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I'm developing an iOS application using Core Data. I want to have the persistent store located in a shared location, such as a network drive, so that multiple users can work on the data (at different times i.e. concurrency is not part of the question).

But I also want to offer the ability to work on the data "offline", i.e. by keeping a local persistent store on the iPad. So far, I read that I could do this to some degree by using the persistent store coordinator's migration function, but this seems to imply the old store is then invalidated. Furthermore, I don't necessarily want to move the complete store "offline", but just a part of it: going with the simple "company department" example that Apple offers, I want users to be able to check out one department, along with all the employees associated with that department (and all the attributes associated with each employee). Then, the users can work on the department data locally on their iPad and, some time later, synchronize those changes back to the server's persistent store.

So, what I need is to copy a core data object from one store to another, along with all objects referenced through relationships. And this copy process needs to also ensure that if an object already exists in the target persistent store, that it's overwritten rather than a new object added to the store (I am already giving each object a UID for another reason, so I might be able to re-use the UID).

From all I've seen so far, it looks like there is no simple way to synchronize or copy Core Data persistent stores, is that a fair assessment?

So would I really need to write a piece of code that does the following:

  • retrieve object "A" through a MOC
  • retrieve all objects, across all entities, that have a relationship to object "A"
  • instantiate a new MOC for the target persistent store
  • for each object retrieved, check the target store if the object exists
  • if the object exists, overwrite it with the attributes from the object retrieved in steps 1 & 2
  • if the object doesn't exist, create it and set all attributes as per object retrieved in steps 1 & 2

While it's not the most complicated thing in the world to do, I would've still thought that this requirement for "online / offline editing" is common enough for some standard functionality be available for synchronizing parts of persistent stores?

Your point of views greatly appreciated, thanks, da_h-man

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That is, in fact, the most complicated thing in the world to do. – Rob Reuss Sep 4 '12 at 7:08
up vote 0 down vote accepted

I was just half-kidding with the comment above. You really are describing a pretty hard problem - it's very difficult to nail this sort of synchronization, and there's seldom, in any development environment, going to be a turn-key solution that will "just work". I think your pseudo-code description above is a pretty accurate description of what you'll need to do. Although some of the work of traversing the relationships and checking for existing objects can be generalized, you're talking about some potentially complicated exception handling situations - for example, if updating an object, and only 1 out 5 related objects is somehow out of date, do you throw away the update or apply part of it? You say "concurrency" is not a part of the question, but if multiple users can "check out" objects at the same time, unless you plan to have a locking mechanism on those, you would start having conflicts when trying to make updates.

Something to check into are the new features in Core Data for leveraging iCloud - I doubt that's going to help with your problem, but it's generally related.

Since you want to be out on the network with your data, another thing to consider is whether Core Data is the right fit to your problem in general. Since Core Data is very much a technology designed to support the UI and MVC pattern in general, if your data needs are not especially bound to the UI, you might consider another type of DB solution.

If you are in fact leveraging Core Data in significant ways beyond just modeling, in terms of driving your UI, and you want to stick with it, I think you are correct in your analysis: you're going to have to roll your own solution. I think it will be a non-trivial thing to build and test.

An option to consider is CouchDB and an iOS implementation called TouchDB. It would mean adopting more of a document-oriented (JSON) approach to your problem, which may in fact be suitable, based on what you've described.

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Hi Rob, thanks for the reply. So it'll really have to be done manually. Urgh. The concurrency shouldn't really be a problem, though - I can add a "checked out" property to the department entity. All employees etc. can only be assigned to one department, so I should be good as long as I apply some logic to the ability to check in and out. I'll check out TouchDB, maybe that's indeed a better approach, but I do like the functionality of Core Data and I would have to work with large sets, i.e. thousands of employees, where I want to minimize the amount of data actually loaded into the app. – da_h-man Sep 4 '12 at 23:42
It would be worth your while, once you have a basic model setup in Core Data, to run some performance tests by filling your model with thousands of objects, and confirm you can get the performance that you need. Depending on the power of the devices you're running it on, and the complexity of queries that are required to the SQLite backend, you could run into performance issues. Core Data is not a DB, and this becomes evident with thousands of objects. I like Core Data a lot - it solves a lot of problems, but doesn't scale. – Rob Reuss Sep 7 '12 at 4:52

From what I've seen so far, I reckon the best approach is RestKit. It offers a Core Data wrapper that uses JSON to move data between remote and local stores. I haven't fully tried it yet, but from what the documentation reads, it sounds quite powerful and ideally suited for my needs.

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Hmmm. Looking more into RestKit, I discovered two things: Its source changes so often that the few tutorials and examples on RestKit out there often don't work and very often contain erroneous content. Amazing how much the API changes... And, secondly - it doesn't do what I want - use HTTP to query remotely located Core Data persistent stores. It allows me to consume externally available restful web services and store these in Core Data... although I didn't really see the benefit in that. Anyway, no ability to grab remote Core Data content. Sigh. – da_h-man Sep 16 '12 at 10:35
I looked at RestKit and to about the same conclusions you did - also, I felt like I was going to be making my model fit the JSON in ways that didn't make sense. I'm working on a project right now that involves remote transfers of objects, so if you figured anything out, let me know. I'm moving forward with a message-based architecture that saves most things in files - would love to leverage Core Data, but it's just not a good fit. – Rob Reuss Sep 25 '12 at 6:11
Hey Rob - what I am now attempting (and if I succeed I'll happily share my code, although it might be quite simple anyway) is to use WebAppKit (a very simple HTTP server framework) on the server / MacOS to take a local Core Data implementation and send it to the iOS device via JSON. Apparently, there are enough JSON-to-Core-Data frameworks out there, so it should be fairly straight-forward. – da_h-man Sep 26 '12 at 8:40
WebAppKit looks promising. I'm doing something similar using CocoaHTTPServer - my solution is iOS-only so WebAppKit would not be an option (looks like it is Mac OS only). I looked at as well - works as described - but decided to roll my own message-oriented framework on top of basic HTTP. I used HTTP, but I have no need to offer Web browser access, so no need to implement my interface using URL paths. Messages (archived NSObjects) get passed to the root path, and contain all routing/processing info internal to themselves. – Rob Reuss Sep 26 '12 at 21:46
Sounds interesting - pls keep me in the loop on your progress! – da_h-man Sep 27 '12 at 23:57

You definetly should check these things: - cloud based data store

PFIncrementalStore - subclass of NSIncrementalStore which allows your Persistent Store Coordinator to store data both locally and remotely (on Parse Cloud) at the same time

All this stuff are well-documented. Also is going to release iOS local datastore SDK wich is going to help keep your data synced.

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