cri-o/vendor/k8s.io/kubernetes/examples/selenium/README.md

## Selenium on Kubernetes

Selenium is a browser automation tool used primarily for testing web applications. However when Selenium is used in a CI pipeline to test applications, there is often contention around the use of Selenium resources. This example shows you how to deploy Selenium to Kubernetes in a scalable fashion.

### Prerequisites

This example assumes you have a working Kubernetes cluster and a properly configured kubectl client. See the [Getting Started Guides](../../docs/getting-started-guides/) for details.

Google Container Engine is also a quick way to get Kubernetes up and running: https://cloud.google.com/container-engine/

Your cluster must have 4 CPU and 6 GB of RAM to complete the example up to the scaling portion.

### Deploy Selenium Grid Hub:

We will be using Selenium Grid Hub to make our Selenium install scalable via a master/worker model. The Selenium Hub is the master, and the Selenium Nodes are the workers(not to be confused with Kubernetes nodes). We only need one hub, but we're using a replication controller to ensure that the hub is always running:

```console
kubectl create --filename=examples/selenium/selenium-hub-rc.yaml
```

The Selenium Nodes will need to know how to get to the Hub, let's create a service for the nodes to connect to.

```console
kubectl create --filename=examples/selenium/selenium-hub-svc.yaml
```

### Verify Selenium Hub Deployment

Let's verify our deployment of Selenium hub by connecting to the web console.

#### Kubernetes Nodes Reachable

If your Kubernetes nodes are reachable from your network, you can verify the hub by hitting it on the nodeport. You can retrieve the nodeport by typing `kubectl describe svc selenium-hub`, however the snippet below automates that by using kubectl's template functionality:

```console
export NODEPORT=`kubectl get svc --selector='app=selenium-hub' --output=template --template="{{ with index .items 0}}{{with index .spec.ports 0 }}{{.nodePort}}{{end}}{{end}}"`
export NODE=`kubectl get nodes --output=template --template="{{with index .items 0 }}{{.metadata.name}}{{end}}"`

curl http://$NODE:$NODEPORT
```

#### Kubernetes Nodes Unreachable

If you cannot reach your Kubernetes nodes from your network, you can proxy via kubectl.

```console
export PODNAME=`kubectl get pods --selector="app=selenium-hub" --output=template --template="{{with index .items 0}}{{.metadata.name}}{{end}}"`
kubectl port-forward --pod=$PODNAME 4444:4444
```

In a separate terminal, you can now check the status.

```console
curl http://localhost:4444
```

#### Using Google Container Engine

If you are using Google Container Engine, you can expose your hub via the internet. This is a bad idea for many reasons, but you can do it as follows:

```console
kubectl expose rc selenium-hub --name=selenium-hub-external --labels="app=selenium-hub,external=true" --create-external-load-balancer=true
```

Then wait a few minutes, eventually your new `selenium-hub-external` service will be assigned a load balanced IP from gcloud. Once `kubectl get svc selenium-hub-external` shows two IPs, run this snippet.

```console
export INTERNET_IP=`kubectl get svc --selector="app=selenium-hub,external=true" --output=template --template="{{with index .items 0}}{{with index .status.loadBalancer.ingress 0}}{{.ip}}{{end}}{{end}}"`

curl http://$INTERNET_IP:4444/
```

You should now be able to hit `$INTERNET_IP` via your web browser, and so can everyone else on the Internet!

### Deploy Firefox and Chrome Nodes:

Now that the Hub is up, we can deploy workers.

This will deploy 2 Chrome nodes.

```console
kubectl create --file=examples/selenium/selenium-node-chrome-rc.yaml
```

And 2 Firefox nodes to match.

```console
kubectl create --file=examples/selenium/selenium-node-firefox-rc.yaml
```

Once the pods start, you will see them show up in the Selenium Hub interface.

### Run a Selenium Job

Let's run a quick Selenium job to validate our setup.

#### Setup Python Environment

First, we need to start a python container that we can attach to.

```console
kubectl run selenium-python --image=google/python-hello
```

Next, we need to get inside this container.

```console
export PODNAME=`kubectl get pods --selector="run=selenium-python" --output=template --template="{{with index .items 0}}{{.metadata.name}}{{end}}"`
kubectl exec --stdin=true --tty=true $PODNAME bash
```

Once inside, we need to install the Selenium library

```console
pip install selenium
```

#### Run Selenium Job with Python

We're all set up, start the python interpreter.

```console
python
```

And paste in the contents of selenium-test.py.

```python
from selenium import webdriver
from selenium.webdriver.common.desired_capabilities import DesiredCapabilities

def check_browser(browser):
  driver = webdriver.Remote(
    command_executor='http://selenium-hub:4444/wd/hub',
    desired_capabilities=getattr(DesiredCapabilities, browser)
  )
  driver.get("http://google.com")
  assert "google" in driver.page_source
  driver.close()
  print("Browser %s checks out!" % browser)


check_browser("FIREFOX")
check_browser("CHROME")
```

You should get

```
>>> check_browser("FIREFOX")
Browser FIREFOX checks out!
>>> check_browser("CHROME")
Browser CHROME checks out!
```

Congratulations, your Selenium Hub is up, with Firefox and Chrome nodes!

### Scale your Firefox and Chrome nodes.

If you need more Firefox or Chrome nodes, your hardware is the limit:

```console
kubectl scale rc selenium-node-firefox --replicas=10
kubectl scale rc selenium-node-chrome --replicas=10
```

You now have 10 Firefox and 10 Chrome nodes, happy Seleniuming!

### Debugging

Sometimes it is necessary to check on a hung test. Each pod is running VNC. To check on one of the browser nodes via VNC, it's recommended that you proxy, since we don't want to expose a service for every pod, and the containers have a weak VNC password. Replace POD_NAME with the name of the pod you want to connect to.

```console
kubectl port-forward --pod=POD_NAME 5900:5900
```

Then connect to localhost:5900 with your VNC client using the password "secret"

Enjoy your scalable Selenium Grid!

Adapted from: https://github.com/SeleniumHQ/docker-selenium

### Teardown

To remove all created resources, run the following:

```console
kubectl delete rc selenium-hub
kubectl delete rc selenium-node-chrome
kubectl delete rc selenium-node-firefox
kubectl delete deployment selenium-python
kubectl delete svc selenium-hub
kubectl delete svc selenium-hub-external
```


<!-- BEGIN MUNGE: GENERATED_ANALYTICS -->
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Switch to github.com/golang/dep for vendoring Signed-off-by: Mrunal Patel <mrunalp@gmail.com> 2017-02-01 00:45:59 +00:00			`## Selenium on Kubernetes`

			`Selenium is a browser automation tool used primarily for testing web applications. However when Selenium is used in a CI pipeline to test applications, there is often contention around the use of Selenium resources. This example shows you how to deploy Selenium to Kubernetes in a scalable fashion.`

			`### Prerequisites`

			`This example assumes you have a working Kubernetes cluster and a properly configured kubectl client. See the [Getting Started Guides](../../docs/getting-started-guides/) for details.`

			`Google Container Engine is also a quick way to get Kubernetes up and running: https://cloud.google.com/container-engine/`

			`Your cluster must have 4 CPU and 6 GB of RAM to complete the example up to the scaling portion.`

			`### Deploy Selenium Grid Hub:`

			`We will be using Selenium Grid Hub to make our Selenium install scalable via a master/worker model. The Selenium Hub is the master, and the Selenium Nodes are the workers(not to be confused with Kubernetes nodes). We only need one hub, but we're using a replication controller to ensure that the hub is always running:`

			```console
			`kubectl create --filename=examples/selenium/selenium-hub-rc.yaml`
			```

			`The Selenium Nodes will need to know how to get to the Hub, let's create a service for the nodes to connect to.`

			```console
			`kubectl create --filename=examples/selenium/selenium-hub-svc.yaml`
			```

			`### Verify Selenium Hub Deployment`

			`Let's verify our deployment of Selenium hub by connecting to the web console.`

			`#### Kubernetes Nodes Reachable`

			If your Kubernetes nodes are reachable from your network, you can verify the hub by hitting it on the nodeport. You can retrieve the nodeport by typing `kubectl describe svc selenium-hub`, however the snippet below automates that by using kubectl's template functionality:

			```console
			export NODEPORT=`kubectl get svc --selector='app=selenium-hub' --output=template --template="{{ with index .items 0}}{{with index .spec.ports 0 }}{{.nodePort}}{{end}}{{end}}"`
			export NODE=`kubectl get nodes --output=template --template="{{with index .items 0 }}{{.metadata.name}}{{end}}"`

			`curl http://$NODE:$NODEPORT`
			```

			`#### Kubernetes Nodes Unreachable`

			`If you cannot reach your Kubernetes nodes from your network, you can proxy via kubectl.`

			```console
			export PODNAME=`kubectl get pods --selector="app=selenium-hub" --output=template --template="{{with index .items 0}}{{.metadata.name}}{{end}}"`
			`kubectl port-forward --pod=$PODNAME 4444:4444`
			```

			`In a separate terminal, you can now check the status.`

			```console
			`curl http://localhost:4444`
			```

			`#### Using Google Container Engine`

			`If you are using Google Container Engine, you can expose your hub via the internet. This is a bad idea for many reasons, but you can do it as follows:`

			```console
			`kubectl expose rc selenium-hub --name=selenium-hub-external --labels="app=selenium-hub,external=true" --create-external-load-balancer=true`
			```

			Then wait a few minutes, eventually your new `selenium-hub-external` service will be assigned a load balanced IP from gcloud. Once `kubectl get svc selenium-hub-external` shows two IPs, run this snippet.

			```console
			export INTERNET_IP=`kubectl get svc --selector="app=selenium-hub,external=true" --output=template --template="{{with index .items 0}}{{with index .status.loadBalancer.ingress 0}}{{.ip}}{{end}}{{end}}"`

			`curl http://$INTERNET_IP:4444/`
			```

			You should now be able to hit `$INTERNET_IP` via your web browser, and so can everyone else on the Internet!

			`### Deploy Firefox and Chrome Nodes:`

			`Now that the Hub is up, we can deploy workers.`

			`This will deploy 2 Chrome nodes.`

			```console
			`kubectl create --file=examples/selenium/selenium-node-chrome-rc.yaml`
			```

			`And 2 Firefox nodes to match.`

			```console
			`kubectl create --file=examples/selenium/selenium-node-firefox-rc.yaml`
			```

			`Once the pods start, you will see them show up in the Selenium Hub interface.`

			`### Run a Selenium Job`

			`Let's run a quick Selenium job to validate our setup.`

			`#### Setup Python Environment`

			`First, we need to start a python container that we can attach to.`

			```console
			`kubectl run selenium-python --image=google/python-hello`
			```

			`Next, we need to get inside this container.`

			```console
			export PODNAME=`kubectl get pods --selector="run=selenium-python" --output=template --template="{{with index .items 0}}{{.metadata.name}}{{end}}"`
			`kubectl exec --stdin=true --tty=true $PODNAME bash`
			```

			`Once inside, we need to install the Selenium library`

			```console
			`pip install selenium`
			```

			`#### Run Selenium Job with Python`

			`We're all set up, start the python interpreter.`

			```console
			`python`
			```

			`And paste in the contents of selenium-test.py.`

			```python
			`from selenium import webdriver`
			`from selenium.webdriver.common.desired_capabilities import DesiredCapabilities`

			`def check_browser(browser):`
			`driver = webdriver.Remote(`
			`command_executor='http://selenium-hub:4444/wd/hub',`
			`desired_capabilities=getattr(DesiredCapabilities, browser)`
			`)`
			`driver.get("http://google.com")`
			`assert "google" in driver.page_source`
			`driver.close()`
			`print("Browser %s checks out!" % browser)`


			`check_browser("FIREFOX")`
			`check_browser("CHROME")`
			```

			`You should get`

			```
			`>>> check_browser("FIREFOX")`
			`Browser FIREFOX checks out!`
			`>>> check_browser("CHROME")`
			`Browser CHROME checks out!`
			```

			`Congratulations, your Selenium Hub is up, with Firefox and Chrome nodes!`

			`### Scale your Firefox and Chrome nodes.`

			`If you need more Firefox or Chrome nodes, your hardware is the limit:`

			```console
			`kubectl scale rc selenium-node-firefox --replicas=10`
			`kubectl scale rc selenium-node-chrome --replicas=10`
			```

			`You now have 10 Firefox and 10 Chrome nodes, happy Seleniuming!`

			`### Debugging`

			`Sometimes it is necessary to check on a hung test. Each pod is running VNC. To check on one of the browser nodes via VNC, it's recommended that you proxy, since we don't want to expose a service for every pod, and the containers have a weak VNC password. Replace POD_NAME with the name of the pod you want to connect to.`

			```console
			`kubectl port-forward --pod=POD_NAME 5900:5900`
			```

			`Then connect to localhost:5900 with your VNC client using the password "secret"`

			`Enjoy your scalable Selenium Grid!`

			`Adapted from: https://github.com/SeleniumHQ/docker-selenium`

			`### Teardown`

			`To remove all created resources, run the following:`

			```console
			`kubectl delete rc selenium-hub`
			`kubectl delete rc selenium-node-chrome`
			`kubectl delete rc selenium-node-firefox`
			`kubectl delete deployment selenium-python`
			`kubectl delete svc selenium-hub`
			`kubectl delete svc selenium-hub-external`
			```


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