Network Policies
If you want to control traffic flow at the IP address or port level (OSI layer 3 or 4), then you might consider using Kubernetes NetworkPolicies for particular applications in your cluster. NetworkPolicies are an application-centric construct which allow you to specify how a pod is allowed to communicate with various network “entities” (we use the word “entity” here to avoid overloading the more common terms such as “endpoints” and “services”, which have specific Kubernetes connotations) over the network.
The entities that a Pod can communicate with are identified through a combination of the following 3 identifiers:
- Other pods that are allowed (exception: a pod cannot block access to itself)
- Namespaces that are allowed
- IP blocks (exception: traffic to and from the node where a Pod is running is always allowed, regardless of the IP address of the Pod or the node)
When defining a pod- or namespace- based NetworkPolicy, you use a selector to specify what traffic is allowed to and from the Pod(s) that match the selector.
Meanwhile, when IP based NetworkPolicies are created, we define policies based on IP blocks (CIDR ranges).
Prerequisites
Network policies are implemented by the network plugin. To use network policies, you must be using a networking solution which supports NetworkPolicy. Creating a NetworkPolicy resource without a controller that implements it will have no effect.
Isolated and Non-isolated Pods
By default, pods are non-isolated; they accept traffic from any source.
Pods become isolated by having a NetworkPolicy that selects them. Once there is any NetworkPolicy in a namespace selecting a particular pod, that pod will reject any connections that are not allowed by any NetworkPolicy. (Other pods in the namespace that are not selected by any NetworkPolicy will continue to accept all traffic.)
Network policies do not conflict; they are additive. If any policy or policies select a pod, the pod is restricted to what is allowed by the union of those policies’ ingress/egress rules. Thus, order of evaluation does not affect the policy result.
For a network flow between two pods to be allowed, both the egress policy on the source pod and the ingress policy on the destination pod need to allow the traffic. If either the egress policy on the source, or the ingress policy on the destination denies the traffic, the traffic will be denied.
The NetworkPolicy resource
See the NetworkPolicy reference for a full definition of the resource.
An example NetworkPolicy might look like this:
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-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:
project: myproject
- podSelector:
matchLabels:
role: frontend
ports:
- protocol: TCP
port: 6379
egress:
- to:
- ipBlock:
cidr: 10.0.0.0/24
ports:
- protocol: TCP
port: 5978
Note: POSTing this to the API server for your cluster will have no effect unless your chosen networking solution supports network policy.
Mandatory Fields: As with all other Kubernetes config, a NetworkPolicy needs apiVersion
, kind
, and metadata
fields. For general information about working with config files, see Configure Containers Using a ConfigMap, and Object Management.
spec: NetworkPolicy spec has all the information needed to define a particular network policy in the given namespace.
podSelector: Each NetworkPolicy includes a podSelector
which selects the grouping of pods to which the policy applies. The example policy selects pods with the label “role=db”. An empty podSelector
selects all pods in the namespace.
policyTypes: Each NetworkPolicy includes a policyTypes
list which may include either Ingress
, Egress
, or both. The policyTypes
field indicates whether or not the given policy applies to ingress traffic to selected pod, egress traffic from selected pods, or both. If no policyTypes
are specified on a NetworkPolicy then by default Ingress
will always be set and Egress
will be set if the NetworkPolicy has any egress rules.
ingress: Each NetworkPolicy may include a list of allowed ingress
rules. Each rule allows traffic which matches both the from
and ports
sections. The example policy contains a single rule, which matches traffic on a single port, from one of three sources, the first specified via an ipBlock
, the second via a namespaceSelector
and the third via a podSelector
.
egress: Each NetworkPolicy may include a list of allowed egress
rules. Each rule allows traffic which matches both the to
and ports
sections. The example policy contains a single rule, which matches traffic on a single port to any destination in 10.0.0.0/24
.
So, the example NetworkPolicy:
isolates “role=db” pods in the “default” namespace for both ingress and egress traffic (if they weren’t already isolated)
(Ingress rules) allows connections to all pods in the “default” namespace with the label “role=db” on TCP port 6379 from:
- any pod in the “default” namespace with the label “role=frontend”
- any pod in a namespace with the label “project=myproject”
- IP addresses in the ranges 172.17.0.0–172.17.0.255 and 172.17.2.0–172.17.255.255 (ie, all of 172.17.0.0/16 except 172.17.1.0/24)
- (Egress rules) allows connections from any pod in the “default” namespace with the label “role=db” to CIDR 10.0.0.0/24 on TCP port 5978
See the Declare Network Policy walkthrough for further examples.
Behavior of to
and from
selectors
There are four kinds of selectors that can be specified in an ingress
from
section or egress
to
section:
podSelector: This selects particular Pods in the same namespace as the NetworkPolicy which should be allowed as ingress sources or egress destinations.
namespaceSelector: This selects particular namespaces for which all Pods should be allowed as ingress sources or egress destinations.
namespaceSelector and podSelector: A single to
/from
entry that specifies both namespaceSelector
and podSelector
selects particular Pods within particular namespaces. Be careful to use correct YAML syntax; this policy:
...
ingress:
- from:
- namespaceSelector:
matchLabels:
user: alice
podSelector:
matchLabels:
role: client
...
contains a single from
element allowing connections from Pods with the label role=client
in namespaces with the label user=alice
. But this policy:
...
ingress:
- from:
- namespaceSelector:
matchLabels:
user: alice
- podSelector:
matchLabels:
role: client
...
contains two elements in the from
array, and allows connections from Pods in the local Namespace with the label role=client
, or from any Pod in any namespace with the label user=alice
.
When in doubt, use kubectl describe
to see how Kubernetes has interpreted the policy.
ipBlock: This selects particular IP CIDR ranges to allow as ingress sources or egress destinations. These should be cluster-external IPs, since Pod IPs are ephemeral and unpredictable.
Cluster ingress and egress mechanisms often require rewriting the source or destination IP of packets. In cases where this happens, it is not defined whether this happens before or after NetworkPolicy processing, and the behavior may be different for different combinations of network plugin, cloud provider, Service
implementation, etc.
In the case of ingress, this means that in some cases you may be able to filter incoming packets based on the actual original source IP, while in other cases, the “source IP” that the NetworkPolicy acts on may be the IP of a LoadBalancer
or of the Pod’s node, etc.
For egress, this means that connections from pods to Service
IPs that get rewritten to cluster-external IPs may or may not be subject to ipBlock
-based policies.
Default policies
By default, if no policies exist in a namespace, then all ingress and egress traffic is allowed to and from pods in that namespace. The following examples let you change the default behavior in that namespace.
Default deny all ingress traffic
You can create a “default” isolation policy for a namespace by creating a NetworkPolicy that selects all pods but does not allow any ingress traffic to those pods.
service/networking/network-policy-default-deny-ingress.yaml
---
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-ingress
spec:
podSelector: {}
policyTypes:
- Ingress
This ensures that even pods that aren’t selected by any other NetworkPolicy will still be isolated. This policy does not change the default egress isolation behavior.
Default allow all ingress traffic
If you want to allow all traffic to all pods in a namespace (even if policies are added that cause some pods to be treated as “isolated”), you can create a policy that explicitly allows all traffic in that namespace.
service/networking/network-policy-allow-all-ingress.yaml
---
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-all-ingress
spec:
podSelector: {}
ingress:
- {}
policyTypes:
- Ingress
Default deny all egress traffic
You can create a “default” egress isolation policy for a namespace by creating a NetworkPolicy that selects all pods but does not allow any egress traffic from those pods.
service/networking/network-policy-default-deny-egress.yaml
---
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-egress
spec:
podSelector: {}
policyTypes:
- Egress
This ensures that even pods that aren’t selected by any other NetworkPolicy will not be allowed egress traffic. This policy does not change the default ingress isolation behavior.
Default allow all egress traffic
If you want to allow all traffic from all pods in a namespace (even if policies are added that cause some pods to be treated as “isolated”), you can create a policy that explicitly allows all egress traffic in that namespace.
service/networking/network-policy-allow-all-egress.yaml
---
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-all-egress
spec:
podSelector: {}
egress:
- {}
policyTypes:
- Egress
Default deny all ingress and all egress traffic
You can create a “default” policy for a namespace which prevents all ingress AND egress traffic by creating the following NetworkPolicy in that namespace.
service/networking/network-policy-default-deny-all.yaml
---
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-all
spec:
podSelector: {}
policyTypes:
- Ingress
- Egress
This ensures that even pods that aren’t selected by any other NetworkPolicy will not be allowed ingress or egress traffic.
SCTP support
FEATURE STATE: Kubernetes v1.20 [stable]
As a stable feature, this is enabled by default. To disable SCTP at a cluster level, you (or your cluster administrator) will need to disable the SCTPSupport
feature gate for the API server with --feature-gates=SCTPSupport=false,…
. When the feature gate is enabled, you can set the protocol
field of a NetworkPolicy to SCTP
.
Note: You must be using a CNI plugin that supports SCTP protocol NetworkPolicies.
Targeting a range of Ports
FEATURE STATE: Kubernetes v1.22 [beta]
When writing a NetworkPolicy, you can target a range of ports instead of a single port.
This is achievable with the usage of the endPort
field, as the following example:
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: multi-port-egress
namespace: default
spec:
podSelector:
matchLabels:
role: db
policyTypes:
- Egress
egress:
- to:
- ipBlock:
cidr: 10.0.0.0/24
ports:
- protocol: TCP
port: 32000
endPort: 32768
The above rule allows any Pod with label db
on the namespace default
to communicate with any IP within the range 10.0.0.0/24
over TCP, provided that the target port is between the range 32000 and 32768.
The following restrictions apply when using this field:
- As a beta feature, this is enabled by default. To disable the
endPort
field at a cluster level, you (or your cluster administrator) need to disable theNetworkPolicyEndPort
feature gate for the API server with--feature-gates=NetworkPolicyEndPort=false,…
. - The
endPort
field must be equal than or greater to theport
field. endPort
can only be defined ifport
is also defined.- Both ports must be numeric.
Note: Your cluster must be using a CNI plugin that supports the
endPort
field in NetworkPolicy specifications. If your network plugin does not support theendPort
field and you specify a NetworkPolicy with that, the policy will be applied only for the singleport
field.
Targeting a Namespace by its name
FEATURE STATE: Kubernetes 1.21 [beta]
The Kubernetes control plane sets an immutable label kubernetes.io/metadata.name
on all namespaces, provided that the NamespaceDefaultLabelName
feature gate is enabled. The value of the label is the namespace name.
While NetworkPolicy cannot target a namespace by its name with some object field, you can use the standardized label to target a specific namespace.
What you can’t do with network policies (at least, not yet)
As of Kubernetes 1.22, the following functionality does not exist in the NetworkPolicy API, but you might be able to implement workarounds using Operating System components (such as SELinux, OpenVSwitch, IPTables, and so on) or Layer 7 technologies (Ingress controllers, Service Mesh implementations) or admission controllers. In case you are new to network security in Kubernetes, its worth noting that the following User Stories cannot (yet) be implemented using the NetworkPolicy API.
- Forcing internal cluster traffic to go through a common gateway (this might be best served with a service mesh or other proxy).
- Anything TLS related (use a service mesh or ingress controller for this).
- Node specific policies (you can use CIDR notation for these, but you cannot target nodes by their Kubernetes identities specifically).
- Targeting of services by name (you can, however, target pods or namespaces by their labels, which is often a viable workaround).
- Creation or management of “Policy requests” that are fulfilled by a third party.
- Default policies which are applied to all namespaces or pods (there are some third party Kubernetes distributions and projects which can do this).
- Advanced policy querying and reachability tooling.
- The ability to log network security events (for example connections that are blocked or accepted).
- The ability to explicitly deny policies (currently the model for NetworkPolicies are deny by default, with only the ability to add allow rules).
- The ability to prevent loopback or incoming host traffic (Pods cannot currently block localhost access, nor do they have the ability to block access from their resident node).
What’s next
- See the Declare Network Policy walkthrough for further examples.
- See more recipes for common scenarios enabled by the NetworkPolicy resource.