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Find the Objects That Have the Most Locks Taken on Them

Applies to: SQL Server Azure SQL Database

Database administrators often need to identify the source of locks that are hindering database performance.

For example, you are monitoring your production server for any possible bottlenecks. You suspect that there might be highly contested resources, and would like to know how many locks are taken on those objects. Once the most frequently locked objects are identified, steps can be taken to optimize access to the contended objects.

To do this, use Query Editor in SQL Server Management Studio.

To find the objects that have the most locks

  1. In Query Editor, issue the following statements.

    -- Find objects in a particular database that have the most
    -- lock acquired. This sample uses AdventureWorksDW2022.
    -- Create the session and add an event and target.
    
    IF EXISTS(SELECT * FROM sys.server_event_sessions WHERE name='LockCounts')
        DROP EVENT session LockCounts ON SERVER;
    GO
    DECLARE @dbid int;
    
    SELECT @dbid = db_id('AdventureWorksDW2022');
    
    DECLARE @sql nvarchar(1024);
    SET @sql = '
        CREATE event session LockCounts ON SERVER
            ADD EVENT sqlserver.lock_acquired (WHERE database_id ='
                + CAST(@dbid AS nvarchar) +')
            ADD TARGET package0.histogram(
                SET filtering_event_name=''sqlserver.lock_acquired'',
                    source_type=0, source=''resource_0'')';
    
    EXEC (@sql);
    GO
    ALTER EVENT session LockCounts ON SERVER
        STATE=start;
    GO
    -- Create a simple workload that takes locks.
    
    USE AdventureWorksDW2022;
    GO
    SELECT TOP 1 * FROM dbo.vAssocSeqLineItems;
    GO
    -- The histogram target output is available from the
    -- sys.dm_xe_session_targets dynamic management view in
    -- XML format.
    -- The following query joins the bucketizing target output with
    -- sys.objects to obtain the object names.
    
    SELECT name, object_id, lock_count
        FROM
        (
        SELECT objstats.value('.','bigint') AS lobject_id,
            objstats.value('@count', 'bigint') AS lock_count
            FROM (
                SELECT CAST(xest.target_data AS XML)
                    LockData
                FROM     sys.dm_xe_session_targets xest
                    JOIN sys.dm_xe_sessions        xes  ON xes.address = xest.event_session_address
                    JOIN sys.server_event_sessions ses  ON xes.name    = ses.name
                WHERE xest.target_name = 'histogram' AND xes.name = 'LockCounts'
                 ) Locks
            CROSS APPLY LockData.nodes('//HistogramTarget/Slot') AS T(objstats)
        ) LockedObjects
        INNER JOIN sys.objects o  ON LockedObjects.lobject_id = o.object_id
        WHERE o.type != 'S' AND o.type = 'U'
        ORDER BY lock_count desc;
    GO
    
    -- Stop the event session.
    
    ALTER EVENT SESSION LockCounts ON SERVER
        state=stop;
    GO
    

Note

The preceding Transact-SQL code example runs on SQL Server on-premises, but might not quite run on Azure SQL Database. The core portions of the example directly involving Events, such as ADD EVENT sqlserver.lock_acquired do work on Azure SQL Database too. But preliminary items, such as sys.server_event_sessions must be edited to their Azure SQL Database counterparts like sys.database_event_sessions for the example to run. For more information about these minor differences between SQL Server on-premises versus Azure SQL Database, see the following articles:

After the statements in the preceding Transact-SQL script finish, the Results tab of Query Editor displays the following columns:

  • name
  • object_id
  • lock_count

See Also

CREATE EVENT SESSION (Transact-SQL)
ALTER EVENT SESSION (Transact-SQL)
sys.dm_xe_session_targets (Transact-SQL)
sys.dm_xe_sessions (Transact-SQL)
sys.server_event_sessions (Transact-SQL)