On iOS version lower than 11 the throwing archivedData(withRootObject:requiringSecureCoding:) is unavailable, so I have tried to do the equivalent on versions less than iOS 11:

let archiveData: NSData
if #available(iOS 11.0, *) {
    archiveData = try NSKeyedArchiver.archivedData(
        withRootObject: rootObject,
        requiringSecureCoding: true
    ) as NSData
} else {
    NSKeyedArchiver.archivedData(withRootObject: userActivity)
    let mutableData = NSMutableData()
    let archiver = NSKeyedArchiver(forWritingWith: mutableData)
    archiver.requiresSecureCoding = true
    archiver.encode(rootObject, forKey: NSKeyedArchiveRootObjectKey)
    if let error = archiver.error {
        throw error
    archiveData = mutableData

However, when the rootObject calls NSCoder.failWithError(_:) in the encode(with:) function an NSInvalidUnarchiveOperationException exception is raised.

If I subclass NSKeyedArchiver as such:

final class KeyedArchiver: NSKeyedArchiver {

    override var decodingFailurePolicy: NSCoder.DecodingFailurePolicy {
        return .setErrorAndReturn


It instead raises an NSInternalInconsistencyException exception with the message Attempting to set decode error on throwing NSCoder.

Is there a way to do this kind of archiving without throwing an exception, short of writing an Objective-C function to catch the exception and throwing it as an error?

  • 1
    The .decodingFailurePolicy is effective only on decoding (unarchiving via NSKeyedUnarchiver), not encoding. What is the error that the rootObject produces, and why? If the error would be detectable up-front, the best way to avoid this would be to not even attempt encoding — otherwise, you're likely going to need to catch the exception in Obj-C. – Itai Ferber Jul 27 '19 at 20:02
  • That makes sense, I failed to spot it was the decoding policy! This code is for an open source framework so I don't know if the rootObject will produce an error or not, so I wanted to be as safe as possible on iOS versions prior to 11.0. I was hoping I wouldn't have to use Obj-C but it sounds like I don't have any other choice. Thank you for your comment :) – Joseph Duffy Jul 27 '19 at 20:39
  • Okay — given that additional info, let me turn the comment into an answer. :) – Itai Ferber Jul 28 '19 at 18:14

The reason you're still getting the exception at encode time is that the .decodingFailurePolicy is effective only when decoding (i.e., unarchiving via NSKeyedUnarchiver), not encoding. Any object that calls .failWithError(_:) on encode will still produce the exception.

Calling .failWithError(_:) at encode-time is relatively rare: usually, once you have a fully constructed object at runtime, it's not terribly likely that it should be in a state that's not encodable. There are of course cases where this is possible, so you really have two options:

  1. If you're working with objects you know and can check ahead of time whether they're in a valid state to encode, you should do that and avoid encoding invalid objects altogether
  2. If you're working with arbitrary objects which you can't validate up-front, you're going to have to wrap your callout to NSKeyedArchiver via an Objective-C function which can catch the exception (and ideally throw an Error containing that exception, like the newer NSKeyedArchiver API does on your behalf)

Based on your comment above, option 2 is your best bet.

As an aside, you can shorten up your fallback code to avoid having to construct an intermediate NSMutableData instance:

let archiver = NSKeyedArchiver()
archiver.encode(rootObject, forKey: NSKeyedArchiveRootObjectKey)
archiveData = archiver.encodedData

The default initializer on NSKeyedArchiver constructs a new archiver with an internal mutable data instance to use, and NSKeyedArchiver.encodedData property automatically calls -finishEncoding on your behalf.

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