I have a database scenario (i'm using Oracle) in which several processes make inserts into a table and a single process selects from it. The table is basically used as a intermediate storage, to which multiple processes (in the following called the Writers) write log events, and from which a single processes (in the following referred to as the Reader) reads the events for further processing. The Reader must read all events inserted into the table.
Currenly, this is done by each inserted record being assigned an id from an ascending sequence. The reader periodically selects a block of entries from the table where the id is larger than the largest id of the proviously read block. E.g. something like:
SELECT * FROM TRANSACTION_LOG WHERE id > ( SELECT last_id FROM READER_STATUS );
The problem with this approach is that since writers operate concurrently, rows are not always inserted in order according to their assigned id, even though these are assigned in sequentially ascending order. That is, a row with id=100 is sometimes written after a record with id=110, because the process writing the row with id=110 started after the processes writing the record id=100, but commited first. This can result in the Reader missing the row with id=100 if it has already read row with id=110.
Forcing the Writers to exclusive lock on the table would solve the problem as this would force them to insert sequentially and also for the Reader to wait for any outstanding commits. This, however, would probably not be very fast.
It is my thinking, that it would suffice for the Reader to wait for any outstanding Writer commits before reading. That is, Writers may continue to operate concurrently as longs as the Reader does read until all writers have finished.
My question is this: How can i instruct my reader process to wait for any outstanding commits of my writer processes? Any alternative suggesting to the above problem is also welcome.