You are viewing documentation for Flux version: 2.2

Version 2.2 of the documentation is no longer actively maintained. The site that you are currently viewing is an archived snapshot. For up-to-date documentation, see the latest version.

Blue/Green Deployments

This guide shows you how to automate Blue/Green deployments with Flagger and Kubernetes.

For applications that are not deployed on a service mesh, Flagger can orchestrate Blue/Green style deployments with Kubernetes L4 networking. When using a service mesh blue/green can be used as specified here.

Flagger Blue/Green Stages

Prerequisites

Flagger requires a Kubernetes cluster v1.16 or newer.

Install Flagger and the Prometheus add-on:

helm repo add flagger https://flagger.app

helm upgrade -i flagger flagger/flagger \
--namespace flagger \
--set prometheus.install=true \
--set meshProvider=kubernetes

If you already have a Prometheus instance running in your cluster, you can point Flagger to the ClusterIP service with:

helm upgrade -i flagger flagger/flagger \
--namespace flagger \
--set metricsServer=http://prometheus.monitoring:9090

Optionally you can enable Slack notifications:

helm upgrade -i flagger flagger/flagger \
--reuse-values \
--namespace flagger \
--set slack.url=https://hooks.slack.com/services/YOUR/SLACK/WEBHOOK \
--set slack.channel=some-channel-name \
--set slack.user=flagger

Bootstrap

Flagger takes a Kubernetes deployment and optionally a horizontal pod autoscaler (HPA), then creates a series of objects (Kubernetes deployment and ClusterIP services). These objects expose the application inside the cluster and drive the canary analysis and Blue/Green promotion.

Create a test namespace:

kubectl create ns test

Create a deployment and a horizontal pod autoscaler:

kubectl apply -k https://github.com/fluxcd/flagger//kustomize/podinfo?ref=main

Deploy the load testing service to generate traffic during the analysis:

kubectl apply -k https://github.com/fluxcd/flagger//kustomize/tester?ref=main

Create a canary custom resource:

apiVersion: flagger.app/v1beta1
kind: Canary
metadata:
  name: podinfo
  namespace: test
spec:
  # service mesh provider can be: kubernetes, istio, appmesh, nginx, gloo
  provider: kubernetes
  # deployment reference
  targetRef:
    apiVersion: apps/v1
    kind: Deployment
    name: podinfo
  # the maximum time in seconds for the canary deployment
  # to make progress before rollback (default 600s)
  progressDeadlineSeconds: 60
  # HPA reference (optional)
  autoscalerRef:
    apiVersion: autoscaling/v2beta2
    kind: HorizontalPodAutoscaler
    name: podinfo
  service:
    port: 9898
    portDiscovery: true
  analysis:
    # schedule interval (default 60s)
    interval: 30s
    # max number of failed checks before rollback
    threshold: 2
    # number of checks to run before rollback
    iterations: 10
    # Prometheus checks based on 
    # http_request_duration_seconds histogram
    metrics:
      - name: request-success-rate
        # minimum req success rate (non 5xx responses)
        # percentage (0-100)
        thresholdRange:
          min: 99
        interval: 1m
      - name: request-duration
        # maximum req duration P99
        # milliseconds
        thresholdRange:
          max: 500
        interval: 30s
    # acceptance/load testing hooks
    webhooks:
      - name: smoke-test
        type: pre-rollout
        url: http://flagger-loadtester.test/
        timeout: 15s
        metadata:
          type: bash
          cmd: "curl -sd 'anon' http://podinfo-canary.test:9898/token | grep token"
      - name: load-test
        url: http://flagger-loadtester.test/
        timeout: 5s
        metadata:
          type: cmd
          cmd: "hey -z 1m -q 10 -c 2 http://podinfo-canary.test:9898/"

The above configuration will run an analysis for five minutes.

Save the above resource as podinfo-canary.yaml and then apply it:

kubectl apply -f ./podinfo-canary.yaml

After a couple of seconds Flagger will create the canary objects:

# applied 
deployment.apps/podinfo
horizontalpodautoscaler.autoscaling/podinfo
canary.flagger.app/podinfo

# generated 
deployment.apps/podinfo-primary
horizontalpodautoscaler.autoscaling/podinfo-primary
service/podinfo
service/podinfo-canary
service/podinfo-primary

Blue/Green scenario:

  • on bootstrap, Flagger will create three ClusterIP services (app-primary,app-canary, app)

    and a shadow deployment named app-primary that represents the blue version

  • when a new version is detected, Flagger would scale up the green version and run the conformance tests

    (the tests should target the app-canary ClusterIP service to reach the green version)

  • if the conformance tests are passing, Flagger would start the load tests and validate them with custom Prometheus queries

  • if the load test analysis is successful, Flagger will promote the new version to app-primary and scale down the green version

Automated Blue/Green promotion

Trigger a deployment by updating the container image:

kubectl -n test set image deployment/podinfo \
podinfod=ghcr.io/stefanprodan/podinfo:6.0.1

Flagger detects that the deployment revision changed and starts a new rollout:

kubectl -n test describe canary/podinfo

Events:

New revision detected podinfo.test
Waiting for podinfo.test rollout to finish: 0 of 1 updated replicas are available
Pre-rollout check acceptance-test passed
Advance podinfo.test canary iteration 1/10
Advance podinfo.test canary iteration 2/10
Advance podinfo.test canary iteration 3/10
Advance podinfo.test canary iteration 4/10
Advance podinfo.test canary iteration 5/10
Advance podinfo.test canary iteration 6/10
Advance podinfo.test canary iteration 7/10
Advance podinfo.test canary iteration 8/10
Advance podinfo.test canary iteration 9/10
Advance podinfo.test canary iteration 10/10
Copying podinfo.test template spec to podinfo-primary.test
Waiting for podinfo-primary.test rollout to finish: 1 of 2 updated replicas are available
Promotion completed! Scaling down podinfo.test

Note that if you apply new changes to the deployment during the canary analysis, Flagger will restart the analysis.

You can monitor all canaries with:

watch kubectl get canaries --all-namespaces

NAMESPACE   NAME      STATUS        WEIGHT   LASTTRANSITIONTIME
test        podinfo   Progressing   100      2019-06-16T14:05:07Z
prod        frontend  Succeeded     0        2019-06-15T16:15:07Z
prod        backend   Failed        0        2019-06-14T17:05:07Z

Automated rollback

During the analysis you can generate HTTP 500 errors and high latency to test Flagger’s rollback.

Exec into the load tester pod with:

kubectl -n test exec -it flagger-loadtester-xx-xx sh

Generate HTTP 500 errors:

watch curl http://podinfo-canary.test:9898/status/500

Generate latency:

watch curl http://podinfo-canary.test:9898/delay/1

When the number of failed checks reaches the analysis threshold, the green version is scaled to zero and the rollout is marked as failed.

kubectl -n test describe canary/podinfo

Status:
  Failed Checks:         2
  Phase:                 Failed
Events:
  Type     Reason  Age   From     Message
  ----     ------  ----  ----     -------
  Normal   Synced  3m    flagger  New revision detected podinfo.test
  Normal   Synced  3m    flagger  Advance podinfo.test canary iteration 1/10
  Normal   Synced  3m    flagger  Advance podinfo.test canary iteration 2/10
  Normal   Synced  3m    flagger  Advance podinfo.test canary iteration 3/10
  Normal   Synced  3m    flagger  Halt podinfo.test advancement success rate 69.17% < 99%
  Normal   Synced  2m    flagger  Halt podinfo.test advancement success rate 61.39% < 99%
  Warning  Synced  2m    flagger  Rolling back podinfo.test failed checks threshold reached 2
  Warning  Synced  1m    flagger  Canary failed! Scaling down podinfo.test

Custom metrics

The analysis can be extended with Prometheus queries. The demo app is instrumented with Prometheus so you can create a custom check that will use the HTTP request duration histogram to validate the canary (green version).

Create a metric template and apply it on the cluster:

apiVersion: flagger.app/v1beta1
kind: MetricTemplate
metadata:
  name: not-found-percentage
  namespace: test
spec:
  provider:
    type: prometheus
    address: http://flagger-prometheus.flagger:9090
  query: |
    100 - sum(
        rate(
            http_request_duration_seconds_count{
              kubernetes_namespace="{{ namespace }}",
              kubernetes_pod_name=~"{{ target }}-[0-9a-zA-Z]+(-[0-9a-zA-Z]+)"
              status!="{{ interval }}"
            }[1m]
        )
    )
    /
    sum(
        rate(
            http_request_duration_seconds_count{
              kubernetes_namespace="{{ namespace }}",
              kubernetes_pod_name=~"{{ target }}-[0-9a-zA-Z]+(-[0-9a-zA-Z]+)"
            }[{{ interval }}]
        )
    ) * 100    

Edit the canary analysis and add the following metric:

  analysis:
    metrics:
      - name: "404s percentage"
        templateRef:
          name: not-found-percentage
        thresholdRange:
          max: 5
        interval: 1m

The above configuration validates the canary (green version) by checking if the HTTP 404 req/sec percentage is below 5 percent of the total traffic. If the 404s rate reaches the 5% threshold, then the rollout is rolled back.

Trigger a deployment by updating the container image:

kubectl -n test set image deployment/podinfo \
podinfod=ghcr.io/stefanprodan/podinfo:6.0.3

Generate 404s:

watch curl http://podinfo-canary.test:9898/status/400

Watch Flagger logs:

kubectl -n flagger logs deployment/flagger -f | jq .msg

New revision detected podinfo.test
Scaling up podinfo.test
Advance podinfo.test canary iteration 1/10
Halt podinfo.test advancement 404s percentage 6.20 > 5
Halt podinfo.test advancement 404s percentage 6.45 > 5
Rolling back podinfo.test failed checks threshold reached 2
Canary failed! Scaling down podinfo.test

If you have alerting configured, Flagger will send a notification with the reason why the canary failed.

Conformance Testing with Helm

Flagger comes with a testing service that can run Helm tests when configured as a pre-rollout webhook.

Deploy the Helm test runner in the kube-system namespace using the tiller service account:

helm repo add flagger https://flagger.app

helm upgrade -i flagger-helmtester flagger/loadtester \
--namespace=kube-system \
--set serviceAccountName=tiller

When deployed the Helm tester API will be available at http://flagger-helmtester.kube-system/.

Add a helm test pre-rollout hook to your chart:

  analysis:
    webhooks:
      - name: "conformance testing"
        type: pre-rollout
        url: http://flagger-helmtester.kube-system/
        timeout: 3m
        metadata:
          type: "helm"
          cmd: "test {{ .Release.Name }} --cleanup"

When the canary analysis starts, Flagger will call the pre-rollout webhooks. If the helm test fails, Flagger will retry until the analysis threshold is reached and the canary is rolled back.

For an in-depth look at the analysis process read the usage docs.

Last modified 2023-03-08: Switch examples from #general (cf25bb1)