Docker uses /var/lib/docker to store your images, containers, and local named volumes. Deleting this can result in data loss and possibly stop the engine from running. The overlay2 subdirectory specifically contains the various filesystem layers for images and containers.
To cleanup unused containers and images, see
docker system prune. There are also options to remove volumes and even tagged images, but they aren't enabled by default due to the possibility of data loss:
$ docker system prune --help
Usage: docker system prune [OPTIONS]
Remove unused data
-a, --all Remove all unused images not just dangling ones
--filter filter Provide filter values (e.g. 'label=<key>=<value>')
-f, --force Do not prompt for confirmation
--volumes Prune volumes
What a prune will never delete includes running containers, logs on those containers, and filesystem changes made by those containers. Additionally, anything created outside of the normal docker folders may not be seen by docker during this garbage collection. This could be from some other app writing to this directory, or a previous configuration of the docker engine (e.g. switching from AUFS to overlay2, or possibly after enabling user namespaces).
What would happen if this advice is ignored and you deleted a single folder like overlay2 out from this filesystem? The container filesystems are assembled from a collection of filesystem layers, and the overlay2 folder is where docker is performing some of these mounts (you'll see them in the output of
mount when a container is running). Deleting some of these when they are in use would delete chunks of the filesystem out from a running container, and likely break the ability to start a new container from an impacted image.
To completely refresh docker to a clean state, stop the docker engine (
systemctl stop docker) and delete the entire directory (not just the overlay2 folder) with
rm -rf /var/lib/docker, and restart docker (
systemctl start docker). The engine will restart without any images, containers, volumes, user created networks, or swarm state.