In this tutorial you'll get a full tour through Keptn. Before we get started you'll get to know what you will learn while you walk yourself through this tutorial.
You'll find a time estimate until the end of this tutorial in the right top corner of your screen - this should give you guidance how much time is needed for each step.
In this tutorial, we are going to install Keptn on a Kubernetes cluster, along with Istio for traffic routing and ingress control.
The full setup that we are going to deploy is sketched in the following image.
Keptn can be installed on a variety of Kubernetes distributions. Please find a full compatibility matrix for supported Kubernetes versions here.
Please find tutorials how to set up your cluster here. For the best tutorial experience, please follow the sizing recommendations given in the tutorials.
Please make sure your environment matches these prerequisites:
Download the Istio command line tool by following the official instructions or by executing the following steps.
curl -L https://istio.io/downloadIstio | ISTIO_VERSION=1.12.1 sh -
Check the version of Istio that has been downloaded and execute the installer from the corresponding folder, e.g.:
./istio-1.12.1/bin/istioctl install
The installation of Istio should be finished within a couple of minutes.
This will install the Istio default profile with ["Istio core" "Istiod" "Ingress gateways"] components into the cluster. Proceed? (y/N) y
✔ Istio core installed
✔ Istiod installed
✔ Ingress gateways installed
✔ Installation complete
Every release of Keptn provides binaries for the Keptn CLI. These binaries are available for Linux, macOS, and Windows.
There are multiple options how to get the Keptn CLI on your machine.
curl -sL https://get.keptn.sh | KEPTN_VERSION=0.14.2 bash
This will download and install the Keptn CLI in the specified version automatically.brew install keptn
keptn
binary (e.g., keptn-0.14.2-amd64.exe
) in the unpacked directory and rename it to keptn
chmod +x keptn
), and move it to the desired destination (e.g. mv keptn /usr/local/bin/keptn
)Now, you should be able to run the Keptn CLI:
keptn --help
.\keptn.exe --help
To install the latest release of Keptn with full quality gate + continuous delivery capabilities in your Kubernetes cluster, execute the keptn install
command.
keptn install --endpoint-service-type=ClusterIP --use-case=continuous-delivery
By default Keptn installs into the keptn
namespace. Once the installation is complete we can verify the deployments:
kubectl get deployments -n keptn
Here is the output of the command:
NAME READY UP-TO-DATE AVAILABLE AGE
api-gateway-nginx 1/1 1 1 2m44s
api-service 1/1 1 1 2m44s
approval-service 1/1 1 1 2m44s
bridge 1/1 1 1 2m44s
configuration-service 1/1 1 1 2m44s
helm-service 1/1 1 1 2m44s
jmeter-service 1/1 1 1 2m44s
lighthouse-service 1/1 1 1 2m44s
litmus-service 1/1 1 1 2m44s
mongodb 1/1 1 1 2m44s
mongodb-datastore 1/1 1 1 2m44s
remediation-service 1/1 1 1 2m44s
shipyard-controller 1/1 1 1 2m44s
statistics-service 1/1 1 1 2m44s
We are using Istio for traffic routing and as an ingress to our cluster. To make the setup experience as smooth as possible we have provided some scripts for your convenience. If you want to run the Istio configuration yourself step by step, please take a look at the Keptn documentation.
The first step for our configuration automation for Istio is downloading the configuration bash script from Github:
curl -o configure-istio.sh https://raw.githubusercontent.com/keptn/examples/0.14.0/istio-configuration/configure-istio.sh
After that you need to make the file executable using the chmod
command.
chmod +x configure-istio.sh
Finally, let's run the configuration script to automatically create your Ingress resources.
./configure-istio.sh
With this script, you have created an Ingress based on the following manifest.
---
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
annotations:
kubernetes.io/ingress.class: istio
name: api-keptn-ingress
namespace: keptn
spec:
rules:
- host: <IP-ADDRESS>.nip.io
http:
paths:
- path: /
pathType: Prefix
backend:
service:
name: api-gateway-nginx
port:
number: 80
Please be aware, when using OpenShift 3.11, instead of using the above manifest, use the following one, as it uses an already deprecated apiVersion.
---
apiVersion: networking.k8s.io/v1beta1
kind: Ingress
metadata:
annotations:
kubernetes.io/ingress.class: istio
name: api-keptn-ingress
namespace: keptn
spec:
rules:
- host: <IP-ADDRESS>.nip.io
http:
paths:
- backend:
serviceName: api-gateway-nginx
servicePort: 80
In addition, the script has created a gateway resource for you so that the onboarded services are also available publicly.
---
apiVersion: networking.istio.io/v1alpha3
kind: Gateway
metadata:
name: public-gateway
namespace: istio-system
spec:
selector:
istio: ingressgateway
servers:
- port:
name: http
number: 80
protocol: HTTP
hosts:
- '*'
Finally, the script restarts the helm-service
pod of Keptn to fetch this new configuration.
In this section we are referring to the Linux/MacOS derivatives of the commands. If you are using a Windows host, please follow the official instructions.
First let's extract the information used to access the Keptn installation and store this for later use.
KEPTN_ENDPOINT=http://$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')/api
KEPTN_API_TOKEN=$(kubectl get secret keptn-api-token -n keptn -ojsonpath='{.data.keptn-api-token}' | base64 --decode)
KEPTN_BRIDGE_URL=http://$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')/bridge
Use this stored information and authenticate the CLI.
keptn auth --endpoint=$KEPTN_ENDPOINT --api-token=$KEPTN_API_TOKEN
That will give you:
Starting to authenticate
Successfully authenticated
If you want, you can go ahead and take a look at the Keptn API by navigating to the endpoint that is given via:
echo $KEPTN_ENDPOINT
A project in Keptn is the logical unit that can hold multiple (micro)services. Therefore, it is the starting point for each Keptn installation.
To get all files you need for this tutorial, please clone the example repo to your local machine.
git clone --branch 0.14.0 https://github.com/keptn/examples.git --single-branch
cd examples/onboarding-carts
Create a new project for your services using the keptn create project
command. In this example, the project is called sockshop. Before executing the following command, make sure you are in the examples/onboarding-carts
folder.
Recommended: Create a new project with Git upstream:
To configure a Git upstream for this tutorial, the Git user (--git-user
), an access token (--git-token
), and the remote URL (--git-remote-url
) are required. If a requirement is not met, go to the Keptn documentation where instructions for GitHub, GitLab, and Bitbucket are provided.
Let's define the variables before running the command:
GIT_USER=gitusername
GIT_TOKEN=gittoken
GIT_REMOTE_URL=remoteurl
Now let's create the project using the keptn create project
command.
keptn create project sockshop --shipyard=./shipyard.yaml --git-user=$GIT_USER --git-token=$GIT_TOKEN --git-remote-url=$GIT_REMOTE_URL
Alternatively: If you don't want to use a Git upstream, you can create a new project without it but please note that this is not the recommended way:
keptn create project sockshop --shipyard=./shipyard.yaml
For creating the project, the tutorial relies on a shipyard.yaml
file as shown below:
apiVersion: "spec.keptn.sh/0.2.0"
kind: "Shipyard"
metadata:
name: "shipyard-sockshop"
spec:
stages:
- name: "dev"
sequences:
- name: "delivery"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "test"
properties:
teststrategy: "functional"
- name: "evaluation"
- name: "release"
- name: "delivery-direct"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "release"
- name: "staging"
sequences:
- name: "delivery"
triggeredOn:
- event: "dev.delivery.finished"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "blue_green_service"
- name: "test"
properties:
teststrategy: "performance"
- name: "evaluation"
- name: "release"
- name: "rollback"
triggeredOn:
- event: "staging.delivery.finished"
selector:
match:
result: "fail"
tasks:
- name: "rollback"
- name: "delivery-direct"
triggeredOn:
- event: "dev.delivery-direct.finished"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "release"
- name: "production"
sequences:
- name: "delivery"
triggeredOn:
- event: "staging.delivery.finished"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "blue_green_service"
- name: "release"
- name: "rollback"
triggeredOn:
- event: "production.delivery.finished"
selector:
match:
result: "fail"
tasks:
- name: "rollback"
- name: "delivery-direct"
triggeredOn:
- event: "staging.delivery-direct.finished"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "release"
- name: "remediation"
triggeredOn:
- event: "production.remediation.finished"
selector:
match:
evaluation.result: "fail"
tasks:
- name: "get-action"
- name: "action"
- name: "evaluation"
triggeredAfter: "15m"
properties:
timeframe: "15m"
This shipyard contains three stages: dev, staging, and production. Later in the tutorial, deployments will be made in three corresponding Kubernetes namespaces: sockshop-dev
, sockshop-staging
, and sockshop-production
.
Let's take a look at the project that we have just created in the Keptn's Bridge. To access it, visit the URL contained in $KEPTN_BRIDGE_URL
using the command:
echo $KEPTN_BRIDGE_URL
You can view the Keptn Bridge credentials using the following commands:
echo Username: $(kubectl get secret -n keptn bridge-credentials -o jsonpath="{.data.BASIC_AUTH_USERNAME}" | base64 --decode)
echo Password: $(kubectl get secret -n keptn bridge-credentials -o jsonpath="{.data.BASIC_AUTH_PASSWORD}" | base64 --decode)
You will find the just created project in the bridge with all stages.
After creating the project, services can be created for our project.
keptn create service carts --project=sockshop
keptn add-resource --project=sockshop --service=carts --all-stages --resource=./carts.tgz --resourceUri=helm/carts.tgz
keptn add-resource --project=sockshop --stage=dev --service=carts --resource=jmeter/basiccheck.jmx --resourceUri=jmeter/basiccheck.jmx
keptn add-resource --project=sockshop --stage=staging --service=carts --resource=jmeter/load.jmx --resourceUri=jmeter/load.jmx
Note: You can adapt the tests in basiccheck.jmx
as well as load.jmx
for your service. However, you must not rename the files because there is a hardcoded dependency on these file names in the current implementation of Keptn's jmeter-service.Since the carts service requires a mongodb database, a second service needs to be created.
keptn create service carts-db --project=sockshop
keptn add-resource --project=sockshop --service=carts-db --all-stages --resource=./carts-db.tgz --resourceUri=helm/carts-db.tgz
Take a look in your Keptn's Bridge and see the newly created services.
After creating the services, a built artifact of each service can be deployed.
keptn trigger delivery --project=sockshop --service=carts-db --image=docker.io/mongo --tag=4.2.2 --sequence=delivery-direct
keptn trigger delivery --project=sockshop --service=carts --image=docker.io/keptnexamples/carts --tag=0.13.1
kubectl get pods --all-namespaces | grep carts-
sockshop-dev carts-77dfdc664b-25b74 1/1 Running 0 10m
sockshop-dev carts-db-54d9b6775-lmhf6 1/1 Running 0 13m
sockshop-production carts-db-54d9b6775-4hlwn 2/2 Running 0 12m
sockshop-production carts-primary-79bcc7c99f-bwdhg 2/2 Running 0 2m15s
sockshop-staging carts-db-54d9b6775-rm8rw 2/2 Running 0 12m
sockshop-staging carts-primary-79bcc7c99f-mbbgq 2/2 Running 0 7m24s
echo http://carts.sockshop-dev.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-staging.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-production.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
Now that the service is running in all three stages, let us generate some traffic so we have some data we can base the evaluation on.
Change the directory to examples/load-generation/cartsloadgen
. If you are still in the onboarding-carts directory, use the following command or change it accordingly:
cd ../load-generation/cartsloadgen
Now let us deploy a pod that will generate some traffic for all three stages of our demo environment.
kubectl apply -f deploy/cartsloadgen-base.yaml
The output will look similar to this.
namespace/loadgen created
deployment.extensions/cartsloadgen created
Optionally, you can verify that the load generator has been started.
kubectl get pods -n loadgen
NAME READY STATUS RESTARTS AGE
cartsloadgen-5dc47c85cf-kqggb 1/1 Running 0 117s
After creating a project and service, you can set up Prometheus monitoring and configure scrape jobs using the Keptn CLI.
Keptn doesn't install or manage Prometheus and its components. Users need to install Prometheus and Prometheus Alert manager as a prerequisite.
kubectl create namespace monitoring
helm repo add prometheus-community https://prometheus-community.github.io/helm-charts
helm install prometheus prometheus-community/prometheus --namespace monitoring --wait
helm
:helm upgrade --install -n keptn prometheus-service https://github.com/keptn-contrib/prometheus-service/releases/download/0.8.0/prometheus-service-0.8.0.tgz --reuse-values
kubectl -n monitoring apply -f https://raw.githubusercontent.com/keptn-contrib/prometheus-service/0.8.0/deploy/role.yaml
keptn configure monitoring prometheus --project=sockshop --service=carts
kubectl port-forward svc/prometheus-server 8080:80 -n monitoring
Prometheus is then available on localhost:8080/targets where you can see the targets for the service:
We are going to add the configuration for our SLIs in terms of an SLI file that maps the name of an indicator to a PromQL statement how to actually query it. Please make sure you are in the correct folder examples/onboarding-carts
.
During the evaluation of a quality gate, the Prometheus provider is required that is implemented by an internal Keptn service, the prometheus-service. This service will fetch the values for the SLIs that are referenced in an SLO configuration file.
We are going to add the configuration for our SLIs in terms of an SLI file that maps the name of an indicator to a PromQL statement how to actually query it. Please make sure you are in the correct folder examples/onboarding-carts
.
keptn add-resource --project=sockshop --stage=staging --service=carts --resource=sli-config-prometheus.yaml --resourceUri=prometheus/sli.yaml
For your information, the contents of the file are as follows:
---
spec_version: '1.0'
indicators:
response_time_p50: histogram_quantile(0.5, sum by(le) (rate(http_response_time_milliseconds_bucket{handler="ItemsController.addToCart",job="$SERVICE-$PROJECT-$STAGE-canary"}[$DURATION_SECONDS])))
response_time_p90: histogram_quantile(0.9, sum by(le) (rate(http_response_time_milliseconds_bucket{handler="ItemsController.addToCart",job="$SERVICE-$PROJECT-$STAGE-canary"}[$DURATION_SECONDS])))
response_time_p95: histogram_quantile(0.95, sum by(le) (rate(http_response_time_milliseconds_bucket{handler="ItemsController.addToCart",job="$SERVICE-$PROJECT-$STAGE-canary"}[$DURATION_SECONDS])))
Keptn requires a performance specification for the quality gate. This specification is described in a file called slo.yaml
, which specifies a Service Level Objective (SLO) that should be met by a service. To learn more about the slo.yaml file, go to Specifications for Site Reliability Engineering with Keptn.
To activate the quality gates for the carts service, navigate to the examples/onboarding-carts
folder and upload the slo-quality-gates.yaml
file using the add-resource command:
keptn add-resource --project=sockshop --stage=staging --service=carts --resource=slo-quality-gates.yaml --resourceUri=slo.yaml
This will add the SLO.yaml
file to your Keptn - which is the declarative definition of a quality gate. Let's take a look at the file contents:
---
spec_version: "1.0"
comparison:
aggregate_function: "avg"
compare_with: "single_result"
include_result_with_score: "pass"
number_of_comparison_results: 1
filter:
objectives:
- sli: "response_time_p95"
key_sli: false
pass: # pass if (relative change <= 10% AND absolute value is < 600ms)
- criteria:
- "<=+10%" # relative values require a prefixed sign (plus or minus)
- "<600" # absolute values only require a logical operator
warning: # if the response time is below 800ms, the result should be a warning
- criteria:
- "<=800"
weight: 1
total_score:
pass: "90%"
warning: "75%"
You can take a look at the currently deployed version of our "carts" microservice before we deploy the next build of our microservice.
echo http://carts.sockshop-dev.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-staging.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-production.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
http://carts.sockshop-production.YOUR.DOMAIN
for viewing the carts service in your production environment and you should receive an output similar to the following:keptn trigger delivery --project=sockshop --service=carts --image=docker.io/keptnexamples/carts --tag=0.13.2
dev
and staging
environments by opening a browser for both environments. This may take 5 to 10 minutes. Get the URLs with these commands:echo http://carts.sockshop-dev.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-staging.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
After triggering the deployment of the carts service in version v0.13.2, the following status is expected:
echo http://carts.sockshop-dev.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
echo http://carts.sockshop-production.$(kubectl -n keptn get ingress api-keptn-ingress -ojsonpath='{.spec.rules[0].host}')
Take a look in the Keptn's bridge and navigate to the last deployment. You will find a quality gate evaluation that got a fail
result when evaluation the SLOs of our carts microservice. Thanks to this quality gate the slow build won't be promoted to production but instead automatically rolled back.
To verify, the Keptn's Bridge shows the deployment of v0.13.2 and then the failed test in staging including the roll-back.
keptn trigger delivery --project=sockshop --service=carts --image=docker.io/keptnexamples/carts --tag=0.13.3
Version: v3
.kubectl get deployments -n sockshop-production
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
carts-db 1 1 1 1 63m
carts-primary 1 1 1 1 98m
kubectl describe deployment carts-primary -n sockshop-production
...
Pod Template:
Labels: app=carts-primary
Containers:
carts:
Image: docker.io/keptnexamples/carts:0.13.3
Next, you will learn how to use the capabilities of Keptn to provide self-healing for an application without modifying code. In the next part, we configure Keptn to scale up the pods of an application if the application undergoes heavy CPU saturation.
Add the prepared SLO file for self-healing to the production stage using the Keptn CLIs add-resource command:
keptn add-resource --project=sockshop --stage=production --service=carts --resource=slo-self-healing-prometheus.yaml --resourceUri=slo.yaml
Note: The SLO file contains an objective for response_time_p90.
Configure Prometheus with the Keptn CLI (this configures the Alert Manager based on the slo.yaml file):
keptn configure monitoring prometheus --project=sockshop --service=carts
Configure remediation actions for up-scaling based on Prometheus alerts:
keptn add-resource --project=sockshop --stage=production --service=carts --resource=remediation.yaml --resourceUri=remediation.yaml
This is the content of the file that has being added:
apiVersion: spec.keptn.sh/0.1.4
kind: Remediation
metadata:
name: carts-remediation
spec:
remediations:
- problemType: Response time degradation
actionsOnOpen:
- action: scaling
name: scaling
description: Scale up
value: 1
- problemType: response_time_p90
actionsOnOpen:
- action: scaling
name: scaling
description: Scale up
value: 1
To simulate user traffic that is causing an unhealthy behavior in the carts service, please execute the following script. This will add special items into the shopping cart that cause some extensive calculation.
cd ../load-generation/cartsloadgen/deploy
kubectl apply -f cartsloadgen-faulty.yaml
kubectl port-forward svc/prometheus-server 8080:80 -n monitoring
histogram_quantile(0.9, sum by(le) (rate(http_response_time_milliseconds_bucket{job="carts-sockshop-production-primary"}[3m])))
carts
service in the sockshop-production
environment.After approximately 10-15 minutes, the Alert Manager will send out an alert since the service level objective is not met anymore.
To verify that an alert was fired, select the Alerts view where you should see that the alert response_time_p90
is in the firing
state:
After receiving the alert notification, the prometheus-service will translate it into a Keptn CloudEvent. This event will eventually be received by the remediation-service that will look for a remediation action specified for this type of problem and, if found, execute it.
In this tutorial, the number of pods will be increased to remediate the issue of the response time increase.
echo -e "{\"type\": \"sh.keptn.event.production.remediation.triggered\",\"specversion\":\"1.0\",\"source\":\"https:\/\/github.com\/keptn\/keptn\/prometheus-service\",\"id\": \"f2b878d3-03c0-4e8f-bc3f-454bc1b3d79d\", \"time\": \"2019-06-07T07:02:15.64489Z\", \"contenttype\": \"application\/json\", \"data\": {\"project\": \"sockshop\",\"stage\": \"production\",\"service\": \"carts\",\"problem\": { \"problemTitle\": \"response_time_p90\",\"rootCause\": \"Response time degradation\"}}}" > remediation_trigger.json | keptn send event -f remediation_trigger.json
This command sends the following event to Keptn to:
{
"type": "sh.keptn.event.production.remediation.triggered",
"specversion": "1.0",
"source": "https://github.com/keptn/keptn/prometheus-service",
"id": "f2b878d3-03c0-4e8f-bc3f-454bc1b3d79d",
"time": "2019-06-07T07:02:15.64489Z",
"contenttype": "application/json",
"data": {
"project": "sockshop",
"stage": "production",
"service": "carts",
"problem": {
"problemTitle": "response_time_p90",
"rootCause": "Response time degradation"
}
}
}
kubectl get deployments -n sockshop-production
You can see that the carts-primary
deployment is now served by two pods:NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
carts-db 1 1 1 1 37m
carts-primary 2 2 2 2 32m
kubectl get pods -n sockshop-production
NAME READY STATUS RESTARTS AGE
carts-db-57cd95557b-r6cg8 1/1 Running 0 38m
carts-primary-7c96d87df9-75pg7 2/2 Running 0 33m
carts-primary-7c96d87df9-78fh2 2/2 Running 0 5m
Thanks for taking a full tour through Keptn!
Although Keptn has even more to offer that should have given you a good overview what you can do with Keptn.
shipyard
fileapiVersion: "spec.keptn.sh/0.2.0"
kind: "Shipyard"
metadata:
name: "shipyard-sockshop"
spec:
stages:
- name: "dev"
sequences:
- name: "artifact-delivery"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "test"
properties:
teststrategy: "functional"
- name: "evaluation"
- name: "release"
- name: "artifact-delivery-db"
tasks:
- name: "deployment"
properties:
deploymentstrategy: "direct"
- name: "release"
...
slo
file---
spec_version: "1.0"
comparison:
aggregate_function: "avg"
compare_with: "single_result"
include_result_with_score: "pass"
number_of_comparison_results: 1
filter:
objectives:
- sli: "response_time_p95"
key_sli: false
pass: # pass if (relative change <= 10% AND absolute value is < 600ms)
- criteria:
- "<=+10%" # relative values require a prefixed sign (plus or minus)
- "<600" # absolute values only require a logical operator
warning: # if the response time is below 800ms, the result should be a warning
- criteria:
- "<=800"
weight: 1
total_score:
pass: "90%"
warning: "75%"
Keptn can be easily extended with external tools such as notification tools, other SLI providers, bots to interact with Keptn, etc.
While we do not cover additional integrations in this tutorial, please feel fee to take a look at our integration repositories:
Please visit us in our Keptn Slack and tell us how you like Keptn and this tutorial! We are happy to hear your thoughts & suggestions!
Also, make sure to follow us on Twitter to get the latest news on Keptn, our tutorials and newest releases!