configure-api-gateway

pjt222

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À propos

Cette compétence déploie et configure Kong ou Traefik pour fournir une passerelle API unifiée permettant de gérer le trafic, la sécurité et le routage entre les microservices. Elle prend en charge des fonctions essentielles telles que l'authentification, la limitation de débit, la transformation des requêtes et l'équilibrage de charge. Utilisez-la lorsque vous avez besoin d'un point d'entrée centralisé pour plusieurs services backend ou que vous exigez des politiques API et des analyses cohérentes.

Installation rapide

Claude Code

Recommandé

Principal

npx skills add pjt222/agent-almanac -a claude-code

Commande PluginAlternatif

/plugin add https://github.com/pjt222/agent-almanac

Git CloneAlternatif

git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/configure-api-gateway

Copiez et collez cette commande dans Claude Code pour installer cette compétence

Documentation

Configure API Gateway

Deploy + configure API gateway → centralized API traffic mgmt + policy enforcement.

Use When

Multi backend services need unified API endpoint + consistent policies
Need centralized auth for API access
Need rate limiting + quota mgmt across APIs
Want transform reqs/res w/o modifying backend services
Impl API versioning + deprecation strategies
Need detailed API analytics + monitoring
Need service discovery + load balancing for microservices

In

Required: Kubernetes cluster or Docker env
Required: Choice of API gateway (Kong or Traefik)
Required: Backend service endpoints to proxy
Optional: Auth provider (OAuth2, OIDC, API keys)
Optional: Rate limiting req's (reqs per min/hr)
Optional: Custom middleware / plugin configs
Optional: TLS certs for HTTPS endpoints

Do

See Extended Examples for complete config files + templates.

Step 1: Install API Gateway

Deploy gateway w/ DB (Kong) or file-based config (Traefik).

For Kong w/ PostgreSQL:

# kong-deployment.yaml (excerpt - see EXAMPLES.md for complete file)
apiVersion: v1
kind: Namespace
metadata:
  name: kong
---
apiVersion: apps/v1
kind: Deployment
metadata:
  name: kong
  namespace: kong
spec:
  replicas: 2
  # ... (PostgreSQL, migrations, services - see EXAMPLES.md)

For Traefik:

# traefik-deployment.yaml (excerpt - see EXAMPLES.md for complete file)
apiVersion: v1
kind: Namespace
metadata:
  name: traefik
---
apiVersion: apps/v1
kind: Deployment
metadata:
  name: traefik
  namespace: traefik
spec:
  replicas: 2
  # ... (RBAC, ConfigMap, services - see EXAMPLES.md)

See EXAMPLES.md for complete deployment manifests

Deploy:

kubectl apply -f kong-deployment.yaml  # OR traefik-deployment.yaml
kubectl wait --for=condition=ready pod -l app=kong -n kong --timeout=300s
kubectl get svc -n kong kong-proxy  # Get load balancer IP

→ Gateway pods running w/ 2 replicas. LB service has external IP. Admin API accessible (Kong: port 8001, Traefik: dashboard port 8080). Health checks pass.

If err:

Check pod logs: kubectl logs -n kong -l app=kong
Valid. DB connection (Kong): kubectl logs -n kong kong-migrations-<hash>
Check service account perms (Traefik): kubectl get clusterrolebinding traefik -o yaml
Ensure ports not already bound: kubectl get svc --all-namespaces | grep 8000

Step 2: Configure Backend Services + Routes

Define upstream services + create routes to expose APIs.

For Kong (using decK for declarative config):

# Install decK CLI
curl -sL https://github.com/Kong/deck/releases/download/v1.28.0/deck_1.28.0_linux_amd64.tar.gz | tar -xz
sudo mv deck /usr/local/bin/

# Create kong.yaml with services, routes, upstreams
# (see EXAMPLES.md for complete configuration)
deck sync --kong-addr http://localhost:8001 -s kong.yaml
curl -i http://localhost:8001/routes  # Verify routes

For Traefik (using IngressRoute CRD):

# traefik-routes.yaml (excerpt)
apiVersion: traefik.io/v1alpha1
kind: IngressRoute
metadata:
  name: user-api-route
spec:
  entryPoints: [websecure]
  routes:
  - match: Host(`api.example.com`) && PathPrefix(`/api/users`)
    # ... (see EXAMPLES.md for full configuration)

Apply routes:

kubectl apply -f traefik-routes.yaml
curl -H "Host: api.example.com" https://GATEWAY_IP/api/users

See EXAMPLES.md for complete routing configs

→ Routes proxy traffic correct to backend services. Weighted routing distributes traffic per config. Health checks monitor backend health.

If err:

Valid. backend services running: kubectl get svc -n default
Check DNS resolution: kubectl run test --rm -it --image=busybox -- nslookup user-service.default.svc.cluster.local
Review gateway logs: kubectl logs -n kong -l app=kong --tail=50
Valid. config: deck validate -s kong.yaml

Step 3: Implement Auth

Configure auth plugins/middleware for API security.

For Kong (API Key + JWT auth):

# kong-auth-config.yaml (excerpt)
consumers:
- username: mobile-app
  custom_id: app-001

keyauth_credentials:
- consumer: mobile-app
  key: mobile-secret-key-123

plugins:
- name: key-auth
  service: user-api
  # ... (see EXAMPLES.md for full configuration)

deck sync --kong-addr http://localhost:8001 -s kong-auth-config.yaml
curl -i -H "apikey: mobile-secret-key-123" http://GATEWAY_IP/api/users

For Traefik (BasicAuth + ForwardAuth middleware):

# traefik-auth-middleware.yaml (excerpt)
apiVersion: traefik.io/v1alpha1
kind: Middleware
metadata:
  name: basic-auth-middleware
spec:
  basicAuth:
    secret: basic-auth
    removeHeader: true
# ... (see EXAMPLES.md for OAuth2, rate limiting)

kubectl apply -f traefik-auth-middleware.yaml
curl -u user1:password https://GATEWAY_IP/api/protected

See EXAMPLES.md for complete auth configs

→ Unauth'd reqs return 401. Valid creds allow access. Rate limiting returns 429 after threshold. JWT tokens valid. correctly. ACL enforces group perms.

If err:

Valid. consumer creation: curl http://localhost:8001/consumers
Check plugin enabled: curl http://localhost:8001/plugins | jq .
Test w/ verbose: curl -v to see res headers
Valid. JWT: use jwt.io to decode token

Step 4: Configure Request/Response Transformation

Add middleware to transform reqs + res.

For Kong:

# kong-transformations.yaml (excerpt)
plugins:
- name: request-transformer
  service: user-api
  config:
    add:
      headers: [X-Gateway-Version:1.0, X-Request-ID:$(uuid)]
    remove:
      headers: [X-Internal-Token]
- name: correlation-id
  # ... (see EXAMPLES.md for full configuration)

deck sync --kong-addr http://localhost:8001 -s kong-transformations.yaml

For Traefik:

# traefik-transformations.yaml (excerpt)
apiVersion: traefik.io/v1alpha1
kind: Middleware
metadata:
  name: add-headers
spec:
  headers:
    customRequestHeaders:
      X-Gateway-Version: "1.0"
    # ... (see EXAMPLES.md for circuit breaker, retry, chain)

kubectl apply -f traefik-transformations.yaml
curl -v https://GATEWAY_IP/api/users | grep X-Gateway

See EXAMPLES.md for complete transformation configs

→ Req headers added/removed as config'd. Res headers include gateway metadata. Large reqs rejected w/ 413. Circuit breaker trips on repeated fails. Retries occur for transient errs.

If err:

Valid. middleware order in chain
Check for header conflicts w/ backend services
Test transformations individually before chaining
Review logs for transformation errs

Step 5: Enable Monitoring + Analytics

Configure metrics, logging, dashboards for API visibility.

Kong monitoring setup:

# kong-monitoring.yaml (excerpt)
plugins:
- name: prometheus
  config:
    per_consumer: true
- name: http-log
  service: user-api
  # ... (see EXAMPLES.md for Datadog, file-log configuration)

deck sync --kong-addr http://localhost:8001 -s kong-monitoring.yaml

# Deploy ServiceMonitor (see EXAMPLES.md)
kubectl apply -f kong-servicemonitor.yaml
curl http://localhost:8100/metrics

Traefik monitoring (built-in):

# ServiceMonitor (excerpt - see EXAMPLES.md for Grafana dashboard)
apiVersion: monitoring.coreos.com/v1
kind: ServiceMonitor
metadata:
  name: traefik-metrics
spec:
  endpoints:
  - port: metrics
    path: /metrics
    interval: 30s

kubectl port-forward -n traefik svc/traefik-dashboard 8080:8080
# Open http://localhost:8080/dashboard/

See EXAMPLES.md for complete monitoring configs

→ Prometheus scraping gateway metrics successfully. Dashboards show req rates, latency percentiles, err rates. Logs forwarding to aggregation system. Metrics segmented by service, route, consumer.

If err:

Valid. ServiceMonitor: kubectl get servicemonitor -A
Check Prometheus targets in UI
Ensure metrics port accessible: kubectl port-forward -n kong svc/kong-metrics 8100:8100
Valid. log endpoint reachability

Step 6: Implement API Versioning + Deprecation

Configure version mgmt + graceful API deprecation.

Kong versioning strategy:

# kong-versioning.yaml (excerpt)
services:
- name: user-api-v1
  url: http://user-service-v1.default.svc.cluster.local:8080
  routes:
  - name: user-v1-route
    paths: [/api/v1/users]
  plugins:
  - name: response-transformer
    config:
      add:
        headers:
        - X-Deprecation-Notice:"API v1 deprecated on 2024-12-31"
        - Sunset:"Wed, 31 Dec 2024 23:59:59 GMT"
# ... (see EXAMPLES.md for v2, default routing, rate limits)

Traefik versioning:

# traefik-versioning.yaml (excerpt)
apiVersion: traefik.io/v1alpha1
kind: Middleware
metadata:
  name: v1-deprecation-headers
spec:
  headers:
    customResponseHeaders:
      X-Deprecation-Notice: "API v1 deprecated on 2024-12-31"
# ... (see EXAMPLES.md for complete IngressRoutes)

Test versioning:

curl -i https://api.example.com/api/v1/users  # Deprecated
curl -i https://api.example.com/api/v2/users  # Current
curl -i https://api.example.com/api/users     # Routes to v2

See EXAMPLES.md for complete versioning configs

→ Diff versions route to appropriate backend services. Deprecation headers on v1 res. Rate limits stricter for deprecated versions. Default path routes to latest version. Metrics segmented by API version.

If err:

Valid. path precedence/priority config (higher priority = eval'd first)
Check for overlapping path patterns
Test each version route independently
Review routing logs for path matching
Ensure backend services for each version running

Check

Traps

DB Dependency (Kong): Kong w/ DB requires PostgreSQL/Cassandra. DB-less mode avail but limits features (runtime config changes). Use DB mode for prod w/ multi gateway instances.
Path Matching Order: Routes/IngressRoutes evaluated in specific order. More specific paths should have higher priority. Overlapping paths → unpredictable routing. Test w/ curl -v to verify actual route hit.
Auth Bypass: Ensure auth plugins applied to all routes. Easy to add route w/o auth. Use default plugins at service level, override per-route as needed.
Rate Limit Scope: Rate limiting policy: local counts per gateway pod. Consistent limits across replicas → use centralized policy (Redis) or sticky sessions.
CORS Config: API gateway should handle CORS, not individual services. Add CORS plugin/middleware early → avoid browser preflight fails.
SSL/TLS Termination: Gateway typically terminates SSL. Ensure certs valid + auto-renewal config'd. Use cert-manager for K8s cert mgmt.
Upstream Health Checks: Active health checks detect backend fails quickly. Passive checks rely on real traffic + slower to detect issues.
Plugin/Middleware Exec Order: Order matters. Auth before rate limiting (avoid wasted rate limit slots for invalid reqs). Transformation before logging (log transformed values).
Resource Limits: Gateway pods can consume big CPU under load. Set appropriate resource reqs/limits. Monitor CPU throttling in prod.
Migration Strategy: Don't enable all plugins at once. Roll out incrementally: routing → auth → rate limiting → transformations → advanced features.

→

configure-ingress-networking - Ingress controller setup complements API gateway
setup-service-mesh - Service mesh provides complementary east-west traffic mgmt
manage-kubernetes-secrets - Cert + credential mgmt for gateway
setup-prometheus-monitoring - Monitoring integration for gateway metrics
enforce-policy-as-code - Policy enforcement complements gateway auth

Dépôt GitHub

pjt222/agent-almanac

Chemin: i18n/caveman-ultra/skills/configure-api-gateway

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