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What are PGXS, PGXN and PL/Java?

Introduction

PostgreSQL has rich support for server extensions. See Chapter 38: Extending SQL.

These extensions are typically used to support:

but there's really no limit to what can be done, for better or worse.

Two widely used extensions that demonstrate this additional functionality are:

This repository produces three new sets of docker images:

CI/CD (GitHub Actions)

GitHub actions are run once a week that check the upstream PostgreSQL repo then builds and deploys these new docker images as required.

Known limitation: for the pljava-dev image the Dockerfile downloads and rebuilds the Debian source package. This normally creates a predictable source directory. Unfortunately the authors of the postgresql-15-pljava package have decided to include the version of the pljava library in the source directory name.

For now I'm using a separate CI/CD pipeline and the hardcoded 1.6.4 version but the pipeline will break when the source package is updated.

This does not affect the postgres-pljava image.

Managing new extensions

Extensions must be properly packaged before they can be used. See Chapter 38.17: Packaging Related Objects into an Extension. PostgreSQL recommends the use of PGXS for this.

PostgreSQL Extension Network (PGXN) is a site that tracks published extensions that use PGXS. It provides a pgxn-client that provides a good abstraction layer over PGXS - it provides a baseline implementation of the functionality required by most extensions and reduces the need for individual developers to track all changes to the underlying PGXS infrastructure.

PL/Java is just one of the procedural languages listed at PGXN.

Many of the extensions available at PGXN are procedural languages, e.g., PL/Java.

Dockerization

The official PostgreSQL official docker images are available at https://hub.docker.com/_/postgres. There are two Debian releases (bookworm and bullseye) and one Alpine release. I highly recommend them.

Note: this is especially important if you're using TestContainers since the Postgres module knows about this repo. (Warning: the module defaults to a very old version of the database.) You need to add a bit of code for that module to accept other docker images.

This approach breaks down somewhat if your application needs one or more extensions. You want your CI/CD pipeline to start with the official PostgreSQL image, install known extensions, and then proceed to the next steps. The second step might be a challenge, esp. if you aren't aware of the official repository.

This repository contains a multistage Docker build that demonstrates how to do this.

First image: PGXN-Client

The first docker image, pgxn-client, installs the PGXN client. It is used as the basis for other docker images.

It also installs pgTAP. It is a TAP implementation for PostgreSQL server unit testing. These tests are run in the database itself, not a client, so it is able to provide incredibly useful information when writing tests for PGXS-based functionality.

Second image: PLJava

The second docker image, pljava, installs the PL/Java extension.

It also installs OpenJDK.

Important notes

  • PL/Java is limited to static methods contained within uploaded jars - it does not allow you to use java as a procedural language.
  • (iirc) PL/Java uses a separate JVM for each client connection.

TestContainers

If you're using TestContainers you'll need to take an additional step or two. My tests use

   PostgreSQLContainer getContainer() {
        DockerImageName imageName = DockerImageName.parse("beargiles/postgres-pljava:15.4").asCompatibleSubstituteFor("postgres");
        PostgreSQLContainer db = new PostgreSQLContainer(ImageName);
        db.withImagePullPolicy((s) -> false);
        return db;
    }

You'll definitely need the asCompatibleSubstituteFor() command.

You might not need the withImagePullPolicy() line - I might only need it since I've been doing local development of these docker images.

Third image: PLJava-dev

The final docker image, pljava-dev, installs a dev environment capable of rebuilding the Debian packages. In fact the Dockerfile does that as a smoke test.

You can rebuild the packages yourself with the following steps:

$ cd /usr/local/src
$ apt-get source postgresql-15-pljava
$ cd postgresql-pljava-1.6.4
$ dpkg-buildpackage --build=binary --no-sign

(Magic values correspond to 'latest' release as I write this.)

This will create a number of .deb files under /usr/local/src.

It should go without saying that you should update the changelog file and version to avoid any confusion with the official packages.

Alternatives

The official list of prebuilt PL/Java distributions includes two additional docker images.

Source code

The source code is located at github.com/beargiles/postgresql-pljava-docker.

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