NOTE: This boilerplate is for Webdriver V8 where the tests are written with async
/await
and TypeScript. If you need a boilerplate for older versions, check the following:
Boilerplate project to run Appium tests together with WebdriverIO for:
- iOS/Android Native Apps
- iOS/Android Hybrid Apps
- Android Chrome and iOS Safari browser (check here)
Important
This boilerplate uses the WebdriverIO native demo app which can be found here.
Note
This boilerplate only handles local execution on 1 em/simulator at a time, not parallel execution. For more info about that Google on setting up a grid with Appium.
This boilerplate is currently based on:
- WebdriverIO:
8.x
- Appium:
2.x
- Clone this project by running
git clone https://github.com/webdriverio/appium-boilerplate.git
- Install all dependencies
npm install
Tip
Use the appium-installer package to setup Appium on your local machine. This will also help you configure Android Emulators/ iOS Simulators.
Note
You don't need Appium installed on you local machine When running test in a cloud
-
Create a
./apps
directory at the root of this project. Download the app files (.zip
/.apk
) with version >=1.0.0
, which can be found here, into the./apps
folder. -
Adjust the configuration file(s) for Android and iOS regarding the device configuration you've created on your local machine.
-
Running tests locally
- Android App:
npm run android.app
- Android Browser:
npm run android.browser
- iOS App:
npm run ios.app
- iOS Browser:
npm run ios.browser
- Android App with cucumber:
npm run android.app.cucumber
- Android App:
Choose one of the following options:
- Clone the git repo —
git clone https://github.com/webdriverio/appium-boilerplate.git
- Copy the files to your project directory (all files in
/tests
and thewdio.conf
files in theconfig
folder) - Merge project dev dependencies with your project dev dependencies in your
package.json
- Merge the scripts to your
package.json
scripts - Run the tests, see Native App Tests or Automating Chrome of Safari.
This boilerplate uses a specific config for iOS and Android, see configs. The configs are based on a shared config
wdio.shared.conf.ts
.
This shared config holds all the defaults so the iOS and Android configs only need to hold the capabilities and specs that are needed for running on iOS and or Android (app or browser).
Please check the wdio.shared.conf.ts
-file for the minimal configuration options. Notes are added for why a different value has been selected in comparison to the default values WebdriverIO provides.
Since we do not have Appium installed as part of this package we are going to use the globally installed version of Appium. This is configured in wdio.shared.local.appium.conf.ts
.
The locator strategy for this boilerplate is to use accessibilityID
s, see also the
WebdriverIO docs or this newsletter on AppiumPro.
accessibilityID
s makes it easy to script once and run on iOS and Android because most of the apps already have some accessibilityID
s.
If accessibilityID
's can't be used, and for example only XPATH is available, then the following setup could be used to make cross-platform selectors
const SELECTORS = {
WEB_VIEW_SCREEN: browser.isAndroid
? '*//android.webkit.WebView'
: '*//XCUIElementTypeWebView',
};
Note
If you look into the screen/page-objects you might see that a lot of selectors are made private, meaning you can't use the elements in the spec-file itself. This has been done on purpose because one of the best practices is to remove all interactions from your spec files and implement the interactions in the page objects. This will make it easier to maintain for the future and easier to refactor if new interaction methods will be added or names will be adjusted.
All tests can be executed on the devices as configured in wdio.android.app.conf.ts
or wdio.ios.app.conf.ts
. Please check the below tests on what they do or how to run them separately.
# For Android local execution
npm run android.app
# For iOS local execution
npm run ios.app
Drag-and-drop an element can be a complex gesture to automate with Appium. The demo app has a simple puzzle that hopefully makes it easier and fun to understand how to implement a drag-and-drop in WebdriverIO. The test can be found here and the drag-and-drop implementation can be found in [this](./tests/screenobjects DragScreen.ts) file.
This file will now only hold the touchAction
way of using the drag and drop Gesture.
The touchPerform
is the old JSONWP way of implementing a gesture and is not W3C compatible. The touchAction
is the new official W3C implementation of a gesture.
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.drag.and.drop.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.drag.and.drop.spec.ts
The forms tab holds some components that might be a challenge during automation:
- Input fields
- Switches
- Dropdowns / Pickers
- Native alerts
The tests and used page objects hopefully explain what you need to do to make this work and can be found here.
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.forms.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.forms.spec.ts
The Login screen holds a simple implementation of a Login and SignUp form. This boilerplate holds 2 different test files for the Login screen.
The last one can be very interesting because it will give you an idea of what you need to do when you need to log in with Touch-/FaceID or FingerPrint. The app.biometric.login.spec.ts
will also enable Touch-/FaceID if needed automatically for you for Android Emulators or iOS Simulators. It covers almost all platform versions.
![NOTE] The methods rely on the fact that the Android Emulator or iOS Simulator have English as the default language. If you have set up your test devices with a different language you might need to change certain selectors and or texts for the selectors.
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.login.spec.ts
npm run android.app -- --spec=tests/specs/app.biometric.login.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.login.spec.ts
npm run ios.app -- --spec=tests/specs/app.biometric.login.spec.ts
There are 2 types of navigation tests explained in this boilerplate.
The most interesting test here will be the Deep Links because this might speed up your tests if your app supports Deep Links. Check the code and the openDeepLinkUrl()
method in the Utils.ts
file to see how this works.
Tip
If you are automating iOS apps and you can use Deep Links, then you might want to try adding the capability autoAcceptAlerts:true
when you start the iOS device. This capability will automatically accept all alerts, also the alert that will appear when you want to open your deep link in Safari.
If you were going to use this capability, then don't forget to remove the last few lines in the openDeepLinkUrl()
-method, see the comments in the method
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.tab.bar.navigation.spec.ts
npm run android.app -- --spec=tests/specs/app.deep.link.navigation.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.tab.bar.navigation.spec.ts
npm run ios.app -- --spec=tests/specs/app.deep.link.navigation.spec.ts
Swiping is a movement with your finger on the screen that has a starting position on the screen, an x-, and y-coordinate and an end position, also an x-, and y-coordinate. The starting position can be seen as the first time you touch the screen, the initial press. The end position can be seen as the time you release the screen. If you translate this into steps you will get:
- Press your finger on the screen in the starting position
- Move your finger to the end position
- Release your finger when you are in the end position
The Swipe test will be an example of how to do that. It uses a Gesture-helper that might be useful for you in the future.
If you want to know more about Gestures and how to automate them, then we would advise you to watch this presentation "Swiping your way through Appium by Wim Selles".
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.swipe.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.swipe.spec.ts
The app has a WebView that will automatically load the WebdriverIO documentation page. This boilerplate holds 2 test files:
-
Interact within a WebView with CSS Selectors. You will also find a test that interacts between a WebView and the Native part of the app.
-
Automate a WebView based on Native Selectors. This test will compare the execution time of:
- automating the WebView by NOT switching to the WebView (by using native selectors).
- automating the WebView by SWITCHING to the WebView.
Check the console for load time differences. An example time could look like this
// Android [0-0] RUNNING in Android - /tests/specs/app.webview.xpath.spec.ts [0-0] Test time for using XPATH It took 0.799 seconds. [0-0] Test time for switching to the WebView It took 0.238 seconds. [0-0] PASSED in Android - /tests/specs/app.webview.xpath.spec.ts // iOS [0-0] RUNNING in iOS - /tests/specs/app.webview.xpath.spec.ts [0-0] Test time for using XPATH It took 3.125 seconds. [0-0] Test time for switching to the WebView It took 1.443 seconds. [0-0] PASSED in iOS - /tests/specs/app.webview.xpath.spec.ts
You will also find a WebView helper with hopefully useful methods that can help you automate a Hybrid App. Keep in the back of your mind that for the simplicity of the Demo app, only one WebView is used. This is also used in the WebView-helper.
More information about Automating Hybrid Applications with Appium and more complex WebViews can be found in this webinar recording.
You can run the single test with the following commands
# For Android local execution
npm run android.app -- --spec=tests/specs/app.webview.spec.ts
npm run android.app -- --spec=tests/specs/app.webview.xpath.spec.ts
# For iOS local execution
npm run ios.app -- --spec=tests/specs/app.webview.spec.ts
npm run ios.app -- --spec=tests/specs/app.webview.xpath.spec.ts
Mobile web automation is almost the same as writing tests for desktop browsers. The only difference can be found in the configuration that needs to be used. Click here to find the config for iOS Safari and here for Android Chrome.
For Android be sure that the latest version of Chrome is installed, see also
here. Our wdio.shared.local.appium.conf.ts
uses the relaxedSecurity: true
argument from Appium which will allow Appium to automatically download the latest ChromeDriver.
For this boilerplate, the test cases from the Jasmine boilerplate, created by Christian Bromann, are used.
If you want to run the Native App tests on Sauce Labs you need to do 2 things:
- Add the Sauce Service to your project
- Upload the apps to the Sauce Labs Storage
When the above has been executed you can follow the steps:
- Run app tests on the Sauce Labs Real Device Cloud
- Run app tests on the Sauce Labs Emulators and Simulators
Make sure you install the latest version of the @wdio/sauce-service
with
npm install --save-dev @wdio/sauce-service
and add services: ['sauce'],
to the config. If no region
is provided it will automatically default to the US-Virtual/RDC cloud.
If you provide region: 'us'
or region: 'eu'
it will connect to the US or the EU Virtual/RDC cloud.
If you want to use Android emulators, iOS simulators or Android real devices in the Sauce Labs UI you need to upload the apps to the Sauce Storage. You can find a script to upload them to, and the US, and EU DC in this folder. You can push the files to the storage by executing the following steps in a terminal from the root of this project:
cd scripts
./push_apps_to_sauce_storage.sh
When you've done that you will see a lot of successful logs in your terminal.
![NOTE] Due to the lack of signing iOS apps, this boilerplate doesn't support Real Devices. Only Android Real Devices are supported. If you want to use iOS Real Devices then you need to provide your own app that has been signed properly.
Please check the Android Real Devices-config to see the setup for Android real devices.
You can use the following scripts, see the package.json
, to execute the tests in the cloud:
# For Android Real Devices
# On EU DC
npm run android.sauce.rdc.app.eu
# On US DC
npm run android.sauce.rdc.app.us
Please check the following configs to verify the configurations:
The following scripts can be used, see the package.json
, to execute the tests in the cloud:
# For Android Emulators
# On EU DC
npm run android.sauce.emulators.app.eu
# On US DC
npm run android.sauce.emulators.app.us
# For Android Real Devices
# On EU DC
npm run android.sauce.rdc.app.eu
# On US DC
npm run android.sauce.rdc.app.us
# For iOS
# On EU DC
npm run ios.sauce.simulator.app.eu
# On US DC
npm run ios.sauce.simulator.app.us
This boilerplate provides a setup for testing with BrowserStack. Please check the BrowserStack folder to see the setup for iOS and Android.
Make sure you install the latest version of the @wdio/browserstack-service
with:
npm install --save-dev @wdio/browserstack-service
There are 2 scripts that can be used. See the package.json
to execute the tests in the cloud:
# For iOS
$ npm run ios.browserstack.app
# For Android
$ npm run android.browserstack.app
This boilerplate provides a setup for testing with TestingBot. Please check the TestingBot-folder to see the setup for Android.
Make sure you install the latest version of the @wdio/testingbot-service
with
npm install --save-dev @wdio/testingbot-service
You can use the script from package.json
, to execute the tests in the TestingBot cloud:
$ npm run android.testingbot.app
See FAQ
See Tips and Tricks