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4c5fec01a4
The skeleton file module/icp/include/generic_impl.c can be used for iterating over different implementations of algorithms. It is used by SHA256, SHA512 and BLAKE3 currently. The Solaris SHA2 implementation got replaced with a version which is based on public domain code of cppcrypto v0.10. These assembly files are taken from current openssl master: - sha256-x86_64.S: x64, SSSE3, AVX, AVX2, SHA-NI (x86_64) - sha512-x86_64.S: x64, AVX, AVX2 (x86_64) - sha256-armv7.S: ARMv7, NEON, ARMv8-CE (arm) - sha512-armv7.S: ARMv7, NEON (arm) - sha256-armv8.S: ARMv7, NEON, ARMv8-CE (aarch64) - sha512-armv8.S: ARMv7, ARMv8-CE (aarch64) - sha256-ppc.S: Generic PPC64 LE/BE (ppc64) - sha512-ppc.S: Generic PPC64 LE/BE (ppc64) - sha256-p8.S: Power8 ISA Version 2.07 LE/BE (ppc64) - sha512-p8.S: Power8 ISA Version 2.07 LE/BE (ppc64) Tested-by: Rich Ercolani <rincebrain@gmail.com> Tested-by: Sebastian Gottschall <s.gottschall@dd-wrt.com> Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Tino Reichardt <milky-zfs@mcmilk.de> Closes #13741
380 lines
10 KiB
C
380 lines
10 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License (the "License").
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* You may not use this file except in compliance with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or https://opensource.org/licenses/CDDL-1.0.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright (c) 2021-2022 Tino Reichardt <milky-zfs@mcmilk.de>
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*/
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#include <sys/zio_checksum.h>
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#include <sys/zfs_context.h>
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#include <sys/zfs_chksum.h>
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#include <sys/zfs_impl.h>
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#include <sys/blake3.h>
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#include <sys/sha2.h>
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/* limit benchmarking to max 256KiB, when EdonR is slower then this: */
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#define LIMIT_PERF_MBS 300
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typedef struct {
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const char *name;
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const char *impl;
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uint64_t bs1k;
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uint64_t bs4k;
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uint64_t bs16k;
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uint64_t bs64k;
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uint64_t bs256k;
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uint64_t bs1m;
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uint64_t bs4m;
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uint64_t bs16m;
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zio_cksum_salt_t salt;
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zio_checksum_t *(func);
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zio_checksum_tmpl_init_t *(init);
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zio_checksum_tmpl_free_t *(free);
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} chksum_stat_t;
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static chksum_stat_t *chksum_stat_data = 0;
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static int chksum_stat_cnt = 0;
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static kstat_t *chksum_kstat = NULL;
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/*
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* Sample output on i3-1005G1 System:
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*
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* implementation 1k 4k 16k 64k 256k 1m 4m 16m
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* edonr-generic 1278 1625 1769 1776 1783 1778 1771 1767
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* skein-generic 548 594 613 623 621 623 621 486
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* sha256-generic 255 270 281 278 279 281 283 283
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* sha256-x64 288 310 316 317 318 317 317 316
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* sha256-ssse3 304 342 351 355 356 357 356 356
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* sha256-avx 311 348 359 362 362 363 363 362
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* sha256-avx2 330 378 389 395 395 395 395 395
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* sha256-shani 908 1127 1212 1230 1233 1234 1223 1230
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* sha512-generic 359 409 431 427 429 430 428 423
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* sha512-x64 420 473 490 496 497 497 496 495
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* sha512-avx 406 522 546 560 560 560 556 560
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* sha512-avx2 464 568 601 606 609 610 607 608
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* blake3-generic 330 327 324 323 324 320 323 322
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* blake3-sse2 424 1366 1449 1468 1458 1453 1395 1408
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* blake3-sse41 453 1554 1658 1703 1689 1669 1622 1630
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* blake3-avx2 452 2013 3225 3351 3356 3261 3076 3101
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* blake3-avx512 498 2869 5269 5926 5872 5643 5014 5005
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*/
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static int
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chksum_kstat_headers(char *buf, size_t size)
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{
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ssize_t off = 0;
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off += kmem_scnprintf(buf + off, size, "%-23s", "implementation");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "1k");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "4k");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "16k");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "64k");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "256k");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "1m");
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off += kmem_scnprintf(buf + off, size - off, "%8s", "4m");
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(void) kmem_scnprintf(buf + off, size - off, "%8s\n", "16m");
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return (0);
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}
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static int
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chksum_kstat_data(char *buf, size_t size, void *data)
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{
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chksum_stat_t *cs;
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ssize_t off = 0;
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char b[24];
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cs = (chksum_stat_t *)data;
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kmem_scnprintf(b, 23, "%s-%s", cs->name, cs->impl);
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off += kmem_scnprintf(buf + off, size - off, "%-23s", b);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs1k);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs4k);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs16k);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs64k);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs256k);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs1m);
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off += kmem_scnprintf(buf + off, size - off, "%8llu",
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(u_longlong_t)cs->bs4m);
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(void) kmem_scnprintf(buf + off, size - off, "%8llu\n",
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(u_longlong_t)cs->bs16m);
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return (0);
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}
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static void *
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chksum_kstat_addr(kstat_t *ksp, loff_t n)
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{
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if (n < chksum_stat_cnt)
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ksp->ks_private = (void *)(chksum_stat_data + n);
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else
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ksp->ks_private = NULL;
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return (ksp->ks_private);
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}
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static void
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chksum_run(chksum_stat_t *cs, abd_t *abd, void *ctx, int round,
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uint64_t *result)
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{
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hrtime_t start;
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uint64_t run_bw, run_time_ns, run_count = 0, size = 0;
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uint32_t l, loops = 0;
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zio_cksum_t zcp;
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switch (round) {
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case 1: /* 1k */
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size = 1<<10; loops = 128; break;
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case 2: /* 2k */
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size = 1<<12; loops = 64; break;
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case 3: /* 4k */
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size = 1<<14; loops = 32; break;
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case 4: /* 16k */
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size = 1<<16; loops = 16; break;
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case 5: /* 256k */
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size = 1<<18; loops = 8; break;
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case 6: /* 1m */
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size = 1<<20; loops = 4; break;
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case 7: /* 4m */
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size = 1<<22; loops = 1; break;
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case 8: /* 16m */
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size = 1<<24; loops = 1; break;
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}
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kpreempt_disable();
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start = gethrtime();
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do {
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for (l = 0; l < loops; l++, run_count++)
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cs->func(abd, size, ctx, &zcp);
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run_time_ns = gethrtime() - start;
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} while (run_time_ns < MSEC2NSEC(1));
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kpreempt_enable();
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run_bw = size * run_count * NANOSEC;
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run_bw /= run_time_ns; /* B/s */
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*result = run_bw/1024/1024; /* MiB/s */
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}
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#define LIMIT_INIT 0
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#define LIMIT_NEEDED 1
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#define LIMIT_NOLIMIT 2
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static void
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chksum_benchit(chksum_stat_t *cs)
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{
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abd_t *abd;
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void *ctx = 0;
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void *salt = &cs->salt.zcs_bytes;
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static int chksum_stat_limit = LIMIT_INIT;
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memset(salt, 0, sizeof (cs->salt.zcs_bytes));
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if (cs->init)
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ctx = cs->init(&cs->salt);
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/* allocate test memory via abd linear interface */
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abd = abd_alloc_linear(1<<20, B_FALSE);
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chksum_run(cs, abd, ctx, 1, &cs->bs1k);
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chksum_run(cs, abd, ctx, 2, &cs->bs4k);
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chksum_run(cs, abd, ctx, 3, &cs->bs16k);
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chksum_run(cs, abd, ctx, 4, &cs->bs64k);
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chksum_run(cs, abd, ctx, 5, &cs->bs256k);
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/* check if we ran on a slow cpu */
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if (chksum_stat_limit == LIMIT_INIT) {
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if (cs->bs1k < LIMIT_PERF_MBS) {
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chksum_stat_limit = LIMIT_NEEDED;
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} else {
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chksum_stat_limit = LIMIT_NOLIMIT;
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}
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}
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/* skip benchmarks >= 1MiB when the CPU is to slow */
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if (chksum_stat_limit == LIMIT_NEEDED)
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goto abort;
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chksum_run(cs, abd, ctx, 6, &cs->bs1m);
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abd_free(abd);
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/* allocate test memory via abd non linear interface */
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abd = abd_alloc(1<<24, B_FALSE);
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chksum_run(cs, abd, ctx, 7, &cs->bs4m);
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chksum_run(cs, abd, ctx, 8, &cs->bs16m);
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abort:
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abd_free(abd);
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/* free up temp memory */
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if (cs->free)
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cs->free(ctx);
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}
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/*
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* Initialize and benchmark all supported implementations.
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*/
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static void
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chksum_benchmark(void)
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{
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#ifndef _KERNEL
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/* we need the benchmark only for the kernel module */
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return;
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#endif
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chksum_stat_t *cs;
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uint64_t max;
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uint32_t id, cbid = 0, id_save;
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const zfs_impl_t *blake3 = zfs_impl_get_ops("blake3");
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const zfs_impl_t *sha256 = zfs_impl_get_ops("sha256");
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const zfs_impl_t *sha512 = zfs_impl_get_ops("sha512");
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/* count implementations */
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chksum_stat_cnt = 2;
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chksum_stat_cnt += sha256->getcnt();
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chksum_stat_cnt += sha512->getcnt();
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chksum_stat_cnt += blake3->getcnt();
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chksum_stat_data = kmem_zalloc(
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sizeof (chksum_stat_t) * chksum_stat_cnt, KM_SLEEP);
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/* edonr - needs to be the first one here (slow CPU check) */
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cs = &chksum_stat_data[cbid++];
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/* edonr */
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cs->init = abd_checksum_edonr_tmpl_init;
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cs->func = abd_checksum_edonr_native;
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cs->free = abd_checksum_edonr_tmpl_free;
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cs->name = "edonr";
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cs->impl = "generic";
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chksum_benchit(cs);
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/* skein */
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cs = &chksum_stat_data[cbid++];
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cs->init = abd_checksum_skein_tmpl_init;
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cs->func = abd_checksum_skein_native;
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cs->free = abd_checksum_skein_tmpl_free;
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cs->name = "skein";
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cs->impl = "generic";
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chksum_benchit(cs);
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/* sha256 */
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id_save = sha256->getid();
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for (max = 0, id = 0; id < sha256->getcnt(); id++) {
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sha256->setid(id);
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cs = &chksum_stat_data[cbid++];
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cs->init = 0;
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cs->func = abd_checksum_sha256;
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cs->free = 0;
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cs->name = sha256->name;
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cs->impl = sha256->getname();
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chksum_benchit(cs);
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if (cs->bs256k > max) {
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max = cs->bs256k;
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sha256->set_fastest(id);
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}
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}
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sha256->setid(id_save);
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/* sha512 */
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id_save = sha512->getid();
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for (max = 0, id = 0; id < sha512->getcnt(); id++) {
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sha512->setid(id);
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cs = &chksum_stat_data[cbid++];
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cs->init = 0;
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cs->func = abd_checksum_sha512_native;
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cs->free = 0;
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cs->name = sha512->name;
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cs->impl = sha512->getname();
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chksum_benchit(cs);
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if (cs->bs256k > max) {
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max = cs->bs256k;
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sha512->set_fastest(id);
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}
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}
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sha512->setid(id_save);
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/* blake3 */
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id_save = blake3->getid();
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for (max = 0, id = 0; id < blake3->getcnt(); id++) {
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blake3->setid(id);
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cs = &chksum_stat_data[cbid++];
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cs->init = abd_checksum_blake3_tmpl_init;
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cs->func = abd_checksum_blake3_native;
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cs->free = abd_checksum_blake3_tmpl_free;
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cs->name = blake3->name;
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cs->impl = blake3->getname();
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chksum_benchit(cs);
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if (cs->bs256k > max) {
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max = cs->bs256k;
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blake3->set_fastest(id);
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}
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}
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blake3->setid(id_save);
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}
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void
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chksum_init(void)
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{
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#ifdef _KERNEL
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blake3_per_cpu_ctx_init();
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#endif
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/* Benchmark supported implementations */
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chksum_benchmark();
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/* Install kstats for all implementations */
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chksum_kstat = kstat_create("zfs", 0, "chksum_bench", "misc",
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KSTAT_TYPE_RAW, 0, KSTAT_FLAG_VIRTUAL);
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if (chksum_kstat != NULL) {
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chksum_kstat->ks_data = NULL;
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chksum_kstat->ks_ndata = UINT32_MAX;
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kstat_set_raw_ops(chksum_kstat,
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chksum_kstat_headers,
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chksum_kstat_data,
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chksum_kstat_addr);
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kstat_install(chksum_kstat);
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}
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}
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void
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chksum_fini(void)
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{
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if (chksum_kstat != NULL) {
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kstat_delete(chksum_kstat);
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chksum_kstat = NULL;
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}
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if (chksum_stat_cnt) {
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kmem_free(chksum_stat_data,
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sizeof (chksum_stat_t) * chksum_stat_cnt);
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chksum_stat_cnt = 0;
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chksum_stat_data = 0;
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}
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#ifdef _KERNEL
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blake3_per_cpu_ctx_fini();
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#endif
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}
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