I'm trying to understand exactly what is happening here. I realize select/update combinations can cause deadlocks - in this case a longggg wait.
The scenario is this Query A is a select statement that uses three indexes (very simplified)
select * from ProblemTable Where Plan_Id=@planId and Date_entered Between @startDate and @endDate and nabp=@nabp
Indexes are all Non Clustered :
- Plan_Id, nabp
All have 'output' of ProblemTable.Unique_Id
Query B is an update statement that uses two indexes
- Non Clustered Date_Entered ASC, Source ASC, DataStartOffset ASC
- Clustered Index on Unique_Id used on the results of Index 1's index search.
Update ProblemTable Set ProcessingTime=@processingTime Where dateadd(dd, -datediff(dd, date_entered, 1), 1) = dateadd(dd, -datediff(dd, getdate(), 1), 1) and DateSource = 'xxyyzz' and DataStartOffset = 93148143
I know.. the dateadd is goofy. I didn't write this : )
So this scans a separate index than query A but also using Date_Entered. A long wait keeps occuring because of this situation. A deadlock doesn't seemingly occur, but it can cause a wait time of 5+ minutes where each query normally executes in seconds.
Note that this also occurs on an INSERT into ProblemTable
So - I'm guessing the SELECT stmt aquires locks on the rows it finally determines to select based on the NC index searches and the update statement then tries to aquire a lock on the rows returned from its search on the NC index. But why is it just taking a longgggg time then but no deadlock is occuring?
The questions then basically are:
1 Why the long wait time as opposed to a deadlock? 2. Whats causing this?
Is there enough info available here?
EDIT 1 Both queries are fairly quick and neither take anywhere near this long. The long time is a result of 'some' unknown locking issue here. There are no other explicit transactions going on.