This section describes different networking components that come together to form a Konvoy networking stack. It assumes familiarity with Kubernetes networking.
Service
A Service is an API resource that defines a logical set of pods and a policy by which to access them, and is an abstracted manner to expose applications as network services.
Kubernetes gives pods their own IP addresses and a single DNS name for a set of pods. Services are used as entrypoints to load-balance the traffic across the pods. A selector determines the set of Pods targeted by a Service.
For example, if you have a set of pods that each listen on TCP port 9191
and carry a label app=MyKonvoyApp
, as configured in the following:
apiVersion: v1
kind: Service
metadata:
name: my-konvoy-service
namespace: default
spec:
selector:
app: MyKonvoyApp
ports:
- protocol: TCP
port: 80
targetPort: 9191
This specification creates a new Service
object named "my-konvoy-service"
, that targets TCP port 9191
on any pod with the app=MyKonvoyApp
label.
Kubernetes assigns this Service an IP address. In particular, the kube-proxy
implements a form of virtual IP for Services of type other than ExternalName
.
Service Topology
Service Topology is a mechanism in Kubernetes to route traffic based upon the Node topology of the cluster. For example, you can configure a Service to route the traffic to endpoints on specific nodes, or even based on the region or availability zone of the node’s location.
To enable this new feature in your Kubernetes cluster, use the feature gates --feature-gates="ServiceTopology=true,EndpointSlice=true"
flag. After enabling, you can control Service traffic routing by defining the topologyKeys
field in the Service API object.
In the following example, a Service defines topologyKeys
to be routed to endpoints only in the same zone:
apiVersion: v1
kind: Service
metadata:
name: my-konvoy-service
namespace: default
spec:
selector:
app: MyKonvoyApp
ports:
- protocol: TCP
port: 80
targetPort: 9191
topologyKeys:
- "topology.kubernetes.io/zone"
EndpointSlices
EndpointSlices are an API resource that appears as a scalable and more manageable solution to network endpoints within a Kubernetes cluster. They allow for distributing network endpoints across multiple resources with a limit of 100 endpoints per EndpointSlice.
An EndpointSlice contains references to a set of endpoints, and the control plane takes care of creating EndpointSlices for any Service that has a selector specified. These EndpointSlices include references to all the pods that match the Service selector.
Like Services, the name of a EndpointSlice object must be a valid DNS subdomain name.
In this example, here’s a sample EndpointSlice resource for the example Kubernetes Service:
apiVersion: discovery.k8s.io/v1beta1
kind: EndpointSlice
metadata:
name: konvoy-endpoint-slice
namespace: default
labels:
kubernetes.io/service-name: my-konvoy-service
addressType: IPv4
ports:
- name: http
protocol: TCP
port: 80
endpoints:
- addresses:
- "192.168.126.168"
conditions:
ready: true
hostname: ip-10-0-135-39.us-west-2.compute.internal
topology:
kubernetes.io/hostname: ip-10-0-135-39.us-west-2.compute.internal
topology.kubernetes.io/zone: us-west2-b
DNS for Services and Pods
Every new Service object in Kubernetes gets assigned a DNS name. The Kubernetes DNS component schedules a DNS name for the pods and services created on the cluster, and then the Kubelets are configured so containers can resolve these DNS names.
Considering previous examples, assume there is a Service named my-konvoy-service
in the Kubernetes namespace default
. A Pod running in namespace default
can look up this service by performing a DNS query for my-konvoy-service
. A Pod running in namespace kommander
can look up this service by performing a DNS query for my-konvoy-service.default
.
In general, a pod has the following DNS resolution:
pod-ip-address.namespace-name.pod-name.cluster-domain.example.
Similarly, a service has the following DNS resolution:
service-name.namespace-name.svc.cluster-domain.example.
You can find additional information about all the possible record types and layout here.
Ingress
Ingress is an API resource that manages external access to the services in a cluster through HTTP or HTTPS. It offers name-based virtual hosting, SSL termination and load balancing when exposing HTTP/HTTPS routes from outside to services in the cluster.
The traffic policies are controlled by rules as part of the Ingress definition. Each rule defines the following details:
-
An optional host to which apply the rules.
-
A list of paths or routes which has an associated backend defined with a Service
name
, a portname
andnumber
. -
A backend is a combo of a Service and port names, or a custom resource backend defined as a CRD. Consequently HTTP/HTTPS requests to the Ingress that matches the host and path of the rule are sent to the listed backend.
An example of an Ingress specification is:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: konvoy-ingress
namespace: default
annotations:
nginx.ingress.kubernetes.io/rewrite-target: /
spec:
rules:
- http:
paths:
- path: /path
pathType: Prefix
backend:
service:
name: my-konvoy-service
port:
number: 80
In Kommander, you can expose services to the outside world using Ingress objects.
Ingress Controllers
In contrast with the controllers in the Kubernetes control plane, Ingress controllers are not started with a cluster so you need to choose the desired Ingress controller.
An Ingress controller has to be deployed in a cluster for the Ingress definitions to work.
Kubernetes as a project currently supports and maintains GCE and nginx controllers.
These are four of the most known Ingress controllers:
-
HAProxy Ingress is a highly customizable community-driven ingress controller for HAProxy.
-
NGINX offers support and maintenance for the NGINX Ingress Controller for Kubernetes.
-
Traefik is a fully featured Ingress controller (Let’s Encrypt, secrets, http2, websocket), and has commercial support.
-
Ambassador API Gateway Experimental is an Envoy based Ingress controller with community and commercial support.
In Kommander, Traefik
deploys by default as a well-suited Ingress controller.
Network Policies
NetworkPolicy is an API resource that controls the traffic flow at port level 3 or 4, or at the IP address level. It enables defining constraints on how a pod communicates with various network services such as endpoints
and services
.
A Pod can be restricted to talk to other network services through a selection of the following identifiers:
-
Namespaces that have to access. There can be pods that are not allowed to talk to other namespaces.
-
Other allowed IP blocks regardless of the node or IP address assigned to the targeted Pod.
-
Other allowed Pods.
An example of a NetworkPolicy specification is:
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: network-konvoy-policy
namespace: default
spec:
podSelector:
matchLabels:
role: db
policyTypes:
- Ingress
- Egress
ingress:
- from:
- ipBlock:
cidr: 172.17.0.0/16
except:
- 172.17.1.0/24
- namespaceSelector:
matchLabels:
app: MyKonvoyApp
- podSelector:
matchLabels:
app: MyKonvoyApp
ports:
- protocol: TCP
port: 6379
egress:
- to:
- ipBlock:
cidr: 10.0.0.0/24
ports:
- protocol: TCP
port: 5978
As shown in the example, when defining a pod or namespace based NetworkPolicy, you use a selector to specify what traffic is allowed to and from the Pod(s).
Adding entries to Pod /etc/hosts with HostAliases
The Pod API resource definition has a HostAliases
field that allows adding entries to the Pod’s container /etc/hosts
file. This field overrides the hostname resolution when DNS and other options are not applicable.
For example, to resolve foo.node.local
, bar.node.local
to 127.0.0.1
and foo.node.remote
, bar.node.remote
to 10.1.2.3
, configure the HostAliases
values as follows:
apiVersion: v1
kind: Pod
metadata:
name: hostaliases-konvoy-pod
spec:
restartPolicy: Never
hostAliases:
- ip: "127.0.0.1"
hostnames:
- "foo.node.local"
- "bar.node.local"
- ip: "10.1.2.3"
hostnames:
- "foo.node.remote"
- "bar.node.remote"
containers:
- name: cat-hosts
image: busybox
command:
- cat
args:
- "/etc/hosts"
Required Domains
This section describes the required domains for Kommander…Read More
Ingress
Traefik Ingress Controller…Read More
Load Balancing
In a Kubernetes cluster, depending on the flow of traffic direction, there are two kinds of load balancing:…Read More
Configure Ingress for load balancing
Learn how to configure Ingress settings for load balancing (layer-7)…Read More
External DNS
This section describes how to use external-dns to maintain your hostnames…Read More