Re: [RFC PATCH v2 1/7] bpf: Introduce BPF_PROG_TYPE_VNET_HASH

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On 2023/11/19 1:08, Song Liu wrote:
Hi,

A few rookie questions below.

Thanks for questions.


On Sat, Nov 18, 2023 at 2:39 AM Akihiko Odaki <akihiko.odaki@xxxxxxxxxx> wrote:

On 2023/10/18 4:19, Akihiko Odaki wrote:
On 2023/10/18 4:03, Alexei Starovoitov wrote:
[...]

I would also appreciate if you have some documentation or link to
relevant discussions on the mailing list. That will avoid having same
discussion you may already have done in the past.

Hi,

The discussion has been stuck for a month, but I'd still like to
continue figuring out the way best for the whole kernel to implement
this feature. I summarize the current situation and question that needs
to be answered before push this forward:

The goal of this RFC is to allow to report hash values calculated with
eBPF steering program. It's essentially just to report 4 bytes from the
kernel to the userspace.

AFAICT, the proposed design is to have BPF generate some data
(namely hash, but could be anything afaict) and consume it from
user space. Instead of updating __sk_buff, can we have the user
space to fetch the data/hash from a bpf map? If this is an option,
I guess we can implement the same feature with BPF tracing
programs?

Unfortunately no. The communication with the userspace can be done with two different means:
- usual socket read/write
- vhost for direct interaction with a KVM guest

The BPF map may be a valid option for socket read/write, but it is not for vhost. In-kernel vhost may fetch hash from the BPF map, but I guess it's not a standard way to have an interaction between the kernel code and a BPF program.



Unfortunately, however, it is not acceptable for the BPF subsystem
because the "stable" BPF is completely fixed these days. The
"unstable/kfunc" BPF is an alternative, but the eBPF program will be
shipped with a portable userspace program (QEMU)[1] so the lack of
interface stability is not tolerable.

bpf kfuncs are as stable as exported symbols. Is exported symbols
like stability enough for the use case? (I would assume yes.)


Another option is to hardcode the algorithm that was conventionally
implemented with eBPF steering program in the kernel[2]. It is possible
because the algorithm strictly follows the virtio-net specification[3].
However, there are proposals to add different algorithms to the
specification[4], and hardcoding the algorithm to the kernel will
require to add more UAPIs and code each time such a specification change
happens, which is not good for tuntap.

The requirement looks similar to hid-bpf. Could you explain why that
model is not enough? HID also requires some stability AFAICT.

I have little knowledge with hid-bpf, but I assume it is more like a "safe" kernel module; in my understanding, it affects the system state and is intended to be loaded with some kind of a system daemon. It is fine to have the same lifecycle with the kernel for such a BPF program; whenever the kernel is updated, the distributor can recompile the BPF program with the new kernel headers and ship it along with the kernel just as like a kernel module.

In contrast, our intended use case is more like a normal application. So, for example, a user may download a container and run QEMU (including the BPF program) installed in the container. As such, it is nice if the ABI is stable across kernel releases, but it is not guaranteed for kfuncs. Such a use case is already covered with the eBPF steering program so I want to maintain it if possible.

Regards,
Akihiko Odaki




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