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I use this code to keep track of last reboot:

+ (float) secondsSinceLastReboot{
     return ((float)(mach_absolute_time())) * ((float)timebase.numer) / ((float)timebase.denom) / 1000000000.0f;
}

I assumed mach_absolute_time() was based on last device boot time like it is on a mac. It doesn't seem to be based on that. I actually have no idea what it is based on.

Look at the following behaviour (today's date is 2009-09-20):

lastRebootTime = [[NSDate date] addTimeInterval:-[self secondsSinceLastReboot]];
//last Reboot Time will contain : 2009-09-20 07:42:14 +0100

I'm absolutely certain I did not reboot my device at that time. My device hasn't been booted in a week.

Furthermore, when I unhook my device from the cable and run this app , it seems that when the device goes to sleep, the lastRebootTime starts shifting in the future. It seems mach_absolute_time doesn't keep account for sleep time. Or am i wrong about this?

I would really like to be able to get a timestamp from when the device last rebooted. Any idea's?

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2 Answers 2

Had some trouble with this myself. There isn't a lot of good documentation, so I went with experimentation. Here's what I was able to determine:

mach_absolute_time depends on the processor of the device. It returns ticks since the device was last rebooted (otherwise known as uptime). In order to get it in a human readable form, you have to modify it by the result from mach_timebase_info (a ratio), which will return billionth of seconds (or nanoseconds). To make this more usable I use a function like the one below:

#include <mach/mach_time.h>

int getUptimeInMilliseconds()
{
    const int64_t kOneMillion = 1000 * 1000;
    static mach_timebase_info_data_t s_timebase_info;

    if (s_timebase_info.denom == 0) {
        (void) mach_timebase_info(&s_timebase_info);
    }

    // mach_absolute_time() returns billionth of seconds,
    // so divide by one million to get milliseconds
    return (int)((mach_absolute_time() * s_timebase_info.numer) / (kOneMillion * s_timebase_info.denom));
}
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5  
It looks like your experimentation resulted in the same solution arrived at by Apple's engineers. developer.apple.com/library/mac/qa/qa1398/_index.html –  user371320 Mar 10 '12 at 1:20
    
Fwiw the latter appears to be for OSX. –  JohnK Apr 25 '13 at 1:39
2  
This function works incorrectly for iOS. In return string you make integer value calculation. Since on iPhone 5 s_timebase_info.numer = 125 and s_timebase_info.denom = 3 finally you can get the same uptime during about 40 seconds between requests. Multiply mach_absolute_time() by float 1.0 for correctness. –  malex Dec 13 '13 at 12:04

If you don't care a lot about computation time you can use simple Obj-C class from Foundation

NSTimeInterval systemUptime = [[NSProcessInfo processInfo] systemUptime];
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what do you mean by "completion time"? –  Eddy Mar 7 at 7:40
1  
Sorry for misspell, "computation time". I mean that obj-c works a bit slowly than pure C-code. –  malex Mar 7 at 9:40
    
Thanks @malex :) –  Eddy Mar 8 at 0:03
    
i use this code for check this in simulator but can't get the difference, after restart the simulator both systemUptime same.. –  g212gs Mar 20 at 9:07
1  
@g212gs Note that it is system uptime! simulator's system - OSX. So you get right answer - the same uptime until you reboot you mac –  malex Mar 20 at 10:01

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