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session-ios/Session/Notifications/PushRegistrationManager.swift

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Swift
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//
// Copyright (c) 2019 Open Whisper Systems. All rights reserved.
//
import Foundation
import PromiseKit
import PushKit
import SignalUtilitiesKit
import SignalUtilitiesKit
public enum PushRegistrationError: Error {
case assertionError(description: String)
case pushNotSupported(description: String)
case timeout
}
/**
* Singleton used to integrate with push notification services - registration and routing received remote notifications.
*/
@objc public class PushRegistrationManager: NSObject {
// MARK: - Dependencies
private var notificationPresenter: NotificationPresenter {
return AppEnvironment.shared.notificationPresenter
}
// MARK: - Singleton class
@objc
public static var shared: PushRegistrationManager {
get {
return AppEnvironment.shared.pushRegistrationManager
}
}
override init() {
super.init()
SwiftSingletons.register(self)
}
private var vanillaTokenPromise: Promise<Data>?
private var vanillaTokenResolver: Resolver<Data>?
private var voipRegistry: PKPushRegistry?
private var voipTokenPromise: Promise<Data>?
private var voipTokenResolver: Resolver<Data>?
// MARK: Public interface
public func requestPushTokens() -> Promise<(pushToken: String, voipToken: String)> {
return firstly {
self.registerUserNotificationSettings()
}.then { () -> Promise<(pushToken: String, voipToken: String)> in
guard !Platform.isSimulator else {
throw PushRegistrationError.pushNotSupported(description: "Push not supported on simulators")
}
return self.registerForVanillaPushToken().map { vanillaPushToken -> (pushToken: String, voipToken: String) in
return (pushToken: vanillaPushToken, voipToken: "")
}
}
}
// MARK: Vanilla push token
// Vanilla push token is obtained from the system via AppDelegate
@objc
public func didReceiveVanillaPushToken(_ tokenData: Data) {
guard let vanillaTokenResolver = self.vanillaTokenResolver else {
owsFailDebug("promise completion in \(#function) unexpectedly nil")
return
}
vanillaTokenResolver.fulfill(tokenData)
}
// Vanilla push token is obtained from the system via AppDelegate
@objc
public func didFailToReceiveVanillaPushToken(error: Error) {
guard let vanillaTokenResolver = self.vanillaTokenResolver else {
owsFailDebug("promise completion in \(#function) unexpectedly nil")
return
}
vanillaTokenResolver.reject(error)
}
// MARK: helpers
// User notification settings must be registered *before* AppDelegate will
// return any requested push tokens.
public func registerUserNotificationSettings() -> Promise<Void> {
AssertIsOnMainThread()
return notificationPresenter.registerNotificationSettings()
}
/**
* When users have disabled notifications and background fetch, the system hangs when returning a push token.
* More specifically, after registering for remote notification, the app delegate calls neither
* `didFailToRegisterForRemoteNotificationsWithError` nor `didRegisterForRemoteNotificationsWithDeviceToken`
* This behavior is identical to what you'd see if we hadn't previously registered for user notification settings, though
* in this case we've verified that we *have* properly registered notification settings.
*/
private var isSusceptibleToFailedPushRegistration: Bool {
// Only affects users who have disabled both: background refresh *and* notifications
guard UIApplication.shared.backgroundRefreshStatus == .denied else {
return false
}
guard let notificationSettings = UIApplication.shared.currentUserNotificationSettings else {
return false
}
guard notificationSettings.types == [] else {
return false
}
return true
}
private func registerForVanillaPushToken() -> Promise<String> {
AssertIsOnMainThread()
guard self.vanillaTokenPromise == nil else {
let promise = vanillaTokenPromise!
assert(promise.isPending)
return promise.map { $0.hexEncodedString }
}
// No pending vanilla token yet; create a new promise
let (promise, resolver) = Promise<Data>.pending()
self.vanillaTokenPromise = promise
self.vanillaTokenResolver = resolver
UIApplication.shared.registerForRemoteNotifications()
let kTimeout: TimeInterval = 10
let timeout: Promise<Data> = after(seconds: kTimeout).map { throw PushRegistrationError.timeout }
let promiseWithTimeout: Promise<Data> = race(promise, timeout)
return promiseWithTimeout.recover { error -> Promise<Data> in
switch error {
case PushRegistrationError.timeout:
if self.isSusceptibleToFailedPushRegistration {
// If we've timed out on a device known to be susceptible to failures, quit trying
// so the user doesn't remain indefinitely hung for no good reason.
throw PushRegistrationError.pushNotSupported(description: "Device configuration disallows push notifications")
} else {
// Sometimes registration can just take a while.
// If we're not on a device known to be susceptible to push registration failure,
// just return the original promise.
return promise
}
default:
throw error
}
}.map { (pushTokenData: Data) -> String in
if self.isSusceptibleToFailedPushRegistration {
// Sentinal in case this bug is fixed
OWSLogger.debug("Device was unexpectedly able to complete push registration even though it was susceptible to failure.")
}
return pushTokenData.hexEncodedString
}.ensure {
self.vanillaTokenPromise = nil
}
}
}
// We transmit pushToken data as hex encoded string to the server
fileprivate extension Data {
var hexEncodedString: String {
return map { String(format: "%02hhx", $0) }.joined()
}
}
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