* Adding support for PostGIS geometry types
* Adding support for GEOMETRY, POLYGON and more in MySQL
* For all newly supported types, changes are represented using two new schema types Geometry and Geography, containing the WKB (binary geo data) ans srid (coord system identifier)
* The existing Point type also contains the new (optional) srid field
These new modules run during the '-Passembly' profile and use the new integration test framework that compares all
output produced by a connector to expected results that were previously recorded and verified. These integration test modules
can be run manually with a simple build of those modules or their parent; only the top-level 'integration-tests' module is run
during the assembly profile during builds of the entire codebase.
The Travis-CI builds run the Maven build using the `assembly` profile, and this has been failing quite a bit lately.
The first problem appears to be that the Travis-CI environment recently changed to have port 3306 taken, which means that our build fails to start any Docker containers for MySQL that attempt to use this port. A simple fix is to use different ports for the assembly build.
However, trying to change the port numbers for some of the profiles caused a lot of problems, and to correct these required refactoring how the properties are set. The Docker Maven plugin is now configured with separate properties that are set once (depending upon the profile) to determine the port assignments of the various Docker containers. The Failsafe plugin executions then use these Maven properties when setting the system variables (e.g., `database.host`) needed in the integration tests. This appears to have worked, but it still is a bit fragile. For example, the assembly profile defines several Failsafe executions, and during this profile these should be the only executions run; however, if not all the properties are set properly, the build seems to also run the default Failsafe execution in addition to the other `assembly` profile executions. (I think properties can’t only be defined in the execution, but need to also be defined in the Failsafe configuration.)
The “alternative” MySQL Docker images were removed, since they basically should not provide any different behavior than the `mysql/mysql-server` images we normally used. The extra containers required a lot more resources to run and dramatically increased the complexity of the build.
A few other trivial changes were made.
The mysql:5.7 docker image changed its output to be more like mysql/mysql-server:5.7, and this broke our build because of what our build is looking for while waiting to for the server to completely intialize. Simply changing the pattern corrects the problem.
Changed the build so that the `assembly` profile runs the MySQL integration tests three times, once against each of the three MySQL configurations:
# MySQL server w/o GTIDs
# MySQL server w/ GTIDs
# The Docker team's MySQL server image w/o GTIDs
The normal profiles are still available:
# The default profile runs the integration tests once against MySQL server w/o GTIDs
# `gtid-mysql` runs the integration tests against MySQL server w/ GTIDs
# `alt-mysql` runs the integration tests against the Docker team's MySQL server image w/o GTIDs
# `skip-integration-tests` (or `-DskipITs`) skips the integration tests altogether
Added a Maven profile to the MySQL connector component with a Docker image that runs MySQL with GTIDs enabled. The same integration tests can be run with it using `-Pgtid-mysql` or `-Dgtid-mysql` in the Maven build.
When the MySQL connector starts up, it now queries the MySQL server to detect whether GTIDs are enabled, and if they are it will also verify that any GTID sets from the most recently recorded offset are still available in the MySQL server (similarly to how it was already doing this for binlog filenames). If the server does not have the correct coordinates/GTIDs, the connector fails with a useful error message.
This commit also tests and adjusts the `GtidSet` class to better deal with comparisons of GTID sets for proper ordering.
It also changes the connector to output MySQL's timestamp for each event using _second_ precision rather than artificially in _millisecond_ precision. To clarify the different, this change renames the field in the event's `source` structure that records the MySQL timestamp from `ts` to `ts_sec`. Similarly, the envelope's field that records the time that the connector processed each record was renamed from `ts` to `ts_ms`.
All unit and integration tests pass with the default profile and with the new GTID-enabled profile.
The `VerifyRecord` utility class has methods that will verify a `SourceRecord`, and is used in many of our integration tests to check whether records are constructed in a valid manner. The utility already checks whether the records can be serialized and deserialized using the JSON converter (provided with Kafka Connect); this change also checks with the Avro Converter (which produces much smaller records and is more suitable for production).
Note that version 3.0.0 of the Confluent Avro Converter is required; version 2.1.0-alpha1 could not properly handle complex Schema objects with optional fields (see https://github.com/confluentinc/schema-registry/pull/280).
Also, the names of the Kafka Connect schemas used in MySQL source records has changed.
# The record's envelope Schema used to be "<serverName>.<database>.<table>" but is now "<serverName>.<database>.<table>.Envelope".
# The Schema for record keys used to be named "<database>.<table>/pk", but the '/' character is not valid within a Avro name, and has been changed to "<serverName>.<database>.<table>.Key".
# The Schema for record values used to be named "<database>.<table>", but to better fit with the other Schema names it has been changed to "<serverName>.<database>.<table>.Value".
Thus, all of the Schemas for a single database table have the same Avro namespace "<serverName>.<database>.<table>" (or "<topicName>") with Avro schema names of "Envelope", "Key", and "Value".
All unit and integration tests pass.
Modified the 'docs' profile to build and attach JavaDoc JARs for each module's source and test source artifacts. The profile will be automatically used when releasing.