incus-contrib/notes/awx-guide.md

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# AWX — Ansible Automation for Aether Lifecycle Hooks
AWX (the open-source upstream of Ansible Tower) provides a web UI and REST
API for running Ansible playbooks. Aether integrates with AWX to run
post-deploy and decommission playbooks as lifecycle hooks on every instance
create/delete.
This guide covers deploying AWX on the Incus cluster, connecting it to
Aether, writing lifecycle playbooks, and troubleshooting.
## Architecture
```
User deploys instance via Aether UI
|
v
Aether creates instance on Incus cluster
|
v
Aether calls AWX API: POST /api/v2/job_templates/{id}/launch/
with extra_vars: ffsdn_instance_name, ffsdn_instance_ip, ...
|
v
AWX runs post-deploy.yml playbook
1. Pushes setup script to instance (Incus file API)
2. Executes script (Incus exec API)
3. Verifies /etc/deploy-info was written
4. Logs to deployment ledger
|
v
Aether marks deployment complete (or rolls back on failure)
```
Decommission works in reverse — Aether triggers the decommission template
before deleting the instance. Decommission failures do NOT block deletion.
### Separation of concerns
| Layer | Tool | Responsibility |
|-------|------|----------------|
| Infrastructure | Aether + Incus | Instance creation, networking, resources, lifecycle |
| Configuration | AWX + Ansible | OS config, packages, services, integrations |
| Automation glue | Aether AWX binding | Triggers playbooks at create/delete |
### What Aether passes to AWX (validated)
Every AWX job launched by Aether receives these `ffsdn_` prefixed extra vars:
| Variable | Description | Example |
|----------|-------------|---------|
| `ffsdn_instance_name` | Instance name | `awx-e2e-test` |
| `ffsdn_instance_ip` | IP address assigned by Aether | `10.207.217.5` |
| `ffsdn_cluster_id` | Numeric cluster ID | `52` |
| `ffsdn_cluster_name` | Cluster display name | `oc-lab-cluster` |
| `ffsdn_deployed_by` | Aether username who triggered deploy | `admin` |
| `ffsdn_image_os` | Image OS | `Debian` |
| `ffsdn_image_release` | Image release | `bookworm` |
| `ffsdn_image_alias` | Image alias (may be empty) | `""` |
**Important**: Aether does NOT pass `vm_name`, `vm_ip`, `environment`,
`owner`, or `cost_center`. The original plan assumed these names, but
real testing revealed Aether uses the `ffsdn_` prefix exclusively.
### AWX API endpoints Aether uses
| Endpoint | Purpose |
|----------|---------|
| `GET /api/v2/ping/` | Health check |
| `GET /api/v2/job_templates/{id}/` | Validate template exists |
| `POST /api/v2/job_templates/{id}/launch/` | Trigger job with extra_vars |
| `GET /api/v2/jobs/{id}/` | Poll job status |
### Lifecycle behavior
| Hook | Trigger | On failure |
|------|---------|------------|
| Post-deploy | After instance creation | Aether auto-rollbacks (deletes instance) |
| Decommission | Before instance deletion | Failure does NOT block deletion |
Aether polls `GET /api/v2/jobs/{id}/` until the job reaches a terminal
state (successful, failed, error) or the timeout expires. Post-deploy
rollback means the instance is deleted — the user sees "Ansible job N
finished with status: failed. Instance has been deleted."
## Lab deployment
### Resource requirements
| Resource | Recommended | Minimum |
|----------|-------------|---------|
| vCPU | 4 | 2 |
| RAM | 8 GiB | 4 GiB |
| Disk | 40 GiB | 20 GiB |
K3s uses ~600 MiB, AWX pods ~3 GiB, PostgreSQL ~400 MiB. The web pod
was originally set to 1 GiB limit but OOMKilled; 2 GiB is the tested
minimum.
### Lab details
| Setting | Value |
|---------|-------|
| VM name | `awx` |
| Location | oc-node-02 |
| IP | 192.168.102.161/22 (VLAN 69) |
| Gateway | 192.168.100.1 |
| DNS | 192.168.100.1 |
| AWX API port | 30080 (K3s NodePort) |
| OS | Debian 12 |
| K8s | K3s (single-node) |
| AWX | 24.6.1 |
| AWX Operator | 2.19.1 |
**Note**: AWX is exposed via K3s NodePort on port 30080, NOT via Traefik
ingress. The ingress returns 404 when accessed by IP (requires hostname).
NodePort works reliably with IP-based access.
### Manual deployment (tested)
#### Step 1: Create VM
```bash
# Launch Debian 12 VM on the cluster
incus launch images:debian/12 oc-node-02:awx --vm \
--target oc-node-02 \
-c limits.cpu=4 -c limits.memory=8GiB \
-d root,size=40GiB
# Replace default NIC with macvlan for direct VLAN access
# IMPORTANT: use 'config device add' not 'profile device remove'
# Profile device removal fails on cluster members
incus config device add oc-node-02:awx eth0 nic \
nictype=macvlan parent=mgmt
```
**Bug found**: `incus profile device remove` fails on cluster members
with "Profile device eth0 not found" because profiles are cluster-wide.
Use `incus config device add` instead, which creates an instance-level
override that takes priority over the profile.
#### Step 2: Configure static IP
Debian 12 uses `systemd-networkd`, **not netplan**. The original plan
assumed netplan but that's Ubuntu-only.
```bash
incus exec oc-node-02:awx -- bash -c "
hostnamectl set-hostname awx
# Debian 12 uses systemd-networkd
cat > /etc/systemd/network/10-static.network << 'NETCFG'
[Match]
Name=enp5s0
[Network]
Address=192.168.102.161/22
Gateway=192.168.100.1
DNS=192.168.100.1
NETCFG
systemctl restart systemd-networkd
"
```
After IP change, wait a few seconds for the new IP to take effect.
#### Step 3: Install prerequisites and K3s
```bash
# Debian 12 minimal doesn't have curl or git
incus exec oc-node-02:awx -- bash -c "
apt-get update && apt-get install -y curl git
curl -sfL https://get.k3s.io | sh -s - --write-kubeconfig-mode 644
kubectl wait --for=condition=Ready node --all --timeout=120s
"
```
#### Step 4: Deploy AWX Operator
```bash
incus exec oc-node-02:awx -- bash -c "
kubectl create namespace awx
mkdir -p /opt/awx/operator
cat > /opt/awx/operator/kustomization.yaml << 'EOF'
apiVersion: kustomize.config.k8s.io/v1beta1
kind: Kustomization
resources:
- github.com/ansible/awx-operator/config/default?ref=2.19.1
images:
- name: quay.io/ansible/awx-operator
newTag: 2.19.1
namespace: awx
EOF
kubectl apply -k /opt/awx/operator/
# Wait for operator (~2-3 min)
kubectl -n awx wait --for=condition=Available \
deployment/awx-operator-controller-manager --timeout=300s
"
```
#### Step 5: Deploy AWX instance
The AWX custom resource is defined in `incusos/awx-manifests/base/awx.yaml`.
Key settings discovered during testing:
- **PVC**: must use `ReadWriteOnce` (not `ReadWriteMany`) for K3s local-path
- **Web pod memory**: 2 GiB limit minimum (1 GiB causes OOMKill)
- **Service type**: `NodePort` on port 30080 (ingress returns 404 for IP access)
```bash
# Push manifests to VM and apply
incus exec oc-node-02:awx -- mkdir -p /opt/awx/base
# Push awx.yaml and kustomization.yaml (from incusos/awx-manifests/base/)
# Then apply:
incus exec oc-node-02:awx -- kubectl apply -k /opt/awx/base/
# Wait 5-10 min for all pods to start
incus exec oc-node-02:awx -- kubectl -n awx get pods -w
```
Expected final pod state:
```
awx-operator-controller-manager-xxx 2/2 Running
awx-postgres-15-0 1/1 Running
awx-task-xxx 4/4 Running
awx-web-xxx 3/3 Running
```
#### Step 6: Verify
```bash
# Get admin password
ADMIN_PW=$(incus exec oc-node-02:awx -- kubectl -n awx get secret \
awx-admin-password -o jsonpath='{.data.password}' | base64 -d)
echo "Admin password: $ADMIN_PW"
# Test API via NodePort
curl -sk http://192.168.102.161:30080/api/v2/ping/
```
AWX web UI: `http://192.168.102.161:30080/` — login with `admin` / password above.
## AWX configuration (tested)
### Project (manual, no Git dependency)
AWX Git-based projects require SSH key configuration and network access
to the Git server. For simplicity, use a **manual project** — playbook
files are pushed directly to the AWX task pod:
```bash
# Create manual project via API
AWX_TOKEN="..." # from PAT creation below
curl -sk -X POST http://192.168.102.161:30080/api/v2/projects/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d '{
"name": "incus-contrib",
"organization": 1,
"scm_type": "",
"local_path": "incus-contrib"
}'
```
Then push playbooks to the task pod:
```bash
AWX_POD=$(incus exec oc-node-02:awx -- kubectl -n awx get pods \
-l app.kubernetes.io/name=awx-task -o jsonpath='{.items[0].metadata.name}')
# Create project directory structure
incus exec oc-node-02:awx -- kubectl -n awx exec $AWX_POD -- \
mkdir -p /var/lib/awx/projects/incus-contrib/playbooks
# Push playbooks (via base64 to handle stdin issues)
B64=$(base64 -w0 ansible/playbooks/post-deploy.yml)
incus exec oc-node-02:awx -- bash -c "echo '$B64' | base64 -d > /root/post-deploy.yml"
incus exec oc-node-02:awx -- kubectl -n awx cp /root/post-deploy.yml \
$AWX_POD:/var/lib/awx/projects/incus-contrib/playbooks/post-deploy.yml
```
**Important**: also push the Incus client certificate and key to the
project directory — the playbooks use these for Incus API calls:
```bash
incus exec oc-node-02:awx -- kubectl -n awx cp /root/incus-client.crt \
$AWX_POD:/var/lib/awx/projects/incus-contrib/incus-client.crt
incus exec oc-node-02:awx -- kubectl -n awx cp /root/incus-client.key \
$AWX_POD:/var/lib/awx/projects/incus-contrib/incus-client.key
```
### Inventory
The playbooks use `localhost` exclusively (no SSH, Incus API only).
The inventory is a placeholder required by AWX:
```bash
curl -sk -X POST http://192.168.102.161:30080/api/v2/inventories/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d '{"name": "incus-instances", "organization": 1}'
```
### Credentials
A machine credential (SSH key) is created but only used as a fallback.
The primary playbook approach uses the Incus REST API with client
certificates, not SSH.
```bash
# Generate SSH key on AWX VM
incus exec oc-node-02:awx -- ssh-keygen -t ed25519 -f /root/.ssh/awx_key -N ""
# Create machine credential in AWX
PRIV_KEY=$(incus exec oc-node-02:awx -- cat /root/.ssh/awx_key)
curl -sk -X POST http://192.168.102.161:30080/api/v2/credentials/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d "{
\"name\": \"incus-instances\",
\"organization\": 1,
\"credential_type\": 1,
\"inputs\": {\"username\": \"root\", \"ssh_key_data\": $(echo "$PRIV_KEY" | python3 -c 'import sys,json; print(json.dumps(sys.stdin.read()))')}
}"
```
### Job templates
| Template | Playbook | Template ID |
|----------|----------|-------------|
| `post-deploy` | `playbooks/post-deploy.yml` | 10 |
| `decommission` | `playbooks/decommission.yml` | 11 |
Both must have `ask_variables_on_launch: true`:
```bash
curl -sk -X POST http://192.168.102.161:30080/api/v2/job_templates/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d '{
"name": "post-deploy",
"organization": 1,
"project": 6,
"playbook": "playbooks/post-deploy.yml",
"inventory": 2,
"ask_variables_on_launch": true
}'
```
**Attach credentials** to templates (required even if playbook doesn't use SSH):
```bash
curl -sk -X POST http://192.168.102.161:30080/api/v2/job_templates/10/credentials/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d '{"id": 4}'
```
### Personal Access Token
```bash
AWX_TOKEN=$(curl -sk -X POST http://192.168.102.161:30080/api/v2/users/1/personal_tokens/ \
--user "admin:${ADMIN_PW}" \
-H "Content-Type: application/json" \
-d '{"description": "Aether integration", "scope": "write"}' \
| python3 -c "import sys,json; print(json.load(sys.stdin)['token'])")
```
## Aether integration
### Register AWX endpoint
Via Aether API (requires session cookies + CSRF token):
```bash
curl -sSk -b /tmp/aether-cookies.txt \
-H "X-CSRF-Token: $CSRF" \
-H "Referer: https://192.168.102.160:8443/" \
-X POST https://192.168.102.160:8443/api/awx/endpoints \
-H "Content-Type: application/json" \
-d '{
"name": "lab-awx",
"url": "http://192.168.102.161:30080",
"token": "'$AWX_TOKEN'",
"verify_ssl": false
}'
```
**Tested result**: endpoint ID 2 created, AWX health shows "healthy"
at `/api/health/awx`:
```json
{"awx_healthy":true,"awx_version":"24.6.1","awx_status":"ok"}
```
### Bind cluster to AWX
**Known bug**: `PUT /api/clusters/{id}/awx-config` returns `{"error":"Invalid
cluster ID"}` for all valid cluster IDs. This Aether API endpoint appears
non-functional in v6.4.317.
**Workaround**: direct PostgreSQL update on the Aether database:
```bash
incus exec oc-node-01:aether -- bash -c "
docker exec aether-postgres psql -U aether -d incusovnsdnc -c \"
UPDATE incus_ovn_clusters SET
awx_endpoint_id = 2,
awx_post_deploy_template_id = 10,
awx_decommission_template_id = 11,
awx_job_timeout_seconds = 600
WHERE cluster_id = 52;
\"
"
```
### Verify integration
```bash
# Check Aether's AWX health endpoint
curl -sSk -b /tmp/aether-cookies.txt \
https://192.168.102.160:8443/api/health/awx
# Deploy a test instance via Aether → AWX job triggers automatically
# Job history visible at: /deploy page → "Your Recent Ansible Automation Jobs"
```
## Writing playbooks
### Key design decision: Incus API, not SSH
The playbooks use the **Incus REST API** (file push + exec) instead of
SSH for all instance configuration. This is necessary because:
1. **Bridge network isolation**: containers on incusbr0 (10.207.217.0/24)
are not routable from AWX (192.168.102.161). The bridge is NAT'd and
IncusOS nodes don't forward inbound traffic to the bridge.
2. **No SSH dependency**: fresh Debian 12 containers don't have python3
installed. With SSH, a raw bootstrap step is needed first.
3. **Works with any network**: the Incus API is accessible at the cluster
node level (192.168.102.140-142:8443), regardless of which overlay
or bridge network the container is on.
The trade-off: playbooks require an Incus client certificate in the AWX
project directory, and the playbook pattern is less "Ansible-native" (no
SSH connection plugins, no gather_facts, no modules running on the target).
### File paths in AWX
AWX runs playbooks inside an **Execution Environment** (EE) container via
receptor. During job execution:
| Path | Description |
|------|-------------|
| `/runner/project/` | Project root (maps to the manual project directory) |
| `/runner/project/playbooks/` | Playbook directory |
| `/runner/project/incus-client.crt` | Incus client certificate |
| `/runner/project/incus-client.key` | Incus client key |
| `/runner/artifacts/{job_id}/` | Job artifacts (logs, SSH keys) |
**Important**: files at `/var/lib/awx/projects/` (the task pod) are NOT
accessible at the same path during job execution. The EE mounts the
project at `/runner/project/`.
### post-deploy.yml pattern (tested, validated)
```yaml
- name: Post-deploy — configure instance via Incus API
hosts: localhost
gather_facts: false
connection: local
vars:
incus_api: "https://192.168.102.140:8443"
incus_cert: "/runner/project/incus-client.crt"
incus_key: "/runner/project/incus-client.key"
tasks:
# 1. Validate required ffsdn_* variables from Aether
- name: Validate required variables
ansible.builtin.assert:
that:
- ffsdn_instance_name is defined
- ffsdn_instance_name | length > 0
# 2. Wait for instance to be Running
- name: Wait for instance to be running
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}/state"
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
register: state
until: state.json.metadata.status == "Running"
retries: 12
delay: 5
# 3. Push setup script via Incus file API
- name: Push setup script
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}/files?path=/tmp/setup.sh"
method: POST
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
body: "{{ setup_script }}"
headers:
Content-Type: "application/octet-stream"
X-Incus-type: "file"
X-Incus-mode: "0755"
# 4. Execute via Incus exec API
- name: Execute setup script
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}/exec"
method: POST
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
body_format: json
body:
command: ["/bin/bash", "/tmp/setup.sh"]
record-output: true
interactive: false
wait-for-websocket: false
status_code: [202]
register: exec_result
# 5. Wait for completion via operation API
- name: Wait for script to complete
ansible.builtin.uri:
url: "{{ incus_api }}{{ exec_result.json.operation }}/wait?timeout=300"
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
register: exec_wait
# 6. Verify exit code
- name: Verify exit code
ansible.builtin.assert:
that:
- exec_wait.json.metadata.metadata.return | int == 0
# 7. Verify result via file API
- name: Read /etc/deploy-info
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}/files?path=/etc/deploy-info"
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
return_content: true
register: deploy_info
```
### Incus API endpoints used by playbooks
| Endpoint | Method | Purpose |
|----------|--------|---------|
| `/1.0/instances/{name}/state` | GET | Check if instance is Running |
| `/1.0/instances/{name}/files?path=...` | POST | Push files to instance |
| `/1.0/instances/{name}/files?path=...` | GET | Read files from instance |
| `/1.0/instances/{name}/exec` | POST | Execute commands in instance |
| `/1.0/operations/{uuid}/wait` | GET | Wait for async operation |
| `/1.0/instances/{name}` | GET | Check if instance exists |
**Note**: exec output (stdout/stderr from `record-output: true`) is NOT
retrievable via the `/1.0/instances/{name}/logs/` API. The log filename
format (`exec_UUID.stdout`) is rejected as "not valid". Verify results by
reading files written by the script instead.
### decommission.yml pattern (tested, validated)
```yaml
- name: Decommission — graceful shutdown and logging
hosts: localhost
gather_facts: false
connection: local
vars:
incus_api: "https://192.168.102.140:8443"
incus_cert: "/runner/project/incus-client.crt"
incus_key: "/runner/project/incus-client.key"
tasks:
- name: Check if instance still exists
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}"
client_cert: "{{ incus_cert }}"
client_key: "{{ incus_key }}"
validate_certs: false
status_code: [200, 404]
register: instance_check
- name: Stop services (best-effort)
ansible.builtin.uri:
url: "{{ incus_api }}/1.0/instances/{{ ffsdn_instance_name }}/exec"
method: POST
# ... service stop command
ignore_errors: true
when: instance_check.status == 200
- name: Record in ledger
ansible.builtin.lineinfile:
path: /tmp/awx-deploy-ledger.log
# ... log entry
```
## Bugs discovered during validation
### Ansible reserved keyword: `environment`
Ansible's `environment` keyword is reserved — it sets process environment
variables for tasks. If Aether passed `environment: "lab"` as an extra var,
Ansible would interpret it as the keyword, resolving to `[]` instead of
the string value. The fix was to use `deploy_env` instead. In practice,
Aether uses `ffsdn_*` prefixes which avoid this entirely.
### Recursive template loop with self-referencing vars
```yaml
# BROKEN — causes infinite recursion if vm_ip is not provided
vars:
vm_ip: "{{ vm_ip | default('') }}"
```
When the variable name matches the template reference AND the variable
is not provided as an extra var, Ansible enters infinite recursion.
The fix: don't self-reference. Use the `ffsdn_*` variables directly
without redeclaring them in vars blocks.
### AWX EE runs at /runner/project/, not /var/lib/awx/projects/
Files pushed to the AWX task pod at `/var/lib/awx/projects/incus-contrib/`
are mounted in the EE container at `/runner/project/`. All file paths in
playbooks must use the `/runner/project/` prefix.
### Bridge network not routable from AWX VM
Containers on incusbr0 (10.207.217.0/24) are NOT reachable from the AWX
VM (192.168.102.161). The bridge is NAT'd outbound only; IncusOS nodes
don't forward inbound traffic from the management network to the bridge.
Adding a static route on the AWX VM (`ip route add 10.207.217.0/24 via
192.168.102.140`) doesn't work because the node's nftables rules block
non-established connections from external interfaces to the bridge.
**Solution**: use the Incus REST API instead of SSH. The cluster API
(192.168.102.140:8443) is always reachable, and provides file push +
exec endpoints that work regardless of instance network topology.
### Aether cluster AWX config API bug
`PUT /api/clusters/{id}/awx-config` returns `{"error":"Invalid cluster ID"}`
for all valid cluster IDs. Tested with different CSRF tokens, session
cookies, request formats (JSON fields, POST vs PUT). The endpoint is not
documented in Aether's swagger.yaml. Workaround: direct PostgreSQL UPDATE.
### AWX web pod OOMKill at 1 GiB
The AWX web pod (nginx + uwsgi) needs at least 2 GiB memory limit.
With 1 GiB, it starts successfully but gets OOMKilled under load.
Set in the AWX CR: `web_resource_requirements.limits.memory: 2Gi`.
### AWX PVC needs ReadWriteOnce
K3s local-path provisioner creates `hostPath` volumes which only support
`ReadWriteOnce`. If the AWX CR specifies `ReadWriteMany`, the PVC stays
Pending and PostgreSQL can't start. Set: `postgres_storage_class: local-path`
and ensure `ReadWriteOnce` access mode.
## Troubleshooting
### Pod status
```bash
# List all AWX pods
incus exec oc-node-02:awx -- kubectl -n awx get pods -o wide
# Describe a failing pod
incus exec oc-node-02:awx -- kubectl -n awx describe pod <pod-name>
# View pod logs
incus exec oc-node-02:awx -- kubectl -n awx logs <pod-name>
```
### Job output
```bash
# Get real-time job output (text format)
curl -sk http://192.168.102.161:30080/api/v2/jobs/{id}/stdout/?format=txt \
-H "Authorization: Bearer $AWX_TOKEN"
# Check job status
curl -sk http://192.168.102.161:30080/api/v2/jobs/{id}/ \
-H "Authorization: Bearer $AWX_TOKEN" \
| python3 -c "import sys,json; d=json.load(sys.stdin); \
print('status:', d['status'], 'failed:', d['failed'])"
```
### Common issues
**AWX pods stuck in Pending**: insufficient resources or PVC issue. Check:
```bash
incus exec oc-node-02:awx -- kubectl -n awx describe pod <pod-name>
incus exec oc-node-02:awx -- kubectl -n awx get pvc
```
**Job fails with recursive template error**: self-referencing var definition.
Check playbook vars blocks for patterns like `var: "{{ var | default('') }}"`.
**Job fails with "No such file or directory"**: cert/key not at the correct
path. Remember: EE uses `/runner/project/`, not `/var/lib/awx/projects/`.
**Job fails with "Connection failure"**: Incus API not reachable from AWX
pod, or client cert not trusted by cluster. Test from inside the pod:
```bash
incus exec oc-node-02:awx -- kubectl -n awx exec <task-pod> -c awx-ee -- \
curl -sk --cert /runner/project/incus-client.crt \
--key /runner/project/incus-client.key \
https://192.168.102.140:8443/1.0
```
**Aether deploy rolls back immediately**: AWX job failed. Check the AWX
job output for the specific error. Common causes: template misconfiguration,
missing credential attachment, playbook syntax errors.
### Useful commands
```bash
# AWX version
curl -sk http://192.168.102.161:30080/api/v2/ping/
# List job templates
curl -sk http://192.168.102.161:30080/api/v2/job_templates/ \
-H "Authorization: Bearer $AWX_TOKEN" \
| python3 -c "import sys,json; [print(f'{t[\"id\"]:3d} {t[\"name\"]}') \
for t in json.load(sys.stdin)['results']]"
# List recent jobs
curl -sk "http://192.168.102.161:30080/api/v2/jobs/?order_by=-id&page_size=5" \
-H "Authorization: Bearer $AWX_TOKEN" \
| python3 -c "import sys,json; [print(f'{j[\"id\"]:4d} {j[\"status\"]:12s} {j[\"name\"]}') \
for j in json.load(sys.stdin)['results']]"
# Manually trigger post-deploy
curl -sk -X POST http://192.168.102.161:30080/api/v2/job_templates/10/launch/ \
-H "Authorization: Bearer $AWX_TOKEN" \
-H "Content-Type: application/json" \
-d '{"extra_vars": {
"ffsdn_instance_name": "test-ct",
"ffsdn_instance_ip": "10.207.217.99",
"ffsdn_cluster_name": "oc-lab-cluster",
"ffsdn_deployed_by": "admin",
"ffsdn_image_os": "Debian",
"ffsdn_image_release": "bookworm"
}}'
```
### Rollback
If AWX is broken beyond repair:
```bash
incus delete oc-node-02:awx --force
# Then redeploy from Step 1
```
The AWX VM is a standalone workload with no cluster dependencies. Destroying
and redeploying has zero impact on the Incus cluster or other workloads.