Some info is missing, but I'm guessing as for that:
The rows are most obviously not coming in an an infinite rate.
You are most probably polling as for that. That is, you are making some sort of
sleep() between cycles.
If you're not - then you should know you could be pressing a high load on the database server in either case.
So, assuming there'll be some sort of sleep (let's say 1 second, for simplicity), it turns out there's not much difference between you Java code and the stored routine code. Why is that?
- The sleeps are idle any way. No locks will be held during sleep time.
- Any query you issue in Java code must be issued from routine code and vice versa.
- There is not much (or at all) computational complexity to your code. You're most probably checking on some
MAX(id) from the target table, then
INSERT INTO ... SELECT ... FROM ... WHERE id > max_id_as_just_calculated, or something similar.
Execution time may actually be somewhat in favor of routine code, since you do not need to ship result sets back and forth between MySQL and Java. Moreover, you can just
INSERT INTO ... SELECT FROM in one query, instead of translating result set into java objects/primitives, then preparing new
INSERT query, translating back to MySQL data.
In terms of DB load I see no real difference, again with a slight improvement on routine side due to network delivery time (time in which locks may still be held).
How would you invoke this procedure from Java? It would run for an indefinite amount of time. So would you dedicate a thread to it?
Suppose it crashed (error of some sorts) -- need to be able to re-execute it (not a big deal, just an issue to consider).
You could execute it via the event scheduler -- that would solve many of the above issues: instead of looping via the routine, let the scheduler invoke it every X seconds. But then - consider locks again.
My own preference: I would probably use Java code, or I would use the event scheduler if I'm comfortable adding this logic to the RDBMS.