This is a self-contained demo using Materialize.
This demo would show you how to use Materialize to join MySQL and Postgres in a live materialized view.
For this demo, we are going to monitor the orders on our demo website and generate events that could, later on, be used to send notifications when a cart has been abandoned for a long time.
Before you get started, you need to make sure that you have Docker and Docker Compose installed.
You can follow the steps here on how to install Docker:
As shown in the diagram above we will have the following components:
- A mock service to continually generate orders.
- The orders would be stored in a MySQL database.
- As the database writes occur, Debezium streams the changes out of MySQL to a Redpanda topic.
- We also would have a Postgres database where we would get our users from.
- We would then ingest this Redpanda topic into Materialize directly along with the users from the Postgres database.
- In Materialize we will join our orders and users together, do some filtering and create a materialized view that shows the abandoned cart information.
- We will then create a sink to send the abandoned cart data out to a new Redpanda topic.
- You could, later on, use the information from that new topic to send out notifications to your users and remind them that they have an abandoned cart.
As a side note here, you would be perfectly fine using Kafka instead of Redpanda. I just like the simplicity that Redpanda brings to the table, as you can run a single Redpanda instance instead of all of the Kafka components.
Running the demo
First, start by cloning the repository:
git clone https://github.com/bobbyiliev/materialize-tutorials.git
After that you can access the directory:
Let's start by first running the Redpanda container:
docker-compose up -d redpanda
Build the images:
Finally, start all of the services:
docker-compose up -d
In order to Launch the Materialize CLI, you can run the following command:
docker-compose run mzcli
This is just a shortcut to a docker container with
postgres-clientpre-installed, if you already have
psqlyou could run
psql -U materialize -h localhost -p 6875 materializeinstead.
Create a Materialize Kafka Source
Now that you're in the Materialize CLI, let's define the
orders tables in the
mysql.shop database as Redpanda sources:
CREATE SOURCE orders FROM KAFKA BROKER 'redpanda:9092' TOPIC 'mysql.shop.orders' FORMAT AVRO USING CONFLUENT SCHEMA REGISTRY 'http://redpanda:8081' ENVELOPE DEBEZIUM;
If you were to check the available columns from the
orders source by running the following statement:
SHOW COLUMNS FROM orders;
You would be able to see that, as Materialize is pulling the message schema data from the Redpanda registry, it knows the column types to use for each attribute:
name | nullable | type --------------+----------+----------- id | f | bigint user_id | t | bigint order_status | t | integer price | t | numeric created_at | f | text updated_at | t | timestamp
Create materialized views
Next, we will create our first Materialized View, to get all of the data from the
orders Redpanda source:
CREATE MATERIALIZED VIEW orders_view AS SELECT * FROM orders;
CREATE MATERIALIZED VIEW abandoned_orders AS SELECT user_id, order_status, SUM(price) as revenue, COUNT(id) AS total FROM orders_view WHERE order_status=0 GROUP BY 1,2;
You can now use
SELECT * FROM abandoned_orders; to see the results:
SELECT * FROM abandoned_orders;
For more information on creating materialized views, check out the Materialized Views section of the Materialize documentation.
Create Postgres source
There are two ways to create a Postgres source in Materialize:
- Using Debezium just like we did with the MySQL source.
- Using the Postgres Materialize Source, which allows you to connect Materialize direct to Postgres so you don't have to use Debezium.
For this demo, we will use the Postgres Materialize Source just as a demonstration on how to use it, but feel free to use Debezium instead.
To create a Postgres Materialize Source run the following statement:
CREATE MATERIALIZED SOURCE "mz_source" FROM POSTGRES CONNECTION 'user=postgres port=5432 host=postgres dbname=postgres password=postgres' PUBLICATION 'mz_source';
A quick rundown of the above statement:
MATERIALIZED: Materializes the PostgreSQL source’s data. All of the data is retained in memory and makes sources directly selectable.
mz_source: The name for the PostgreSQL source.
CONNECTION: The PostgreSQL connection parameters.
PUBLICATION: The PostgreSQL publication, containing the tables to be streamed to Materialize.
Once we've created the PostgreSQL source, in order to be able to query the PostgreSQL tables, we would need to create views that represent the upstream publication’s original tables. In our case, we only have one table called
users so the statement that we would need to run is:
CREATE VIEWS FROM SOURCE mz_source (users);
To see the available views execute the following statement:
SHOW FULL VIEWS;
Once that is done, you can query the new views directly:
SELECT * FROM users;
Next, let's go ahead and create a few more views.
Create Kafka sink
Sinks let you send data from Materialize to an external source.
For this Demo, we will be using Redpanda.
Redpanda is a Kafka API-compatible and Materialize can process data from it just as it would process data from a Kafka source.
Let's create a materialized view, that will hold all of the high volume unpaid orders:
CREATE MATERIALIZED VIEW high_value_orders AS SELECT users.id, users.email, abandoned_orders.revenue, abandoned_orders.total FROM users JOIN abandoned_orders ON abandoned_orders.user_id = users.id GROUP BY 1,2,3,4 HAVING revenue > 2000;
As you can see, here we are actually joining the
users view which is ingesting the data directly from our Postgres source, and the
abandond_orders view which is ingesting the data from the Redpanda topic, together.
Let's create a Sink where we will send the data of the above materialized view:
CREATE SINK high_value_orders_sink FROM high_value_orders INTO KAFKA BROKER 'redpanda:9092' TOPIC 'high-value-orders-sink' FORMAT AVRO USING CONFLUENT SCHEMA REGISTRY 'http://redpanda:8081';
Now if you were to connect to the Redpanda container and use the
rpk topic consume command, you will be able to read the records from the topic.
However, as of the time being, we won’t be able to preview the results with
rpk because it’s AVRO formatted. Redpanda would most likely implement this in the future, but for the moment, we can actually stream the topic back into Materialize to confirm the format.
First, get the name of the topic that has been automatically generated:
SELECT topic FROM mz_kafka_sinks;
topic ----------------------------------------------------------------- high-volume-orders-sink-u12-1637586945-13670686352905873426
For more information on how the topic names are generated check out the documentation here.
Then create a new Materialized Source from this Redpanda topic:
CREATE MATERIALIZED SOURCE high_volume_orders_test FROM KAFKA BROKER 'redpanda:9092' TOPIC ' high-volume-orders-sink-u12-1637586945-13670686352905873426' FORMAT AVRO USING CONFLUENT SCHEMA REGISTRY 'http://redpanda:8081';
Make sure to change the topic name accordingly!
Finally, query this new materialized view:
SELECT * FROM high_volume_orders_test LIMIT 2;
Now that you have the data in the topic, you can have other services connect to it and consume it and then trigger emails or alerts for example.
In order to access the Metabase instance visit
http://localhost:3030 if you are running the demo locally or
http://your_server_ip:3030 if you are running the demo on a server. Then follow the steps to complete the Metabase setup.
Make sure to select Materialize as the source of the data.
Once ready you will be able to visualize your data just as you would with a standard PostgreSQL database.
Stopping the Demo
To stop all of the services run the following command:
As you can see, this is a very simple example of how to use Materialize. You can use Materialize to ingest data from a variety of sources and then stream it to a variety of destinations.
As a second part of this demo, we will build upon the current demo and add more functionality to make represent a more realistic eCommerce website and a more realistic data pipeline.
To learn more about SQL, I could suggest this free eBook here: