lock.

LOCK_MODE

How the lock is requested.

The value is storage engine dependent. For InnoDB, permitted values are S[,GAP], X[,GAP], IS[,GAP], IX[,GAP], AUTO_INC, and UNKNOWN. Lock modes other than AUTO_INC and UNKNOWN indicate gap locks, if present. For information about S, X, IS, IX, and gap locks, refer to Section 17.7.1, “InnoDB Locking”.

LOCK_STATUS

The status of the lock request.

The value is storage engine dependent. For InnoDB, permitted values are GRANTED (lock is held) and WAITING (lock is being waited for).

LOCK_DATA

The data associated with the lock, if any. The value is storage engine dependent. For InnoDB, a value is shown if the LOCK_TYPE is RECORD, otherwise the value is NULL. Primary key values of the locked record are shown for a lock placed on the primary key index. Secondary index values of the locked record are shown with primary key values appended for a lock placed on a secondary index. If there is no primary key, LOCK_DATA shows either the key values of a selected unique index or the unique InnoDB internal row ID number, according to the rules governing InnoDB clustered index use (see Section 17.6.2.1, “Clustered and Secondary Indexes”). LOCK_DATA reports “supremum pseudo-record” for a lock taken on a supremum pseudo-record. If the page containing the locked record is not in the buffer pool because it was written to disk while the lock was held, InnoDB does not fetch the page from disk. Instead, LOCK_DATA reports NULL.

Primary key on (ENGINE_LOCK_ID, ENGINE)

Index on (ENGINE_TRANSACTION_ID, ENGINE)

Index on (THREAD_ID, EVENT_ID)

Index on (OBJECT_SCHEMA, OBJECT_NAME, PARTITION_NAME, SUBPARTITION_NAME)