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I am trying to parse the pwdLastSet value from NSTask response when I do an ldapsearch. I've successfully extracted the value (129875475241190194) and I am trying to convert it to an NSDate Object.

Reference: http://www.chrisnowell.com/information_security_tools/date_converter/Windows_active_directory_date_converter.asp

I tried to extract the Javascript code from the page above and convert it but I am getting a different date.

        int iYearsFrom1601to1970 = 1970 - 1601;
        int iDaysFrom1601to1970 = iYearsFrom1601to1970 * 365;
        iDaysFrom1601to1970 += (int)(iYearsFrom1601to1970 / 4); // leap years
        iDaysFrom1601to1970 -= 3; // non-leap centuries (1700,1800,1900).  2000 is a leap century
        float iSecondsFrom1601to1970 = iDaysFrom1601to1970 * 24 * 60 * 60;

        int iTotalSecondsSince1601 = (int)(129875475241190194 / 10000000);

        float iTotalSecondsSince1970 = iTotalSecondsSince1601 - iSecondsFrom1601to1970;

        NSDate *date = [NSDate dateWithTimeIntervalSince1970:iTotalSecondsSince1970];

Any help would be appreciated.

Thanks!

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What is the date are you getting for your result? And what is the date are expecting? –  Black Frog Aug 15 '12 at 21:30
    
Expected: Mon, 23 Jul 2012 20:05:24 GMT Getting: 2009-04-22 19:28:22 +0000 –  user754905 Aug 15 '12 at 21:38
1  
Also this is reason you don't want to calculate seconds since 1601: ...in the last millennium, 1600 and 2000 were leap years, but 1700, 1800 and 1900 were not. Excerpt from Wikipedia Gregorian calendar. And there is the whole thing about dropping 10 days to sync with the Romans. A huge mess. –  Black Frog Aug 16 '12 at 13:31

3 Answers 3

up vote 13 down vote accepted

Here's how I would do it:

NSDateComponents *base = [[NSDateComponents alloc] init];
[base setDay:1];
[base setMonth:1];
[base setYear:1601];
[base setEra:1]; // AD

NSCalendar *gregorian = [[NSCalendar alloc] initWithCalendarIdentifier:NSGregorianCalendar];

NSDate *baseDate = [gregorian dateFromComponents:base];
[base release];
[gregorian release];

NSTimeInterval timestamp = 129875475241190194.0 / 10000000.0;

NSDate *finalDate = [baseDate dateByAddingTimeInterval:timestamp];

This gives me a finalDate of 2012-07-24 03:58:22 +0000.

Since the timestamp is a time interval since Jan 1, 1601 at 00:00 UTC, you can use the -dateByAddingTimeInterval: method on NSDate to add the timestamp to the base date to get the final NSDate.

Once you've done that, you can run it through an NSDateFormatter to format it for display.

share|improve this answer
    
This answer is not correct because it 's not taking into account leap years. –  Black Frog Aug 16 '12 at 13:07
    
@BlackFrog um... NSDate has no concept of leap years. Those are only relevant when you're wanting to build a human-readable date. I'd also like to point out that your answer is fundamentally equivalent to mine. Go watch session 244 from this year's WWDC... –  Dave DeLong Aug 16 '12 at 13:27
    
so you are telling me if I have the following date of Feb. 28, 2012 at 10:30 pm (UTC) and I add 6 hours to it the result would be March 1, 2012 at 4:30 am (UTC)? Not Feb. 29, 2012 because this year is a leap year? –  Black Frog Aug 16 '12 at 13:55
    
@BlackFrog it would be six hours after 2/28/2012 @22:30UTC. Whether that's the 29th or the 1st depends on the NSCalendar used. An NSDate is just an offset in time from the reference date. Nothing more, nothing less. –  Dave DeLong Aug 16 '12 at 14:08
17  
@BlackFrog "not taking into account leap years" doesn't make sense. An NSDate is an offset in time, irrespective of any calendaring system. How could an offset have any notion of what a leap year is? Those are relative to a calendar. I take one offset in time (that happens to correspond to 1/1/1601) and add another offset to it, to arrive at a different offset in time. It's only when I want to convert that offset into a human-readable form that leap anythings come into play, and that's all handled by NSCalendar. –  Dave DeLong Aug 16 '12 at 16:06

Assuming the, well, daring conversion between the basetimes is correct: actually looking at the warnings, instead of casting them away, might actually help:

int main(void)
{
    int iTotalSecondsSince1601 = (129875475241190194 / 10000000);
    return 0;
}

stieber@gatekeeper:~$ clang++ Test.cpp
Test.cpp:4:8: warning: implicit conversion from 'long' to 'int' changes value from 12987547524 to 102645636
....

That should account for a good deal of the difference...

share|improve this answer

Try this

NSTimeInterval value = 129875475241190194;
// instead of trying to compute seconds between 1601 and 1970
const NSTimeInterval EPOCH = 11644473600;
const NSTimeInterval NANO = 10000000;

NSTimeInterval seconds = value / NANO - EPOCH;
NSDate *answer = [NSDate dateWithTimeIntervalSince1970:seconds];

Also this is reason you don't want to calculate seconds since 1601: ...in the last millennium, 1600 and 2000 were leap years, but 1700, 1800 and 1900 were not. Excerpt from Wikipedia on Gregorian calendar.

The value for EPOCH is explained on Convert Active Directory "LastLogon:" time to (UNIX) readable time .

Note: The information about accountExpires which starts from 12-31-1601 (11644473600). The values lastLogon and lastLogonTimeStamp however use 01-01-1601 as the date to calculate this value (11676009600).

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