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infra/.claude/skills/uptime-kuma/SKILL.md
Viktor Barzin fd0f4a0365 fix: restore tree dropped by 6d224861; land stem95su gdrive-sync (10m) [ci skip] 
6d224861 came from a --no-checkout worktree whose empty index made the
commit drop every file except two. This restores 05b50d2b's full tree and
correctly adds stacks/stem95su/gdrive-sync.tf + the service-catalog stem95su
entry. Forward-only (parent=6d224861, no force-push); [ci skip] since the
live infra was never applied from the broken commit.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-09 08:45:33 +00:00

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name description author version date
uptime-kuma Manage Uptime Kuma monitoring via the Python API. Use when: (1) User asks to add, remove, or list monitors, (2) User asks about service uptime or monitoring status, (3) User asks to check what's being monitored, (4) User deploys a new service and needs monitoring added, (5) User mentions "uptime", "monitoring", "health check", or "uptime kuma". Uptime Kuma v2 running in Kubernetes, managed via uptime-kuma-api Python library. Claude Code 1.0.0 2026-02-14

Uptime Kuma Monitoring Management

Overview

  • URL: https://uptime.viktorbarzin.me
  • Internal: uptime-kuma.uptime-kuma.svc.cluster.local:80
  • Image: louislam/uptime-kuma:2
  • Storage: NFS at /mnt/main/uptime-kuma -> /app/data
  • API Library: uptime-kuma-api (pip, available via PYTHONPATH)
  • Credentials: admin / (from UPTIME_KUMA_PASSWORD env var)

Python API Access

Connection Pattern

import os
from uptime_kuma_api import UptimeKumaApi, MonitorType

api = UptimeKumaApi('https://uptime.viktorbarzin.me')
api.login('admin', os.environ.get('UPTIME_KUMA_PASSWORD', ''))

# ... operations ...

api.disconnect()

Execution

python3 -c "
import os
from uptime_kuma_api import UptimeKumaApi, MonitorType
api = UptimeKumaApi('https://uptime.viktorbarzin.me')
api.login('admin', os.environ.get('UPTIME_KUMA_PASSWORD', ''))
# ... your code ...
api.disconnect()
"

Common Operations

List All Monitors

monitors = api.get_monitors()
for m in monitors:
    print(f'{m["id"]:3d} | {m["name"]:30s} | {m["type"]:15s} | interval={m["interval"]}s')

Add HTTP Monitor

api.add_monitor(
    type=MonitorType.HTTP,
    name="Service Name",
    url="http://service.namespace.svc.cluster.local",
    interval=120,
    maxretries=2,
)

Add PING Monitor

api.add_monitor(
    type=MonitorType.PING,
    name="Host Name",
    hostname="10.0.20.1",
    interval=30,
    maxretries=3,
)

Add PORT Monitor

api.add_monitor(
    type=MonitorType.PORT,
    name="Service Port",
    hostname="service.namespace.svc.cluster.local",
    port=8080,
    interval=120,
    maxretries=2,
)

Edit Monitor

api.edit_monitor(monitor_id, interval=120, maxretries=2)

Delete Monitor

api.delete_monitor(monitor_id)

Pause/Resume Monitor

api.pause_monitor(monitor_id)
api.resume_monitor(monitor_id)

Monitor Types

  • MonitorType.HTTP — HTTP(S) endpoint check
  • MonitorType.PING — ICMP ping
  • MonitorType.PORT — TCP port check
  • MonitorType.POSTGRES — PostgreSQL connection
  • MonitorType.REDIS — Redis connection
  • MonitorType.DNS — DNS resolution check

Tiered Monitoring System

Monitors use tiered intervals to balance responsiveness with resource usage:

Tier Interval Retries Use For
1 - Critical 30s 3 Core infra (DNS, gateway, ingress, NFS, K8s API, auth, mail)
2 - Important 120s 2 Actively used services (Nextcloud, Immich, Vaultwarden, etc.)
3 - Standard 300s 1 Auxiliary/optional services (blog, games, tools)

Tier Assignment Guidelines

  • Tier 1: If it goes down, multiple other services fail or the cluster is unreachable
  • Tier 2: User-facing services that are actively used daily
  • Tier 3: Nice-to-have services, tools, dashboards

When Adding a New Service

Match the tier to the service's DEFCON level from CLAUDE.md:

  • DEFCON 1-2 → Tier 1 (30s)
  • DEFCON 3-4 → Tier 2 (120s)
  • DEFCON 5 → Tier 3 (300s)

Internal Service URL Pattern

Most K8s services follow: http://<service-name>.<namespace>.svc.cluster.local:<port>

Common port is 80. Exceptions:

  • Homepage: port 3000
  • Ollama: port 11434
  • Loki: port 3100 (use /ready endpoint)
  • Traefik dashboard: port 8080 (use /dashboard/ path)
  • K8s API: https://10.0.20.100:6443
  • Immich: port 2283 (use /api/server/ping)

Notes

  1. Uptime Kuma uses Socket.IO (WebSocket) for its API, not REST
  2. The uptime-kuma-api Python library wraps Socket.IO
  3. Add time.sleep(0.3) between bulk operations to avoid overloading
  4. Homepage dashboard widget slug: cluster-internal
  5. Cloudflare-proxied at uptime.viktorbarzin.me

Terraform-Managed Monitors

There is NO louislam/uptime-kuma Terraform provider. Two patterns exist for declarative monitor management in this stack:

  • External HTTPS monitors — auto-discovered from ingress annotations by the external-monitor-sync CronJob (*/10 * * * *). Opt-out via uptime.viktorbarzin.me/external-monitor: "false" on the ingress.
  • Internal monitors (DBs, non-HTTP) — declared in the local.internal_monitors list in stacks/uptime-kuma/modules/uptime-kuma/main.tf and synced by the internal-monitor-sync CronJob. To add one, append to the list (provide name, type, database_connection_string, database_password_vault_key, interval, retry_interval, max_retries) and scripts/tg apply. The sync is idempotent — looks up by name, creates if missing, patches if drifted. Existing monitors keep their id and history.