653 lines
17 KiB
C
653 lines
17 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 http://www.opensolaris.org/os/licensing.
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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) 2016 Gvozden Nešković. All rights reserved.
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*/
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#include <sys/zfs_context.h>
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#include <sys/types.h>
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#include <sys/zio.h>
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#include <sys/debug.h>
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#include <sys/zfs_debug.h>
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#include <sys/vdev_raidz.h>
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#include <sys/vdev_raidz_impl.h>
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extern boolean_t raidz_will_scalar_work(void);
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/* Opaque implementation with NULL methods to represent original methods */
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static const raidz_impl_ops_t vdev_raidz_original_impl = {
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.name = "original",
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.is_supported = raidz_will_scalar_work,
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};
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/* RAIDZ parity op that contain the fastest methods */
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static raidz_impl_ops_t vdev_raidz_fastest_impl = {
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.name = "fastest"
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};
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/* All compiled in implementations */
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const raidz_impl_ops_t *raidz_all_maths[] = {
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&vdev_raidz_original_impl,
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&vdev_raidz_scalar_impl,
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#if defined(__x86_64) && defined(HAVE_SSE2) /* only x86_64 for now */
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&vdev_raidz_sse2_impl,
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#endif
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#if defined(__x86_64) && defined(HAVE_SSSE3) /* only x86_64 for now */
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&vdev_raidz_ssse3_impl,
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#endif
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#if defined(__x86_64) && defined(HAVE_AVX2) /* only x86_64 for now */
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&vdev_raidz_avx2_impl,
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#endif
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#if defined(__x86_64) && defined(HAVE_AVX512F) /* only x86_64 for now */
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&vdev_raidz_avx512f_impl,
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#endif
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#if defined(__x86_64) && defined(HAVE_AVX512BW) /* only x86_64 for now */
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&vdev_raidz_avx512bw_impl,
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#endif
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#if defined(__aarch64__)
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&vdev_raidz_aarch64_neon_impl,
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&vdev_raidz_aarch64_neonx2_impl,
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#endif
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};
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/* Indicate that benchmark has been completed */
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static boolean_t raidz_math_initialized = B_FALSE;
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/* Select raidz implementation */
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#define IMPL_FASTEST (UINT32_MAX)
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#define IMPL_CYCLE (UINT32_MAX - 1)
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#define IMPL_ORIGINAL (0)
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#define IMPL_SCALAR (1)
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#define RAIDZ_IMPL_READ(i) (*(volatile uint32_t *) &(i))
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static uint32_t zfs_vdev_raidz_impl = IMPL_SCALAR;
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static uint32_t user_sel_impl = IMPL_FASTEST;
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/* Hold all supported implementations */
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static size_t raidz_supp_impl_cnt = 0;
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static raidz_impl_ops_t *raidz_supp_impl[ARRAY_SIZE(raidz_all_maths)];
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/*
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* kstats values for supported implementations
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* Values represent per disk throughput of 8 disk+parity raidz vdev [B/s]
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*/
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static raidz_impl_kstat_t raidz_impl_kstats[ARRAY_SIZE(raidz_all_maths) + 1];
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/* kstat for benchmarked implementations */
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static kstat_t *raidz_math_kstat = NULL;
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/*
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* Selects the raidz operation for raidz_map
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* If rm_ops is set to NULL original raidz implementation will be used
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*/
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raidz_impl_ops_t *
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vdev_raidz_math_get_ops()
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{
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raidz_impl_ops_t *ops = NULL;
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const uint32_t impl = RAIDZ_IMPL_READ(zfs_vdev_raidz_impl);
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switch (impl) {
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case IMPL_FASTEST:
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ASSERT(raidz_math_initialized);
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ops = &vdev_raidz_fastest_impl;
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break;
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#if !defined(_KERNEL)
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case IMPL_CYCLE:
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{
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ASSERT(raidz_math_initialized);
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ASSERT3U(raidz_supp_impl_cnt, >, 0);
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/* Cycle through all supported implementations */
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static size_t cycle_impl_idx = 0;
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size_t idx = (++cycle_impl_idx) % raidz_supp_impl_cnt;
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ops = raidz_supp_impl[idx];
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}
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break;
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#endif
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case IMPL_ORIGINAL:
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ops = (raidz_impl_ops_t *)&vdev_raidz_original_impl;
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break;
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case IMPL_SCALAR:
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ops = (raidz_impl_ops_t *)&vdev_raidz_scalar_impl;
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break;
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default:
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ASSERT3U(impl, <, raidz_supp_impl_cnt);
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ASSERT3U(raidz_supp_impl_cnt, >, 0);
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ops = raidz_supp_impl[impl];
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break;
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}
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ASSERT3P(ops, !=, NULL);
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return (ops);
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}
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/*
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* Select parity generation method for raidz_map
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*/
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int
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vdev_raidz_math_generate(raidz_map_t *rm)
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{
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raidz_gen_f gen_parity = NULL;
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switch (raidz_parity(rm)) {
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case 1:
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gen_parity = rm->rm_ops->gen[RAIDZ_GEN_P];
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break;
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case 2:
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gen_parity = rm->rm_ops->gen[RAIDZ_GEN_PQ];
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break;
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case 3:
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gen_parity = rm->rm_ops->gen[RAIDZ_GEN_PQR];
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break;
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default:
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gen_parity = NULL;
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cmn_err(CE_PANIC, "invalid RAID-Z configuration %d",
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raidz_parity(rm));
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break;
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}
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/* if method is NULL execute the original implementation */
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if (gen_parity == NULL)
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return (RAIDZ_ORIGINAL_IMPL);
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gen_parity(rm);
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return (0);
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}
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static raidz_rec_f
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reconstruct_fun_p_sel(raidz_map_t *rm, const int *parity_valid,
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const int nbaddata)
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{
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if (nbaddata == 1 && parity_valid[CODE_P]) {
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return (rm->rm_ops->rec[RAIDZ_REC_P]);
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}
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return ((raidz_rec_f) NULL);
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}
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static raidz_rec_f
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reconstruct_fun_pq_sel(raidz_map_t *rm, const int *parity_valid,
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const int nbaddata)
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{
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if (nbaddata == 1) {
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if (parity_valid[CODE_P]) {
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return (rm->rm_ops->rec[RAIDZ_REC_P]);
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} else if (parity_valid[CODE_Q]) {
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return (rm->rm_ops->rec[RAIDZ_REC_Q]);
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}
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} else if (nbaddata == 2 &&
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parity_valid[CODE_P] && parity_valid[CODE_Q]) {
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return (rm->rm_ops->rec[RAIDZ_REC_PQ]);
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}
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return ((raidz_rec_f) NULL);
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}
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static raidz_rec_f
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reconstruct_fun_pqr_sel(raidz_map_t *rm, const int *parity_valid,
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const int nbaddata)
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{
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if (nbaddata == 1) {
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if (parity_valid[CODE_P]) {
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return (rm->rm_ops->rec[RAIDZ_REC_P]);
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} else if (parity_valid[CODE_Q]) {
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return (rm->rm_ops->rec[RAIDZ_REC_Q]);
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} else if (parity_valid[CODE_R]) {
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return (rm->rm_ops->rec[RAIDZ_REC_R]);
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}
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} else if (nbaddata == 2) {
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if (parity_valid[CODE_P] && parity_valid[CODE_Q]) {
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return (rm->rm_ops->rec[RAIDZ_REC_PQ]);
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} else if (parity_valid[CODE_P] && parity_valid[CODE_R]) {
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return (rm->rm_ops->rec[RAIDZ_REC_PR]);
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} else if (parity_valid[CODE_Q] && parity_valid[CODE_R]) {
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return (rm->rm_ops->rec[RAIDZ_REC_QR]);
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}
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} else if (nbaddata == 3 &&
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parity_valid[CODE_P] && parity_valid[CODE_Q] &&
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parity_valid[CODE_R]) {
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return (rm->rm_ops->rec[RAIDZ_REC_PQR]);
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}
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return ((raidz_rec_f) NULL);
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}
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/*
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* Select data reconstruction method for raidz_map
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* @parity_valid - Parity validity flag
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* @dt - Failed data index array
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* @nbaddata - Number of failed data columns
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*/
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int
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vdev_raidz_math_reconstruct(raidz_map_t *rm, const int *parity_valid,
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const int *dt, const int nbaddata)
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{
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raidz_rec_f rec_fn = NULL;
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switch (raidz_parity(rm)) {
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case PARITY_P:
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rec_fn = reconstruct_fun_p_sel(rm, parity_valid, nbaddata);
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break;
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case PARITY_PQ:
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rec_fn = reconstruct_fun_pq_sel(rm, parity_valid, nbaddata);
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break;
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case PARITY_PQR:
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rec_fn = reconstruct_fun_pqr_sel(rm, parity_valid, nbaddata);
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break;
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default:
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cmn_err(CE_PANIC, "invalid RAID-Z configuration %d",
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raidz_parity(rm));
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break;
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}
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if (rec_fn == NULL)
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return (RAIDZ_ORIGINAL_IMPL);
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else
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return (rec_fn(rm, dt));
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}
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const char *raidz_gen_name[] = {
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"gen_p", "gen_pq", "gen_pqr"
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};
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const char *raidz_rec_name[] = {
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"rec_p", "rec_q", "rec_r",
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"rec_pq", "rec_pr", "rec_qr", "rec_pqr"
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};
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#define RAIDZ_KSTAT_LINE_LEN (17 + 10*12 + 1)
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static int
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raidz_math_kstat_headers(char *buf, size_t size)
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{
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int i;
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ssize_t off;
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ASSERT3U(size, >=, RAIDZ_KSTAT_LINE_LEN);
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off = snprintf(buf, size, "%-17s", "implementation");
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for (i = 0; i < ARRAY_SIZE(raidz_gen_name); i++)
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off += snprintf(buf + off, size - off, "%-16s",
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raidz_gen_name[i]);
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for (i = 0; i < ARRAY_SIZE(raidz_rec_name); i++)
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off += snprintf(buf + off, size - off, "%-16s",
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raidz_rec_name[i]);
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(void) snprintf(buf + off, size - off, "\n");
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return (0);
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}
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static int
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raidz_math_kstat_data(char *buf, size_t size, void *data)
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{
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raidz_impl_kstat_t *fstat = &raidz_impl_kstats[raidz_supp_impl_cnt];
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raidz_impl_kstat_t *cstat = (raidz_impl_kstat_t *)data;
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ssize_t off = 0;
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int i;
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ASSERT3U(size, >=, RAIDZ_KSTAT_LINE_LEN);
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if (cstat == fstat) {
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off += snprintf(buf + off, size - off, "%-17s", "fastest");
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for (i = 0; i < ARRAY_SIZE(raidz_gen_name); i++) {
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int id = fstat->gen[i];
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off += snprintf(buf + off, size - off, "%-16s",
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raidz_supp_impl[id]->name);
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}
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for (i = 0; i < ARRAY_SIZE(raidz_rec_name); i++) {
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int id = fstat->rec[i];
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off += snprintf(buf + off, size - off, "%-16s",
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raidz_supp_impl[id]->name);
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}
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} else {
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ptrdiff_t id = cstat - raidz_impl_kstats;
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off += snprintf(buf + off, size - off, "%-17s",
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raidz_supp_impl[id]->name);
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for (i = 0; i < ARRAY_SIZE(raidz_gen_name); i++)
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off += snprintf(buf + off, size - off, "%-16llu",
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(u_longlong_t)cstat->gen[i]);
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for (i = 0; i < ARRAY_SIZE(raidz_rec_name); i++)
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off += snprintf(buf + off, size - off, "%-16llu",
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(u_longlong_t)cstat->rec[i]);
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}
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(void) snprintf(buf + off, size - off, "\n");
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return (0);
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}
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static void *
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raidz_math_kstat_addr(kstat_t *ksp, loff_t n)
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{
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if (n <= raidz_supp_impl_cnt)
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ksp->ks_private = (void *) (raidz_impl_kstats + 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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#define BENCH_D_COLS (8ULL)
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#define BENCH_COLS (BENCH_D_COLS + PARITY_PQR)
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#define BENCH_ZIO_SIZE (1ULL << SPA_OLD_MAXBLOCKSHIFT) /* 128 kiB */
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#define BENCH_NS MSEC2NSEC(25) /* 25ms */
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typedef void (*benchmark_fn)(raidz_map_t *rm, const int fn);
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static void
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benchmark_gen_impl(raidz_map_t *rm, const int fn)
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{
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(void) fn;
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vdev_raidz_generate_parity(rm);
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}
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static void
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benchmark_rec_impl(raidz_map_t *rm, const int fn)
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{
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static const int rec_tgt[7][3] = {
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{1, 2, 3}, /* rec_p: bad QR & D[0] */
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{0, 2, 3}, /* rec_q: bad PR & D[0] */
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{0, 1, 3}, /* rec_r: bad PQ & D[0] */
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{2, 3, 4}, /* rec_pq: bad R & D[0][1] */
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{1, 3, 4}, /* rec_pr: bad Q & D[0][1] */
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{0, 3, 4}, /* rec_qr: bad P & D[0][1] */
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{3, 4, 5} /* rec_pqr: bad & D[0][1][2] */
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};
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vdev_raidz_reconstruct(rm, rec_tgt[fn], 3);
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}
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/*
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* Benchmarking of all supported implementations (raidz_supp_impl_cnt)
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* is performed by setting the rm_ops pointer and calling the top level
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* generate/reconstruct methods of bench_rm.
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*/
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static void
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benchmark_raidz_impl(raidz_map_t *bench_rm, const int fn, benchmark_fn bench_fn)
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{
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uint64_t run_cnt, speed, best_speed = 0;
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hrtime_t t_start, t_diff;
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raidz_impl_ops_t *curr_impl;
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raidz_impl_kstat_t *fstat = &raidz_impl_kstats[raidz_supp_impl_cnt];
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int impl, i;
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for (impl = 0; impl < raidz_supp_impl_cnt; impl++) {
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/* set an implementation to benchmark */
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curr_impl = raidz_supp_impl[impl];
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bench_rm->rm_ops = curr_impl;
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run_cnt = 0;
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t_start = gethrtime();
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do {
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for (i = 0; i < 25; i++, run_cnt++)
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bench_fn(bench_rm, fn);
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t_diff = gethrtime() - t_start;
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} while (t_diff < BENCH_NS);
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speed = run_cnt * BENCH_ZIO_SIZE * NANOSEC;
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speed /= (t_diff * BENCH_COLS);
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if (bench_fn == benchmark_gen_impl)
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raidz_impl_kstats[impl].gen[fn] = speed;
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else
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raidz_impl_kstats[impl].rec[fn] = speed;
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/* Update fastest implementation method */
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if (speed > best_speed) {
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best_speed = speed;
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if (bench_fn == benchmark_gen_impl) {
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fstat->gen[fn] = impl;
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vdev_raidz_fastest_impl.gen[fn] =
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curr_impl->gen[fn];
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} else {
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fstat->rec[fn] = impl;
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vdev_raidz_fastest_impl.rec[fn] =
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curr_impl->rec[fn];
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}
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}
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}
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}
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void
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vdev_raidz_math_init(void)
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{
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raidz_impl_ops_t *curr_impl;
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zio_t *bench_zio = NULL;
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raidz_map_t *bench_rm = NULL;
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uint64_t bench_parity;
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int i, c, fn;
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/* move supported impl into raidz_supp_impl */
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for (i = 0, c = 0; i < ARRAY_SIZE(raidz_all_maths); i++) {
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curr_impl = (raidz_impl_ops_t *)raidz_all_maths[i];
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/* initialize impl */
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if (curr_impl->init)
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curr_impl->init();
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if (curr_impl->is_supported())
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raidz_supp_impl[c++] = (raidz_impl_ops_t *)curr_impl;
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}
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membar_producer(); /* complete raidz_supp_impl[] init */
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raidz_supp_impl_cnt = c; /* number of supported impl */
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#if !defined(_KERNEL)
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/* Skip benchmarking and use last implementation as fastest */
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memcpy(&vdev_raidz_fastest_impl, raidz_supp_impl[raidz_supp_impl_cnt-1],
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sizeof (vdev_raidz_fastest_impl));
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strcpy(vdev_raidz_fastest_impl.name, "fastest");
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raidz_math_initialized = B_TRUE;
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/* Use 'cycle' math selection method for userspace */
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VERIFY0(vdev_raidz_impl_set("cycle"));
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return;
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#endif
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/* Fake an zio and run the benchmark on a warmed up buffer */
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bench_zio = kmem_zalloc(sizeof (zio_t), KM_SLEEP);
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bench_zio->io_offset = 0;
|
|
bench_zio->io_size = BENCH_ZIO_SIZE; /* only data columns */
|
|
bench_zio->io_abd = abd_alloc_linear(BENCH_ZIO_SIZE, B_TRUE);
|
|
memset(abd_to_buf(bench_zio->io_abd), 0xAA, BENCH_ZIO_SIZE);
|
|
|
|
/* Benchmark parity generation methods */
|
|
for (fn = 0; fn < RAIDZ_GEN_NUM; fn++) {
|
|
bench_parity = fn + 1;
|
|
/* New raidz_map is needed for each generate_p/q/r */
|
|
bench_rm = vdev_raidz_map_alloc(bench_zio, SPA_MINBLOCKSHIFT,
|
|
BENCH_D_COLS + bench_parity, bench_parity);
|
|
|
|
benchmark_raidz_impl(bench_rm, fn, benchmark_gen_impl);
|
|
|
|
vdev_raidz_map_free(bench_rm);
|
|
}
|
|
|
|
/* Benchmark data reconstruction methods */
|
|
bench_rm = vdev_raidz_map_alloc(bench_zio, SPA_MINBLOCKSHIFT,
|
|
BENCH_COLS, PARITY_PQR);
|
|
|
|
for (fn = 0; fn < RAIDZ_REC_NUM; fn++)
|
|
benchmark_raidz_impl(bench_rm, fn, benchmark_rec_impl);
|
|
|
|
vdev_raidz_map_free(bench_rm);
|
|
|
|
/* cleanup the bench zio */
|
|
abd_free(bench_zio->io_abd);
|
|
kmem_free(bench_zio, sizeof (zio_t));
|
|
|
|
/* install kstats for all impl */
|
|
raidz_math_kstat = kstat_create("zfs", 0, "vdev_raidz_bench", "misc",
|
|
KSTAT_TYPE_RAW, 0, KSTAT_FLAG_VIRTUAL);
|
|
|
|
if (raidz_math_kstat != NULL) {
|
|
raidz_math_kstat->ks_data = NULL;
|
|
raidz_math_kstat->ks_ndata = UINT32_MAX;
|
|
kstat_set_raw_ops(raidz_math_kstat,
|
|
raidz_math_kstat_headers,
|
|
raidz_math_kstat_data,
|
|
raidz_math_kstat_addr);
|
|
kstat_install(raidz_math_kstat);
|
|
}
|
|
|
|
/* Finish initialization */
|
|
atomic_swap_32(&zfs_vdev_raidz_impl, user_sel_impl);
|
|
raidz_math_initialized = B_TRUE;
|
|
}
|
|
|
|
void
|
|
vdev_raidz_math_fini(void)
|
|
{
|
|
raidz_impl_ops_t const *curr_impl;
|
|
int i;
|
|
|
|
if (raidz_math_kstat != NULL) {
|
|
kstat_delete(raidz_math_kstat);
|
|
raidz_math_kstat = NULL;
|
|
}
|
|
|
|
/* fini impl */
|
|
for (i = 0; i < ARRAY_SIZE(raidz_all_maths); i++) {
|
|
curr_impl = raidz_all_maths[i];
|
|
if (curr_impl->fini)
|
|
curr_impl->fini();
|
|
}
|
|
}
|
|
|
|
static const struct {
|
|
char *name;
|
|
uint32_t sel;
|
|
} math_impl_opts[] = {
|
|
#if !defined(_KERNEL)
|
|
{ "cycle", IMPL_CYCLE },
|
|
#endif
|
|
{ "fastest", IMPL_FASTEST },
|
|
{ "original", IMPL_ORIGINAL },
|
|
{ "scalar", IMPL_SCALAR }
|
|
};
|
|
|
|
/*
|
|
* Function sets desired raidz implementation.
|
|
*
|
|
* If we are called before init(), user preference will be saved in
|
|
* user_sel_impl, and applied in later init() call. This occurs when module
|
|
* parameter is specified on module load. Otherwise, directly update
|
|
* zfs_vdev_raidz_impl.
|
|
*
|
|
* @val Name of raidz implementation to use
|
|
* @param Unused.
|
|
*/
|
|
int
|
|
vdev_raidz_impl_set(const char *val)
|
|
{
|
|
int err = -EINVAL;
|
|
char req_name[RAIDZ_IMPL_NAME_MAX];
|
|
uint32_t impl = RAIDZ_IMPL_READ(user_sel_impl);
|
|
size_t i;
|
|
|
|
/* sanitize input */
|
|
i = strnlen(val, RAIDZ_IMPL_NAME_MAX);
|
|
if (i == 0 || i == RAIDZ_IMPL_NAME_MAX)
|
|
return (err);
|
|
|
|
strlcpy(req_name, val, RAIDZ_IMPL_NAME_MAX);
|
|
while (i > 0 && !!isspace(req_name[i-1]))
|
|
i--;
|
|
req_name[i] = '\0';
|
|
|
|
/* Check mandatory options */
|
|
for (i = 0; i < ARRAY_SIZE(math_impl_opts); i++) {
|
|
if (strcmp(req_name, math_impl_opts[i].name) == 0) {
|
|
impl = math_impl_opts[i].sel;
|
|
err = 0;
|
|
break;
|
|
}
|
|
}
|
|
|
|
/* check all supported impl if init() was already called */
|
|
if (err != 0 && raidz_math_initialized) {
|
|
/* check all supported implementations */
|
|
for (i = 0; i < raidz_supp_impl_cnt; i++) {
|
|
if (strcmp(req_name, raidz_supp_impl[i]->name) == 0) {
|
|
impl = i;
|
|
err = 0;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
if (err == 0) {
|
|
if (raidz_math_initialized)
|
|
atomic_swap_32(&zfs_vdev_raidz_impl, impl);
|
|
else
|
|
atomic_swap_32(&user_sel_impl, impl);
|
|
}
|
|
|
|
return (err);
|
|
}
|
|
|
|
#if defined(_KERNEL) && defined(HAVE_SPL)
|
|
#include <linux/mod_compat.h>
|
|
|
|
static int
|
|
zfs_vdev_raidz_impl_set(const char *val, zfs_kernel_param_t *kp)
|
|
{
|
|
return (vdev_raidz_impl_set(val));
|
|
}
|
|
|
|
static int
|
|
zfs_vdev_raidz_impl_get(char *buffer, zfs_kernel_param_t *kp)
|
|
{
|
|
int i, cnt = 0;
|
|
char *fmt;
|
|
const uint32_t impl = RAIDZ_IMPL_READ(zfs_vdev_raidz_impl);
|
|
|
|
ASSERT(raidz_math_initialized);
|
|
|
|
/* list mandatory options */
|
|
for (i = 0; i < ARRAY_SIZE(math_impl_opts) - 2; i++) {
|
|
fmt = (impl == math_impl_opts[i].sel) ? "[%s] " : "%s ";
|
|
cnt += sprintf(buffer + cnt, fmt, math_impl_opts[i].name);
|
|
}
|
|
|
|
/* list all supported implementations */
|
|
for (i = 0; i < raidz_supp_impl_cnt; i++) {
|
|
fmt = (i == impl) ? "[%s] " : "%s ";
|
|
cnt += sprintf(buffer + cnt, fmt, raidz_supp_impl[i]->name);
|
|
}
|
|
|
|
return (cnt);
|
|
}
|
|
|
|
module_param_call(zfs_vdev_raidz_impl, zfs_vdev_raidz_impl_set,
|
|
zfs_vdev_raidz_impl_get, NULL, 0644);
|
|
MODULE_PARM_DESC(zfs_vdev_raidz_impl, "Select raidz implementation.");
|
|
#endif
|