0308 19:51:03.118430 4484 node.go:197] Started Kubelet for node
openshiftdev.local, server at 0.0.0.0:10250
I0308 19:51:03.118459 4484 node.go:199] Kubelet is setting 10.0.2.15 as a
DNS nameserver for domain "local"
Azure Red Hat OpenShift 3.11 will be retired 30 June 2022. Support for creation of new Azure Red Hat OpenShift 3.11 clusters continues through 30 November 2020. Following retirement, remaining Azure Red Hat OpenShift 3.11 clusters will be shut down to prevent security vulnerabilities.
Follow this guide to create an Azure Red Hat OpenShift 4 cluster. If you have specific questions, please contact us
Kubernetes ensures that pods are able to network with each other, and allocates each pod an IP address from an internal network. This ensures all containers within the pod behave as if they were on the same host. Giving each pod its own IP address means that pods can be treated like physical hosts or virtual machines in terms of port allocation, networking, naming, service discovery, load balancing, application configuration, and migration.
Creating links between pods is unnecessary, and it is not recommended that your pods talk to one another directly using the IP address. Instead, it is recommended that you create a service, then interact with the service.
If you are running multiple services, such as frontend and backend services for use with multiple pods, in order for the frontend pods to communicate with the backend services, environment variables are created for user names, service IPs, and more. If the service is deleted and recreated, a new IP address can be assigned to the service, and requires the frontend pods to be recreated in order to pick up the updated values for the service IP environment variable. Additionally, the backend service has to be created before any of the frontend pods to ensure that the service IP is generated properly, and that it can be provided to the frontend pods as an environment variable.
For this reason, Azure Red Hat OpenShift has a built-in DNS so that the services can be reached by the service DNS as well as the service IP/port. Azure Red Hat OpenShift supports split DNS by running SkyDNS on the master that answers DNS queries for services. The master listens to port 53 by default.
When the node starts, the following message indicates the Kubelet is correctly resolved to the master:
0308 19:51:03.118430 4484 node.go:197] Started Kubelet for node
openshiftdev.local, server at 0.0.0.0:10250
I0308 19:51:03.118459 4484 node.go:199] Kubelet is setting 10.0.2.15 as a
DNS nameserver for domain "local"
If the second message does not appear, the Kubernetes service may not be available.
On a node host, each container’s nameserver has the master name added to the
front, and the default search domain for the container will be
.<pod_namespace>.cluster.local
. The container will then direct any nameserver
queries to the master before any other nameservers on the node, which is the
default behavior for Docker-formatted containers. The master will answer queries on the .cluster.local
domain
that have the following form:
Object Type | Example |
---|---|
Default |
<pod_namespace>.cluster.local |
services |
<service>.<pod_namespace>.svc.cluster.local |
Endpoints |
<name>.<namespace>.endpoints.cluster.local |
This prevents having to restart frontend pods in order to pick up new services,
which would create a new IP for the service. This also removes the need to use
environment variables, because pods can use the service DNS. Also, as the DNS does not change, you can reference database services as
db.local
in configuration files. Wildcard lookups are also supported, because any lookups
resolve to the service IP, and removes the need to create the backend service
before any of the frontend pods, since the service name (and hence DNS) is
established upfront.
This DNS structure also covers headless services, where a portal IP is not assigned to the service and the kube-proxy does not load-balance or provide routing for its endpoints. service DNS can still be used and responds with multiple A records, one for each pod of the service, allowing the client to round-robin between each pod.
Azure Red Hat OpenShift public DNS zones are described in the list of Azure resources.