java 实现 selenium Remote WebDriver 服务

xingyun86 2019-7-27 1970

Remote WebDriver

源地址:https://seleniumhq.github.io/docs/remote.html

You can use WebDriver remotely the same way you would use it locally. The primary difference is that a remote WebDriver needs to be configured so that it can run your tests on a separate machine. A remote WebDriver is composed of two pieces: a client and a server. The client is your WebDriver test and the server is simply a Java servlet, which can be hosted in any modern JEE app server.

The Remote WebDriver server

The server will always run on the machine with the browser you want to test. The server can be used either from the command line or through code configuration.

Starting the server from the command line

Once you have downloaded selenium-server-standalone-{VERSION}.jar, place it on the computer with the browser you want to test. Then, from the directory with the jar, run the following:

$ java -jar selenium-server-standalone-{VERSION}.jar

Considerations for running the server

The caller is expected to terminate each session properly, calling either Selenium#stop() or WebDriver#quit. The selenium-server keeps in-memory logs for each ongoing session, which are cleared when Selenium#stop() or WebDriver#quit is called. If you forget to terminate these sessions, your server may leak memory. If you keep extremely long-running sessions, you will probably need to stop/quit every now and then (or increase memory with -Xmx jvm option).

Timeouts (from version 2.21)

The server has two different timeouts, which can be set as follows:

$ java -jar selenium-server-standalone-{VERSION}.jar -timeout=20 -browserTimeout=60
browserTimeout
Controls how long the browser is allowed to hang (value in seconds).
timeout
Controls how long the client is allowed to be gone  before the session is reclaimed (value in seconds).

The system propertyis no longer supported as of 2.21.

Please note that theis intended as a backup timeout mechanism when the ordinary timeout mechanism fails, which should be used mostly in grid/server environments to ensure that crashed/lost processes do not stay around for too long, polluting the runtime environment.

Configuring the server programmatically

In theory, the process is as simple as mapping the DriverServlet to a URL, but it's also possible to host the page in a lightweight container, such as Jetty configured entirely in code. Steps to do this follow.

Download the "selenium-server.zip" and unpack. Put the JARs on the CLASSPATH. Create a new class called AppServer. Here, I'm using Jetty, so you'll need to download that as well:

Java
import org.mortbay.jetty.Connector;
import org.mortbay.jetty.Server;
import org.mortbay.jetty.nio.SelectChannelConnector;
import org.mortbay.jetty.security.SslSocketConnector;
import org.mortbay.jetty.webapp.WebAppContext;
import javax.servlet.Servlet;
import java.io.File;
import org.openqa.selenium.remote.server.DriverServlet;
public class AppServer {  
    private Server server = new Server();  
    public AppServer() throws Exception {
        WebAppContext context = new WebAppContext();
        context.setContextPath("");
        context.setWar(new File("."));
        server.addHandler(context);

        context.addServlet(DriverServlet.class, "/wd/*");

        SelectChannelConnector connector = new SelectChannelConnector();
        connector.setPort(3001);
        server.addConnector(connector);

        server.start();
  }
}

Running Remote WebDriver client

First, we need to connect to the RemoteWebDriver. We do this by pointing the URL to the address of the server running our tests. In order to customize our configuration, we set desired capabilities. Below is an example of instantiating a remote WebDriver object pointing to our remote web server, www.example.com, running our tests on Firefox.

Java
FirefoxOptions firefoxOptions = new FirefoxOptions();
WebDriver driver = new RemoteWebDriver(new URL("http://www.example.com"), firefoxOptions);
driver.get("http://www.google.com");
driver.quit();

To further customize our test configuration, we can add other desired capabilities.

Desired capabilities

Desired capabilities can be expanded further. All remote Webdriver capabilities are sent through JsonWireProtocol. For a list of configurable capabilities, and more information on JsonWireProtocol, please visit the documentation here.

For example, suppose you wanted to run Chrome on Windows XP, using Chrome version 67:

Java
ChromeOptions chromeOptions = new ChromeOptions();
chromeOptions.setCapability("browserVersion", "67");
chromeOptions.setCapability("platformName", "Windows XP");
WebDriver driver = new RemoteWebDriver(new URL("http://www.example.com"), chromeOptions);
driver.get("http://www.google.com");
driver.quit();

Local file detector

The Local File Detector allows the transfer of files from the client machine to the remote server.  For example, if a test needs to upload a file to a web application, a remote WebDriver can automatically transfer the file from the local machine to the remote web server during runtime. This allows the file to be uploaded from the remote machine running the test. It is not enabled by default and can be enabled in the following way:

Java
driver.setFileDetector(new LocalFileDetector());

Once the above code is defined, you can upload a file in your test in the following way:

Java
driver.get("http://sso.dev.saucelabs.com/test/guinea-file-upload");
WebElement upload = driver.findElement(By.id("myfile"));
upload.sendKeys("/Users/sso/the/local/path/to/darkbulb.jpg");


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