On 4/15/21 1:58 AM, Andrii Nakryiko wrote:
On Wed, Apr 14, 2021 at 4:32 PM Daniel Borkmann <dan...@iogearbox.net> wrote:
On 4/15/21 1:19 AM, Andrii Nakryiko wrote:
On Wed, Apr 14, 2021 at 3:51 PM Toke Høiland-Jørgensen <t...@redhat.com> wrote:
Andrii Nakryiko <andrii.nakry...@gmail.com> writes:
On Wed, Apr 14, 2021 at 3:58 AM Toke Høiland-Jørgensen <t...@redhat.com> wrote:
Andrii Nakryiko <andrii.nakry...@gmail.com> writes:
On Tue, Apr 6, 2021 at 3:06 AM Toke Høiland-Jørgensen <t...@redhat.com> wrote:
Andrii Nakryiko <andrii.nakry...@gmail.com> writes:
On Sat, Apr 3, 2021 at 10:47 AM Alexei Starovoitov
<alexei.starovoi...@gmail.com> wrote:
On Sat, Apr 03, 2021 at 12:38:06AM +0530, Kumar Kartikeya Dwivedi wrote:
On Sat, Apr 03, 2021 at 12:02:14AM IST, Alexei Starovoitov wrote:
On Fri, Apr 2, 2021 at 8:27 AM Kumar Kartikeya Dwivedi <mem...@gmail.com> wrote:
[...]
All of these things are messy because of tc legacy. bpf tried to follow tc style
with cls and act distinction and it didn't quite work. cls with
direct-action is the only
thing that became mainstream while tc style attach wasn't really addressed.
There were several incidents where tc had tens of thousands of progs attached
because of this attach/query/index weirdness described above.
I think the only way to address this properly is to introduce bpf_link style of
attaching to tc. Such bpf_link would support ingress/egress only.
direction-action will be implied. There won't be any index and query
will be obvious.
Note that we already have bpf_link support working (without support for pinning
ofcourse) in a limited way. The ifindex, protocol, parent_id, priority, handle,
chain_index tuple uniquely identifies a filter, so we stash this in the bpf_link
and are able to operate on the exact filter during release.
Except they're not unique. The library can stash them, but something else
doing detach via iproute2 or their own netlink calls will detach the prog.
This other app can attach to the same spot a different prog and now
bpf_link__destroy will be detaching somebody else prog.
So I would like to propose to take this patch set a step further from
what Daniel said:
int bpf_tc_attach(prog_fd, ifindex, {INGRESS,EGRESS}):
and make this proposed api to return FD.
To detach from tc ingress/egress just close(fd).
You mean adding an fd-based TC API to the kernel?
yes.
I'm totally for bpf_link-based TC attachment.
But I think *also* having "legacy" netlink-based APIs will allow
applications to handle older kernels in a much nicer way without extra
dependency on iproute2. We have a similar situation with kprobe, where
currently libbpf only supports "modern" fd-based attachment, but users
periodically ask questions and struggle to figure out issues on older
kernels that don't support new APIs.
+1; I am OK with adding a new bpf_link-based way to attach TC programs,
but we still need to support the netlink API in libbpf.
So I think we'd have to support legacy TC APIs, but I agree with
Alexei and Daniel that we should keep it to the simplest and most
straightforward API of supporting direction-action attachments and
setting up qdisc transparently (if I'm getting all the terminology
right, after reading Quentin's blog post). That coincidentally should
probably match how bpf_link-based TC API will look like, so all that
can be abstracted behind a single bpf_link__attach_tc() API as well,
right? That's the plan for dealing with kprobe right now, btw. Libbpf
will detect the best available API and transparently fall back (maybe
with some warning for awareness, due to inherent downsides of legacy
APIs: no auto-cleanup being the most prominent one).
Yup, SGTM: Expose both in the low-level API (in bpf.c), and make the
high-level API auto-detect. That way users can also still use the
netlink attach function if they don't want the fd-based auto-close
behaviour of bpf_link.
So I thought a bit more about this, and it feels like the right move
would be to expose only higher-level TC BPF API behind bpf_link. It
will keep the API complexity and amount of APIs that libbpf will have
to support to the minimum, and will keep the API itself simple:
direct-attach with the minimum amount of input arguments. By not
exposing low-level APIs we also table the whole bpf_tc_cls_attach_id
design discussion, as we now can keep as much info as needed inside
bpf_link_tc (which will embed bpf_link internally as well) to support
detachment and possibly some additional querying, if needed.
But then there would be no way for the caller to explicitly select a
mechanism? I.e., if I write a BPF program using this mechanism targeting
a 5.12 kernel, I'll get netlink attachment, which can stick around when
I do bpf_link__disconnect(). But then if the kernel gets upgraded to
support bpf_link for TC programs I'll suddenly transparently get
bpf_link and the attachments will go away unless I pin them. This
seems... less than ideal?
That's what we are doing with bpf_program__attach_kprobe(), though.
And so far I've only seen people (privately) saying how good it would
be to have bpf_link-based TC APIs, doesn't seem like anyone with a
realistic use case prefers the current APIs. So I suspect it's not
going to be a problem in practice. But at least I'd start there and
see how people are using it and if they need anything else.
*sigh* - I really wish you would stop arbitrarily declaring your own use
cases "realistic" and mine (implied) "unrealistic". Makes it really hard
to have a productive discussion...
Well (sigh?..), this wasn't my intention, sorry you read it this way.
But we had similar discussions when I was adding bpf_link-based XDP
attach APIs. And guess what, now I see that samples/bpf/whatever_xdp
is switched to bpf_link-based XDP, because that makes everything
simpler and more reliable. What I also know is that in production we
ran into multiple issues with anything that doesn't auto-detach on
process exit/crash (unless pinned explicitly, of course). And that
people that are trying to use TC right now are saying how having
bpf_link-based TC APIs would make everything *simpler* and *safer*. So
I don't know... I understand it might be convenient in some cases to
not care about a lifetime of BPF programs you are attaching, but then
there are usually explicit and intentional ways to achieve at least
similar behavior with safety by default.
[...]
>>> There are many ways to skin this cat. I'd prioritize bpf_link-based TC
>>> APIs to be added with legacy TC API as a fallback.
I think the problem here is though that this would need to be deterministic
when upgrading from one kernel version to another where we don't use the
fallback anymore, e.g. in case of Cilium we always want to keep the progs
attached to allow headless updates on the agent, meaning, traffic keeps
flowing through the BPF datapath while in user space, our agent restarts
after upgrade, and atomically replaces the BPF progs once up and running
(we're doing this for the whole range of 4.9 to 5.x kernels that we support).
While we use the 'simple' api that is discussed here internally in Cilium,
this attach behavior would have to be consistent, so transparent fallback
inside libbpf on link vs non-link availability won't work (at least in our
case).
What about pinning? It's not exactly the same, but bpf_link could
actually pin a BPF program, if using legacy TC, and pin bpf_link, if
using bpf_link-based APIs. Of course before switching from iproute2 to
libbpf APIs you'd need to design your applications to use pinning
instead of relying implicitly on permanently attached BPF program.
All the progs we load from Cilium in a K8s setting w/ Pods, we could have easily
over 100 loaded at the same time on a node, and we template the per Pod ones, so
the complexity of managing those pinned lifecycles from the agent and dealing
with
the semantic/fallback differences between kernels feels probably not worth the
gain. So if there would be a libbpf tc simplified attach API, I'd for the time
being stick to the existing aka legacy means.
Thanks,
Daniel