You wouldn't normally need to use explicit locks unless you have a race condition and heavy concurrent load in your application. It's generally best to streamline write access, so that all processes access tables and rows in the same order to avoid deadlocks. The
DELETE commands collects locks just as fast as
SELECT FOR UPDATE does.
I don't think it is possible to do that with a single
SELECT FOR UPDATE.
Just lock rows in all tables sequentially:
PERFORM 1 FROM user_role x WHERE x.user_id = id FOR UPDATE;
PERFORM 1 FROM user_permission x WHERE x.user_id = id FOR UPDATE;
Locks are collected "as you go" and released at the end of the transaction. Since a function is inside a transaction automatically, all locks remain at least until the end of the function.
- Inside a plpgsql function use
PERFORM instead of
SELECT, since you don't actually want any rows returned.
- Beware of name conflicts. I used table-qualified column names in my example.