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Building containers from scratch using Go Lang

This demo was made as a prove of concept and to easily show that containers is nothing more than Linux processes running with some isolation from the processes running on the host.

Inspiration

I started to study Go Lang couple weeks ago and I am a huge fan of Docker. Watching some videos from Golang UK Conf. 2016 I saw a talk from @lizrice: What is a container, really

Thanks

Need to thank Liz Rice (@lizrice) and as she mention at the talk, Julian Friedman (@julz), that with some lines of code could show details from it.

Links

How to run

1. Bring the VM up

$ vagrant up

This first step will take a while at the first time. The clean Ubuntu Xenial VM will:

  • Install and configure Go (1.10.2)
  • Untar the root file systems of each image on /
    • we can check with ls / | grep rootfs

If it fails due to internet conection we can re-run with

$ vagrant up --provision

If the box become outdated we can just run

$ vagrant box update

2. Access the Ubuntu VM

Accessing it.

$ vagrant ssh

Run stuff as superuser and go to /demo.

vagrant@ubuntu-xenial:~$ sudo -i
root@ubuntu-xenial:~# cd /demo/
root@ubuntu-xenial:/demo#

3. First example - No isolation

Build and run an echo command from inside a container

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run echo "Qualquer coisa / Anything"
--Entrando no conteiner / Get into container--
--Rodando comando [echo Qualquer coisa / Anything] / Running command %!v(MISSING) --
Qualquer coisa / Anything
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo#

Run a bash with no isolation from inside a container

root@ubuntu-xenial:/demo# ./demo run /bin/bash
--Entrando no conteiner / Get into container--
--Rodando comando [/bin/bash] / Running command [/bin/bash] --
root@ubuntu-xenial:/demo# hostname
ubuntu-xenial
root@ubuntu-xenial:/demo# hostname demo
root@ubuntu-xenial:/demo# hostname
demo
root@ubuntu-xenial:/demo# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo# hostname
demo
root@ubuntu-xenial:/demo#

We can notice that hostname was changed also in the host

4. Second Example - Isolating UTS

Let's rebuild and run bash again but now with UTS (Unix Time Sharing) isolated

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run /bin/bash
--Entrando no conteiner / Get into container--
--Rodando comando [/bin/bash] / Running command [/bin/bash] --
root@ubuntu-xenial:/demo# hostname
demo
root@ubuntu-xenial:/demo# hostname yabadabadoo
root@ubuntu-xenial:/demo# hostname
yabadabadoo
root@ubuntu-xenial:/demo# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo# hostname
demo
root@ubuntu-xenial:/demo#

We can notice that hostname was modified inside container but not on the host.

5. Third Example - Defining a container hostname

Lets' rebuild and run bash again. Now we define a new hostname. But if we define before the cmd.Run() call we will define the host process not the container process. That's why we fork and exec so we can create a container with the run and then define the hostname inside the exec command.

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run bash
--Entrando no conteiner / Get into container--
--Rodando comando [bash] / Running command [bash] --
root@container:/demo# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo#

6. Fourth Example - define another rootfs

Let's rebuild and run choosing one of the 5 rootfs available: alpine, centos, debian, fedora or ubuntu.

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run debian bash
--Entrando no conteiner / Get into container--
--Imagem usada debian / Image in use debian --
--Rodando comando [bash] / Running command [bash] --
root@container:/# cat /etc/issue
Debian GNU/Linux 8 \n \l

root@container:/# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo#
root@ubuntu-xenial:/demo# ./demo run alpine sh
--Entrando no conteiner / Get into container--
--Imagem usada alpine / Image in use alpine --
--Rodando comando [sh] / Running command [sh] --
/ # cat /etc/issue
Welcome to Alpine Linux 3.4
Kernel \r on an \m (\l)

Befor leaving alpine container let's write a file and check if is written on the host also.

/ # touch /random-file
/ # exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo# ls /rootfs-alpine/
bin  dev  etc  home  lib  linuxrc  media  mnt  proc  random-file  root  run  sbin  srv  sys  tmp  usr  var
root@ubuntu-xenial:/demo#

Yes, the random-file exists inside and outside of the container.

7. Fifth Example - Isolate file system

Let's rebuild and run choosing one of the 5 rootfs available: alpine, centos, debian, fedora or ubuntu.

One folder will be created inside the container, let's create one file inside this folder and check if it appears on the host.

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run ubuntu bash
--Entrando no conteiner / Get into container--
--Imagem usada ubuntu / Image in use ubuntu --
--Rodando comando [bash] / Running command [bash] --
root@container:/# touch /mytemp/file-inside-container
root@container:/# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo# ls -l /rootfs-ubuntu/ | grep mytemp
root@ubuntu-xenial:/demo# ls -l /rootfs-ubuntu/mytemp/
total 0
root@ubuntu-xenial:/demo#

Yes, file was created and contained with filesystem isolation Tip for next example run a container again and look for it's pids table:

root@container:/# ps aux
Error, do this: mount -t proc proc /proc
root@container:/# exit
exit
panic: exit status 47

goroutine 1 [running]:
main.doStuff(0x4ea240, 0xc420082060)
        /demo/demo.go:63 +0x4a
main.fork()
        /demo/demo.go:52 +0x2c4
main.main()
        /demo/demo.go:16 +0x6e
--Saindo do conteiner / Exiting container--
panic: exit status 2

goroutine 1 [running]:
main.doStuff(0x4ea240, 0xc42000a0e0)
        /demo/demo.go:63 +0x4a
main.run()
        /demo/demo.go:36 +0x4d2
main.main()
        /demo/demo.go:14 +0x9f
root@ubuntu-xenial:/demo#

Yes, we need to remount /proc

8. Sixth Example - Isolate PID table

Let's rebuild and run a container, then we check if ps aux works.

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run ubuntu bash
--Entrando no conteiner / Get into container--
--Imagem usada ubuntu / Image in use ubuntu --
--Rodando comando [bash] / Running command [bash] --
root@container:/# ps aux
USER       PID %CPU %MEM    VSZ   RSS TTY      STAT START   TIME COMMAND
root         1  0.6  0.0   3376   976 ?        Sl   14:09   0:00 /proc/self/exe fork ubunt
root         5  0.0  0.3  18292  3244 ?        S    14:09   0:00 bash
root        10  0.0  0.2  34424  2880 ?        R+   14:09   0:00 ps aux
root@container:/# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo#

Yes we have only the pids from process running inside the container.

9. Seventh Example - Limiting processes running with cgroups

Let's rebuild and run a container. This time we need 2 terminal windows. Both must be on the vagrant box, at the first we will run a container.

On firts window:

root@ubuntu-xenial:/demo# go build demo.go
root@ubuntu-xenial:/demo# ./demo run ubuntu bash
--Entrando no conteiner / Get into container--
--Imagem usada ubuntu / Image in use ubuntu --
--Rodando comando [bash] / Running command [bash] --
root@container:/#

On the second one we will check how many process is the cgroup limit and which process are running

On second window:

root@ubuntu-xenial:/demo# cat /sys/fs/cgroup/pids/demo/cgroup.procs
3233
3237
root@ubuntu-xenial:/demo# cat /sys/fs/cgroup/pids/demo/pids.max
15
root@ubuntu-xenial:/demo#

Then we will run a fork bomb and hope that cgroups limits the amount of forked process.

First window:

root@ubuntu-xenial:/demo# ./demo run ubuntu bash
--Entrando no conteiner / Get into container--
--Imagem usada ubuntu / Image in use ubuntu --
--Rodando comando [bash] / Running command [bash] --
root@container:/# :() { : | : & }; :
[1] 11
bash: fork: retry: No child processes
bash: fork: retry: No child processes
...

10. Navigating between tags

Each example is in a git tag between demo1 and demo7, we can check the tags with:

git tag --list
demo1
demo2
demo3
demo4
demo5
demo6
demo7

We can change for a specific tag with the following:

git checkout demo1

Getting back to master branch:

git checkout master

We also can check the differences between 2 tags with the following commands:

git diff demo1..demo2
git diff demo2..demo3

11. Clean up

To leave VM shell

root@container:/# exit
exit
--Saindo do conteiner / Exiting container--
root@ubuntu-xenial:/demo# exit
logout
vagrant@ubuntu-xenial:~$ exit
logout
Connection to 127.0.0.1 closed.
[wsilva@localhost ]$

Then shut the VM down

$ vagrant halt
==> containerdemo: Attempting graceful shutdown of VM...
[wsilva@localhost ]$

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A famous demo that Liz Rice showed many times

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