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According to the Linux man page under Ubuntu

CLOCK_MONOTONIC
      Clock that cannot be set and  represents  monotonic  time  since
      some unspecified starting point.

CLOCK_MONOTONIC_RAW (since Linux 2.6.28; Linux-specific)
      Similar  to  CLOCK_MONOTONIC, but provides access to a raw hard‐
      ware-based time that is not subject to NTP adjustments.

According to the webster online dictionary Monotonic means:

2: having the property either of never increasing or of never decreasing as the values of the independent variable or the subscripts of the terms increase.

In other words, it won't jump backwards. I can see that this would be an important property if you were timing some code.

However, the difference between the normal and raw version isn't clear. Can someone shed some light into how NTP can still affect CLOCK_MONOTONIC?

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2 Answers 2

up vote 6 down vote accepted

CLOCK_MONOTONIC never experiences discontinuities due to NTP time adjustments, but it does change in frequency as NTP learns what error exists between the local oscillator and the upstream servers.

CLOCK_MONOTONIC_RAW is simply the local oscillator, not disciplined by NTP. This could be very useful if you want to implement some other time synchronization algorithm against a clock which is not fighting you due to NTP. While NTP is reputed to be "gentle" with time adjustments, it's more accurate to say it's gentle with the absolute time. It's willing to slew the clock by 500ppm which is pretty dramatic if you're in a position to measure your clock frequency against some other standard.

The utility of CLOCK_MONOTONIC_RAW is going to be limited until facilities like pthread_timedwait_monotonic offer an option to use that timebase.

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This answer and the other seem to contradict each other in just how CLOCK_MONOTONIC is affected. It would be extremely nice if an authoritative source could be had clearing the difference up. –  Dolda2000 Feb 13 at 9:18
    
@Dolda2000 The answers look consistent to me. CLOCK_MONOTONIC is affected by clock rate changes (via adjtimex) but not jumps. The other answer only talks about the non-jump case. –  Ben Jackson Feb 13 at 9:35
    
The rate disciplining you speak of in your answer doesn't seem to me to be the same thing as the rate change cause by adjtime; with the former being an adjustment to the rate to match the real rate more properly, and the latter being an intentional aberration from the true rate in order to adjust the absolute time (which should only affect CLOCK_REALTIME, rather than CLOCK_MONOTONIC, no?). –  Dolda2000 Feb 13 at 9:40
    
@Dolda2000: That's an interesting idea, but that's not how it works. The kernel maintains CLOCK_REALTIME because that's a much more popular clock. When you ask for CLOCK_MONOTONIC it applies an offset (essentially the boot time). When the clock is stepped the equivalent anti-step is added to the offset so that the monotonic clock is not disrupted. When the clock is adjusted or slewed (the effects of which are blended together in the kernel) there is no corresponding counter-adjustment to the realtime offset, so its frequency changes. –  Ben Jackson Feb 13 at 17:11
    
I see. Thanks for clearing that up! –  Dolda2000 Feb 14 at 3:16

ntpd doesn't cause the time to jump if the difference is below a certain threshold. adjtime-like adjustment is used instead, affecting both CLOCK_MONOTONIC and CLOCK_REALTIME (but not CLOCK_MONOTONIC_RAW, apparently).

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