Update: With iOS 6 it's supposedly possible to require data protection for your application by using an entitlement that needs to be configured on the App ID in the iOS provisioning profile. I haven't tested this yet, and this is the best information I could find on it https://devforums.apple.com/message/707939#707939
My investigations into this matter lead me to believe that it is very difficult to determine if data protection is enabled on a device.
File protection is enabled by setting the NSFileProtectionKey
file attribute to NSFileProtectionComplete
For example, to create a protected file you could run code like:
[[NSFileManager defaultManager] createFileAtPath:[self filePath]
contents:[@"super secret file contents" dataUsingEncoding:NSUTF8StringEncoding]
attributes:[NSDictionary dictionaryWithObject:NSFileProtectionComplete
forKey:NSFileProtectionKey]];
Unfortunately this code will execute without error even if Data Protection is not enabled on the device (or if the code is run on the Simulator where Data Protection is not available).
Worse, the NSFileProtectionComplete
attribute will be be set regardless of whether the file is protected or not. The following:
self.fileProtectionValue = [[[NSFileManager defaultManager] attributesOfItemAtPath:[self filePath]
error:NULL] valueForKey:NSFileProtectionKey];
NSLog(@"file protection value: %@", self.fileProtectionValue);
will spit out file protection value: NSFileProtectionComplete
no matter whether Data Protection is enabled or not.
There are two methods that I've been able to use to discover if File Protection is working as expected. Unfortunately neither of these methods are suitable for detecting if Data Protection is enabled on a device in the field.
Both methods work on the idea that a protected file can not be read if the device is locked.
Method one involves using a timer to attempt to read the file after the device is locked, but while your application continues to run:
[self performSelector:@selector(doReload) withObject:nil afterDelay:20];
- (void)doReload {
NSLog(@"protected data available: %@",[[UIApplication sharedApplication] isProtectedDataAvailable] ? @"yes" : @"no");
NSError *error;
self.fileContents = [NSString stringWithContentsOfFile:[self filePath]
encoding:NSUTF8StringEncoding
error:&error];
NSLog(@"file contents: %@
error: %@", self.fileContents, error);
}
If you run the above code and lock a data protected device it will spit out:
protected data available: no
file contents: (null)
error: Error Domain=NSCocoaErrorDomain Code=257 "The operation couldn’t be completed. (Cocoa error 257.)" UserInfo=0x16e110 {NSFilePath=/var/mobile/Applications/D71F1F1F-6C25-4848-BB1F-51539B47EC79/Documents/protected_file, NSUnderlyingError=0x16e010 "The operation couldn’t be completed. Operation not permitted"}
The 20 second delay is necessary because there is a 10 second or so grace period where protected data is still available after a Data Protection enabled device is locked.
The second method is to create a protected file in an application, exit the application, lock the device, wait 10 seconds, and then use the XCode organizer to download the contents of the application. This will produce an error message and the protected file will be empty.
If either of the above tests fail to behave as described then Data Protection is either not enable, or your File Protection code was not implemented correctly.
Because I've not found any way to verify within the application that Data Protection is enabled before I write confidential information to disk, I've filed a feature enhancement request with Apple to be able to mark an application as requiring Data Protection to be enabled. (rdar://10167256)
Apple does offer a solution to this through their Mobile Device Management (MDM) APIs, which combined with a third party server can be used to enforce policies that require Data Protection to be enabled on devices.