The parser now handles `BEGIN…END` blocks better by properly handling `IF()` functions that are not `IF…THEN…END IF` control blocks, and `CASE … WHEN … END CASE` control blocks.
From L49 - one DDL test case for PROCEDURE ,
From L278 - one DDL test case for FUNCTION ,
From L433 - one more DDL test case for PROCEDURE with CURSOR,
From L713 - ONE more DDL TEST FOR PROCEDURE,
From L755 - ONE more DDL TEST CASE FOR FUNCTION
Added a test case that uses the MySQL DDL parser to parse similar DDL statements to those reported in the issue, but these are properly handled with the current state of the `master` branch.
Added a table and inserted rows that tries to replicate the problem reported in DBZ-195, but the test was unable to replicate the problem. In fact, this really is no different than existing tests. Changed the log messages so that if/when this happens again it will be possible to know which row was problematic.
MySQL represents an invalid enum literal in the binlog events as an empty string or an value of `0`. Now, when the connector comes across such a value in the binlog, it will instead use an empty string for the enum literal.
The MySQL parser now properly handles control blocks such as `BEGIN…END`, `IF…END IF`, `REPEAT…END REPEAT`, and `LOOP…END LOOP`, even in cases where the block is preceded by and terminated by a label.
Apparently not all reserved words must be quoted when using them as colum names, so refactored MySQL’s DDL parser to better handle a variety of unquoted colum names that are reserved words.
The MySQL connector’s built-in table filter now just filters out all tables within the known built-in databases, and does not check the names of the tables. Thus, the connector should no longer filter out tables in other databases that happen to have the same names as the tables in the built-in databases.
Corrected the MySQL DDL parser to correctly handle `FULLTEXT` indexes within a `CREATE TABLE` statement. The parser was incorrectly using `canConsume(…)` with a list of options instead of `canConsumeAnyOf(…)`.
With GTIDs enabled, each transaction in the binlog contains a GTID event, which gives us access to the GTID of the transaction. The GTID has the following format: source_id:transaction_id, where source_id is the UUID of the mysql server the transaction was written to.
I propose to allow a debezium instance to be configured with a UUID pattern to check against before producing DML events into Kafka. Debezium would produce a DML event into kafka if and only if the UUID in the event's GTID matches the pattern with which debezium was configured.
The configuration for the UUID patterns will make use of the existing gtid.source.includes and gtid.source.excludes options. The DML event filtering will only be performed if the new option gtid.source.filter.dml.events is true.
Changed the GTID source filters in the MySQL connector to be far more efficient when the filters specify literal UUIDs rather than regex patterns. In these cases, the predicate just checks whether a supplied value is in a hash set, and no regular expression patterns are used.
The GTID source filters can still be a combination of UUID literals and regular expressions, and the predicate will use the best implementation for each. For example, if the filters include all UUID literals, then regular expressions will never be used.