--- title: "Auto-Deploy Docker Applications" date: 2020-05-09T10:20:34-04:00 draft: false tags: ["Containers"] --- This post will combine that last three posts on [Packer](/blog/snapshotswithpacker/), [Terraform](/blog/autodeployterraform/), and their [configuration](/blog/sharedpackerterraformconfig/) to show an entire example of how to deploy a docker-compose application. We will specifically look at deploying a game called [`minetest`](https://www.minetest.net/) on DigitalOcean, but these principles can be adjusted to deploy your application as well. The entire setup is [documented on Github](https://github.com/Brandon-Rozek/minetest-deploy). ## Shared Config We're going to use a shared configuration between Packer and Terraform. The template goes like this: ``` base_system_image = "ubuntu-20-04-x64" region = "nyc3" size = "512mb" domain = "brandonrozek.com" # Replace subdomain = "minetest" # Secrets do_token = "DO-TOKEN-HERE" # Replace key_name = "SSH-NAME-ON-DO-HERE" # Replace ``` We'll also need to define the types of these variables in `variables.hcl` ``` variable "do_token" { type = string } variable "base_system_image" { type = string } variable "domain" { type = string } variable "key_name" { type = string } variable "subdomain" { type = string } variable "region" { type = string } variable "size" { type = string } ``` ## Packer Create a packer directory and setup some symbolic links to the share configuration ```bash mkdir packer && cd packer ln -s ../config variables.auto.pkrvars.hcl ln -s ../variables.hcl variables.pkr.hcl ``` Now let's create a script named `setup.sh` that will run on top of our base image. This will install Docker and setup the firewall to allow SSH and Minetest traffic through. ```bash #!/bin/bash apt update apt upgrade -y apt install -y docker.io docker-compose systemctl enable docker-compose systemctl start docker-compose ufw allow OpenSSH # Add any firewall rules you need # for your application here ufw allow 30000/udp ufw --force enable ``` The image that we'll use for Minetest comes from [linuxserverio](https://fleet.linuxserver.io/image?name=linuxserver/minetest). To configure docker-compose we'll need a file named `docker-compose.yml`. Its contents will be highly similar to what is listed on their [Github](https://github.com/linuxserver/docker-minetest/blob/466cde1f2fd38278fe69d33ea3b2f42df50e6b16/README.md). ```yml version: "2.1" services: minetest: image: linuxserver/minetest container_name: minetest environment: - PUID=1000 - PGID=1000 - TZ=US/Eastern volumes: - /volumes/minetest/config/.minetest:/config/.minetest ports: - 30000:30000/udp restart: unless-stopped ``` We'll need to create a `systemd` script called `docker-compose.service` for systemd to [enable docker-compose on startup](https://brandonrozek.com/blog/composesystemd/). ```ini [Unit] Description=Docker Compose Application Service Requires=docker.service After=docker.service [Service] Type=oneshot RemainAfterExit=yes WorkingDirectory=/root ExecStart=/usr/bin/docker-compose up -d ExecStop=/usr/bin/docker-compose down TimeoutStartSec=0 [Install] WantedBy=multi-user.target ``` Finally we'll need to write a packer configuration file `do.pkr.hcl` to create our snapshot. ``` source "digitalocean" "web" { api_token = var.do_token image = var.base_system_image region = var.region size = var.size ssh_username = "root" snapshot_name = "packer-docker" } build { sources = [ "source.digitalocean.web", ] provisioner "file" { source = "docker-compose.yml" destination = "/root/docker-compose.yml" } provisioner "file" { source = "docker-compose.service" destination = "/etc/systemd/system/docker-compose.service" } provisioner "shell" { scripts = [ "setup.sh" ] } } ``` To build our image we need to run `packer build .` in the directory with all these files. ## Terraform Like before, we need to tell terraform where to look for its configuration ```bash mkdir terraform && cd terraform ln -s ../config terraform.tfvars ln -s ../variables.hcl variables.tf ``` To deploy, we only need to create one additional file that will tell digital ocean to create a droplet and assign a subdomain to that droplet. ``` provider "digitalocean" { token = var.do_token } data "digitalocean_ssh_key" laptop { name = var.key_name } data "digitalocean_droplet_snapshot" "packer_snapshot" { name = "packer-docker" most_recent = true } # Create a droplet resource "digitalocean_droplet" "web" { name = "tf-1" image = data.digitalocean_droplet_snapshot.packer_snapshot.id region = var.region size = var.size ssh_keys = [data.digitalocean_ssh_key.laptop.id] backups = false } # Attach a subdomain resource "digitalocean_record" "www" { domain = var.domain type = "A" name = var.subdomain value = digitalocean_droplet.web.ipv4_address } output "ip" { value = digitalocean_droplet.web.ipv4_address } output "domain" { value = "${digitalocean_record.www.name}.${digitalocean_record.www.domain}" } ``` To deploy run ```bash terraform apply ``` To later take down the minetest server, run ```bash terraform destroy ``` ## Conclusion This method can be easily configured to run whichever docker services you'd like. All you have to do is edit the `packer/docker.compose.yml` file and `packer/setup.sh` to setup the firewall rules.