#web-driver #server #xenon #hub #session #proxy #selenium

app xenon-webdriver

Xenon is a WebDriver proxy similar to Selenium Server

3 releases

0.4.2 Jun 30, 2022
0.4.1 Nov 9, 2020
0.4.0 Nov 9, 2020

#4 in #selenium

MIT license

70KB
1.5K SLoC

Crates.io Build Status

Xenon WebDriver

Xenon is a WebDriver proxy, for running multiple WebDriver sessions through a single hub.

This makes it effectively a drop-in alternative to Selenium Server (including standalone or grid).

Purpose

To build a leaner, more efficient tool for managing multiple browsers, WebDriver instances, and WebDriver sessions, that uses minimal system resources (CPU and memory) and stays out of the way. Your test should operate exactly as if you were pointing directly at a single webdriver instance running on a specific port, without the complexity of having to manage either a Selenium server or multiple WebDriver instances.

Why not just use Selenium Server?

Selenium server is a fantastic tool and performs its job very well, however it is written in Java and consumes a lot of system resources.

By contrast, Xenon is written in Rust and is extremely fast and light-weight. It is built on top of async-await, tokio, and hyper.

Status

Xenon currently works as a drop-in replacement for Selenium Standalone 3.x in most cases, although 100% feature parity with Selenium is not a goal of Xenon.

It may work with Selenium 4.x but has not been tested.

Grid-like functionality is also supported (see "Running multiple nodes" below).

Xenon is able to run the full thirtyfour (Rust WebDriver client) test suite using 10 Chrome instances concurrently, with no modification required to the test code.

Getting Started

Set up configuration in xenon.yml

First, set up the YAML config file (xenon.yml) for example like this:

---
browsers:
  - name: chrome
    driver_path: /usr/local/bin/chromedriver
    sessions_per_driver: 1
    max_sessions: 10
ports:
  - "40001-41000"

This tells it to start /usr/local/bin/chromedriver for any new session where browserName is chrome. We will start a new chromedriver instance for every session. No more than 10 sessions can be active at any one time. The port range defines the ports that can be used for chromedriver.

You can add additional browsers each with different session limits. You can even add multiple chromedriver configs as long as each one has a different name (this will match against the browserName setting of your desired capabilities arguments in your WebDriver client).

Download and install Xenon

You can install the binary directly from crates.io like this:

cargo install xenon-webdriver

This will be installed for the current user.

Alternatively you can build from source by cloning this repo and running:

cargo build --release

If building from source, the binary will be at ./target/release/xenon-webdriver.

Run Xenon

Now you can just start Xenon with no arguments. This assumes you have the xenon-webdriver binary in the same directory as xenon.yml.

./xenon-webdriver

You should see something like this:

[2020-05-23T13:55:34Z DEBUG xenon::server] Config loaded:
    XenonConfig {
        browsers: [
            BrowserConfig {
                name: "chrome",
                version: None,
                os: None,
                driver_path: "/usr/local/bin/chromedriver",
                sessions_per_driver: 1,
                max_sessions: 10,
            },
        ],
        ports: [
            "40001-41000",
        ],
    }
[2020-05-23T13:55:34Z INFO  xenon::server] Server running at 127.0.0.1:4444

You can now run your selenium/WebDriver tests and point them at 127.0.0.1:4444 just as you normally would. Xenon also optionally supports running at 127.0.0.1:4444/wd/hub for compatibility with tests that are set up to use selenium hub.

Running multiple nodes (i.e. Grid functionality)

Each Xenon server can act as a hub, node, or standalone server (or all of these at once). Another way to say this is that each Xenon server can support local browsers as well as defer to remote nodes (other Xenon servers) that can provide additional browsers. To use a Xenon server as a node, we just add that server's URL under the nodes section in the config for the server that will act as the hub, like this:

"Hub" server configuration:

---
nodes:
  - name: node1
    url: localhost:8888

NOTE: The hub could also specify browsers: and ports: if you want to also run local browsers off the same hub.

The "node" server configuration is the same as the standalone configuration (see above).

However, this hub configuration assumes the node will be running on port 8888, so you would start the node like this:

./xenon-webdriver --port 8888

The node does not actually know it is serving requests from another Xenon server. Since Xenon behaves as a WebDriver proxy, we can just forward requests to any other Xenon server and it "just works". There is one piece of information we need from the "node" and that is the list of browsers it provides in its configuration. This is requested by the hub automatically when it first starts up. The hub will poll the /node/config endpoint of each node every 60 seconds until a successful response is received. This allows the servers to be started in any order.

In summary, each Xenon server can provide local or remote browsers, or both. A "local" browser is where this server takes care of starting each WebDriver instance (chromedriver, geckodriver etc) and talks to it directly. A "remote" browser is just a "local" browser running on another Xenon server.

Running under Xvfb for "headless" operation (Linux only)

You can run Xenon under Xvfb which creates a new X server and runs the browser sessions there instead, so that you don't end up with your mouse and keyboard inputs interfering with tests.

To do this, just install Xvfb using your distro's package manager and then run:

xvfb-run --server-args="-screen 0 1024x768x24" ./xenon

VNC output

If you run Xvfb (as above) you can also get a live view by running a VNC server on the Xvfb display.

https://stackoverflow.com/questions/12050021/how-to-make-xvfb-display-visible

Planned features

  • Support for forwarding requests from one Xenon server to another, including across a network.
  • Docker and Docker Compose

LICENSE

This work is licensed under MIT.

SPDX-License-Identifier: MIT

Dependencies

~14–25MB
~340K SLoC