I have a file for a BackgroundSession class
class BackgroundSession: NSObject {
static let shared = BackgroundSession()
static let identifier = "com.***.bg"
private var session: URLSession!
var savedCompletionHandler: (() -> Void)?
private override init() {
super.init()
let configuration = URLSessionConfiguration.background(withIdentifier: BackgroundSession.identifier)
session = URLSession(configuration: configuration, delegate: self, delegateQueue: nil)
}
func start(_ request: URLRequest) {
session.downloadTask(with: request).resume()
}
}
extension BackgroundSession: URLSessionDelegate {
func urlSessionDidFinishEvents(forBackgroundURLSession session: URLSession) {
DispatchQueue.main.async {
self.savedCompletionHandler?()
self.savedCompletionHandler = nil
}
}
}
extension BackgroundSession: URLSessionTaskDelegate {
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
if let error = error {
// handle failure here
print("\(error.localizedDescription)")
}
}
}
extension BackgroundSession: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
do {
let data = try Data(contentsOf: location)
let json = try JSONSerialization.jsonObject(with: data)
print("\(json)")
// do something with json
} catch {
print("\(error.localizedDescription)")
}
}
}
I am listening for background location updates to come in later on
func locationManager(_ manager: CLLocationManager, didUpdateLocations locations: [CLLocation]) {
print("didUpdateLocations")
if locations.first != nil {
let lastLocation = locations.last
self.lastLocation = lastLocation
print("doing background work")
self.getUserData()
if PubnubController.pubnubChannel != nil {
PubnubController.sharedClient.publish(["action": "newCoordinates", "data": ["coordinates": ["latitude": lastLocation?.coordinate.latitude, "longitude": lastLocation?.coordinate.longitude]]], toChannel: PubnubController.pubnubChannel!, compressed: false)
}
}
}
self.getUserData() looks like this
func getUserData() {
print("getUserData")
if (self.userId != -1 && self.userAuthToken != nil) {
let httpUrl: String = "https://api.***.com/dev/users/\(self.userId)"
guard let url = URL(string: httpUrl) else {
return
}
var request = URLRequest(url: url)
request.setValue(self.userAuthToken, forHTTPHeaderField: "Authorization")
let session = BackgroundSession.shared
session.start(request)
}
}
In my ExtensionDelegate.swift I have the typical func handle(_ backgroundTasks: Set<WKRefreshBackgroundTask>)
with a for loop and switch set with a case for WKURLSessionRefreshBackgroundTask that looks like this
case let urlSessionTask as WKURLSessionRefreshBackgroundTask:
print("WKURLSessionRefreshBackgroundTask")
// Be sure to complete the URL session task once you’re done.
urlSessionTask.setTaskCompletedWithSnapshot(false)
In my controller, I also have pasted the function the class is supposed to call
func application(_ application: WKExtension, handleEventsForBackgroundURLSession identifier: String, completionHandler: #escaping () -> Void) {
print("handleEventsForBackgroundURLSession")
BackgroundSession.shared.savedCompletionHandler = parseUserData
}
It seems that both the delegate function and this pasted function are not being called with my data. I'm having a really hard time trying to understand this background URLSession flow
Note the BackgroundSession class came from this Stackoverflow question
URLSession.datatask with request block not called in background
This handleEventsForBackgroundURLSession is an iOS pattern. This is a method of the UIApplicationDelegate protocol. You can’t just add that to some random controller. It’s only applicable for your iOS app's UIApplicationDelegate.
For watchOS, I suspect the idea is the same, except rather than calling the completion handler that iOS provides, supply your own completion handler to the BackgroundSession that calls the setTaskCompletedWithSnapshot of the WKURLSessionRefreshBackgroundTask:
func handle(_ backgroundTasks: Set<WKRefreshBackgroundTask>) {
// Sent when the system needs to launch the application in the background to process tasks. Tasks arrive in a set, so loop through and process each one.
for task in backgroundTasks {
// Use a switch statement to check the task type
switch task {
case let urlSessionTask as WKURLSessionRefreshBackgroundTask:
// Be sure to complete the URL session task once you’re done.
BackgroundSession.shared.savedCompletionHandler = {
urlSessionTask.setTaskCompletedWithSnapshot(false)
}
...
}
}
}
But, effectively, the idea is the same. We’re deferring the setTaskCompletedWithSnapshot until urlSessionDidFinishEvents(forBackgroundURLSession:) is called.
If you want the BackgroundSession to call your controller’s parser, you can specify a protocol for that interface:
protocol Parser: class {
func parse(_ data: Data)
}
You can then give your BackgroundSession a property to keep track of the parser:
weak var parser: Parser?
You can have the didFinishDownloadingTo call the parser:
extension BackgroundSession: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
do {
let data = try Data(contentsOf: location)
parser?.parse(data)
} catch {
os_log(.error, log: log, "Error retrieving data for %{public}#: %{public}#", downloadTask.originalRequest?.url?.absoluteString ?? "Unknown request", error.localizedDescription)
}
}
}
You can then have your controller (or whatever) (a) conform to this protocol; (b) implement the parse(_:) method of that protocol; and (c) specify itself as the parser:
BackgroundSession.shared.parser = self
Related
I'm used to making a custom class for URLSession using singleton. So I'm using it with URLSession delegate first time and I'm getting confused. Because delegate method is not called!
Can I know any solution? Did I miss something?
And I just want to check whether making a custom class for URLSession is a good thing?
Here is my code. This is my custom API for URLSession.
import UIKit
class CustomNetworkAPI {
static let shared = CustomNetworkAPI()
var session: URLSession?
private var sessionDataTask: URLSessionDataTask?
private var sessionDownloadTask: URLSessionDownloadTask?
var cache: URLCache?
private init() {}
func downloadTaskForImage(_ url: URL, _ completionHandler: #escaping (Result<URL, Error>) -> ()) {
// print(session.delegate)
sessionDownloadTask = session?.downloadTask(with: url, completionHandler: { (url, response, error) in
if let error = error {
completionHandler(.failure(error))
return
}
guard let url = url else {
completionHandler(.failure(URLRequestError.dataError))
return
}
completionHandler(.success(url))
})
sessionDownloadTask?.resume()
}
}
And this is sample code(not whole thing) of VC using the api and delegate.
import UIKit
class ViewController: UIViewController {
override func viewDidLoad() {
super.viewDidLoad()
let api = CustomNetworkAPI.shared
let config = URLSessionConfiguration.default
api.session = URLSession(configuration: config, delegate: self, delegateQueue: nil)
guard let url = URL(string: "...") else { return }
api.downloadTaskForImage(url) { (result) in
switch result {
case .success(let url):
print(url)
case .failure(let error):
print(error)
}
}
}
}
extension ViewController: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
print("down load complete")
}
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
print("ing")
}
}
I was missing something, which is this quote below that I found in apple docs.
Your URLSession object doesn’t need to have a delegate. If no delegate is assigned, a system-provided delegate is used, and you must provide a completion callback to obtain the data.
So I tried to remove the completion handler block, and the delegate method was called.
I've recently been integrating Background Transfer Service into an application so that the user is able to download files in the background.
Everything works as expected. But my delegate methods stops getting called after sending the application into the background and then re-opening the application.
File is actually being downloaded in the background but I am not receiving any call to my delegate methods. So cant show any progress to the users. So it feels like download is got stuck.
I had to remove our app from the app store as it is hurting our app. I need to resubmit the app as soon as possible. But with this problem, it's not possible.
My download manager code:
import Foundation
import Zip
import UserNotifications
////------------------------------------------------------
//// MARK: - Download Progress Struct
////------------------------------------------------------
public struct DownloadProgress {
public let name: String
public let progress: Float
public let completedUnitCount: Float
public let totalUnitCount: Float
}
protocol DownloadDelegate: class {
func downloadProgressUpdate(for progress: DownloadProgress)
func unzipProgressUpdate(for progress: Double)
func onFailure()
}
class DownloadManager : NSObject, URLSessionDownloadDelegate {
//------------------------------------------------------
// MARK: - Downloader Properties
//------------------------------------------------------
static var shared = DownloadManager()
private lazy var session: URLSession = {
let config = URLSessionConfiguration.background(withIdentifier: "\(Bundle.main.bundleIdentifier!).bookDownloader")
config.isDiscretionary = true
config.sessionSendsLaunchEvents = true
return URLSession(configuration: config, delegate: self, delegateQueue: nil)
}()
var delegate: DownloadDelegate?
var previousUrl: URL?
var resumeData: Data?
var task: URLSessionDownloadTask?
// ProgressHandler --> identifier, progress, completedUnitCount, totalUnitCount
typealias ProgressHandler = (String, Float, Float, Float) -> ()
//------------------------------------------------------
// MARK: - Downloader Initializer
//------------------------------------------------------
override private init() {
super.init()
}
func activate() -> URLSession {
// Warning: If an URLSession still exists from a previous download, it doesn't create a new URLSession object but returns the existing one with the old delegate object attached!
return session
}
//------------------------------------------------------
// MARK: - Downloader start download
//------------------------------------------------------
func startDownload(url: URL) {
if let previousUrl = self.previousUrl {
if url == previousUrl {
if let data = resumeData {
let downloadTask = session.downloadTask(withResumeData: data)
downloadTask.resume()
self.task = downloadTask
} else {
let downloadTask = session.downloadTask(with: url)
downloadTask.resume()
self.task = downloadTask
}
} else {
let downloadTask = session.downloadTask(with: url)
downloadTask.resume()
self.task = downloadTask
}
} else {
let downloadTask = session.downloadTask(with: url)
downloadTask.resume()
self.task = downloadTask
}
}
//------------------------------------------------------
// MARK: - Downloader stop download
//------------------------------------------------------
func stopDownload() {
if let task = task {
task.cancel { resumeDataOrNil in
guard let resumeData = resumeDataOrNil else {
// download can't be resumed; remove from UI if necessary
return
}
self.resumeData = resumeData
}
}
}
//------------------------------------------------------
// MARK: - Downloader Progress Calculator
//------------------------------------------------------
private func calculateProgress(session : URLSession, completionHandler : #escaping ProgressHandler) {
session.getTasksWithCompletionHandler { (tasks, uploads, downloads) in
let progress = downloads.map({ (task) -> Float in
if task.countOfBytesExpectedToReceive > 0 {
return Float(task.countOfBytesReceived) / Float(task.countOfBytesExpectedToReceive)
} else {
return 0.0
}
})
let countOfBytesReceived = downloads.map({ (task) -> Float in
return Float(task.countOfBytesReceived)
})
let countOfBytesExpectedToReceive = downloads.map({ (task) -> Float in
return Float(task.countOfBytesExpectedToReceive)
})
if let name = UserDefaults.standard.string(forKey: UserDefaultKeys.OnBookDownload) {
if name.isEmpty {
return self.session.invalidateAndCancel()
}
completionHandler(name, progress.reduce(0.0, +), countOfBytesReceived.reduce(0.0, +), countOfBytesExpectedToReceive.reduce(0.0, +))
}
}
}
//------------------------------------------------------
// MARK: - Downloader Notifiers
//------------------------------------------------------
func postUnzipProgress(progress: Double) {
if let delegate = self.delegate {
delegate.unzipProgressUpdate(for: progress)
}
// NotificationCenter.default.post(name: .UnzipProgress, object: progress)
}
func postDownloadProgress(progress: DownloadProgress) {
if let delegate = self.delegate {
delegate.downloadProgressUpdate(for: progress)
}
// NotificationCenter.default.post(name: .BookDownloadProgress, object: progress)
}
func postNotification() {
let center = UNUserNotificationCenter.current()
center.requestAuthorization(options: [.alert, .sound]) { (granted, error) in
// Enable or disable features based on authorization.
}
let content = UNMutableNotificationContent()
content.title = NSString.localizedUserNotificationString(forKey: "Download Completed".localized(), arguments: nil)
content.body = NSString.localizedUserNotificationString(forKey: "Quran Touch app is ready to use".localized(), arguments: nil)
content.sound = UNNotificationSound.default()
content.categoryIdentifier = "com.qurantouch.qurantouch.BookDownloadComplete"
// Deliver the notification in 60 seconds.
let trigger = UNTimeIntervalNotificationTrigger.init(timeInterval: 2.0, repeats: false)
let request = UNNotificationRequest.init(identifier: "BookDownloadCompleted", content: content, trigger: trigger)
// Schedule the notification.
center.add(request)
}
//------------------------------------------------------
// MARK: - Downloader Delegate methods
//------------------------------------------------------
// On Progress Update
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
if let name = UserDefaults.standard.string(forKey: UserDefaultKeys.OnBookDownload) {
if name.isEmpty {
return self.session.invalidateAndCancel()
}
} else {
return self.session.invalidateAndCancel()
}
if totalBytesExpectedToWrite > 0 {
calculateProgress(session: session, completionHandler: { (name, progress, completedUnitCount, totalUnitCount) in
let progressInfo = DownloadProgress(name: name, progress: progress, completedUnitCount: completedUnitCount, totalUnitCount: totalUnitCount)
print(progressInfo.progress)
self.postDownloadProgress(progress: progressInfo)
})
}
}
// On Successful Download
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
if let name = UserDefaults.standard.string(forKey: UserDefaultKeys.OnBookDownload) {
if name.isEmpty {
return self.session.invalidateAndCancel()
}
let folder = URL.createFolder(folderName: "\(Config.bookFolder)\(name)")
let fileURL = folder!.appendingPathComponent("\(name).zip")
if let url = URL.getFolderUrl(folderName: "\(Config.bookFolder)\(name)") {
do {
try FileManager.default.moveItem(at: location, to: fileURL)
// Download completed. Now time to unzip the file
try Zip.unzipFile((fileURL), destination: url, overwrite: true, password: nil, progress: { (progress) -> () in
if progress == 1 {
App.quranDownloaded = true
UserDefaults.standard.set("selected", forKey: name)
DispatchQueue.main.async {
Reciter().downloadCompleteReciter(success: true).done{_ in}.catch{_ in}
guard let appDelegate = UIApplication.shared.delegate as? AppDelegate,
let backgroundCompletionHandler =
appDelegate.backgroundCompletionHandler else {
return
}
backgroundCompletionHandler()
self.postNotification()
}
// Select the book that is downloaded
// Delete the downlaoded zip file
URL.removeFile(file: fileURL)
}
self.postUnzipProgress(progress: progress)
}, fileOutputHandler: {(outputUrl) -> () in
})
} catch {
print(error)
}
}
} else {
return self.session.invalidateAndCancel()
}
}
// On Dwonload Completed with Failure
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
debugPrint("Task completed: \(task), error: \(error)")
guard let error = error else {
// Handle success case.
return
}
let userInfo = (error as NSError).userInfo
if let resumeData = userInfo[NSURLSessionDownloadTaskResumeData] as? Data {
self.resumeData = resumeData
}
if let delegate = self.delegate {
if !error.isCancelled {
delegate.onFailure()
}
}
}
// On Dwonload Invalidated with Error
func urlSession(_ session: URLSession, didBecomeInvalidWithError error: Error?) {
guard let error = error else {
// Handle success case.
return
}
if let delegate = self.delegate {
if !error.isCancelled {
delegate.onFailure()
}
}
}
}
// MARK: - URLSessionDelegate
extension DownloadManager: URLSessionDelegate {
// Standard background session handler
func urlSessionDidFinishEvents(forBackgroundURLSession session: URLSession) {
DispatchQueue.main.async {
if let appDelegate = UIApplication.shared.delegate as? AppDelegate,
let completionHandler = appDelegate.backgroundCompletionHandler {
completionHandler()
appDelegate.backgroundCompletionHandler = nil
}
}
}
}
And in app delegate:
var backgroundCompletionHandler: (() -> Void)?
func application(_ application: UIApplication, handleEventsForBackgroundURLSession identifier: String, completionHandler: #escaping () -> Void) {
backgroundCompletionHandler = completionHandler
}
Finally found a workaround for the issue. Once the application did return from background mode, make sure to call resume on all running tasks. This seems to reactivate callbacks to the delegate.
func applicationDidBecomeActive(_ application: UIApplication) {
// Restart any tasks that were paused (or not yet started) while the application was inactive. If the application was previously in the background, optionally refresh the user interface.
DownloadManager.shared.session.getAllTasks(completionHandler: { tasks in
for task in tasks {
task.resume()
}
})
}
For more information on this topic, Follow this link:
https://forums.developer.apple.com/thread/77666
You need to resume all tasks once you come back to active state.
URLSession.shared.getAllTasks { (tasks) in
for task in tasks
{
task.resume()
}
}
Use case : Download file from a server via one API which will give the download server url(download server url vality is for 10 secs only).
I have enabled the background capabilities.
Then created one Download Manager which holds the OperationQueue for download data task.
In Operation class when main() function calls, I have makes the API call which will return the download server URL and started a download.
Works fine in debug mode but does not work in release mode.
Download Manager :
final class SCDownloadManager: NSObject {
#objc static var shared = SCDownloadManager()
private override init() {
super.init()
NotificationCenter.default.addObserver(self, selector: #selector(SCDownloadManager.networkDidChange(_:)), name: NSNotification.Name.init(NetworkConnectionChanged), object: nil)
}
/// Dictionary of operations, keyed by the `Download URL` of the `URLSessionTask`
fileprivate var operations = [URL: SCDownloadOperation]()
fileprivate var serverURLRequestMap = [URL: SCDownloadOperation]()
/// Serial NSOperationQueue for downloads
private let queue: OperationQueue = {
let _queue = OperationQueue()
_queue.name = "SCDownloadManagerQueue"
_queue.maxConcurrentOperationCount = 3
return _queue
}()
/// Delegate-based NSURLSession for DownloadManager
lazy var downloadSession: URLSession = {
let configuration = URLSessionConfiguration.background(withIdentifier: "com.xyz.background.download")
let sessionQueue = OperationQueue()
return URLSession(configuration: configuration, delegate: self, delegateQueue: sessionQueue)
}()
lazy var dataSession: URLSession = {
let configuration = URLSessionConfiguration.background(withIdentifier: "com.xyz.background.url")
let sessionQueue = OperationQueue()
return URLSession(configuration: configuration, delegate: self, delegateQueue: sessionQueue)
}()
#discardableResult
#objc func addDownload(_ downloadRecord: DownloadRecord) -> SCDownloadOperation {
let operation = SCDownloadOperation(withDownloadRecord: downloadRecord)
operation.delegate = self
operations[downloadRecord.downloadUrl] = operation
queue.addOperation(operation)
return operation
}
/// Cancel all queued operations
#objc func cancelAll() {
queue.cancelAllOperations()
}
#objc func networkDidChange(_ notification: Notification) {
if let reachability = notification.object as? Reachability {
if reachability.currentReachabilityStatus() == NotReachable {
cancelAll()
}
}
}
}
//MARK:- Download operation delegate
extension SCDownloadManager: SCDownloadOperationDelegate {
func getServerDownloadUrl(forRequest request: URLRequest, ofOperation operation: SCDownloadOperation) {
if let url = request.url {
serverURLRequestMap[url] = operation
}
self.dataSession.downloadTask(with: request).resume()
}
}
// MARK: URLSessionDownloadDelegate methods
extension SCDownloadManager: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
guard let sourceURL = downloadTask.originalRequest?.url else { return }
if session == dataSession {
if FileManager.default.isReadableFile(atPath: location.path) {
if let data = FileManager.default.contents(atPath: location.path) {
if let downloadOperation = serverURLRequestMap[sourceURL] {
if let serverUrl = String(data: data, encoding: .utf8), let downloadServerUrl = URL(string: serverUrl) {
self.operations.changeKey(from: downloadOperation.downloadRecord.downloadUrl, to: downloadServerUrl)
downloadOperation.downloadRecord.downloadUrl = downloadServerUrl
if let url = downloadOperation.downloadRecord.downloadUrl {
downloadOperation.downloadRecord.downloadTask = downloadSession.downloadTask(with: url)
downloadOperation.downloadRecord.downloadTask.resume()
}
}
}
do {
try FileManager.default.removeItem(at: location)
} catch {
print("error while removing file from default location")
}
}
}
} else {
operations[sourceURL]?.urlSession(session, downloadTask: downloadTask, didFinishDownloadingTo: location)
}
}
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
if session == self.downloadSession {
guard let sourceURL = downloadTask.originalRequest?.url else { return }
operations[sourceURL]?.urlSession(session, downloadTask: downloadTask, didWriteData: bytesWritten, totalBytesWritten: totalBytesWritten, totalBytesExpectedToWrite: totalBytesExpectedToWrite)
}
}
}
// MARK: URLSessionTaskDelegate methods
extension SCDownloadManager: URLSessionTaskDelegate {
func urlSessionDidFinishEvents(forBackgroundURLSession session: URLSession) {
if downloadSession == session {
DispatchQueue.main.async {
if let completionHandler = Constants.appDelegate.backgroundTransferCompletionHandler {
Constants.appDelegate.backgroundTransferCompletionHandler = nil
completionHandler()
}
}
}
}
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
guard let sourceURL = task.originalRequest?.url else { return }
if session == dataSession {
if error == nil {
} else {
print("got error while doing API on download task")
}
} else {
operations[sourceURL]?.urlSession(session, task: task, didCompleteWithError: error)
operations.removeValue(forKey: sourceURL)
}
}
}
Operation Class :
class SCDownloadOperation: SCAsynchronousOperation {
let downloadRecord: DownloadRecord
var getServerDownloadUrl: ((URLRequest)->Void)?
weak var delegate: SCDownloadOperationDelegate?
init(withDownloadRecord dr: DownloadRecord) {
downloadRecord = dr
super.init()
}
override func cancel() {
if let task = downloadRecord.downloadTask{
task.cancel()
}
super.cancel()
}
override func main() {
switch downloadRecord.downloadDataType {
case DOWNLOAD_DATA_TYPE_CONTENT:
let configuration = RequestConfiguration(withMethodType: .GET, urlString: downloadRecord.downloadUrl.absoluteString)
if let request = NetworkManager.sharedInstance.urlRequest(forRequestConfiguration: configuration) {
delegate?.getServerDownloadUrl(forRequest: request, ofOperation: self)
}
default: break
}
}
}
// MARK: NSURLSessionDownloadDelegate methods
extension SCDownloadOperation: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
downloadRecord.progress = 1
switch downloadRecord.downloadDataType {
case DOWNLOAD_DATA_TYPE_CONTENT:
processDownloadFinish(atLocation: location)
default: break
}
}
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
downloadRecord.isExecuting = true
downloadRecord.isDownloadProgressAvailable = true
let downloadProgress = Float(totalBytesWritten) / Float(totalBytesExpectedToWrite)
downloadRecord.progress = downloadProgress
downloadRecord.percentComplete = ((Float(totalBytesWritten) / Float(totalBytesExpectedToWrite))*100)
downloadRecord.downloadProgress = downloadProgress
switch downloadRecord.downloadDataType {
case DOWNLOAD_DATA_TYPE_CONTENT:
updateWrittenData()
default: break
}
}
}
// MARK: NSURLSessionTaskDelegate methods
extension SCDownloadOperation: URLSessionTaskDelegate {
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
completeOperation()
if error != nil {
print("\(String(describing: error))")
switch downloadRecord.downloadDataType {
case DOWNLOAD_DATA_TYPE_CONTENT:
contentDownloadFail()
default: break
}
}
}
}
I want to click a button, then download a number of files sequentially and after complete download, then open a webview to display. But I encounter download files not completed the webview already opened. I saw some approach in days and don't know how to fix the problem. Can anyone help?
Many Thanks.
DownloadManager Class
class DownloadManager: NSObject {
/// Dictionary of operations, keyed by the `taskIdentifier` of the `URLSessionTask`
fileprivate var operations = [Int: DownloadOperation]()
/// Serial NSOperationQueue for downloads
private let queue: OperationQueue = {
let _queue = OperationQueue()
_queue.name = "download"
_queue.maxConcurrentOperationCount = 1 // I'd usually use values like 3 or 4 for performance reasons, but OP asked about downloading one at a time
return _queue
}()
/// Delegate-based NSURLSession for DownloadManager
lazy var session: URLSession = {
let configuration = URLSessionConfiguration.default
return URLSession(configuration: configuration, delegate: self, delegateQueue: nil)
}()
/// Add download
///
/// - parameter URL: The URL of the file to be downloaded
///
/// - returns: The DownloadOperation of the operation that was queued
#discardableResult
func addDownload(_ url: URL) -> DownloadOperation {
let operation = DownloadOperation(session: session, url: url)
operations[operation.task.taskIdentifier] = operation
queue.addOperation(operation)
return operation
}
/// Cancel all queued operations
func cancelAll() {
queue.cancelAllOperations()
}
}
// MARK: URLSessionDownloadDelegate methods
extension DownloadManager: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
operations[downloadTask.taskIdentifier]?.urlSession(session, downloadTask: downloadTask, didFinishDownloadingTo: location)
}
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
operations[downloadTask.taskIdentifier]?.urlSession(session, downloadTask: downloadTask, didWriteData: bytesWritten, totalBytesWritten: totalBytesWritten, totalBytesExpectedToWrite: totalBytesExpectedToWrite)
}
}
// MARK: URLSessionTaskDelegate methods
extension DownloadManager: URLSessionTaskDelegate {
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
let key = task.taskIdentifier
operations[key]?.urlSession(session, task: task, didCompleteWithError: error)
operations.removeValue(forKey: key)
}
}
/// Asynchronous Operation subclass for downloading
class DownloadOperation : AsynchronousOperation {
let task: URLSessionTask
init(session: URLSession, url: URL) {
task = session.downloadTask(with: url)
super.init()
}
override func cancel() {
task.cancel()
super.cancel()
}
override func main() {
task.resume()
}
}
// MARK: NSURLSessionDownloadDelegate methods
extension DownloadOperation: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
do {
let manager = FileManager.default
let destinationURL = try manager.url(for: .documentDirectory, in: .userDomainMask, appropriateFor: nil, create: false)
.appendingPathComponent(downloadTask.originalRequest!.url!.lastPathComponent)
if manager.fileExists(atPath: destinationURL.path) {
try manager.removeItem(at: destinationURL)
}
try manager.moveItem(at: location, to: destinationURL)
} catch {
print("\(error)")
}
}
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didWriteData bytesWritten: Int64, totalBytesWritten: Int64, totalBytesExpectedToWrite: Int64) {
let progress = Double(totalBytesWritten) / Double(totalBytesExpectedToWrite)
print("\(downloadTask.originalRequest!.url!.absoluteString) \(progress)")
}
}
// MARK: NSURLSessionTaskDelegate methods
extension DownloadOperation: URLSessionTaskDelegate {
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
completeOperation()
if error != nil {
print("\(error)")
}
}
}
/// Asynchronous operation base class
///
/// This is abstract to class performs all of the necessary KVN of `isFinished` and
/// `isExecuting` for a concurrent `Operation` subclass. You can subclass this and
/// implement asynchronous operations. All you must do is:
///
/// - override `main()` with the tasks that initiate the asynchronous task;
///
/// - call `completeOperation()` function when the asynchronous task is done;
///
/// - optionally, periodically check `self.cancelled` status, performing any clean-up
/// necessary and then ensuring that `completeOperation()` is called; or
/// override `cancel` method, calling `super.cancel()` and then cleaning-up
/// and ensuring `completeOperation()` is called.
public class AsynchronousOperation : Operation {
override public var isAsynchronous: Bool { return true }
private let stateLock = NSLock()
private var _executing: Bool = false
override private(set) public var isExecuting: Bool {
get {
return stateLock.withCriticalScope { _executing }
}
set {
willChangeValue(forKey: "isExecuting")
stateLock.withCriticalScope { _executing = newValue }
didChangeValue(forKey: "isExecuting")
}
}
private var _finished: Bool = false
override private(set) public var isFinished: Bool {
get {
return stateLock.withCriticalScope { _finished }
}
set {
willChangeValue(forKey: "isFinished")
stateLock.withCriticalScope { _finished = newValue }
didChangeValue(forKey: "isFinished")
}
}
/// Complete the operation
///
/// This will result in the appropriate KVN of isFinished and isExecuting
public func completeOperation() {
if isExecuting {
isExecuting = false
}
if !isFinished {
isFinished = true
}
}
override public func start() {
if isCancelled {
isFinished = true
return
}
isExecuting = true
main()
}
}
/*
Copyright (C) 2015 Apple Inc. All Rights Reserved.
See LICENSE.txt for this sample’s licensing information
Abstract:
An extension to `NSLock` to simplify executing critical code.
From Advanced NSOperations sample code in WWDC 2015 https://developer.apple.com/videos/play/wwdc2015/226/
From https://developer.apple.com/sample-code/wwdc/2015/downloads/Advanced-NSOperations.zip
*/
extension NSLock {
/// Perform closure within lock.
///
/// An extension to `NSLock` to simplify executing critical code.
///
/// - parameter block: The closure to be performed.
func withCriticalScope<T>(block: () -> T) -> T {
lock()
let value = block()
unlock()
return value
}
}
Then, I call below code when click download button.
func downloadFiles() {
do {
var localJson: JSON?
let serverJson = self.serverJson
let str = serverJson?.description
let data = str?.data(using: .utf8)
let fileManager = FileManager.default
let documentsUrl = FileManager.default.urls(for: .documentDirectory, in: .userDomainMask).first! as URL
let oldManifestUrl = documentsUrl.appendingPathComponent("manifest.json")
let oldManifestPath = oldManifestUrl.path
if fileManager.fileExists(atPath: oldManifestPath) {
let jsonData = NSData(contentsOfFile:oldManifestPath)
localJson = JSON(data: jsonData! as Data)
}
var totalCount = 0
let downloadManager = DownloadManager()
for (index, subJson): (String, JSON) in serverJson! {
for (_, subJson): (String, JSON) in subJson {
let filepath = subJson["path"].stringValue
let nUpdated = subJson["updated"].stringValue
if let oUpdated = localJson?[index].array?.filter({ $0["path"].string == filepath}).first?["updated"].stringValue {
if (oUpdated == nUpdated) { continue }
}
var absPath = filepath
let strIdx = absPath.index(absPath.startIndex, offsetBy: 2)
if (absPath.hasPrefix("./"))
{
absPath = absPath.substring(from: strIdx)
}
let sourceUrl = URL(string: self.sourceUrl.appending(absPath))
downloadManager.addDownload(sourceUrl!)
}
}
// Remove temp json file first if exists.
if fileManager.fileExists(atPath: oldManifestPath) {
try? fileManager.removeItem(atPath: oldManifestPath)
}
// Write temp json file to local.
try data?.write(to: oldManifestUrl)
self.defaults.set(hashes, forKey: "LastHash")
let alertController = UIAlertController(title: "Information", message: "Download completed", preferredStyle: UIAlertControllerStyle.alert)
alertController.addAction(UIAlertAction(title: "OK", style: UIAlertActionStyle.default, handler: nil))
self.present(alertController, animated: true, completion: {
self.openWebView()
})
} catch {
print("Write JSON data to file failed, \(error.localizedDescription)")
}
}
What you need is a promise library that offers code execution on certain completion conditions. Currently, you make the request and open the webview straight away. The requests take time to load but your code doesn't tell the device to wait for the requests to finish before opening up the webview. You can use PromiseKit for this purpose. With this library, you can send multiple requests asynchronously and then open the webview when all of the requests have been processed. You will have to explore it in order to understand how it works. Basically, your code structure will look something like this
var promiseArray = [Promise<Void>]()
for WHATEVER CONDITION YOU WANT TO USE FOR THE LOOP {
let promise = YOUR REQUEST GOES HERE
promiseArray.append(promise)
}
_ = when(fulfilled: promiseArray).then {
OPEN WEBVIEW HERE
}
URLSession data task block is not calling when the app is in background and it stuck at dataTask with request.
When I open the app the block gets called. By the way I'm using https request.
This is my code:
let request = NSMutableURLRequest(url: URL(string: url as String)!,
cachePolicy: .reloadIgnoringCacheData,
timeoutInterval:20)
request.httpMethod = method as String
request.setValue("application/x-www-form-urlencoded", forHTTPHeaderField: "Content-Type")
let session = URLSession.shared
let data = params.data(using: String.Encoding.utf8.rawValue)
request.httpBody = data
session.dataTask(with: request as URLRequest,completionHandler:
{(data, response, error) -> Void in
if error == nil
{
do {
let result = try JSONSerialization.jsonObject(with: data!, options:
JSONSerialization.ReadingOptions.mutableContainers)
print(result)
completionHandler(result as AnyObject?,nil)
}
catch let JSONError as NSError{
completionHandler(nil,JSONError.localizedDescription as NSString?)
}
}
else{
completionHandler(nil,error!.localizedDescription as NSString?)
}
}).resume()
Working perfectly when the app is in active state. Is there anything wrong in my code. please point me
If you want downloads to progress after your app is no longer in foreground, you have to use background session. The basic constraints of background sessions are outlined in Downloading Files in Background, and are essentially:
Use delegate-based URLSession with background URLSessionConfiguration.
Use upload and download tasks only, with no completion handlers.
In iOS, Implement application(_:handleEventsForBackgroundURLSession:completionHandler:) app delegate, saving the completion handler and starting your background session.
Implement urlSessionDidFinishEvents(forBackgroundURLSession:) in your URLSessionDelegate, calling that saved completion handler to let OS know you're done processing the background request completion.
So, pulling that together:
func startRequest(for urlString: String, method: String, parameters: String) {
let url = URL(string: urlString)!
var request = URLRequest(url: url, cachePolicy: .reloadIgnoringCacheData, timeoutInterval: 20)
request.httpMethod = method
request.setValue("application/x-www-form-urlencoded", forHTTPHeaderField: "Content-Type")
request.httpBody = parameters.data(using: .utf8)
BackgroundSession.shared.start(request)
}
Where
class BackgroundSession: NSObject {
static let shared = BackgroundSession()
static let identifier = "com.domain.app.bg"
private var session: URLSession!
#if !os(macOS)
var savedCompletionHandler: (() -> Void)?
#endif
private override init() {
super.init()
let configuration = URLSessionConfiguration.background(withIdentifier: BackgroundSession.identifier)
session = URLSession(configuration: configuration, delegate: self, delegateQueue: nil)
}
func start(_ request: URLRequest) {
session.downloadTask(with: request).resume()
}
}
extension BackgroundSession: URLSessionDelegate {
#if !os(macOS)
func urlSessionDidFinishEvents(forBackgroundURLSession session: URLSession) {
DispatchQueue.main.async {
self.savedCompletionHandler?()
self.savedCompletionHandler = nil
}
}
#endif
}
extension BackgroundSession: URLSessionTaskDelegate {
func urlSession(_ session: URLSession, task: URLSessionTask, didCompleteWithError error: Error?) {
if let error = error {
// handle failure here
print("\(error.localizedDescription)")
}
}
}
extension BackgroundSession: URLSessionDownloadDelegate {
func urlSession(_ session: URLSession, downloadTask: URLSessionDownloadTask, didFinishDownloadingTo location: URL) {
do {
let data = try Data(contentsOf: location)
let json = try JSONSerialization.jsonObject(with: data)
print("\(json)")
// do something with json
} catch {
print("\(error.localizedDescription)")
}
}
}
And the iOS app delegate does:
func application(_ application: UIApplication, handleEventsForBackgroundURLSession identifier: String, completionHandler: #escaping () -> Void) {
BackgroundSession.shared.savedCompletionHandler = completionHandler
}
Or simply start a BackgroundTask
func send(...) {
let backgroundTaskID = UIApplication.shared.beginBackgroundTask(expirationHandler: nil)
let session = URLSession(configuration: .default)
// ... after all the main logic, when you finish:
DispatchQueue.main.async {
completion(result)
UIApplication.shared.endBackgroundTask(backgroundTaskID)
}
}
You need a background session. The URLSessionDataTask which as per Apple's documentation doesn't support background downloads.
Create a URLSessionDownloadTask and use its delegate method it should work.
Follow this link
[URLSessionDownloadTask setDownloadTaskDidWriteDataBlock:^(NSURLSession *session, NSURLSessionDownloadTask *downloadTask, int64_t bytesWritten, int64_t totalBytesWritten, int64_t totalBytesExpectedToWrite) {
CGFloat percentDone = (double)(totalBytesWritten)/(double)totalBytesExpectedToWrite;
[SVProgressHUD showWithStatus:[NSString stringWithFormat:#"%.2f%%",percentDone*100]];
}];
[downloadTask resume];
// Apply as shown in picture
/*********************/