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Services, Load Balancing, and Networking
The Kubernetes network model
Every Pod
gets its own IP address.
This means you do not need to explicitly create links between Pods
and you
almost never need to deal with mapping container ports to host ports.
This creates a clean, backwards-compatible model where Pods
can be treated
much like VMs or physical hosts from the perspectives of port allocation,
naming, service discovery, load balancing, application configuration,
and migration.
Kubernetes imposes the following fundamental requirements on any networking implementation (barring any intentional network segmentation policies):
- pods on a node can communicate with all pods on all nodes without NAT
- agents on a node (e.g. system daemons, kubelet) can communicate with all pods on that node
Note: For those platforms that support Pods
running in the host network (e.g.
Linux):
- pods in the host network of a node can communicate with all pods on all nodes without NAT
This model is not only less complex overall, but it is principally compatible with the desire for Kubernetes to enable low-friction porting of apps from VMs to containers. If your job previously ran in a VM, your VM had an IP and could talk to other VMs in your project. This is the same basic model.
Kubernetes IP addresses exist at the Pod
scope - containers within a Pod
share their network namespaces - including their IP address and MAC address.
This means that containers within a Pod
can all reach each other's ports on
localhost
. This also means that containers within a Pod
must coordinate port
usage, but this is no different from processes in a VM. This is called the
"IP-per-pod" model.
How this is implemented is a detail of the particular container runtime in use.
It is possible to request ports on the Node
itself which forward to your Pod
(called host ports), but this is a very niche operation. How that forwarding is
implemented is also a detail of the container runtime. The Pod
itself is
blind to the existence or non-existence of host ports.
Kubernetes networking addresses four concerns:
- Containers within a Pod use networking to communicate via loopback.
- Cluster networking provides communication between different Pods.
- The Service resource lets you expose an application running in Pods to be reachable from outside your cluster.
- You can also use Services to publish services only for consumption inside your cluster.