Please see my comments inline.
On 3/6/2023 2:01 AM, fwefew 4t4tg wrote:
I convinced myself that a viable way to measure timestamps between a
request packet and its response packet can be the difference between
two Intel rdtsc calls
I think it is a good solution: computationally inexpensive and accurate.
The restrictions to valid use include:
* RTT (time difference) must be calculated on the same CORE
Yes, it is safe.
But I think it is also OK, if the two cores used for taking sending TSC
and receiving TSC belong to the same physical CPU. At least it works me
well in my measurement program called siitperf.
* fencing instructions (lfence) could be required
But it can also decrease the performance of your program.
The time difference is OK provided,
* it delivers at least microsecond resolution (rdtsc does)
* the difference is always positive (end-start) or zero
* the details of whether the clock runs or does not run at the
processor speed is not material so long as there's sufficient
resolution
* DPDK gives me the frequency rte_rdtsc_cycles(); this way I can
convert from a rdtsc difference to elapsed time
* The OS doesn't reset the counter or pause it for interrupts or on
halts
I think rdtsc does all this. But then I read [1]:
* The TSC is not always invariant
* And of course context switches (if a thread is not pinned to a
core) will invalidate any time difference
I start the packet sender and receiver threads by the
rte_eal_remote_launch() calls on the appropriate cores and it works fine
for me.
* The TSC is not incremented when the processor enters a deep sleep.
I don't care about this because I'll turn off the power saving
modes anyway
So I am not so sure.
I set the CPU clock frequency to a fixed value. (If I cannot do it from
BIOS, I use the tlp Linux package.)
Now, of course, Mellanox can report time stamps. Is it actually
possible to get HW NIC timestamps reported for every packet sent and
received without overburdening the NIC? Based on what I can see for my
case (Connect 4 LX) resolution is nanoseconds. So I am tempted to not
fool around with rdtsc and just use NIC timestamps.
What is praxis in DPDK programming when one needs RTTs?
I have implemented both the Latency and PDV (Packet Delay Variation)
measurements of RFC 8219 in siitperf using RDTSC. I am satisfied with
the result.
If you are interested, you can find the source code here:
https://github.com/lencsegabor/siitperf
And its latest version is documented in my paper:
http://www.hit.bme.hu/~lencse/publications/ECC-2022-SFNATxy-Tester-published.pdf
Best regards,
Gábor
[1]
https://stackoverflow.com/questions/42189976/calculate-system-time-using-rdtsc