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I have an NSString (which is a path to a file) in my code that I would like to somehow obfuscate or encrypt,

but still be able to call up the file path easily when needed. I searched for an answer to this, but everything I've seen either deals specifically with iOS or seems overly complicated.

I would simply like to use it with something such as this:

- (void)method {

NSString *obfuscate = @"/path/to/something/secret"; // encrypt or obfuscate

[self manageFiles:obfuscate]

- (void)manageFiles(NSString *)obfuscate {

    NSFileManager *files = [[NSFileManager alloc] init];

    if ([files fileExistsAtPath:obfuscate])

    ... .

— any help is appreciated, thank you.

share|improve this question
If you hash the file path how do you intend to access the files afterwards? You could do some very simple encryption like shifting the characters and rotating them. Functions to encrypt and decrypt wouldn't be very many lines of code. – evanmcdonnal Jun 11 '12 at 5:47
you can use Common Crypto library. – Parag Bafna Jun 11 '12 at 5:53
@ParagBafna, how? – Joe Habadas Jun 11 '12 at 6:34
@evanmcdonnal, that's what i'm asking; how could i do it reasonably? i like the idea of Rot-13 or Vigenère. if that's what your saying. — are you thinking something along the lines of skram's answer? ty. – Joe Habadas Jun 11 '12 at 6:35
@JoeHabadas Take a look at – Parag Bafna Jun 11 '12 at 6:47

3 Answers 3

up vote 0 down vote accepted

Here is a basic algorithm to do what I described, your decryption function needs to do the opposite. It's kind of messy but I'll leave cleaning it up to you.

//get ASCII chars from string and store them char array
const char * ptr = [myNSString cStringUsingEncdoing:ASCII];
char * cString = malloc(sizeof(char) * myNSString.length);
strcpy(cString, ptr);
//loop over them and shift them, leaving some of the other logic to you
for (int i = 0; i < myNSString.length; i++)
      cString[i] = sString[i] + 3;
//malloc a buffer to rotate chars in
char * rotatedString = malloc(sizeof(char) * myNSString.length);
for (i = 3; i < myNSString.length; i++)
      rotatedString[i] = cString[i-3];
int j = 3; 
for (i = 0; i < 4; i++) {
    rotatedString[i] = cString[myNSString - j];

NSString* rotatedNSString = [NSString stringFromCString:rotatedString];

This will basically work although it will need a little work such as bounds checking during the rotation phase and some logic to perform the wrap around (z should become c, not whatever ASCII value z+3 is).

share|improve this answer
thanks. i'll give it a go then report back to let you know how it worked. i asked the person who posted the other answer how i might apply that to something such as NSFileManger — any thoughts? – Joe Habadas Jun 11 '12 at 8:56
@JoeHabadas I'm assuming you want the file path decrypted when you use it with NSFileManager, right? If so you should just put all the code in one function and all the code to reverse it in another. And you call decrypt right before you use the NSFileManger. The rest of the time use the encrypted string. – evanmcdonnal Jun 11 '12 at 16:46
Thank you very much! – Joe Habadas Jun 13 '12 at 2:47
It is interesting that this is the accepted answer when it won't compile (7 errors) and has a major logic error. Not to mention that a chosen clear text attack will expose the algorithm. Ex: input: "abcdefghi" output: "jkldefghi". It is easy seen that there is a rotation of 3 character length and an addition of 3 to each character value. – zaph Aug 28 at 18:02

What I have done in the past to obfuscate a string was something to this extent:

-(NSString*)myString {

    NSString *string = nil;

    string = [@"ozzzzzzzzzzzzhazzzzzzzizzzzzz" stringByReplacingOccurrencesOfString:@"z" withString:@""];

    return string;

What it would do is remove all the occurences of the letter z, leaving you with ohai as a string. Not sure if this will suffice for your case, but it has worked for me.

Hope this helps!

share|improve this answer
interesting idea; how would i use that with the NSFileManager function I have shown? thanks – Joe Habadas Jun 11 '12 at 6:33
How would you be able to get back the original file path again, after you did that? – Khattab Jul 31 '12 at 20:23
While it worked for the writer I also would presume it worked for the attacker. – zaph Aug 28 at 17:55
@zaph: I changed it a bit to make it more difficult though string = [@"llqzllqallqpllqhllq hllqallqxllqollqrllqellqd llqmllqe" stringByReplacingOccurrencesOfString:@"llq" withString:@""]; — there's only one or two people that could ever crack that. – Joe Habadas Sep 18 at 18:24
"Schneier's Law" per Cory Doctorow: "Any person can invent a security system so clever that she or he can't think of how to break it." In this case the patterns give it away. Most anyone would notice "llq" repeated and would disregard it, heck I just used BBEdit. – zaph Sep 18 at 18:36

(This is an old question, but I'm replying anyway)

There's no such way to in Obj-C. Obj-C is dynamic enough that any of these methods can be trapped and intercepted. Do not ship anything in a application that absolutely needs to be secret. If your application is run on a jailbroken phone, or if it is made available on piracy sites, than it has already been exposed and it's memory contents dumped. All these above methods copy the decoded data to main memory where it is exposed.


None of these methods above is actually secure. Again, do not embed these sorts of things in your applications with an assurance they are actually secure.

share|improve this answer
While that is true the same argument can be made that nothing can be made actually secure. Even Gemalto, the world leader in digital security was hacked ion 2010 and 2011 and even RSA was successfully attacked. Does that mean we should give up trying? Give up encryption? No. It is the level work factor (effort required) that is important. It is always good to increase the work factor. Encryption among other things increases the work factor. One needs to evaluate the value of the data to the owner, the attacker, to the reputation of the developer in both terms of time and money. – zaph Aug 26 at 22:24
About the other two answers, they are nothing but obfuscation which is really weak foo but may be sufficient. The question is did the OP evaluate the value vs work factor when choosing the method of protection. – zaph Aug 26 at 22:32
The second answer in particular is insanely weak. The first algorithm isn't necessary the worst, but put into a function is easily cracked. What bothered me is that none of these disclaimers were applied to the above. If the OP was trying to secure data that actually needs to be very well obscured I don't know if any of the answers was totally transparent with regards to how well these techniques work. – Colin Cornaby Aug 28 at 17:16
Nor does this answer even attempt to answer the question. 😉The accepted answer will not compile, much less work or offer any security. Ex: input: "abcdefghi" output: "jkldefghi", add 3 to each character value, rotate the string by 3 characters. – zaph Aug 28 at 17:56
@zaph: It compiled for me (after re-doing the entire thing), I just need to figure out how get back the 10 minutes I wasted. I ended up using RSA for this particular task in the end, it's a bit surprising nobody mentioned anything about it at the time... The techniques used here in this thread wouldn't have even stopped me back in the 80's when I was 12. – Joe Habadas Sep 18 at 18:03

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