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author | David Gwynne <dlg@cvs.openbsd.org> | 2015-09-01 03:47:59 +0000 |
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committer | David Gwynne <dlg@cvs.openbsd.org> | 2015-09-01 03:47:59 +0000 |
commit | 51de94583baafa8826ed6a8830f9d5e826be4a6b (patch) | |
tree | 18da926e9f972c1ab8d6a78e7a248ec3adb4b19f /distrib | |
parent | 7a9d941b69731bf9e42e4752c23c6b08d16e0b10 (diff) |
mattieu baptiste reported a problem with bpf+srps where the per cpu
hazard pointers were becoming corrupt and therefore panics.
the problem turned out to be that bridge_input calls if_input on
behalf of a hardware interface which then calls bpf_mtap at splsoftnet,
while the actual hardware nic calls if_input and bpf_mtap at splnet.
the hardware interrupts ran in the middle of the bpf calls bridge
runs at softnet. this means the same srps are being entered and
left on the same cpu at different ipls, which led to races because
of the order of operations on the per cpu hazard pointers.
after a lot of experimentation, jmatthew@ figured out how to deal
with this problem without introducing per cpu critical sections
(ie, splhigh) calls in srp_enter and srp_leave, and without introducing
atomic operations.
the solution is to iterate forward through the array of hazard
pointers in srp_enter, and backward in srp_leave to clear. if you
guarantee that you leave srps in the reverse order to entering them,
then you can use the same set of SRPs at different IPLs on the same
CPU.
the ordering requirement is a problem if we want to build linked
data structures out of srps because you need to hold a ref to the
current element containing the next srp to use it, before giving
up the current ref. we're adding srp_follow() to support taking the
next ref and giving up the current one while preserving the structure
of the hazard pointer list. srp_follow() does this by reusing the
hazard pointer for the current reference for the next ref.
both mattieu baptiste and jmatthew@ have been hitting this pretty
hard with a tweaked version of srp+bpf that uses srp_follow instead
of interleaved srp_enter/srp_leave sequences. neither can reproduce
the panics anymore.
thanks to mattieu for the report and tests
ok jmatthew@
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