Opções do navegador
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No Selenium 3, os recursos foram definidos em uma sessão usando classes de recursos desejados. A partir do Selenium 4, você deve usar as classes de opções do navegador. Para sessões remotas de driver, uma instância de opções do navegador é necessária, pois determina qual navegador será usado.
Essas opções são descritas na especificação w3c para Capabilities.
Cada navegador tem custom options que podem ser definidas além das definidas na especificação.
browserName
Esta capacidade é usada para definir o browserName
para uma determinada sessão.
Se o navegador especificado não estiver instalado no
extremidade remota, a criação da sessão falhará.
ChromeOptions chromeOptions = new ChromeOptions();
String name = chromeOptions.getBrowserName();
options.set_window_rect = True # Full support in Firefox
driver = webdriver.Firefox(options=options)
options.page_load_strategy = :normal
browserVersion
Esta capacidade é opcional, é usada para defina a versão do navegador disponível na extremidade remota. Por exemplo, se solicitar o Chrome versão 75 em um sistema que tiver apenas 80 instalados, a criação da sessão falhará.
ChromeOptions chromeOptions = new ChromeOptions();
String version = "latest";
chromeOptions.setBrowserVersion(version);
options = webdriver.ChromeOptions()
options.strict_file_interactability = True
driver = webdriver.Chrome(options=options)
pageLoadStrategy
Três tipos de estratégias de carregamento de página estão disponíveis.
A estratégia de carregamento da página consulta o document.readyState conforme descrito na tabela abaixo:
Estratégia | Estado pronto | Notas |
---|---|---|
normal | completo | Usado por padrão, aguarda o download de todos os recursos |
ansioso | interativo | O acesso DOM está pronto, mas outros recursos como imagens ainda podem estar carregando |
nenhum | Qualquer | Não bloqueia o WebDriver |
A propriedade document.readyState
de um documento descreve o estado de carregamento do documento atual.
Ao navegar para uma nova página via URL, por padrão, o WebDriver irá adiar a conclusão de uma navegação (por exemplo, driver.navigate().get()) até que o estado pronto do documento seja concluído. isso não significa necessariamente que a página terminou de carregar, especialmente para sites como Single Page Applications que usam JavaScript para carregar conteúdo dinamicamente depois que o estado Pronto retorna completo. Observe também que esse comportamento não se aplica à navegação resultante de clicar em um elemento ou enviar um formulário.
Se uma página demorar muito para carregar como resultado do download de ativos (por exemplo, imagens, css, js)
que não são importantes para a automação, você pode mudar do parâmetro padrão de normal
para
eager
ou none
para acelerar a sessão. Esse valor se aplica a toda a sessão, portanto, certifique-se
que sua waiting strategy é suficiente para minimizar
descamação.
normal (default)
WebDriver waits until the load event fire is returned.
driver.quit();
}
}
options.page_load_strategy = 'normal'
driver = webdriver.Chrome(options=options)
using OpenQA.Selenium;
using OpenQA.Selenium.Chrome;
namespace pageLoadStrategy {
class pageLoadStrategy {
public static void Main(string[] args) {
var chromeOptions = new ChromeOptions();
chromeOptions.PageLoadStrategy = PageLoadStrategy.Normal;
IWebDriver driver = new ChromeDriver(chromeOptions);
try {
driver.Navigate().GoToUrl("https://example.com");
} finally {
driver.Quit();
}
}
}
}
options.page_load_strategy = :normal
it('Navigate using normal page loading strategy', async function () {
let driver = await env
.builder()
.setChromeOptions(options.setPageLoadStrategy('normal'))
.build();
await driver.get('https://www.google.com');
import org.openqa.selenium.PageLoadStrategy
import org.openqa.selenium.chrome.ChromeDriver
import org.openqa.selenium.chrome.ChromeOptions
fun main() {
val chromeOptions = ChromeOptions()
chromeOptions.setPageLoadStrategy(PageLoadStrategy.NORMAL)
val driver = ChromeDriver(chromeOptions)
try {
driver.get("https://www.google.com")
}
finally {
driver.quit()
}
}
eager
WebDriver waits until DOMContentLoaded event fire is returned.
driver.quit();
}
}
options = webdriver.ChromeOptions()
options.page_load_strategy = 'eager'
using OpenQA.Selenium;
using OpenQA.Selenium.Chrome;
namespace pageLoadStrategy {
class pageLoadStrategy {
public static void Main(string[] args) {
var chromeOptions = new ChromeOptions();
chromeOptions.PageLoadStrategy = PageLoadStrategy.Eager;
IWebDriver driver = new ChromeDriver(chromeOptions);
try {
driver.Navigate().GoToUrl("https://example.com");
} finally {
driver.Quit();
}
}
}
}
options.page_load_strategy = :eager
it('Navigate using eager page loading strategy', async function () {
let driver = await env
.builder()
.setChromeOptions(options.setPageLoadStrategy('eager'))
.build();
await driver.get('https://www.google.com');
import org.openqa.selenium.PageLoadStrategy
import org.openqa.selenium.chrome.ChromeDriver
import org.openqa.selenium.chrome.ChromeOptions
fun main() {
val chromeOptions = ChromeOptions()
chromeOptions.setPageLoadStrategy(PageLoadStrategy.EAGER)
val driver = ChromeDriver(chromeOptions)
try {
driver.get("https://www.google.com")
}
finally {
driver.quit()
}
}
none
WebDriver only waits until the initial page is downloaded.
driver.quit();
}
}
def test_page_load_strategy_none():
options = webdriver.ChromeOptions()
using OpenQA.Selenium;
using OpenQA.Selenium.Chrome;
namespace pageLoadStrategy {
class pageLoadStrategy {
public static void Main(string[] args) {
var chromeOptions = new ChromeOptions();
chromeOptions.PageLoadStrategy = PageLoadStrategy.None;
IWebDriver driver = new ChromeDriver(chromeOptions);
try {
driver.Navigate().GoToUrl("https://example.com");
} finally {
driver.Quit();
}
}
}
}
options.page_load_strategy = :none
it('Navigate using none page loading strategy', async function () {
let driver = await env
.builder()
.setChromeOptions(options.setPageLoadStrategy('none'))
.build();
await driver.get('https://www.google.com');
import org.openqa.selenium.PageLoadStrategy
import org.openqa.selenium.chrome.ChromeDriver
import org.openqa.selenium.chrome.ChromeOptions
fun main() {
val chromeOptions = ChromeOptions()
chromeOptions.setPageLoadStrategy(PageLoadStrategy.NONE)
val driver = ChromeDriver(chromeOptions)
try {
driver.get("https://www.google.com")
}
finally {
driver.quit()
}
}
platformName
This identifies the operating system at the remote-end,
fetching the platformName
returns the OS name.
In cloud-based providers,
setting platformName
sets the OS at the remote-end.
acceptInsecureCerts
This capability checks whether an expired (or)
invalid TLS Certificate
is used while navigating
during a session.
If the capability is set to false
, an
insecure certificate error
will be returned as navigation encounters any domain
certificate problems. If set to true
, invalid certificate will be
trusted by the browser.
All self-signed certificates will be trusted by this capability by default.
Once set, acceptInsecureCerts
capability will have an
effect for the entire session.
}, { browsers: [Browser.CHROME, Browser.FIREFOX]});
timeouts
A WebDriver session
is imposed with a certain session timeout
interval, during which the user can control the behaviour
of executing scripts or retrieving information from the browser.
Each session timeout is configured with
combination of different timeouts
as described below:
Script Timeout
Specifies when to interrupt an executing script in a current browsing context. The default timeout 30,000 is imposed when a new session is created by WebDriver.
driver.get("http://www.google.com")
driver.quit()
Page Load Timeout
Specifies the time interval in which web page needs to be loaded in a current browsing context. The default timeout 300,000 is imposed when a new session is created by WebDriver. If page load limits a given/default time frame, the script will be stopped by TimeoutException.
Implicit Wait Timeout
This specifies the time to wait for the implicit element location strategy when locating elements. The default timeout 0 is imposed when a new session is created by WebDriver.
unhandledPromptBehavior
Specifies the state of current session’s user prompt handler
.
Defaults to dismiss and notify state
User Prompt Handler
This defines what action must take when a
user prompt encounters at the remote-end. This is defined by
unhandledPromptBehavior
capability and has the following states:
- dismiss
- accept
- dismiss and notify
- accept and notify
- ignore
setWindowRect
Indicates whether the remote end supports all of the resizing and repositioning commands.
strictFileInteractability
This new capability indicates if strict interactability checks should be applied to input type=file elements. As strict interactability checks are off by default, there is a change in behaviour when using Element Send Keys with hidden file upload controls.
proxy
A proxy server acts as an intermediary for requests between a client and a server. In simple, the traffic flows through the proxy server on its way to the address you requested and back.
A proxy server for automation scripts with Selenium could be helpful for:
- Capture network traffic
- Mock backend calls made by the website
- Access the required website under complex network topologies or strict corporate restrictions/policies.
If you are in a corporate environment, and a browser fails to connect to a URL, this is most likely because the environment needs a proxy to be accessed.
Selenium WebDriver provides a way to proxy settings:
import org.openqa.selenium.Proxy;
import org.openqa.selenium.WebDriver;
import org.openqa.selenium.chrome.ChromeDriver;
import org.openqa.selenium.chrome.ChromeOptions;
public class ProxyTest {
public static void main(String[] args) {
Proxy proxy = new Proxy();
proxy.setHttpProxy("<HOST:PORT>");
ChromeOptions options = new ChromeOptions();
options.setCapability("proxy", proxy);
WebDriver driver = new ChromeDriver(options);
driver.get("https://www.google.com/");
driver.manage().window().maximize();
driver.quit();
}
}
using OpenQA.Selenium;
using OpenQA.Selenium.Chrome;
public class ProxyTest{
public static void Main() {
ChromeOptions options = new ChromeOptions();
Proxy proxy = new Proxy();
proxy.Kind = ProxyKind.Manual;
proxy.IsAutoDetect = false;
proxy.SslProxy = "<HOST:PORT>";
options.Proxy = proxy;
options.AddArgument("ignore-certificate-errors");
IWebDriver driver = new ChromeDriver(options);
driver.Navigate().GoToUrl("https://www.selenium.dev/");
}
}
let webdriver = require('selenium-webdriver');
let chrome = require('selenium-webdriver/chrome');
let proxy = require('selenium-webdriver/proxy');
let opts = new chrome.Options();
(async function example() {
opts.setProxy(proxy.manual({http: '<HOST:PORT>'}));
let driver = new webdriver.Builder()
.forBrowser('chrome')
.setChromeOptions(opts)
.build();
try {
await driver.get("https://selenium.dev");
}
finally {
await driver.quit();
}
}());
import org.openqa.selenium.Proxy
import org.openqa.selenium.WebDriver
import org.openqa.selenium.chrome.ChromeDriver
import org.openqa.selenium.chrome.ChromeOptions
class proxyTest {
fun main() {
val proxy = Proxy()
proxy.setHttpProxy("<HOST:PORT>")
val options = ChromeOptions()
options.setCapability("proxy", proxy)
val driver: WebDriver = ChromeDriver(options)
driver["https://www.google.com/"]
driver.manage().window().maximize()
driver.quit()
}
}