You can let your users authenticate with Firebase using their Twitter accounts by integrating web-based generic OAuth Login into your app using the Firebase SDK to carry out the end to end sign-in flow.
Before you begin
To sign in users using Twitter accounts, you must first enable Twitter as a sign-in provider for your Firebase project:
If you haven't already, add Firebase to your Android project.
- In the Firebase console, open the Auth section.
- On the Sign in method tab, enable the Twitter provider.
- Add the API key and API secret from that provider's developer console to the
provider configuration:
- Register your app as a developer application on Twitter and get your app's OAuth API key and API secret.
- Make sure your Firebase OAuth redirect URI (e.g.
my-app-12345.firebaseapp.com/__/auth/handler
) is set as your Authorization callback URL in your app's settings page on your Twitter app's config.
- Click Save.
In your module (app-level) Gradle file (usually
<project>/<app-module>/build.gradle.kts
or<project>/<app-module>/build.gradle
), add the dependency for the Firebase Authentication library for Android. We recommend using the Firebase Android BoM to control library versioning.dependencies { // Import the BoM for the Firebase platform implementation(platform("com.google.firebase:firebase-bom:33.6.0")) // Add the dependency for the Firebase Authentication library // When using the BoM, you don't specify versions in Firebase library dependencies implementation("com.google.firebase:firebase-auth") }
By using the Firebase Android BoM, your app will always use compatible versions of Firebase Android libraries.
(Alternative) Add Firebase library dependencies without using the BoM
If you choose not to use the Firebase BoM, you must specify each Firebase library version in its dependency line.
Note that if you use multiple Firebase libraries in your app, we strongly recommend using the BoM to manage library versions, which ensures that all versions are compatible.
dependencies { // Add the dependency for the Firebase Authentication library // When NOT using the BoM, you must specify versions in Firebase library dependencies implementation("com.google.firebase:firebase-auth:23.1.0") }
If you haven't yet specified your app's SHA-1 fingerprint, do so from the Settings page of the Firebase console. Refer to Authenticating Your Client for details on how to get your app's SHA-1 fingerprint.
Handle the sign-in flow with the Firebase SDK
If you are building an Android app, the easiest way to authenticate your users with Firebase using their Twitter accounts is to handle the entire sign-in flow with the Firebase Android SDK.
To handle the sign-in flow with the Firebase Android SDK, follow these steps:
Construct an instance of an OAuthProvider using its Builder with the provider ID Twitter.com
Kotlin+KTX
val provider = OAuthProvider.newBuilder("twitter.com")
Java
OAuthProvider.Builder provider = OAuthProvider.newBuilder("twitter.com");
Optional: Specify additional custom OAuth parameters that you want to send with the OAuth request.
Kotlin+KTX
// Localize to French. provider.addCustomParameter("lang", "fr")
Java
// Localize to French. provider.addCustomParameter("lang", "fr");
For the parameters Twitter supports, see the Twitter OAuth documentation. Note that you can't pass Firebase-required parameters with
setCustomParameters()
. These parameters are client_id, response_type, redirect_uri, state, scope and response_mode.Authenticate with Firebase using the OAuth provider object. Note that unlike other FirebaseAuth operations, this will take control of your UI by popping up a Custom Chrome Tab. As a result, do not reference your Activity in the
OnSuccessListener
andOnFailureListener
that you attach as they will immediately detach when the operation starts the UI.You should first check if you've already received a response. Signing in via this method puts your Activity in the background, which means that it can be reclaimed by the system during the sign in flow. In order to make sure that you don't make the user try again if this happens, you should check if a result is already present.
To check if there is a pending result, call
getPendingAuthResult
:Kotlin+KTX
val pendingResultTask = firebaseAuth.pendingAuthResult if (pendingResultTask != null) { // There's something already here! Finish the sign-in for your user. pendingResultTask .addOnSuccessListener { // User is signed in. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // ((OAuthCredential)authResult.getCredential()).getAccessToken(). // The OAuth secret can be retrieved by calling: // ((OAuthCredential)authResult.getCredential()).getSecret(). } .addOnFailureListener { // Handle failure. } } else { // There's no pending result so you need to start the sign-in flow. // See below. }
Java
Task<AuthResult> pendingResultTask = firebaseAuth.getPendingAuthResult(); if (pendingResultTask != null) { // There's something already here! Finish the sign-in for your user. pendingResultTask .addOnSuccessListener( new OnSuccessListener<AuthResult>() { @Override public void onSuccess(AuthResult authResult) { // User is signed in. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // ((OAuthCredential)authResult.getCredential()).getAccessToken(). // The OAuth secret can be retrieved by calling: // ((OAuthCredential)authResult.getCredential()).getSecret(). } }) .addOnFailureListener( new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Handle failure. } }); } else { // There's no pending result so you need to start the sign-in flow. // See below. }
To start the sign in flow, call
startActivityForSignInWithProvider
:Kotlin+KTX
firebaseAuth .startActivityForSignInWithProvider(activity, provider.build()) .addOnSuccessListener { // User is signed in. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // ((OAuthCredential)authResult.getCredential()).getAccessToken(). // The OAuth secret can be retrieved by calling: // ((OAuthCredential)authResult.getCredential()).getSecret(). } .addOnFailureListener { // Handle failure. }
Java
firebaseAuth .startActivityForSignInWithProvider(/* activity= */ this, provider.build()) .addOnSuccessListener( new OnSuccessListener<AuthResult>() { @Override public void onSuccess(AuthResult authResult) { // User is signed in. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // ((OAuthCredential)authResult.getCredential()).getAccessToken(). // The OAuth secret can be retrieved by calling: // ((OAuthCredential)authResult.getCredential()).getSecret(). } }) .addOnFailureListener( new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Handle failure. } });
On successful completion, the OAuth access token associated with the provider can be retrieved from the
OAuthCredential
object returned.Using the OAuth access token, you can call the Twitter API.
For example, to get basic profile information, you can call the REST API, passing the access token in the
Authorization
header:While the above examples focus on sign-in flows, you also have the ability to link a Twitter provider to an existing user using
startActivityForLinkWithProvider
. For example, you can link multiple providers to the same user allowing them to sign in with either.Kotlin+KTX
// The user is already signed-in. val firebaseUser = firebaseAuth.currentUser!! firebaseUser .startActivityForLinkWithProvider(activity, provider.build()) .addOnSuccessListener { // Provider credential is linked to the current user. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // authResult.getCredential().getAccessToken(). // The OAuth secret can be retrieved by calling: // authResult.getCredential().getSecret(). } .addOnFailureListener { // Handle failure. }
Java
// The user is already signed-in. FirebaseUser firebaseUser = firebaseAuth.getCurrentUser(); firebaseUser .startActivityForLinkWithProvider(/* activity= */ this, provider.build()) .addOnSuccessListener( new OnSuccessListener<AuthResult>() { @Override public void onSuccess(AuthResult authResult) { // Provider credential is linked to the current user. // IdP data available in // authResult.getAdditionalUserInfo().getProfile(). // The OAuth access token can also be retrieved: // authResult.getCredential().getAccessToken(). // The OAuth secret can be retrieved by calling: // authResult.getCredential().getSecret(). } }) .addOnFailureListener( new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Handle failure. } });
The same pattern can be used with
startActivityForReauthenticateWithProvider
which can be used to retrieve fresh credentials for sensitive operations that require recent login.Kotlin+KTX
// The user is already signed-in. val firebaseUser = firebaseAuth.currentUser!! firebaseUser .startActivityForReauthenticateWithProvider(activity, provider.build()) .addOnSuccessListener { // User is re-authenticated with fresh tokens and // should be able to perform sensitive operations // like account deletion and email or password // update. } .addOnFailureListener { // Handle failure. }
Java
// The user is already signed-in. FirebaseUser firebaseUser = firebaseAuth.getCurrentUser(); firebaseUser .startActivityForReauthenticateWithProvider(/* activity= */ this, provider.build()) .addOnSuccessListener( new OnSuccessListener<AuthResult>() { @Override public void onSuccess(AuthResult authResult) { // User is re-authenticated with fresh tokens and // should be able to perform sensitive operations // like account deletion and email or password // update. } }) .addOnFailureListener( new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Handle failure. } });
Next steps
After a user signs in for the first time, a new user account is created and linked to the credentials—that is, the user name and password, phone number, or auth provider information—the user signed in with. This new account is stored as part of your Firebase project, and can be used to identify a user across every app in your project, regardless of how the user signs in.
-
In your apps, you can get the user's basic profile information from the
FirebaseUser
object. See Manage Users. In your Firebase Realtime Database and Cloud Storage Security Rules, you can get the signed-in user's unique user ID from the
auth
variable, and use it to control what data a user can access.
You can allow users to sign in to your app using multiple authentication providers by linking auth provider credentials to an existing user account.
To sign out a user, call
signOut
:
Kotlin+KTX
Firebase.auth.signOut()
Java
FirebaseAuth.getInstance().signOut();