Wrapping my head around CoreData and CloudKit

Kurt Frey - Aug 25 '22 - - Dev Community

This blog post was also published on https://www.nitricware.com

If I got anything wrong, please leave a comment!

I like to understand things that wrapper and APIs like to obfuscate. CoreData especially in combination with CloudKit was very overwhelming for me. And it still is. However I could clear some things up for me.

Since I preferred Apple doing some heavy lifting, posts and tutorials that "built the whole Core Data Stack from scratch" confused me. I wanted to understand and expand what was already there.

Prepare your app for CoreData in iCloud

  1. Create a new application and check "use CoreData" and "host in iCloud"

OR (assuming the app already uses CoreData, because if not you'd have to add the whole PersistenceController)

  1. Replace NSPersitentContainer in PersistenceController with NSPersitentCloudKitContainer
  2. Add container.viewContext.automaticallyMergesChangesFromParent = true in PersistenceController.init() as the last line
  3. In "Signing & Capabilities" add for each target:
    1. Background Modes: Remote Notifications
    2. iCloud: CloudKit and activate the checkbox next to the container for your app (create a new one with + if needed) - you could also use an existing one and share data between apps.

You're done.

Attention: iCloud sync in simulator is wonky at best. Use physical devices.

What is an iCloud container?

An iCloud container simply put is like a directory in iCloud where all the cloud stuff of your app reside. You're using an NSPersitentCloudKitContainer? It's synced to the iCloud container. Using multiple? A single one with multiple configurations? They're all there.

The iCloud container is like the sandbox of the app on the device but in the cloud.

What is a NSPersistentContainer

An NSPersistentContainer is a class that handles all your interaction with a database (or multiple database files, see: configurations).

What is an NSPersistentCloudKitContainer

An NSPersistentCloudKitContainer also handles all your interaction with a local database and it also handles syncing it to and from the cloud.

Multiple persistent container

What?

Usually there's a file called Persistence.swift in your project. Or your PersistenceController class is created elsewhere.

This PersistenceController instantiates a persistent container that connects to a .sqlite-database (which is defined by a .xcdatamodeld file) in your project. You reference it by name: NSPersistentContainer(name: "MyDataModel") - you need a MyDataModel.xcdatamodeld for that to work.

You could copy the whole code and instantiate a second container referencing another file.

An NSPersistentCloudKitContainer would then sync both persistent containers (read: files) to your iCloud container (read: sandbox).

Conveniently it would simply sync it to the first iCloud container in the list of iCloud containers checked in the iCloud capability.

Why?

You could want to separate topics in different databases not just different tables. For clarity or so. I.e. an app that stores your refrigerator content and your car parts. Similar database structure but different enough that two database files make sense.

If you'd want to access a private and a public part of database in an iCloud container, you'd have to use NSPersistentCloudKitContainerOptions and configurations.

Of course you could use could use configurations for that silly use case above too.

Use NSPersistentCloudKitContainerOptions and configurations

Say you want to connect a NSPersistentCloudKitContainer to a different iCloud container than the first in the list you marked with a checkmark.

Or you'd like to connect the public and private records in the first (or any other) iCloud container in said list.

That's what NSPersistentCloudKitContainerOptions is for.

// point to the database file
let publicDescription = NSPersistentStoreDescription(url: url!.appendingPathComponent("public.sqlite"))

// point to the container in the cloud
let publicOptions = NSPersistentCloudKitContainerOptions(containerIdentifier: "iCloud.com.nitricware.Aphrodite")

// point to the section of the container in the cloud
publicOptions.databaseScope = .public

// link the NSPersistentCloudKitContainerOptions to NSPersistentStoreDescription
publicDescription.cloudKitContainerOptions = publicOptions

// point to the configuration in your .xcdatamodeld
publicDescription.configuration = "Public"

// enable uploading already existent entries in your database
publicDescription.setOption(true as NSNumber, forKey: NSPersistentHistoryTrackingKey)

// this option enables auto refresh
publicDescription.setOption(true as NSNumber, forKey: NSPersistentStoreRemoteChangeNotificationPostOptionKey)
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Further Reading: https://patmalt.medium.com/end-to-end-encryption-and-cloudkit-with-coredata-part-1-67bfbe467bc

Applying it to Core Data without cloud sync

Simply use a NSPersistentContainer and omit the lines below from the code above.

let publicOptions = NSPersistentCloudKitContainerOptions(containerIdentifier: "iCloud.com.nitricware.Aphrodite")
publicOptions.databaseScope = .public
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Is there more to it?

Yes. Loads. It's a highly complex topic. I don't understand all of it yet.

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