Re: [PATCH net-next 0/4] bpf: bpf_htab: Add BPF_MAP_TYPE_PERCPU_HASH
From: Martin KaFai Lau
Date: Fri Jan 08 2016 - 19:44:58 EST
On Fri, Jan 08, 2016 at 02:55:32PM +0800, Ming Lei wrote:
> On Fri, Jan 8, 2016 at 6:35 AM, Martin KaFai Lau <kafai@xxxxxx> wrote:
> > This patchset adds BPF_MAP_TYPE_PERCPU_HASH map type which allows
> > percpu value.
>
> I am also thinking about using percpu variable to ebpf map, but IMO it
> should be better for ARRAY map instead of HASH map, then we can
> avoid the atomic op in eBPF program, see example of tracex3, sockex1
> and sockex3 in sample/bpf/ of kernel tree. Also looks the ARRAY map
> usage in bcc is wrong, strictly speaking.
array and hash are two different use cases. May be we should have percpu
value for array map too.
>
> For HASH map, it is easy to make cpu id as part of key, then the map
> can be thought as percpu too, and atomic op isn't needed in eBPF program.
Putting the cpu id as part of the key was indeed the first hack I did
to get a sense of potential benefit.
However, by extending the real-key with cpu-id, it is not intuitive to
use and it is prone to error. For example, how to delete a real-key for
all cpus? Iterating a particular real-key for all cpu is also tricky. What
does it mean if a real-key exists for cpu#0 but not cpu#1? The real-key
got deleted from all cpu while iterating? or something else? I believe
there are ways to get around but it is better to provide a clean
implementation instead.
> Given it is always related with performance, could you provide some data
> about the improvement? Also you can compare this patchset with the
> approach of providing cpu id as hash key.
In my test (bpf+kprobe at tcp_rcv_established()), both this patchset and
extend(real_key, cpu_id) approach save ~3% CPU while receiving ~4Mpps
in a 40cores machine. The bpf is mostly bumping some counters for
each received packet.