I am working on a data warehousing project, and therefore, I have been implementing some ETL Functions in Packages. I first encountered a problem on my developing laptop and thought it had something to do with my oracle installation, but now it has "spread" over to the production servers. Two functions "sometimes" become incredible slow. We have implemented a logging system, giving us output on a logging table each x rows. When the function usually needs like 10 seconds per chunk, "sometimes" the functions needs up to 3 minutes. After rebuilding some indexes and restarting the function, it is as quick again as it used to be. Unfortunately, I can't tell which index it is exactly, since restarting the function and building up the cursor it uses for its work takes some time and we do not have the time to check each index on its own, so I just rebuild all indexes that are potentially used by the function and restart it.
The functions that have the problem use a cursor to select data from a table with about 50 million to 200 million entries, joined by a small table with about 50-500 entries. The join condition is a string comparison. We then use the primary key from the small table we get from the join to update a foreign key on the main table. The update process is done by a forall loop, this has proven to save loads of time.
Here is a simplified version of the table structure of both tables:
CREATE TABLE "maintable" ( "pkmid" NUMBER(11,0) NOT NULL ENABLE, "fkid" NUMBER(11,0), "fkstring" NVARCHAR2(4) NOT NULL ENABLE, CONSTRAINT "PK_MAINTABLE" PRIMARY KEY ("pkmid"); CREATE TABLE "smalltable" ( "pksid" NUMBER(11,0) NOT NULL ENABLE, "pkstring" NVARCHAR2(4) NOT NULL ENABLE, CONSTRAINT "PK_SMALLTABLE" PRIMARY KEY ("pksid");
Both tables have indexes on their string columns. Adding the primary keys, I therefore rebuild 4 indexes each time the problem happens.
We get our data in a way, that we only have the fkstring in the maintable available and the fkid is set to null. In a first step, we populate the small table. This only takes minutes and is done the following way:
INSERT INTO smalltable (pksid, pkstring) SELECT SEQ_SMALLTABLE.NEXTVAL, fkstring FROM ( SELECT DISTINCT mt.fkstring FROM maintable mt MINUS SELECT st.pkstring FROM smalltable st ); commit;
This function never causes any trouble.
The following function does (it is a simplified version of the function - I have removed logging and exception handling and renamed some variables):
function f_set_fkid return varchar2 is cursor lCursor_MAINTABLE is SELECT MT.PKmID, st.pksid FROM maintable mt JOIN smalltable st ON (mt.fkstring = st.pkstring) WHERE mt.fkid IS NULL; lIndex number := 0; lExitLoop boolean := false; type lCursorType is table of lCursor_MAINTABLE%rowtype index by pls_integer; lCurrentRow lCursor_MAINTABLE%rowtype; lTempDataArray lCursorType; lCommitEvery constant number := 1000; begin open lCursor_MAINTABLE; loop -- get next row, set exit condition fetch lCursor_MAINTABLE into lCurrentRow; if (lCursor_MAINTABLE%notfound) then lExitLoop := true; end if; -- in case of cache being full, flush cache if ((lTempDataArray.count > 0) AND (lIndex >= lCommitEvery OR lExitLoop)) then forall lIndex2 in lTempDataArray.FIRST..lTempDataArray.LAST UPDATE maintable mt set fkid = lTempDataArray(lIndex2).pksid WHERE mt.pkmid = lTempDataArray(lIndex2).pkmid; commit; lTempDataArray.delete; lIndex := 0; end if; -- data handling, fill cache if (lExitLoop = false) then lIndex := lIndex + 1; lTempDataArray(lIndex). := lCurrentRow; end if; exit when lExitLoop; end loop; close lCursor_MAINTABLE; return null; end;
I would be very thankful for any help.
P.S. I do know that bulk collect into would speed up the function and probably also ease up the code a bit too, but at the moment we are content with the speed of the function it usually has. Changing the function to use bulk collect is on our plan for next year, but at the moment it is not an option (and I doubt it would solve this index problem).