On Thu, Feb 11, 2021 at 01:23:52AM +0200, Vladimir Oltean wrote:
> On Wed, Feb 10, 2021 at 12:59:49PM +0200, Ido Schimmel wrote:
> > > > The reverse, during unlinking, would be to refuse unlinking if the upper
> > > > has uppers of its own. netdev_upper_dev_unlink() needs to learn to
> > > > return an error and callers such as team/bond need to learn to handle
> > > > it, but it seems patchable.
> > >
> > > Again, this was treated prior to my deletion in this series and not by
> > > erroring out, I just really didn't think it through.
> > >
> > > So you're saying that if we impose that all switchdev drivers restrict
> > > the house of cards to be constructed from the bottom up, and destructed
> > > from the top down, then the notification of bridge port flags can stay
> > > in the bridge layer?
> >
> > I actually don't think it's a good idea to have this in the bridge in
> > any case. I understand that it makes sense for some devices where
> > learning, flooding, etc are port attributes, but in other devices these
> > can be {port,vlan} attributes and then you need to take care of them
> > when a vlan is added / deleted and not only when a port is removed from
> > the bridge. So for such devices this really won't save anything. I would
> > thus leave it to the lower levels to decide.
> 
> Just for my understanding, how are per-{port,vlan} attributes such as
> learning and flooding managed by the Linux bridge? How can I disable
> flooding only in a certain VLAN?

You can't (currently). But it does not change the fact that in some
devices these are {port,vlan} attributes and we are talking here about
the interface towards these devices. Having these as {port,vlan}
attributes allows you to support use cases such as a port being enslaved
to a VLAN-aware bridge and its VLAN upper(s) enslaved to VLAN unaware
bridge(s). Obviously you need to ensure there is no conflict between the
VLANs used by the VLAN-aware bridge and the VLAN device(s).

Reply via email to