Alexander Lobakin <aleksander.lobakin@xxxxxxxxx> writes: > From: Daniel Xu <dxu@xxxxxxxxx> > Date: Thu, 08 Aug 2024 16:52:51 -0400 > >> Hi, >> >> On Thu, Aug 8, 2024, at 7:57 AM, Alexander Lobakin wrote: >>> From: Lorenzo Bianconi <lorenzo.bianconi@xxxxxxxxxx> >>> Date: Thu, 8 Aug 2024 06:54:06 +0200 >>> >>>>> Hi Alexander, >>>>> >>>>> On Tue, Jun 28, 2022, at 12:47 PM, Alexander Lobakin wrote: >>>>>> cpumap has its own BH context based on kthread. It has a sane batch >>>>>> size of 8 frames per one cycle. >>>>>> GRO can be used on its own, adjust cpumap calls to the >>>>>> upper stack to use GRO API instead of netif_receive_skb_list() which >>>>>> processes skbs by batches, but doesn't involve GRO layer at all. >>>>>> It is most beneficial when a NIC which frame come from is XDP >>>>>> generic metadata-enabled, but in plenty of tests GRO performs better >>>>>> than listed receiving even given that it has to calculate full frame >>>>>> checksums on CPU. >>>>>> As GRO passes the skbs to the upper stack in the batches of >>>>>> @gro_normal_batch, i.e. 8 by default, and @skb->dev point to the >>>>>> device where the frame comes from, it is enough to disable GRO >>>>>> netdev feature on it to completely restore the original behaviour: >>>>>> untouched frames will be being bulked and passed to the upper stack >>>>>> by 8, as it was with netif_receive_skb_list(). >>>>>> >>>>>> Signed-off-by: Alexander Lobakin <alexandr.lobakin@xxxxxxxxx> >>>>>> --- >>>>>> kernel/bpf/cpumap.c | 43 ++++++++++++++++++++++++++++++++++++++----- >>>>>> 1 file changed, 38 insertions(+), 5 deletions(-) >>>>>> >>>>> >>>>> AFAICT the cpumap + GRO is a good standalone improvement. I think >>>>> cpumap is still missing this. >>> >>> The only concern for having GRO in cpumap without metadata from the NIC >>> descriptor was that when the checksum status is missing, GRO calculates >>> the checksum on CPU, which is not really fast. >>> But I remember sometimes GRO was faster despite that. >> >> Good to know, thanks. IIUC some kind of XDP hint support landed already? >> >> My use case could also use HW RSS hash to avoid a rehash in XDP prog. > > Unfortunately, for now it's impossible to get HW metadata such as RSS > hash and checksum status in cpumap. They're implemented via kfuncs > specific to a particular netdevice and this info is available only when > running XDP prog. > > But I think one solution could be: > > 1. We create some generic structure for cpumap, like > > struct cpumap_meta { > u32 magic; > u32 hash; > } > > 2. We add such check in the cpumap code > > if (xdpf->metalen == sizeof(struct cpumap_meta) && > <here we check magic>) > skb->hash = meta->hash; > > 3. In XDP prog, you call Rx hints kfuncs when they're available, obtain > RSS hash and then put it in the struct cpumap_meta as XDP frame metadata. Yes, except don't make this cpumap-specific, make it generic for kernel consumption of the metadata. That way it doesn't even have to be stored in the xdp metadata area, it can be anywhere we want (and hence not subject to ABI issues), and we can use it for skb creation after redirect in other places than cpumap as well (say, on veth devices). So it'll be: struct kernel_meta { u32 hash; u32 timestamp; ...etc } and a kfunc: void store_xdp_kernel_meta(struct kernel meta *meta); which the XDP program can call to populate the metadata area. -Toke