Using the MySQL isolation level of Repeatable Read.
test having non-indexed column
id | quantity -------------------- 1 | 10 2 | 20 3 | 30
Tx1 executes 1st, note it is not committed yet, meaning that all the acquired locks are not released yet.
START TRANSACTION; DELETE FROM test WHERE quantity=10;
Now executing Tx2
START TRANSACTION; INSERT INTO test(quantity) VALUES (40); COMMIT;
For Tx2 I get the following result:
Lock wait timeout exceeded; try restarting transaction
I understand that, as the
quantity column is not indexed, the
delete statement does a full table scan, locks all the rows( doesn't matter the
where condition matches or not) and also applies gap locks before every and after the last index record in a Clustered Index resulting in a fully blocked table hence the
insert statement from tx2 cannot acquire a lock for a row to be inserted.
From MySQL manual(for Repeatable Read isolation level):
For a unique index with a unique search condition, InnoDB locks only the index record found, not the gap before it.
For other search conditions, InnoDB locks the index range scanned, using gap locks or next-key locks to block insertions by other sessions into the gaps covered by the range (this is used in my case).
Taking into account that the locking in any given isolation level is applied for preventing the
phenomenas I'm a little bit confused what is the reason to block the whole table in this case, I mean what kind of
phenomena is prevented with blocking the whole table in this case ?