# The Ansible Edda Ansible playbooks for provisioning The Nine Worlds. ## Secrets vault - Encrypt with: ```ansible-vault encrypt vault.yml``` - Decrypt with: ```ansible-vault decrypt secrets.yml``` - Encrypt all `vault.yml` in a directory with: ```ansible-vault encrypt directory/**/vault.yml``` - Decrypt all `vault.yml` in a directory with: ```ansible-vault decrypt directory/**/vault.yml``` - Run a playbook with ```ansible-playbook --vault-id @prompt playbook.yml``` ## The Nine Worlds The main entrypoint for The Nine Worlds is [`main.yml`](main.yml). ### Keyring integration Keyring integration requires `python3-keyring` to be installed. To set the keyring password run: ``` sh ./vault-keyring-client.py --set [--vault-id ] ``` If `--vault-id` is not specified, the password will be stored under `ansible`. To use the password from the keyring invoke playbooks with: ``` sh ansible-playbook --vault-id @vault-keyring-client.py ... ``` ### Production and testing The inventory files are split into [`production`](production) and [`testing`](testing). To run the `main.yml` playbook on production hosts: ``` sh ansible-playbook main.yml -i production ``` To run the `main.yml` playbook on production hosts: ``` sh ansible-playbook main.yml -i testing ``` ### Testing virtual machines The scripts for starting, stopping, and reverting the testing virtual machines is located in `scripts/testing/vmgr.py`. ### Playbooks The Ansible Edda playbook is composed of smaller [`playbooks`](playbooks). To run a single playbook, invoke the relevant playbook directly from the playbook directory. For example, to run the [`system`](system) playbook, run: ``` sh ansible-playbook playbooks/system.yml ``` Alternatively you can use its tag as well: ``` sh ansible-playbook main.yml --tags "system" ``` ### Roles Playbooks are composed of roles defined in the `roles` directory, [`playbooks/roles`](playbooks/roles). To play only a specific role, e.g. `system/base` in the playbook `system`, run: ``` sh ansible-playbook playbooks/system.yml --tags "system:base" ``` Or from the main playbook: ``` sh ansible-playbook main.yml --tags "system:base" ``` ### Role sub-tasks Some roles are split into smaller groups of tasks. This can be checked by looking at the `tasks/main.yml` file of a role, e.g. [`playbooks/roles/system/base/tasks/main.yml`](playbooks/roles/system/base/tasks/main.yml). To play only a particular group within a role, e.g. `sshd` in `base` of `system`, run: ``` sh ansible-playbook playbooks/system.yml --tags "system:base:sshd" ``` Or from the main playbook: ``` sh ansible-playbook main.yml --tags "system:base:sshd" ``` ## Testing backups Before testing the backups, you may want to shut `yggdrasil` down for extra confidence that it is not being accessed/modified during this process. It is easy to access `yggdrasil` by accident if `/etc/hosts` is not modified in the test VM, something that is easy to forget. ### Baldur on Scaleway 1. Create `baldur` by running: ```sh python scripts/scaleway/baldur.py create --volume-size ``` Pick a volume size that's larger than what `yggdrasil` estimates for `rpool/var/lib/yggdrasil/data`. 2. When done destroy `baldur` by running: ```sh python scripts/scaleway/baldur.py delete ``` ### Baldur on Yggdrasil 1. Create a VM on `yggdrasil` and install the same OS that is running on `yggdrasil`. - Install the OS on a zvol on `rpool`. - If the same VM is to be used for testing, a GUI is helpful. - Prepare a zvol on `hpool` of size that's larger than what `yggdrasil` estimates for `rpool/var/lib/the-nine-worlds/data` and mount at `/var/lib/the-nine-worlds/data`. - Create non-root user `wojtek` with `sudo` privileges. 2. Configure SSH to use `yggdrasil` as a jump server. 3. Set `refreserv=0` on the zvols to make snapshots take less space. - `zfs set refreserv=0 tank/home/ahrens` 4. Use ZFS for snapshots/roolback of the zvols. - `zfs snapshot tank/home/ahrens@friday` - `zfs rollback tank/home/ahrens@friday` 5. Service testing can then be done directly from the VM. To achieve that `/etc/hosts` needs to be set to directly point at the right proxy server, e.g., `10.66.3.8`, not `localhost`. ### Test 1. Provision `baldur` by running ```sh ansible-playbook --vault-id @vault-keyring-client.py -i inventory/baldur_production playbooks/baldur.yml ``` 2. Restore all the backups by ssh'ing into `baldur` and running (as root): ```sh /usr/local/sbin/restic-batch --config-dir /etc/the-nine-worlds/restic-batch.d restore ``` 3. Once restore has completed, `chown -R :` all the restored directories in `/var/lib/the-nine-worlds/data`. Restic restores the UID information of the host from which the backup was performed which may not match that of the new target machine. Note that permissions and ownership are restored as a second step once all the content is restored. Therefore, the files will list `root` as owner during the restoration. 4. Start all the pod services with: ```sh ansible-playbook --vault-id @vault-keyring-client.py -i inventory/baldur_production playbooks/services_start.yml ``` Give them some time to download all the images and start. 5. Once the CPU returns to idling check the state of all the pod services and their `veth` interfaces. If necessary restart the affected pod. Sometimes they fail to start (presumably due to issues related to limited CPU and RAM). 6. Boot into a test VM. Ideally, one installed onto a virtual disk since the live system might not have enough space. A VM is used to make sure that none of the services on the host workstation connect to `baldur` by accident. 7. Modify `/etc/hosts` in the VM to point at `baldur` for all relevant domains. 8. Test each service manually one by one. Use the Flagfox add-on to verify that you are indeed connecting to `baldur`. - Some containers fail to start up if the database takes too long to come online. In that case restart the container. - Some containers fail to start up if they cannot make DNS queries. Note that `192.168.0.0/16` is blocked by firewall rules. If `/etc/the-nine-worlds/resolv.conf` points at a DNS resolved at such an address all DNS queries will fail. Simply update `resolv.conf` to e.g. `1.1.1.1`. 9. Stop all the pod services with: ```sh ansible-playbook --vault-id @vault-keyring-client.py -i inventory/baldur_production playbooks/services_stop.yml ``` ## Music organisation The `playbooks/music.yml` playbook sets up tools and configuration for organising music. The process is manual though. The steps for adding a new CD. All steps below are to be executed as the `music` user. ### Note on tagging * For live albums add "YYYY-MM-DD at Venue, City, Country" in the "Subtitle" tag. * For remasters use original release tags and add "YYYY Remaster" in the "Subtitle" tag. ### Ripping a CD 1. Use a CD ripper and rip the CD to `/var/lib/yggdrasil/home/music/rip` using flac encoding. 2. Samba has been set up to give Windows access to the above directory. Therefore, CD rippers available only for Windows can also be used, e.g. dBpoweramp. ### Import new music 1. Run `beet import /var/lib/yggdrasil/home/music/rip`. This will move the music files to `/var/lib/yggdrasil/data/music/collection`. 2. Run `beet convert -a `, where `` is used to narrow down to new music only. This will convert the flac files into mp3 files for sharing via Nextcloud. 3. Run `nextcloud-upload /var/tmp/music/mp3/` for every artist to upload to Nextcloud. 4. Remove the `/var/tmp/music/mp3/` directory. #### Collections Every track has a `compilation` tag at track-level as well as at album-level (at least in Beets). To label the album as a compilation for sorting purposes, run `beet modify -a comp=True`. ### Archive music #### From rip 1. Run `beet --config .config/beets/archive.yaml import --move /var/lib/yggdrasil/home/music/rip`. This will move the music files to `/var/lib/yggdrasil/data/music/archive`. #### From collection 1. Run `beet --config .config/beets/archive.yaml import /var/lib/yggdrasil/data/music/collection//`. This will copy the music files to `/var/lib/yggdrasil/data/music/archive`. 2. Run `beet remove -d -a "album:"`. This will remove the music files from the collection.