On mån, mar 28, 2022 at 11:48, Vladimir Oltean olteanv@gmail.com wrote:
On Mon, Mar 28, 2022 at 09:38:33AM +0200, Hans Schultz wrote:
On fre, mar 25, 2022 at 22:30, Vladimir Oltean olteanv@gmail.com wrote:
On Fri, Mar 25, 2022 at 05:01:59PM +0100, Hans Schultz wrote:
An attacker sweeping through the 2^47 source MAC address range is a problem regardless of the implementations proposed so far, no?
The idea is to have a count on the number of locked entries in both the ATU and the FDB, so that a limit on entries can be enforced.
I can agree with that.
Note that as far as I understand regular 802.1X, these locked FDB entries are just bloatware if you don't need MAC authentication bypass, because the source port is already locked, so it drops all traffic from an unknown MAC SA except for the link-local packets necessary to run EAPOL, which are trapped to the CPU.
802.1X and MAC Auth can be completely seperated by hostapd listning directly on the locked port interface before entering the bridge.
I don't understand this, sorry. What do you mean "before entering the bridge"?
RAW socket on network slave device.
So maybe user space should opt into the MAC authentication bypass process, really, since that requires secure CPU-assisted learning, and regular 802.1X doesn't. It's a real additional burden that shouldn't be ignored or enabled by default.
If unlimited growth of the mv88e6xxx locked ATU entry cache is a concern (which it is), we could limit its size, and when we purge a cached entry in software is also when we could emit a SWITCHDEV_FDB_DEL_TO_BRIDGE for it, right?
I think the best would be dynamic entries in both the ATU and the FDB for locked entries.
Making locked (DPV=0) ATU entries be dynamic (age out) makes sense. Since you set the IgnoreWrongData for source ports, you suppress ATU interrupts for this MAC SA, which in turn means that a station which is unauthorized on port A can never redeem itself when it migrates to port B, for which it does have an authorization, since software never receives any notice that it has moved to a new port.
But making the locked bridge FDB entry be dynamic, why does it matter? I'm not seeing this through. To denote that it can migrate, or to denote that it can age out? These locked FDB entries are 'extern_learn', so they aren't aged out by the bridge anyway, they are aged out by whomever added them => in our case the SWITCHDEV_FDB_DEL_TO_BRIDGE that I mentioned.
I think the FDB and the ATU should be as much in sync as possible, and the FDB definitely should not keep stale entries that only get removed by link down. The SWITCHDEV_FDB_DEL_TO_BRIDGE route would requre an interrupt when a entry ages out in the ATU, but we know that that cannot happen with DPV=0. Thus the need to add dynamic entries with SWITCHDEV_FDB_ADD_TO_BRIDGE.
So what is your suggestion exactly? You want the driver to notify the locked FDB entry via FDB_ADD_TO_BRIDGE with the dynamic flag, and then rely on the bridge's software ageing timer to delete it? How does that deletion propagate back to the driver then? I'm unclear on the ownership model you propose.
As the FDB and the ATU will age out the entry with the same timeout, they will stay relatively in sync compared to the situation where the switchcore driver will not be able to notify the bridge that a zero DPV entry has aged out as it has no port association.
How the two are kept in sync is another question, but if there is a switchcore, it will be the 'master', so I don't think the bridge module will need to tell the switchcore to remove entries in that case. Or?
The bridge will certainly not *need* to tell the switch to delete a locked FDB entry, but it certainly *can* (and this is in fact part of the authorization process, replace an ATU entry with DPV=0 with an ATU entry with DPV=BIT(port)).
Yes you are right, but I was implicitly only regarding internal mechanisms in the 'bridge + switchcore', and not userspace netlink commands.
I feel as if I'm missing the essence of your reply.