Re: [RFC v2 03/83] Add super.h.
From: Arnd Bergmann
Date: Fri Mar 16 2018 - 05:19:31 EST
On Fri, Mar 16, 2018 at 3:59 AM, Theodore Y. Ts'o <tytso@xxxxxxx> wrote:
> On Thu, Mar 15, 2018 at 09:38:29PM +0100, Arnd Bergmann wrote:
>>
>> You could also have a resolution of less than a nanosecond. Note
>> that today, the file time stamps generated by the kernel are in
>> jiffies resolution, so at best one millisecond. However, most modern
>> file systems go with the 64+32 bit timestamps because it's not all
>> that expensive.
>
> It actually depends on the architecture and the accuracy/granularity
> of the timekeeping hardware available to the system, but it's possible
> for the granularity of file time stamps to be up to one nanosecond.
> So you can get results like this:
>
> % stat unix_io.o
> File: unix_io.o
> Size: 55000 Blocks: 112 IO Block: 4096 regular file
> Device: fc01h/64513d Inode: 19931278 Links: 1
> Access: (0644/-rw-r--r--) Uid: (15806/ tytso) Gid: (15806/ tytso)
> Access: 2018-03-15 18:09:21.679914182 -0400
> Modify: 2018-03-15 18:09:21.639914089 -0400
> Change: 2018-03-15 18:09:21.639914089 -0400
Note how the nanoseconds only differ in digits 2, 7, 8, and 9 though:
The atime update happened 4 jiffies (at HZ=100) after the mtime,
the low digits are presumably jitter or ntp adjustments.
This is the result of current_time() using the plain tk_xtime
rather than reading the highres clocksource as ktime_get_real_ts64()
does.
This was a performance optimization a long time ago. We could
make the current_time() behavior configurable if we want though,
e.g. at compile time, or as a per-mount option. It's probably more
common these days to have a highres clocksource that can
be read efficiently than it was back when current_fs_time()
was first introduced.
Arnd