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Push notifications

Push notifications allow you to send out notifications from your app when important events occur. You might send a push notification when you have new instant messages to deliver, breaking news alerts to send, or the latest episode of your user’s favorite TV show ready for them to download for offline viewing. They are also more efficient than background fetch, as your application only launches when necessary.

Prerequisites

Before you can use this feature, you’ll need to integrate the Android Braze SDK.

Built-in features

The following features are built into the Braze Android SDK. To use any other push notification features, you will need to set up push notifications for your app.

Setting up push notifications

Rate limits

Firebase Cloud Messaging (FCM) API has a default rate limit of 600,000 requests per minute. If you reach this limit, Braze will automatically try again in a few minutes. To request an increase, contact Firebase Support.

Step 1: Add Firebase to your project

First, add Firebase to your Android project. For step-by-step instructions, see Google’s Firebase setup guide.

Step 2: Add Cloud Messaging to your dependencies

Next, add the Cloud Messaging library to your project dependencies. In your Android project, open build.gradle, then add the following line to your dependencies block.

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implementation "google.firebase:firebase-messaging:+"

Your dependencies should look similar to the following:

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dependencies {
  implementation project(':android-sdk-ui')
  implementation "com.google.firebase:firebase-messaging:+"
}

Step 3: Enable the Firebase Cloud Messaging API

In Google Cloud, select the project your Android app is using, then enable the Firebase Cloud Messaging API.

Enabled Firebase Cloud Messaging API

Step 4: Create a service account

Next, create a new service account, so Braze can make authorized API calls when registering FCM tokens. In Google Cloud, go to Service Accounts, then choose your project. On the Service Accounts page, select Create Service Account.

A project's service account home page with "Create Service Account" highlighted.

Enter a service account name, ID, and description, then select Create and continue.

The form for "Service account details."

In the Role field, find and select Firebase Cloud Messaging API Admin from the list of roles. For more restrictive access, create a custom role with the cloudmessaging.messages.create permission, then choose it from the list instead. When you’re finished, select Done.

The form for "Grant this service account access to project" with "Firebase Cloud Messaging API Admin" selected as the role.

Step 5: Generate JSON credentials

Next, generate JSON credentials for your FCM service account. On Google Cloud IAM & Admin, go to Service Accounts, then choose your project. Locate the FCM service account you created earlier, then select  Actions > Manage Keys.

The project's service account homepage with the "Actions" menu open.

Select Add Key > Create new key.

The selected service account with the "Add Key" menu open.

Choose JSON, then select Create. If you created your service account using a different Google Cloud project ID than your FCM project ID, you’ll need to manually update the value assigned to the project_id in your JSON file.

Be sure to remember where you downloaded the key—you’ll need it in the next step.

The form for creating a private key with "JSON" selected.

Step 6: Upload your JSON credentials to Braze

Next, upload your JSON credentials to your Braze dashboard. In Braze, select  Settings > App Settings.

The "Settings" menu open in Braze with "App Settings" highlighted.

Under your Android app’s Push Notification Settings, choose Firebase, then select Upload JSON File and upload the credentials you generated earlier. When you’re finished, select Save.

The form for "Push Notification Settings" with "Firebase" selected as the push provider.

Step 7: Set up automatic token registration

When one of your users opt-in for push notifications, your app needs to generate an FCM token on their device before you can send them push notifications. With the Braze SDK, you can enable automatic FCM token registration for each user’s device in your project’s Braze configuration files.

First, go to Firebase Console, open your project, then select  Settings > Project settings.

The Firebase project with the "Settings" menu open.

Select Cloud Messaging, then under Firebase Cloud Messaging API (V1), copy the number in the Sender ID field.

The Firebase project's "Cloud Messaging" page with the "Sender ID" highlighted.

Next, open your Android Studio project and use your Firebase Sender ID to enable automatic FCM token registration within your braze.xml or BrazeConfig.

To configure automatic FCM token registration, add the following lines to your braze.xml file:

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<bool translatable="false" name="com_braze_firebase_cloud_messaging_registration_enabled">true</bool>
<string translatable="false" name="com_braze_firebase_cloud_messaging_sender_id">FIREBASE_SENDER_ID</string>

Replace FIREBASE_SENDER_ID with the value you copied from your Firebase project settings. Your braze.xml should look similar to the following:

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<?xml version="1.0" encoding="utf-8"?>
<resources>
  <string translatable="false" name="com_braze_api_key">12345ABC-6789-DEFG-0123-HIJK456789LM</string>
  <bool translatable="false" name="com_braze_firebase_cloud_messaging_registration_enabled">true</bool>
<string translatable="false" name="com_braze_firebase_cloud_messaging_sender_id">603679405392</string>
</resources>

To configure automatic FCM token registration, add the following lines to your BrazeConfig:

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.setIsFirebaseCloudMessagingRegistrationEnabled(true)
.setFirebaseCloudMessagingSenderIdKey("FIREBASE_SENDER_ID")

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.setIsFirebaseCloudMessagingRegistrationEnabled(true)
.setFirebaseCloudMessagingSenderIdKey("FIREBASE_SENDER_ID")

Replace FIREBASE_SENDER_ID with the value you copied from your Firebase project settings. Your BrazeConfig should look similar to the following:

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BrazeConfig brazeConfig = new BrazeConfig.Builder()
  .setApiKey("12345ABC-6789-DEFG-0123-HIJK456789LM")
  .setCustomEndpoint("sdk.iad-01.braze.com")
  .setSessionTimeout(60)
  .setHandlePushDeepLinksAutomatically(true)
  .setGreatNetworkDataFlushInterval(10)
  .setIsFirebaseCloudMessagingRegistrationEnabled(true)
  .setFirebaseCloudMessagingSenderIdKey("603679405392")
  .build();
Braze.configure(this, brazeConfig);

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val brazeConfig = BrazeConfig.Builder()
  .setApiKey("12345ABC-6789-DEFG-0123-HIJK456789LM")
  .setCustomEndpoint("sdk.iad-01.braze.com")
  .setSessionTimeout(60)
  .setHandlePushDeepLinksAutomatically(true)
  .setGreatNetworkDataFlushInterval(10)
  .setIsFirebaseCloudMessagingRegistrationEnabled(true)
  .setFirebaseCloudMessagingSenderIdKey("603679405392")
  .build()
Braze.configure(this, brazeConfig)

Step 8: Remove automatic requests in your application class

To prevent Braze from triggering unnecessary network requests everytime you send silent push notifications, remove any automatic network requests configured in your Application class’s onCreate() method. For more information see, Android Developer Reference: Application.

Displaying notifications

Step 1: Register Braze Firebase Messaging Service

You can either create a new, existing, or non-Braze Firebase Messaging Service. Choose whichever best meets your specific needs.

Braze includes a service to handle push receipt and open intents. Our BrazeFirebaseMessagingService class will need to be registered in your AndroidManifest.xml:

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<service android:name="com.braze.push.BrazeFirebaseMessagingService"
  android:exported="false">
  <intent-filter>
    <action android:name="com.google.firebase.MESSAGING_EVENT" />
  </intent-filter>
</service>

Our notification code also uses BrazeFirebaseMessagingService to handle open and click action tracking. This service must be registered in the AndroidManifest.xml to function correctly. Also, remember that Braze prefixes notifications from our system with a unique key so that we only render notifications sent from our systems. You may register additional services separately to render notifications sent from other FCM services. See AndroidManifest.xml in the Firebase push sample app.

If you already have a Firebase Messaging Service registered, you can pass RemoteMessage objects to Braze via BrazeFirebaseMessagingService.handleBrazeRemoteMessage(). This method will only display a notification if the RemoteMessage object originated from Braze and will safely ignore if not.

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public class MyFirebaseMessagingService extends FirebaseMessagingService {
  @Override
  public void onMessageReceived(RemoteMessage remoteMessage) {
    super.onMessageReceived(remoteMessage);
    if (BrazeFirebaseMessagingService.handleBrazeRemoteMessage(this, remoteMessage)) {
      // This Remote Message originated from Braze and a push notification was displayed.
      // No further action is needed.
    } else {
      // This Remote Message did not originate from Braze.
      // No action was taken and you can safely pass this Remote Message to other handlers.
    }
  }
}

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class MyFirebaseMessagingService : FirebaseMessagingService() {
  override fun onMessageReceived(remoteMessage: RemoteMessage?) {
    super.onMessageReceived(remoteMessage)
    if (BrazeFirebaseMessagingService.handleBrazeRemoteMessage(this, remoteMessage)) {
      // This Remote Message originated from Braze and a push notification was displayed.
      // No further action is needed.
    } else {
      // This Remote Message did not originate from Braze.
      // No action was taken and you can safely pass this Remote Message to other handlers.
    }
  }
}

If you have another Firebase Messaging Service you would also like to use, you can also specify a fallback Firebase Messaging Service to call if your application receives a push that isn’t from Braze.

In your braze.xml, specify:

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<bool name="com_braze_fallback_firebase_cloud_messaging_service_enabled">true</bool>
<string name="com_braze_fallback_firebase_cloud_messaging_service_classpath">com.company.OurFirebaseMessagingService</string>

or set via runtime configuration:

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BrazeConfig brazeConfig = new BrazeConfig.Builder()
        .setFallbackFirebaseMessagingServiceEnabled(true)
        .setFallbackFirebaseMessagingServiceClasspath("com.company.OurFirebaseMessagingService")
        .build();
Braze.configure(this, brazeConfig);

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val brazeConfig = BrazeConfig.Builder()
        .setFallbackFirebaseMessagingServiceEnabled(true)
        .setFallbackFirebaseMessagingServiceClasspath("com.company.OurFirebaseMessagingService")
        .build()
Braze.configure(this, brazeConfig)

Step 2: Conform small icons to design guidelines

For general information about Android notification icons, visit the Notifications overview.

Starting in Android N, you should update or remove small notification icon assets that involve color. The Android system (not the Braze SDK) ignores all non-alpha and transparency channels in action icons and the notification small icon. In other words, Android will convert all parts of your notification small icon to monochrome except for transparent regions.

To create a notification small icon asset that displays properly:

  • Remove all colors from the image except for white.
  • All other non-white regions of the asset should be transparent.

The following large and small icons pictured are examples of properly designed icons:

A small icon appearing in the bottom corner of a large icons beside a message that says "Hey I'm on my way to the bar but.."

Step 3: Configure notification icons

Specifying icons in braze.xml

Braze allows you to configure your notification icons by specifying drawable resources in your braze.xml:

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<drawable name="com_braze_push_small_notification_icon">REPLACE_WITH_YOUR_ICON</drawable>
<drawable name="com_braze_push_large_notification_icon">REPLACE_WITH_YOUR_ICON</drawable>

Setting a small notification icon is required. If you do not set one, Braze will default to using the application icon as the small notification icon, which may look suboptimal.

Setting a large notification icon is optional but recommended.

Specifying icon accent color

The notification icon accent color can be overridden in your braze.xml. If the color is not specified, the default color is the same gray Lollipop uses for system notifications.

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<integer name="com_braze_default_notification_accent_color">0xFFf33e3e</integer>

You may also optionally use a color reference:

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<color name="com_braze_default_notification_accent_color">@color/my_color_here</color>

To enable Braze to automatically open your app and any deep links when a push notification is clicked, set com_braze_handle_push_deep_links_automatically to true, in your braze.xml:

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<bool name="com_braze_handle_push_deep_links_automatically">true</bool>

This flag can also be set via runtime configuration:

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BrazeConfig brazeConfig = new BrazeConfig.Builder()
        .setHandlePushDeepLinksAutomatically(true)
        .build();
Braze.configure(this, brazeConfig);

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val brazeConfig = BrazeConfig.Builder()
        .setHandlePushDeepLinksAutomatically(true)
        .build()
Braze.configure(this, brazeConfig)

If you want to custom handle deep links, you will need to create a push callback that listens for push received and opened intents from Braze. For more information, see Using a callback for push events.

Follow the instructions found within the Android developer documentation on deep linking if you have not already added deep links to your app. To learn more about what deep links are, see our FAQ article.

The Braze dashboard supports setting deep links or web URLs in push notifications campaigns and Canvases that will be opened when the notification is clicked.

The 'On Click Behavior' setting in the Braze dashboard with 'Deep Link Into Application' selected from the dropdown.

Customizing back stack behavior

The Android SDK, by default, will place your host app’s main launcher activity in the back stack when following push deep links. Braze allows you to set a custom activity to open in the back stack in place of your main launcher activity or to disable the back stack altogether.

For example, to set an activity called YourMainActivity as the back stack activity using runtime configuration:

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BrazeConfig brazeConfig = new BrazeConfig.Builder()
        .setPushDeepLinkBackStackActivityEnabled(true)
        .setPushDeepLinkBackStackActivityClass(YourMainActivity.class)
        .build();
Braze.configure(this, brazeConfig);

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val brazeConfig = BrazeConfig.Builder()
        .setPushDeepLinkBackStackActivityEnabled(true)
        .setPushDeepLinkBackStackActivityClass(YourMainActivity.class)
        .build()
Braze.configure(this, brazeConfig)

See the equivalent configuration for your braze.xml. Note that the class name must be the same as returned by Class.forName().

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<bool name="com_braze_push_deep_link_back_stack_activity_enabled">true</bool>
<string name="com_braze_push_deep_link_back_stack_activity_class_name">your.package.name.YourMainActivity</string>

Step 5: Define notification channels

The Braze Android SDK supports Android notification channels. If a Braze notification does not contain the ID for a notification channel or that a Braze notification contains an invalid channel ID, Braze will display the notification with the default notification channel defined in the SDK. Braze users use Android Notification Channels within the platform to group notifications.

To set the user facing name of the default Braze notification channel, use BrazeConfig.setDefaultNotificationChannelName().

To set the user facing description of the default Braze notification channel, use BrazeConfig.setDefaultNotificationChannelDescription().

Update any API campaigns with the Android push object parameter to include the notification_channel field. If this field is not specified, Braze will send the notification payload with the dashboard fallback channel ID.

Other than the default notification channel, Braze will not create any channels. All other channels must be programmatically defined by the host app and then entered into the Braze dashboard.

The default channel name and description can also be configured in braze.xml.

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<string name="com_braze_default_notification_channel_name">Your channel name</string>
<string name="com_braze_default_notification_channel_description">Your channel description</string>

Step 6: Test notification display and analytics

Testing display

At this point, you should be able to see notifications sent from Braze. To test this, go to the Campaigns page on your Braze dashboard and create a Push Notification campaign. Choose Android Push and design your message. Then click the eye icon in the composer to get the test sender. Enter the user ID or email address of your current user and click Send Test. You should see the push show up on your device.

The 'Test' tab of a push notification campaign in the Braze dashboard.

For issues related to push display, see our troubleshooting guide.

Testing analytics

At this point, you should also have analytics logging for push notification opens. Clicking on the notification when it arrives should result in the Direct Opens on your campaign results page to increase by 1. Check out our push reporting article for a break down on push analytics.

For issues related to push analytics, see our troubleshooting guide.

Testing from command line

If you’d like to test in-app and push notifications via the command-line interface, you can send a single notification through the terminal via cURL and the messaging API. You will need to replace the following fields with the correct values for your test case:

  • YOUR_API_KEY (Go to Settings > API Keys.)
  • YOUR_EXTERNAL_USER_ID (Search for a profile on the Search Users page.)
  • YOUR_KEY1 (optional)
  • YOUR_VALUE1 (optional)
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curl -X POST -H "Content-Type: application/json" -H "Authorization: Bearer {YOUR_API_KEY}" -d '{
  "external_user_ids":["YOUR_EXTERNAL_USER_ID"],
  "messages": {
    "android_push": {
      "title":"Test push title",
      "alert":"Test push",
      "extra": {
        "YOUR_KEY1":"YOUR_VALUE1"
      }
    }  
  }
}' https://rest.iad-01.braze.com/messages/send

This example uses the US-01 instance. If you are not on this instance, replace the US-01 endpoint with your endpoint.

Conversation push notifications

The people and conversations initiative is a multi-year Android initiative that aims to elevate people and conversations in the system surfaces of the phone. This priority is based on the fact that communication and interaction with other people is still the most valued and important functional area for the majority of Android users across all demographics.

Usage requirements

  • This notification type requires the Braze Android SDK v15.0.0+ and Android 11+ devices.
  • Unsupported devices or SDKs will fallback to a standard push notification.

This feature is only available over the Braze REST API. See the Android push object for more information.

FCM quota exceeded errors

When your limit for Firebase Cloud Messaging (FCM) is exceeded, Google returns “quota exceeded” errors. The default limit for FCM is 600,000 requests per minute. Braze retries sending according to Google’s recommended best practices. However, a large volume of these errors can prolong sending time by several minutes. To mitigate potential impact, Braze will send you an alert that the rate limit is being exceeded and steps you can take to prevent the errors.

To check your current limit, go to your Google Cloud Console > APIs & Services > Firebase Cloud Messaging API > Quotas & System Limits, or visit the FCM API Quotas page.

Best practices

We recommend these best practices to keep these error volumes low.

Request a rate limit increase from FCM

To request a rate limit increase from FCM, you can contact Firebase Support directly or do the following:

  1. Go to the FCM API Quotas page.
  2. Locate the Send requests per minute quota.
  3. Select Edit Quota.
  4. Enter a new value and submit your request.

Request global rate limiting via Braze

To apply a workspace-wide limit for Android push notifications, contact Braze Support.

Rate limits

Push notifications are rate-limited, so don’t be afraid of sending as many as your application needs. iOS and the Apple Push Notification service (APNs) servers will control how often they are delivered, and you won’t get into trouble for sending too many. If your push notifications are throttled, they might be delayed until the next time the device sends a keep-alive packet or receives another notification.

Setting up push notifications

Step 1: Upload your APNs token

Before you can send an iOS push notification using Braze, you need to upload your .p8 push notification file, as described in Apple’s developer documentation:

  1. In your Apple developer account, go to Certificates, Identifiers & Profiles.
  2. Under Keys, select All and click the add button (+) in the upper-right corner.
  3. Under Key Description, enter a unique name for the signing key.
  4. Under Key Services, select the Apple Push Notification service (APNs) checkbox, then click Continue. Click Confirm.
  5. Note the key ID. Click Download to generate and download the key. Make sure to save the downloaded file in a secure place, as you cannot download this more than once.
  6. In Braze, go to Settings > App Settings and upload the .p8 file under Apple Push Certificate. You can upload either your development or production push certificate. To test push notifications after your app is live in the App Store, its recommended to set up a separate workspace for the development version of your app.
  7. When prompted, enter your app’s bundle ID, key ID, and team ID. You’ll also need to specify whether to send notifications to your app’s development or production environment, which is defined by its provisioning profile.
  8. When you’re finished, select Save.

Step 2: Enable push capabilities

In Xcode, go to the Signing & Capabilities section of the main app target and add the push notifications capability.

The 'Signing & Capabilities' section in an Xcode project.

Step 3: Set up push handling

You can use the Swift SDK to automate the processing of remote notifications received from Braze. This is the simplest way to handle push notifications and is the recommended handling method.

Step 3.1: Enable automation in the push property

To enable the automatic push integration, set the automation property of the push configuration to true:

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let configuration = Braze.Configuration(apiKey: "{YOUR-BRAZE-API-KEY}", endpoint: "{YOUR-BRAZE-API-ENDPOINT}")
configuration.push.automation = true

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BRZConfiguration *configuration = [[BRZConfiguration alloc] initWithApiKey:@"{YOUR-BRAZE-API-KEY}" endpoint:@"{YOUR-BRAZE-API-ENDPOINT}"];
configuration.push.automation = [[BRZConfigurationPushAutomation alloc] initEnablingAllAutomations:YES];

This instructs the SDK to:

  • Register your application for push notification on the system.
  • Request the push notification authorization/permission at initialization.
  • Dynamically provide implementations for the push notification related system delegate methods.

Step 3.2: Override individual configurations (optional)

For more granular control, each automation step can be enabled or disabled individually:

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// Enable all automations and disable the automatic notification authorization request at launch.
configuration.push.automation = true
configuration.push.automation.requestAuthorizationAtLaunch = false

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// Enable all automations and disable the automatic notification authorization request at launch.
configuration.push.automation = [[BRZConfigurationPushAutomation alloc] initEnablingAllAutomations:YES];
configuration.push.automation.requestAuthorizationAtLaunch = NO;

See Braze.Configuration.Push.Automation for all available options and automation for more information on the automation behavior.

Step 3.1: Register for push notifications with APNs

Include the appropriate code sample within your app’s application:didFinishLaunchingWithOptions: delegate method so that your users’ devices can register with APNs. Ensure that you call all push integration code in your application’s main thread.

Braze also provides default push categories for push action button support, which must be manually added to your push registration code. Refer to push action buttons for additional integration steps.

Add the following code to the application:didFinishLaunchingWithOptions: method of your app delegate.

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application.registerForRemoteNotifications()
let center = UNUserNotificationCenter.current()
center.setNotificationCategories(Braze.Notifications.categories)
center.delegate = self
var options: UNAuthorizationOptions = [.alert, .sound, .badge]
if #available(iOS 12.0, *) {
  options = UNAuthorizationOptions(rawValue: options.rawValue | UNAuthorizationOptions.provisional.rawValue)
}
center.requestAuthorization(options: options) { granted, error in
  print("Notification authorization, granted: \(granted), error: \(String(describing: error))")
}

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[application registerForRemoteNotifications];
UNUserNotificationCenter *center = UNUserNotificationCenter.currentNotificationCenter;
[center setNotificationCategories:BRZNotifications.categories];
center.delegate = self;
UNAuthorizationOptions options = UNAuthorizationOptionAlert | UNAuthorizationOptionSound | UNAuthorizationOptionBadge;
if (@available(iOS 12.0, *)) {
  options = options | UNAuthorizationOptionProvisional;
}
[center requestAuthorizationWithOptions:options
                      completionHandler:^(BOOL granted, NSError *_Nullable error) {
                        NSLog(@"Notification authorization, granted: %d, "
                              @"error: %@)",
                              granted, error);
}];

Step 3.2: Register push tokens with Braze

Once APNs registration is complete, pass the resulting deviceToken to Braze to enable for push notifications for the user.

Add the following code to your app’s application(_:didRegisterForRemoteNotificationsWithDeviceToken:) method:

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AppDelegate.braze?.notifications.register(deviceToken: deviceToken)

Add the following code to your app’s application:didRegisterForRemoteNotificationsWithDeviceToken: method:

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[AppDelegate.braze.notifications registerDeviceToken:deviceToken];

Step 3.3: Enable push handling

Next, pass the received push notifications along to Braze. This step is necessary for logging push analytics and link handling. Ensure that you call all push integration code in your application’s main thread.

Default push handling

To enable Braze’s default push handling, add the following code to your app’s application(_:didReceiveRemoteNotification:fetchCompletionHandler:) method:

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if let braze = AppDelegate.braze, braze.notifications.handleBackgroundNotification(
  userInfo: userInfo,
  fetchCompletionHandler: completionHandler
) {
  return
}
completionHandler(.noData)

Next, add the following to your app’s userNotificationCenter(_:didReceive:withCompletionHandler:) method:

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if let braze = AppDelegate.braze, braze.notifications.handleUserNotification(
  response: response,
  withCompletionHandler: completionHandler
) {
  return
}
completionHandler()

To enable Braze’s default push handling, add the following code to your application’s application:didReceiveRemoteNotification:fetchCompletionHandler: method:

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BOOL processedByBraze = AppDelegate.braze != nil && [AppDelegate.braze.notifications handleBackgroundNotificationWithUserInfo:userInfo
                                                                                                       fetchCompletionHandler:completionHandler];
if (processedByBraze) {
  return;
}

completionHandler(UIBackgroundFetchResultNoData);

Next, add the following code to your app’s (void)userNotificationCenter:didReceiveNotificationResponse:withCompletionHandler: method:

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BOOL processedByBraze = AppDelegate.braze != nil && [AppDelegate.braze.notifications handleUserNotificationWithResponse:response
                                                                                                  withCompletionHandler:completionHandler];
if (processedByBraze) {
  return;
}

completionHandler();
Foreground push handling

To enable foreground push notifications and let Braze recognize them when they’re received, implement UNUserNotificationCenter.userNotificationCenter(_:willPresent:withCompletionHandler:). If a user taps your foreground notification, the userNotificationCenter(_:didReceive:withCompletionHandler:) push delegate will be called and Braze will log the push click event.

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func userNotificationCenter(
  _ center: UNUserNotificationCenter,
  willPresent notification: UNNotification,
  withCompletionHandler completionHandler: @escaping (UNNotificationPresentationOptions
) -> Void) {
  if let braze = AppDelegate.braze {
    // Forward notification payload to Braze for processing.
    braze.notifications.handleForegroundNotification(notification: notification)
  }

  // Configure application's foreground notification display options.
  if #available(iOS 14.0, *) {
    completionHandler([.list, .banner])
  } else {
    completionHandler([.alert])
  }
}

To enable foreground push notifications and let Braze recognize them when they’re received, implement userNotificationCenter:willPresentNotification:withCompletionHandler:. If a user taps your foreground notification, the userNotificationCenter:didReceiveNotificationResponse:withCompletionHandler: push delegate will be called and Braze will log the push click event.

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- (void)userNotificationCenter:(UNUserNotificationCenter *)center
       willPresentNotification:(UNNotification *)notification
         withCompletionHandler:(void (^)(UNNotificationPresentationOptions options))completionHandler {
  if (AppDelegate.braze != nil) {
    // Forward notification payload to Braze for processing.
    [AppDelegate.braze.notifications handleForegroundNotificationWithNotification:notification];
  }

  // Configure application's foreground notification display options.
  if (@available(iOS 14.0, *)) {
    completionHandler(UNNotificationPresentationOptionList | UNNotificationPresentationOptionBanner);
  } else {
    completionHandler(UNNotificationPresentationOptionAlert);
  }
}

Testing notifications

If you’d like to test in-app and push notifications via the command line, you can send a single notification through the terminal via CURL and the messaging API. You will need to replace the following fields with the correct values for your test case:

  • YOUR_API_KEY - available at Settings > API Keys.
  • YOUR_EXTERNAL_USER_ID - available on the Search Users page. See assigning user IDs for more information.
  • YOUR_KEY1 (optional)
  • YOUR_VALUE1 (optional)

In the following example, the US-01 instance is being used. If you’re not on this instance, refer to our API documentation to see which endpoint to make requests to.

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curl -X POST -H "Content-Type: application/json" -H "Authorization: Bearer {YOUR_API_KEY}" -d '{
  "external_user_ids":["YOUR_EXTERNAL_USER_ID"],
  "messages": {
    "apple_push": {
      "alert":"Test push",
      "extra": {
        "YOUR_KEY1":"YOUR_VALUE1"
      }
    }
  }
}' https://rest.iad-01.braze.com/messages/send

Subscribing to push notifications updates

To access the push notification payloads processed by Braze, use the Braze.Notifications.subscribeToUpdates(payloadTypes:_:) method.

You can use the payloadTypes parameter to specify whether you’d like to subscribe to notifications involving push open events, push received events, or both.

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// This subscription is maintained through a Braze cancellable, which will observe for changes until the subscription is cancelled.
// You must keep a strong reference to the cancellable to keep the subscription active.
// The subscription is canceled either when the cancellable is deinitialized or when you call its `.cancel()` method.
let cancellable = AppDelegate.braze?.notifications.subscribeToUpdates(payloadTypes: [.open, .received]) { payload in
  print("Braze processed notification with title '\(payload.title)' and body '\(payload.body)'")
}

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NSInteger filtersValue = BRZNotificationsPayloadTypeFilter.opened.rawValue | BRZNotificationsPayloadTypeFilter.received.rawValue;
BRZNotificationsPayloadTypeFilter *filters = [[BRZNotificationsPayloadTypeFilter alloc] initWithRawValue: filtersValue];
BRZCancellable *cancellable = [notifications subscribeToUpdatesWithPayloadTypes:filters update:^(BRZNotificationsPayload * _Nonnull payload) {
  NSLog(@"Braze processed notification with title '%@' and body '%@'", payload.title, payload.body);
}];

Push primers

Push primer campaigns encourage your users to enable push notifications on their device for your app. This can be done without SDK customization using our no code push primer.

Dynamic APNs gateway management

Dynamic Apple Push Notification Service (APNs) gateway management enhances the reliability and efficiency of iOS push notifications by automatically detecting the correct APNs environment. Previously, you would manually select APNs environments (development or production) for your push notifications, which sometimes led to incorrect gateway configurations, delivery failures, and BadDeviceToken errors.

With dynamic APNs gateway management, you’ll have:

  • Improved reliability: Notifications are always delivered to the correct APNs environment, reducing failed deliveries.
  • Simplified configuration: You no longer need to manually manage APNs gateway settings.
  • Error resilience: Invalid or missing gateway values are gracefully handled, providing uninterrupted service.

Prerequisites

Braze supports Dynamic APNs gateway management for push notifications on iOS with the following SDK version requirement:

How it works

When an iOS app integrates with the Braze Swift SDK, it sends device-related data, including aps-environment to the Braze SDK API, if available. The apns_gateway value indicates whether the app is using the development (dev) or production (prod) APNs environment.

Braze also stores the reported gateway value for each device. If a new, valid gateway value is received, Braze updates the stored value automatically.

When Braze sends a push notification:

  • If a valid gateway value (dev or prod) is stored for the device, Braze uses it to determine the correct APNs environment.
  • If no gateway value is stored, Braze defaults to the APNs environment configured in the App Settings page.

Frequently asked questions

Why was this feature introduced?

With dynamic APNs gateway management, the correct environment is selected automatically. Previously, you had to manually configure the APNs gateway, which could lead to BadDeviceToken errors, token invalidation, and potential APNs rate-limiting issues.

How does this impact push delivery performance?

This feature improves delivery rates by always routing push tokens to the correct APNs environment, avoiding failures caused by misconfigured gateways.

Can I disable this feature?

Dynamic APNs Gateway Management is turned on by default and provides reliability improvements. If you have specific use cases that require manual gateway selection, contact Braze Support.

Prerequisites

Before you can use this feature, you’ll need to integrate the Web Braze SDK.

Push protocols

Web push notifications are implemented using the W3C push standard, which most major browsers support. For more information on specific push protocol standards and browser support, you can review resources from Apple Mozilla and Microsoft.

Setting up push notifications

Step 1: Configure your service worker

In your project’s service-worker.js file, add the following snippet and set the manageServiceWorkerExternally initialization option to true when initializing the Web SDK.

Step 2: Register the browser

To immediately request push permissions from a user so their browser can receive push notifications, call braze.requestPushPermission(). To test if push is supported in their browser first, call braze.isPushSupported().

You can also send a soft push prompt to the user before requesting push permission to show your own push-related UI.

Step 3: Disable skipWaiting (optional)

The Braze service worker file will automatically call skipWaiting upon install. If you’d like to disable this functionality, add the following code to your service worker file, after importing Braze:

Unsubscribingn a user

To unsubscribe a user, call braze.unregisterPush().

Alternate domains

To integrate web push, your domain must be secure, which generally means https, localhost, and other exceptions as defined in the W3C push standard. You’ll also need to be able to register a Service Worker at the root of your domain, or at least be able to control the HTTP headers for that file. This article covers how to integrate Braze Web Push on an alternate domain.

Use cases

If you can’t meet all of the criteria outlined in the W3C push standard, you can use this method to add a push prompt dialog to your website instead. This can be helpful if you want to let your users opt-in from an http website or a browser extension popup thats preventing your push prompt from displaying.

Considerations

Keep in mind, like many workarounds on the web, browsers continually evolve, and this method may not be viable in the future. Before continuing, ensure that:

  • You own a separate secure domain (https://) and permissions to register a Service Worker on that domain.
  • Users are logged in to your website which ensures push tokens are match to the correct profile.

Setting up an alternate push domain

To make the following example clear, we’ll use use http://insecure.com and https://secure.com as our two domains with the goal of getting visitors to register for push on http://insecure.com. This example could also be applied to a chrome-extension:// scheme for a browser extension’s popup page.

Step 1: Initiate prompting flow

On insecure.com, open a new window to your secure domain using a URL parameter to pass the currently logged-in user’s Braze external ID.

http://insecure.com

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<button id="opt-in">Opt-In For Push</button>
<script>
// the same ID you would use with `braze.changeUser`:
const user_id = getUserIdSomehow();
// pass the user ID into the secure domain URL:
const secure_url = `https://secure.com/push-registration.html?external_id=${user_id}`;

// when the user takes some action, open the secure URL in a new window
document.getElementById("opt-in").onclick = function(){
    if (!window.open(secure_url, 'Opt-In to Push', 'height=500,width=600,left=150,top=150')) {
        window.alert('The popup was blocked by your browser');
    } else {
        // user is shown a popup window
        // and you can now prompt for push in this window
    }
}
</script>

Step 2: Register for push

At this point, secure.com will open a popup window in which you can initialize the Braze Web SDK for the same user ID and request the user’s permission for Web push.

https://secure.com/push-registration.html

Step 3: Communicate between domains (optional)

Now that users can opt-in from this workflow originating on insecure.com, you may want to modify your site based on if the user is already opted-in or not. There’s no point in asking the user to register for push if they already are.

You can use iFrames and the postMessage API to communicate between your two domains.

insecure.com

On our insecure.com domain, we will ask the secure domain (where push is actually registered) for information on the current user’s push registration:

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<!-- Create an iframe to the secure domain and run getPushStatus onload-->
<iframe id="push-status" src="https://secure.com/push-status.html" onload="getPushStatus()" style="display:none;"></iframe>

<script>
function getPushStatus(event){
    // send a message to the iframe asking for push status
    event.target.contentWindow.postMessage({type: 'get_push_status'}, 'https://secure.com');
    // listen for a response from the iframe's domain
    window.addEventListener("message", (event) => {
        if (event.origin === "http://insecure.com" && event.data.type === 'set_push_status') {
            // update the page based on the push permission we're told
            window.alert(`Is user registered for push? ${event.data.isPushPermissionGranted}`);
        }
    }   
}
</script>

secure.com/push-status.html

Frequently Asked Questions (FAQ)

Service workers

What if I can’t register a service worker in the root directory?

By default, a service worker can only be used within the same directory it is registered in. For example, if your service worker file exists in /assets/service-worker.js, it would only be possible to register it within example.com/assets/* or a subdirectory of the assets folder, but not on your homepage (example.com/). For this reason, it is recommended to host and register the service worker in the root directory (such as https://example.com/service-worker.js).

If you cannot register a service worker in your root domain, an alternative approach is to use the Service-Worker-Allowed HTTP header when serving your service worker file. By configuring your server to return Service-Worker-Allowed: / in the response for the service worker, this will instruct the browser to broaden the scope and allow it to be used from within a different directory.

Can I create a service worker using a Tag Manager?

No, service workers must be hosted on your website’s server and can’t be loaded via Tag Manager.

Site security

Is HTTPS required?

Yes. Web standards require that the domain requesting push notification permission be secure.

When is a site considered “secure”?

A site is considered secure if it matches one of the following secure-origin patterns. Braze Web push notifications are built on this open standard, so man-in-the-middle attacks are prevented.

  • (https, , *)
  • (wss, *, *)
  • (, localhost, )
  • (, .localhost, *)
  • (, 127/8, )
  • (, ::1/128, *)
  • (file, *, —)
  • (chrome-extension, *, —)

What if a secure site is not available?

While industry best practice is to make your whole site secure, customers who cannot secure their site domain can work around the requirement by using a secure modal. Read more in our guide to using Alternate push domain or view a working demo.

About push notifications for Android TV

While not a native feature, Android TV push integration is made possible by leveraging the Braze Android SDK and Firebase Cloud Messaging to register a push token for Android TV. It is, however, necessary to build a UI to display the notification payload after it is received.

Prerequisites

To use this feature, you’ll need to complete the following:

Setting up push notifications

To set up push notifications for Android TV:

  1. Create a custom view in your app to display your notifications.
  2. Create a custom notification factory. This will override the default SDK behavior and allow you to manually display the notifications. By returning null, this will prevent the SDK from processing and will require custom code to display the notification. After these steps have been completed, you can start sending push to Android TV!

  3. (Optional) To track click analytics effectively, set up click analytics tracking. This can be achieved by creating a push callback to listen for Braze push opened and received intents.

Testing Android TV push notifications

To test if your push implementation is successful, send a notification from the Braze dashboard as you would normally for an Android device.

  • If the application is closed: The push message will display a toast notification on the screen.
  • If the application is open: You have the opportunity to display the message in your own hosted UI. We recommend following the UI styling of our Android Mobile SDK in-app messages.

Best practices

For marketers using Braze, launching a campaign to Android TV will be identical to launching a push to Android mobile apps. To target these devices exclusively, we recommend selecting the Android TV App in segmentation.

The delivered and clicked response returned by FCM will follow the same convention as a mobile Android device; therefore, any errors will be visible in the message activity log.

Prerequisites

Before you can use this feature, you’ll need to integrate the Cordova Braze SDK. After you integrate the SDK, basic push notification functionality is enabled by default. To use rich push notifications and push stories, you’ll need to set them up individually.

Disabling basic push notifications (iOS only)

After you integrate the Braze Cordova SDK for iOS, basic push notification functionality is enabled by default. To disable this functionality in your iOS app, add the following to your config.xml file. For more information, see Optional configurations.

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<platform name="ios">
    <preference name="com.braze.ios_disable_automatic_push_registration" value="NO" />
    <preference name="com.braze.ios_disable_automatic_push_handling" value="NO" />
</platform>

Prerequisites

Before you can use this feature, you’ll need to integrate the Flutter Braze SDK.

Setting up push notifications

Step 1: Complete the initial setup

Step 1.1: Register for push

Register for push using Google’s Firebase Cloud Messaging (FCM) API. For a full walkthrough, refer to the following steps from the Native Android push integration guide:

  1. Add Firebase to your project.
  2. Add Cloud Messaging to your dependencies.
  3. Create a service account.
  4. Generate JSON credentials.
  5. Upload your JSON credentials to Braze.

Step 1.2: Get your Google Sender ID

First, go to Firebase Console, open your project, then select  Settings > Project settings.

The Firebase project with the "Settings" menu open.

Select Cloud Messaging, then under Firebase Cloud Messaging API (V1), copy the Sender ID to your clipboard.

The Firebase project's "Cloud Messaging" page with the "Sender ID" highlighted.

Step 1.3: Update your braze.xml

Add the following to your braze.xml file. Replace FIREBASE_SENDER_ID with the sender ID you copied previously.

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<bool translatable="false" name="com_braze_firebase_cloud_messaging_registration_enabled">true</bool>
<string translatable="false" name="com_braze_firebase_cloud_messaging_sender_id">FIREBASE_SENDER_ID</string>

Step 1.1: Upload APNs certificates

Generate an Apple Push Notification service (APNs) certificate and uploaded it to the Braze dashboard. For a full walkthrough, see Uploading your APNs certificate.

Step 1.2: Add push notification support to your app

Follow the native iOS integration guide.

Step 2: Listen for push notification events (optional)

To listen for push notification events that Braze has detected and handled, call subscribeToPushNotificationEvents() and pass in an argument to execute.

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// Create stream subscription
StreamSubscription pushEventsStreamSubscription;

pushEventsStreamSubscription = braze.subscribeToPushNotificationEvents((BrazePushEvent pushEvent) {
  print("Push Notification event of type ${pushEvent.payloadType} seen. Title ${pushEvent.title}\n and deeplink ${pushEvent.url}");
  // Handle push notification events
});

// Cancel stream subscription
pushEventsStreamSubscription.cancel();
Push notification event fields

For a full list of push notification fields, refer to the table below:

Step 3: Test displaying push notifications

To test your integration after configuring push notifications in the native layer:

  1. Set an active user in the Flutter application. To do so, initialize your plugin by calling braze.changeUser('your-user-id').
  2. Head to Campaigns and create a new push notification campaign. Choose the platforms that you’d like to test.
  3. Compose your test notification and head over to the Test tab. Add the same user-id as the test user and click Send Test.
  4. You should receive the notification on your device shortly. You may need to check in the Notification Center or update Settings if it doesn’t display.

Prerequisites

Before you can use this feature, you’ll need to integrate the Android Braze SDK.

Setting up push notifications

Newer phones manufactured by Huawei come equipped with Huawei Mobile Services (HMS) - a service used to deliver push instead of Google’s Firebase Cloud Messaging (FCM).

Step 1: Register for a Huawei developer account

Before getting started, you’ll need to register and set up a Huawei Developer account. In your Huawei account, go to My Projects > Project Settings > App Information, and take note of the App ID and App secret.

Step 2: Create a new Huawei app in the Braze dashboard

In the Braze dashboard, go to App Settings, listed under the Settings navigation.

Click + Add App, provide a name (such as My Huawei App), select Android as the platform.

Once your new Braze app has been created, locate the push notification settings and select Huawei as the push provider. Next, provide your Huawei Client Secret and Huawei App ID.

Step 3: Integrate the Huawei messaging SDK into your app

Huawei has provided an Android integration codelab detailing integrating the Huawei Messaging Service into your application. Follow those steps to get started.

After completing the codelab, you will need to create a custom Huawei Message Service to obtain push tokens and forward messages to the Braze SDK.

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public class CustomPushService extends HmsMessageService {
  @Override
  public void onNewToken(String token) {
    super.onNewToken(token);
    Braze.getInstance(this.getApplicationContext()).setRegisteredPushToken(token);
  }

  @Override
  public void onMessageReceived(RemoteMessage remoteMessage) {
    super.onMessageReceived(remoteMessage);
    if (BrazeHuaweiPushHandler.handleHmsRemoteMessageData(this.getApplicationContext(), remoteMessage.getDataOfMap())) {
      // Braze has handled the Huawei push notification
    }
  }
}

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class CustomPushService: HmsMessageService() {
  override fun onNewToken(token: String?) {
    super.onNewToken(token)
    Braze.getInstance(applicationContext).setRegisteredPushToken(token!!)
  }

  override fun onMessageReceived(hmsRemoteMessage: RemoteMessage?) {
    super.onMessageReceived(hmsRemoteMessage)
    if (BrazeHuaweiPushHandler.handleHmsRemoteMessageData(applicationContext, hmsRemoteMessage?.dataOfMap)) {
      // Braze has handled the Huawei push notification
    }
  }
}

After adding your custom push service, add the following to your AndroidManifest.xml:

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<service
  android:name="package.of.your.CustomPushService"
  android:exported="false">
  <intent-filter>
    <action android:name="com.huawei.push.action.MESSAGING_EVENT" />
  </intent-filter>
</service>

Step 4: Test your push notifications (optional)

At this point, you’ve created a new Huawei Android app in the Braze dashboard, configured it with your Huawei developer credentials, and have integrated the Braze and Huawei SDKs into your app.

Next, we can test out the integration by testing a new push campaign in Braze.

Step 4.1: Create a new push notification campaign

In the Campaigns page, create a new campaign, and choose Push Notification as your message type.

After you name your campaign, choose Android Push as the push platform.

The campaign creation composer displaying the available push platforms.

Next, compose your push campaign with a title and message.

Step 4.2: Send a test push

In the Test tab, enter your user ID, which you’ve set in your app using the changeUser(USER_ID_STRING) method, and click Send Test to send a test push.

The test tab in the campaign creation composer shows you can send a test message to yourself by providing your user ID and entering it into the "Add Individual Users" field.

At this point, you should receive a test push notification on your Huawei (HMS) device from Braze.

Step 4.3: Set up Huawei segmentation (optional)

Since your Huawei app in the Braze dashboard is built upon the Android push platform, you have the flexibility to send push to all Android users (Firebase Cloud Messaging and Huawei Mobile Services), or you can choose to segment your campaign audience to specific apps.

To send push to only Huawei apps, create a new Segment and select your Huawei App within the Apps section.

Of course, if you want to send the same push to all Android push providers, you can choose not to specify the app which will send to all Android apps configured within the current workspace.

Prerequisites

Before you can use this feature, you’ll need to integrate the React Native Braze SDK.

Setting up push notifications

Step 1: Complete the initial setup

Prerequisites

Before you can use Expo for push notifications, you’ll need to set up the Braze Expo plugin.

Step 1.1: Update your app.json file

Next update your app.json file for Android and iOS:

  • Android: Add the enableFirebaseCloudMessaging option.
  • iOS: Add the enableBrazeIosPush option.

Step 1.2: Add your Google Sender ID

First, go to Firebase Console, open your project, then select  Settings > Project settings.

The Firebase project with the "Settings" menu open.

Select Cloud Messaging, then under Firebase Cloud Messaging API (V1), copy the Sender ID to your clipboard.

The Firebase project's "Cloud Messaging" page with the "Sender ID" highlighted.

Next, open your project’s app.json file and set your firebaseCloudMessagingSenderId property to the Sender ID in your clipboard. For example:

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"firebaseCloudMessagingSenderId": "693679403398"

Step 1.3: Add the path to your Google Services JSON

In your project’s app.json file, add the path to your google-services.json file. This file is required when setting enableFirebaseCloudMessaging: true in your configuration.

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{
  "expo": {
    "android": {
      "googleServicesFile": "PATH_TO_GOOGLE_SERVICES"
    },
    "plugins": [
      [
        "@braze/expo-plugin",
        {
          "androidApiKey": "YOUR-ANDROID-API-KEY",
          "iosApiKey": "YOUR-IOS-API-KEY",
          "enableBrazeIosPush": true,
          "enableFirebaseCloudMessaging": true,
          "firebaseCloudMessagingSenderId": "YOUR-FCM-SENDER-ID",
          "androidHandlePushDeepLinksAutomatically": true
        }
      ],
    ]
  }
}

Note that you will need to use these settings instead of the native setup instructions if you are depending on additional push notification libraries like Expo Notifications.

If you are not using the Braze Expo plugin, or would like to configure these settings natively instead, register for push by referring to the Native Android push integration guide.

If you are not using the Braze Expo plugin, or would like to configure these settings natively instead, register for push by referring to the following steps from the Native iOS push integration guide:

Step 1.1: Request for push permissions

If you don’t plan on requesting push permissions when the app is launched, omit the requestAuthorizationWithOptions:completionHandler: call in your AppDelegate. Then, skip to Step 2. Otherwise, follow the native iOS integration guide.

Step 1.2 (Optional): Migrate your push key

If you were previously using expo-notifications to manage your push key, run expo fetch:ios:certs from your application’s root folder. This will download your push key (a .p8 file), which can then be uploaded to the Braze dashboard.

Step 2: Request push notifications permission

Use the Braze.requestPushPermission() method (available on v1.38.0 and up) to request permission for push notifications from the user on iOS and Android 13+. For Android 12 and below, this method is a no-op.

This method takes in a required parameter that specifies which permissions the SDK should request from the user on iOS. These options have no effect on Android.

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const permissionOptions = {
  alert: true,
  sound: true,
  badge: true,
  provisional: false
};

Braze.requestPushPermission(permissionOptions);

Step 2.1: Listen for push notifications (optional)

You can additionally subscribe to events where Braze has detected and handled an incoming push notification. Use the listener key Braze.Events.PUSH_NOTIFICATION_EVENT.

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Braze.addListener(Braze.Events.PUSH_NOTIFICATION_EVENT, data => {
  console.log(`Push Notification event of type ${data.payload_type} seen. Title ${data.title}\n and deeplink ${data.url}`);
  console.log(JSON.stringify(data, undefined, 2));
});
Push notification event fields

For a full list of push notification fields, refer to the table below:

Step 3: Enable deep linking (optional)

To enable Braze to handle deep links inside React components when a push notification is clicked, first implement the steps described in React Native Linking library, or with your solution of choice. Then, follow the additional steps below.

To learn more about what deep links are, see our FAQ article.

If you’re using the Braze Expo plugin, you can handle push notification deep links automatically by setting androidHandlePushDeepLinksAutomatically to true in your app.json.

To handle deep links manually instead, refer to the native Android documentation: Adding deep links.

Step 3.1: Store the push notification payload on app launch

For iOS, add populateInitialPayloadFromLaunchOptions to your AppDelegate’s didFinishLaunchingWithOptions method. For example:

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- (BOOL)application:(UIApplication *)application didFinishLaunchingWithOptions:(NSDictionary *)launchOptions
{
  self.moduleName = @"BrazeProject";
  self.initialProps = @{};

  BRZConfiguration *configuration = [[BRZConfiguration alloc] initWithApiKey:apiKey endpoint:endpoint];
  configuration.triggerMinimumTimeInterval = 1;
  configuration.logger.level = BRZLoggerLevelInfo;
  Braze *braze = [BrazeReactBridge initBraze:configuration];
  AppDelegate.braze = braze;

  [self registerForPushNotifications];
  [[BrazeReactUtils sharedInstance] populateInitialPayloadFromLaunchOptions:launchOptions];

  return [super application:application didFinishLaunchingWithOptions:launchOptions];
}

In addition to the base scenarios handled by React Native Linking, implement the Braze.getInitialPushPayload method and retrieve the url value to account for deep links from push notifications that open your app when it isn’t running. For example:

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// Handles deep links when an iOS app is launched from a hard close via push click.
// This edge case is not handled in the React Native Linking library and is provided as a workaround by Braze.
Braze.getInitialPushPayload(pushPayload => {
  if (pushPayload) {
    console.log('Braze.getInitialPushPayload is ' + pushPayload);
    showToast('Initial URL is ' + pushPayload.url);
    handleOpenUrl({ pushPayload.url });
  }
});

To enable universal linking support, create a BrazeReactDelegate.h file in your iOS directory and then add the following code snippet.

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#import <Foundation/Foundation.h>
#import <BrazeKit/BrazeKit-Swift.h>

@interface BrazeReactDelegate: NSObject<BrazeDelegate>

@end

Next, create a BrazeReactDelegate.m file and then add the following code snippet. Replace YOUR_DOMAIN_HOST with your actual domain.

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#import "BrazeReactDelegate.h"
#import <UIKit/UIKit.h>

@implementation BrazeReactDelegate

/// This delegate method determines whether to open a given URL.
///
/// Reference the `BRZURLContext` object to get additional details about the URL payload.
- (BOOL)braze:(Braze *)braze shouldOpenURL:(BRZURLContext *)context {
  if ([[context.url.host lowercaseString] isEqualToString:@"YOUR_DOMAIN_HOST"]) {
    // Sample custom handling of universal links
    UIApplication *application = UIApplication.sharedApplication;
    NSUserActivity* userActivity = [[NSUserActivity alloc] initWithActivityType:NSUserActivityTypeBrowsingWeb];
    userActivity.webpageURL = context.url;
    // Routes to the `continueUserActivity` method, which should be handled in your `AppDelegate`.
    [application.delegate application:application
                 continueUserActivity:userActivity restorationHandler:^(NSArray<id<UIUserActivityRestoring>> * _Nullable restorableObjects) {}];
    return NO;
  }
  // Let Braze handle links otherwise
  return YES;
}

@end

Then, create and register your BrazeReactDelegate in didFinishLaunchingWithOptions of your project’s AppDelegate.m file.

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#import "BrazeReactUtils.h"
#import "BrazeReactDelegate.h"

@interface AppDelegate ()

// Keep a strong reference to the BrazeDelegate to ensure it is not deallocated.
@property (nonatomic, strong) BrazeReactDelegate *brazeDelegate;

@end

- (BOOL)application:(UIApplication *)application didFinishLaunchingWithOptions:(NSDictionary *)launchOptions
{
  // Other setup code

  self.brazeDelegate = [[BrazeReactDelegate alloc] init];
  braze.delegate = self.brazeDelegate;
}

For an example integration, reference our sample app here.

Step 4: Send a test push notification

At this point, you should be able to send notifications to the devices. Adhere to the following steps to test your push integration.

  1. Set an active user in the React Native application by calling Braze.changeUserId('your-user-id') method.
  2. Head to Campaigns and create a new push notification campaign. Choose the platforms that you’d like to test.
  3. Compose your test notification and head over to the Test tab. Add the same user-id as the test user and click Send Test. You should receive the notification on your device shortly.

A Braze push campaign showing you can add your own user ID as a test recipient to test your push notification.

Using the Expo plugin

After you set up push notifications for Expo, you can use it to handle the following push notifications behaviors—without needing to write any code in the native Android or iOS layers.

Forwarding Android push to additional FMS

If you want to use an additional Firebase Messaging Service (FMS), you can specify a fallback FMS to call if your application receives a push that isn’t from Braze. For example:

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{
  "expo": {
    "plugins": [
      [
        "@braze/expo-plugin",
        {
          ...
          "androidFirebaseMessagingFallbackServiceEnabled": true,
          "androidFirebaseMessagingFallbackServiceClasspath": "com.company.OurFirebaseMessagingService"
        }
      ]
    ]
  }
}

Using app extensions with Expo Application Services

If you are using Expo Application Services (EAS) and have enabled enableBrazeIosRichPush or enableBrazeIosPushStories, you will need to declare the corresponding bundle identifiers for each app extension in your project. There are multiple ways you can approach this step, depending on how your project is configured to manage code signing with EAS.

One approach is to use the appExtensions configuration in your app.json file by following Expo’s app extensions documentation. Alternatively, you can set up the multitarget setting in your credentials.json file by following Expo’s local credentials documentation.

Prerequisites

Before you can use this feature, you’ll need to integrate the Swift Braze SDK. You’ll also need to set up push notifications for the Swift SDK. Note that you can only send push notifications to iOS and iPadOS users that are using Safari v16.4 or later.

Setting up Safari push for mobile

Step 1: Create a manifest file

A Web Application Manifest is a JSON file that controls how your website is presented when installed to a user’s home screen.

For example, you can set the background theme color and icon that the App Switcher uses, whether it renders as full screen to resemble a native app, or whether the app should open in landscape or portrait mode.

Create a new manifest.json file in your website’s root directory, with the following mandatory fields.

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{
  "name": "your app name",
  "short_name": "your app name",
  "display": "fullscreen",
  "icons": [{
    "src": "favicon.ico",
    "sizes": "128x128",
  }]
}

The full list of supported fields can be found here.

Add the following <link> tag to your website’s <head> element pointing to where your manifest file is hosted.

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<link rel="manifest" href="/manifest.json" />

Step 3: Add a service worker

Your website must have a service worker file that imports the Braze service-worker library, as described in our web push integration guide.

Step 4: Add to home screen

Popular browsers (such as Safari, Chrome, FireFox, and Edge) all support web push notifications in their later versions. To request push permission on iOS or iPadOS, your website must be added to the user’s home screen by selecting Share To > Add to Home Screen. Add to Homescreen lets users bookmark your website, adding your icon to their valuable home screen real estate.

An iPhone showing options to bookmark a website and save to the home screen

Step 5: Show the native push prompt

After the app has been added to your home screen you can now request push permission when the user takes an action (such as clicking a button). This can be done using the requestPushPermission method, or with a no-code push primer in-app message.

A push prompt asking to "allow" or "don't allow" Notifications

For example:

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import { requestPushPermission } from "@braze/web-sdk";

button.onclick = function(){
    requestPushPermission(() => {
        console.log(`User accepted push prompt`);
    }, (temporary) => {
        console.log(`User ${temporary ? "temporarily dismissed" : "permanently denied"} push prompt`);
    });
};

Next steps

Next, send yourself a test message to validate the integration. After your integration is complete, you can use our no-code push primer messages to optimize your push opt-in rates.

Prerequisites

Before you can use this feature, you’ll need to integrate the Unity Braze SDK.

Setting up push notification

Step 1: Set up the platform

Step 1.1: Enable Firebase

To get started, follow the Firebase Unity setup documentation.

Step 1.2: Set your Firebase credentials

You need to input your Firebase Server Key and Sender ID into the Braze dashboard. To do this, log in to the Firebase Developers Console and select your Firebase project. Next, select Cloud Messaging under Settings and copy the Server Key and Sender ID:

In Braze, select your Android app on the App Settings page under Manage Settings. Next, enter your Firebase Server Key in the Firebase Cloud Messaging Server Key field and Firebase Sender ID in the Firebase Cloud Messaging Sender ID field.

Step 1.1: Verify integration method

Braze provides a native Unity solution for automating iOS push integrations. If you you’d like to set up and manage your integration manually instead, see Swift: Push Notifications.

Otherwise, continue to the next step.

Step 1.1: Enable ADM

  1. Create an account with the Amazon Apps & Games Developer Portal if you have not already done so.
  2. Obtain OAuth credentials (Client ID and Client Secret) and an ADM API key.
  3. Enable Automatic ADM Registration Enabled in the Unity Braze Configuration window.
    • Alternatively, you may add the following line to your res/values/braze.xml file to enable ADM registration:
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  <bool name="com_braze_push_adm_messaging_registration_enabled">true</bool>

Step 2: Configure push notifications

Step 2.1: Configure push settings

The Braze SDK can automatically handle push registration with the Firebase Cloud Messaging Servers to have devices receive push notifications. In Unity, enable Automate Unity Android Integration, then configure the following Push Notification settings.

Step 2.1: Upload your APNs token

Before you can send an iOS push notification using Braze, you need to upload your .p8 push notification file, as described in Apple’s developer documentation:

  1. In your Apple developer account, go to Certificates, Identifiers & Profiles.
  2. Under Keys, select All and click the add button (+) in the upper-right corner.
  3. Under Key Description, enter a unique name for the signing key.
  4. Under Key Services, select the Apple Push Notification service (APNs) checkbox, then click Continue. Click Confirm.
  5. Note the key ID. Click Download to generate and download the key. Make sure to save the downloaded file in a secure place, as you cannot download this more than once.
  6. In Braze, go to Settings > App Settings and upload the .p8 file under Apple Push Certificate. You can upload either your development or production push certificate. To test push notifications after your app is live in the App Store, its recommended to set up a separate workspace for the development version of your app.
  7. When prompted, enter your app’s bundle ID, key ID, and team ID. You’ll also need to specify whether to send notifications to your app’s development or production environment, which is defined by its provisioning profile.
  8. When you’re finished, select Save.

Step 2.2: Enable automatic push

Open the Braze Configuration Settings in the Unity Editor by navigating to Braze > Braze Configuration.

Check Integrate Push With Braze to automatically register users for push notifications, pass push tokens to Braze, track analytics for push opens, and take advantage of our default push notification handling.

Step 2.3: Enable background push (optional)

Check Enable Background Push if you want to enable background mode for push notifications. This allows the system to wake your application from the suspended state when a push notification arrives, enabling your application to download content in response to push notifications. Checking this option is required for our uninstall tracking functionality.

The Unity editor shows the Braze configuration options. In this editor, the "Automate Unity iOS integration", "Integrate push with braze", and "Enable background push" are enabled.

Step 2.4: Disable automatic registration (optional)

Users who have not yet opted-in to push notifications will automatically be authorized for push upon opening your application. To disable this feature and manually register users for push, check Disable Automatic Push Registration.

  • If Disable Provisional Authorization is not checked on iOS 12 or later, the user will be provisionally (silently) authorized to receive quiet push. If checked, the user will be shown the native push prompt.
  • If you need to configure exactly when the prompt is shown at runtime, disable automatic registration from the Braze configuration editor and use AppboyBinding.PromptUserForPushPermissions() instead.

The Unity editor shows the Braze configuration options. In this editor, the "Automate Unity iOS integration", "integrate push with braze", and "disable automatic push registration" are enabled.

Step 2.1: Update AndroidManifest.xml

If your app does not have an AndroidManifest.xml, you can use the following as a template. Otherwise, if you already have an AndroidManifest.xml, ensure that any of the following missing sections are added to your existing AndroidManifest.xml.

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<?xml version="1.0" encoding="utf-8"?>
<manifest xmlns:android="http://schemas.android.com/apk/res/android"
          package="REPLACE_WITH_YOUR_PACKAGE_NAME">

  <uses-permission android:name="android.permission.ACCESS_NETWORK_STATE" />
  <uses-permission android:name="android.permission.INTERNET" />
  <permission
    android:name="REPLACE_WITH_YOUR_PACKAGE_NAME.permission.RECEIVE_ADM_MESSAGE"
    android:protectionLevel="signature" />
  <uses-permission android:name="REPLACE_WITH_YOUR_PACKAGE_NAME.permission.RECEIVE_ADM_MESSAGE" />
  <uses-permission android:name="com.amazon.device.messaging.permission.RECEIVE" />

  <application android:icon="@drawable/app_icon" 
               android:label="@string/app_name">

    <!-- Calls the necessary Braze methods to ensure that analytics are collected and that push notifications are properly forwarded to the Unity application. -->
    <activity android:name="com.braze.unity.BrazeUnityPlayerActivity" 
      android:label="@string/app_name" 
      android:configChanges="fontScale|keyboard|keyboardHidden|locale|mnc|mcc|navigation|orientation|screenLayout|screenSize|smallestScreenSize|uiMode|touchscreen" 
      android:screenOrientation="sensor">
      <meta-data android:name="android.app.lib_name" android:value="unity" />
      <meta-data android:name="unityplayer.ForwardNativeEventsToDalvik" android:value="true" />
      <intent-filter>
        <action android:name="android.intent.action.MAIN" />
        <category android:name="android.intent.category.LAUNCHER" />
      </intent-filter>
    </activity>

    <receiver android:name="com.braze.push.BrazeAmazonDeviceMessagingReceiver" android:permission="com.amazon.device.messaging.permission.SEND">
      <intent-filter>
          <action android:name="com.amazon.device.messaging.intent.RECEIVE" />
          <action android:name="com.amazon.device.messaging.intent.REGISTRATION" />
          <category android:name="REPLACE_WITH_YOUR_PACKAGE_NAME" />
      </intent-filter>
    </receiver>
  </application>
</manifest>

Step 2.2: Store your ADM API key

First, generate an ADM API Key for your app, then save the key to a file named api_key.txt and add it in your project’s Assets/ directory.

Next, in your mainTemplate.gradle file, add the following:

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task copyAmazon(type: Copy) {
    def unityProjectPath = $/file:///**DIR_UNITYPROJECT**/$.replace("\\", "/")
    from unityProjectPath + '/Assets/api_key.txt'
    into new File(projectDir, 'src/main/assets')
}

preBuild.dependsOn(copyAmazon)

Step 2.3: Add ADM Jar

The required ADM Jar file may be placed anywhere in your project according to the Unity JAR documentation.

Step 2.4: Add Client Secret and Client ID to your Braze dashboard

Lastly, you must add the Client Secret and Client ID you obtained in Step 1 to the Braze dashboard’s Manage Settings page.

Step 3: Set push listeners

Step 3.1: Enable push received listener

The push received listener is fired when a user receives a push notification. To send the push payload to Unity, set the name of your game object and push the received listener callback method under the Set Push Received Listener.

Step 3.2: Enable push opened listener

The push opened listener is fired when a user launches the app by clicking on a push notification. To send the push payload to Unity, set the name of your game object and push opened listener callback method under the Set Push Opened Listener.

Step 3.3: Enable push deleted listener

The push deleted listener is fired when a user swipes away or dismisses a push notification. To send the push payload to Unity, set the name of your game object and push deleted listener callback method under the Set Push Deleted Listener.

Push listener example

The following example implements the BrazeCallback game object using a callback method name of PushNotificationReceivedCallback, PushNotificationOpenedCallback, and PushNotificationDeletedCallback respectively.

This implementation example graphic shows the Braze configuration options mentioned in the preceding sections and a C# code snippet.

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public class MainMenu : MonoBehaviour {
  void PushNotificationReceivedCallback(string message) {
#if UNITY_ANDROID
    Debug.Log("PushNotificationReceivedCallback message: " + message);
    PushNotification pushNotification = new PushNotification(message);
    Debug.Log("Push Notification received: " + pushNotification);   
#elif UNITY_IOS
    ApplePushNotification pushNotification = new ApplePushNotification(message);
    Debug.Log("Push received Notification event: " + pushNotification);   
#endif  
  }

  void PushNotificationOpenedCallback(string message) {
#if UNITY_ANDROID
    Debug.Log("PushNotificationOpenedCallback message: " + message);
    PushNotification pushNotification = new PushNotification(message);
    Debug.Log("Push Notification opened: " + pushNotification);  
#elif UNITY_IOS
    ApplePushNotification pushNotification = new ApplePushNotification(message);
    Debug.Log("Push opened Notification event: " + pushNotification);   
#endif  
  }

  void PushNotificationDeletedCallback(string message) {
#if UNITY_ANDROID
    Debug.Log("PushNotificationDeletedCallback message: " + message);
    PushNotification pushNotification = new PushNotification(message);
    Debug.Log("Push Notification dismissed: " + pushNotification);  
#endif
  }
}

Step 3.1: Enable push received listener

The push received listener is fired when a user receives a push notification while actively using the application (such as when the app is foregrounded). Set the push received listener in the Braze configuration editor. If you need to configure your game object listener at runtime, use AppboyBinding.ConfigureListener() and specify BrazeUnityMessageType.PUSH_RECEIVED.

The Unity editor shows the Braze configuration options. In this editor, the "Set Push Received Listener" option is expanded, and the "Game Object Name" (AppBoyCallback) and "Callback Method Name" (PushNotificationReceivedCallback) are provided.

Step 3.2: Enable push opened listener

The push opened listener is fired when a user launches the app by clicking on a push notification. To send the push payload to Unity, set the name of your game object and push opened listener callback method under the Set Push Opened Listener option:

The Unity editor shows the Braze configuration options. In this editor, the "Set Push Received Listener" option is expanded, and the "Game Object Name" (AppBoyCallback) and "Callback Method Name" (PushNotificationOpenedCallback) are provided.

If you need to configure your game object listener at runtime, use AppboyBinding.ConfigureListener() and specify BrazeUnityMessageType.PUSH_OPENED.

Push listener example

The following example implements the AppboyCallback game object using a callback method name of PushNotificationReceivedCallback and PushNotificationOpenedCallback, respectively.

This implementation example graphic shows the Braze configuration options mentioned in the preceding sections and a C# code snippet.

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public class MainMenu : MonoBehaviour {
  void PushNotificationReceivedCallback(string message) {
#if UNITY_ANDROID
    Debug.Log("PushNotificationReceivedCallback message: " + message);
    PushNotification pushNotification = new PushNotification(message);
    Debug.Log("Push Notification received: " + pushNotification);   
#elif UNITY_IOS
    ApplePushNotification pushNotification = new ApplePushNotification(message);
    Debug.Log("Push received Notification event: " + pushNotification);   
#endif  
  }

  void PushNotificationOpenedCallback(string message) {
#if UNITY_ANDROID
    Debug.Log("PushNotificationOpenedCallback message: " + message);
    PushNotification pushNotification = new PushNotification(message);
    Debug.Log("Push Notification opened: " + pushNotification);  
#elif UNITY_IOS
    ApplePushNotification pushNotification = new ApplePushNotification(message);
    Debug.Log("Push opened Notification event: " + pushNotification);   
#endif  
  }
}

By updating your AndroidManifest.xml in the previous step, push listeners were automatically set up when you added the following lines. So, no further setup is required.

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<action android:name="com.amazon.device.messaging.intent.RECEIVE" />
<action android:name="com.amazon.device.messaging.intent.REGISTRATION" />

Optional configurations

Deep linking to in-app resources

Although Braze can handle standard deep links (such as website URLs, Android URIs, etc.) by default, creating custom deep links requires an additional Manifest setup.

For setup guidance, visit Deep Linking to In-App Resources.

Adding Braze push notification icons

To add push icons to your project, create an Android Archive (AAR) plug-in or Android library that contains the icon image files. For steps and information, refer to Unity’s documentation: Android Library Projects and Android Archive plug-ins.

Push token callback

To receive a copy of Braze device tokens from the OS, set a delegate using AppboyBinding.SetPushTokenReceivedFromSystemDelegate().

There are no optional configurations for ADM at this time.

Prerequisites

Before you can use this feature, you’ll need to integrate the Unreal Engine Braze SDK.

Setting up push notifications

Step 1: Set up your project

First, add Firebase to your Android project. For step-by-step instructions, see Google’s Firebase setup guide.

Before you can send an iOS push notification using Braze, you need to upload your .p8 push notification file, as described in Apple’s developer documentation:

  1. In your Apple developer account, go to Certificates, Identifiers & Profiles.
  2. Under Keys, select All and click the add button (+) in the upper-right corner.
  3. Under Key Description, enter a unique name for the signing key.
  4. Under Key Services, select the Apple Push Notification service (APNs) checkbox, then click Continue. Click Confirm.
  5. Note the key ID. Click Download to generate and download the key. Make sure to save the downloaded file in a secure place, as you cannot download this more than once.
  6. In Braze, go to Settings > App Settings and upload the .p8 file under Apple Push Certificate. You can upload either your development or production push certificate. To test push notifications after your app is live in the App Store, its recommended to set up a separate workspace for the development version of your app.
  7. When prompted, enter your app’s bundle ID, key ID, and team ID. You’ll also need to specify whether to send notifications to your app’s development or production environment, which is defined by its provisioning profile.
  8. When you’re finished, select Save.

Step 2: Enable push notifications

Add the following lines to your project’s engine.ini file. Be sure to replace YOUR_SEND_ID with the Sender ID in your Firebase Project.

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bEnableFirebaseCloudMessagingSupport=true
bIsFirebaseCloudMessagingRegistrationEnabled=true
FirebaseCloudMessagingSenderIdKey=YOUR_SENDER_ID

Within the same directory as BrazeUPLAndroid.xml, create a new directory named AndroidCopies and add your google-services.json file to it.

In your project, go to Settings > Project Settings > iOS > Online then check Enable Remote Notifications Support. When you’re finished, verify that your provision has push capabilities enabled.

Optional configurations

Setting small and large icons

To set the small and large notification icons:

  1. Add icons to the appropriate drawable folder (drawable by default) inside of the AndroidCopies/res folder.
  2. Add braze.xml to the AndroidCopies/res/values folder to set the icons. A very basic braze.xml file: 
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     <?xml version="1.0" encoding="utf-8"?>
 <resources>
     <drawable name="com_braze_push_small_notification_icon">@drawable/notification_small_icon</drawable>
     <drawable name="com_braze_push_large_notification_icon">@drawable/notification_large_icon</drawable>
 </resources>

Remote launch notifications

As of Unreal Engine version 4.25.3, UE4 lacks proper support to receive a remote notification that causes the initial launch of the application. In order to support receiving this notification, we’ve created two git patches to apply - one for UE4 and one for the Braze SDK plugin.

  1. In your UE4 Engine Source directory, apply the git patch UE4_Engine-Cache-Launch-Remote-Notification.patch.
  2. In your Braze Unreal SDK directory, apply the git patch Braze_SDK-Read-Cached-Remote-Launch-Notification.patch.

Prerequisites

Before you can use this feature, you’ll need to integrate the Xamarin Braze SDK.

Setting up push notifications

To integrate push notifications for Xamarin, you’ll need to complete the steps for native Android push notifications. The following steps are only a summary. For a full walkthrough, see the native push notification guide.

Step 1: Update your project

  1. Add Firebase to your Android project.
  2. Add the Cloud Messaging library to your Android project’s build.gradle: 
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      implementation "google.firebase:firebase-messaging:+"

Step 2: Create your JSON credentials

  1. In Google Cloud, enable the Firebase Cloud Messaging API.
  2. Select Service Accounts > your project > Create Service Account, then enter a service account name, ID, and description. When you’re finished, select Create and continue.
  3. In the Role field, find and select Firebase Cloud Messaging API Admin from the list of roles.
  4. In Service Accounts, choose your project, then select  Actions > Manage Keys > Add Key > Create new key. Choose JSON, then select Create.

Step 3: Upload your JSON credentials

  1. In Braze, select  Settings > App Settings. Under your Android app’s Push Notification Settings, choose Firebase, then select Upload JSON File and upload the credentials you generated earlier. When you’re finished, select Save.
  2. Enable automatic FCM token registration, by going to Firebase Console. Open your project, then select  Settings > Project settings. Select Cloud Messaging, then under Firebase Cloud Messaging API (V1), copy the number in the Sender ID field.
  3. In your Android Studio project and the following to your braze.xml.
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  <bool translatable="false" name="com_braze_firebase_cloud_messaging_registration_enabled">true</bool>
  <string translatable="false" name="com_braze_firebase_cloud_messaging_sender_id">FIREBASE_SENDER_ID</string>

Step 1: Complete the initial setup

See the Swift integration instructions for information about setting up your application with push and storing your credentials on our server. Refer to the iOS MAUI sample application for more details.

Step 2: Request push notifications permission

Our Xamarin SDK now supports automatic push set up. Set up push automation and permissions by adding the following code to your Braze instance configuration:

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configuration.Push.Automation = new BRZConfigurationPushAutomation(true);
configuration.Push.Automation.RequestAuthorizationAtLaunch = false;

Refer to the iOS MAUI sample application for more details. For more details, see the Xamarin documentation for Enhanced User Notifications in Xamarin.iOS.

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