As part of a retail closing process, there is a transactional stored procedure that selects from each of 18 tables and inserts them into a separate database for later mainframe processing. This procedure is showing some strange timing behavior, and I think it is because of a fundamental misunderstanding of the way transactions work in SQL Server.
I recognize that this isn't the best architecture for this problem, and the new solution is being developed, but in the meantime, I need to improve this process.
The stored procedure is running based on user request, and looks something like this:
BEGIN TRANSACTION INSERT INTO Table1 (Column1, Column2, Column3, Column4, Column5, Column6, Column7, Column8) SELECT Column1, Column2, Column3, Column4, Column5, Column6, Column7, Column8 FROM OLTPTable T INNER JOIN LookupTable1 L ON T.Foreign = L.Key INSERT INTO Table2 (Column1, Column2, Column3) SELECT Column1, Column2, Column3 FROM OLTPTable2 T INNER JOIN LookupTable2 L ON T.Foreign = L.Key INSERT INTO Table3 (Column1, Column2, Column3, Column4, Column5, Column6) SELECT Column1, Column2, Column3, Column4, Column5, Column6 FROM OLTPTable3 T INNER JOIN LookupTable3 L ON T.Foreign = L.Key -- Through Table 18 and OLTP Table 18 COMMIT TRANSACTION
The logging looks something like this:
Table1 0.2 seconds 354 rows Table2 7.4 seconds 35 rows Table3 3.9 seconds 99 rows
There isn't a clear correlation between quantity of rows or complexity of joins and time.
My question is - on a long procedure like this, what is the effect of the transaction? Does is lock all the tables in the subselects at the beginning? One at a time? Is it waiting for the source table to be available for a lock, which is causing the waits?