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Gateway API
Gateway API is a set of resources for configuring networking in Kubernetes. It expands on Ingress to configure additional types of routes (TCP, UDP, and TLS in addition to HTTP/HTTPS), support backends other than Service, and manage the proxies that implement routes.
Gateway API and Kong’s implementation of Gateway API are both under active development. Features and implementation specifics will change before their initial general availability release.
Gateway management
A Gateway resource describes an application or cluster feature that can handle Gateway API routing rules, directing inbound traffic to Services following the rules provided. For Kong’s implementation, a Gateway corresponds to a Kong Deployment managed by the ingress controller.
Typically, Gateway API implementations manage the resources associated with a Gateway on behalf of users: creating a Gateway resource will trigger automatic provisioning of Deployments/Services/etc. with configuration matching the Gateway’s listeners and addresses. The Kong alpha implementation does not automatically manage Gateway provisioning: you must create the Kong and ingress controller Deployment and proxy Service yourself following the Gateway installation guide.
Because the Kong Deployment and its configuration are not managed automatically, listener and address configuration are not set for you. You must configure your Deployment and Service to match your Gateway’s configuration. For example, with this Gateway:
apiVersion: gateway.networking.k8s.io/v1beta1
kind: Gateway
metadata:
name: example
spec:
gatewayClassName: kong
listeners:
- name: proxy
port: 80
protocol: HTTP
- name: proxy-ssl
port: 443
protocol: HTTPS
- name: proxy-tcp-9901
port: 9901
protocol: TCP
- name: proxy-udp-9902
port: 9902
protocol: UDP
- name: proxy-tls-9903
port: 9903
protocol: TLS
requires a proxy Service that includes all the requested listener ports:
apiVersion: v1
kind: Service
metadata:
name: proxy
spec:
ports:
- port: 80
protocol: TCP
targetPort: 8000
- port: 443
protocol: TCP
targetPort: 8443
- port: 9901
protocol: TCP
targetPort: 9901
- port: 9902
protocol: UDP
targetPort: 9902
- port: 9903
protocol: TCP
targetPort: 9903
and matching Kong proxy_listen
configuration in the container environment:
KONG_PROXY_LISTEN="0.0.0.0:8000 reuseport backlog=16384, 0.0.0.0:8443 http2 ssl reuseport backlog=16384 http2"
KONG_STREAM_LISTEN="0.0.0.0:9901 reuseport backlog=16384, 0.0.0.0:9902 reuseport backlog=16384 udp", 0.0.0.0:9903 reuseport backlog=16384 ssl"
The Helm chart manages
both of these from the proxy
configuration block:
proxy:
http:
enabled: true
servicePort: 80
containerPort: 8000
tls:
enabled: true
servicePort: 443
containerPort: 8443
stream: []
- containerPort: 9901
servicePort: 9901
protocol: TCP
- containerPort: 9902
servicePort: 9902
protocol: UDP
- containerPort: 9903
servicePort: 9903
protocol: TCP
parameters:
- "ssl"
Ports missing appropriate Kong-side configuration will result in an error condition in the Gateway’s status:
message: no Kong listen with the requested protocol is configured for the
requested port
reason: PortUnavailable
Listener compatibility and handling multiple Gateways
During the alpha, without automatic Gateway Deployment provisioning, Kong’s implementation can only handle a single GatewayClass, and only one Gateway in that GatewayClass. Although the controller will attempt to handle configuration from all Gateways in its GatewayClass, adding more than one Gateway is not yet supported and will likely result in unexpected behavior. If you wish to use multiple Gateways, define multiple GatewayClasses and install a separate Deployment for each.
For background, Gateway API allows implementations to collapse compatible listens and Gateways:
An implementation MAY group Listeners by Port and then collapse each group of Listeners into a single Listener if the implementation determines that the Listeners in the group are “compatible”. An implementation MAY also group together and collapse compatible Listeners belonging to different Gateways.
Compatibility means that listeners can coexist: for example, two HTTP listens
can coexist on the same port because Gateways can still route inbound requests
using the HTTP Host
header, whereas two TCP listens cannot coexist on the
same port because the port is the only characteristic that can select between
TCP routes.
If there is a conflict between listeners on a Gateway, the controller will mark the conflict in the Gateway status and not add routes that require the conflicting listener. The controller cannot, however, perform these same validity checks across separate Gateway resources.
Binding Kong Gateway to a Gateway resource
To configure KIC to reconcile the Gateway resource, you must set the
konghq.com/gatewayclass-unmanaged
annotation as the example in GatewayClass resource used in
spec.gatewayClassName
in Gateway resource. Also, the
spec.controllerName
of GatewayClass needs to be same as the value of the
--gateway-api-controller-name
flag configured in KIC. For more information, see kic-flags.
You can check to confirm if KIC has updated the bound Gateway by inspecting the list of associated addresses:
kubectl get gateway kong -o=jsonpath='{.status.addresses}' | jq
[
{
"type": "IPAddress",
"value": "10.96.179.122"
},
{
"type": "IPAddress",
"value": "172.18.0.240"
}
]