Introduction
Docker containers are the most popular containerisation technology. Used properly can increase level of security (in comparison to running application directly on the host). On the other hand some misconfigurations can lead to downgrade level of security or even introduce new vulnerabilities.
The aim of this cheat sheet is to provide an easy to use list of common security mistakes and good practices that will help you securing your Docker containers.
Rules
RULE #0 - Keep Host and Docker up to date
To prevent from known, container escapes vulnerabilities, which typically ends in escalating to root/administrator privileges, patching Docker Engine and Docker Machine is crucial.
In addition containers (unlike in a virtual machines) share kernel with the host, therefore kernel exploit runned inside the container will directly hit host kernel. For example kernel privilege escalation exploit (like Dirty COW) runned inside well insulated container will result in root access in a host.
RULE #1 - Do not expose the Docker deamon socket (even to the containers)
Docker socket /var/run/docker.sock is the UNIX socket that Docker is listening to. This is primary entry point for the Docker API. The owner of this socket is root. Giving someone access to it is equivalent to giving a unrestricted root access to your host.
Do not enable tcp Docker deamon socket. If you are running docker daemon with -H tcp://0.0.0.0:XXX
or similar you are exposing un-encrypted and un-authenticated direct access to the Docker daemon.
If you really, really have to do this you should secure it. Check how to do this following Docker official documentation.
Do not expose /var/run/docker.sock to other containers. If you are running your docker image with -v /var/run/docker.sock://var/run/docker.sock
or similar you should change it. Remember that mounting the socket read-only is not a solution but only makes it harder to exploit. Equivalent in docker-compose file is somethink like this:
volumes:
- "/var/run/docker.sock:/var/run/docker.sock"
RULE #2 - Set a user
Configuring container, to use unprivileged user, is the best way to prevent privilege escalation attacks. This can be accomplished in three different ways:
- During runtime using
-u
option ofdocker run
command e.g.:
docker run -u 4000 alpine
- During build time. Simple add user in Dockerfile and use it. For example:
FROM alpine
RUN groupadd -r myuser && useradd -r -g myuser myuser
<HERE DO WHAT YOU HAVE TO DO AS A ROOT USER LIKE INSTALLING PACKAGES ETC.>
USER myuser
- Enable user namespace support (
--userns-remap=default
) in Docker deamon
More informatrion about this topic can be found in Docker official documentation
In kubernetes this can be configured in Security Context using runAsNonRoot
field e.g.:
kind: ...
apiVersion: ...
metadata:
name: ...
spec:
...
containers:
- name: ...
image: ....
securityContext:
...
runAsNonRoot: true
...
As an Kubernetes cluster administrator you can for it using Pod Security Policies.
RULE #3 - Limit capabilities (Grant only specific capabilities, needed by a container)
Linux kernel capabilities are set of privileges that can be used by privileged. Docker, by default, runs with only a subset of capabilities.
You can change it and drop some capabilities (using --cap-drop
) to harden your docker containers, or add some capabilities (using --cap-add
) if needed.
Remember not to run containers with the --privileged
flag - this will add ALL Linux kernel capabilities to the container.
The most secure setup is to drop all capabilities --cap-drop all
and then add only required ones. For example:
docker run --cap-drop all --cap-add CHOWN alpine
And remember: Do not run containers with the --privileged flag!!!
In kubernetes this can be configured in Security Context using capabilities
field e.g.:
kind: ...
apiVersion: ...
metadata:
name: ...
spec:
...
containers:
- name: ...
image: ....
securityContext:
...
capabilities:
drop:
- all
add:
- CHOWN
...
As an Kubernetes cluster administrator you can for it using Pod Security Policies.
RULE #4 - Add –no-new-privileges flag
Always run your docker images with --security-opt=no-new-privileges
in order to prevent escalate privileges using setuid
or setgid
binaries.
In kubernetes this can be configured in Security Context using allowPrivilegeEscalation
field e.g.:
kind: ...
apiVersion: ...
metadata:
name: ...
spec:
...
containers:
- name: ...
image: ....
securityContext:
...
allowPrivilegeEscalation: false
...
As an Kubernetes cluster administrator you can for it using Pod Security Policies.
RULE #5 - Disable inter-container communication (--icc=false)
By default inter-container communication (icc) is enabled - it means that all containers can talk with each other (using docker0
bridged network).
This can be disabled by running docker deamon with --icc=false
flag.
If icc is disabled (icc=false) it is required to tell which containers can communicate using --link=CONTAINER_NAME_or_ID:ALIAS option.
See more in Docker documentation - container communication
In Kubernetes Network Policies can be used for it.
RULE #6 - Use Linux Security Module (seccomp, AppArmor, or SELinux)
First of all do not disable default security profile!
Consider using security profile like seccomp or AppArmor.
Instructions how to do this inside Kubernetes can be found in Security Context documentation and in Kubernetes API documentation
RULE #7 - Limit resources (memory, CPU, file descriptors, processes, restarts)
The best way to avoid DoS attacks is limiting resources. You can limit memory, CPU, maximum number of restarts (--restart=on-failure:<number_of_restarts>
), maximum number of file descriptors (--ulimit nofile=<number>
) and maximum number of processes (--ulimit nproc=<number>
).
Check documentation for more details about ulimits
You can also do this inside Kubernetes: Assign Memory Resources to Containers and Pods, Assign CPU Resources to Containers and Pods and Assign Extended Resources to a Container
RULE #8 - Set filesystem and volumes to read-only
Run containers with a read-only filesystem using --read-only
flag. For example:
docker run --read-only alpine sh -c 'echo "whatever" > /tmp'
If application inside container have to save something temporarily combine --read-only
flag with --tmpfs
like this:
docker run --read-only --tmpfs /tmp alpine sh -c 'echo "whatever" > /tmp/file'
Equivalent in docker-compose file will be:
version: "3"
services:
alpine:
image: alpine
read_only: true
Equivalent in kubernetes in Security Context will be:
kind: ...
apiVersion: ...
metadata:
name: ...
spec:
...
containers:
- name: ...
image: ....
securityContext:
...
readOnlyRootFilesystem: true
...
In addition if volume is mounted only for reading mount them as a read-only
It can be done by appending :ro
to the -v
like this:
docker run -v volume-name:/path/in/container:ro alpine
Or by using --mount
option:
$ docker run --mount source=volume-name,destination=/path/in/container,readonly alpine
RULE #9 - Use static analysis tools
To detect containers with known vulnerabilities - scan images using static analysis tools.
- Free
- Commercial
- Snyk (open source and free option available)
- anchore (open source and free option available)
- JFrog XRay
- Qualys
To detect missconfigurations in Kubernetes:
Related Projects
Authors and Primary Editors
Jakub Maćkowski - [email protected]