--- title: "Crash Course to LXD" subtitle: "Quick instructions for installing LXD and setting up your first application." date: 2023-09-19T14:27:00-04:00 categories: - Technology tags: - Sysadmin - Containers - VMs - Docker - LXD draft: true toc: true rss_only: false cover: ./cover.png --- If you're wondering _why_ I like system containers, see the previous post, _[LXD: Containers for Human Beings.][lxd]_ [lxd]: {{< ref "lxd-containers-for-human-beings" >}} ## Installation {{< adm type="note" >}} **Note:** the instructions below say to install LXD using [Snap.][snap] I personally dislike Snap, but LXD is a Canonical product and they're doing their best to promote it as much as possible. [Incus] is a fork of LXD by the primary creators and maintainers and one of the first things they did was [rip out Snap support,][rsnap] so it will eventually be installable as a proper native package. [snap]: https://en.wikipedia.org/wiki/Snap_(software) [Incus]: https://github.com/lxc/incus [rsnap]: https://github.com/lxc/incus/compare/9579f65cd0f215ecd847e8c1cea2ebe96c56be4a...3f64077a80e028bb92b491d42037124e9734d4c7 {{< /adm >}} 1. Install snap following [Canonical's tutorial](https://earl.run/ZvUK) - LXD is natively packaged for Arch and Alpine, but configuration can be a massive headache. 2. `sudo snap install lxd` 3. `lxd init` - Defaults are fine for the most part; you may want to increase the size of the storage pool. 4. `lxc launch images:debian/12 container-name` 5. `lxc shell container-name` ## Usage As an example of how to use LXD in a real situation, we'll set up [my URL shortener.][earl] You'll need a VPS with LXD installed and a (sub)domain pointed to the VPS. Run `lxc launch images:debian/12 earl` followed by `lxc shell earl` and `apt install curl`. Also `apt install` a text editor, like `vim` or `nano` depending on what you're comfortable with. Head to the **Installation** section of [earl's SourceHut page][earl] and expand the **List of latest binaries**. Copy the link to the binary appropriate for your platform, head back to your terminal, type `curl -LO`, and paste the link you copied. This will download the binary to your system. Run `mv earl` to rename it, `chmod +x earl` to make it executable, then `./earl` to execute it. It will create a file called `config.yaml` that you need to edit before proceeding. Change the `accessToken` to something else and replace the `listen` value, `127.0.0.1`, with `0.0.0.0`. This exposes the application to the host system so we can reverse proxy it. [earl]: https://earl.run/source The next step is daemonising it so it runs as soon as the system boots. Edit the file located at `/etc/systemd/system/earl.service` and paste the following code snippet into it. ```ini [Unit] Description=personal link shortener After=network.target [Service] User=root Group=root WorkingDirectory=/root/ ExecStart=/root/earl -c config.yaml [Install] WantedBy=multi-user.target ``` Save, then run `systemctl daemon-reload` followed by `systemctl enable --now earl`. You should be able to `curl localhost:8275` and see some HTML. Now we need a reverse proxy on the host. Exit the container with `exit` or `Ctrl+D`, and if you have a preferred webserver, install it. If you don't have a preferred webserver yet, I recommend [installing Caddy.][caddy] All that's left is running `lxc list`, making note of the `earl` container's `IPv4` address, and reverse proxying it. If you're using Caddy, edit `/etc/caddy/Caddyfile` and replace everything that's there with the following. [caddy]: https://caddyserver.com/docs/install ```text <(sub)domain> { encode zstd gzip reverse_proxy :1313 } ``` Run `systemctl restart caddy` and head to whatever domain or subdomain you entered. You should see the home page with just the text `earl` on it. If you go to `/login`, you'll be able to enter whatever access token you set earlier and log in. ## Further tips One of the things you might want to do post-installation is mess around with profiles. There's a `default` profile in LXD that you can show with `lxc profile show default`. ``` text $ lxc profile show default config: {} description: Default LXD profile devices: eth0: name: eth0 network: lxdbr0 type: nic root: path: / pool: default type: disk name: default used_by: [] ``` Not all config options are listed here though; you'll need to read [the documentation] for a full enumeration. [the documentation]: https://documentation.ubuntu.com/lxd/en/latest/config-options/ I've seen some people say that executing a fork bomb from inside a container is equivalent to executing it on the host. The fork bomb will blow up the whole system and render every application and container you're running inoperable. That's partially true because LXD _by default_ doesn't put a limit on how many processes a particular container can spawn. You can limit that number yourself by running ```text lxc profile set default limits.processes ``` Any container you create under the `default` profile will have a total process limit of ``. I can't tell you what a good process limit is though; you'll need to do some testing and experimentation on your own. As stated in [the containers section][pp] of the previous post, this doesn't _save_ you from fork bombs. It just helps prevent a fork bomb from affecting the host OS or other containers. [pp]: {{< ref "lxd-containers-for-human-beings#containers" >}}