On Sat, May 25, 2019 at 1:47 PM Fred Klassen wrote: > > > > > On May 25, 2019, at 8:20 AM, Willem de Bruijn wrote: > > > > On Fri, May 24, 2019 at 6:01 PM Fred Klassen wrote: > >> > >> > >> > >>> On May 24, 2019, at 12:29 PM, Willem de Bruijn wrote: > >>> > >>> It is the last moment that a timestamp can be generated for the last > >>> byte, I don't see how that is "neither the start nor the end of a GSO > >>> packet”. > >> > >> My misunderstanding. I thought TCP did last segment timestamping, not > >> last byte. In that case, your statements make sense. > >> > >>>> 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. > >>> > >>> It depends whether you are interested in measuring network latency or > >>> host transmit path latency. > >>> > >>> For the latter, knowing the time from the start of the sendmsg call to > >>> the moment the last byte hits the wire is most relevant. Or in absence > >>> of (well defined) hardware support, the last byte being queued to the > >>> device is the next best thing. > > > > Sounds to me like both cases have a legitimate use case, and we want > > to support both. > > > > Implementation constraints are that storage for this timestamp > > information is scarce and we cannot add new cold cacheline accesses in > > the datapath. > > > > The simplest approach would be to unconditionally timestamp both the > > first and last segment. With the same ID. Not terribly elegant. But it > > works. > > > > If conditional, tx_flags has only one bit left. I think we can harvest > > some, as not all defined bits are in use at the same stages in the > > datapath, but that is not a trivial change. Some might also better be > > set in the skb, instead of skb_shinfo. Which would also avoids > > touching that cacheline. We could possibly repurpose bits from u32 > > tskey. > > > > All that can come later. Initially, unless we can come up with > > something more elegant, I would suggest that UDP follows the rule > > established by TCP and timestamps the last byte. And we add an > > explicit SOF_TIMESTAMPING_OPT_FIRSTBYTE that is initially only > > supported for UDP, sets a new SKBTX_TX_FB_TSTAMP bit in > > __sock_tx_timestamp and is interpreted in __udp_gso_segment. > > > > I don’t see how to practically TX timestamp the last byte of any packet > (UDP GSO or otherwise). The best we could do is timestamp the last > segment, or rather the time that the last segment is queued. Let me > attempt to explain. > > First let’s look at software TX timestamps which are for are generated > by skb_tx_timestamp() in nearly every network driver’s xmit routine. It > states: > > —————————— cut ———————————— > * Ethernet MAC Drivers should call this function in their hard_xmit() > * function immediately before giving the sk_buff to the MAC hardware. > —————————— cut ———————————— > > That means that the sk_buff will get timestamped just before rather > than just after it is sent. To truly capture the timestamp of the last > byte, this routine routine would have to be called a second time, right > after sending to MAC hardware. Then the user program would have > sort out the 2 timestamps. My guess is that this isn’t something that > NIC vendors would be willing to implement in their drivers. > > So, the best we can do is timestamp is just before the last segment. > Suppose UDP GSO sends 3000 bytes to a 1500 byte MTU adapter. > If we set SKBTX_HW_TSTAMP flag on the last segment, the timestamp > occurs half way through the burst. But it may not be exactly half way > because the segments may get queued much faster than wire rate. > Therefore the time between segment 1 and segment 2 may be much > much smaller than their spacing on the wire. I would not find this > useful. For measuring host queueing latency, a timestamp at the existing skb_tx_timestamp() for the last segment is perfectly informative. > I propose that we stick with the method used for IP fragments, which > is timestamping just before the first byte is sent. I understand that this addresses your workload. It simply ignores the other identified earlier in this thread. > Put another way, I > propose that we start the clock in an automobile race just before the > front of the first car crosses the start line rather than when the front > of the last car crosses the start line. > > TX timestamping in hardware has even more limitations. For the most > part, we can only do one timestamp per packet or burst. If we requested > a timestamp of only the last segment of a packet, we would have work > backwards to calculate the start time of the packet, but that would > only be be a best guess. For extremely time sensitive applications > (such as the one we develop), this would not be practical. Note that for any particularly sensitive measurements, a segment can always be sent separately. > We could still consider setting a flag that would allow the timestamping > the last segment rather than the first. However since we cannot > truly measure the timestamp of the last byte, I would question the value > in doing so. >