# HAProxy Load Balancing — Aether-Managed HA Proxy on OVN Aether includes a full HAProxy management system that deploys a highly available load balancer pair on OVN networks. It handles image builds, HA pair deployment, VIP management, L7 service configuration, and health monitoring — all through its web UI and session-authenticated API. This guide covers deploying HAProxy infrastructure on the lab cluster, creating test backends, configuring services, and verifying load balancing. ## Architecture ```mermaid flowchart TD client(["Client / LAN"]) vip["VIP 192.168.103.200"] ovnlb("OVN Load Balancer") ha1["HAProxy 01
10.10.10.50"] ha2["HAProxy 02
10.10.10.51"] ng1["nginx-01 · .60"] ng2["nginx-02 · .61"] ng3["nginx-03 · .62"] client --> vip vip --> ovnlb ovnlb --> ha1 & ha2 ha1 & ha2 --> ng1 & ng2 & ng3 classDef external fill:#f5f5f5,color:#333,stroke:#999 classDef network fill:#0072B2,color:#fff,stroke:#005a8e classDef lb fill:#E69F00,color:#fff,stroke:#b87d00 classDef instance fill:#56B4E9,color:#fff,stroke:#3a8fbf class client external class vip,ovnlb network class ha1,ha2 lb class ng1,ng2,ng3 instance ``` ### OVN native LB vs HAProxy | Feature | OVN native LB | Aether HAProxy | |---------|---------------|----------------| | Layer | L4 (TCP/UDP) | L4 + L7 (HTTP/HTTPS) | | Health checks | None | HTTP, TCP, configurable interval | | SSL termination | No | Yes (HTTPS Termination mode) | | Sticky sessions | No | Yes (cookie-based) | | Load balancing | Connection hash | Round robin, least conn, source hash, first available | | SNI routing | No | Yes (multiple domains on same VIP:port) | | Compression | No | Yes (gzip for text content) | | Rate limiting | No | Yes (per-IP) | | Management | `incus network load-balancer` CLI | Aether UI + session API | | HA | Single OVN LB (distributed) | HA pair with OVN LB failover | Use OVN native LB for simple L4 distribution. Use HAProxy when you need health checks, L7 features, SSL, sticky sessions, or advanced traffic management. ## Prerequisites - Incus cluster registered in Aether with OVN networking configured - OVN network with a physical UPLINK (for VIP addresses) - Available IP addresses on the OVN network for HAProxy instances - Available VIP address(es) from the UPLINK range - Internet access from the cluster (for HAProxy image builds) - `incus` CLI configured with cluster remote - Aether admin access (Full Admin or LB Admin role) ### Resource requirements | Resource | Per HAProxy instance | Notes | |----------|---------------------|-------| | CPU | 2 cores (default) | HAProxy is very CPU-efficient | | Memory | 1 GiB (default) | Increase for many concurrent connections | | Disk | Minimal | Container image, no persistent storage needed | ## Lab details | Setting | Value | |---------|-------| | Cluster | oc-lab-cluster (ID: 52) | | OVN network | net-prod (10.10.10.0/24) | | UPLINK | UPLINK (physical) | | VIP range | 192.168.103.200-210 | | HAProxy 01 IP | 10.10.10.50 | | HAProxy 02 IP | 10.10.10.51 | | Backend IPs | 10.10.10.60, 10.10.10.61, 10.10.10.62 | | HAProxy containers | ffsdn-haproxy-52-01, ffsdn-haproxy-52-02 | | Aether URL | https://192.168.102.160:8443 | | Cluster remote | oc-node-01 | ## Automated path The `incusos/deploy-haproxy` script automates the entire deployment: ```bash # Check prerequisites deploy-haproxy --doctor # Preview deployment deploy-haproxy --deploy --dry-run # Full deployment (backends + image + infrastructure + service) deploy-haproxy --deploy # Check health deploy-haproxy --status # Clean removal deploy-haproxy --cleanup ``` The manual steps below are for reference, troubleshooting, and understanding what the script does. ## Step 1: Deploy test backends Create 3 nginx containers on net-prod to serve as load-balanced backends. Each gets a unique index page so we can verify traffic distribution. **Important**: The backend IPs (10.10.10.60-62) must not already be in use on the OVN network. Check the Aether UI (HAProxy > select cluster) for used IPs before deploying, or use `deploy-haproxy --doctor` which checks for you. ```bash REMOTE="oc-node-01" for i in 60 61 62; do NAME="nginx-lb-$(printf '%02d' $((i - 59)))" IP="10.10.10.${i}" # Launch container on OVN network with static IP via device key incus launch images:debian/12 "${REMOTE}:${NAME}" \ --network net-prod \ --storage local \ -d root,size=2GiB \ -d eth0,ipv4.address="${IP}" \ -c limits.cpu=1 \ -c limits.memory=256MiB # Wait for container agent echo "Waiting for ${NAME}..." while ! incus exec "${REMOTE}:${NAME}" -- true 2>/dev/null; do sleep 2 done # Install nginx + curl, create unique index page incus exec "${REMOTE}:${NAME}" -- bash -c " export DEBIAN_FRONTEND=noninteractive apt-get update -qq apt-get install -y -qq nginx curl 2>&1 | tail -1 cat > /var/www/html/index.html << HTML

Backend: ${NAME}

IP: ${IP}

HTML systemctl enable nginx systemctl start nginx " echo "Backend ${NAME} deployed at ${IP}" done ``` Verify all backends respond (curling from one backend to the others confirms OVN cross-container connectivity): ```bash # Wait for static IPs to take effect sleep 5 for i in 60 61 62; do incus exec "${REMOTE}:nginx-lb-01" -- \ curl -s --connect-timeout 3 "http://10.10.10.${i}/" \ | grep -o 'Backend: [^<]*' done # Expected: # Backend: nginx-lb-01 # Backend: nginx-lb-02 # Backend: nginx-lb-03 ``` If curl fails, the static IP may not have taken effect yet. Verify with `incus exec "${REMOTE}:nginx-lb-01" -- ip addr show eth0`. ## Step 2: Build HAProxy image Aether builds a base HAProxy container image and stores it internally. The image must be pushed to each target cluster before infrastructure can be deployed. **Note**: The HAProxy management features are not in Aether's JWT API (`/api/swagger.yaml`). They use session-authenticated routes discovered from the UI JavaScript. The script uses session auth automatically. ### Via Aether UI 1. Navigate to **HAProxy** in the main menu 2. In **HAProxy Base Images**, click **Build New Image** 3. Select **Build on Cluster**: `oc-lab-cluster` 4. Enter **Version**: `1.0.0` 5. Click **Build Image** 6. Wait 5-10 minutes for the build to complete 7. Click **Push to Cluster** and select `oc-lab-cluster` 8. Click **Set Current** on the new image ### Via session API The build process uses session cookies + CSRF token authentication: ```bash AETHER_URL="https://192.168.102.160:8443" COOKIE_JAR="/tmp/aether-cookies.txt" # Step 1: Get login page and extract CSRF token from hidden form field # Note: the login form is at "/" (root), NOT "/login". GET /login returns 404. CSRF=$(curl -sSk -c "$COOKIE_JAR" "${AETHER_URL}/" \ | grep -o 'name="csrf_token" value="[^"]*"' \ | sed 's/.*value="//;s/"//') # Step 2: Login with CSRF token (form-urlencoded, NOT JSON) curl -sSk -b "$COOKIE_JAR" -c "$COOKIE_JAR" \ -X POST "${AETHER_URL}/login" \ -d "csrf_token=${CSRF}&username=admin&password=${AETHER_ADMIN_PASSWORD}" \ -L -o /dev/null # Step 3: Get fresh CSRF token for API calls CSRF=$(curl -sSk -b "$COOKIE_JAR" "${AETHER_URL}/haproxy" \ | grep -o 'name="csrf_token" value="[^"]*"' \ | sed 's/.*value="//;s/"//') # Step 4: Build image curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X POST "${AETHER_URL}/haproxy/image/build" \ -H "Content-Type: application/json" \ -d '{"cluster_id": 52, "version": "1.0.0"}' # Step 5: Poll build status until complete while true; do STATUS=$(curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ "${AETHER_URL}/haproxy/image/build-status" \ | python3 -c "import sys,json; d=json.load(sys.stdin); print(d.get('status','unknown'))") echo "Build status: $STATUS" [[ "$STATUS" == "completed" || "$STATUS" == "failed" ]] && break sleep 10 done # Step 6: Get image ID and push to cluster IMAGE_ID=$(curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ "${AETHER_URL}/haproxy/images" \ | python3 -c "import sys,json; imgs=json.load(sys.stdin); print(imgs[-1]['id'] if imgs else '')") curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X POST "${AETHER_URL}/haproxy/image/push" \ -H "Content-Type: application/json" \ -d "{\"image_id\": ${IMAGE_ID}, \"cluster_id\": 52}" # Step 7: Set as current version curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X POST "${AETHER_URL}/haproxy/image/set-current" \ -H "Content-Type: application/json" \ -d "{\"image_id\": ${IMAGE_ID}}" ``` **Critical**: The CSRF token comes from a hidden HTML form field (``), NOT from the cookie value. The cookie contains the session ID; the form field contains the CSRF token. ## Step 3: Deploy HAProxy infrastructure Deploy the HA pair on the cluster, then create the OVN load balancer. ### Via Aether UI 1. Navigate to **HAProxy** > select **oc-lab-cluster** from dropdown 2. Click **Deploy HAProxy Infrastructure** 3. Fill in: - **OVN Network**: `net-prod` - **Load Balancer VIP**: `192.168.103.200` (from UPLINK range dropdown) - **HAProxy 01 IP**: `10.10.10.50` - **HAProxy 02 IP**: `10.10.10.51` - **CPU Limit**: `2` - **Memory Limit**: `1GB` 4. Click **Deploy** ### Via session API ```bash curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X POST "${AETHER_URL}/haproxy/infrastructure/deploy" \ -H "Content-Type: application/json" \ -d '{ "cluster_id": 52, "ovn_network": "net-prod", "lb_vip": "192.168.103.200", "haproxy_01_ip": "10.10.10.50", "haproxy_02_ip": "10.10.10.51", "cpu_limit": "2", "memory_limit": "1GB" }' ``` This creates: - Two containers: `ffsdn-haproxy-52-01` and `ffsdn-haproxy-52-02` - Per-instance ACL rules allowing traffic from the VIP - A default VIP entry at 192.168.103.200 **Important**: Aether does NOT create the OVN load balancer automatically. You must create it manually after infrastructure deployment: ```bash REMOTE="oc-node-01" # Create OVN load balancer for the VIP incus network load-balancer create "${REMOTE}:net-prod" 192.168.103.200 \ --description "FFSDN HAProxy Load Balancer" # Add both HAProxy instances as backends incus network load-balancer backend add "${REMOTE}:net-prod" 192.168.103.200 \ haproxy-01 10.10.10.50 80 incus network load-balancer backend add "${REMOTE}:net-prod" 192.168.103.200 \ haproxy-02 10.10.10.51 80 # Map port 80 to both backends incus network load-balancer port add "${REMOTE}:net-prod" 192.168.103.200 \ tcp 80 haproxy-01,haproxy-02 # Verify incus network load-balancer list "${REMOTE}:net-prod" ``` Verify infrastructure: ```bash # Check via API curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ "${AETHER_URL}/haproxy/infrastructure/52" # Check containers exist on cluster incus list oc-node-01: --format csv -c n | grep ffsdn-haproxy # ffsdn-haproxy-52-01 # ffsdn-haproxy-52-02 ``` ### Fix ACL rules for external access Aether auto-generates per-instance ACLs that only allow ingress from `source: 192.168.103.200` (the VIP address). This works for traffic originating inside the OVN network — OVN hairpin-SNATs the source to the router IP (.200) when load-balancing back into the same network. However, external traffic (from outside OVN) preserves the original client IP, which doesn't match the ACL and gets **rejected**. Add a broader ingress rule to each HAProxy container's ACL: ```bash REMOTE="oc-node-01" CLUSTER_ID=52 for n in 01 02; do ACL_NAME="${CLUSTER_ID}-ffsdn-haproxy-${CLUSTER_ID}-${n}-aether-acl" incus network acl rule add "${REMOTE}:${ACL_NAME}" ingress \ action=allow protocol=tcp destination_port=80,443 \ description="Allow external clients to reach HAProxy" done ``` **Why is this needed?** OVN load balancers perform DNAT (rewriting the destination IP from the VIP to a backend), but for external-to-internal traffic they do NOT SNAT the source. The packet arrives at the HAProxy container with the external client's IP as source, which Aether's narrow ACL rule rejects. For internal traffic, OVN *does* hairpin-SNAT the source to .200 (to prevent asymmetric routing within the same logical switch), which is why it works from inside OVN without this fix. **Note**: This ACL modification survives container restarts and reconfigurations. However, if you delete and redeploy the HAProxy infrastructure, Aether recreates the ACLs from scratch, so you'll need to re-apply this fix. Check future Aether versions — this may be fixed upstream. ## Step 4: Create service Configure HAProxy to load-balance traffic across the nginx backends. **Important: TCP vs HTTP mode** — For nginx backends, use **TCP mode**. HTTP mode generates `option httpchk` which sends `OPTIONS /` requests. Nginx returns `405 Not Allowed` for OPTIONS, causing HAProxy to mark all backends as DOWN. TCP mode uses simple TCP health checks (L4OK). ### Via Aether UI 1. In the **Services** section, click **+ Add Service** 2. Fill in: - **Service Name**: `web-http` - **Description**: `Load balancer for nginx test backends` - **VIP**: `192.168.103.200 - Default` - **Listen Port**: `80` - **Mode**: `TCP (Layer 4)` - **Balance Method**: `Round Robin` - **Health Check**: enabled 3. Add backend servers: - `nginx-lb-01` / `10.10.10.60` / port `80` / weight `100` - `nginx-lb-02` / `10.10.10.61` / port `80` / weight `100` - `nginx-lb-03` / `10.10.10.62` / port `80` / weight `100` 4. Click **Create Service** ### Via session API **Note**: The `vip_id` is the numeric VIP ID from the infrastructure deployment (visible in the API response or the Aether UI). For the default VIP created during deployment, retrieve it from `GET /haproxy/infrastructure/52` → `vips[0].id`. ```bash curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X POST "${AETHER_URL}/haproxy/service" \ -H "Content-Type: application/json" \ -d '{ "vip_id": 42, "name": "web-http", "description": "HTTP load balancer for nginx test backends", "hostname": "", "listen_port": 80, "mode": "tcp", "balance_method": "roundrobin", "health_check_enabled": true, "session_persistence": false, "backends": [ {"name": "nginx-lb-01", "target_ip": "10.10.10.60", "target_port": 80, "weight": 100}, {"name": "nginx-lb-02", "target_ip": "10.10.10.61", "target_port": 80, "weight": 100}, {"name": "nginx-lb-03", "target_ip": "10.10.10.62", "target_port": 80, "weight": 100} ] }' ``` **Note**: After creating or editing a service, Aether may need to reload the HAProxy configuration on both instances. If the service doesn't respond immediately, click **Reload Config** in the Aether UI, or wait a few seconds for automatic propagation. ## Step 5: Test load balancing ### Internal connectivity (via HAProxy localhost) Test HAProxy directly by curling localhost on each container. This bypasses the OVN load balancer and tests HAProxy's backend routing: ```bash # Direct test on HAProxy 01 (bypasses OVN LB) for i in $(seq 1 6); do incus exec oc-node-01:ffsdn-haproxy-52-01 -- \ curl -s http://localhost/ | grep -o 'Backend: [^<]*' done # Expected: nginx-lb-01, nginx-lb-02, nginx-lb-03 in rotation # Direct test on HAProxy 02 incus exec oc-node-01:ffsdn-haproxy-52-02 -- curl -s http://localhost/ # Expected: response from one of the backends ``` **Note**: Curling the VIP (192.168.103.200) from within the OVN network does NOT work reliably. The manually-created OVN load balancer handles external-to-internal traffic but does not hairpin for internal-to-VIP requests from the same logical switch. Use localhost for internal tests. ### External connectivity (from outside OVN) After applying the ACL fix in Step 3, the VIP is reachable from any machine on the LAN: ```bash # Single request from external machine curl -s http://192.168.103.200/ # Expected: response from one of the backends # Verify round-robin across all backends for i in $(seq 1 6); do curl -s http://192.168.103.200/ | grep -o '

[^<]*

' done # Expected: all three backends appear in rotation ``` If external access fails with "Connection refused", the ACL fix was not applied. See Step 3 "Fix ACL rules for external access". ### Backend failover ```bash # Stop one backend incus stop oc-node-01:nginx-lb-03 # Wait for health check to detect (default: 5 seconds) sleep 10 # Verify traffic only goes to remaining backends (external) for i in $(seq 1 6); do curl -s http://192.168.103.200/ | grep -o '

[^<]*

' done # Expected: only nginx-lb-01 and nginx-lb-02 # Restart the backend incus start oc-node-01:nginx-lb-03 # Wait for health check to re-add sleep 10 # Verify all three are back in rotation for i in $(seq 1 6); do curl -s http://192.168.103.200/ | grep -o '

[^<]*

' done ``` ### HAProxy failover ```bash # Stop one HAProxy container incus stop oc-node-01:ffsdn-haproxy-52-02 # Wait for OVN to detect the dead backend sleep 15 # Some requests will succeed (routed to HAProxy 01), others may time out curl -s --connect-timeout 10 http://192.168.103.200/ # Expected: response from one of the backends (via HAProxy 01) # Restart incus start oc-node-01:ffsdn-haproxy-52-02 ``` **Note**: OVN load balancers do NOT have active health checking. When one HAProxy instance is stopped, the OVN LB continues to send ~50% of connections to the dead backend, causing those connections to time out. After 10-15 seconds OVN may detect the dead backend, but failover is not instant. For production use, consider Keepalived mode which provides true active/standby VIP failover with VRRP. ## Monitoring ### Health and statistics Each service has a Health & Stats view accessible via the Aether UI (**Services** > **Health & Stats** button) or the session API: ```bash curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ "${AETHER_URL}/haproxy/service/health-stats?cluster_id=52&service_name=web-http" ``` ### Statistics fields **Backend server statistics** (from HAProxy health checks): | Field | Description | |-------|-------------| | Status | `UP` (healthy) or `DOWN` (removed from rotation) | | Sessions | Current active / maximum seen | | Bytes In/Out | Total traffic to/from this backend | | Weight | Configured load distribution weight | | Last Check | Most recent health check result + response time (ms) | **Frontend statistics** (combined for all services on the same port): | Field | Description | |-------|-------------| | Current Sessions | Active client connections | | Max Sessions | Highest concurrent sessions seen | | Total Sessions | Cumulative since HAProxy started | | Session Rate | New sessions per second | | Bytes In/Out | Total client traffic | **HAProxy node resources** (per container): | Field | Description | Color thresholds | |-------|-------------|------------------| | CPU Usage | Current utilization % | Green <50%, Orange 50-79%, Red 80%+ | | Memory Usage | Current utilization | Green <50%, Orange 50-79%, Red 80%+ | ## Keepalived mode For clusters without OVN networking, Aether supports Keepalived-based HAProxy deployment. Instead of an OVN load balancer, Keepalived provides VIP failover between the two HAProxy instances using VRRP. Key differences: - **No OVN required** — works with bridge or macvlan networking - **VRRP failover** — active/standby instead of OVN's active/active LB - **Direct VIP** — the VIP floats between HAProxy instances directly This mode is selected during infrastructure deployment when choosing a non-OVN network. The service configuration is identical regardless of the underlying HA mechanism. ## Troubleshooting ### Image build fails ```bash # Check build status curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ "${AETHER_URL}/haproxy/image/build-status" ``` **Common causes:** - No internet access from the cluster (package downloads fail) - Cluster not reachable from Aether - Insufficient disk space for image build **Fix:** Ensure the cluster nodes can reach the internet. Try building on a different cluster if available. ### Infrastructure deployment fails **"No Image" in cluster dropdown:** The HAProxy image hasn't been pushed to this cluster. Build an image (Step 2), then push it to the cluster and set it as current. **Containers not starting:** Check the Incus cluster has sufficient resources (CPU, memory) for two additional containers. ```bash # Check container state incus list oc-node-01: -c ns --format csv | grep ffsdn-haproxy ``` ### HAProxy container not starting after deploy Aether may deploy both containers but only start one. This was observed with `ffsdn-haproxy-52-01` remaining in STOPPED state after deployment. ```bash # Check both containers incus list oc-node-01: -f compact -c nsN4 | grep ffsdn-haproxy # Start the stopped container incus start oc-node-01:ffsdn-haproxy-52-01 ``` ### Service not responding **VIP not reachable from outside OVN ("Connection refused"):** Aether auto-generates per-instance ACL rules that only allow ingress from `source: 192.168.103.200` (the VIP address). External traffic preserves the original client IP as source, which the ACL rejects. Apply the ACL fix from Step 3: ```bash # Diagnose: check the ACL rules incus network acl show oc-node-01:52-ffsdn-haproxy-52-01-aether-acl # If the only ingress rule has source: 192.168.103.200, add a broader rule: for n in 01 02; do incus network acl rule add "oc-node-01:52-ffsdn-haproxy-52-${n}-aether-acl" \ ingress action=allow protocol=tcp destination_port=80,443 \ description="Allow external clients to reach HAProxy" done # Verify it works now: curl -s http://192.168.103.200/ ``` **Why internal access works but external doesn't:** OVN hairpin-SNATs traffic that originates inside the OVN network and gets load-balanced back into the same network (source becomes .200, matching the ACL). External traffic doesn't get SNAT'd, so the original client IP doesn't match the narrow ACL rule. **Backends showing DOWN in health stats (HTTP mode):** When using **HTTP mode**, Aether generates `option httpchk` which sends an `OPTIONS /` request. Nginx returns `405 Not Allowed`, marking backends DOWN. **Use TCP mode** for nginx backends, or check the HAProxy stats: ```bash # Check backend health from HAProxy container incus exec oc-node-01:ffsdn-haproxy-52-01 -- \ curl -s http://localhost:8404/stats\;csv | grep backend_web # Verify direct backend connectivity incus exec oc-node-01:ffsdn-haproxy-52-01 -- curl -s http://10.10.10.60/ ``` ### Traffic not reaching backends Even when the service is created and HAProxy is running, traffic may not flow if: - **ACL rules blocking traffic** — Aether creates per-instance ACLs with default-deny. If the ACLs don't cover the traffic pattern, it gets rejected. Check with `incus network acl show :`. - **HAProxy config not reloaded** — click **Reload Config** in the Aether UI or wait for automatic propagation. - **Wrong backend port** — verify the backends are actually listening on the configured port (80 in our case). Test connectivity directly from a HAProxy container: ```bash incus exec oc-node-01:ffsdn-haproxy-52-01 -- curl -s http://10.10.10.60/ ``` ### Sticky sessions not working Sticky sessions only work with **HTTP** and **HTTPS Termination** modes. They do NOT work with TCP or HTTPS Passthrough (HAProxy can't insert cookies without inspecting HTTP content). Verify your service mode. ### Advanced options not taking effect Advanced options (compression, HSTS, rate limiting, access control) only apply to **HTTP** and **HTTPS Termination** modes. They have no effect on TCP or HTTPS Passthrough services, as those operate at L4 without inspecting HTTP content. ### Rate limiting blocking legitimate users If users behind corporate NAT or VPN share a single IP, they collectively count against the per-IP rate limit. A web page loading 20 images generates 21 requests. Start with higher limits (500+) and reduce based on monitoring. ### Session authentication issues Aether's HAProxy endpoints use session authentication with CSRF protection. **curl-based session auth is unreliable** — use Playwright browser automation for reliable interaction (see `incusos/helpers/aether-browser`). Common issues with curl-based auth: 1. **CSRF 403**: The CSRF token binding requires proper browser cookie handling. Playwright handles this automatically. 2. **Login page at `/`**: The login form is at root (`/`), NOT `/login`. `GET /login` returns 404. The form POSTs to `/login`. 3. **Session expiry**: Re-authenticate by re-running the Playwright login. ### Cleanup To completely remove HAProxy infrastructure: ```bash # Via Aether UI: HAProxy > select cluster > Delete Infrastructure # Via session API (requires CSRF token from Playwright): curl -sSk -b "$COOKIE_JAR" \ -H "X-CSRF-Token: ${CSRF}" \ -H "Referer: ${AETHER_URL}/haproxy" \ -X DELETE "${AETHER_URL}/haproxy/infrastructure/52" # Remove the OVN load balancer (created manually, not cleaned by Aether) incus network load-balancer delete oc-node-01:net-prod 192.168.103.200 # Clean up test backends for name in nginx-lb-01 nginx-lb-02 nginx-lb-03; do incus delete "oc-node-01:${name}" --force done ``` **Warning**: Deleting infrastructure stops all traffic immediately. It removes both HAProxy containers, all VIPs, all services, and associated firewall rules.