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AlwaysON - HADRON Learning Series: Worker Pool Usage for HADRON Enabled Databases

I am on several e-mail aliases related to Always On databases (reference Availability Group, AG, HADRON) and the question of worker thread usage is a hot topic this week. I developed some training around this during the beta so I decided to pull out the relevant details and share them with you all. Hopefully this will provide you with a 10,000 foot view around the basic worker thread consumption related to HADRON enabled databases.

The following is a drawing I created for the training, showing the HadrThreadPool on a primary (upper left) and a secondary (lower right).

image

Always On is different than database mirroring. Database mirroring used dedicated threads per database and Always On uses a request queue and worker pool to handle the requests. The HadrThreadPool is shared among all HADRON enabled databases.

Primary

On the primary messages the active log scanner is the log pole. When a secondary is ready to receive log blocks a message is sent to the primary to start the log scanning. This message is handled by a worker in the HadrThreadPool. The startup and tearing down of a log scan operation can be expensive so the request will retain the worker thread, waiting on new log record flushes, until it has been idle for at least 20 seconds, usually 60 seconds before returning the message to the pool for reuse. All other messages acquire a worker, perform the operation and return the worker to the pool. 

Secondary

The expensive path on the secondary is the redo work. Similar to how the primary waits for idle log scan activity the secondary will wait for idle redo activity for at least 20 seconds before returning the worker to the pool.

Messages/Task Types

There is wide set of messages exchanged between the primary and secondary as depicted in the following diagram.  

image   Task Types TransportRouting DbMsg Conversation BuildMsgAndSend TransportNotification Timer EndpointChange ArMgrDbOp TransportVersioned ArMgrDbSerializedAccess SyncProgress DbRestart DbRedo EvalReadonlyRoutingInfo LogPoolTrunc NewLogReady

 

HadrThreadPool - High Level Formula for HADRON Worker Needs

The formula is as follows but I have to temper this with 'ACTIVE.'

image

To keep the pool of workers fully utilized you have to have activity in the database. If I have 100 databases in 25 different AGs but only 10 active databases (at any point in time) the (Max Databases) I would pick a max databases value around 15 for the calculation as to the relative size of the HadrThreadPool used on my system.  If all 100 database are active then account for 100 Max Databases in your calculation.

Note: Be sure to add the number of DB Replicas to your calculation.

How Do I See The Pool Workers?

The common tasks assigned to HADRON activities can be observed using the following query.

select

* from sys.dm_exec_requests
where command like '%HADR%'
or command like '%DB%'
or command like '%BRKR%' -- Not HadrThreadPool but Service Broker transport threads needed

Relevant Command Types

HADR_BACKUP_LOCK_HOLDER
HADR_AR_MGR_STARTUP
HADR_AR_MGR_RESTART
HADR_AR_MGR_NOTIFICATION_WORKER
DB_MIRROR

XEvents

There are many new XEvents associated with HADRON. The XeSqlPkg::hadr_worker_pool_task allows you to watch which HADRON tasks are executing and completing on your system so you can establish a specific baseline for concurrent task execution levels.

Backup and File Streams Impacts

A backup activity on a secondary requires a worker from the pool on the primary to maintain the proper locking and backup sequence capabilities. This could be a longer term thread and scheduling of backups can impact the worker pool.

The file stream data is not part of the physical LDF file so the actual file stream data needs to be streamed to the secondary.  On the primary the log block is cracked (find all File Stream records and send proper requests to secondary) and the file stream data is sent in parallel with the log blocks. The more file stream activity the database has the more likely additional threads are necessary to handle the parallel file stream shipping activities on the primary and secondary (receive and save).

Max Usage

The formula uses a 2x factor calculation. For a database that is under heavy activity, backups frequently active and file stream activity a 5x factor would be max use case calculation at full utilization. Again, the database activity is key to the worker use and reuse.

File Steam Worker - Per database worker that is held long term
Backup - Per database worker that is held long term (duration of backup)

Cap

The HardThreadPool is capped at the sp_configure 'max worker threads' minus 40 level. To increase the size of the HadrThreadPool increase the max worker thread setting. Note: increasing the max worker thread setting can reduce the buffer pool size.

Idle Workers in HadrThreadPool

A worker in the HadrThreadPool, in an idle state for more than 2 seconds can be returned to the SQL system pool.

image

 

Bob Dorr - Principal SQL Server Escalation Engineer

Comments

  • Anonymous
    June 03, 2012
    Could you explain a bit more what you meant by "Note: increasing the max worker thread setting can reduce the buffer pool size."? Thanks.

  • Anonymous
    June 13, 2012
    Sure,Any thread requires memory to support the thread stack.  The size of the stacks can vary but the SQL Server takes into account your max worker thread setting.  Using the default thread stack size SQL Server will adjust the amount of memory it can allow Buffer Pool to grow to in order to make sure you have enough memory to support the max thread setting.So, in a sense, if you set max worker threads higher you trade this off for cached data pages.

  • Anonymous
    January 29, 2014
    The comment has been removed

  • Anonymous
    June 18, 2015
    The comment has been removed

  • Anonymous
    October 15, 2015
    Ravi: yes, refer to this link blogs.msdn.com/.../alwayson-hadron-learning-series-what-is-hadron.aspx

  • Anonymous
    April 15, 2016
    Sorry but pictures are not clear at all and blog does not explains clearly what it wants to. There are some spelling mistakes as well

  • Anonymous
    November 13, 2017
    Mr Dorr,For an AlwaysOn AG setup where there are 2 nodes; but both play a "primary/secondary" role. Like a "criss cross" type of setup.Node1 is primary to DB1 and DB2 but secondary to DB3 and DB4 (read-only).Node2 is primary to DB3 and DB4 but secondary to DB1 and DB2 (read only).How will worker threads be affected in this setup? Would you have to double the worker threads in the equation since each node has a primary AND secondary role?Hope my questions makes sense.