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authorBorislav Petkov <bp@suse.de>2022-05-24 12:01:18 +0300
committerBorislav Petkov <bp@suse.de>2022-08-18 13:36:42 +0300
commit0db7058e8e23e6bbab1b4747ecabd1784c34f50b (patch)
tree3c0b047fec0a5df31e0d774933755d25f88a3112 /tools/objtool
parent568035b01cfb107af8d2e4bd2fb9aea22cf5b868 (diff)
downloadlinux-0db7058e8e23e6bbab1b4747ecabd1784c34f50b.tar.xz
x86/clear_user: Make it faster
Based on a patch by Mark Hemment <markhemm@googlemail.com> and incorporating very sane suggestions from Linus. The point here is to have the default case with FSRM - which is supposed to be the majority of x86 hw out there - if not now then soon - be directly inlined into the instruction stream so that no function call overhead is taking place. Drop the early clobbers from the @size and @addr operands as those are not needed anymore since we have single instruction alternatives. The benchmarks I ran would show very small improvements and a PF benchmark would even show weird things like slowdowns with higher core counts. So for a ~6m running the git test suite, the function gets called under 700K times, all from padzero(): <...>-2536 [006] ..... 261.208801: padzero: to: 0x55b0663ed214, size: 3564, cycles: 21900 <...>-2536 [006] ..... 261.208819: padzero: to: 0x7f061adca078, size: 3976, cycles: 17160 <...>-2537 [008] ..... 261.211027: padzero: to: 0x5572d019e240, size: 3520, cycles: 23850 <...>-2537 [008] ..... 261.211049: padzero: to: 0x7f1288dc9078, size: 3976, cycles: 15900 ... which is around 1%-ish of the total time and which is consistent with the benchmark numbers. So Mel gave me the idea to simply measure how fast the function becomes. I.e.: start = rdtsc_ordered(); ret = __clear_user(to, n); end = rdtsc_ordered(); Computing the mean average of all the samples collected during the test suite run then shows some improvement: clear_user_original: Amean: 9219.71 (Sum: 6340154910, samples: 687674) fsrm: Amean: 8030.63 (Sum: 5522277720, samples: 687652) That's on Zen3. The situation looks a lot more confusing on Intel: Icelake: clear_user_original: Amean: 19679.4 (Sum: 13652560764, samples: 693750) Amean: 19743.7 (Sum: 13693470604, samples: 693562) (I ran it twice just to be sure.) ERMS: Amean: 20374.3 (Sum: 13910601024, samples: 682752) Amean: 20453.7 (Sum: 14186223606, samples: 693576) FSRM: Amean: 20458.2 (Sum: 13918381386, sample s: 680331) The original microbenchmark which people were complaining about: for i in $(seq 1 10); do dd if=/dev/zero of=/dev/null bs=1M status=progress count=65536; done 2>&1 | grep copied 32207011840 bytes (32 GB, 30 GiB) copied, 1 s, 32.2 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.93069 s, 35.6 GB/s 37597741056 bytes (38 GB, 35 GiB) copied, 1 s, 37.6 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.78017 s, 38.6 GB/s 62020124672 bytes (62 GB, 58 GiB) copied, 2 s, 31.0 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 2.13716 s, 32.2 GB/s 60010004480 bytes (60 GB, 56 GiB) copied, 1 s, 60.0 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.14129 s, 60.2 GB/s 53212086272 bytes (53 GB, 50 GiB) copied, 1 s, 53.2 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.28398 s, 53.5 GB/s 55698259968 bytes (56 GB, 52 GiB) copied, 1 s, 55.7 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.22507 s, 56.1 GB/s 55306092544 bytes (55 GB, 52 GiB) copied, 1 s, 55.3 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.23647 s, 55.6 GB/s 54387539968 bytes (54 GB, 51 GiB) copied, 1 s, 54.4 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.25693 s, 54.7 GB/s 50566529024 bytes (51 GB, 47 GiB) copied, 1 s, 50.6 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.35096 s, 50.9 GB/s 58308165632 bytes (58 GB, 54 GiB) copied, 1 s, 58.3 GB/s 68719476736 bytes (69 GB, 64 GiB) copied, 1.17394 s, 58.5 GB/s Now the same thing with smaller buffers: for i in $(seq 1 10); do dd if=/dev/zero of=/dev/null bs=1M status=progress count=8192; done 2>&1 | grep copied 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.28485 s, 30.2 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.276112 s, 31.1 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.29136 s, 29.5 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.283803 s, 30.3 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.306503 s, 28.0 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.349169 s, 24.6 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.276912 s, 31.0 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.265356 s, 32.4 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.28464 s, 30.2 GB/s 8589934592 bytes (8.6 GB, 8.0 GiB) copied, 0.242998 s, 35.3 GB/s is also not conclusive because it all depends on the buffer sizes, their alignments and when the microcode detects that cachelines can be aggregated properly and copied in bigger sizes. Signed-off-by: Borislav Petkov <bp@suse.de> Link: https://lore.kernel.org/r/CAHk-=wh=Mu_EYhtOmPn6AxoQZyEh-4fo2Zx3G7rBv1g7vwoKiw@mail.gmail.com
Diffstat (limited to 'tools/objtool')
-rw-r--r--tools/objtool/check.c3
1 files changed, 3 insertions, 0 deletions
diff --git a/tools/objtool/check.c b/tools/objtool/check.c
index 0cec74da7ffe..4b2e11726f4e 100644
--- a/tools/objtool/check.c
+++ b/tools/objtool/check.c
@@ -1071,6 +1071,9 @@ static const char *uaccess_safe_builtin[] = {
"copy_mc_fragile_handle_tail",
"copy_mc_enhanced_fast_string",
"ftrace_likely_update", /* CONFIG_TRACE_BRANCH_PROFILING */
+ "clear_user_erms",
+ "clear_user_rep_good",
+ "clear_user_original",
NULL
};