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I got a legacy system which authenticate user by classic Username/Password pattern. now I need provide data from this system to iPhone App. This App gonna send me device Id (UDID).

My question is: How to connect the existed user account to those UDID? Is there any strategy to let user to tell me "This is my UDID, and my account is XXXX" ?

These are the cases I can image:

  1. First user create account on the web by PC, Then he/she turn to use iPhone App.
  2. User just use iPhone App, never create account on the web server.

Actually, I don't want force user to create account on this system. but if he/she did so, I need to identify him/her by some way.

thanks for any ideas.

share|improve this question
And another thing I want know: If someone know my UDID (it's printed on the back of my phone...), then he can throw the http request to server with it, and the server will never know he is a copycat because no need of password. is that a security gap? – Hetfield Joe Dec 10 '12 at 5:57
using the UDID is wrong and apple will reject it! – Daij-Djan Dec 10 '12 at 7:47
There must be some way to identify user, How dose apple gonna make it? or I it's already done and I just didn't know? – Hetfield Joe Dec 11 '12 at 2:33

You can use OpenUDID project to fabricate your own UDID after that its pretty straightforward, if the user has an account just use sync button (so it does't feel as a login up) and ask him their account, every time the user starts the app you search for the device ID in your data base, if it exist you log him in, if doesn't you create an account and give him some account retrieving option the pattern you are using its quite error prone.

I really recommend you to check instead, it will save the current user session in cache so it never has to login, and it will handle installations cross platforms in a much elegant and flexible way

#import <Foundation/Foundation.h>

// Usage:

//    #include "OpenUDID.h"
//    NSString* openUDID = [OpenUDID value];

#define kOpenUDIDErrorNone          0
#define kOpenUDIDErrorOptedOut      1
#define kOpenUDIDErrorCompromised   2

@interface Countly_OpenUDID : NSObject {
+ (NSString*) value;
+ (NSString*) valueWithError:(NSError**)error;
+ (void) setOptOut:(BOOL)optOutValue;


#if __has_feature(objc_arc)
#error This file uses the classic non-ARC retain/release model; hints below... 
    // to selectively compile this file as non-ARC, do as follows:

#import "Countly_OpenUDID.h"
#import <CommonCrypto/CommonDigest.h> // Need to import for CC_MD5 access
#import <UIKit/UIPasteboard.h>
#import <UIKit/UIKit.h>
#import <AppKit/NSPasteboard.h>

#define OpenUDIDLog(fmt, ...)
//#define OpenUDIDLog(fmt, ...) NSLog((@"%s [Line %d] " fmt), __PRETTY_FUNCTION__, __LINE__, ##__VA_ARGS__);
//#define OpenUDIDLog(fmt, ...) NSLog((@"[Line %d] " fmt), __LINE__, ##__VA_ARGS__);

static NSString * kOpenUDIDSessionCache = nil;
static NSString * const kOpenUDIDKey = @"OpenUDID";
static NSString * const kOpenUDIDSlotKey = @"OpenUDID_slot";
static NSString * const kOpenUDIDAppUIDKey = @"OpenUDID_appUID";
static NSString * const kOpenUDIDTSKey = @"OpenUDID_createdTS";
static NSString * const kOpenUDIDOOTSKey = @"OpenUDID_optOutTS";
static NSString * const kOpenUDIDDomain = @"org.OpenUDID";
static NSString * const kOpenUDIDSlotPBPrefix = @"org.OpenUDID.slot.";
static int const kOpenUDIDRedundancySlots = 100;

@interface Countly_OpenUDID (Private)
+ (void) _setDict:(id)dict forPasteboard:(id)pboard;
+ (NSMutableDictionary*) _getDictFromPasteboard:(id)pboard;
+ (NSString*) _generateFreshOpenUDID;

@implementation Countly_OpenUDID

// Archive a NSDictionary inside a pasteboard of a given type
// Convenience method to support iOS & Mac OS X
+ (void) _setDict:(id)dict forPasteboard:(id)pboard {
    [pboard setData:[NSKeyedArchiver archivedDataWithRootObject:dict] forPasteboardType:kOpenUDIDDomain];
    [pboard setData:[NSKeyedArchiver archivedDataWithRootObject:dict] forType:kOpenUDIDDomain];

// Retrieve an NSDictionary from a pasteboard of a given type
// Convenience method to support iOS & Mac OS X
+ (NSMutableDictionary*) _getDictFromPasteboard:(id)pboard {
    id item = [pboard dataForPasteboardType:kOpenUDIDDomain];
    id item = [pboard dataForType:kOpenUDIDDomain];
    if (item) {
            item = [NSKeyedUnarchiver unarchiveObjectWithData:item];
        } @catch(NSException* e) {
            OpenUDIDLog(@"Unable to unarchive item %@ on pasteboard!", [pboard name]);
            item = nil;

    // return an instance of a MutableDictionary 
    return [NSMutableDictionary dictionaryWithDictionary:(item == nil || [item isKindOfClass:[NSDictionary class]]) ? item : nil];

// Private method to create and return a new OpenUDID
// Theoretically, this function is called once ever per application when calling [OpenUDID value] for the first time.
// After that, the caching/pasteboard/redundancy mechanism inside [OpenUDID value] returns a persistent and cross application OpenUDID
+ (NSString*) _generateFreshOpenUDID {

    NSString* _openUDID = nil;

    // August 2011: One day, this may no longer be allowed in iOS. When that is, just comment this line out.
    // March 25th 2012: this day has come, let's remove this "outlawed" call... 
//    if([UIDevice instancesRespondToSelector:@selector(uniqueIdentifier)]){
//        _openUDID = [[UIDevice currentDevice] uniqueIdentifier];
//    }
    // Next we generate a UUID.
    // UUIDs (Universally Unique Identifiers), also known as GUIDs (Globally Unique Identifiers) or IIDs 
    // (Interface Identifiers), are 128-bit values guaranteed to be unique. A UUID is made unique over 
    // both space and time by combining a value unique to the computer on which it was generated—usually the
    // Ethernet hardware address—and a value representing the number of 100-nanosecond intervals since 
    // October 15, 1582 at 00:00:00.
    // We then hash this UUID with md5 to get 32 bytes, and then add 4 extra random bytes
    // Collision is possible of course, but unlikely and suitable for most industry needs (e.g. aggregate tracking)
    if (_openUDID==nil) {
        CFUUIDRef uuid = CFUUIDCreate(kCFAllocatorDefault);
        CFStringRef cfstring = CFUUIDCreateString(kCFAllocatorDefault, uuid);
        const char *cStr = CFStringGetCStringPtr(cfstring,CFStringGetFastestEncoding(cfstring));
        unsigned char result[16];
        CC_MD5( cStr, strlen(cStr), result );

        _openUDID = [NSString stringWithFormat:
                result[0], result[1], result[2], result[3], 
                result[4], result[5], result[6], result[7],
                result[8], result[9], result[10], result[11],
                result[12], result[13], result[14], result[15],
                     (NSUInteger)(arc4random() % NSUIntegerMax)];  

    // Call to other developers in the Open Source community:
    // feel free to suggest better or alternative "UDID" generation code above.
    // NOTE that the goal is NOT to find a better hash method, but rather, find a decentralized (i.e. not web-based)
    // 160 bits / 20 bytes random string generator with the fewest possible collisions.

    return _openUDID;

// Main public method that returns the OpenUDID
// This method will generate and store the OpenUDID if it doesn't exist, typically the first time it is called
// It will return the null udid (forty zeros) if the user has somehow opted this app out (this is subject to 3rd party implementation)
// Otherwise, it will register the current app and return the OpenUDID
+ (NSString*) value {
    return [Countly_OpenUDID valueWithError:nil];

+ (NSString*) valueWithError:(NSError **)error {

    if (kOpenUDIDSessionCache!=nil) {
        if (error!=nil)
            *error = [NSError errorWithDomain:kOpenUDIDDomain
                                     userInfo:[NSDictionary dictionaryWithObjectsAndKeys:@"OpenUDID in cache from first call",@"description", nil]];
        return kOpenUDIDSessionCache;

    NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];

    // The AppUID will uniquely identify this app within the pastebins
    NSString * appUID = (NSString *) [defaults objectForKey:kOpenUDIDAppUIDKey];
    if(appUID == nil)
      // generate a new uuid and store it in user defaults
      CFUUIDRef uuid = CFUUIDCreate(NULL);
      appUID = (NSString *) CFUUIDCreateString(NULL, uuid);

    NSString* openUDID = nil;
    NSString* myRedundancySlotPBid = nil;
    NSDate* optedOutDate = nil;
    BOOL optedOut = NO;
    BOOL saveLocalDictToDefaults = NO;
    BOOL isCompromised = NO;

    // Do we have a local copy of the OpenUDID dictionary?
    // This local copy contains a copy of the openUDID, myRedundancySlotPBid (and unused in this block, the local bundleid, and the timestamp)
    id localDict = [defaults objectForKey:kOpenUDIDKey];
    if ([localDict isKindOfClass:[NSDictionary class]]) {
        localDict = [NSMutableDictionary dictionaryWithDictionary:localDict]; // we might need to set/overwrite the redundancy slot
        openUDID = [localDict objectForKey:kOpenUDIDKey];
        myRedundancySlotPBid = [localDict objectForKey:kOpenUDIDSlotKey];
        optedOutDate = [localDict objectForKey:kOpenUDIDOOTSKey];
        optedOut = optedOutDate!=nil;
        OpenUDIDLog(@"localDict = %@",localDict);

    // Here we go through a sequence of slots, each of which being a UIPasteboard created by each participating app
    // The idea behind this is to both multiple and redundant representations of OpenUDIDs, as well as serve as placeholder for potential opt-out
    NSString* availableSlotPBid = nil;
    NSMutableDictionary* frequencyDict = [NSMutableDictionary dictionaryWithCapacity:kOpenUDIDRedundancySlots];
    for (int n=0; n<kOpenUDIDRedundancySlots; n++) {
        NSString* slotPBid = [NSString stringWithFormat:@"%@%d",kOpenUDIDSlotPBPrefix,n];
        UIPasteboard* slotPB = [UIPasteboard pasteboardWithName:slotPBid create:NO];
        NSPasteboard* slotPB = [NSPasteboard pasteboardWithName:slotPBid];
        OpenUDIDLog(@"SlotPB name = %@",slotPBid);
        if (slotPB==nil) {
            // assign availableSlotPBid to be the first one available
            if (availableSlotPBid==nil) availableSlotPBid = slotPBid;
        } else {
            NSDictionary* dict = [Countly_OpenUDID _getDictFromPasteboard:slotPB];
            NSString* oudid = [dict objectForKey:kOpenUDIDKey];
            OpenUDIDLog(@"SlotPB dict = %@",dict);
            if (oudid==nil) {
                // availableSlotPBid could inside a non null slot where no oudid can be found
                if (availableSlotPBid==nil) availableSlotPBid = slotPBid;
            } else {
                // increment the frequency of this oudid key
                int count = [[frequencyDict valueForKey:oudid] intValue];
                [frequencyDict setObject:[NSNumber numberWithInt:++count] forKey:oudid];
            // if we have a match with the app unique id,
            // then let's look if the external UIPasteboard representation marks this app as OptedOut
            NSString* gid = [dict objectForKey:kOpenUDIDAppUIDKey];
            if (gid!=nil && [gid isEqualToString:appUID]) {
                myRedundancySlotPBid = slotPBid;
                // the local dictionary is prime on the opt-out subject, so ignore if already opted-out locally
                if (optedOut) {
                    optedOutDate = [dict objectForKey:kOpenUDIDOOTSKey];
                    optedOut = optedOutDate!=nil;   

    // sort the Frequency dict with highest occurence count of the same OpenUDID (redundancy, failsafe)
    // highest is last in the list
    NSArray* arrayOfUDIDs = [frequencyDict keysSortedByValueUsingSelector:@selector(compare:)];
    NSString* mostReliableOpenUDID = (arrayOfUDIDs!=nil && [arrayOfUDIDs count]>0)? [arrayOfUDIDs lastObject] : nil;
    OpenUDIDLog(@"Freq Dict = %@\nMost reliable %@",frequencyDict,mostReliableOpenUDID);

    // if openUDID was not retrieved from the local preferences, then let's try to get it from the frequency dictionary above
    if (openUDID==nil) {        
        if (mostReliableOpenUDID==nil) {
            // this is the case where this app instance is likely to be the first one to use OpenUDID on this device
            // we create the OpenUDID, legacy or semi-random (i.e. most certainly unique)
            openUDID = [Countly_OpenUDID _generateFreshOpenUDID];
        } else {
            // or we leverage the OpenUDID shared by other apps that have already gone through the process
            openUDID = mostReliableOpenUDID;
        // then we create a local representation
        if (localDict==nil) { 
            localDict = [NSMutableDictionary dictionaryWithCapacity:4];
            [localDict setObject:openUDID forKey:kOpenUDIDKey];
            [localDict setObject:appUID forKey:kOpenUDIDAppUIDKey];
            [localDict setObject:[NSDate date] forKey:kOpenUDIDTSKey];
            if (optedOut) [localDict setObject:optedOutDate forKey:kOpenUDIDTSKey];
            saveLocalDictToDefaults = YES;
    else {
        // Sanity/tampering check
        if (mostReliableOpenUDID!=nil && ![mostReliableOpenUDID isEqualToString:openUDID])
            isCompromised = YES;

    // Here we store in the available PB slot, if applicable
    OpenUDIDLog(@"Available Slot %@ Existing Slot %@",availableSlotPBid,myRedundancySlotPBid);
    if (availableSlotPBid!=nil && (myRedundancySlotPBid==nil || [availableSlotPBid isEqualToString:myRedundancySlotPBid])) {
        UIPasteboard* slotPB = [UIPasteboard pasteboardWithName:availableSlotPBid create:YES];
        [slotPB setPersistent:YES];
        NSPasteboard* slotPB = [NSPasteboard pasteboardWithName:availableSlotPBid];

        // save slotPBid to the defaults, and remember to save later
        if (localDict) {
            [localDict setObject:availableSlotPBid forKey:kOpenUDIDSlotKey];
            saveLocalDictToDefaults = YES;

        // Save the local dictionary to the corresponding UIPasteboard slot
        if (openUDID && localDict)
            [Countly_OpenUDID _setDict:localDict forPasteboard:slotPB];

    // Save the dictionary locally if applicable
    if (localDict && saveLocalDictToDefaults)
        [defaults setObject:localDict forKey:kOpenUDIDKey];

    // If the UIPasteboard external representation marks this app as opted-out, then to respect privacy, we return the ZERO OpenUDID, a sequence of 40 zeros...
    // This is a *new* case that developers have to deal with. Unlikely, statistically low, but still.
    // To circumvent this and maintain good tracking (conversion ratios, etc.), developers are invited to calculate how many of their users have opted-out from the full set of users.
    // This ratio will let them extrapolate convertion ratios more accurately.
    if (optedOut) {
        if (error!=nil) *error = [NSError errorWithDomain:kOpenUDIDDomain
                                                 userInfo:[NSDictionary dictionaryWithObjectsAndKeys:[NSString stringWithFormat:@"Application with unique id %@ is opted-out from OpenUDID as of %@",appUID,optedOutDate],@"description", nil]];

        kOpenUDIDSessionCache = [[NSString stringWithFormat:@"%040x",0] retain];
        return kOpenUDIDSessionCache;

    // return the well earned openUDID!
    if (error!=nil) {
        if (isCompromised)
            *error = [NSError errorWithDomain:kOpenUDIDDomain
                                     userInfo:[NSDictionary dictionaryWithObjectsAndKeys:@"Found a discrepancy between stored OpenUDID (reliable) and redundant copies; one of the apps on the device is most likely corrupting the OpenUDID protocol",@"description", nil]];
            *error = [NSError errorWithDomain:kOpenUDIDDomain
                                     userInfo:[NSDictionary dictionaryWithObjectsAndKeys:@"OpenUDID succesfully retrieved",@"description", nil]];
    kOpenUDIDSessionCache = [openUDID retain];
    return kOpenUDIDSessionCache;

+ (void) setOptOut:(BOOL)optOutValue {

    // init call
    [Countly_OpenUDID value];

    NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];

    // load the dictionary from local cache or create one
    id dict = [defaults objectForKey:kOpenUDIDKey];
    if ([dict isKindOfClass:[NSDictionary class]]) {
        dict = [NSMutableDictionary dictionaryWithDictionary:dict];
    } else {
        dict = [NSMutableDictionary dictionaryWithCapacity:2];

    // set the opt-out date or remove key, according to parameter
    if (optOutValue)
        [dict setObject:[NSDate date] forKey:kOpenUDIDOOTSKey];
        [dict removeObjectForKey:kOpenUDIDOOTSKey];

    // store the dictionary locally
    [defaults setObject:dict forKey:kOpenUDIDKey];

    OpenUDIDLog(@"Local dict after opt-out = %@",dict);

    // reset memory cache 
    kOpenUDIDSessionCache = nil;


share|improve this answer
Longest answer I'd ever get. Thanks. – Hetfield Joe Dec 10 '12 at 6:03
Longest answer I'd ever get. Thanks. but I can't tell the different between "Login" button and "Sync" button. will save user session in cache? what if server restart? everything lost? – Hetfield Joe Dec 10 '12 at 6:15
parse its quite nice actually, the session its managed directly in the device cache, (you actually have to manually log out session or parse will do it for you if the user its deleted) i now its not difference at all in sync or log in, but if you use you can even sync the account between devices without any remote objects handling, everything its managed clean and uploads every object to parse or updated it,even many-to-many relationships are managed for you – Sergio Prado Dec 10 '12 at 7:24

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