Hi Richard, Thanks for your input and time. Please see below follow up. On 3/20/21 8:38 AM, Richard Cochran wrote: > On Sat, Mar 20, 2021 at 01:44:20PM +0100, Arnd Bergmann wrote: >> Adding Richard Cochran as well, for drivers/ptp/, he may be able to >> identify whether this should be integrated into that framework in some >> form. > > I'm not familiar with the GTE, but it sounds like it is a (free > running?) clock with time stamping inputs. If so, then it could > expose a PHC. That gets you functionality: > > - clock_gettime() and friends > - comparison ioctl between GTE clock and CLOCK_REALTIME > - time stamping channels with programmable input selection > GTE gets or rather records the timestamps from the TSC (timestamp system coutner) so its not attached to GTE as any one can access TSC, so not sure if we really need to implement PHC and/or clock_* and friends for the GTE. I believe burden to find correlation between various clock domains should be on the clients, consider below example. Networking client has access to both PTP and GTE, it would be its job to find the correlations if that is at all needed based on whatever use case that client serves. GTE in above may come in picture if said client has some GPIO configured and wants timestamp on it. Sorry if I misunderstood anything, you can elaborate more as I am also interested in how GTE can fit in PTP framework and which usecase it can help doing so. > The mentioned applications (robotics and autonomous vehicle, so near > and dear to my heart) surely already use the PHC API for dealing with > network and system time sources, and so exposing the GTE as a PHC > means that user space programs will have a consistent API. > > [ The only drawback I can see is the naming of the C language > identifiers in include/uapi/linux/ptp_clock.h. If that bothers > people, then these can be changed to something more generic while > keeping compatibility aliases. ] > > Thanks, > Richard > Thanks, Best Regards, Dipen Patel