An Ansible role to configure install and configure a Docker daemon running as a non-root user.
Do not use any of this without first testing in a non-operational environment.
Rootless mode allows running the Docker daemon and containers as a non-root user to mitigate potential vulnerabilities in the daemon and the container runtime. (docker)
Note There is a SLSA artifact present under the slsa action workflow for verification.
---
roles:
- name: konstruktoid.docker_rootless
version: v0.57.0
src: https://github.com/konstruktoid/ansible-role-docker-rootless.git
scm: git
---
- hosts: all
any_errors_fatal: true
tasks:
- name: Include the konstruktoid.docker_rootless role
ansible.builtin.import_role:
name: konstruktoid.docker_rootless
---
docker_add_alias: true
docker_allow_ping: false
docker_allow_privileged_ports: false
docker_compose: false
docker_compose_arch: x86_64
docker_compose_release: v2.31.0
docker_compose_release_shasum: 8b5d2cb358427e654ada217cfdfedc00c4273f7a8ee07f27003a18d15461b6cd
docker_compose_url: https://github.com/docker/compose/releases/download
docker_daemon_json_template: daemon.json.j2
docker_driver_network: slirp4netns
docker_driver_port: builtin
docker_release: 27.4.0
docker_release_rootless_shasum: f26b18826d62ce8a1f3fcdc39529d64c0418e53c25787b9a55bf0b71b1a4e0bb
docker_release_shasum: 64bb136b612a7bca537ef99b50504e4250cb71117c2d26552d20cda122b6c5b4
docker_repository_template: docker.repo.j2
docker_rootful_enabled: false
docker_rootful: false
docker_rootful_opts: false
docker_rootful_service_template: docker_rootful.service.j2
docker_rootless_script_template: docker_rootless.sh.j2
docker_rootless_service_template: docker_rootless.service.j2
docker_service_restart: true
docker_unattended_upgrades: false
docker_url: https://download.docker.com/linux/static/stable/x86_64
docker_user_bashrc: false
docker_user: dockeruser
Before using this role you first have to decide if you want to install Docker
using the packages available to the distribution, also known as the "rootful"
installation since it requires root
permissions and installs the upstream
Docker daemon or if you want to download the static binaries and do a manual
install.
If you set docker_rootful: false
you will download the static binaries and do
a manual install, not requiring any root
permissions.
If docker_rootful: true
, then docker_rootful_enabled
will decide if the
daemon should be enabled as a service or not.
docker_service_restart
will restart the rootless service after the Docker
binaries has been extracted. This may affect any running containers.
Using docker_rootful: true
and docker_rootful_enabled: true
, will result in
a standard Docker installation, with an additional Docker daemon, running as a
non-root user.
Note that Debian 10 and earlier requires
docker_rootful: false
due to missing dependencies.
The docker_url
, docker_release
, docker_compose_url
and docker_compose_release
variables define where you find the relevant binaries and which version you
should use when doing a manual installation.
You define the name of the Docker user that will be created with the
docker_user
variable. This user will download and install the binaries if
docker_rootful: false
or else the user will be the one running the
rootless installation script and starting a isolated daemon.
Note that the sole purpose of the
docker_user
is to run the Docker daemon and related containers, and not for system administration or used as a regular user.
docker_release_shasum
, docker_release_rootless_shasum
and
docker_compose_release_shasum
are used to verify the files when
downloaded using the get_url
module. The docker_release_shasum
is used for the Docker .tgz
file and
docker_release_rootless_shasum
for the docker-ce-rootless-extras
package.
docker_rootful_opts
is the options to apply to the Docker daemon if
running in rootful mode, if unset the settings in
docker_rootful_service_template
will be used.
If docker_add_alias: true
, then a docker
alias will be added to either .bashrc
or .bash_aliases
of the Ansible user. If false
, a shell script named docker_rootless.sh
is
created in the Ansible user home directory. This works as a substitute to the
docker
command so that the Ansible user can execute the rootless Docker installation from the docker_user
.
If docker_compose: true
, then the Docker compose
plugin or docker-compose
will be installed. docker_compose_arch
are used to define the architecture of
the docker-compose
binary.
If docker_user_bashrc: true
, a .bashrc with completion for the docker
and
docker compose
command will be placed inside the docker_user
home.
If docker_unattended_upgrades: true
and the unattended-upgrades
package is installed,
the docker
and docker-compose
binaries will be updated automatically.
The docker_allow_privileged_ports
variable configures if exposing
privileged ports (< 1024)
is allowed.
The docker_allow_ping
variable configures if unprivileged users can open
ICMP echo sockets.
On some distributions, this is not allowed, and thereby containers cannot ping
to the outside.
The docker_driver_network
and docker_driver_port
variables configure RootlessKit's
network driver or
port driver,
respectively. This is useful for
optimising network performance
and necessary if
source IP propagation
is required. By default, the builtin
port driver does not expose the actual source IP; instead,
all connections appear to the container as originating from the Docker gateway (e.g. 172.19.0.1).
Set docker_driver_port: slirp4netns
to enable source IP propagation.
The variables named *_template
are the locations of the
templates
in use, this to make it easier to replace them with custom ones.
The most important template is most likely
docker_daemon_json_template: daemon.json.j2
, which is the location of the
Docker daemon.json
configuration file template.
Running containers is not that much different from when a rootful Docker daemon is used, but you still need to become the unprivileged user and adapt any paths to the user working directores.
If docker_add_alias: true
is used, the docker
command will be
available as usual for the Ansible user, too. Type alias
in the shell to see the keyword
configuration.
- name: Register Docker user info
become: true
ansible.builtin.user:
name: "{{ docker_user }}"
check_mode: true
register: docker_user_info
- name: Example container block
environment:
XDG_RUNTIME_DIR: "/run/user/{{ docker_user_info.uid }}"
PATH: "{{ docker_user_info.home }}/bin:{{ ansible_env.PATH }}"
DOCKER_HOST: "unix:///run/user/{{ docker_user_info.uid }}/docker.sock"
block:
- name: Nginx container
become: true
become_user: "{{ docker_user }}"
community.docker.docker_container:
name: nginx
image: konstruktoid/nginx
state: started
cap_drop: all
capabilities:
- chown
- dac_override
- net_bind_service
- setgid
- setuid
pull: true
hostname: "{{ ansible_nodename }}"
container_default_behavior: compatibility
- name: Register Docker user info
become: true
ansible.builtin.user:
name: "{{ docker_user }}"
check_mode: true
register: docker_user_info
- name: Example docker compose block
become: true
become_user: "{{ docker_user }}"
environment:
XDG_RUNTIME_DIR: /run/user/{{ docker_user_info.uid }}
PATH: "{{ docker_user_info.home }}/bin:{{ ansible_env.PATH }}"
DOCKER_HOST: "unix:///run/user/{{ docker_user_info.uid }}/docker.sock"
block:
- name: Install pip dependencies
ansible.builtin.pip:
name:
- docker<7 # https://github.com/docker/docker-py/issues/3194
- docker-compose
- name: Create and start services
community.docker.docker_compose:
project_src: /var/tmp/
files: "{{ docker_user }}-docker-compose.yml"
register: compose_output
If Ansible Molecule
with the vagrant plugin
and related software is installed, running molecule test
is supported.
tox -l
will list all available tox
test environments.
Do you want to contribute? Great! Contributions are always youlcome, no matter how large or small. If you found something odd, feel free to submit a issue, improve the code by creating a pull request, or by sponsoring this project.
Apache License Version 2.0