Interesting. TCP timestamping takes the opposite choice and does timestamp the last byte in the sendmsg request.
I have a difficult time with the philosophy of TX timestamping the last segment. The actual timestamp occurs just before the last segment is sent. This is neither the start nor the end of a GSO packet, which to me seems somewhat arbitrary. It is even more arbitrary when using software TX tiimestamping. These are timestamps represent the time that the packet is queued onto the NIC’s buffer, not actual time leaving the wire. Queuing to a ring buffer is usually much faster than wire rates. Therefore, say the timestamp of the last 1500 byte segment of a 64K GSO packet may in reality be representing a time about half way through the burst.
Since the timestamp of a TX packet occurs just before any data is sent, I have found it most valuable to timestamp just before the first byte of the packet or burst. Conversely, I find it most valuable to get an RX timestamp after the last byte arrives.
It sounds like it depends on the workload. Perhaps this then needs to be configurable with an SOF_.. flag.
It would be interesting if a practical case can be made for timestamping the last segment. In my mind, I don’t see how that would be valuable.
Another option would be to return a timestamp for every segment. But they would all return the same tskey. And it causes different behavior with and without hardware offload.
When it comes to RX packets, getting per-packet (or per segment) timestamps is invaluable. They represent actual wire times. However my previous research into TX timestamping has led me to conclude that there is no practical value when timestamping every packet of a back-to-back burst.
When using software TX timestamping, The inter-packet timestamps are typically much faster than line rate. Whereas you may be sending on a GigE link, you may measure 20Gbps. At higher rates, I have found that the overhead of per-packet software timestamping can produce gaps in packets.
When using hardware timestamping, I think you will find that nearly all adapters only allow one timestamp at a time. Therefore only one packet in a burst would get timestamped. There are exceptions, for example I am playing with a 100G Mellanox adapter that has per-packet TX timestamping. However, I suspect that when I am done testing, all I will see is timestamps that are representing wire rate (e.g. 123nsec per 1500 byte packet).
Beyond testing the accuracy of a NIC’s timestamping capabilities, I see very little value in doing per-segment timestamping.