Firebird is versioning engine and locking there is innatural thing. The engine, the libraries - they all were optimized to avoid locking. I suggest you take few steps back and looking at the picture in a large scale. You better formulate your task in term of applications behavior and then think how to modify their behavior towards the database to get what you need.
And pleease! give applications some name. It is very hard to think and plan in terms "this app" and "other app" - yuyou just inevitably start mixing them.
In Firebird you can lock the single row so to lock the table you should make a table consisting of the single row), but even this behavior would be problematic and can only be checked by other application trying to change the same record and
commit the change. OldSchool variant is looking like
UPDATE FlagTable SET FlagColumn = FlagColumn + 0 /* WHERE ID = ... */ and modern versions introduced
SELECT .... FOR UPDATE WITH LOCK statememt
However let me stress it again - even per-row locking in Firebird is innatural and exotic condition with a very specific way to create and check for. Per-table row can only be achived abusing this feature and locking every sginle row in the table, which might bring the server to its knees trying to force him into the mode, that he was designedto avoid at all costs.
Without more details about your applications and about your power over them and about the dataflow we can hardly suggest something optimal. However i can sugegst you to explore few routes.
_1. Just insert via single transaction.
inserting-application would not
commit transaction until the last data row is inserted, then the
syncing-reading-application just would not see that data. It is
uncommited - thus invisible.
That is a most natural approach based on the transaction-based nature of all real SQL servers. It has a drawback though: if insert process is slow (for example you can only calculate one row per minute and need to calculate and insert 100 rows) that would hold a very long non-commited transaction, which would cause bad influence on garbage collection and server performance. But that is the most simple way to try and see.
_2. Using Global Temporary Tables.
inserting-applicationutilizes a per-connection GTT (essential: it should be per-connection, not per-transaction!) and fills it as long as it please splitting long process to numeric transactions if it would find this useful. It does not touch the main table so the
syncing-reading-application can keep syncing as much as it please.
After per-connection GTT is filled with data the one "export" transaction is strarted that is hastily commited after a single operation:
INSERT INTO MAIN-TABLE SELECT * FROM GTT.
- there is also SQL MERGE commande that implements INSERT-OR-UPDATE functionality if that is what you really need.
After this single operation you do commit the
export transaction and do disconnect from the database. This disconnect would flush all data from the per-connection GTT in a most efficient way. You can re-connect a second later if would need to continue work.
Just like above, this strategy seems not affect the workflow for
syncing-reading-application and only need good implementation from the
_3. The really locking approach would require a complex solution, modifying both applications.
- you implement the special "updaters" table that lists
connectionID (or few ones) for every active
- you modify
syncing-reading-application so it listens for Firebird Events
- you modify
syncing-reading-application so it has internal "locked" mode and voluntarily avoids reading the database except for rare keep-alive requests like
SELECT 1 FROM RDB$DATABASE once per minute.
- you modify
syncing-reading-application so after connection it reads "updaters" table in
READ COMMITED mode and enters "locked" mode unless the table is empty
- you modify
syncing-reading-application so that receiving UPDATERS_CHANGED event it would enter "locked" mode immediately, then wait few seconds, and then read "updaters" table to see if it is empty and it can exit "locked" mode.
- you create
AFTER INSERT OR UPDATE OR DELETE trigger over "updaters" table so it would
POST_EVENT the UPDATERS_CHANGED event
- you modify the
inserting-application so that it registers its connection into "updaters" table right after the connection and
commits it immediately - see http://www.firebirdsql.org/refdocs/langrefupd15-current_connection.html
you implement ON_DISCONNECT database trigger so that if the currently disconnecting application was one of the
inserting-applications ones - you remove those rows from the "updaters" table.
DELETE FROM updaters u WHERE NOT EXISTS (
SELECT * FROM MON$ATTACHMENTS M
WHERE M.MON$ATTACHMENT_ID = u.CONNECTION_ID )
I want to repeat that this scheme relies on the behavior of
syncing-reading-application that willingly receives EVENT from database server and wilingly and voluntarily enters the "locked" mode.
And that this scheme is hardly needed given version-based nature of Firebird and more simpler lock-less approaches outlined above should suffice for most of tasks.