Selenium Docker
The project is made possible by volunteer contributors who have put in thousands of hours of their own time, and made the source code freely available under the Apache License 2.0.
Docker images for Selenium Standalone Server Hub and Node configurations with Chrome and Firefox
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Images included:
- selenium/base: Base image which includes Java runtime and Selenium JAR file
- selenium/hub: Image for running a Selenium Grid Hub
- selenium/node-base: Base image for Selenium Grid Nodes which includes a virtual desktop environment and VNC support
- selenium/node-chrome: Selenium node with Chrome installed, needs to be connected to a Selenium Grid Hub
- selenium/node-firefox: Selenium node with Firefox installed, needs to be connected to a Selenium Grid Hub
- selenium/standalone-chrome: Selenium standalone with Chrome installed
- selenium/standalone-firefox: Selenium standalone with Firefox installed
- selenium/standalone-chrome-debug: Selenium standalone with Chrome installed and runs a VNC server
- selenium/standalone-firefox-debug: Selenium standalone with Firefox installed and runs a VNC server
- selenium/node-chrome-debug: Selenium node with Chrome installed and runs a VNC server, needs to be connected to a Selenium Grid Hub
- selenium/node-firefox-debug: Selenium node with Firefox installed and runs a VNC server, needs to be connected to a Selenium Grid Hub
Running the images
When executing docker run for an image with chrome browser please add volume mount -v /dev/shm:/dev/shm
to use the host's shared memory.
$ docker run -d -p 4444:4444 -v /dev/shm:/dev/shm selenium/standalone-chrome:2.53.0
This is a workaround to node-chrome crash in docker container issue: https://code.google.com/p/chromium/issues/detail?id=519952
Standalone Chrome and Firefox
$ docker run -d -p 4444:4444 selenium/standalone-chrome:2.53.0
# OR
$ docker run -d -p 4444:4444 selenium/standalone-firefox:2.53.0
Note: Only one standalone image can run on port 4444
at a time.
To inspect visually what the browser is doing use the standalone-chrome-debug
or standalone-firefox-debug
images. See Debugging section for details.
Selenium Grid Hub
$ docker run -d -p 4444:4444 --name selenium-hub selenium/hub:2.53.0
Chrome and Firefox Grid Nodes
$ docker run -d --link selenium-hub:hub selenium/node-chrome:2.53.0
$ docker run -d --link selenium-hub:hub selenium/node-firefox:2.53.0
JAVA_OPTS Java Environment Options
You can pass JAVA_OPTS
environment variable to java process.
$ docker run -d -p 4444:4444 -e JAVA_OPTS=-Xmx512m --name selenium-hub selenium/hub:2.53.0
SE_OPTS Selenium Configuration Options
You can pass SE_OPTS
variable with additional commandline parameters for starting a hub or a node.
$ docker run -d -p 4444:4444 -e SE_OPTS=-debug --name selenium-hub selenium/hub:2.53.0
Building the images
Ensure you have the ubuntu:16.04
base image downloaded, this step is optional since Docker takes care of downloading the parent base image automatically.
$ docker pull ubuntu:16.04
Clone the repo and from the project directory root you can build everything by running:
$ VERSION=local make build
If you need to configure environment variable in order to build the image (http proxy for instance), simply set an environment variable BUILD_ARGS
that contains the additional variables to pass to the docker context (this will only work with docker >= 1.9)
$ BUILD_ARGS="--build-arg http_proxy=http://acme:3128 --build-arg https_proxy=http://acme:3128" make build
Note: Omitting VERSION=local
will build the images with the current version number thus overwriting the images downloaded from Docker Hub.
Using the images
Example: Spawn a container for testing in Chrome:
$ docker run -d --name selenium-hub -p 4444:4444 selenium/hub:2.53.0
$ CH=$(docker run --rm --name=ch \
--link selenium-hub:hub -v /e2e/uploads:/e2e/uploads \
selenium/node-chrome:2.53.0)
Note: -v /e2e/uploads:/e2e/uploads
is optional in case you are testing browser uploads on your web app you will probably need to share a directory for this.
Example: Spawn a container for testing in Firefox:
This command line is the same as for Chrome. Remember that the Selenium running container is able to launch either Chrome or Firefox, the idea around having 2 separate containers, one for each browser is for convenience plus avoiding certain :focus
issues your web app may encounter during end-to-end test automation.
$ docker run -d --name selenium-hub -p 4444:4444 selenium/hub:2.53.0
$ FF=$(docker run --rm --name=fx \
--link selenium-hub:hub -v /e2e/uploads:/e2e/uploads \
selenium/node-firefox:2.53.0)
Note: Since a Docker container is not meant to preserve state and spawning a new one takes less than 3 seconds you will likely want to remove containers after each end-to-end test with --rm
command. You need to think of your Docker containers as single processes, not as running virtual machines, in case you are familiar with Vagrant.
Debugging
In the event you wish to visually see what the browser is doing you will want to run the debug
variant of node or standalone images (substitute a free port that you wish to connect to on VNC for ; 5900 is fine if it is free, but of course you can only run one node on that port):
$ docker run -d -P -p <port4VNC>:5900 --link selenium-hub:hub selenium/node-chrome-debug:2.53.0
$ docker run -d -P -p <port4VNC>:5900 --link selenium-hub:hub selenium/node-firefox-debug:2.53.0
e.g.:
$ docker run -d -P -p 5900:5900 --link selenium-hub:hub selenium/node-chrome-debug:2.53.0
$ docker run -d -P -p 5901:5900 --link selenium-hub:hub selenium/node-firefox-debug:2.53.0
to connect to the Chrome node on 5900 and the Firefox node on 5901 (assuming those node are free, and reachable).
And for standalone:
$ docker run -d -p 4444:4444 -p <port4VNC>:5900 selenium/standalone-chrome-debug:2.53.0
# OR
$ docker run -d -p 4444:4444 -p <port4VNC>:5900 selenium/standalone-firefox-debug:2.53.0
or
$ docker run -d -p 4444:4444 -p 5900:5900 selenium/standalone-chrome-debug:2.53.0
# OR
$ docker run -d -p 4444:4444 -p 5901:5900 selenium/standalone-firefox-debug:2.53.0
You can acquire the port that the VNC server is exposed to by running:
$ docker port <container-name|container-id> 5900
#=> 0.0.0.0:49338
In case you have RealVNC binary vnc
in your path, you can always take a look, view only to avoid messing around your tests with an unintended mouse click or keyboard interrupt:
$ ./bin/vncview 127.0.0.1:49160
If you are running Boot2Docker on OS X then you already have a VNC client built-in. You can connect by entering vnc://<boot2docker-ip>:49160
in Safari or Alfred.
When you are prompted for the password it is secret
. If you wish to change this then you should either change it in the /NodeBase/Dockerfile
and build the images yourself, or you can define a Docker image that derives from the posted ones which reconfigures it:
#FROM selenium/node-chrome-debug:2.53.0
#FROM selenium/node-firefox-debug:2.53.0
#Choose the FROM statement that works for you.
RUN x11vnc -storepasswd <your-password-here> /home/seluser/.vnc/passwd
Look around
$ docker images
#=>
REPOSITORY TAG IMAGE ID CREATED VIRTUAL SIZE
selenium/node-firefox 2.53.0 69f762d0d79e 29 minutes ago 552.1 MB
selenium/node-chrome 2.53.0 9dd73160660b 30 minutes ago 723.6 MB
selenium/node-base 2.53.0 1b7a0b7024b1 32 minutes ago 426.1 MB
selenium/hub 2.53.0 2570bbb98229 33 minutes ago 394.4 MB
selenium/base 2.53.0 33478d455dab 33 minutes ago 362.6 MB
ubuntu 16.04 0b7735b9290f 6 days ago 123.7 MB
Troubleshooting
All output is sent to stdout so it can be inspected by running:
$ docker logs -f <container-id|container-name>