On Tue, Apr 13, 2021 at 01:06, Vladimir Oltean <olte...@gmail.com> wrote:
> On Mon, Apr 12, 2021 at 11:49:22PM +0200, Tobias Waldekranz wrote:
>> On Tue, Apr 13, 2021 at 00:34, Vladimir Oltean <olte...@gmail.com> wrote:
>> > On Mon, Apr 12, 2021 at 11:22:45PM +0200, Tobias Waldekranz wrote:
>> >> On Mon, Apr 12, 2021 at 21:30, Marek Behun <marek.be...@nic.cz> wrote:
>> >> > On Mon, 12 Apr 2021 14:46:11 +0200
>> >> > Tobias Waldekranz <tob...@waldekranz.com> wrote:
>> >> >
>> >> >> I agree. Unless you only have a few really wideband flows, a LAG will
>> >> >> typically do a great job with balancing. This will happen without the
>> >> >> user having to do any configuration at all. It would also perform well
>> >> >> in "router-on-a-stick"-setups where the incoming and outgoing port is
>> >> >> the same.
>> >> >
>> >> > TLDR: The problem with LAGs how they are currently implemented is that
>> >> > for Turris Omnia, basically in 1/16 of configurations the traffic would
>> >> > go via one CPU port anyway.
>> >> >
>> >> >
>> >> >
>> >> > One potencial problem that I see with using LAGs for aggregating CPU
>> >> > ports on mv88e6xxx is how these switches determine the port for a
>> >> > packet: only the src and dst MAC address is used for the hash that
>> >> > chooses the port.
>> >> >
>> >> > The most common scenario for Turris Omnia, for example, where we have 2
>> >> > CPU ports and 5 user ports, is that into these 5 user ports the user
>> >> > plugs 5 simple devices (no switches, so only one peer MAC address for
>> >> > port). So we have only 5 pairs of src + dst MAC addresses. If we simply
>> >> > fill the LAG table as it is done now, then there is 2 * 0.5^5 = 1/16
>> >> > chance that all packets would go through one CPU port.
>> >> >
>> >> > In order to have real load balancing in this scenario, we would either
>> >> > have to recompute the LAG mask table depending on the MAC addresses, or
>> >> > rewrite the LAG mask table somewhat randomly periodically. (This could
>> >> > be in theory offloaded onto the Z80 internal CPU for some of the
>> >> > switches of the mv88e6xxx family, but not for Omnia.)
>> >> 
>> >> I thought that the option to associate each port netdev with a DSA
>> >> master would only be used on transmit. Are you saying that there is a
>> >> way to configure an mv88e6xxx chip to steer packets to different CPU
>> >> ports depending on the incoming port?
>> >> 
>> >> The reason that the traffic is directed towards the CPU is that some
>> >> kind of entry in the ATU says so, and the destination of that entry will
>> >> either be a port vector or a LAG. Of those two, only the LAG will offer
>> >> any kind of balancing. What am I missing?
>> >> 
>> >> Transmit is easy; you are already in the CPU, so you can use an
>> >> arbitrarily fancy hashing algo/ebpf classifier/whatever to load balance
>> >> in that case.
>> >
>> > Say a user port receives a broadcast frame. Based on your understanding
>> > where user-to-CPU port assignments are used only for TX, which CPU port
>> > should be selected by the switch for this broadcast packet, and by which
>> > mechanism?
>> 
>> AFAIK, the only option available to you (again, if there is no LAG set
>> up) is to statically choose one CPU port per entry. But hopefully Marek
>> can teach me some new tricks!
>> 
>> So for any known (since the broadcast address is loaded in the ATU it is
>> known) destination (b/m/u-cast), you can only "load balance" based on
>> the DA. You would also have to make sure that unknown unicast and
>> unknown multicast is only allowed to egress one of the CPU ports.
>> 
>> If you have a LAG OTOH, you could include all CPU ports in the port
>> vectors of those same entries. The LAG mask would then do the final
>> filtering so that you only send a single copy to the CPU.
>
> I forgot that mv88e6xxx keeps the broadcast address in the ATU. I wanted
> to know what is done in the flooding case, therefore I should have asked
> about unknown destination traffic. It is sent to one CPU but not the
> other based on what information?
>
> And for destinations loaded into the ATU, how is user port isolation
> performed? Say lan0 and lan1 have the same MAC address of 00:01:02:03:04:05,
> but lan0 goes to the eth0 DSA master and lan1 goes to eth1. How many ATU
> entries would there be for host addresses, and towards which port would
> they point? Are they isolated by a port private VLAN or something along
> those lines?

This is what I do not understand. This is what I hope that Marek can
tell me. To my knowledge, there is no way to per-port load balancing
from the switch to the CPU. In any given FID, there can be only one
entry per address, and that entry can only point to either a vector or a
LAG.

So my theory is that the only way of getting any load balancing, however
flawed, on receive (from switch to CPU) is by setting up a
LAG. Hopefully there is some trick that I do not know about which means
we have another option available to us.

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