# HashiCorp, Inc. Vault Docker Compose files

Docker Compose files to spin up an instance of HashiCorp, Inc. Vault.

# How to run

Add a `COMPOSE_ENV` file and save its location as a shell variable along with the location where this repo lives, here for example `/opt/containers/hashicorpvault` plus all other variables. At [env/fqdn_context.env.example](env/fqdn_context.env.example) you'll find an example environment file.

When everything's ready start HashiCorp, Inc. Vault with Docker Compose, otherwise head down to [Initial setup](#initial-setup) first.

## Environment

```
export COMPOSE_DIR='/opt/containers/hashicorpvault'
export COMPOSE_CTX='ux_vilnius'
export COMPOSE_PROJECT='hashicorpvault-'"${COMPOSE_CTX}"
export COMPOSE_FILE="${COMPOSE_DIR}"'/compose.yaml'
export COMPOSE_ENV=<add accordingly>
```

## Context

On your deployment machine create the necessary Docker context to connect to and control the Docker daemon on whatever target host you'll be using, for example:
```
docker context create fully.qualified.domain.name --docker 'host=ssh://root@fully.qualified.domain.name'
```

## Pull

Pull images from Docker Hub verbatim.

```
docker compose --project-name "${COMPOSE_PROJECT}" --file "${COMPOSE_FILE}" --file "${COMPOSE_OVERRIDE}" --env-file "${COMPOSE_ENV}" pull
```

## Copy to target

Copy images to target Docker host, that is assuming you deploy to a machine that itself has no network route to reach Docker Hub or your private registry of choice. Copying in its simplest form involves a local `docker save` and a remote `docker load`. Consider the helper mini-project [quico.space/Quico/copy-docker](https://quico.space/Quico/copy-docker) where [copy-docker.sh](https://quico.space/Quico/copy-docker/src/branch/main/copy-docker.sh) allows the following workflow:

```
export "$(grep -Pi -- '^HASHICORPVAULT_VERSION=' "${COMPOSE_ENV}")"
copy-docker 'hashicorp/vault:'"${HASHICORPVAULT_VERSION}" fully.qualified.domain.name
```

## Start

```
docker --context 'fully.qualified.domain.name' compose --project-name "${COMPOSE_PROJECT}" --file "${COMPOSE_FILE}" --env-file "${COMPOSE_ENV}" up --detach
```

## Clean up

Get rid of unnecessary images on both the deployment and the target machine:
```
docker --context 'fully.qualified.domain.name' system prune -af
docker system prune -af
```

# Initial setup

We're assuming you run Docker Compose workloads with ZFS-based bind mounts. ZFS management, creating a zpool and setting adequate properties for its datasets is out of scope of this document.

## Datasets

Create ZFS datasets and set permissions as needed.

* Parent dateset
    ```
    export "$(grep -Pi -- '^CONTEXT=' "${COMPOSE_ENV}")"
    zfs create -o canmount=off zpool/data/opt
    zfs create -o mountpoint=/opt/docker-data zpool/data/opt/docker-data
    ```

* Container-specific datasets
    ```
    zfs create -p 'zpool/data/opt/docker-data/hashicorpvault-'"${CONTEXT}"'/config'
    zfs create -p 'zpool/data/opt/docker-data/hashicorpvault-'"${CONTEXT}"'/data/file'
    zfs create -p 'zpool/data/opt/docker-data/hashicorpvault-'"${CONTEXT}"'/data/logs'
    ```
    This results in a directory structure like so:
    ```
    /opt/docker-data/hashicorpvault-loft/
    ├── config
    └── data
        ├── file
        └── logs
    ```

## Additional files

Place a `vault.hcl` file on target server:

```
hashicorpvault-loft/
├── config
│   └── vault.hcl
└── data
    ├── file
    │   ├── ...
    └── logs
        └── ...
```

The file may look like so:

```
backend "file" {
    path            = "/vault/file"
}

listener "tcp" {
    address         = "0.0.0.0:8200"
    tls_disable     = 1
}

api_addr            = "https://fully.qualified.domain.name"
disable_clustering  = true
ui                  = true
```

With the `api_addr` setting in place we assume that you'll be running a separate reverse proxy server that terminates `https://fully.qualified.domain.name` and forwards traffic to Vault. 

When done head back up to [How to run](#how-to-run).

# Development

## Conventional commits

This project uses [Conventional Commits](https://www.conventionalcommits.org/) for its commit messages.

### Commit types

Commit _types_ besides `fix` and `feat` are:

- `refactor`: Keeping functionality while streamlining or otherwise improving function flow
- `docs`: Documentation for project or components

### Commit scopes

The following _scopes_ are known for this project. A Conventional Commits commit message may optionally use one of the following scopes or none:

- `hashicorpvault`: A change to how the `hashicorpvault` service component works
- `build`: Build-related changes such as `Dockerfile` fixes and features.
- `mount`: Volume or bind mount-related changes.
- `net`: Networking, IP addressing, routing changes
- `meta`: Affects the project's repo layout, file names etc.