Enabling Passthrough Networking for LoadBalancer Services
Background
A Kubernetes cluster can publish applications running on a group of pods as Services, which provide unified layer-4 access entries. For a Loadbalancer Service, kube-proxy configures the LoadbalanceIP in status of the Service to the local forwarding rule of the node by default. When a pod accesses the load balancer from within the cluster, the traffic is forwarded within the cluster instead of being forwarded by the load balancer.
kube-proxy is responsible for intra-cluster forwarding. kube-proxy has two forwarding modes: iptables and IPVS. iptables is a simple polling forwarding mode. IPVS has multiple forwarding modes but it requires modifying the startup parameters of kube-proxy. Compared with iptables and IPVS, load balancers provide more flexible forwarding policies as well as health check capabilities.
Solution
CCE supports passthrough networking. You can configure the annotation of kubernetes.io/elb.pass-through for the Loadbalancer Service. Intra-cluster access to the Service load balancer address is then forwarded to backend pods by the load balancer.
- CCE clusters
When a LoadBalancer Service is accessed within the cluster, the access is forwarded to the backend pods using iptables/IPVS by default.
When a LoadBalancer Service (configured with elb.pass-through) is accessed within the cluster, the access is first forwarded to the load balancer, then the nodes, and finally to the backend pods using iptables/IPVS.
Constraints
- Passthrough networking is not supported for clusters of v1.15 or earlier.
- In IPVS network mode, the pass-through settings of Service connected to the same ELB must be the same.
- If node-level (local) service affinity is used, kubernetes.io/elb.pass-through is automatically set to onlyLocal to enable pass-through.
Procedure
This section describes how to create a Deployment using an Nginx image and create a Service with passthrough networking enabled.
- Use the Nginx image to create a Deployment.
apiVersion: apps/v1 kind: Deployment metadata: name: nginx spec: replicas: 2 selector: matchLabels: app: nginx template: metadata: labels: app: nginx spec: containers: - image: nginx:latest name: container-0 resources: limits: cpu: 100m memory: 200Mi requests: cpu: 100m memory: 200Mi imagePullSecrets: - name: default-secret
- For a LoadBalance Service type, set kubernetes.io/elb.pass-through to true. In this example, a shared load balancer named james is automatically created.
apiVersion: v1 kind: Service metadata: annotations: kubernetes.io/elb.pass-through: "true" kubernetes.io/elb.class: union kubernetes.io/elb.autocreate: '{"type":"public","bandwidth_name":"cce-bandwidth","bandwidth_chargemode":"bandwidth","bandwidth_size":5,"bandwidth_sharetype":"PER","eip_type":"5_bgp","name":"james"}' labels: app: nginx name: nginx spec: externalTrafficPolicy: Local ports: - name: service0 port: 80 protocol: TCP targetPort: 80 selector: app: nginx type: LoadBalancer
Verification
Check the ELB load balancer corresponding to the created Service. The load balancer name is james. The number of ELB connections is 0.
Use kubectl to connect to the cluster, go to an Nginx container, and access the ELB address. The access is successful.
# kubectl get pod NAME READY STATUS RESTARTS AGE nginx-7c4c5cc6b5-vpncx 1/1 Running 0 9m47s nginx-7c4c5cc6b5-xj5wl 1/1 Running 0 9m47s # kubectl exec -it nginx-7c4c5cc6b5-vpncx -- /bin/sh # curl 120.46.141.192 <!DOCTYPE html> <html> <head> <title>Welcome to nginx!</title> <style> body { width: 35em; margin: 0 auto; font-family: Tahoma, Verdana, Arial, sans-serif; } </style> </head> <body> <h1>Welcome to nginx!</h1> <p>If you see this page, the nginx web server is successfully installed and working. Further configuration is required.</p> <p>For online documentation and support please refer to <a href="http://nginx.org/">nginx.org</a>.<br/> Commercial support is available at <a href="http://nginx.com/">nginx.com</a>.</p> <p><em>Thank you for using nginx.</em></p> </body> </html>
Wait for a period of time and view the ELB monitoring data. A new access connection is created for the ELB, indicating that the access passes through the ELB load balancer as expected.
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