The Kubernetes StackSet Controller is a concept (along with an implementation) for easing and automating application life cycle for certain types of applications running on Kubernetes.
It is not meant to be a generic solution for all types of applications but it's explicitly focusing on "Web Applications", that is, application which receive HTTP traffic and are continuously deployed with new versions which should receive traffic either instantly or gradually fading traffic from one version of the application to the next one. Think Blue/Green deployments as one example.
By default Kubernetes offers the Deployment resource type which, combined with a Service, can provide some level of application life cycle in the form of rolling updates. While rolling updates are a powerful concept, there are some limitations for certain use cases:
- Switching traffic in a Blue/Green style is not possible with rolling updates.
- Splitting traffic between versions of the application can only be done by scaling the number of Pods. E.g. if you want to give 1% of traffic to a new version, you need at least 100 Pods.
- Impossible to run smoke tests against a new version of the application before it gets traffic.
To work around these limitations I propose a different type of resource called
an StackSet
which has the concept of Stacks
.
The StackSet
is a declarative way of describing the application stack as a
whole, and the Stacks
describe individual versions of the
application. The StackSet
also allows defining a "global" load balancer
spanning all stacks of the stackset which makes it possible to switch
traffic to different stacks at the load balancer (for example Ingress) level.
flowchart
A[Ingress Controller] -->|0%| B[Stack\nVersion 1]
A[Ingress Controller] -->|20%| C[Stack\nVersion 2]
A[Ingress Controller] -->|80%| D[Stack\nVersion 3]
The StackSet
and Stack
resources are implemented as
CRDs. A StackSet
looks like this:
apiVersion: zalando.org/v1
kind: StackSet
metadata:
name: my-app
spec:
# optional Ingress definition.
ingress:
hosts: [my-app.example.org, alt.name.org]
backendPort: 80
# optional desired traffic weights defined by stack
traffic:
- stackName: mystack-v1
weight: 80
- stackName: mystack-v2
weight: 20
# optional percentage of required Replicas ready to allow traffic switch
# if none specified, defaults to 100
minReadyPercent: 90
stackLifecycle:
scaledownTTLSeconds: 300
limit: 5 # maximum number of scaled down stacks to keep.
# If there are more than `limit` stacks, the oldest stacks which are scaled down
# will be deleted.
stackTemplate:
spec:
version: v1 # version of the Stack.
replicas: 3
# optional autoscaler definition (will create an HPA for the stack).
autoscaler:
minReplicas: 3
maxReplicas: 10
metrics:
- type: CPU
averageUtilization: 50
# full Pod template.
podTemplate:
spec:
containers:
- name: skipper
image: ghcr.io/zalando/skipper:latest
args:
- skipper
- -inline-routes
- '* -> inlineContent("OK") -> <shunt>'
- -address=:80
ports:
- containerPort: 80
name: ingress
resources:
limits:
cpu: 10m
memory: 50Mi
requests:
cpu: 10m
memory: 50Mi
The above StackSet
would generate a Stack
that looks like this:
apiVersion: zalando.org/v1
kind: Stack
metadata:
name: my-app-v1
labels:
stackset: my-app
stackset-version: v1
spec:
ingress:
hosts: [my-app.example.org, alt.name.org]
backendPort: 80
replicas: 3
autoscaler:
minReplicas: 3
maxReplicas: 10
metrics:
- type: CPU
averageUtilization: 50
podTemplate:
spec:
containers:
image: ghcr.io/zalando/skipper:latest
args:
- skipper
- -inline-routes
- '* -> inlineContent("OK") -> <shunt>'
- -address=:80
ports:
- containerPort: 80
name: ingress
resources:
limits:
cpu: 10m
memory: 50Mi
requests:
cpu: 10m
memory: 50Mi
For each Stack
, the StackSet controller creates a Service
, a Deployment
,
and an optional Ingress
resource automatically with the right labels. An
optional autoscaler
resource can also be created per stack for
horizontally scaling the deployment.
For the most part the Stacks
will be dynamically managed by the
controller and the users don't have to touch them. You can think of this similar
to the relationship between Deployments
and ReplicaSets
.
If the Stack
is deleted the related resources like Service
and
Deployment
will be automatically cleaned up.
The stackLifecycle
let's you configure two settings to change the cleanup
behavior for the StackSet
:
scaleDownTTLSeconds
defines for how many seconds a stack should not receive traffic before it's scaled down.limit
defines the total number of stacks to keep. That is, if you have alimit
of5
and currently have6
stacks for theStackSet
then it will clean up the oldest stack which is NOT getting traffic. Thelimit
is not enforced if it would mean deleting a stack with traffic. E.g. if you set alimit
of1
and have two stacks with50%
then none of them would be deleted. However, if you switch to100%
traffic for one of the stacks then the other will be deleted after it has not received traffic forscaleDownTTLSeconds
.
- Automatically create new Stacks when the
StackSet
is updated with a new version in thestackTemplate
. - Traffic switch between Stacks: The controller creates a new Ingress and/or
RouteGroup per Stack for StackSets with a
routegroup
oringress
specified in thespec
. The controller automatically updates each Stacks' Ingress/RouteGroup when updating the main StackSet'straffic
weights. The ingress controller must implement theTrafficSegment
predicate to effectively switch traffic. For example, Skipper implements this predicate. - Safely switch traffic to scaled down stacks. If a stack is scaled down, it will be scaled up automatically before traffic is directed to it.
- Dynamically provision Ingresses per stack, with per stack host names. I.e.
my-app.example.org
,my-app-v1.example.org
,my-app-v2.example.org
. - Automatically scale down stacks when they don't get traffic for a specified period.
- Automatically delete stacks that have been scaled down and are not getting any traffic for longer time.
- Automatically clean up all dependent resources when a
StackSet
orStack
resource is deleted. This includesService
,Deployment
,Ingress
and optionallyHorizontalPodAutoscaler
. - Command line utility (
traffic
) for showing and switching traffic between stacks. - You can opt-out of the global
Ingress
creation withexternalIngress:
spec, such that external controllers can manage the Ingress or CRD creation, that will configure the routing into the cluster. - You can use skipper's RouteGroups to configure more complex routing rules.
The StackSet controller works with Kubernetes >=v1.23
.
The controller watches for StackSet
resources and creates Stack
resources
whenever the version is updated in the StackSet
stackTemplate
. For each
StackSet
it will create an optional "main" Ingress
resource and keep it up
to date when new Stacks
are created for the StackSet
. For each Stack
it
will create a Deployment
, a Service
. When specified in the parent
StackSet
, the controller will create also for each Stack
an Ingress
and/or
a HorizontalPodAutoscaler
for the Deployment
. The corresponding Stack
owns
these resources, which are cleaned up if the stack is deleted.
Use an existing cluster or create a test cluster with kind
kind create cluster --name testcluster001
The stackset-controller
can be run as a deployment in the cluster.
See deployment.yaml.
The controller depends on the StackSet and Stack CRDs. You must install these into your cluster before running the controller:
$ kubectl apply -f docs/stackset_crd.yaml -f docs/stack_crd.yaml
After the CRDs are installed the controller can be deployed:
please adjust the controller version and cluster-domain to your environment
$ kubectl apply -f docs/rbac.yaml -f docs/deployment.yaml
There are cases where it might be desirable to run multiple instances of the stackset-controller in the same cluster, e.g. for development.
To prevent the controllers from fighting over the same StackSet
resources
they can be configured with the flag --controller-id=<some-id>
which
indicates that the controller should only manage the StackSets
which has an
annotation stackset-controller.zalando.org/controller=<some-id>
defined.
If the controller-id is not configured, the controller will manage all
StackSets
which does not have the annotation defined.
Once you have deployed the controller you can create your first StackSet
resource:
$ kubectl apply -f docs/stackset.yaml
stackset.zalando.org/my-app created
This will create the stackset in the cluster:
$ kubectl get stacksets
NAME CREATED AT
my-app 21s
And soon after you will see the first Stack
of the my-app
stackset:
$ kubectl get stacks
NAME CREATED AT
my-app-v1 30s
It will also create Ingress
, Service
, Deployment
and
HorizontalPodAutoscaler
resources:
$ kubectl get ingress,service,deployment.apps,hpa -l stackset=my-app
NAME HOSTS ADDRESS PORTS AGE
ingress.networking.k8s.io/my-app-v1-traffic-segment my-app.example.org kube-ing-lb-3es9a....elb.amazonaws.com 80 7m
ingress.networking.k8s.io/my-app-v1 my-app-v1.example.org kube-ing-lb-3es9a....elb.amazonaws.com 80 7m
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/my-app-v1 ClusterIP 10.3.204.136 <none> 80/TCP 7m
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
deployment.apps/my-app-v1 1 1 1 1 7m
NAME REFERENCE TARGETS MINPODS MAXPODS REPLICAS AGE
horizontalpodautoscaler.autoscaling/my-app-v1 Deployment/my-app-v1 <unknown>/50% 3 10 0 20s
Imagine you want to roll out a new version of your stackset. You can do this
by changing the StackSet
resource. E.g. by changing the version:
$ kubectl patch stackset my-app --type='json' -p='[{"op": "replace", "path": "/spec/stackTemplate/spec/version", "value": "v2"}]'
stackset.zalando.org/my-app patched
Soon after, we will see a new stack:
$ kubectl get stacks -l stackset=my-app
NAME CREATED AT
my-app-v1 14m
my-app-v2 46s
And using the traffic
tool we can see how the traffic is distributed (see
below for how to build the tool):
./build/traffic my-app
STACK TRAFFIC WEIGHT
my-app-v1 100.0%
my-app-v2 0.0%
If we want to switch 100% traffic to the new stack we can do it like this:
# traffic <stackset> <stack> <traffic>
./build/traffic my-app my-app-v2 100
STACK TRAFFIC WEIGHT
my-app-v1 0.0%
my-app-v2 100.0%
Since the my-app-v1
stack is no longer getting traffic it will be scaled down
after some time and eventually deleted.
If you want to delete it manually, you can simply do:
$ kubectl delete stack my-app-v1
stack.zalando.org "my-app-v1" deleted
And all the related resources will be gone shortly after:
$ kubectl get ingress,service,deployment.apps,hpa -l stackset=my-app,stack-version=v1
No resources found.
This project uses Go modules as introduced in Go 1.11 therefore you need Go >=1.11 installed in order to build. If using Go 1.11 you also need to activate Module support.
Assuming Go has been setup with module support it can be built simply by running:
$ export GO111MODULE=on # needed if the project is checked out in your $GOPATH.
$ make
Note that the Go client interface for talking to the custom StackSet
and
Stack
CRD is generated code living in pkg/client/
and
pkg/apis/zalando.org/v1/zz_generated_deepcopy.go
. If you make changes to
pkg/apis/*
then you must run make clean && make
to regenerate the code.
To understand how this works see the upstream example for generating client interface code for CRDs.
Clients that write the desired traffic switching value have to move
from ingress annotation zalando.org/stack-traffic-weights: '{"mystack-v1":80, "mystack-v2": 20}'
to stackset spec.traffic
:
spec:
traffic:
- stackName: mystack-v1
weight: 80
- stackName: mystack-v2
weight: 20