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Getting started

If you are new to Selenium, we have a few resources that can help you get up to speed right away.

Selenium supports automation of all the major browsers in the market through the use of WebDriver. WebDriver is an API and protocol that defines a language-neutral interface for controlling the behaviour of web browsers. Each browser is backed by a specific WebDriver implementation, called a driver. The driver is the component responsible for delegating down to the browser, and handles communication to and from Selenium and the browser.

This separation is part of a conscious effort to have browser vendors take responsibility for the implementation for their browsers. Selenium makes use of these third party drivers where possible, but also provides its own drivers maintained by the project for the cases when this is not a reality.

The Selenium framework ties all of these pieces together through a user-facing interface that enables the different browser backends to be used transparently, enabling cross-browser and cross-platform automation.

Selenium setup is quite different from the setup of other commercial tools. Before you can start writing Selenium code, you have to install the language bindings libraries for your language of choice, the browser you want to use, and the driver for that browser.

Follow the links below to get up and going with Selenium WebDriver.

If you wish to start with a low-code/record and playback tool, please check Selenium IDE

Once you get things working, if you want to scale up your tests, check out the Selenium Grid.

1 - Install a Selenium library

Setting up the Selenium library for your favourite programming language.

First you need to install the Selenium bindings for your automation project. The installation process for libraries depends on the language you choose to use. Make sure you check the Selenium downloads page to make sure you are using the latest version.

Requirements by language

View the minimum supported Java version here.

Installation of Selenium libraries for Java is accomplished using a build tool.

Maven

Specify the dependency in the project’s pom.xml file:

        <dependency>
            <groupId>org.seleniumhq.selenium</groupId>
            <artifactId>selenium-java</artifactId>
            <version>4.9.1</version>
        </dependency>

Gradle

Specify the dependency in the project build.gradle file as testImplementation:

    testImplementation 'org.seleniumhq.selenium:selenium-java:4.9.1'

The minimum supported Python version for each Selenium version can be found in Supported Python Versions on PyPi

There are a couple different ways to install Selenium.

Pip

pip install selenium

Download

Alternatively you can download the PyPI source archive (selenium-x.x.x.tar.gz) and install it using setup.py:

python setup.py install

Require in project

To use it in a project, add it to the requirements.txt file:

selenium==4.9.1

A list of all supported frameworks for each version of Selenium is available on Nuget

There are a few options for installing Selenium.

Packet Manager

Install-Package Selenium.WebDriver

.NET CLI

dotnet add package Selenium.WebDriver

CSProj

in the project’s csproj file, specify the dependency as a PackageReference in ItemGroup:

      <PackageReference Include="Selenium.WebDriver" Version="4.9.0" />

Additional considerations

Further items of note for using Visual Studio Code (vscode) and C#

Install the compatible .NET SDK as per the section above. Also install the vscode extensions (Ctrl-Shift-X) for C# and NuGet. Follow the instruction here to create and run the “Hello World” console project using C#. You may also create a NUnit starter project using the command line dotnet new NUnit. Make sure the file %appdata%\NuGet\nuget.config is configured properly as some developers reported that it will be empty due to some issues. If nuget.config is empty, or not configured properly, then .NET builds will fail for Selenium Projects. Add the following section to the file nuget.config if it is empty:

<configuration>
  <packageSources>
    <add key="nuget.org" value="https://api.nuget.org/v3/index.json" protocolVersion="3" />
    <add key="nuget.org" value="https://www.nuget.org/api/v2/" />   
  </packageSources>
...

For more info about nuget.config click here. You may have to customize nuget.config to meet you needs.

Now, go back to vscode, press Ctrl-Shift-P, and type “NuGet Add Package”, and enter the required Selenium packages such as Selenium.WebDriver. Press Enter and select the version. Now you can use the examples in the documentation related to C# with vscode.

You can see the minimum required version of Ruby for any given Selenium version on rubygems.org

Selenium can be installed two different ways.

Install manually

gem install selenium-webdriver

Add to project’s gemfile

gem 'selenium-webdriver', '= 4.9.1'

You can find the minimum required version of Node for any given version of Selenium in the Node Support Policy section on npmjs

Selenium is typically installed using npm.

Install locally

npm install selenium-webdriver

Add to project

In your project’s package.json, add requirement to dependencies:

        "selenium-webdriver": "^4.9.2"
Use the Java bindings for Kotlin.

Next Step

Create your first Selenium script

2 - Write your first Selenium script

Step-by-step instructions for constructing a Selenium script

Once you have Selenium installed, you’re ready to write Selenium code.

Note: if you get an error about drivers not found, please read about troubleshooting the driver location error

Eight Basic Components

Everything Selenium does is send the browser commands to do something or send requests for information. Most of what you’ll do with Selenium is a combination of these basic commands:

1. Start the session

For more details on starting a session read our documentation on driver sessions

        WebDriver driver = new ChromeDriver();
    driver = webdriver.Chrome()
            IWebDriver driver = new ChromeDriver();
    driver = Selenium::WebDriver.for :chrome
      driver = await new Builder().forBrowser('chrome').build();
        driver = ChromeDriver()

2. Take action on browser

In this example we are navigating to a web page.

        driver.get("https://www.selenium.dev/selenium/web/web-form.html");
    driver.get("https://www.selenium.dev/selenium/web/web-form.html")
            driver.Navigate().GoToUrl("https://www.selenium.dev/selenium/web/web-form.html");
    driver.get('https://www.selenium.dev/selenium/web/web-form.html')
      await driver.get('https://www.selenium.dev/selenium/web/web-form.html');
        driver.get("https://www.selenium.dev/selenium/web/web-form.html")

3. Request browser information

There are a bunch of types of information about the browser you can request, including window handles, browser size / position, cookies, alerts, etc.

        String title = driver.getTitle();
    title = driver.title
            var title = driver.Title;
    title = driver.title
      let title = await driver.getTitle();
        val title = driver.title

4. Establish Waiting Strategy

Synchronizing the code with the current state of the browser is one of the biggest challenges with Selenium, and doing it well is an advanced topic.

Essentially you want to make sure that the element is on the page before you attempt to locate it and the element is in an interactable state before you attempt to interact with it.

An implicit wait is rarely the best solution, but it’s the easiest to demonstrate here, so we’ll use it as a placeholder.

Read more about Waiting strategies.

        driver.manage().timeouts().implicitlyWait(Duration.ofMillis(500));
    driver.implicitly_wait(0.5)
            driver.Manage().Timeouts().ImplicitWait = TimeSpan.FromMilliseconds(500);
    driver.manage.timeouts.implicit_wait = 500
      await driver.manage().setTimeouts({implicit: 500});
        driver.manage().timeouts().implicitlyWait(Duration.ofMillis(500))

5. Find an element

The majority of commands in most Selenium sessions are element related, and you can’t interact with one without first finding an element

        WebElement textBox = driver.findElement(By.name("my-text"));
        WebElement submitButton = driver.findElement(By.cssSelector("button"));
    text_box = driver.find_element(by=By.NAME, value="my-text")
    submit_button = driver.find_element(by=By.CSS_SELECTOR, value="button")
            var textBox = driver.FindElement(By.Name("my-text"));
            var submitButton = driver.FindElement(By.TagName("button"));
    text_box = driver.find_element(name: 'my-text')
    submit_button = driver.find_element(tag_name: 'button')
      let textBox = await driver.findElement(By.name('my-text'));
      let submitButton = await driver.findElement(By.css('button'));
        var textBox = driver.findElement(By.name("my-text"))
        val submitButton = driver.findElement(By.cssSelector("button"))

6. Take action on element

There are only a handful of actions to take on an element, but you will use them frequently.

        textBox.sendKeys("Selenium");
        submitButton.click();
    text_box.send_keys("Selenium")
    submit_button.click()
            textBox.SendKeys("Selenium");
            submitButton.Click();
    text_box.send_keys('Selenium')
    submit_button.click
      await textBox.sendKeys('Selenium');
      await submitButton.click();
        textBox.sendKeys("Selenium")
        submitButton.click()

7. Request element information

Elements store a lot of information that can be requested.

        String value = message.getText();
    value = message.text
            var value = message.Text;
    value = message.text
      let value = await message.getText();
        val value = message.getText()

8. End the session

This ends the driver process, which by default closes the browser as well. No more commands can be sent to this driver instance.

Putting everything together

Let’s combine these 8 things into a complete script with assertions that can be executed by a test runner.

package dev.selenium.getting_started;

import org.junit.jupiter.api.Test;
import org.openqa.selenium.By;
import org.openqa.selenium.WebDriver;
import org.openqa.selenium.WebElement;
import org.openqa.selenium.chrome.ChromeDriver;

import java.time.Duration;

import static org.junit.jupiter.api.Assertions.assertEquals;

public class FirstScriptTest {

    @Test
    public void eightComponents() {
        WebDriver driver = new ChromeDriver();
        driver.get("https://www.selenium.dev/selenium/web/web-form.html");

        String title = driver.getTitle();
        assertEquals("Web form", title);

        driver.manage().timeouts().implicitlyWait(Duration.ofMillis(500));

        WebElement textBox = driver.findElement(By.name("my-text"));
        WebElement submitButton = driver.findElement(By.cssSelector("button"));

        textBox.sendKeys("Selenium");
        submitButton.click();

        WebElement message = driver.findElement(By.id("message"));
        String value = message.getText();
        assertEquals("Received!", value);

        driver.quit();
    }

}
from selenium import webdriver
from selenium.webdriver.common.by import By


def test_eight_components():
    driver = webdriver.Chrome()

    driver.get("https://www.selenium.dev/selenium/web/web-form.html")

    title = driver.title
    assert title == "Web form"

    driver.implicitly_wait(0.5)

    text_box = driver.find_element(by=By.NAME, value="my-text")
    submit_button = driver.find_element(by=By.CSS_SELECTOR, value="button")

    text_box.send_keys("Selenium")
    submit_button.click()

    message = driver.find_element(by=By.ID, value="message")
    value = message.text
    assert value == "Received!"

    driver.quit()
using System;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using OpenQA.Selenium;
using OpenQA.Selenium.Chrome;

namespace SeleniumDocs.GettingStarted
{
    [TestClass]
    public class FirstScriptTest
    {

        [TestMethod]
        public void ChromeSession()
        {
            IWebDriver driver = new ChromeDriver();

            driver.Navigate().GoToUrl("https://www.selenium.dev/selenium/web/web-form.html");

            var title = driver.Title;
            Assert.AreEqual("Web form", title);

            driver.Manage().Timeouts().ImplicitWait = TimeSpan.FromMilliseconds(500);

            var textBox = driver.FindElement(By.Name("my-text"));
            var submitButton = driver.FindElement(By.TagName("button"));
            
            textBox.SendKeys("Selenium");
            submitButton.Click();
            
            var message = driver.FindElement(By.Id("message"));
            var value = message.Text;
            Assert.AreEqual("Received!", value);
            
            driver.Quit();
        }
    }
}
# frozen_string_literal: true

require 'spec_helper'

RSpec.describe 'First Script' do
  it 'uses eight components' do
    driver = Selenium::WebDriver.for :chrome

    driver.get('https://www.selenium.dev/selenium/web/web-form.html')

    title = driver.title
    expect(title).to eq('Web form')

    driver.manage.timeouts.implicit_wait = 500

    text_box = driver.find_element(name: 'my-text')
    submit_button = driver.find_element(tag_name: 'button')

    text_box.send_keys('Selenium')
    submit_button.click

    message = driver.find_element(id: 'message')
    value = message.text
    expect(value).to eq('Received!')

    driver.quit
  end
end
const {By, Builder, Browser} = require('selenium-webdriver');
const {suite} = require('selenium-webdriver/testing');
const assert = require("assert");

suite(function (env) {
  describe('First script', function () {
    let driver;

    before(async function () {
      driver = await new Builder().forBrowser('chrome').build();
    });

    after(async () => await driver.quit());

    it('First Selenium script', async function () {
      await driver.get('https://www.selenium.dev/selenium/web/web-form.html');

      let title = await driver.getTitle();
      assert.equal("Web form", title);

      await driver.manage().setTimeouts({implicit: 500});

      let textBox = await driver.findElement(By.name('my-text'));
      let submitButton = await driver.findElement(By.css('button'));

      await textBox.sendKeys('Selenium');
      await submitButton.click();

      let message = await driver.findElement(By.id('message'));
      let value = await message.getText();
      assert.equal("Received!", value);
    });
  });
}, { browsers: [Browser.CHROME, Browser.FIREFOX]});
package dev.selenium.getting_started

import org.junit.jupiter.api.*
import org.junit.jupiter.api.Assertions.assertEquals
import org.openqa.selenium.By
import org.openqa.selenium.WebDriver
import org.openqa.selenium.chrome.ChromeDriver
import java.time.Duration

@TestInstance(TestInstance.Lifecycle.PER_CLASS)
class FirstScriptTest {
    private lateinit var driver: WebDriver

    @Test
    fun eightComponents() {
        driver = ChromeDriver()

        driver.get("https://www.selenium.dev/selenium/web/web-form.html")

        val title = driver.title
        assertEquals("Web form", title)

        driver.manage().timeouts().implicitlyWait(Duration.ofMillis(500))

        var textBox = driver.findElement(By.name("my-text"))
        val submitButton = driver.findElement(By.cssSelector("button"))

        textBox.sendKeys("Selenium")
        submitButton.click()

        val message = driver.findElement(By.id("message"))
        val value = message.getText()
        assertEquals("Received!", value)

        driver.quit()
    }

}

Test Runners

If you are using Selenium for testing, you will want to execute your Selenium code using test runner tools.

Many of the code examples in this documentation can be found in our example repositories. There are multiple options in each language, but here is what we are using in our examples:

// Add instructions
// Add instructions
// Add instructions
// Add instructions

Install Mocha Test runner using below command in your terminal

Install with npm globally:

npm install -g mocha

or as a development dependency for your project:

npm install --save-dev mocha

and run your tests using below command

mocha firstScript.spec.js
// Add instructions

Next Steps

Take what you’ve learned and build out your Selenium code.

As you find more functionality that you need, read up on the rest of our WebDriver documentation.

3 - Upgrade to Selenium 4

Are you still using Selenium 3? This guide will help you upgrade to the latest release!

Upgrading to Selenium 4 should be a painless process if you are using one of the officially supported languages (Ruby, JavaScript, C#, Python, and Java). There might be some cases where a few issues can happen, and this guide will help you to sort them out. We will go through the steps to upgrade your project dependencies and understand the major deprecations and changes the version upgrade brings.

These are the steps we will follow to upgrade to Selenium 4:

  • Preparing our test code
  • Upgrading dependencies
  • Potential errors and deprecation messages

Note: while Selenium 3.x versions were being developed, support for the W3C WebDriver standard was implemented. Both this new protocol and the legacy JSON Wire Protocol were supported. Around version 3.11, Selenium code became compliant with the level W3C 1 specification. The W3C compliant code in the latest version of Selenium 3 will work as expected in Selenium 4.

Preparing our test code

Selenium 4 removes support for the legacy protocol and uses the W3C WebDriver standard by default under the hood. For most things, this implementation will not affect end users. The major exceptions are Capabilities and the Actions class.

Capabilities

If the test capabilities are not structured to be W3C compliant, may cause a session to not be started. Here is the list of W3C WebDriver standard capabilities:

  • browserName
  • browserVersion (replaces version)
  • platformName (replaces platform)
  • acceptInsecureCerts
  • pageLoadStrategy
  • proxy
  • timeouts
  • unhandledPromptBehavior

An up-to-date list of standard capabilities can be found at W3C WebDriver.

Any capability that is not contained in the list above, needs to include a vendor prefix. This applies to browser specific capabilities as well as cloud vendor specific capabilities. For example, if your cloud vendor uses build and name capabilities for your tests, you need to wrap them in a cloud:options block (check with your cloud vendor for the appropriate prefix).

Before

DesiredCapabilities caps = DesiredCapabilities.firefox();
caps.setCapability("platform", "Windows 10");
caps.setCapability("version", "92");
caps.setCapability("build", myTestBuild);
caps.setCapability("name", myTestName);
WebDriver driver = new RemoteWebDriver(new URL(cloudUrl), caps);
caps = {};
caps['browserName'] = 'Firefox';
caps['platform'] = 'Windows 10';
caps['version'] = '92';
caps['build'] = myTestBuild;
caps['name'] = myTestName;
DesiredCapabilities caps = new DesiredCapabilities();
caps.SetCapability("browserName", "firefox");
caps.SetCapability("platform", "Windows 10");
caps.SetCapability("version", "92");
caps.SetCapability("build", myTestBuild);
caps.SetCapability("name", myTestName);
var driver = new RemoteWebDriver(new Uri(CloudURL), caps);
caps = Selenium::WebDriver::Remote::Capabilities.firefox
caps[:platform] = 'Windows 10'
caps[:version] = '92'
caps[:build] = my_test_build
caps[:name] = my_test_name
driver = Selenium::WebDriver.for :remote, url: cloud_url, desired_capabilities: caps
caps = {}
caps['browserName'] = 'firefox'
caps['platform'] = 'Windows 10'
caps['version'] = '92'
caps['build'] = my_test_build
caps['name'] = my_test_name
driver = webdriver.Remote(cloud_url, desired_capabilities=caps)

After

FirefoxOptions browserOptions = new FirefoxOptions();
browserOptions.setPlatformName("Windows 10");
browserOptions.setBrowserVersion("92");
Map<String, Object> cloudOptions = new HashMap<>();
cloudOptions.put("build", myTestBuild);
cloudOptions.put("name", myTestName);
browserOptions.setCapability("cloud:options", cloudOptions);
WebDriver driver = new RemoteWebDriver(new URL(cloudUrl), browserOptions);
capabilities = {
  browserName: 'firefox',
  browserVersion: '92',
  platformName: 'Windows 10',
  'cloud:options': {
     build: myTestBuild,
     name: myTestName,
  }
}
var browserOptions = new FirefoxOptions();
browserOptions.PlatformName = "Windows 10";
browserOptions.BrowserVersion = "92";
var cloudOptions = new Dictionary<string, object>();
cloudOptions.Add("build", myTestBuild);
cloudOptions.Add("name", myTestName);
browserOptions.AddAdditionalOption("cloud:options", cloudOptions);
var driver = new RemoteWebDriver(new Uri(CloudURL), browserOptions);
options = Selenium::WebDriver::Options.firefox
options.browser_version = 'latest'
options.platform_name = 'Windows 10'
cloud_options = {}
cloud_options[:build] = my_test_build
cloud_options[:name] = my_test_name
options.add_option('cloud:options', cloud_options)
driver = Selenium::WebDriver.for :remote, url: cloud_url, capabilities: options
from selenium.webdriver.firefox.options import Options as FirefoxOptions
options = FirefoxOptions()
options.browser_version = '92'
options.platform_name = 'Windows 10'
cloud_options = {}
cloud_options['build'] = my_test_build
cloud_options['name'] = my_test_name
options.set_capability('cloud:options', cloud_options)
driver = webdriver.Remote(cloud_url, options=options)

Find element(s) utility methods in Java

The utility methods to find elements in the Java bindings (FindsBy interfaces) have been removed as they were meant for internal use only. The following code samples explain this better.

Finding a single element with findElement*

Before

driver.findElementByClassName("className");
driver.findElementByCssSelector(".className");
driver.findElementById("elementId");
driver.findElementByLinkText("linkText");
driver.findElementByName("elementName");
driver.findElementByPartialLinkText("partialText");
driver.findElementByTagName("elementTagName");
driver.findElementByXPath("xPath");
After

driver.findElement(By.className("className"));
driver.findElement(By.cssSelector(".className"));
driver.findElement(By.id("elementId"));
driver.findElement(By.linkText("linkText"));
driver.findElement(By.name("elementName"));
driver.findElement(By.partialLinkText("partialText"));
driver.findElement(By.tagName("elementTagName"));
driver.findElement(By.xpath("xPath"));

Finding a multiple elements with findElements*

Before

driver.findElementsByClassName("className");
driver.findElementsByCssSelector(".className");
driver.findElementsById("elementId");
driver.findElementsByLinkText("linkText");
driver.findElementsByName("elementName");
driver.findElementsByPartialLinkText("partialText");
driver.findElementsByTagName("elementTagName");
driver.findElementsByXPath("xPath");
After

driver.findElements(By.className("className"));
driver.findElements(By.cssSelector(".className"));
driver.findElements(By.id("elementId"));
driver.findElements(By.linkText("linkText"));
driver.findElements(By.name("elementName"));
driver.findElements(By.partialLinkText("partialText"));
driver.findElements(By.tagName("elementTagName"));
driver.findElements(By.xpath("xPath"));

Upgrading dependencies

Check the subsections below to install Selenium 4 and have your project dependencies upgraded.

Java

The process of upgrading Selenium depends on which build tool is being used. We will cover the most common ones for Java, which are Maven and Gradle. The minimum Java version required is still 8.

Maven

Before

<dependencies>
  <!-- more dependencies ... -->
  <dependency>
    <groupId>org.seleniumhq.selenium</groupId>
    <artifactId>selenium-java</artifactId>
    <version>3.141.59</version>
  </dependency>
  <!-- more dependencies ... -->
</dependencies>
After

<dependencies>
    <!-- more dependencies ... -->
    <dependency>
        <groupId>org.seleniumhq.selenium</groupId>
        <artifactId>selenium-java</artifactId>
        <version>4.4.0</version>
    </dependency>
    <!-- more dependencies ... -->
</dependencies>

After making the change, you could execute mvn clean compile on the same directory where the pom.xml file is.

Gradle

Before

plugins {
    id 'java'
}
group 'org.example'
version '1.0-SNAPSHOT'
repositories {
    mavenCentral()
}
dependencies {
    testImplementation 'org.junit.jupiter:junit-jupiter-api:5.7.0'
    testRuntimeOnly 'org.junit.jupiter:junit-jupiter-engine:5.7.0'
    implementation group: 'org.seleniumhq.selenium', name: 'selenium-java', version: '3.141.59'
}
test {
    useJUnitPlatform()
}
After

plugins {
    id 'java'
}
group 'org.example'
version '1.0-SNAPSHOT'
repositories {
    mavenCentral()
}
dependencies {
    testImplementation 'org.junit.jupiter:junit-jupiter-api:5.7.0'
    testRuntimeOnly 'org.junit.jupiter:junit-jupiter-engine:5.7.0'
    implementation group: 'org.seleniumhq.selenium', name: 'selenium-java', version: '4.4.0'
}
test {
    useJUnitPlatform()
}

After making the change, you could execute ./gradlew clean build on the same directory where the build.gradle file is.

To check all the Java releases, you can head to MVNRepository.

C#

The place to get updates for Selenium 4 in C# is NuGet. Under the Selenium.WebDriver package you can get the instructions to update to the latest version. Inside of Visual Studio, through the NuGet Package Manager you can execute:

PM> Install-Package Selenium.WebDriver -Version 4.4.0

Python

The most important change to use Python is the minimum required version. Selenium 4 will require a minimum Python 3.7 or higher. More details can be found at the Python Package Index. To upgrade from the command line, you can execute:

pip install selenium==4.4.3

Ruby

The update details for Selenium 4 can be seen at the selenium-webdriver gem in RubyGems. To install the latest version, you can execute:

gem install selenium-webdriver

To add it to your Gemfile:

gem 'selenium-webdriver', '~> 4.4.0'

JavaScript

The selenium-webdriver package can be found at the Node package manager, npmjs. Selenium 4 can be found here. To install it, you could either execute:

npm install selenium-webdriver

Or, update your package.json and run npm install:

{
  "name": "selenium-tests",
  "version": "1.0.0",
  "dependencies": {
    "selenium-webdriver": "^4.4.0"
  }
}

Potential errors and deprecation messages

Here is a set of code examples that will help to overcome the deprecation messages you might encounter after upgrading to Selenium 4.

Java

Waits and Timeout

The parameters received in Timeout have switched from expecting (long time, TimeUnit unit) to expect (Duration duration).

Before

driver.manage().timeouts().implicitlyWait(10, TimeUnit.SECONDS);
driver.manage().timeouts().setScriptTimeout(2, TimeUnit.MINUTES);
driver.manage().timeouts().pageLoadTimeout(10, TimeUnit.SECONDS);
After

driver.manage().timeouts().implicitlyWait(Duration.ofSeconds(10));
driver.manage().timeouts().scriptTimeout(Duration.ofMinutes(2));
driver.manage().timeouts().pageLoadTimeout(Duration.ofSeconds(10));

Waits are also expecting different parameters now. WebDriverWait is now expecting a Duration instead of a long for timeout in seconds and milliseconds. The withTimeout and pollingEvery utility methods from FluentWait have switched from expecting (long time, TimeUnit unit) to expect (Duration duration).

Before

new WebDriverWait(driver, 3)
.until(ExpectedConditions.elementToBeClickable(By.cssSelector("#id")));

Wait<WebDriver> wait = new FluentWait<WebDriver>(driver)
  .withTimeout(30, TimeUnit.SECONDS)
  .pollingEvery(5, TimeUnit.SECONDS)
  .ignoring(NoSuchElementException.class);
After

new WebDriverWait(driver, Duration.ofSeconds(3))
  .until(ExpectedConditions.elementToBeClickable(By.cssSelector("#id")));

  Wait<WebDriver> wait = new FluentWait<WebDriver>(driver)
  .withTimeout(Duration.ofSeconds(30))
  .pollingEvery(Duration.ofSeconds(5))
  .ignoring(NoSuchElementException.class);

Merging capabilities is no longer changing the calling object

It was possible to merge a different set of capabilities into another set, and it was mutating the calling object. Now, the result of the merge operation needs to be assigned.

Before

MutableCapabilities capabilities = new MutableCapabilities();
capabilities.setCapability("platformVersion", "Windows 10");
FirefoxOptions options = new FirefoxOptions();
options.setHeadless(true);
options.merge(capabilities);

// As a result, the `options` object was getting modified.
After

MutableCapabilities capabilities = new MutableCapabilities();
capabilities.setCapability("platformVersion", "Windows 10");
FirefoxOptions options = new FirefoxOptions();
options.setHeadless(true);
options = options.merge(capabilities);

// The result of the `merge` call needs to be assigned to an object.

Firefox Legacy

Before GeckoDriver was around, the Selenium project had a driver implementation to automate Firefox (version <48). However, this implementation is not needed anymore as it does not work in recent versions of Firefox. To avoid major issues when upgrading to Selenium 4, the setLegacy option will be shown as deprecated. The recommendation is to stop using the old implementation and rely only on GeckoDriver. The following code will show the setLegacy line deprecated after upgrading.

FirefoxOptions options = new FirefoxOptions();
options.setLegacy(true);

BrowserType

The BrowserType interface has been around for a long time, however it is getting deprecated in favour of the new Browser interface.

Before

MutableCapabilities capabilities = new MutableCapabilities();
capabilities.setCapability("browserVersion", "92");
capabilities.setCapability("browserName", BrowserType.FIREFOX);
After

MutableCapabilities capabilities = new MutableCapabilities();
capabilities.setCapability("browserVersion", "92");
capabilities.setCapability("browserName", Browser.FIREFOX);

C#

AddAdditionalCapability is deprecated

Instead of it, AddAdditionalOption is recommended. Here is an example showing this:

Before

var browserOptions = new ChromeOptions();
browserOptions.PlatformName = "Windows 10";
browserOptions.BrowserVersion = "latest";
var cloudOptions = new Dictionary<string, object>();
browserOptions.AddAdditionalCapability("cloud:options", cloudOptions, true);
After

var browserOptions = new ChromeOptions();
browserOptions.PlatformName = "Windows 10";
browserOptions.BrowserVersion = "latest";
var cloudOptions = new Dictionary<string, object>();
browserOptions.AddAdditionalOption("cloud:options", cloudOptions);

Python

executable_path has been deprecated, please pass in a Service object

In Selenium 4, you’ll need to set the driver’s executable_path from a Service object to prevent deprecation warnings. (Or don’t set the path and instead make sure that the driver you need is on the System PATH.)

Before

from selenium import webdriver
options = webdriver.ChromeOptions()
driver = webdriver.Chrome(
    executable_path=CHROMEDRIVER_PATH, 
    options=options
)
After

from selenium import webdriver
from selenium.webdriver.chrome.service import Service as ChromeService
options = webdriver.ChromeOptions()
service = ChromeService(executable_path=CHROMEDRIVER_PATH)
driver = webdriver.Chrome(service=service, options=options)

Summary

We went through the major changes to be taken into consideration when upgrading to Selenium 4. Covering the different aspects to cover when test code is prepared for the upgrade, including suggestions on how to prevent potential issues that can show up when using the new version of Selenium. To finalize, we also covered a set of possible issues that you can bump into after upgrading, and we shared potential fixes for those issues.

This was originally posted at https://saucelabs.com/resources/articles/how-to-upgrade-to-selenium-4