The entry point for a docker container tells the docker daemon what to run when you want to "run" that specific container. Let's ask the questions "what the container should run when it's started the second time?" or "what the container should run after being rebooted?"
Probably, what you are doing is following the same approach you do with "old-school" provisioning mechanisms. Your script is "installing" the needed scripts and you will run your app as a systemd/upstart service, right? If you are doing that, you should change that into a more "dockerized" definition.
The entry point for that container should be a script that actually launches your app instead of setting things up. Let's say that you need java installed to be able to run your app. So in the dockerfile you set up the base container to install all the things you need like:
RUN apk --update upgrade && apk add openjdk8-jre-base
RUN mkdir -p /opt/your_app/ && adduser -HD userapp
ADD target/your_app.jar /opt/your_app/your-app.jar
ADD scripts/init.sh /opt/your_app/init.sh
CMD ["/bin/bash", "/opt/your_app/init.sh"]
Our containers, at the company I work for, before running the actual app in the init.sh script they fetch the configs from consul (instead of providing a mount point and place the configs inside the host or embedded them into the container). So the script will look something like:
echo "Downloading config from consul..."
confd -onetime -backend consul -node $CONSUL_URL -prefix /cfgs/$CONSUL_APP/$CONSUL_ENV_NAME
echo "Launching your-app..."
java -jar /opt/your_app/your-app.jar
One advice I can give you is (in my really short experience working with containers) treat your containers as if they were stateless once they are provisioned (all the commands you run before the entry point).