- Entity Framework 4 with lazy loading enabled (model-first, table-per-hierarchy).
- Number of table is about 40 (and no table has more than 15-20 fields).
- SQL Server Express 2008 (not r2).
- No database triggers or any other stuff like this exist - it is only used for storage. All the logic is in the code.
- Database size at the moment is approx 2gb.
- (Primary keys are Guids and are generated in code via
Guid.NewGuid()- if this matters)
- Saving a complex operation result (which produces a complex object graph) takes anywhere from 40 to 60 seconds (the number returned by
SaveChangesis approx. 8000 - mostly added objects and a some modified).
- Saving the same operation result with an empty (or an almost empty) database usually takes around 1 seconds on the same computer.
The only variable that seems to affect this issue is the database size. But please note that I am only measuring the
Context.SaveChages() call (so even if I have some weird sluggish queries somewhere that should not affect this issue).
Any suggestions as to why this operation may last this long are appreciated.
Just to clarify - the code that takes 40-60 seconds to execute is (it takes this long only when the DB size is around 2gb):
Stopwatch sw = Stopwatch.StartNew(); int count = objectContext.SaveChanges(); // this method is not overridden Debug.Write(sw.ElapsedMilliseconds); // prints out 40000 - 60000 ms Debug.Write(count); // I am testing with exactly the same operation and the // result always gives the same count for it (8460)
The same operation with an empty DB takes around 1000 ms (while still giving the same count - 8460). Thus the question would be - how could database size affect
Running a perf profiler shows that the main bottleneck (from "code perspective") is the following method:
Method: static SNINativeMethodWrapper.SNIReadSync Called: 3251 times Avg: 10.56 ms Max: 264.25 ms Min: 0.01 ms Total: 34338.51 ms
There are non-clustered indexes for all PKs and FKs in the database. We are using random Guids as surrogate keys (not sequential) thus fragmentation is always at very high levels. I tried testing executing the operation in question right after rebuilding all DB indexes (fragmentation was less than 2-3% for all indexes) but it did not seems to improve the situation in any way.
In addition I must say that during the operation in question one table involved in the process has approximately 4 million rows (this table gets lots of inserts). SQL Profiler shows that inserts to that table can last anywhere from 1 to 200 ms (this is a "spike"). Yet again, it does not seem that this changes in case indexes are freshly rebuilt.
In any case - it seems (at the moment) that the problem is on the SQL Server side of the application since the main thing taking up time is that
SNIReadSync method. Correct me if I am being completely ignorant.