+++
title = "Linux Containers"
author = ["Elia el Lazkani"]
date = 2021-02-27
lastmod = 2021-02-27
tags = ["linux", "kernel", "docker", "podman", "dockerfile"]
categories = ["container"]
draft = false
+++
Our story dates _all the way_ back to 2006, believe it or not. The first steps were taken towards what we know today as **containers**.
We'll discuss their history, how to build them and how to use them. Stick around! you might enjoy the ride.
## History {#history}
### 2006-2007 - The _[Generic Process Containers](https://lkml.org/lkml/2006/10/20/251)_ lands in Linux {#2006-2007-the-generic-process-containers-lands-in-linux}
This was renamed thereafter to _[Control Groups](https://en.wikipedia.org/wiki/Cgroups)_, popularily known as _cgroups_, and landed in _Linux_ version `2.6.24`.
_Cgroups_ are the first piece of the puzzle in _Linux Containers_. We will be talking about _cgroups_ in detail later.
### 2008 - Namespaces {#2008-namespaces}
Even though _namespaces_ have been around since 2002, _Linux_ version `2.4.19`, they saw a [rapid development](https://www.redhat.com/en/blog/history-containers) beginning 2006 and into 2008.
_namespaces_ are the other piece of the puzzle in _Linux Containers_. We will talk about _namespaces_ in more details later.
### 2008 - LXC {#2008-lxc}
_LXC_ finally shows up!
_LXC_ is the first form of _containers_ on the _Linux_ kernel.
_LXC_ combined both _cgroups_ and _namespaces_ to provide isolated environments; containers.
Note
It is worth mentioning that _LXC_ runs a full _operating system_ containers from an image.
In other words, _LXC_ containers are meant to run more than one process.
### 2013 - Docker {#2013-docker}
_Docker_ offered a full set of tools for working with _containers_, making it easier than ever to work with them.
_Docker_ containers are designed to only run the application process.
Unlike _LXC_, the `PID` `1` of a Docker container is excepted to be the application running in the contanier.
We will be discussing this topic in more detail later.
## Concepts {#concepts}
### _cgroups_ {#cgroups}
#### What are cgroups ? {#what-are-cgroups}
Let's find out ! Better yet, let's use the tools at our disposal to find out together...
Open a **terminal** and run the following command.
```bash
man 7 cgroups
```
This should open the `man` pages for `cgroups`.
> Control groups, usually referred to as cgroups, are a Linux kernel feature which allow processes to be organized into hierarchical groups whose usage of various types of resources can then be limited and monitored. The kernel's cgroup interface is provided through a pseudo-filesystem called cgroupfs. Grouping is implemented in the core cgroup kernel code, while resource tracking and limits are implemented in a set of per-resource-type subsystems (memory, CPU, and so on).
#### What does this all mean ? {#what-does-this-all-mean}
This can all be simplified by explaining it in a different way.
Essentially, you can think of `cgroups` as a way for the _kernel_ to **limit** what you can **use**.
This gives us the ability to give a _container_ only **1** CPU out of the 4 available to the _kernel_.
Or maybe, limit the memory allowed to **512MB** to the container.
This way the container cannot overload the resources of the system in case they run a fork-bomb, for example.
But, `cgroups` do not limit what we can "_see_".
### _namespaces_ {#namespaces}
#### _Namespaces_ to the rescue ! {#namespaces-to-the-rescue}
As we did before, let's check the `man` page for `namespaces`
```bash
man 7 namespaces
```
> A namespace wraps a 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. Changes to the global resource are visible to other processes that are members of the namespace, but are invisible to other processes. One use of namespaces is to implement containers.
Wooow ! That's more mumbo jumbo ?!
#### Is it really simple ? {#is-it-really-simple}
Let's simplify this one as well.
You can think of `namespaces` as a way for the _kernel_ to **limit** what we **see**.
There are multiple `namespaces`, like the `cgroup_namespaces` which _virtualizes_ the view of a process `cgroup`.
In other words, inside the `cgroup` the process with `PID` **1** is not `PID` on the **system**.
The `namespaces` manual page lists them, you check them out for more details. But I hope you get the gist of it !
### Linux Containers {#linux-containers}
We are finally here! Let's talk _Linux Containers_.
The first topic we need to know about is **images**.
#### What are container images ? {#what-are-container-images}
We talked before that _Docker_ came in and offered tooling around _containers_.
One of those concepts which they used, in docker images, is **layers**.
First of all, an image is a _file-system_ representation of a container.
It is an on-disk, read-only, image. It sort of looks like your _Linux_ **filesystem**.
Then, layers on top to add functionality. You might ask, what are these layers. We will see them in action.
Let's look at my system.
```bash
lsb_release -a
```
```text
LSB Version: n/a
Distributor ID: ManjaroLinux
Description: Manjaro Linux
Release: 20.2.1
Codename: Nibia
```
As you can see, I am running `Manjaro`. Keep that in mind.
Let's take a look at the kernel running on this machine.
```bash
uname -a
```
```text
Linux manjaro 5.10.15-1-MANJARO #1 SMP PREEMPT Wed Feb 10 10:42:47 UTC 2021 x86_64 GNU/Linux
```
So, it's _kernel version_ `5.8.6`. Remember this one as well.
- _neofetch_
I would like to _test_ a tool called `neofetch`. Why ?
- First reason, I am not that creative.
- Second, it's a nice tool, you'll see.
We can test `neofetch`
```bash
neofetch
```
```text
fish: Unknown command: neofetch
```
Look at that! We don't have it installed...
Not a big deal. We can download an image and test it inside.
#### Pulling an image {#pulling-an-image}
Let's download a docker image. I am using `podman`, an open source project that allows us to **use** containers.
Note
You might want to run these commands with `sudo` privileges.
```bash
podman pull ubuntu:20.04
```
```text
f63181f19b2fe819156dcb068b3b5bc036820bec7014c5f77277cfa341d4cb5e
```
Let's pull an `Ubuntu` image.
As you can see, we have pulled an image from the repositories online. We can see further information about the image.
```bash
podman images
```
```text
REPOSITORY TAG IMAGE ID CREATED SIZE
docker.io/library/ubuntu 20.04 f63181f19b2f 5 weeks ago 75.3 MB
```
Much better, now we can see that we have an `Ubuntu` image downloaded from [docker.io](https://hub.docker.com).
#### What's a container then ? {#what-s-a-container-then}
A container is nothing more than an instance of an image. It is the running instance of an image.
Let's list our containers.
```bash
podman ps -a
```
```text
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
```
We have none. Let's start one.
```bash
podman run -it ubuntu:20.04 uname -a
```
```text
Linux 57453b419a43 5.10.15-1-MANJARO #1 SMP PREEMPT Wed Feb 10 10:42:47 UTC 2021 x86_64 x86_64 x86_64 GNU/Linux
```
It's running the same _kernel_ as our machine... Are we really inside a container ?
```bash
podman run -it ubuntu:20.04 hostname -f
```
```text
6795b85eeb50
```
okay ?! And **our** _hostname_ is ?
```bash
hostname -f
```
```text
manjaro
```
Hmm... They have different _hostnames_...
Let's see if it's **really** `Ubuntu`.
```bash
podman run -it ubuntu:20.04 bash -c 'apt-get update && apt-get install -y vim'
```
```text
Get:1 http://archive.ubuntu.com/ubuntu focal InRelease [265 kB]
Get:2 http://archive.ubuntu.com/ubuntu focal-updates InRelease [114 kB]
Get:3 http://archive.ubuntu.com/ubuntu focal-backports InRelease [101 kB]
Get:4 http://security.ubuntu.com/ubuntu focal-security InRelease [109 kB]
Get:5 http://archive.ubuntu.com/ubuntu focal/restricted amd64 Packages [33.4 kB]
Get:6 http://archive.ubuntu.com/ubuntu focal/multiverse amd64 Packages [177 kB]
Get:7 http://archive.ubuntu.com/ubuntu focal/universe amd64 Packages [11.3 MB]
...
Setting up libpython3.8:amd64 (3.8.5-1~20.04.2) ...
Setting up vim (2:8.1.2269-1ubuntu5) ...
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/vim (vim) in auto mode
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/vimdiff (vimdiff) in auto mode
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/rvim (rvim) in auto mode
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/rview (rview) in auto mode
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/vi (vi) in auto mode
...
update-alternatives: using /usr/bin/vim.basic to provide /usr/bin/editor (editor) in auto mode
...
Processing triggers for libc-bin (2.31-0ubuntu9.1) ...
```
This should not work on my `Manjaro`. `apt-get` is not a thing here.
Well, the output is a bit large so I truncated it a bit for readability but we seem to have installed vim successfully.
#### Building a container image {#building-a-container-image}
Now that we saw what an _image_ is and what a _container_ is. We can explore a bit inside a container to see it more clearly.
So, what can we do with containers? We can use the layering system and the _docker_ created tooling to create them and distribute them.
Let's go back to our `neofetch` example.
I want to get an `Ubuntu` image, then install `neofetch` on it.
First step, create a `Dockerfile` in your current directory. It should look like this.
```dockerfile
FROM ubuntu:20.04
RUN apt-get update && \
apt-get install -y neofetch
```
This file has two commands:
- `FROM` designates the base image to use.
This is the base image we will be building upon.
In our case, we chose `Ubuntu:20.04`. You can find the images on multiple platforms.
To mention a few, we have _Dockerhub_, _Quay.io_ and a few others.
By default, this downloads from _Dockerhub_.
- `RUN` designates the commands to run. Pretty simple.
We are running a couple of commands that should be very familiar to any user familiar with _debian-based_ OS's.
Now that we have a _Dockerfile_, we can build the container.
```bash
podman build -t neofetch-ubuntu:20.04 -f Dockerfile.ubuntu .
```
```text
STEP 1: FROM ubuntu:20.04
STEP 2: RUN apt-get update && apt-get install -y neofetch
Get:1 http://archive.ubuntu.com/ubuntu focal InRelease [265 kB]
Get:2 http://security.ubuntu.com/ubuntu focal-security InRelease [109 kB]
Get:3 http://archive.ubuntu.com/ubuntu focal-updates InRelease [114 kB]
...
Fetched 17.2 MB in 2s (7860 kB/s)
Reading package lists...
...
The following additional packages will be installed:
chafa dbus fontconfig-config fonts-dejavu-core fonts-droid-fallback
fonts-noto-mono fonts-urw-base35 ghostscript gsfonts imagemagick-6-common
krb5-locales libapparmor1 libavahi-client3 libavahi-common-data
libavahi-common3 libbsd0 libchafa0 libcups2 libdbus-1-3 libexpat1
libfftw3-double3 libfontconfig1 libfreetype6 libglib2.0-0 libglib2.0-data
libgomp1 libgs9 libgs9-common libgssapi-krb5-2 libicu66 libidn11 libijs-0.35
libjbig0 libjbig2dec0 libjpeg-turbo8 libjpeg8 libk5crypto3 libkeyutils1
libkrb5-3 libkrb5support0 liblcms2-2 liblqr-1-0 libltdl7
libmagickcore-6.q16-6 libmagickwand-6.q16-6 libopenjp2-7 libpaper-utils
libpaper1 libpng16-16 libssl1.1 libtiff5 libwebp6 libwebpmux3 libx11-6
libx11-data libxau6 libxcb1 libxdmcp6 libxext6 libxml2 poppler-data
shared-mime-info tzdata ucf xdg-user-dirs
Suggested packages:
default-dbus-session-bus | dbus-session-bus fonts-noto fonts-freefont-otf
| fonts-freefont-ttf fonts-texgyre ghostscript-x cups-common libfftw3-bin
libfftw3-dev krb5-doc krb5-user liblcms2-utils libmagickcore-6.q16-6-extra
poppler-utils fonts-japanese-mincho | fonts-ipafont-mincho
fonts-japanese-gothic | fonts-ipafont-gothic fonts-arphic-ukai
fonts-arphic-uming fonts-nanum
The following NEW packages will be installed:
chafa dbus fontconfig-config fonts-dejavu-core fonts-droid-fallback
fonts-noto-mono fonts-urw-base35 ghostscript gsfonts imagemagick-6-common
krb5-locales libapparmor1 libavahi-client3 libavahi-common-data
libavahi-common3 libbsd0 libchafa0 libcups2 libdbus-1-3 libexpat1
libfftw3-double3 libfontconfig1 libfreetype6 libglib2.0-0 libglib2.0-data
libgomp1 libgs9 libgs9-common libgssapi-krb5-2 libicu66 libidn11 libijs-0.35
libjbig0 libjbig2dec0 libjpeg-turbo8 libjpeg8 libk5crypto3 libkeyutils1
libkrb5-3 libkrb5support0 liblcms2-2 liblqr-1-0 libltdl7
libmagickcore-6.q16-6 libmagickwand-6.q16-6 libopenjp2-7 libpaper-utils
libpaper1 libpng16-16 libssl1.1 libtiff5 libwebp6 libwebpmux3 libx11-6
libx11-data libxau6 libxcb1 libxdmcp6 libxext6 libxml2 neofetch poppler-data
shared-mime-info tzdata ucf xdg-user-dirs
0 upgraded, 66 newly installed, 0 to remove and 6 not upgraded.
Need to get 36.2 MB of archives.
After this operation, 136 MB of additional disk space will be used.
Get:1 http://archive.ubuntu.com/ubuntu focal/main amd64 fonts-droid-fallback all 1:6.0.1r16-1.1 [1805 kB]
...
Get:66 http://archive.ubuntu.com/ubuntu focal/universe amd64 neofetch all 7.0.0-1 [77.5 kB]
Fetched 36.2 MB in 2s (22.1 MB/s)
...
Setting up ghostscript (9.50~dfsg-5ubuntu4.2) ...
Processing triggers for libc-bin (2.31-0ubuntu9.1) ...
STEP 3: COMMIT neofetch-ubuntu:20.04
--> 6486fa42efe
6486fa42efe5df4f761f4062d4986b7ec60b14d9d99d92d2aff2c26da61d13af
```
Note
You might need `sudo` to run this command.
As you can see, we just successfully built the container. We also got a `hash` as a name for it.
If you were careful, I used the `&&` command instead of using multiple `RUN`. You **can** use as many `RUN` commands ase you like.
But be careful, each one of those commands creates a **layer**. The _more_ layers you create, the _more_ time they require to **download\*/\*upload**.
It might not seem to be a lot of time to download a few extra layer on one system. But if we talk about _container orchestration_ platforms, it makes a big difference there.
Let's examine the build a bit more and see what we got.
```text
STEP 1: FROM ubuntu:20.04
STEP 2: RUN apt-get update && apt-get install -y neofetch
```
The first step was to _download_ the base image so we could use it, then we added a **layer** which insatlled neofetch. If we list our **images**.
```bash
podman images
```
```text
REPOSITORY TAG IMAGE ID CREATED SIZE
localhost/neofetch-ubuntu 20.04 6486fa42efe5 5 minutes ago 241 MB
docker.io/library/ubuntu 20.04 f63181f19b2f 5 weeks ago 75.3 MB
```
We can see that we have `localhost/neofetch-ubuntu`. If we examine the `ID`, we can see that it is the same as the one given to us at the end of the build.
#### Running our container {#running-our-container}
Now that we created a _brand-spanking-new_ image, we can run it.
```bash
podman images
```
```text
REPOSITORY TAG IMAGE ID CREATED SIZE
localhost/neofetch-ubuntu 20.04 6486fa42efe5 6 minutes ago 241 MB
docker.io/library/ubuntu 20.04 f63181f19b2f 5 weeks ago 75.3 MB
```
First we list our **images**. Then we choose which one to run.
```bash
podman run -it neofetch-ubuntu:20.04 neofetch
```
{{< figure src="/ox-hugo/container-neofetch-ubuntu.png" caption="Figure 1: Neofetch on Ubuntu" target="_blank" link="/ox-hugo/container-neofetch-ubuntu.png" >}}
`neofetch` is installed in that container, because the **image** has it.
We can also build an image based on something else, maybe `Fedora` ?
I looked in [Dockerhub (Fedora)](https://hub.docker.com/%5F/fedora/) and found the following image.
```dockerfile
FROM fedora:32
RUN dnf install -y neofetch
```
We can duplicate what we did before real quick. Save file, run command to build the image.
```bash
podman build -t neofetch-fedora:20.04 -f Dockerfile.fedora .
```
Then, run the container.
```bash
podman run -it neofetch-fedora:20.04 neofetch
```
{{< figure src="/ox-hugo/container-neofetch-fedora.png" caption="Figure 2: Neofetch on Fedora" target="_blank" link="/ox-hugo/container-neofetch-fedora.png" >}}
## Conclusion {#conclusion}
Finally thought _before_ I let you go. You may have noticed that I used `Podman` instead of `Docker`. In these examples, both commands should be interchangeable.
Remember kids, _containers_ are cool! They can be used for a wide variety of things. They are great at many things and with the help of _container orchestration_ platforms, they can scale better than ever. They are also very bad at certain things. Be careful where to use them, how to use and when to use them. Stay safe and mainly have fun!