Re: [PATCH bpf-next v3 0/3] bpf, riscv: use BPF prog pack allocator in BPF JIT

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On Wed, 30 Aug 2023 06:59:13 PDT (-0700), bjorn@xxxxxxxxxx wrote:
Daniel Borkmann <daniel@xxxxxxxxxxxxx> writes:

On 8/29/23 12:06 PM, Björn Töpel wrote:
Puranjay Mohan <puranjay12@xxxxxxxxx> writes:

Changes in v2 -> v3:
1. Fix maximum width of code in patches from 80 to 100. [All patches]
2. Add checks for ctx->ro_insns == NULL. [Patch 3]
3. Fix check for edge condition where amount of text to set > 2 * pagesize
    [Patch 1 and 2]
4. Add reviewed-by in patches.
5. Adding results of selftest here:
    Using the command: ./test_progs on qemu
    Without the series: Summary: 336/3162 PASSED, 56 SKIPPED, 90 FAILED
    With this series: Summary: 336/3162 PASSED, 56 SKIPPED, 90 FAILED

Changes in v1 -> v2:
1. Implement a new function patch_text_set_nosync() to be used in bpf_arch_text_invalidate().
    The implementation in v1 called patch_text_nosync() in a loop and it was bad as it would
    call flush_icache_range() for every word making it really slow. This was found by running
    the test_tag selftest which would take forever to complete.

Here is some data to prove the V2 fixes the problem:

Without this series:
root@rv-selftester:~/src/kselftest/bpf# time ./test_tag
test_tag: OK (40945 tests)

real    7m47.562s
user    0m24.145s
sys     6m37.064s

With this series applied:
root@rv-selftester:~/src/selftest/bpf# time ./test_tag
test_tag: OK (40945 tests)

real    7m29.472s
user    0m25.865s
sys     6m18.401s

BPF programs currently consume a page each on RISCV. For systems with many BPF
programs, this adds significant pressure to instruction TLB. High iTLB pressure
usually causes slow down for the whole system.

Song Liu introduced the BPF prog pack allocator[1] to mitigate the above issue.
It packs multiple BPF programs into a single huge page. It is currently only
enabled for the x86_64 BPF JIT.

I enabled this allocator on the ARM64 BPF JIT[2]. It is being reviewed now.

This patch series enables the BPF prog pack allocator for the RISCV BPF JIT.
This series needs a patch[3] from the ARM64 series to work.

======================================================
Performance Analysis of prog pack allocator on RISCV64
======================================================

Test setup:
===========

Host machine: Debian GNU/Linux 11 (bullseye)
Qemu Version: QEMU emulator version 8.0.3 (Debian 1:8.0.3+dfsg-1)
u-boot-qemu Version: 2023.07+dfsg-1
opensbi Version: 1.3-1

To test the performance of the BPF prog pack allocator on RV, a stresser
tool[4] linked below was built. This tool loads 8 BPF programs on the system and
triggers 5 of them in an infinite loop by doing system calls.

The runner script starts 20 instances of the above which loads 8*20=160 BPF
programs on the system, 5*20=100 of which are being constantly triggered.
The script is passed a command which would be run in the above environment.

The script was run with following perf command:
./run.sh "perf stat -a \
         -e iTLB-load-misses \
         -e dTLB-load-misses  \
         -e dTLB-store-misses \
         -e instructions \
         --timeout 60000"

The output of the above command is discussed below before and after enabling the
BPF prog pack allocator.

The tests were run on qemu-system-riscv64 with 8 cpus, 16G memory. The rootfs
was created using Bjorn's riscv-cross-builder[5] docker container linked below.

Results
=======

Before enabling prog pack allocator:
------------------------------------

Performance counter stats for 'system wide':

            4939048      iTLB-load-misses
            5468689      dTLB-load-misses
             465234      dTLB-store-misses
      1441082097998      instructions

       60.045791200 seconds time elapsed

After enabling prog pack allocator:
-----------------------------------

Performance counter stats for 'system wide':

            3430035      iTLB-load-misses
            5008745      dTLB-load-misses
             409944      dTLB-store-misses
      1441535637988      instructions

       60.046296600 seconds time elapsed

Improvements in metrics
=======================

It was expected that the iTLB-load-misses would decrease as now a single huge
page is used to keep all the BPF programs compared to a single page for each
program earlier.

--------------------------------------------
The improvement in iTLB-load-misses: -30.5 %
--------------------------------------------

I repeated this expriment more than 100 times in different setups and the
improvement was always greater than 30%.

This patch series is boot tested on the Starfive VisionFive 2 board[6].
The performance analysis was not done on the board because it doesn't
expose iTLB-load-misses, etc. The stresser program was run on the board to test
the loading and unloading of BPF programs

[1] https://lore.kernel.org/bpf/20220204185742.271030-1-song@xxxxxxxxxx/
[2] https://lore.kernel.org/all/20230626085811.3192402-1-puranjay12@xxxxxxxxx/
[3] https://lore.kernel.org/all/20230626085811.3192402-2-puranjay12@xxxxxxxxx/
[4] https://github.com/puranjaymohan/BPF-Allocator-Bench
[5] https://github.com/bjoto/riscv-cross-builder
[6] https://www.starfivetech.com/en/site/boards

Puranjay Mohan (3):
   riscv: extend patch_text_nosync() for multiple pages
   riscv: implement a memset like function for text
   bpf, riscv: use prog pack allocator in the BPF JIT

Thank you! For the series:

Acked-by: Björn Töpel <bjorn@xxxxxxxxxx>
Tested-by: Björn Töpel <bjorn@xxxxxxxxxxxx>

@Alexei @Daniel This series depends on a core BPF patch from the Arm
                 series [3].

[snip]
If not yet, perhaps you could ship this series along with your PR to Linus
during this merge window given the big net PR (incl. bpf) was already merged
yesterday. So from our side only fixes ship to Linus.

Are you OK with this patch going thru the riscv tree as well?

I'm generally fine taking almost anything, as long as whomever usually takes them acks it.




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