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16d9fd8bde
## Context
Wave 6a of the state-drift consolidation plan. The Domain wide catch all
Proxy Provider (pk=5) + its wrapping Application (slug=domain-wide-catch-all)
+ the embedded outpost (uuid 0eecac07-97c7-443c-8925-05f2f4fe3e47) have
run for a year as pure UI-created state. When the 2026-04-18 outpost SEV2
hit, it was harder to reason about the config than it should have been —
the only source of truth was the Authentik admin UI. Bringing the provider
+ application under Terraform means future changes are reviewable in PRs
and recoverable from git if the admin UI misbehaves.
## This change
Adds the `goauthentik/authentik` provider to the repo's central
`terragrunt.hcl` `required_providers` (side-effect: every stack can now
declare authentik resources; this stack is the only current consumer).
Stack-local `stacks/authentik/authentik_provider.tf` holds the provider
instance configuration + API token wiring + two resources + their flow
data-source lookups.
### Auth
- API token stored in Vault at `secret/authentik/tf_api_token`, identifier
`terraform-infra-stack`, intent=API, user=akadmin, no expiry. Rotatable
by rewriting the Vault KV + any running TF apply picks it up on next
plan.
### Imports (both landed zero-diff)
- `authentik_application.catchall` ← id `domain-wide-catch-all`
- `authentik_provider_proxy.catchall` ← id `5`
### Flow references
Authorization + invalidation flows are looked up via `data
"authentik_flow"` by slug (`default-provider-authorization-implicit-consent`
+ `default-provider-invalidation-flow`). Keeping them as data sources
rather than hardcoded UUIDs means a flow recreation (slug unchanged)
doesn't require an HCL edit.
### `lifecycle { ignore_changes }` scope
On `authentik_provider_proxy.catchall`:
- `property_mappings` (5 UUIDs), `jwt_federation_sources` (1 UUID) — the
live state references complex many-to-many relations that are easier
to manage from the Authentik UI than to serialise in HCL. Drift
suppressed.
- `skip_path_regex`, `internal_host`, all `basic_auth_*`,
`intercept_header_auth`, `access_token_validity` — either defaults or
UI-only tuning knobs that aren't part of Terraform's concern for this
catch-all provider.
On `authentik_application.catchall`:
- `meta_description`, `meta_launch_url`, `meta_icon`, `group`,
`backchannel_providers`, `policy_engine_mode`, `open_in_new_tab` —
cosmetic/non-functional attributes; the Authentik UI is the right
place to edit these and drift on them isn't interesting.
## What is NOT in this change
- Outpost-binding resource — the embedded outpost's provider list is a
single-row many-to-many that the Authentik UI manages cleanly; adding
TF there would fight the UI without reducing drift.
- Property mappings and JWT federation source — managed via UI, drift
suppressed. A future wave can bring them in when someone actually
wants to edit them through code review.
- Other Authentik entities (Flows, Stages, Groups, RBAC policies) —
same rationale: UI is the natural editing surface. Adopt incrementally
as they become interesting to code-review.
## Verification
```
$ cd stacks/authentik && ../../scripts/tg plan | grep Plan:
Plan: 0 to add, 1 to change, 0 to destroy.
# module.authentik.kubernetes_deployment.pgbouncer — pre-existing drift,
# unrelated to this commit (image_pull_policy Always -> IfNotPresent)
$ ../../scripts/tg state list | grep authentik_
authentik_application.catchall
authentik_provider_proxy.catchall
data.authentik_flow.default_authorization_implicit_consent
data.authentik_flow.default_provider_invalidation
```
## Reproduce locally
1. `git pull && cd stacks/authentik && ../../scripts/tg init`
2. Terraform pulls goauthentik/authentik provider (first time).
3. `tg plan` — expect only pgbouncer drift; authentik resources read-only.
Refs: Wave 6a of the state-drift consolidation (code-hl1)
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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|---|---|---|
| .beads | ||
| .claude | ||
| .git-crypt | ||
| .github | ||
| .planning | ||
| .woodpecker | ||
| ci | ||
| cli | ||
| diagram | ||
| docs | ||
| modules | ||
| playbooks | ||
| scripts | ||
| secrets | ||
| stacks | ||
| state/stacks | ||
| .gitattributes | ||
| .gitignore | ||
| .sops.yaml | ||
| AGENTS.md | ||
| config.tfvars | ||
| CONTRIBUTING.md | ||
| LICENSE.txt | ||
| MEMORY.md | ||
| README.md | ||
| setup-monitoring.sh | ||
| terragrunt.hcl | ||
| tiers.tf | ||
This repo contains my infra-as-code sources.
My infrastructure is built using Terraform, Kubernetes and CI/CD is done using Woodpecker CI.
Read more by visiting my website: https://viktorbarzin.me
Documentation
Full architecture documentation is available in docs/ — covering networking, storage, security, monitoring, secrets, CI/CD, databases, and more.
Adding a New User (Admin)
Adding a new namespace-owner to the cluster requires three steps — no code changes needed.
1. Authentik Group Assignment
In the Authentik admin UI, add the user to:
kubernetes-namespace-ownersgroup (grants OIDC group claim for K8s RBAC)Headscale Usersgroup (if they need VPN access)
2. Vault KV Entry
Add a JSON entry to secret/platform → k8s_users key in Vault:
"username": {
"role": "namespace-owner",
"email": "user@example.com",
"namespaces": ["username"],
"domains": ["myapp"],
"quota": {
"cpu_requests": "2",
"memory_requests": "4Gi",
"memory_limits": "8Gi",
"pods": "20"
}
}
usernamekey must match the user's Forgejo username (for Woodpecker admin access)namespaces— K8s namespaces to create and grant admin access todomains— subdomains underviktorbarzin.mefor Cloudflare DNS recordsquota— resource limits per namespace (defaults shown above)
3. Apply Stacks
vault login -method=oidc
cd stacks/vault && terragrunt apply --non-interactive
# Creates: namespace, Vault policy, identity entity, K8s deployer role
cd ../platform && terragrunt apply --non-interactive
# Creates: RBAC bindings, ResourceQuota, TLS secret, DNS records
cd ../woodpecker && terragrunt apply --non-interactive
# Adds user to Woodpecker admin list
What Gets Auto-Generated
| Resource | Stack |
|---|---|
| Kubernetes namespace | vault |
Vault policy (namespace-owner-{user}) |
vault |
| Vault identity entity + OIDC alias | vault |
| K8s deployer Role + Vault K8s role | vault |
| RBAC RoleBinding (namespace admin) | platform |
| RBAC ClusterRoleBinding (cluster read-only) | platform |
| ResourceQuota | platform |
| TLS secret in namespace | platform |
| Cloudflare DNS records | platform |
| Woodpecker admin access | woodpecker |
New User Onboarding
If you've been added as a namespace-owner, follow these steps to get started.
1. Join the VPN
# Install Tailscale: https://tailscale.com/download
tailscale login --login-server https://headscale.viktorbarzin.me
# Send the registration URL to Viktor, wait for approval
ping 10.0.20.100 # verify connectivity
2. Install Tools
Run the setup script to install kubectl, kubelogin, Vault CLI, Terraform, and Terragrunt:
# macOS
bash <(curl -fsSL https://k8s-portal.viktorbarzin.me/setup/script?os=mac)
# Linux
bash <(curl -fsSL https://k8s-portal.viktorbarzin.me/setup/script?os=linux)
3. Authenticate
# Log into Vault (opens browser for SSO)
vault login -method=oidc
# Test kubectl (opens browser for OIDC login)
kubectl get pods -n YOUR_NAMESPACE
4. Deploy Your First App
# Clone the infra repo
git clone https://github.com/ViktorBarzin/infra.git && cd infra
# Copy the stack template
cp -r stacks/_template stacks/myapp
mv stacks/myapp/main.tf.example stacks/myapp/main.tf
# Edit main.tf — replace all <placeholders>
# Store secrets in Vault
vault kv put secret/YOUR_USERNAME/myapp DB_PASSWORD=secret123
# Submit a PR
git checkout -b feat/myapp
git add stacks/myapp/
git commit -m "add myapp stack"
git push -u origin feat/myapp
After review and merge, an admin runs cd stacks/myapp && terragrunt apply.
5. Set Up CI/CD (Optional)
Create .woodpecker.yml in your app's Forgejo repo:
steps:
- name: build
image: woodpeckerci/plugin-docker-buildx
settings:
repo: YOUR_DOCKERHUB_USER/myapp
tag: ["${CI_PIPELINE_NUMBER}", "latest"]
username:
from_secret: dockerhub-username
password:
from_secret: dockerhub-token
platforms: linux/amd64
- name: deploy
image: hashicorp/vault:1.18.1
commands:
- export VAULT_ADDR=http://vault-active.vault.svc.cluster.local:8200
- export VAULT_TOKEN=$(vault write -field=token auth/kubernetes/login
role=ci jwt=$(cat /var/run/secrets/kubernetes.io/serviceaccount/token))
- KUBE_TOKEN=$(vault write -field=service_account_token
kubernetes/creds/YOUR_NAMESPACE-deployer
kubernetes_namespace=YOUR_NAMESPACE)
- kubectl --server=https://kubernetes.default.svc
--token=$KUBE_TOKEN
--certificate-authority=/var/run/secrets/kubernetes.io/serviceaccount/ca.crt
-n YOUR_NAMESPACE set image deployment/myapp
myapp=YOUR_DOCKERHUB_USER/myapp:${CI_PIPELINE_NUMBER}
Useful Commands
# Check your pods
kubectl get pods -n YOUR_NAMESPACE
# View quota usage
kubectl describe resourcequota -n YOUR_NAMESPACE
# Store/read secrets
vault kv put secret/YOUR_USERNAME/myapp KEY=value
vault kv get secret/YOUR_USERNAME/myapp
# Get a short-lived K8s deploy token
vault write kubernetes/creds/YOUR_NAMESPACE-deployer \
kubernetes_namespace=YOUR_NAMESPACE
Important Rules
- All changes go through Terraform — never
kubectl apply/edit/patchdirectly - Never put secrets in code — use Vault:
vault kv put secret/YOUR_USERNAME/... - Always use a PR — never push directly to master
- Docker images: build for
linux/amd64, use versioned tags (not:latest)
git-crypt setup
To decrypt the secrets, you need to setup git-crypt.
- Install git-crypt.
- Setup gpg keys on the machine
git-crypt unlock
This will unlock the secrets and will lock them on commit