I'm hoping to get some opinions on what could be the cause of strange checkpoint behaviour in SQL Server.

I have a database which is in the SIMPLE recovery model and starts at 10 GB in size. The database is on a SQL Server 2017 instance and is configured for Indirect Checkpoints with target_recovery_time_in_seconds set to 60.

We have alerts that trigger on transaction log percent usage (70%) which is typically when an internal CHECKPOINT would occur. We then continued to receive alerts as the transaction log continued to grow and eventually registered 99% full but no further growth occurred.

The log_reuse_wait_desc column in sys.databases showed ACTIVE TRANSACTION as the reason why the last attempted log truncation failed. I confirmed that there were no active transactions running using close to all relevant DMVs.

Issuing a CHECKPOINT manually cleared the wait_desc and truncated the log.

My theory is that the database had an active transaction at the time when log truncation was last attempted either when 70% log usage was breached or after that point when the target dirty buffers to be flushed to disk was reached. In either case there was an active transaction at that point which prevented log truncation. Since that last checkpoint there was minimal activity resulting in no further checkpoint attempt due to not reaching the dirty buffers threshold therefore even though there is now no active transaction log truncation would can't take place until a CHECKPOINT was issued.

I intend to place Trace Flag 3502 on to see the checkpoint activity when this transaction is supposedly running.

Has anyone ever encountered this behaviour, or knows if SQL Server has a back off configured for running checkpoints when above 70% transaction log usage even as the log continues to fill?

Many thanks!

  • Just some observations. 1.>>>The database is configured for Indirect Checkpoints with target_recovery_time_in_seconds set to 60<<< Why did you make this configuration? In case you just left the default recovery interval = 0 and target_recovery_time_in_seconds = 0 automatic checkpoints would be used with target recovery interval of 1 minute – sepupic Feb 11 at 14:13
  • target_recovery_time_in_seconds set to 60 is the default value in SQL Server 2016 for indirect checkpointing, that's just what the databases were created with. An internal checkpoint still would've occurred at 70% free space to flush the dirty pages and attempted log truncation but was met by an active transaction. I think it's strange that SQL Server would only fire once on the condition of log percent used at 70%. Because in this particular instance it seems that insufficient pages were dirtied after the transaction completed resulting in no CHECKPOINT and therefore no log truncation. – MysticHeroes Feb 11 at 15:26
  • The default value for target_recovery_time_in_seconds is 0 (which means 60 seconds), the recovery interval default value is also 0 (that means 1 minute), however, they are both set to 0, and if you don't toch them automatic checkpoints are used. But if you chanche target_recovery_time_in_seconds, indirect checkpoints are used. See Interaction of the TARGET_RECOVERY_TIME and 'recovery interval' Options here: docs.microsoft.com/en-us/sql/database-engine/configure-windows/… – sepupic Feb 12 at 7:28
  • When indirect checkpoints are used, they are based on the amount of dirty pages produced since the last checkpoint, when automatic checkpoints are used they trigger in base of the log records produced since the last checkpoint, that is defferent – sepupic Feb 12 at 7:30
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    The threshold of 70% is used by AUTOMATIC checkpoint, not by internal. Internal checkpoints are checkpoints used by dbcc checkdb/checktable (when database snepshot is created), when shutdown happens, when full/diff backup is performed – sepupic Feb 12 at 7:47

As pointed out by @sepupic, the 70% log space usage issued checkpoint is a characteristic of automatic checkpoints and not internal checkpoints (see comments on question).

The simple reason for this noticed behaviour is that the indirect checkpoints would've responded to dirty page threshold breaches while the active transaction continued to execute. The active transaction prevented log truncation from occurring with the checkpoints and so the transaction log continued to grow.

Between the time that the last indirect checkpoint and the previously active transaction (that prevented log truncation) completed there were insufficient dirty pages to trigger an indirect checkpoint to occur.

Hence why the last log_reuse_wait_desc remained ACTIVE TRANSACTION even when no active transaction was found upon investigation and that the log file usage was immediately cleared by a manual CHECKPOINT command being issued.

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