A social wall for conferences with additional features.
The name Apus is based on Apus Apus, Latin for common swift. This is a bird species that is extremely adapted to a life in the air and can stay in the air for around ten months almost without interruption and can reach speeds of more than 200 km/h during flight maneuvers. This bird breeds in a wall, flies reliably for extremely long periods without crashing and is also extremely fast. Hopefully all of this also applies to Apus: fast execution, uninterrupted and reliable operation!
See:
Platform | Status |
---|---|
Bluesky | planned |
planned | |
Mastodon | DONE |
planned |
Event | Status |
---|---|
BaselOne | planned |
CyberLand | DONE |
JavaLand | DONE |
Voxxed Days ZΓΌrich | planned |
Feature | Status |
---|---|
Running text with updates | planned |
Show sponsor information | planned |
Use event based styling | planned |
Apus uses Maven to build the project. Please use standard Maven commands to build what you need:
Command | What it does |
---|---|
./mvnw |
compile and run the app |
./mvnw clean |
cleanup generated files and build artefacts |
./mvnw compile |
compile the code without running the tests |
./mvnw test |
compile and run all tests |
./mvnw package |
compile, test, and create a JAR file to run it with Java directly |
./mvnw verify |
compile, test, package, and run analysis tools |
There is no need to run the install
or deploy
tasks. They will just run longer, produce unnecessary output, burn energy, and occupy your disk space. Don't just blindly run mvn clean install...
Apus comes with a complete dockerized build for production use. It is not recommended to use the self-contained build for development purposes. Please take a look at the section about Production Build below.
To run from the command line, run ./mvnw
and open http://localhost:8080 in your browser.
- Locate the
Application.java
class in the project view. It is in thesrc
folder, under the main package's root. - Right-click on the
Application
class - Select "Debug 'Application.main()'" from the list
After the server has started, you can view the UI at http://localhost:8080/ in your browser. You can now also attach breakpoints in code for debugging purposes, by clicking next to a line number in any source file.
- Locate the
Application.java
class in the package explorer. It is insrc/main/java
, under the main package. - Right-click on the file and select
Debug As
-->Java Application
.
Do not worry if the debugger breaks at a SilentExitException
. This is a Spring Boot feature and happens on every startup.
After the server has started, you can view it at http://localhost:8080/ in your browser. You can now also attach breakpoints in code for debugging purposes, by clicking next to a line number in any source file.
Apus can be started without any specific configuration. All configuration options have working default values.
To modify the default configuration values, just specify environment variables with the following names:
Variable | Default | Description |
---|---|---|
ADMIN_PASSWORD | The hashed password to get admin access (empty = disabled). | |
DEMO_ROOM_COUNT | 0 | Number of rooms for the event demo plugin (0 = disabled). |
DOAG_EVENT_API | [1] | The URL of the DOAG event API to read the conference agenda. |
DOAG_EVENT_ID | 0 | The ID of the DOAG event to read the conference agenda (0 = disabled). |
EVENT_UPDATE_FREQUENCY | 5 | How often (in minutes) to update event data (0 = disabled). |
FILTER_LENGTH | 500 | Hide social media posts which exceed this length (0 = disabled). |
FILTER_REPLIES | true | Hide social media posts which are replies. |
FILTER_SENSITIVE | true | Hide social media posts which contain sensitive information. |
FILTER_WORDS | Hide social media posts which contain these words. | |
MASTODON_HASHTAG | The hashtag for the mastodon wall (empty = disabled). | |
MASTODON_IMAGE_LIMIT | 1 | Limit number of images per post (0 = no limit). |
MASTODON_IMAGES_ENABLED | true | Enable or disable images in mastodon posts. |
MASTODON_INSTANCE | The Mastodon instance used to read the posts from (empty = disabled). | |
TZ | UTC | The timezone used for date and time calculations. |
The environment variables will override the default values. Some default values might be too long to be displayed in this table. They are marked with a number in square brackets and can be looked up in the following list:
For security reasons the password is not stored in cleartext. Apus requires the password to be hashed using bcrypt. Of course, Apus can do this for you. Start the JAR file providing the parameter -p
followed by the password you want to create a hash for. The output will show you two lines of code. The first line contains the hashed password and the second line contains the same hashed password, but with the dollar signs escaped ready to copy and paste it into a docker-compose.yaml
. Example:
java -jar apus.jar -p 12345
Hashed password for environment variable: $2a$10$nybQbl/iY8SRJkfHJVncS.L5.OC3KJ6VRBYVAID7qnUqwylmn/BtK
Hashed password for Docker Compose file: $$2a$$10$$nybQbl/iY8SRJkfHJVncS.L5.OC3KJ6VRBYVAID7qnUqwylmn/BtK
All configuration files are completely optional and stored in an .apus
subdirectory of the home directory of the user running Apus.
File | Description |
---|---|
blockedProfiles |
This file contains blocked profiles, one per line. |
hiddenPostIds |
This file contains IDs of hidden posts, one per line. |
You can use Maven to build Apus for production. Just specify the production
profile. Example:
./mvnw clean package -Pproduction
To create a production build for Apus it is highly recommended to use Docker or Podman. Apus comes with a complete dockerized self-contained build. You don't need to have Maven or Java installed, Docker or Podman is enough. The Docker build file contains everything needed, just start a standard Docker build with the following command:
docker build -t apus .
This might run for a while and will produce a Docker image tagged apus
on your local system.
It is highly recommended to use Docker or Podman to run Apus in production. Use the following command line as an example:
docker run \
--name apus \
-p 80:8080 \
-v $HOME/.apus:/home/apus/.apus \
-e ADMIN_PASSWORD=sEcrEt \
-e DEMO_ROOM_COUNT=12 \
-e MASTODON_INSTANCE=mastodon.social \
-e MASTODON_HASHTAG=java \
-e TZ=CET \
-d \
--rm \
mcpringle/apus
Short explanation, consult the Docker or Podman documentation for more information about all available options for running an image.
Option | Explanation |
---|---|
--name apus | Specify the name for the running instance. |
-p 80:8080 | Make Apus available on host port 80 |
-e KEY=value | Configure Apus using environment variables. |
-d | Run Apus in daemon mode (background). |
--rm | Remove the container when stopping Apus. |
mcpringle/apus | The Docker image to be started. |
Modify this command according your needs and consult the configuration section above for more information about how to configure Apus. The Docker image of Apus will be pulled from Docker Hub automatically when not available locally.
Apus uses a simple plugin technology to import the agenda of various events. Plugins are currently available for the following events:
Plugin | Supported Events |
---|---|
DemoPlugin |
Creates fake session data for demo purposes. |
DoagPlugin |
CloudLand, CyberLand, JavaLand, KI Navigator |
Plugins for other events are planned.
Apus uses a simple plugin technology to import posts from various social media services. Plugins are currently available for the following services:
Plugin | Supported Services |
---|---|
MastodonPlugin |
Mastodon |
Plugins for other social media services are planned.
Everyone is welcome to contribute a plugin themselves. The implementation is very simple. There are two types of plugins: EventPlugin
and SocialPlugin
. For a new plugin, a new package is created under swiss.fihlon.apus.plugin.event
or swiss.fihlon.apus.plugin.social
, based on the plugin type. The implementation is carried out in this new package. Implement one of these two interfaces depending on the plugin type you want to contribute.
If your implementation requires a configuration, the Configuration
class must be extended accordingly. Add a property and corresponding setters and getters in the marked sections. Implement the settings object as a record
in your new plugin package. Take one of the existing plugins as a template. Default settings belong in the file application.properties
and the corresponding schema is stored in additional-spring-configuration-metadata.json
. Of course, this README.md
must also be adapted.
There is a channel at Matrix for quick and easy communication. This is publicly accessible for everyone. For developers as well as users. The communication in this chat is to be regarded as short-lived and has no documentary character.
You can find our Matrix channel here: @project-apus:ijug.eu
We use the corresponding GitHub function for discussions. The discussions held here are long-lived and divided into categories for the sake of clarity. One important category, for example, is that for questions and answers.
Discussions on GitHub: https://github.com/McPringle/apus/discussions
Questions and Answers: https://github.com/McPringle/apus/discussions/categories/q-a
To find possible tasks for your first contribution to Apus, we tagged some of the hopefully easier to solve issues as good first issue.
If you prefer to meet people in real life to contribute to Apus together, we recommend to visit a Hackergarten event. Apus is often selected as a contribution target in Lucerne, Zurich, and at the JavaLand conference.
Please join our developer community using our Matrix chat to get support and help for contributing to Apus.
It is important to sign-off every commit. That is a de facto standard way to ensure that you have the right to submit your content and that you agree to the DCO (Developer Certificate of Origin).
You can find more information about why this is important and how to do it easily in a very good blog post by Josef Andersson.
We love to add an emoji to the beginning of every commit message which relates to the nature of the change. You can find a searchable list of possible emojis and their meaning in the overview on the gitmoji website. If you prefer, you can also install one of the plugins that are available for almost all common IDEs.
AI generated source code is based on real existing source code, which is copied in whole or in part into the generated code. The license of the original source code with which the AI was trained is not taken into account. It is therefore not clear which license conditions apply and how these can be complied with. For legal reasons, we therefore do not use AI-generated source code at all.
Special thanks for all these wonderful people who had helped this project so far (emoji key):
Marcus Fihlon π π€ π» π¨ |
Jean-Christophe Gueriaud π» |
Marlon π |
tlangdun π§ |
MarkusBarthlen π§ |
Max Albrecht π |
Stefan Mallia π» |
jzfrank π» |
Interactiondesigner π¨ |
Copyright (C) Marcus Fihlon and the individual contributors to Apus.
This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License along with this program. If not, see http://www.gnu.org/licenses/.