---
layout: post
slug: hardening-lxc-containers-running-systemd
status: draft
sitemap: true
title: Hardening LXC containers running systemd
description: An epic trying to drop CAP\_SYS\_ADMIN
disqus: false
categories:
tags:
- security
- linux
- containers
---
![A real container](/assets/images/posts/harden-container.jpg)
*A container. Photo by [Mr. Rollers](https://www.flickr.com/photos/mr-rollers/32972266123/). CC BY-NC-ND 2.0*
Hardening Linux Containers, and more especially [LXC containers](https://linuxcontainers.org/fr/lxc/introduction/), is needed to prevent a malicious user to escape your container. However, even hardened, a container can't be considered totally safe today. You can consider this article as part of a [defence in depth strategy](https://en.wikipedia.org/wiki/Defense_in_depth_(computing)). But before starting, we need to understand how containers work under the hood.
As said by Jessie Frazelle in her blog post [Setting the Record Straight: containers vs. Zones vs. Jails vs. VMs](https://blog.jessfraz.com/post/containers-zones-jails-vms/), containers in Linux are not a top level design like Zone in Solaris and Jails in BSD.
> A "container" is just a term people use to describe a combination of Linux namespaces and cgroups. Linux namespaces and cgroups ARE first class objects. NOT containers.
In this article, we'll discuss the different "primitives" exposed by the Linux kernel like *namespaces*, *cgroups*, *Linux Security Modules*, *capabilities* and *seccomp*. Our container tool like LXC or Docker, which is a user space binary, will interact with these primitives. We'll see that we can interact with them through the LXC configuration file to improve (or worsen) the security of our LXC container.
The challenge when it comes to hardening a LXC container, compared to other solutions, is that there is a great probability that you'll run systemd in your container. And systemd heavily uses the primitives quoted before. Especially, systemd rely on *cgroups* to handle its services. We can also mention that many systemd daemon will be provided with a configuration that need to interact with the *capabilities*.
If you feel a bit lost with all these terms, a good start is the reading of this whitepaper by the NCCGroup: [Understanding and Hardening Linux Containers](https://www.nccgroup.trust/us/our-research/understanding-and-hardening-linux-containers/). This post is also inspired by the article written by Christian Seiler, [LXC containers without CAP\_SYS\_ADMIN under Debian Jessie](https://blog.iwakd.de/lxc-cap_sys_admin-jessie), but we'll see that, due to evolutions in the Linux kernel, the proposed configuration does not work anymore out of the box.
## Creating a standard LXC container
![A factory](/assets/images/posts/harden-factory.jpg)
*A factory building containers ? Photo by [Thomas Berg](https://www.flickr.com/photos/decafinata/1989725289/). CC BY-SA 2.0*
Before starting, you'll need a very recent version of LXC, at least lxc-2.0.9 (not yet released as of this writing). Fortunately, you can compile it from its master branch. We'll see later why we need a such recent version.
Here is a quick reminder on how to compile LXC:
```bash
git clone https://github.com/lxc/lxc
cd lxc
./autogen.sh
./configure
make -j8
sudo make install
```
Now let's create a basic container (we'll use Fedora but the instructions should work for every distributions):
```bash
sudo lxc-create -n harden -t fedora
```
As you'll need to debug the launch of your container, I can only recommend you this command line :
```bash
sudo lxc-start -n harden -lDEBUG -F
```
It will launch your container in foreground (so you'll be able to see systemd logs at boot) and it will log many useful informations in the `/var/log/lxc/harden.log` file.
## Capabilities: split the root
![Puzzle](/assets/images/posts/harden-puzzle.jpg)
*The great puzzle of root. Photo by [Kevin Dooley](https://www.flickr.com/photos/pagedooley/14555354976). CC BY 2.0.*
Historically, there is a huge difference between the root user (with uid 0) which bypass any access control and the other users of the system which must pass every control. So, if you want to send an ICMP request via the `ping` command for example, you must run the command as root (with the magic of [setuid](https://en.wikipedia.org/wiki/Setuid) to enable non privileged users to launch it). As the command is launched as root for everyone, ping can load a kernel module, change the time on your system, erase every files, etc. That's dangerous, particularly if someone find a vulnerability in your command and use it to do a [privilege escalation](https://en.wikipedia.org/wiki/Privilege_escalation).
A good idea would be to only allow the ping command to execute actions related to network as root, not everything. You can do that by using capabilities, by giving the `CAP_NET_RAW` capability to your ping command.
But capabilities, and more precisely **capability bounding set**, can also be used to reduce the capabilities that any process of your container can inquire. Indeed, if you allow a process in your container to load kernel modules, what prevent him to load a faulty module enabling him to escape the container ? So, one way to prevent this catastrophic scenario is to drop `CAP_SYS_MODULE` from the capability bounding set. When you use `lxc.cap.keep` and `lxc.cap.drop`, you're modifying the capability bounding set of your container.
One capability is a bit special, `CAP_SYS_ADMIN`, as it is sometimes considered as ["the new root"](https://lwn.net/Articles/486306/) because of its large and not strictly defined scope. This capability is very useful because it permits to mount filesystems from the container. Unfortunately, it also enables interaction with ioctl, IPC resources, namespaces, etc. So, we want to drop this capability. So, we can just drop it ?
```ini
# /var/lib/harden/config
lxc.cap.drop = sys_admin
```
Now try to restart your container...
You can find the whole capability list in the dedicated man page [capabilities(7)](http://man7.org/linux/man-pages/man7/capabilities.7.html) and how to use them with LXC in the LXC man page [lxc.container.conf(5)](https://linuxcontainers.org/fr/lxc/manpages//man5/lxc.container.conf.5.html#lbAV).
## cgroups: group your processes
![Lions](/assets/images/posts/harden-lions.jpg)
*A cgroup of lions with parents and children. Photo by [Joel Herzog](https://unsplash.com/@joel_herzog). Unsplash license.*
[Wikipedia](https://en.wikipedia.org/wiki/Cgroups) proposes the following definition:
> cgroups is a Linux kernel feature that limits, accounts for, and isolates the resource usage (CPU, memory, disk I/O, network, etc.) of a collection of processes.
It might not be totally clear at the first read, but cgroups are two differents things:
1. A method to create groups of processus
2. A method to apply limitation, accounting, etc. on these groups
If you want to read more on this, the article [Control Groups vs. Control Groups](http://0pointer.de/blog/projects/cgroups-vs-cgroups.html) by Lennart Poettering explains how systemd uses cgroups and why the distinction is crucial.
## Namespaces: isolate your system resources
Michael Kerrisk wrote an interesting [serie of articles about namespaces](https://lwn.net/Articles/531114/) on LWN. I find its definition of namespaces particularly interesting:
> The purpose of each namespace is to wrap a particular global system resource in an abstraction that makes it appear to the processes within the namespace that they have their own isolated instance of the global resource.
At first glance, namespaces handle could appear trivial in LXC: every available namespaces are used and that's all.
The reality is more complex.
## Seccomp: filter your syscalls
![Barriers](/assets/images/posts/harden-barrier.jpg)
*The seccomp barrier protects the access to the kernel. Photo by [Mike Wilson](https://unsplash.com/@mkwlsn). Unsplash license.*
## LSM: mandatory access control
![Top Secret](/assets/images/posts/harden-secret.jpg)
*Back to the origin. Photo by [Michelangelo Carrieri](https://www.flickr.com/photos/malakhkelevra/4951863053). CC BY-ND 2.0*
## Other
### prlimit
### /dev
### The bridge
ethtable