What happens when you let engineers go wild building an application to track the score of a table football game? This blog post shares SPOUD’s story of engineering a simple application with Apache Kafka®, ksqlDB, and Red Hat’s Quarkus. Spoiler alert: It was a blast!
We are SPOUD, a small company based in Bern, the capital of Switzerland. We’re specialised in event-driven architectures, real-time decision-making, and streaming technologies, especially Kafka. Similar to other startups with spare office space, we created a small playground in the office to play table football. Being the geeks we are, we always find ways to make simple things look fancy, which is why we created “Töggelomat” (in Swiss German, “töggele” means “table football”), an application that keeps track of game scores and matches players according to their skills. Unfortunately, due to COVID-19, we don’t play as much as we used to.
We initially decided to make Töggelomat a reality at last year’s SPOUD hackathon. As stated earlier, we use Kafka a lot and have expertise in running clusters, connecting to data with Kafka Connect, and using AI together with stream processing. However, we hadn’t gotten the chance to really use ksqlDB, and we wanted to try it out with Quarkus.
As we now dive deep into the technical details behind building Töggelomat, you can look at our GitHub project for the source code. Note: the ksqlDB queries are very interesting.
First, we needed to think in terms of events versus static databases because everything is an event. Using the event sourcing technique, we created a topic with a list of current employees.
Then, using ksqlDB queries, we created players with a starting score of 500 points.
INSERT INTO toeggelomat_player SELECT uuid, nickName, email, 500 as defensePoints, 500 as offensePoints FROM employee;
With the query above, the
toeggelomat_player compacted topic is filled every time a new employee is added to the topic
To generate a new match, the Töggelomat application reads the last state from the
toeggelomat_player topic and randomizes a fair match. Once the players are chosen, the application generates a new match and displays it in the front end. When the match is done, the score is entered in the UI and the application publishes the topic
toeggelomat_match_result. The topic is visible in SPOUD’s data platform product, Agoora, and displays the description of the topic, the inferred schema, and the profile with some example data. Feel free to register and try it out for yourself.
After a match result, we need to compute the score, which is based on the skills of the players. If two higher-ranked players win against two lower-ranked players, they will not earn a lot of points. In reverse, if the lower-ranked players win, they will be generously rewarded. The point computation is done in the application, and the score is published on the topic
With ksqlDB, we create four entries (one for each player) in the topic
toeggelomat_point_change based on the score published in the topic
toeggelomat_scores. The point changes are then applied to the topic
toeggelomat_player, to close the loop.In summary:
After two hackathon days and a few beers, the results looked like this, with the main page of the application showing the rank of each player:
Then players are selected and a random match is generated.
We expose the data as an “offer,” similar to what we call them in Agoora. The offer has a description as well as the data schema and profile. The profile is useful to data scientists who want to look more closely at the data.
It’s honestly overkill to use so many topics for such a small use case, but the main point was to learn something, and we did! First of all, Quarkus is awesome and could really be the next Spring Boot. It’s a perfect match for Kafka and the cloud in general. Its reactive nature really helps when writing an event-driven application. Plus, its startup time and low memory footprint are better than that of a standard Java application.
Ever since the hackathon, SPOUD has been integrating Quarkus more and more. KsqlDB is also really great and easy to use. It gives you the sense of a database management system (DBMS), but you are in fact working with event streams.
At the same time, you can even join streams! Isn’t that awesome? Think about all the possibilities! Yet, our use case also highlighted some pain points. For example, there is a loop, the match score is dependent on the player’s ranking, and the ranking is also influenced by the score. In a DBMS, you have a defined state at any moment, and all changes in the state are ensured by transactions. Although this makes ensuring consistency easier, events give you the flexibility to scale. For this particular use case, there is at most one match every five minutes, so the loop has the time to complete before the next match. With time-sensitive use cases, you want to avoid loops as much as possible.
The use case presented in this blog post used Confluent Cloud, which was inexpensive since there wasn’t a lot of data.
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Confluent also allows you to leverage ksqlDB as a service, although in our case the lowest instance available was bigger than what we were looking for. And because an SLA wasn’t essential for our use case, we decided to run our own ksqlDB server based on the documentation and using the Docker image from Confluent.
Now that this project works we can think of what’s next? Here are some additional ideas that we could implement based on the modularity of dedicated topics:
For more information about Töggelomat, check out our Kafka Summit 2020 talk.
Gaétan Collaud works as a senior full-stack developer at SPOUD. Throughout his professional career, he has been working as a software engineer and developer mainly at startups, but he also has experience at large organizations like state departments and insurance companies. He is the co-owner of an IoT company specialized in ultra-low power devices using the LoRa network. Gaétan is passionate about cloud-based projects and is a real explorer—he loves to try out new technologies and stay abreast of the latest and greatest technological developments.