No description
e1d20457c4
## Context
Review of the BeadBoard Dispatch wiring found that the claude-agent-service
Dockerfile's `COPY beads/metadata.json /workspace/.beads/metadata.json` and
`COPY agents/beads-task-runner.md /home/agent/.claude/agents/...` both land
on paths that are volume-mounted at runtime:
- `/workspace` → `claude-agent-workspace-encrypted` PVC (main.tf:394-398)
- `/home/agent/.claude` → `claude-home` emptyDir (main.tf:424-427)
Kubernetes mounts hide image-layer content at those paths, so the COPYs are
dead. The companion commit in `claude-agent-service` restages both files to
`/usr/share/agent-seed/` (an image-layer path that is never mounted).
Additionally, the beads-task-runner agent rails expect
`/workspace/scratch/<job_id>/` to exist, but nothing was creating it.
## Layout before / after
```
Before (dead COPYs):
image layer runtime (mounted volumes hide the files)
----------- -----------------------------------
/workspace/ <- hidden by PVC mount
.beads/
metadata.json <- UNREACHABLE
/home/agent/.claude/ <- hidden by emptyDir mount
agents/
beads-task-runner.md <- UNREACHABLE
After (init container seeds volumes at pod start):
image layer runtime
----------- ------------------------------------
/usr/share/agent-seed/
beads-metadata.json --+
beads-task-runner.md --+-> copied by seed-beads-agent init
container into the mounted volumes
on every pod start:
/workspace/.beads/metadata.json
/workspace/scratch/
/home/agent/.claude/agents/beads-task-runner.md
```
## What
### New init container: `seed-beads-agent`
- Positioned AFTER `git-init`, BEFORE the main container.
- Uses the same service image (`${local.image}:${local.image_tag}`) — the
seed files are baked in at `/usr/share/agent-seed/`.
- Runs as default uid 1000 (the PVCs are already chowned by `fix-perms`).
- Shell body:
mkdir -p /workspace/.beads /workspace/scratch /home/agent/.claude/agents
cp /usr/share/agent-seed/beads-metadata.json /workspace/.beads/metadata.json
cp /usr/share/agent-seed/beads-task-runner.md /home/agent/.claude/agents/beads-task-runner.md
- Mounts: `workspace` at `/workspace`, `claude-home` at `/home/agent/.claude`.
- Resources: 32Mi requests / 64Mi limits (matches `fix-perms`/`copy-claude-creds`).
### Formatting
- `terraform fmt -recursive` also normalised whitespace in the token-expiry
locals block and the CronJob container definition. No semantic change.
## What is NOT in this change
- No image tag bump. The Dockerfile refactor that produces the
`/usr/share/agent-seed/` path lands in the claude-agent-service repo
and will roll in on the next CI build. Until that build ships and the
tag is bumped in this file, the new init container will `cp` from a
path that doesn't exist yet — so do NOT apply this commit until the
corresponding image tag bump is ready. The commit is declarative prep.
- No changes to storage class, RBAC, Service, or any other init.
- The main container mounts remain unchanged — only the init containers
prepare volume contents.
## Test Plan
### Automated
```
$ terraform fmt -check -recursive stacks/claude-agent-service/
(no output — clean)
$ terraform -chdir=stacks/claude-agent-service/ init -backend=false
Terraform has been successfully initialized!
$ terraform -chdir=stacks/claude-agent-service/ validate
Warning: Deprecated Resource (pre-existing; use kubernetes_namespace_v1)
Success! The configuration is valid, but there were some validation warnings
as shown above.
```
### Manual Verification (after image bump + apply)
1. Bump `local.image_tag` in main.tf to the SHA of a build that has
`/usr/share/agent-seed/*` (verify with `docker inspect $IMAGE | jq ...`
or `kubectl run tmp --image ... -- ls /usr/share/agent-seed`).
2. `scripts/tg apply stacks/claude-agent-service`
3. `kubectl -n claude-agent get pods -w` — all init containers complete.
4. `kubectl -n claude-agent exec deploy/claude-agent-service -c claude-agent-service -- ls -la /workspace/.beads/metadata.json /home/agent/.claude/agents/beads-task-runner.md /workspace/scratch`
Expected: all three paths exist; first two are regular files with the
expected content, `scratch` is a directory.
5. `kubectl -n claude-agent exec deploy/claude-agent-service -c claude-agent-service -- jq -r .dolt_server_host /workspace/.beads/metadata.json`
Expected: `dolt.beads-server.svc.cluster.local`.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
|
||
|---|---|---|
| .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