Configure Service Accounts for Pods
Kubernetes offers two distinct ways for clients that run within your cluster, or that otherwise have a relationship to your cluster's control plane to authenticate to the API server.
A service account provides an identity for processes that run in a Pod, and maps to a ServiceAccount object. When you authenticate to the API server, you identify yourself as a particular user. Kubernetes recognises the concept of a user, however, Kubernetes itself does not have a User API.
This task guide is about ServiceAccounts, which do exist in the Kubernetes API. The guide shows you some ways to configure ServiceAccounts for Pods.
Before you begin
You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:
Use the default service account to access the API server
When Pods contact the API server, Pods authenticate as a particular
ServiceAccount (for example, default
). There is always at least one
ServiceAccount in each namespace.
Every Kubernetes namespace contains at least one ServiceAccount: the default
ServiceAccount for that namespace, named default
.
If you do not specify a ServiceAccount when you create a Pod, Kubernetes
automatically assigns the ServiceAccount named default
in that namespace.
You can fetch the details for a Pod you have created. For example:
kubectl get pods/<podname> -o yaml
In the output, you see a field spec.serviceAccountName
.
Kubernetes automatically
sets that value if you don't specify it when you create a Pod.
An application running inside a Pod can access the Kubernetes API using automatically mounted service account credentials. See accessing the Cluster to learn more.
When a Pod authenticates as a ServiceAccount, its level of access depends on the authorization plugin and policy in use.
Opt out of API credential automounting
If you don't want the kubelet
to automatically mount a ServiceAccount's API credentials, you can opt out of
the default behavior.
You can opt out of automounting API credentials on /var/run/secrets/kubernetes.io/serviceaccount/token
for a service account by setting automountServiceAccountToken: false
on the ServiceAccount:
For example:
apiVersion: v1
kind: ServiceAccount
metadata:
name: build-robot
automountServiceAccountToken: false
...
You can also opt out of automounting API credentials for a particular Pod:
apiVersion: v1
kind: Pod
metadata:
name: my-pod
spec:
serviceAccountName: build-robot
automountServiceAccountToken: false
...
If both the ServiceAccount and the Pod's .spec
specify a value for
automountServiceAccountToken
, the Pod spec takes precedence.
Use more than one ServiceAccount
Every namespace has at least one ServiceAccount: the default ServiceAccount
resource, called default
. You can list all ServiceAccount resources in your
current namespace
with:
kubectl get serviceaccounts
The output is similar to this:
NAME SECRETS AGE
default 1 1d
You can create additional ServiceAccount objects like this:
kubectl apply -f - <<EOF
apiVersion: v1
kind: ServiceAccount
metadata:
name: build-robot
EOF
The name of a ServiceAccount object must be a valid DNS subdomain name.
If you get a complete dump of the service account object, like this:
kubectl get serviceaccounts/build-robot -o yaml
The output is similar to this:
apiVersion: v1
kind: ServiceAccount
metadata:
creationTimestamp: 2019-06-16T00:12:34Z
name: build-robot
namespace: default
resourceVersion: "272500"
uid: 721ab723-13bc-11e5-aec2-42010af0021e
You can use authorization plugins to set permissions on service accounts.
To use a non-default service account, set the spec.serviceAccountName
field of a Pod to the name of the ServiceAccount you wish to use.
You can only set the serviceAccountName
field when creating a Pod, or in a
template for a new Pod. You cannot update the .spec.serviceAccountName
field
of a Pod that already exists.
.spec.serviceAccount
field is a deprecated alias for .spec.serviceAccountName
.
If you want to remove the fields from a workload resource, set both fields to empty explicitly
on the pod template.Cleanup
If you tried creating build-robot
ServiceAccount from the example above,
you can clean it up by running:
kubectl delete serviceaccount/build-robot
Manually create an API token for a ServiceAccount
Suppose you have an existing service account named "build-robot" as mentioned earlier.
You can get a time-limited API token for that ServiceAccount using kubectl
:
kubectl create token build-robot
The output from that command is a token that you can use to authenticate as that
ServiceAccount. You can request a specific token duration using the --duration
command line argument to kubectl create token
(the actual duration of the issued
token might be shorter, or could even be longer).
When the ServiceAccountTokenNodeBinding
and ServiceAccountTokenNodeBindingValidation
features are enabled and the KUBECTL_NODE_BOUND_TOKENS
environment variable is set to true
,
it is possible to create a service account token that is directly bound to a Node
:
KUBECTL_NODE_BOUND_TOKENS=true kubectl create token build-robot --bound-object-kind Node --bound-object-name node-001 --bound-object-uid 123...456
The token will be valid until it expires or either the associated Node
or service account are deleted.
Versions of Kubernetes before v1.22 automatically created long term credentials for accessing the Kubernetes API. This older mechanism was based on creating token Secrets that could then be mounted into running Pods. In more recent versions, including Kubernetes v1.29, API credentials are obtained directly by using the TokenRequest API, and are mounted into Pods using a projected volume. The tokens obtained using this method have bounded lifetimes, and are automatically invalidated when the Pod they are mounted into is deleted.
You can still manually create a service account token Secret; for example, if you need a token that never expires. However, using the TokenRequest subresource to obtain a token to access the API is recommended instead.
Manually create a long-lived API token for a ServiceAccount
If you want to obtain an API token for a ServiceAccount, you create a new Secret
with a special annotation, kubernetes.io/service-account.name
.
kubectl apply -f - <<EOF
apiVersion: v1
kind: Secret
metadata:
name: build-robot-secret
annotations:
kubernetes.io/service-account.name: build-robot
type: kubernetes.io/service-account-token
EOF
If you view the Secret using:
kubectl get secret/build-robot-secret -o yaml
you can see that the Secret now contains an API token for the "build-robot" ServiceAccount.
Because of the annotation you set, the control plane automatically generates a token for that ServiceAccounts, and stores them into the associated Secret. The control plane also cleans up tokens for deleted ServiceAccounts.
kubectl describe secrets/build-robot-secret
The output is similar to this:
Name: build-robot-secret
Namespace: default
Labels: <none>
Annotations: kubernetes.io/service-account.name: build-robot
kubernetes.io/service-account.uid: da68f9c6-9d26-11e7-b84e-002dc52800da
Type: kubernetes.io/service-account-token
Data
====
ca.crt: 1338 bytes
namespace: 7 bytes
token: ...
The content of token
is elided here.
Take care not to display the contents of a kubernetes.io/service-account-token
Secret somewhere that your terminal / computer screen could be seen by an onlooker.
When you delete a ServiceAccount that has an associated Secret, the Kubernetes control plane automatically cleans up the long-lived token from that Secret.
If you view the ServiceAccount using:
kubectl get serviceaccount build-robot -o yaml
You can't see the build-robot-secret
Secret in the ServiceAccount API objects
.secrets
field
because that field is only populated with auto-generated Secrets.
Add ImagePullSecrets to a service account
First, create an imagePullSecret. Next, verify it has been created. For example:
Create an imagePullSecret, as described in Specifying ImagePullSecrets on a Pod.
kubectl create secret docker-registry myregistrykey --docker-server=<registry name> \ --docker-username=DUMMY_USERNAME --docker-password=DUMMY_DOCKER_PASSWORD \ --docker-email=DUMMY_DOCKER_EMAIL
Verify it has been created.
kubectl get secrets myregistrykey
The output is similar to this:
NAME TYPE DATA AGE myregistrykey kubernetes.io/.dockerconfigjson 1 1d
Add image pull secret to service account
Next, modify the default service account for the namespace to use this Secret as an imagePullSecret.
kubectl patch serviceaccount default -p '{"imagePullSecrets": [{"name": "myregistrykey"}]}'
You can achieve the same outcome by editing the object manually:
kubectl edit serviceaccount/default
The output of the sa.yaml
file is similar to this:
Your selected text editor will open with a configuration looking something like this:
apiVersion: v1
kind: ServiceAccount
metadata:
creationTimestamp: 2021-07-07T22:02:39Z
name: default
namespace: default
resourceVersion: "243024"
uid: 052fb0f4-3d50-11e5-b066-42010af0d7b6
Using your editor, delete the line with key resourceVersion
, add lines for
imagePullSecrets:
and save it. Leave the uid
value set the same as you found it.
After you made those changes, the edited ServiceAccount looks something like this:
apiVersion: v1
kind: ServiceAccount
metadata:
creationTimestamp: 2021-07-07T22:02:39Z
name: default
namespace: default
uid: 052fb0f4-3d50-11e5-b066-42010af0d7b6
imagePullSecrets:
- name: myregistrykey
Verify that imagePullSecrets are set for new Pods
Now, when a new Pod is created in the current namespace and using the default
ServiceAccount, the new Pod has its spec.imagePullSecrets
field set automatically:
kubectl run nginx --image=<registry name>/nginx --restart=Never
kubectl get pod nginx -o=jsonpath='{.spec.imagePullSecrets[0].name}{"\n"}'
The output is:
myregistrykey
ServiceAccount token volume projection
Kubernetes v1.20 [stable]
To enable and use token request projection, you must specify each of the following
command line arguments to kube-apiserver
:
--service-account-issuer
- defines the Identifier of the service account token issuer. You can specify the
--service-account-issuer
argument multiple times, this can be useful to enable a non-disruptive change of the issuer. When this flag is specified multiple times, the first is used to generate tokens and all are used to determine which issuers are accepted. You must be running Kubernetes v1.22 or later to be able to specify--service-account-issuer
multiple times. --service-account-key-file
- specifies the path to a file containing PEM-encoded X.509 private or public keys (RSA or ECDSA), used to verify ServiceAccount tokens. The specified file can contain multiple keys, and the flag can be specified multiple times with different files. If specified multiple times, tokens signed by any of the specified keys are considered valid by the Kubernetes API server.
--service-account-signing-key-file
- specifies the path to a file that contains the current private key of the service account token issuer. The issuer signs issued ID tokens with this private key.
--api-audiences
(can be omitted)- defines audiences for ServiceAccount tokens. The service account token authenticator
validates that tokens used against the API are bound to at least one of these audiences.
If
api-audiences
is specified multiple times, tokens for any of the specified audiences are considered valid by the Kubernetes API server. If you specify the--service-account-issuer
command line argument but you don't set--api-audiences
, the control plane defaults to a single element audience list that contains only the issuer URL.
The kubelet can also project a ServiceAccount token into a Pod. You can specify desired properties of the token, such as the audience and the validity duration. These properties are not configurable on the default ServiceAccount token. The token will also become invalid against the API when either the Pod or the ServiceAccount is deleted.
You can configure this behavior for the spec
of a Pod using a
projected volume type called
ServiceAccountToken
.
The token from this projected volume is a JSON Web Token (JWT). The JSON payload of this token follows a well defined schema - an example payload for a pod bound token:
{
"aud": [ # matches the requested audiences, or the API server's default audiences when none are explicitly requested
"https://kubernetes.default.svc"
],
"exp": 1731613413,
"iat": 1700077413,
"iss": "https://kubernetes.default.svc", # matches the first value passed to the --service-account-issuer flag
"jti": "ea28ed49-2e11-4280-9ec5-bc3d1d84661a", # ServiceAccountTokenJTI feature must be enabled for the claim to be present
"kubernetes.io": {
"namespace": "kube-system",
"node": { # ServiceAccountTokenPodNodeInfo feature must be enabled for the API server to add this node reference claim
"name": "127.0.0.1",
"uid": "58456cb0-dd00-45ed-b797-5578fdceaced"
},
"pod": {
"name": "coredns-69cbfb9798-jv9gn",
"uid": "778a530c-b3f4-47c0-9cd5-ab018fb64f33"
},
"serviceaccount": {
"name": "coredns",
"uid": "a087d5a0-e1dd-43ec-93ac-f13d89cd13af"
},
"warnafter": 1700081020
},
"nbf": 1700077413,
"sub": "system:serviceaccount:kube-system:coredns"
}
Launch a Pod using service account token projection
To provide a Pod with a token with an audience of vault
and a validity duration
of two hours, you could define a Pod manifest that is similar to:
apiVersion: v1
kind: Pod
metadata:
name: nginx
spec:
containers:
- image: nginx
name: nginx
volumeMounts:
- mountPath: /var/run/secrets/tokens
name: vault-token
serviceAccountName: build-robot
volumes:
- name: vault-token
projected:
sources:
- serviceAccountToken:
path: vault-token
expirationSeconds: 7200
audience: vault
Create the Pod:
kubectl create -f https://k8s.io/examples/pods/pod-projected-svc-token.yaml
The kubelet will: request and store the token on behalf of the Pod; make the token available to the Pod at a configurable file path; and refresh the token as it approaches expiration. The kubelet proactively requests rotation for the token if it is older than 80% of its total time-to-live (TTL), or if the token is older than 24 hours.
The application is responsible for reloading the token when it rotates. It's often good enough for the application to load the token on a schedule (for example: once every 5 minutes), without tracking the actual expiry time.
Service account issuer discovery
Kubernetes v1.21 [stable]
If you have enabled token projection for ServiceAccounts in your cluster, then you can also make use of the discovery feature. Kubernetes provides a way for clients to federate as an identity provider, so that one or more external systems can act as a relying party.
The issuer URL must comply with the
OIDC Discovery Spec. In
practice, this means it must use the https
scheme, and should serve an OpenID
provider configuration at {service-account-issuer}/.well-known/openid-configuration
.
If the URL does not comply, ServiceAccount issuer discovery endpoints are not registered or accessible.
When enabled, the Kubernetes API server publishes an OpenID Provider
Configuration document via HTTP. The configuration document is published at
/.well-known/openid-configuration
.
The OpenID Provider Configuration is sometimes referred to as the discovery document.
The Kubernetes API server publishes the related
JSON Web Key Set (JWKS), also via HTTP, at /openid/v1/jwks
.
/.well-known/openid-configuration
and
/openid/v1/jwks
are designed to be OIDC compatible, but not strictly OIDC
compliant. Those documents contain only the parameters necessary to perform
validation of Kubernetes service account tokens.Clusters that use RBAC include a
default ClusterRole called system:service-account-issuer-discovery
.
A default ClusterRoleBinding assigns this role to the system:serviceaccounts
group,
which all ServiceAccounts implicitly belong to.
This allows pods running on the cluster to access the service account discovery document
via their mounted service account token. Administrators may, additionally, choose to
bind the role to system:authenticated
or system:unauthenticated
depending on their
security requirements and which external systems they intend to federate with.
The JWKS response contains public keys that a relying party can use to validate
the Kubernetes service account tokens. Relying parties first query for the
OpenID Provider Configuration, and use the jwks_uri
field in the response to
find the JWKS.
In many cases, Kubernetes API servers are not available on the public internet,
but public endpoints that serve cached responses from the API server can be made
available by users or by service providers. In these cases, it is possible to
override the jwks_uri
in the OpenID Provider Configuration so that it points
to the public endpoint, rather than the API server's address, by passing the
--service-account-jwks-uri
flag to the API server. Like the issuer URL, the
JWKS URI is required to use the https
scheme.
What's next
See also:
- Read the Cluster Admin Guide to Service Accounts
- Read about Authorization in Kubernetes
- Read about Secrets
- or learn to distribute credentials securely using Secrets
- but also bear in mind that using Secrets for authenticating as a ServiceAccount is deprecated. The recommended alternative is ServiceAccount token volume projection.
- Read about projected volumes.
- For background on OIDC discovery, read the ServiceAccount signing key retrieval Kubernetes Enhancement Proposal
- Read the OIDC Discovery Spec