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SubjectRE: [PATCH v2 09/19] crypto: x86 - use common macro for FPU limit
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> -----Original Message-----
> From: Jason A. Donenfeld <Jason@zx2c4.com>
> Sent: Thursday, October 13, 2022 8:27 PM
> Subject: Re: [PATCH v2 09/19] crypto: x86 - use common macro for FPU
> limit
>
> On Thu, Oct 13, 2022 at 3:48 PM Elliott, Robert (Servers)
> <elliott@hpe.com> wrote:
> > Perhaps we should declare a time goal like "30 us," measure the actual
> > speed of each algorithm with a tcrypt speed test, and calculate the
> > nominal value assuming some slow x86 CPU core speed?
>
> Sure, pick something reasonable with good margin for a reasonable CPU.
> It doesn't have to be perfect, but just vaguely right for supported
> hardware.
>
> > That could be further adjusted at run-time based on the supposed
> > minimum CPU frequency (e.g., as reported in
> > /sys/devices/system/cpu/cpufreq/policy0/scaling_min_freq).
>
> Oh no, please no. Not another runtime knob. That also will make the
> loop less efficient.

Here's some stats measuring the time in CPU cycles between
kernel_fpu_begin() and kernel_fpu_end() for every x86 crypto
module using those function calls. This is before any
patches to enforce any new limits.

Driver boot tcrypt-sweep average
====== ==== ============ =======
aegis128_aesni 6240 | 8214 433
aesni_intel 22218 | 150558 68
aria_aesni_avx_x86_64 0 > 95560 1282
camellia_aesni_avx2 52300 52300 4300
camellia_aesni_avx_x86_64 20920 20920 5915
camellia_x86_64 0 0 0
cast5_avx_x86_64 41854 | 108996 6602
cast6_avx_x86_64 39270 | 119476 10596
chacha_x86_64 3516 | 58112 349
crc32c_intel 1458 | 2702 235
crc32_pclmul 1610 | 3130 210
crct10dif_pclmul 1928 | 2096 82
ghash_clmulni_intel 9154 | 56632 336
libblake2s_x86_64 7514 7514 897
nhpoly1305_avx2 1360 | 5408 301
poly1305_x86_64 20656 | 21688 409
polyval_clmulni 13972 13972 34
serpent_avx2 45686 | 74824 4185
serpent_avx_x86_64 47436 47436 7120
serpent_sse2_x86_64 38492 38492 7400
sha1_ssse3 20950 | 38310 512
sha256_ssse3 46554 | 57162 1201
sha512_ssse3 157051800 157051800 167728
sm3_avx_x86_64 82372 82372 2017
sm4_aesni_avx_x86_64 66350 66350 2019
twofish_avx_x86_64 104598 | 163894 6633
twofish_x86_64_3way 0 0 0

Comparing a few of the hash functions with tcrypt test 16
(4 KiB of data with 1 update) shows a 35x difference from the
fastest to slowest:
crc32c 695 cycles/operation
crct10dif 2197
sha1-avx2 8825
sha224-avx2 24816
sha256-avx2 21179
sha384-avx2 14939
sha512-avx2 14584


Test notes
==========
Measurement points:
- after booting, with
- CONFIG_MODULE_SIG_SHA512=y (use SHA-512 for module signing)
- CONFIG_CRYPTO_MANAGER_EXTRA_TESTS=y (compares results
with generic module during init)
- # CONFIG_CRYPTO_MANAGER_DISABLE_TESTS is not set
(run self-tests during module load)
- after sweeping through tcrypt test modes 1 to 999
- except 0, 300, and 400 which run combinations of the others
- measured on a system with Intel Cascade Lake CPUs at 2.2 GHz

This run did not report any RCU stalls.

The hash function is the main problem, subjected to huge
sizes during module signature checking. sha1 or sha256 would
face the same problem if they had been selected.

The self-tests are limited to 2 * PAGE_SIZE so don't stress
the drivers anywhere near as much as booting. This run did
include the tcrypt patch to call cond_resched during speed
tests, so the speed test induced problem is out of the way.

aria_aesni_avx_x86_64 0 > 95560 1282

This run didn't have the patch to load aria based on the
device table, so it wasn't loaded until tcrypt asked for it.

camellia_x86_64 0 0 0
twofish_x86_64_3way 0 0 0

Those use the ecb_cbc_helper macros, but pass along -1 to
not use kernel_fpu_begin/end, so the debug instrumentation
is there but unused.

Next steps
==========
I'll try to add a test with long data, and work on scaling the
loops based on relative performance (e.g., if sha512 needs
4 KiB, then crc32c should be fine with 80 KiB).

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