9-task plan: verify hcloud facts; hetzner_vm module (server+firewall+ssh+cloud-init); offsite env (CAX11/hel1/debian-13, local state); Makefile token-injection + directory inventory + tf-inventory-offsite; offsite-handoff pytest; init/validate/plan; GATED apply (billed VPS) + bootstrap; ADR-006/009/020/007/016 amendments. Resolves the inventory-handoff open item via a directory inventory. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
19 KiB
askari Provisioning (M2) Implementation Plan
For agentic workers: REQUIRED SUB-SKILL: Use superpowers:subagent-driven-development (recommended) or superpowers:executing-plans to implement this plan task-by-task. Steps use checkbox (
- [ ]) syntax for tracking.
Goal: Provision askari (the off-site Hetzner VPS) as Terraform IaC — a hetzner_vm module + an offsite stack — behind a TF-managed cloud firewall, hand it into the offsite_hosts inventory, and bootstrap it.
Architecture: Generalize boma's "Terraform owns VM existence" principle (ADR-006) from Proxmox to Hetzner. A reusable hetzner_vm module wraps hcloud_server + hcloud_firewall + hcloud_ssh_key; an offsite environment (own local state) declares askari (CAX11/ARM, Helsinki, Debian 13). cloud-init creates the ansible user with ubongo's key; the firewall allows SSH from ubongo only. Handoff stays ADR-009-shaped: the offsite env outputs vms, and tf_to_inventory.py (already offsite-aware) generates an inventory file merged via a directory inventory.
Tech Stack: Terraform (hetznercloud/hcloud provider), Hetzner Cloud, cloud-init, Ansible. Token from vault.hetzner.token → TF_VAR_hcloud_token.
Spec: docs/superpowers/specs/2026-06-14-askari-provisioning-design.md
Execution context: Tasks 1–6 + 9 are authoring + terraform fmt/validate/plan (need terraform installed + the token, but no resources are created). Task 7 (terraform apply) and Task 8 (bootstrap) create a real, billed VPS — gated, run with explicit user go, tf-plan shown first (CLAUDE.md). If terraform is absent in the working env, Tasks 6–8 defer to ubongo.
File Structure
terraform/modules/hetzner_vm/{variables,main,outputs}.tf(create) — wraps server + firewall + ssh key + cloud-init.terraform/environments/offsite/{providers,variables,main,outputs,backend}.tf+terraform.tfvars.example(create) — the askari stack, own local state.Makefile(modify) — injectTF_VAR_hcloud_tokenforTF_ENV=offsite; directory inventory;tf-inventory-offsitetarget.scripts/tf_to_inventory.py(no change — already offsite-aware) +tests/test_tf_to_inventory.py(create) — lock the offsite handoff.docs/decisions/{006,009,020,007,016}-*.md,STATUS.md(modify) — ADR amendments + status.
Task 1: Verify the Hetzner provider/image facts (ADR-014)
Files: none (research; pin values used by later tasks).
- Step 1: Verify and record
Verify (WebFetch registry.terraform.io / docs.hetzner.com, or terraform once init'd):
- latest
hetznercloud/hcloudprovider version to pin (expected~> 1.48+), - the Debian 13 image slug (expected
debian-13), - that server type
cax11exists in locationhel1.
Record a stamp in the offsite providers.tf comment, e.g.:
# verified: hetznercloud/hcloud <ver> · debian-13 image · cax11@hel1 · <source> · <date>
- Step 2: No commit (values land in later tasks).
Task 2: The hetzner_vm module
Files:
-
Create:
terraform/modules/hetzner_vm/variables.tf,main.tf,outputs.tf -
Step 1:
variables.tf
variable "name" {
description = "Server name (and hostname)"
type = string
}
variable "server_type" {
description = "Hetzner server type, e.g. cax11 (ARM)"
type = string
}
variable "location" {
description = "Hetzner location, e.g. hel1"
type = string
}
variable "image" {
description = "OS image slug, e.g. debian-13"
type = string
}
variable "ansible_ssh_pubkey" {
description = "Public SSH key provisioned for the ansible user via cloud-init"
type = string
}
variable "ssh_admin_cidrs" {
description = "Source CIDRs allowed to reach SSH (e.g. ubongo's address/32)"
type = list(string)
}
variable "labels" {
description = "Hetzner resource labels (metadata only)"
type = map(string)
default = {}
}
- Step 2:
main.tf
# cloud-init: create the unprivileged `ansible` user with ubongo's key + sudo.
# (Mirrors the proxmox_vm module's user_account; Hetzner has no structured field.)
locals {
user_data = <<-EOT
#cloud-config
users:
- name: ansible
groups: [sudo]
sudo: "ALL=(ALL) NOPASSWD:ALL"
shell: /bin/bash
ssh_authorized_keys:
- ${var.ansible_ssh_pubkey}
package_update: true
packages:
- python3
EOT
}
resource "hcloud_ssh_key" "ansible" {
name = "${var.name}-ansible"
public_key = var.ansible_ssh_pubkey
}
resource "hcloud_firewall" "this" {
name = "${var.name}-fw"
# SSH from the control node only (NetBird ports are added in M4 when the
# coordinator deploys — see ADR-020; the host nftables layer is catalog-driven).
rule {
direction = "in"
protocol = "tcp"
port = "22"
source_ips = var.ssh_admin_cidrs
}
}
resource "hcloud_server" "this" {
name = var.name
server_type = var.server_type
location = var.location
image = var.image
ssh_keys = [hcloud_ssh_key.ansible.id]
user_data = local.user_data
firewall_ids = [hcloud_firewall.this.id]
labels = var.labels
public_net {
ipv4_enabled = true
ipv6_enabled = true
}
}
- Step 3:
outputs.tf
output "ipv4_address" {
description = "Server public IPv4"
value = hcloud_server.this.ipv4_address
}
output "name" {
description = "Server name"
value = hcloud_server.this.name
}
- Step 4: Format
Run: terraform fmt terraform/modules/hetzner_vm/
Expected: files formatted (or already formatted).
- Step 5: Commit
git add terraform/modules/hetzner_vm
git commit -m "feat(tf): hetzner_vm module (server + firewall + ssh key + cloud-init)"
(append Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>)
Task 3: The offsite environment
Files:
-
Create:
terraform/environments/offsite/{providers,variables,main,outputs,backend}.tf,terraform.tfvars.example -
Step 1:
providers.tf(pin the version from Task 1)
# verified: hetznercloud/hcloud ~> 1.48 · debian-13 · cax11@hel1 · <source> · <date>
terraform {
required_version = ">= 1.9"
required_providers {
hcloud = {
source = "hetznercloud/hcloud"
version = "~> 1.48"
}
}
}
provider "hcloud" {
token = var.hcloud_token
}
- Step 2:
variables.tf
variable "hcloud_token" {
description = "Hetzner Cloud API token — set via TF_VAR_hcloud_token (from vault.hetzner.token)"
type = string
sensitive = true
}
variable "ansible_ssh_pubkey" {
description = "ubongo's control SSH public key, provisioned for the ansible user"
type = string
}
variable "ssh_admin_cidrs" {
description = "Source CIDRs allowed to SSH askari (ubongo's address/32)"
type = list(string)
}
- Step 3:
main.tf
# offsite/main.tf — off-site Hetzner hosts. Terraform owns VM existence (ADR-006,
# generalized to Hetzner). ALWAYS `make tf-plan TF_ENV=offsite` and review before
# `make tf-apply TF_ENV=offsite`.
module "askari" {
source = "../../modules/hetzner_vm"
name = "askari"
server_type = "cax11" # ARM, 2 vCPU / 4 GB
location = "hel1" # Helsinki
image = "debian-13"
ansible_ssh_pubkey = var.ansible_ssh_pubkey
ssh_admin_cidrs = var.ssh_admin_cidrs
labels = {
env = "offsite"
group = "offsite_hosts"
managed-by = "terraform"
}
}
- Step 4:
outputs.tf(thetf_to_inventory.pycontract —vmsmap)
output "vms" {
description = "Hostname → IP and Ansible group — consumed by make tf-inventory-offsite"
value = {
askari = {
ip = module.askari.ipv4_address
group = "offsite_hosts"
}
}
}
- Step 5:
backend.tf
# Terraform state: LOCAL, on the control node (like the Proxmox envs; ADR-006).
# askari survives a homelab outage by design, so a lost state is recovered by
# `terraform import` of the running server — not a rebuild. Back the state up with
# the control node (ADR-022).
- Step 6:
terraform.tfvars.example
# offsite environment — non-secret values. Copy to terraform.tfvars and fill in.
#
# Secret is exported as an env var (never in this file):
# export TF_VAR_hcloud_token="$(...from vault.hetzner.token...)" # make handles this
#
# State is local (see backend.tf).
ansible_ssh_pubkey = "ssh-ed25519 AAAA... ansible@ubongo"
ssh_admin_cidrs = ["10.20.10.151/32"] # ubongo's LAN address (ADR-021)
- Step 7: Format + commit
Run: terraform fmt terraform/environments/offsite/
git add terraform/environments/offsite
git commit -m "feat(tf): offsite environment — askari (CAX11/hel1/debian-13)"
(Co-Authored-By trailer)
Task 4: Makefile — token injection, directory inventory, offsite handoff
Files:
-
Modify:
Makefile -
Step 1: Inject the Hetzner token for
TF_ENV=offsite
The tf-* targets need TF_VAR_hcloud_token for offsite, sourced from the vault. Add a guarded helper variable near the TF definition:
# For TF_ENV=offsite, export the Hetzner token from the vault (rbw unlocked).
# Reads vault.hetzner.token in-memory; never written to a tfvars file (CLAUDE.md).
ifeq ($(TF_ENV),offsite)
TF_TOKEN_ENV = TF_VAR_hcloud_token="$$($(VENV)/bin/ansible-vault view inventories/production/group_vars/all/vault.yml | $(VENV)/bin/python -c 'import sys,yaml; print(yaml.safe_load(sys)["vault"]["hetzner"]["token"])')"
else
TF_TOKEN_ENV =
endif
Then prefix the tf-init/tf-plan/tf-apply/tf-output recipes with $(TF_TOKEN_ENV), e.g.:
tf-plan:
$(TF_TOKEN_ENV) $(TF) -chdir=terraform/environments/$(TF_ENV) plan
(Apply the same prefix to tf-init, tf-apply, tf-output.)
- Step 2: Directory inventory
Change the inventory so multiple TF envs can each generate a file:
INVENTORY := -i inventories/production/
(Ansible reads every file in the directory as an inventory source and merges them; group_vars//host_vars/ remain variable dirs. Verify ansible.cfg does not also hard-set inventory=; if it does, update it to match.)
- Step 3:
tf-inventory-offsitetarget
Add (writes the offsite hosts into the production inventory dir, beside the Proxmox-generated hosts.yml):
tf-inventory-offsite:
$(TF_TOKEN_ENV) $(TF) -chdir=terraform/environments/offsite output -json \
| $(PYTHON) scripts/tf_to_inventory.py > inventories/production/offsite.yml
@echo "Offsite inventory written to inventories/production/offsite.yml"
Add tf-inventory-offsite to .PHONY and a help line.
- Step 4: Verify existing playbooks still resolve under the directory inventory
Run: make check PLAYBOOK=dns 2>&1 | tail -3
Expected: still resolves the control host and runs (no inventory errors). If connection:/group_vars break, fix before committing.
- Step 5: Commit
git add Makefile
git commit -m "feat(make): offsite TF token injection + directory inventory + tf-inventory-offsite"
(Co-Authored-By trailer)
Task 5: Lock the offsite inventory handoff (TDD)
Files:
-
Test:
tests/test_tf_to_inventory.py -
Step 1: Write the failing test
import json
import pathlib
import subprocess
import sys
_SCRIPT = pathlib.Path(__file__).resolve().parent.parent / "scripts" / "tf_to_inventory.py"
def _run(tf_output: dict) -> str:
return subprocess.run(
[sys.executable, str(_SCRIPT)],
input=json.dumps(tf_output), capture_output=True, text=True, check=True,
).stdout
def test_offsite_host_lands_in_offsite_hosts():
out = _run({"vms": {"value": {"askari": {"ip": "203.0.113.7", "group": "offsite_hosts"}}}})
assert "offsite_hosts:" in out
assert "askari:" in out
assert "ansible_host: 203.0.113.7" in out
def test_unknown_group_rejected():
proc = subprocess.run(
[sys.executable, str(_SCRIPT)],
input=json.dumps({"vms": {"value": {"x": {"ip": "1.2.3.4", "group": "nope"}}}}),
capture_output=True, text=True,
)
assert proc.returncode == 1
assert "unknown group" in proc.stderr
- Step 2: Run it
Run: .venv/bin/python -m pytest tests/test_tf_to_inventory.py -v
Expected: PASS — tf_to_inventory.py already supports offsite_hosts and rejects unknown groups (this test locks that behaviour for the M2 handoff; no code change needed). If it fails, fix scripts/tf_to_inventory.py minimally and report.
- Step 3: Commit
git add tests/test_tf_to_inventory.py
git commit -m "test(tf): lock the offsite_hosts inventory handoff"
(Co-Authored-By trailer)
Task 6: Init, validate, plan (gated — needs terraform + token)
Needs
terraforminstalled andrbwunlocked. Creates no resources. Ifterraformis absent, defer Tasks 6–8 to ubongo.
- Step 1: Set tfvars
cp terraform/environments/offsite/terraform.tfvars.example terraform/environments/offsite/terraform.tfvars and set ansible_ssh_pubkey to ubongo's real control public key and ssh_admin_cidrs to ubongo's address (10.20.10.151/32). (terraform.tfvars is gitignored.)
- Step 2: Init (tracks the lock file)
Run: make tf-init TF_ENV=offsite
Expected: providers installed; terraform/environments/offsite/.terraform.lock.hcl created. git add the lock file (tracked per CLAUDE.md).
- Step 3: Validate + plan
Run: terraform -chdir=terraform/environments/offsite validate → Success.
Run: make tf-plan TF_ENV=offsite → review: 1 server + 1 firewall + 1 ssh key to add. Confirm CAX11/hel1/debian-13 and the SSH-from-ubongo rule.
- Step 4: Commit the lock file
git add terraform/environments/offsite/.terraform.lock.hcl
git commit -m "chore(tf): pin offsite provider lock (hcloud)"
(Co-Authored-By trailer)
Task 7: Apply — create askari (GATED, real billed VPS)
Explicit user go required. Run on ubongo. The plan from Task 6 must be reviewed first (CLAUDE.md: never apply without a shown plan).
- Step 1: Apply
Run: make tf-apply TF_ENV=offsite
Expected: hcloud_ssh_key, hcloud_firewall, hcloud_server.askari created; outputs show askari's IPv4.
- Step 2: Generate the offsite inventory
Run: make tf-inventory-offsite
Expected: inventories/production/offsite.yml written with askari under offsite_hosts.
- Step 3: Verify the inventory merges
Run: .venv/bin/ansible-inventory $(INVENTORY) --host askari (or --list)
Expected: askari present with its ansible_host.
- Step 4: Commit the generated inventory
git add inventories/production/offsite.yml
git commit -m "chore(inventory): askari in offsite_hosts (generated)"
(Co-Authored-By trailer)
Task 8: Bootstrap askari (GATED — needs the live host)
Run on ubongo after Task 7.
rbwunlocked.
- Step 1: Reach it
Run: ssh ansible@<askari-ip> (cloud-init created the ansible user with ubongo's key) — expect a shell. If refused, check the firewall ssh_admin_cidrs matches ubongo's egress IP.
- Step 2: Bootstrap
Run: make check PLAYBOOK=bootstrap (review) then make deploy PLAYBOOK=bootstrap — expect the ansible user + sudoers confirmed/created on askari (idempotent).
- Step 3: No repo commit — this configures the host, not the repo. (
basesubset = M3.)
Task 9: ADR amendments + STATUS
Files:
- Modify:
docs/decisions/006-terraform.md,009-provisioning-handoff.md,020-firewall.md,007-network.md,016-mesh-vpn.md,STATUS.md
For each: Read the relevant section first, then apply the change.
- Step 1: ADR-006 — generalize the provider scope
In the Providers section, the line "bpg/proxmox … This is the only provider." → note a second provider:
**`hetznercloud/hcloud`**: owns off-site VM existence (`askari`). ADR-006's scope is
**Proxmox + Hetzner** — "Terraform owns VM existence" generalizes across providers; the
`offsite` environment + `hetzner_vm` module live alongside the Proxmox env + module.
Also adjust the Context line "creating and destroying VMs on Proxmox" → "on Proxmox and Hetzner".
- Step 2: ADR-009 — offsite handoff
Add a note that offsite is a TF environment whose vms output feeds offsite_hosts via tf_to_inventory.py (make tf-inventory-offsite → inventories/production/offsite.yml), and that the production inventory is a directory merging the Proxmox + offsite generated files.
- Step 3: ADR-020 — askari's perimeter
Note that off-cluster askari has no OPNsense; its perimeter is a TF-managed Hetzner Cloud Firewall (SSH-from-ubongo now; NetBird ports in M4). The group_vars catalog stays authoritative for the host nftables layer.
- Step 4: ADR-007 / ADR-016 — askari is TF-provisioned
Replace "provisioned … independently … added manually" wording for askari with "provisioned as Terraform IaC (hcloud), managed independently of the Proxmox cluster (own provider + state)."
- Step 5: STATUS.md
Move/realize askari's row per how far Task 7/8 got. If applied: under "Real and working today" — askari Built + applied (CAX11/hel1/debian-13, cloud firewall SSH-from-ubongo, bootstrapped, in offsite_hosts). If only authored (apply deferred): note the TF is written + tf-plan clean, apply pending on ubongo.
- Step 6: Lint + commit
Run: make lint (must pass).
git add docs/decisions/006-terraform.md docs/decisions/009-provisioning-handoff.md \
docs/decisions/020-firewall.md docs/decisions/007-network.md \
docs/decisions/016-mesh-vpn.md STATUS.md
git commit -m "docs(askari): amend ADR-006/009/020/007/016 for TF-provisioned offsite host; STATUS"
(Co-Authored-By trailer)
Self-Review (completed)
- Spec coverage: TF owns existence / generalize ADR-006 (Decision 1) → Tasks 2,3,9; CAX11/hel1/debian-13 (Decision 2) → Task 3; TF cloud firewall, SSH-from-ubongo, NetBird ports later (Decision 3) → Task 2 + Task 9 ADR-020; token via
TF_VAR_hcloud_tokenfrom vault (Decision 4) → Task 4; ADR-009 handoff viatf_to_inventory(Decision 5) → Tasks 4,5,7; cloud-initansibleuser + bootstrap → Tasks 2,8; state + DR (import) → Task 3 backend; ADR amendments → Task 9. All covered. - Placeholder scan: none — HCL, make, and test content are concrete.
<askari-ip>/<source>/<date>are runtime/verification values, not unspecified logic. - Type/name consistency: module vars (
name,server_type,location,image,ansible_ssh_pubkey,ssh_admin_cidrs,labels) match between module + env call; thevmsoutput shape ({ip, group}) matchestf_to_inventory.py's contract;TF_VAR_hcloud_token↔var.hcloud_token;vault.hetzner.tokenmatches the stored key. - Notes for the implementer: (a) confirm Ansible merges the directory inventory's two files so
askariresolves (Task 7 Step 3); (b) verifyhcloud_serverarg names against the pinned provider version (Task 1) — adjustpublic_net/firewall_idsif the provider differs; (c) Tasks 7–8 create a billed VPS — gated on explicit go.