Docker on FreeBSD is not an easy ride, several attempts failed to bring the popular container platform to this operating system. We have the outdated port, jetpack, and the popular Docker on Freebsd wiki article. But still, the process is not easy, and prone to failures.

Jails is the popular choice to isolate applications in FreeBSD, it’s been a part of the operating system since FreeBSD 4.X, so it’s very robust and has a long story already. That could explain the lack of demand for supporting docker on a native or close-to native way.

But docker is very popular these days and can’t be ignored.

Looking for a working setup

Through this process I’ve experienced many problems trying to setup a Docker environment. Options I’ve tried are:

  • docker-freebsd port, but docker-compose failes to connect and communicate with the docker daemon, also the docker client experiences API version mismatches. Even telling it to ignore the version difference doesn’t work.
  • bhyve with boot2docker, coreos, rancheros machines, but these images refused to boot. In the end, I got boot2docker to work.
  • bhyve with a debian guest, this actually worked, but I was more interested on using boot2docker or another dedicated OS.
  • docker-machine, but the virtualbox guest fails to get an IP from the host-only interface. The machine is up, you can ssh to it through docker-machine ssh, but the second interface expected by docker-machine create never gets an IP.

Using docker-machine seems to be the best option today. For this to happen, first we needed boot2docker up and running on a virtual machine.

Getting boot2docker to run

There are a few options to run boot2docker on FreeBSD:

  • docker-machine
  • Virtualbox (VBoxManage, vagrant)
  • Bhyve (bhyve, chyve, iohyve, vm-bhyve)

docker-machine

Requirements: docker-machine, docker, virtualbox-ose

docker-machine aims to setup a working docker environment, for that it depends on docker running on another host accessible by it’s public IP address. The remote host could be another Linux server, a virtual machine running Linux, even a DigitalOcean droplet or similar provider. There are many drivers supported.

To create a machine use the create command (this defaults to virtualbox in FreeBSD):

$ docker-machine create default
Running pre-create checks...
Creating machine...
(default) Copying /home/omab/.docker/machine/cache/boot2docker.iso to /home/omab/.docker/machine/machines/default/boot2docker.iso...
(default) Creating VirtualBox VM...
(default) Creating SSH key...
(default) Starting the VM...
(default) Check network to re-create if needed...
(default) Waiting for an IP...
Waiting for machine to be running, this may take a few minutes...
Detecting operating system of created instance...
Waiting for SSH to be available...
Detecting the provisioner...
Provisioning with boot2docker...
Copying certs to the local machine directory...
Copying certs to the remote machine...
Error creating machine: Error running provisioning: Could not find matching IP for MAC address 080027669f2d

$ docker-machine ls
NAME                ACTIVE   DRIVER       STATE     URL   SWARM   DOCKER    ERRORS
default             -        virtualbox   Running                 Unknown   Could not find matching IP for MAC address 080027669f2d

Conclusion: Using purely docker-machine didn’t work, the guest virtual machine never gets an ip from the host-only interface.

Virtualbox + Vagrant

Requirements: docker-machine, docker, virtualbox, vagrant

Since docker-machine uses virtualbox, then using it directly seemed reasonable. For that, I’ll use vagrant since it simplifies the task.

Using the following Vagrantfile I was able to get a boot2docker instance running:

Vagrant.configure("2") do |config|
  config.vm.box = "AlbanMontaigu/boot2docker"

  config.vm.network "public_network"

  config.vm.network "forwarded_port",
                    :guest => 2375,
                    :host => 2375

  config.vm.provider "virtualbox" do |vb|
    vb.memory = 2048
    vb.name = "boot2docker-vm"
    vb.cpus = 2
  end
end

Once boot2docker is up, all that’s pending to do is tell docker-machine to use that instance. That’s possible with the generic driver:

$ docker-machine create \
    --driver generic \
    --generic-ip-address 127.0.0.1 \
    --generic-ssh-port 2222 \
    --generic-ssh-user docker \
    --generic-ssh-key ~/.vagrant.d/insecure_private_key \
    boot2docker-vbox
Running pre-create checks...
Creating machine...
(boot2docker-vbox) Importing SSH key...
(boot2docker-vbox) Couldn't copy SSH public key : unable to copy ssh key: open /home/omab/.vagrant.d/insecure_private_key.pub: no such file or directory
Waiting for machine to be running, this may take a few minutes...
Detecting operating system of created instance...
Waiting for SSH to be available...
Detecting the provisioner...
Provisioning with boot2docker...
Copying certs to the local machine directory...
Copying certs to the remote machine...
Setting Docker configuration on the remote daemon...
Checking connection to Docker...
Docker is up and running!
To see how to connect your Docker Client to the Docker Engine running on this virtual machine, run: docker-machine env boot2docker-vbox

$ docker-machine ls
NAME                ACTIVE   DRIVER    STATE     URL                        SWARM   DOCKER        ERRORS
boot2docker-vbox    -        generic   Running   tcp://127.0.0.1:2376               v17.07.0-ce

To use it, first enable the environment:

# this will export a few DOCKER_* environment variables
$ eval $(docker-machine env boot2docker-vbox)

$ docker run --rm hello-world
Unable to find image 'hello-world:latest' locally
latest: Pulling from library/hello-world
b04784fba78d: Pull complete
Digest: sha256:f3b3b28a45160805bb16542c9531888519430e9e6d6ffc09d72261b0d26ff74f
Status: Downloaded newer image for hello-world:latest

Hello from Docker!
This message shows that your installation appears to be working correctly.

To generate this message, Docker took the following steps:
 1. The Docker client contacted the Docker daemon.
 2. The Docker daemon pulled the "hello-world" image from the Docker Hub.
 3. The Docker daemon created a new container from that image which runs the
    executable that produces the output you are currently reading.
 4. The Docker daemon streamed that output to the Docker client, which sent it
    to your terminal.

To try something more ambitious, you can run an Ubuntu container with:
 $ docker run -it ubuntu bash

Share images, automate workflows, and more with a free Docker ID:
 https://cloud.docker.com/

For more examples and ideas, visit:
 https://docs.docker.com/engine/userguide/

Those familiar with Vagrant know about the port-forwarding rules, these rules let you expose a port in the guest to the host host. The problem is that adding new ports requires a reload of the virtual machine and that will take down all your running containers.

Using VboxManage controlvm should overcome this limitation, but I haven’t tested it yet. Another option is to use a NAT interface, but if you find a way to make it work, let me know.

Conclusion: This setup works and it’s highly recommended because it’s very simple to achieve.

Bhyve + iohyve

Requirements: docker-machine, docker, bhyve, iohyve

Given that docker-machine just expects the docker daemon to be accessible at a given IP and port, we could use bhyve to run boot2docker. For that we will be using iohyve to simplify the setup.

Note: boot2docker runs in memory, it’s not an installable distribution, measures are needed in order to persist the docker images.

  • Let’s create the machine
$ sudo iohyve create boot2docker 16G
$ sudo iohyve set boot2docker os=custom loader=grub-bhyve ram=2G
$ sudo iohyve iso https://github.com/boot2docker/boot2docker/releases/download/v17.07.0-ce/boot2docker.iso

We need a custom device.map and grub.cfg files to make it boot with the following content:

# cat <<EOF > /iohyve/boot2docker/device.map
(hd0) /dev/zvol/zroot/iohyve/boot2docker/disk0
(cd0) /iohyve/ISO/boot2docker.iso/boot2docker.iso
EOF

# cat <<EOF > /iohyve/boot2docker/grub.cfg
linux (cd0)/boot/vmlinuz64 loglevel=3 user=docker nomodeset norestore base
initrd (cd0)/boot/initrd.img
boot
EOF

With those files in place we can proceed with the rest of the setup:

Note: boot2docker default credentials are docker:tcuser.

$ sudo iohyve install boot2docker boot2docker.iso
$ sudo iohyve console boot2docker
...
VM booting messages
...

Core Linux
boot2docker login: docker
                        ##         .
                  ## ## ##        ==
               ## ## ## ## ##    ===
           /"""""""""""""""""\___/ ===
      ~~~ {~~ ~~~~ ~~~ ~~~~ ~~~ ~ /  ===- ~~~
           \______ o           __/
             \    \         __/
              \____\_______/
 _                 _   ____     _            _
| |__   ___   ___ | |_|___ \ __| | ___   ___| | _____ _ __
| '_ \ / _ \ / _ \| __| __) / _` |/ _ \ / __| |/ / _ \ '__|
| |_) | (_) | (_) | |_ / __/ (_| | (_) | (__|   <  __/ |
|_.__/ \___/ \___/ \__|_____\__,_|\___/ \___|_|\_\___|_|
Boot2Docker version 17.07.0-ce, build HEAD : 24e9d2f - Wed Aug 30 00:04:56 UTC 2017
Docker version 17.07.0-ce, build 8784753

docker@boot2docker:~$
  • Setup the persistent storage

boot2docker will automatically mount the first partition it detects with the label boot2docker-data or the first ext[234] partition into /var/lib/docker and /var/lib/boot2docker. For that, we need to prepare the partition in the attached disk.

# create a Linux partition, save and exit
$ sudo fdisk /dev/sda
$ sudo mkfs.ext4 /dev/sda1
$ sudo tune2fs -L boot2docker-data /dev/sda1

Note: exit from the cu console by typing ~~. or ~ Ctrl+d

Let’s restart the machine:

$ sudo iohyve stop boot2docker
$ sudo iohyve start boot2docker

This time, the formatted partition will be mounted and changes will be persisted. But first we need to tune the docker daemon a bit to work in the machine. By default runc will call root_pivot to change the root endpoint, but root_pivot doesn’t work on initrd based systems.

There’s no option to pass extra parameters from dockerd to runc, so wrapping is the only solution at the moment:

$ sudo iohyve console boot2docker
# login with docker user (tcuser password)
$ sudo -s

# cat <<EOF > /var/lib/boot2docker/etc/docker/daemon.json
{
    "default-runtime": "runc-nopivot",
    "runtimes": {
        "runc-nopivot": {
            "path": "/var/lib/boot2docker/etc/docker/runc-nopivot.sh"
        }
    }
}
EOF

# cat <<EOF > /var/lib/boot2docker/etc/docker/runc-nopivot.sh
#!/bin/sh
args=\`echo "\$@" | sed 's/create/create --no-pivot/'\`
/usr/local/bin/docker-runc \$args
EOF

# chmod +x /var/lib/boot2docker/etc/docker/runc-nopivot.sh

# /etc/init.d/docker restart

We can proceed to connect docker-machine with the virtual machine. First grab the IP address with ifconfig eth0 or ip addr show dev eth0.

Let’s authorize your ssh key to make the process easier:

$ ssh-copy-id docker@192.168.1.156

$ docker-machine create \
    --driver generic \
    --generic-ip-address 192.168.1.156 \
    --generic-ssh-user docker
    boot2docker-bhyve

$ docker-machine ls
NAME                ACTIVE   DRIVER    STATE     URL                       SWARM   DOCKER        ERRORS
boot2docker-bhyve   -        generic   Running   tcp://192.168.1.156:2376          v17.07.0-ce

Now we can use docker:

$ eval $(docker-machine env boot2docker-bhyve)

$ docker run --rm hello-world
Unable to find image 'hello-world:latest' locally
latest: Pulling from library/hello-world
b04784fba78d: Pull complete
Digest: sha256:f3b3b28a45160805bb16542c9531888519430e9e6d6ffc09d72261b0d26ff74f
Status: Downloaded newer image for hello-world:latest

Hello from Docker!
This message shows that your installation appears to be working correctly.

To generate this message, Docker took the following steps:
 1. The Docker client contacted the Docker daemon.
 2. The Docker daemon pulled the "hello-world" image from the Docker Hub.
 3. The Docker daemon created a new container from that image which runs the
    executable that produces the output you are currently reading.
 4. The Docker daemon streamed that output to the Docker client, which sent it
    to your terminal.

To try something more ambitious, you can run an Ubuntu container with:
 $ docker run -it ubuntu bash

Share images, automate workflows, and more with a free Docker ID:
 https://cloud.docker.com/

For more examples and ideas, visit:
 https://docs.docker.com/engine/userguide/

Conclusion: This setup works, the bridged interface makes interacting with the containers easier since no port-forwarding rules are needed, it demands some work to setup, but in the end it behaves great.

The big problem

Filesystem synchronization is a feature I find vital for any usable work setup. It’s very important that the codebase being worked is up to date inside the running container or virtual machine, this makes applications restart and code reload easier, even automated.

This isn’t a new problem, the same used to happen with Virtualbox and the very slow vboxsf, there are vagrant plugins that workaround this problem but none proved to be fast enough.

Network solutions like nfs don’t guarantee an immediate synchronization or don’t propagate filesystem events that happen in the host machine.

docker-sync

Looking for solutions I came across docker-sync, this project looks to keep files in synchronized using different approaches depending on the OS and the software available, while aiming to be fast and no CPU intensive.

docker-sync works by creating a container (depends on the strategy selected) for each specified shareable resource, then synchronizes the content into that container at /app_sync using the defined strategy (rsync, unison, etc). Finally, the volumes created by this container are used by your application.

The main drawback is that it depends on named volumes, so you can’t used -v .:/code or - .:/code in your docker-compose.yml file. But it integrates with docker-compose to reduce the pain a little.

Note: FreeBSD support is still getting reviewed at the time of this writing.

Here’s an example of a docker-sync.yml file:

version: "2"

options:
  verbose: true
  project_root: 'pwd'

syncs:
  code-sync:
    sync_strategy: 'rsync'
    src: '.'
    sync_host_port: 10871

To start the sync, just run:

$ docker-sync start
          ok  Starting rsync for sync code-sync
          ok  code-sync container not running
          ok  creating code-sync container
     command  docker run -p '10871:873' -v code-sync:/app_sync   -e VOLUME=/app_sync -e TZ=${TZ-`readlink /etc/localtime | sed -e 's,/usr/share/zoneinfo/,,'`} --name code-sync -d eugenmayer/rsync
          ok  code-sync: starting initial sync of /usr/home/omab/app
     command  rsync -ap '/usr/home/omab/app' rsync://192.168.1.156:10871/volume
          ok  Synced /usr/home/omab/app
      output
     success  Rsync server started
     command  rsync -ap '/usr/home/omab/d/app' rsync://192.168.1.156:10871/volume
          ok  Synced /usr/home/omab/app
      output
     success  Starting Docker-Sync in the background

jocker and jocker-compose

I’m currently working on two projects looking to bring some of the simplicity of docker and docker-compose into the jails world.

The two tools named jocker and jocker-compose (names selected on purpose) aim to work in similar ways than their docker counterparts, but everything is based on jails and ezjail flavours.

This is pretty green stuff yet, specially the compose part. Repositories are at jocker and jocker-compose.

Conclusion

Using docker in FreeBSD is not impossible, it’s not a very easy task, but still, it’s doable. Recommended options for quick setup is Vagrant + boot2docker + docker-machine, if you prefer native virtualization solutions, then go for bhyve/iohyve + boot2docker + docker-machine. Use docker-sync to keep your code synchronized in the container.