This operator coordinates the rollout of pods between different StatefulSets within a specific namespace and can be used to manage multi-AZ deployments where pods running in each AZ are managed by a dedicated StatefulSet.
The operator coordinates the rollout of pods belonging to StatefulSets
with the rollout-group
label and updates strategy set to OnDelete
. The label value should identify the group of StatefulSets to which the StatefulSet belongs to. Make sure the StatefulSet has a label name
in its spec.template
, as the operator uses it to find pods belonging to it.
For example, given the following StatefulSets in a namespace:
ingester-zone-a
withrollout-group: ingester
ingester-zone-b
withrollout-group: ingester
compactor-zone-a
withrollout-group: compactor
compactor-zone-b
withrollout-group: compactor
The operator independently coordinates the rollout of pods of each group:
- Rollout group:
ingester
ingester-zone-a
ingester-zone-b
- Rollout group:
compactor
compactor-zone-a
compactor-zone-b
For each rollout group, the operator guarantees:
- Pods in 2 different StatefulSets are not rolled out at the same time
- Pods in a StatefulSet are rolled out if and only if all pods in all other StatefulSets of the same group are
Ready
(otherwise it will start or continue the rollout once this check is satisfied) - Pods are rolled out if and only if all StatefulSets in the same group have
OnDelete
update strategy (otherwise the operator will skip the group and log an error) - The maximum number of not-Ready pods in a StatefulSet doesn't exceed the value configured in the
rollout-max-unavailable
annotation (if not set, it defaults to1
). Values:<= 0
: invalid (will default to1
and log a warning)1
: pods are rolled out sequentially> 1
: pods are rolled out in parallel (honoring the configured number of max unavailable pods)
The operator can also optionally coordinate scaling up and down of StatefulSets
that are part of the same rollout-group
based on the grafana.com/rollout-downscale-leader
annotation. When using this feature, the grafana.com/min-time-between-zones-downscale
label must also be set on each StatefulSet
.
This can be useful for automating the tedious scaling of stateful services like Mimir ingesters. Making use of this feature requires adding a few annotations and labels to configure how it works. Examples for a multi-AZ ingester group are given below.
- For
ingester-zone-a
, add the following:- Labels:
grafana.com/min-time-between-zones-downscale=12h
(change the value here to an appropriate duration)grafana.com/prepare-downscale=true
(to allow the service to be notified when it will be scaled down)
- Annotations:
grafana.com/prepare-downscale-http-path=ingester/prepare-shutdown
(to call a specific endpoint on the service)grafana.com/prepare-downscale-http-port=80
(to call a specific endpoint on the service)
- Labels:
- For
ingester-zone-b
, add the following:- Labels:
grafana.com/min-time-between-zones-downscale=12h
(change the value here to an appropriate duration)grafana.com/prepare-downscale=true
(to allow the service to be notified when it will be scaled down)
- Annotations:
grafana.com/rollout-downscale-leader=ingester-zone-a
(zoneb
will follow zonea
, after a delay)grafana.com/prepare-downscale-http-path=ingester/prepare-shutdown
(to call a specific endpoint on the service)grafana.com/prepare-downscale-http-port=80
(to call a specific endpoint on the service)
- Labels:
- For
ingester-zone-c
, add the following:- Labels:
grafana.com/min-time-between-zones-downscale=12h
(change the value here to an appropriate duration)grafana.com/prepare-downscale=true
(to allow the service to be notified when it will be scaled down)
- Annotations:
grafana.com/rollout-downscale-leader=ingester-zone-b
(zonec
will follow zoneb
, after a delay)grafana.com/prepare-downscale-http-path=ingester/prepare-shutdown
(to call a specific endpoint on the service)grafana.com/prepare-downscale-http-port=80
(to call a specific endpoint on the service)
- Labels:
Rollout-operator can use custom resource with scale
and status
subresources as a "source of truth" for number of replicas for target statefulset. "Source of truth" resource (or "reference resource") is configured using following annotations:
grafana.com/rollout-mirror-replicas-from-resource-name
grafana.com/rollout-mirror-replicas-from-resource-kind
grafana.com/rollout-mirror-replicas-from-resource-api-version
These annotations must be set on StatefulSet that rollout-operator will scale (ie. target statefulset). Number of replicas in target statefulset will follow replicas in reference resource (from scale
subresource), while reference resource's status
subresource will be updated with current number of replicas in target statefulset.
This is similar to using grafana.com/rollout-downscale-leader
, but reference resource can be any kind of resource, not just statefulset. Furthermore grafana.com/min-time-between-zones-downscale
is not respected when using scaling based on reference resource.
This can be used in combination with HorizontalPodAutoscaler, when it is undesireable to set number of replicas directly on target statefulset, because we want to add custom logic to the scaledown (see next point). In that case, HPA can update different "reference resource", and rollout-operator can "mirror" number of replicas from reference resource to target statefulset.
To support scaling based on reference resource, rollout-operator needs to be allowed to execute get
and patch
verbs on status
and scale
subresources of the custom resource. For example when using custom resource replica-templates
from API group rollout-operator.grafana.com
, you can add following to the RBAC:
- apiGroups:
- rollout-operator.grafana.com
resources:
- replica-templates/scale
- replica-templates/status
verbs:
- get
- patch
When using "Scaling based on reference resource", rollout-operator can be configured to delay the actual scaledown, and ask individual pods to prepare for delayed-scaledown.
This is configured using grafana.com/rollout-delayed-downscale
and grafana.com/rollout-prepare-delayed-downscale-url
annotations on target statefulset. First annotation specificies minimum delay duration between call to "prepare-delayed-downscale-url" and actual scaledown, while the second annotation specifies the URL that is called on each pod. (URL is used as-is, but host is replaced with pod's fully qualified domain name.)
Rollout operator has special requirements on the configured endpoint:
- Endpoint must support
POST
andDELETE
methods. - On
POST
method, pod is supposed to prepare for delayed downscale. Endpoint must also return 200 if preparation succeeded, and JSON body in format:{"timestamp": 123456789}
, where timestamp is Unix timestamp in seconds when the preparation has been done. - Repeated calls with
POST
method should return the same timestamp, unless preparation was done again, and new waiting must start. - On
DELETE
method, pod should cancel the preparation for delayed downscale. If there's nothing to do, pod should ignore suchDELETE
request.
Rollout-operator does NOT remember any state of "delayed scaledown" preparation. It relies on timestamps returned from the pod endpoints on POST
method. When no delayed scaledown is taking place, rollout-operator still keeps calling DELETE
method regularly, to make sure that there is all pods have cancelled any previous "preparation of delayed scaledown".
How is this different from grafana.com/prepare-downscale
label used by /admission/prepare-downscale
webhook? That webhook calls the "prepare-downscale" endpoint called just before the downscale is done, and pods are shutdown right after. On the other hand delayed downscale can take many hours. Delayed downscale and "prepare downscale" features can be used together.
The operator runs an HTTP server listening on port -server.port=8001
exposing the following endpoints.
Readiness probe endpoint.
Prometheus metrics endpoint.
Offers a ValidatingAdmissionWebhook
that rejects the requests that decrease the number of replicas in objects labeled as grafana.com/no-downscale: true
. See Webhooks section below.
When running the rollout-operator
as a pod, it needs a Role with at least the following privileges:
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
rules:
- apiGroups:
- ""
resources:
- pods
verbs:
- list
- get
- watch
- delete
- apiGroups:
- apps
resources:
- statefulsets
verbs:
- list
- get
- watch
- apiGroups:
- apps
resources:
- statefulsets/status
verbs:
- update
(Please see Webhooks section below for extra roles required when using the HTTPS server for webhooks.)
Dynamic Admission Control webhooks are offered on the HTTPS server of the rollout-operator.
You can enable HTTPS by setting the flag -server-tls.enabled=true
.
The HTTPS server will listen on port -server-tls.port=8443
and expose the following endpoints.
This webhook offers a ValidatingAdmissionWebhook
that rejects the requests that decrease the number of replicas in objects labeled as grafana.com/no-downscale: true
.
An example webhook configuration would look like this:
apiVersion: admissionregistration.k8s.io/v1
kind: ValidatingWebhookConfiguration
metadata:
labels:
grafana.com/inject-rollout-operator-ca: "true"
grafana.com/namespace: default
name: no-downscale-default
webhooks:
- name: no-downscale-default.grafana.com
admissionReviewVersions: [v1]
clientConfig:
service:
name: rollout-operator
namespace: default
path: /admission/no-downscale
port: 443
failurePolicy: Fail
matchPolicy: Equivalent
rules:
- apiGroups: [apps]
apiVersions: [v1]
operations: [UPDATE]
resources:
- statefulsets
- deployments
- replicasets
- statefulsets/scale
- deployments/scale
- replicasets/scale
scope: Namespaced
sideEffects: None
timeoutSeconds: 10
This webhook configuration should point to a Service
that points to the rollout-operator
's HTTPS server exposed on port -server-tls.port=8443
.
For example:
apiVersion: v1
kind: Service
metadata:
name: rollout-operator
spec:
selector:
name: rollout-operator
type: ClusterIP
ports:
- name: https
port: 443
protocol: TCP
targetPort: 8443
Please note that the webhook will NOT receive the requests for /scale
operations if an objectSelector
is provided.
For this reason the webhook will perform the check of the grafana.com/no-downscale
label on the object itself on every received request.
When an object like StatefulSet
, DeploymentSet
or ReplicaSet
is changed itself, the validation request will include the changed object and the webhook will be able to check the label on it.
When a /scale
subresouce is changed (for example by running kubectl scale ...
) the request will not contain the changed object, and rollout-operator
will use the Kubernetes API to retrieve the parent object and check the label on it.
You will see in TLS Certificates section below that this label is also used to inject the CA bundle into the webhook configuration.
Note: if you plan running validations on
DeploymentSet
orReplicaSet
objects, you need to make sure that therollout-operator
has the privileges to list and get those objects.
Since the ValidatingAdmissionWebhook
is cluster-wide, it's a good idea to at least include a namespaceSelector
in the webhook configuration to limit the scope of the webhook to a specific namespace.
If you want to restrict the webhook to a specific namespace, you can use the namespaceSelector
in the webhook configuration and match on the kubernetes.io/metadata.name
label, which contains the namespace name.
The webhook is conservative and allows changes whenever an error occurs:
- When parent object can't be retrieved from the API.
- When the validation request can't be decoded or includes an unsupported type.
Changing the replicas number to null
(or from null
) is allowed.
This webhook offers a MutatingAdmissionWebhook
that calls a downscale preparation endpoint on the pods for requests that decrease the number of replicas in objects labeled as grafana.com/prepare-downscale: true
.
An example webhook configuration would look like this:
apiVersion: admissionregistration.k8s.io/v1
kind: MutatingWebhookConfiguration
metadata:
labels:
grafana.com/inject-rollout-operator-ca: "true"
grafana.com/namespace: default
name: prepare-downscale-default
webhooks:
- admissionReviewVersions:
- v1
clientConfig:
service:
name: rollout-operator
namespace: default
path: /admission/prepare-downscale
port: 443
failurePolicy: Fail
matchPolicy: Equivalent
name: prepare-downscale-default.grafana.com
rules:
- apiGroups:
- apps
apiVersions:
- v1
operations:
- UPDATE
resources:
- statefulsets
- statefulsets/scale
scope: Namespaced
sideEffects: NoneOnDryRun
timeoutSeconds: 10
This webhook configuration should point to a Service
that points to the rollout-operator
's HTTPS server exposed on port -server-tls.port=8443
.
For example:
apiVersion: v1
kind: Service
metadata:
name: rollout-operator
spec:
selector:
name: rollout-operator
type: ClusterIP
ports:
- name: https
port: 443
protocol: TCP
targetPort: 8443
Note that the Service
created for the /admission/no-downscale
can be reused if already present.
Upscaling requests or requests that don't change the number of replicas are approved. For downscaling requests the following labels have to be present on the object:
grafana.com/prepare-downscale
The following annotations also have to be present:
grafana.com/prepare-downscale-http-path
grafana.com/prepare-downscale-http-port
If the grafana.com/last-downscale
annotation is present on any of the stateful sets in the same rollout group it's value will be checked against the current time. If the difference is less than the grafana.com/min-time-between-zones-downscale
label (if present) then the request is rejected. Otherwise the request is approved. This mechanism can be used to maintain a time between downscales of the stateful sets in a rollout group.
The endpoint created from grafana.com/prepare-downscale-http-path
and grafana.com/prepare-downscale-http-port
will be called for each of the pods that have to be downscaled. If any of these requests fail the downscaling request is rejected.
The grafana.com/last-downscale
annotation is added to the stateful set mentioned in the validation request.
Note that both the ValidatingAdmissionWebhook
and the MutatingAdmissionWebhook
require a TLS connection, so the HTTPS server should either use a certificate signed by a well-known CA or a self-signed certificate.
You can either issue a Certificate Signing Request or use an existing approach for issuing self-signed certificates, like cert-manager.
You can set the options -server-tls.cert-file
and -server-tls.key-file
to point to the certificate and key files respectively.
For convenience, rollout-operator
offers a self-signed certificates generator that is enabled by default.
This generator will generate a self-signed certificate and store it in a secret specified by the flag -server-tls.self-signed-cert.secret-name
.
The certificate is stored in a secret in order to reuse it across restarts of the rollout-operator
.
rollout-operator
will list all the ValidatingWebhookConfiguration
or MutatingWebhookConfiguration
objects in the cluster that are labeled with grafana.com/inject-rollout-operator-ca: true
and grafana.com/namespace: <value of -kubernetes-namespace>
and will inject the CA certificate in the caBundle
field of the webhook configuration.
This mechanism can be disabled by setting -webhooks.update-ca-bundle=false
.
This signing and injecting is performed at service startup once, so you would need to restart rollout-operator
if you want to inject the CA certificate in a new ValidatingWebhookConfiguration
object.
In order to perform the self-signed certificate generation, rollout-operator
needs a Role
that would allow it to list and update the secrets, as well as a ClusterRole
that would allow listing and patching the ValidationWebhookConfigurations
or MutatingWebhookConfigurations
. An example of those could be:
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
name: rollout-operator-webhook-role
namespace: default
rules:
- apiGroups: [""]
resources: [secrets]
verbs: [create]
- apiGroups: [""]
resources: [secrets]
resourceNames: [rollout-operator-self-signed-certificate]
verbs: [update, get]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
name: rollout-operator-webhook-rolebinding
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: Role
name: rollout-operator-webhook-role
subjects:
- kind: ServiceAccount
name: rollout-operator
namespace: default
And:
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRole
metadata:
name: rollout-operator-webhook-default-clusterrole
rules:
- apiGroups: [admissionregistration.k8s.io]
resources: [validatingwebhookconfigurations]
verbs: [list, patch]
---
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: rollout-operator-webhook-default-clusterrolebinding
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: rollout-operator-webhook-default-clusterrole
subjects:
- kind: ServiceAccount
name: rollout-operator
namespace: default
Whenever the certificate expires, the rollout-operator
will detect it and will restart, which will trigger the self-signed certificate generation again if it's configured.
The default expiration for the self-signed certificate is 1 year and it can be changed by setting the flag -server-tls.self-signed-cert.expiration
.