Rocket Show is a system to automate and play shows including audio, video, lighting (e.g. DMX) and MIDI on Raspberry Pi devices.
Check our website: https://rocketshow.net
Refer to the docs to find out how to use Rocket Show.
- Build:
./mvnw clean package - Start:
java -jar target/rocketshow.jar - Open the web app on http://localhost:8080
Use this command to skip tests and NPM build:
./mvnw package -Dskip.npm -Dmaven.test.skip=true && java -jar target/rocketshow.jarFor frequent builds, you might want to comment out the frontend-maven-plugin in the POM and make use of the Maven
parameter -DskipTests.
While developing the web app, it might be convenient to start an Angular server:
- Add this entry to your hosts file (e.g. /etc/hosts on the Mac) to connect to a rocketshow.local server:
127.0.0.1 app.rocketshow.local. If you connect to another device not behind mDNS rocketshow.local, you need to add the IP with rocketshow.local as well. - Install npm packages (force required because some dependency conflicts):
cd src/main/webapp && npm install --force - Start the server with a local backend
npx serveor a device backendng serve --host app.rocketshow.local --port 4200 - Open the web application: http://localhost:4200
On the Mac, Gstreamer and OLA can be installed using Homebrew:
To debug Gstreamer issues, export GST_DEBUG before starting the server:
export GST_DEBUG=3Pipelines can be tested using gst-launch-1.0. E.g.:
gst-launch-1.0 videotestsrc ! videoconvert ! autovideosink
gst-launch-1.0 uridecodebin uri=file:///opt/rocketshow/media/video/clouds.mp4 ! queue ! kmssink
gst-launch-1.0 uridecodebin uri=file:///opt/rocketshow/media/audio/head_smashed_far_away.wav ! audioconvert ! audioresample ! "audio/x-raw,rate=44100" ! alsasink device=rocketshowTo test audio playback with alsa:
aplay -D rocketshow /opt/rocketshow/media/audio/head_smashed_far_away.wavbrew install gstreamer
brew install gst-plugins-base
brew install gst-plugins-good
brew install gst-plugins-bad
brew install gst-plugins-ugly
brew install olaA few testpipelines for Mac:
gst-launch-1.0 videotestsrc ! videoconvert ! osxvideosink
gst-launch-1.0 uridecodebin uri=file:///opt/rocketshow/media/video/clouds.mp4 ! queue ! osxaudiosinkLaunch the OLA daemon on Mac:
oladLaunch Rocket Show on the mac:
./start.shUse the following HTTP endpoint to check the health (available without security): GET /api/system/health
Use the following HTTP endpoint to run some system tests (available without security, as long as the initial setup is not yet completed): POST /api/system/test
To build the OLA Client jar required by Rocket Show, follow these steps on a mac:
# install protobuf 21 (newer versions of protobuf don't work by OCT 2024, because of too old cpp versions used in dependencies, see https://github.com/protocolbuffers/protobuf/issues/12393)
brew install protobuf@21 autoconf automake libtool cppunit
echo 'export PATH="/opt/homebrew/opt/protobuf@21/bin:$PATH"' >> ~/.zshrc
export LDFLAGS="-L/opt/homebrew/opt/protobuf@21/lib"
export CPPFLAGS="-I/opt/homebrew/opt/protobuf@21/include"
export PKG_CONFIG_PATH="/opt/homebrew/opt/protobuf@21/lib/pkgconfig"
autoreconf -i
./configure --enable-java-libs
make -j$(nproc)
Building is recommended on a Raspberry Pi device with enough storage. Steps to follow:
- Switch to user
root:
sudo su - root- Update apt:
apt-get update-
Prepare the environment according to [https://github.com/RPi-distro/pi-gen](pi-gen Readme) (e.g. install the required dependencies)
-
Run the following script (might take about 45 minutes)
cd /opt
rm -rf build
mkdir build
cd build
git clone https://github.com/RPi-distro/pi-gen.git
cd pi-gen
git checkout tags/2025-12-04-raspios-trixie-arm64
echo "IMG_NAME='RocketShow'" > config
touch ./stage3/SKIP ./stage4/SKIP ./stage5/SKIP
rm stage4/EXPORT* stage5/EXPORT*
# Disable noobs build
rm stage2/EXPORT_NOOBS
# Enhance stage2 with rocketshow
mkdir ./stage2/99-rocket-show
cat <<'EOF' >./stage2/99-rocket-show/00-run-chroot.sh
#!/bin/bash
#
cd /tmp
wget https://rocketshow.net/install/script/raspbian.sh
chmod +x raspbian.sh
./raspbian.sh
rm -rf raspbian.sh
EOF
chmod +x ./stage2/99-rocket-show/00-run-chroot.sh
./build.sh
# rename and zip the image
cd work/RocketShow/export-image
mv "$(date '+%Y-%m-%d')-RocketShow-lite.img" "$(date '+%Y-%m-%d')-RocketShow.img"
zip "$(date '+%Y-%m-%d')-RocketShow.zip" "$(date '+%Y-%m-%d')-RocketShow.img"
# copy the zip to a folder where we can get it with SFTP:
mv "$(date '+%Y-%m-%d')-RocketShow.zip" /home/rocketshow- Update POM
- Update dist/currentversion2.xml version/date on top and add the release notes
- Build the jar with Maven
./mvnw clean package - Copy target/rocketshow.jar to rocketshow.net/update/test/rocketshow.jar (and parent-directory to release it directly)
- Copy dist/currentversion2.xml to rocketshow.net/update/test/currentversion2.xml (and parent-directory to release it directly)
- GIT merge DEV branch to MASTER
- GIT tag with the current version
- Switch back to DEV
- Copy install/.sh scripts to rocketshow.net/install/script/.sh, if updated
- Copy dist/before.sh, dist/after.sh to rocketshow.net/update/xy.sh, if updated
- Copy the new complete image to rocketshow.net/install/images and change the file latest.php to link the new version
- Copy seed directory directory.tar.gz to rocketshow.net/install, if updated
The built application should be uploaded to rocketshow.net/update and be named "rocketshow.jar". The file " currentversion2.xml" can be modified accordingly.
The Rocket Show server is written in Java and uses Spring Boot (https://spring.io/projects/spring-boot). Gstreamer (https://gstreamer.freedesktop.org/), a framework written in C, is included as multimedia playback backend.
Spring services are autowired into each other (dependency injection). The interface is named XyService, the corresponding implementation is called DefaultXyService.
The class RocketShowApplication serves as the application entry point. Some beans are initialized in the correct order.
There is a player service, which organises all composition players (responsible for the playback of a single composition). Parallel playbacks are possible as well.
The code is structured in different modules, which are described in more details below.
A few base services and models lie in the root folder (e.g. settings, session-handling).
This module is responsible for the communication with the web app and with other Rocket Show devices. A couple of REST interfaces are exposed as well as some web sockets for time critical topics or where server push is required.
Services related to audio playback.
The Gstreamer audio pipeline looks like this:
uridecodebin
-> audioconvert mix-matrix=...
-> audioresample
-> audiomixer
-> capsfilter audio/x-raw,rate=48000,channels=2
(-> level)
-> queue
-> volume
-> alsasink
Handling the composition and the composition player.
Rocket Show specific calls to the native Gstreamer C api.
Handling the image displaying.
Responsible for the connection of Rocket Show to the Open Lighting Architecture to control connected lighting interfaces. Services for designer project playback also lies here.
The sources of the inluded jar file with the OLA client are copied from an archive into ola-java-client-src.
MIDI input, output routing and mapping.
Raspberry Pi specific services (e.g. GPIO triggers). Check the Raspberry Pi GPIO state like this:
gpioget -c gpiochip0 24Where active = high and inactive = low.
Various utilities used across the project.
TODO