Official Android SDK (beta) to support:
- Ride Request Button
- Ride Request Widget
- REST APIs
At a minimum, this SDK is designed to work with Android SDK 14.
Before using this SDK, register your application on the Uber Developer Site.
To use the Uber Rides Android SDK, add the compile dependency with the latest version of the Uber SDK.
Add the Uber Rides Android SDK to your build.gradle
:
dependencies {
compile 'com.uber.sdk:rides-android:0.5.4'
}
In the pom.xml
file:
<dependency>
<groupId>com.uber.sdk</groupId>
<artifactId>rides-android</artifactId>
<version>0.5.4</version>
</dependency>
In order for the SDK to function correctly, you need to add some information about your app. In your application, create a SessionConfiguration
to use with the various components of the library. If you prefer the set it and forget it model, use the UberSdk
class to initialize with a default SessionConfiguration
.
SessionConfiguration config = new SessionConfiguration.Builder()
.setClientId("YOUR_CLIENT_ID") //This is necessary
.setRedirectUri("YOUR_REDIRECT_URI") //This is necessary if you'll be using implicit grant
.setEnvironment(Environment.SANDBOX) //Useful for testing your app in the sandbox environment
.setScopes(Arrays.asList(Scope.PROFILE, Scope.RIDE_WIDGETS)) //Your scopes for authentication here
.build();
//This is a convenience method and will set the default config to be used in other components without passing it directly.
UberSdk.initialize(config);
The RideRequestButton
offers the quickest ways to integrate Uber into your application. You can add a Ride Request Button to your View like you would any other View:
RideRequestButton requestButton = new RideRequestButton(context);
layout.addView(requestButton);
This will create a request button with default deeplinking behavior, with the pickup pin set to the user’s current location. The user will need to select a product and input additional information when they are switched over to the Uber application.
You can also add your button through XML:
<LinearLayout
xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:uber="http://schemas.android.com/apk/res-auto"
android:layout_width="match_parent"
android:layout_height="match_parent">
<com.uber.sdk.android.rides.RideRequestButton
android:layout_width="wrap_content"
android:layout_height="wrap_content"
uber:ub__style="black"/>
</LinearLayout>
To use the uber
XML namespace, be sure to add xmlns:uber="http://schemas.android.com/apk/res-auto"
to your root view element.
The default color has a black background with white text:
<com.uber.sdk.android.rides.RideRequestButton
android:layout_width="wrap_content"
android:layout_height="wrap_content"/>
For a button with a white background and black text:
<com.uber.sdk.android.rides.RideRequestButton
android:layout_width="wrap_content"
android:layout_height="wrap_content"
uber:ub__style="white"/>
Without any extra configuration, the RideRequestButton
will deeplink to the Uber app. We suggest passing additional parameters to make the Uber experience even more seamless for your users. For example, dropoff location parameters can be used to automatically pass the user’s destination information over to the driver:
RideParameters rideParams = new RideParameters.Builder()
.setProductId("a1111c8c-c720-46c3-8534-2fcdd730040d")
.setPickupLocation(37.775304, -122.417522, "Uber HQ", "1455 Market Street, San Francisco")
.setDropoffLocation(37.795079, -122.4397805, "Embarcadero", "One Embarcadero Center, San Francisco")
.build();
requestButton.setRideParameters(rideParams);
With all the necessary parameters set, pressing the button will seamlessly prompt a ride request confirmation screen.
The Uber Rides SDK provides a simple way to integrate the Ride Request View using the RideRequestButton
via the RideRequestActivityBehavior
. The button can be configured with this behavior object to show the RideRequestActivity
on click, rather than deeplinking to the Uber app. Without any ride parameters, it will attempt to use the user's current location for pickup - for this, you must ask your user for location permissions. Otherwise, any pickup/dropoff location information passed via RideParameters
to the button will be pre-filled in the Ride Request View.
// The REQUEST_CODE is used to pass back error information in onActivityResult
requestButton.setRequestBehavior(new RideRequestActivityBehavior(this, REQUEST_CODE));
That's it! With this configuration, when a user clicks on the request button, an activity will be launched that contains a login view (on first launch) where the user can authorize your app. After authorization, this activity will contain the Ride Request View. If any unexpected errors occur that the SDK can't handle, the activity will finish with an error in the result Intent using either the key RideRequestActivity.AUTHENTICATION_ERROR
or RideRequestActivity.RIDE_REQUEST_ERROR
depending on where the error occurred.
Note: The environment (sandbox or production) is considered by the Ride Request Widget. If you use the sample source code from above, your calls will be issued to the Sandbox. The widget will display a
sandbox
badge to indicate that. To change the mode, set environment toEnvironment.PRODUCTION
.
To further enhance the button with destination and price information, add a Session to it and call loadRideInformation()
function.
RideParameters rideParams = new RideParameters.Builder()
.setPickupLocation(37.775304, -122.417522, "Uber HQ", "1455 Market Street, San Francisco")
.setDropoffLocation(37.795079, -122.4397805, "Embarcadero", "One Embarcadero Center, San Francisco") // Price estimate will only be provided if this is provided.
.setProductId("a1111c8c-c720-46c3-8534-2fcdd730040d") // Optional. If not provided, the cheapest product will be used.
.build();
SessionConfiguration config = new SessionConfiguration.Builder()
.setClientId("YOUR_CLIENT_ID")
.setServerToken("YOUR_SERVER_TOKEN")
.build();
ServerTokenSession session = new ServerTokenSession(config);
RideRequestButtonCallback callback = new RideRequestButtonCallback() {
@Override
public void onRideInformationLoaded() {
}
@Override
public void onError(ApiError apiError) {
}
@Override
public void onError(Throwable throwable) {
}
};
requestButton.setRideParameters(rideParams);
requestButton.setSession(session);
requestButton.setCallback(callback);
requestButton.loadRideInformation();
If you want to provide a more custom experience in your app, there are a few classes to familiarize yourself with. Read the sections below and you'll be requesting rides in no time!
The Uber SDK allows for three login flows: Implicit Grant (local web view), Single Sign On with the Uber App, and Authorization Code Grant (requires a backend to catch the local web view redirect and complete OAuth).
To use Single Sign On you must register a hash of your application's signing certificate in the Application Signature section of the [developer dashboard] (https://developer.uber.com/dashboard).
To get the hash of your signing certificate, run this command with the alias of your key and path to your keystore:
keytool -exportcert -alias <your_key_alias> -keystore <your_keystore_path> | openssl sha1 -binary | openssl base64
Before you can request any rides, you need to get an AccessToken
. The Uber Rides SDK provides the LoginManager
class for this task. Simply create a new instance and use its login method to present the login screen to the user.
LoginCallback loginCallback = new LoginCallback() {
@Override
public void onLoginCancel() {
// User canceled login
}
@Override
public void onLoginError(@NonNull AuthenticationError error) {
// Error occurred during login
}
@Override
public void onLoginSuccess(@NonNull AccessToken accessToken) {
// Successful login! The AccessToken will have already been saved.
}
}
AccessTokenManager accessTokenManager = new AccessTokenManager(context);
LoginManager loginManager = new LoginManager(accessTokenManager, loginCallback);
loginManager.login(activity);
The only required scope for the Ride Request Widget is the RIDE_WIDGETS
scope, but you can pass in any other (general) scopes that you'd like access to. The call to loginWithScopes()
presents an activity with a WebView where the user logs into their Uber account, or creates an account, and authorizes the requested scopes. In your Activity#onActivityResult()
, call LoginManager#onActivityResult()
:
@Override
protected void onActivityResult(int requestCode, int resultCode, Intent data){
super.onActivityResult(requestCode, resultCode, data);
loginManager.onActivityResult(activity, requestCode, resultCode, data);
}
The default behavior of calling LoginManager.login(activity)
is to activate Single Sign On, and if that is unavailable, fallback to Implicit Grant if privileged scopes are not requested, otherwise redirect to the Play Store. If Authorization Code Grant is required, set LoginManager.setRedirectForAuthorizationCode(true)
to prevent the redirect to the Play Store. Implicit Grant will allow access to all non-privileged scopes, where as the other two both grant access to privileged scopes. Read more about scopes.
Upon a failure to login, an AuthenticationError
will be provided in the LoginCallback
. This enum provides a series of values that provide more information on the type of error.
If your app allows users to authorize via your own customized logic, you will need to create an AccessToken
manually and save it in shared preferences using the AccessTokenManager
.
AccessTokenManager accessTokenManager = new AccessTokenManager(context);
Date expirationTime = 2592000;
List<Scope> scopes = Arrays.asList(Scope.RIDE_WIDGETS);
String token = "obtainedAccessToken";
String refreshToken = "obtainedRefreshToken";
String tokenType = "obtainedTokenType";
AccessToken accessToken = new AccessToken(expirationTime, scopes, token, refreshToken, tokenType);
accessTokenManager.setAccessToken(accessToken);
The AccessTokenManager
can also be used to get an access token or delete it.
accessTokenManger.getAccessToken();
accessTokenManager.removeAccessToken();
To keep track of multiple users, create an AccessTokenManager for each AccessToken.
AccessTokenManager user1Manager = new AccessTokenManager(activity, "user1");
AccessTokenManager user2Manager = new AccessTokenManager(activity, "user2");
user1Manager.setAccessToken(accessToken);
user2Manager.setAccessToken(accessToken2);
The RideRequestView
is like any other view you'd add to your app. Create a new instance in your XML layout or programmatically. You can optionally add custom RideParameters
or a custom AccessTokenSession
. When you're ready to show the Ride Request View, just call load()
.
RideRequestView rideRequestView = new RideRequestView(context);
//Optionally set Session, will use default session from UberSDK otherwise
//rideRequestView.setSession(session);
rideRequestView.setRideParameters(rideParameters)
rideRequestView.setRideRequestViewCallback(new RideRequestViewErrorCallback() {
@Override
public void onErrorReceived(RideRequestViewError error) {
switch (error) {
// Handle errors
}
}
});
layout.addView(rideRequestView);
rideRequestView.load();
The Android Uber SDK uses a dependency on the Java Uber SDK for API requests.
After authentication is complete, create a Session
to use the Uber API.
Session session = loginManager.getSession();
Now create an instance of the RidesService
using the Session
RidesService service = UberRidesApi.with(session).createService();
Both synchronous and asynchronous calls work with the Uber Rides Java SDK. The networking stack for the Uber SDK is powered by Retrofit 2 and the same model of threading is available.
Response<UserProfile> response = service.getUserProfile().execute();
if (response.isSuccessful()) {
//Success
UserProfile profile = response.body();
} else {
//Failure
ApiError error = ErrorParser.parseError(response);
}
service.getUserProfile().enqueue(new Callback<UserProfile>() {
@Override
public void onResponse(Call<UserProfile> call, Response<UserProfile> response) {
if (response.isSuccessful()) {
//Success
UserProfile profile = response.body();
} else {
//Api Failure
ApiError error = ErrorParser.parseError(response);
}
}
@Override
public void onFailure(Call<UserProfile> call, Throwable t) {
//Network Failure
}
});
Sample apps can be found in the samples
folder. Alternatively, you can also download a sample from the releases page.
The Sample apps require configuration parameters to interact with the Uber API, these include the client id, redirect uri, and server token. They are provided on the Uber developer dashboard.
Specify your configuration parameters in the sample's gradle.properties file, where examples can be found adhering to the format UBER_CLIENT_ID=insert_your_client_id_here
. These are generated into the BuildConfig during compilation.
For a more idiomatic storage approach, define these in your home gradle.properties file to keep them out of the git repo.
~/.gradle/gradle.properties
UBER_CLIENT_ID=insert_your_client_id_here
UBER_REDIRECT_URI=insert_your_redirect_uri_here
UBER_SERVER_TOKEN=insert_your_server_token_here
To install the sample app from Android Studio, File > New > Import Project and select the extracted folder from the downloaded sample.
Uber developers actively monitor the uber-api
tag on StackOverflow. If you need help installing or using the library, you can ask a question there. Make sure to tag your question with uber-api
and android
!
For full documentation about our API, visit our Developer Site.
As the Uber Android SDK get closer to a 1.0 release, the API's will become more stable. In the meantime, be sure to check out the changelog to know what differs!
We ❤️ contributions. Found a bug or looking for a new feature? Open an issue and we'll respond as fast as we can. Or, better yet, implement it yourself and open a pull request! We ask that you include tests to show the bug was fixed or the feature works as expected.
Note: All contributors also need to fill out the Uber Contributor License Agreement before we can merge in any of your changes.