I believe the issue is that you are using NSNumber's
-longLongValue method on an NSDecimalNumber. NSDecimalNumber stores a high-precision representation of the number internally as a decimal, but NSNumber just keeps it as an IEEE 754 double precision floating-point value. If I recall correctly, if you use the standard NSNumber superclass methods on an NSDecimalNumber, the internal number is first converted to a double, which can introduce binary floating-point artifacts like this.
As neoneye suggests, a way around this might be to use an NSString as an intermediary. For example:
NSDecimalNumber* number = [NSDecimalNumber decimalNumberWithString :@"11111111111111111"];
double number2 = [@"11111111111111111" doubleValue];
NSLog(@"%@ = %lld = %f", number, [[number descriptionWithLocale:nil] longLongValue], number2);
Will produce the result
11111111111111111 = 11111111111111111 = 11111111111111112.000000, showing both the correct result from the decimal number extraction and the error that happens when this number is temporarily stored in a double.