This question is mainly about protecting the content inside my iOS app. I intend to make an app that will download a lot of content (mainly PDF files) on user request. Once these PDFs are downloaded, they will be stored locally for easy offline access.

Now, I don't want anyone to get hold of the .ipa file and manage to extract the PDF files. If this is not possible, is it possible that even if they extract the PDFs, they canNOT view it or run them?

I am not sure how to handle this. Any suggestions are appreciated.

An alternative is, I may provide password protected files to the user to download. Store the associated password in a sqlite database. Then when the user opens the PDF from inside the APP, the app will find the password from the database and open it without any prompt to the user to enter the password. Is this possible? How?

Thanks and Regards

4 Answers 4


Let's assume that you somehow scramble your PDF before putting it on your download server and the app descrambles it before showing it to the user.

In the app you can then perform the following:

  1. Load the scrambled PDF file into an NSData object.
  2. Make an NSMutableData object and descramble your PDF data into that buffer using whatever algorithm you have chosen.
  3. Now you have a usable PDF document in memory but only a scrambled version on disk. If you need to create a CGPDFDocumentRef you can do that by first creating a dataprovider using your descrambled NSMutableData object which is toll-free bridged to CFData by a simple cast

Something like

NSMutableData *data = descrambled PDF;
CFDataRef myPDFData = (CFDataRef)data;
CGDataProviderRef provider = CGDataProviderCreateWithCFData(myPDFData);
CGPDFDocumentRef pdf = CGPDFDocumentCreateWithProvider(provider);

(Credit for that snippet goes to this answer.)

Since the app must be able to descramble the PDF and user has access to both the app and the scrambled PDF file anything you do to prevent them from extracting it will basically amount to security by obscurity. Therefore I wouldn't bother with a complex encryption algorithm. You can probably just do something simple like XOR the data with a secret string hidden in your app binary.

Defeating this approach will require an attacker to disassemble your binary, and if someone is that determined you can't win, as evidenced by the sad state of current video game DRM.

By the way: In the spirit of obscurity you might also want to name your scrambled downloaded PDFs something less obvious than valuabledocument.pdf. But real security it ain't.

Edit to illustrate XOR'ing data:

Feed your scrambled NSData to something like this...

// Fill this out with whatever you want. Use the same string
// and algorithm to scramble the files on the server.
static unsigned char secretString[SECRET_STRING_LENGTH];

- (NSData *)scrambleOrDescrambleData:(NSData*)input
    unsigned char *outputBytes = malloc(input.length);
    memcpy(outputBytes, input.bytes, input.length);
    for (int i = 0; i < input.length; i++)
        outputBytes[i] = outputBytes[i] ^ secretString[i % SECRET_STRING_LENGTH];

    NSData *outputData = [[NSData alloc] initWithBytes:outputBytes length:input.length];

    return outputData;

The handy thing about XOR is that doing it twice will give you back your original data, so scrambling and descrambling is the same code.

I am avoiding the term encryption here, because this is really just obfuscating the data to keep it from casual observers.

  • This approach looks promising. Any idea how I may be able to XOR PDF data?
    – ssdesign
    Jun 20, 2012 at 8:55
  • See my edit for an example scramble/descramble method using byte-wise XOR.
    – Heiberg
    Jun 20, 2012 at 17:32
  • Just tested first part of the answer, works perfectly! thanks @Heiberg
    – laucel
    Jul 23, 2013 at 12:33

You can protect your files by encrypting them. Look at the apple reference on Protecting Data Using On-Disk Encryption.

  • On-Disk Encryption as I understand is only applied if the user uses a passcode to lock and unlock the device. So if the device is unlocked and user extracts the PDF files by browsing the file structure using a software, then the files are not encrypted any more, right? Maybe my understanding is wrong, but this is how I understood it.
    – ssdesign
    Jun 1, 2012 at 7:38
  • You can encrypt them using some key in application and decrypt PDF only when user wants to view it.
    – igoris
    Jun 14, 2012 at 8:37
  • Hi @igoris can you clarify in more detail please? Thanks
    – ssdesign
    Jun 14, 2012 at 9:06
  • 1
    @ssdesign. when you encrypt your file with some standard algorithm like AES/DES you will have to provide a secret key. if you store secret key in your keychain it will be secure. And you can decrypt your files using the secret key when user wants it.!
    – Vignesh
    Jun 14, 2012 at 13:07

Take look at this article: http://aptogo.co.uk/2010/07/protecting-resources/

The author details encrypting app bundle resources, and then decrypting the files into memory so only the scrambled version ever resides on disk.

They use a custom NSURLProtocol for encrypting on the fly. Pretty nice summary.


You shouldn't be worried about someone getting a hold of the .ipa file and extracting the PDFs that way (since your app downloads the PDFs and they PDFs do not ship with the .ipa file).

There are, however, tools to let users browse the files within apps that are on their devices. For example, checkout iExplorer. You should note that users could potentially open any file -- so storing a password in a sqlite database is not a good idea. Using something like SFHKeychainUtils would be a more secure approach.

As far as setting a username/password for a PDF goes, here is some sample code (you can learn more from the CGPDFContext Reference):

NSDictionary *options = [NSDictionary dictionaryWithObjectsAndKeys: @"letMeIn", kCGPDFContextOwnerPassword, @"r3adm3", kCGPDFContextUserPassword, nil];
[myPDFDocument writeToFile: @"/some/path" withOptions: options];

I would also suggest storing the file encrypted on the disk. You could use NSData+AES to do this. Here is another implementation of NSData+AES. When reading from the disk, you could hold the unencrypted NSData in memory and display a PDF from that instead of reading an unencrypted PDF from the disk.

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