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e92a680c70
This gets around UBSAN errors when using arrays at the end of structs. It converts some zero-length arrays to variable length arrays and disables UBSAN checking on certain modules. It is based off of the patch from #15460. Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Tested-by: Thomas Lamprecht <t.lamprecht@proxmox.com> Co-authored-by: Thomas Lamprecht <t.lamprecht@proxmox.com> Signed-off-by: Tony Hutter <hutter2@llnl.gov> Issue #15145 Closes #15510
390 lines
10 KiB
C
390 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) 2016 Gvozden Nešković. All rights reserved.
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*/
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#ifndef _VDEV_RAIDZ_H
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#define _VDEV_RAIDZ_H
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#include <sys/types.h>
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#include <sys/debug.h>
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#include <sys/kstat.h>
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#include <sys/abd.h>
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#include <sys/vdev_impl.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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#define CODE_P (0U)
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#define CODE_Q (1U)
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#define CODE_R (2U)
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#define PARITY_P (1U)
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#define PARITY_PQ (2U)
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#define PARITY_PQR (3U)
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#define TARGET_X (0U)
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#define TARGET_Y (1U)
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#define TARGET_Z (2U)
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/*
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* Parity generation methods indexes
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*/
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enum raidz_math_gen_op {
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RAIDZ_GEN_P = 0,
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RAIDZ_GEN_PQ,
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RAIDZ_GEN_PQR,
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RAIDZ_GEN_NUM = 3
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};
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/*
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* Data reconstruction methods indexes
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*/
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enum raidz_rec_op {
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RAIDZ_REC_P = 0,
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RAIDZ_REC_Q,
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RAIDZ_REC_R,
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RAIDZ_REC_PQ,
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RAIDZ_REC_PR,
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RAIDZ_REC_QR,
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RAIDZ_REC_PQR,
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RAIDZ_REC_NUM = 7
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};
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extern const char *const raidz_gen_name[RAIDZ_GEN_NUM];
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extern const char *const raidz_rec_name[RAIDZ_REC_NUM];
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/*
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* Methods used to define raidz implementation
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*
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* @raidz_gen_f Parity generation function
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* @par1 pointer to raidz_map
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* @raidz_rec_f Data reconstruction function
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* @par1 pointer to raidz_map
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* @par2 array of reconstruction targets
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* @will_work_f Function returns TRUE if impl. is supported on the system
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* @init_impl_f Function is called once on init
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* @fini_impl_f Function is called once on fini
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*/
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typedef void (*raidz_gen_f)(void *);
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typedef int (*raidz_rec_f)(void *, const int *);
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typedef boolean_t (*will_work_f)(void);
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typedef void (*init_impl_f)(void);
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typedef void (*fini_impl_f)(void);
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#define RAIDZ_IMPL_NAME_MAX (20)
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typedef struct raidz_impl_ops {
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init_impl_f init;
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fini_impl_f fini;
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raidz_gen_f gen[RAIDZ_GEN_NUM]; /* Parity generate functions */
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raidz_rec_f rec[RAIDZ_REC_NUM]; /* Data reconstruction functions */
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will_work_f is_supported; /* Support check function */
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char name[RAIDZ_IMPL_NAME_MAX]; /* Name of the implementation */
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} raidz_impl_ops_t;
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typedef struct raidz_col {
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uint64_t rc_devidx; /* child device index for I/O */
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uint64_t rc_offset; /* device offset */
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uint64_t rc_size; /* I/O size */
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abd_t rc_abdstruct; /* rc_abd probably points here */
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abd_t *rc_abd; /* I/O data */
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abd_t *rc_orig_data; /* pre-reconstruction */
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int rc_error; /* I/O error for this device */
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uint8_t rc_tried; /* Did we attempt this I/O column? */
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uint8_t rc_skipped; /* Did we skip this I/O column? */
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uint8_t rc_need_orig_restore; /* need to restore from orig_data? */
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uint8_t rc_force_repair; /* Write good data to this column */
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uint8_t rc_allow_repair; /* Allow repair I/O to this column */
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} raidz_col_t;
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typedef struct raidz_row {
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uint64_t rr_cols; /* Regular column count */
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uint64_t rr_scols; /* Count including skipped columns */
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uint64_t rr_bigcols; /* Remainder data column count */
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uint64_t rr_missingdata; /* Count of missing data devices */
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uint64_t rr_missingparity; /* Count of missing parity devices */
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uint64_t rr_firstdatacol; /* First data column/parity count */
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abd_t *rr_abd_empty; /* dRAID empty sector buffer */
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int rr_nempty; /* empty sectors included in parity */
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#ifdef ZFS_DEBUG
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uint64_t rr_offset; /* Logical offset for *_io_verify() */
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uint64_t rr_size; /* Physical size for *_io_verify() */
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#endif
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raidz_col_t rr_col[]; /* Flexible array of I/O columns */
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} raidz_row_t;
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typedef struct raidz_map {
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boolean_t rm_ecksuminjected; /* checksum error was injected */
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int rm_nrows; /* Regular row count */
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int rm_nskip; /* RAIDZ sectors skipped for padding */
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int rm_skipstart; /* Column index of padding start */
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const raidz_impl_ops_t *rm_ops; /* RAIDZ math operations */
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raidz_row_t *rm_row[]; /* flexible array of rows */
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} raidz_map_t;
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#define RAIDZ_ORIGINAL_IMPL (INT_MAX)
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extern const raidz_impl_ops_t vdev_raidz_scalar_impl;
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extern boolean_t raidz_will_scalar_work(void);
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#if defined(__x86_64) && defined(HAVE_SSE2) /* only x86_64 for now */
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extern const raidz_impl_ops_t 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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extern const raidz_impl_ops_t 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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extern const raidz_impl_ops_t 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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extern const raidz_impl_ops_t 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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extern const raidz_impl_ops_t vdev_raidz_avx512bw_impl;
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#endif
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#if defined(__aarch64__)
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extern const raidz_impl_ops_t vdev_raidz_aarch64_neon_impl;
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extern const raidz_impl_ops_t vdev_raidz_aarch64_neonx2_impl;
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#endif
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#if defined(__powerpc__)
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extern const raidz_impl_ops_t vdev_raidz_powerpc_altivec_impl;
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#endif
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/*
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* Commonly used raidz_map helpers
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*
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* raidz_parity Returns parity of the RAIDZ block
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* raidz_ncols Returns number of columns the block spans
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* Note, all rows have the same number of columns.
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* raidz_nbigcols Returns number of big columns
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* raidz_col_p Returns pointer to a column
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* raidz_col_size Returns size of a column
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* raidz_big_size Returns size of big columns
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* raidz_short_size Returns size of short columns
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*/
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#define raidz_parity(rm) ((rm)->rm_row[0]->rr_firstdatacol)
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#define raidz_ncols(rm) ((rm)->rm_row[0]->rr_cols)
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#define raidz_nbigcols(rm) ((rm)->rm_bigcols)
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#define raidz_col_p(rm, c) ((rm)->rm_col + (c))
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#define raidz_col_size(rm, c) ((rm)->rm_col[c].rc_size)
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#define raidz_big_size(rm) (raidz_col_size(rm, CODE_P))
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#define raidz_short_size(rm) (raidz_col_size(rm, raidz_ncols(rm)-1))
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/*
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* Macro defines an RAIDZ parity generation method
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*
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* @code parity the function produce
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* @impl name of the implementation
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*/
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#define _RAIDZ_GEN_WRAP(code, impl) \
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static void \
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impl ## _gen_ ## code(void *rrp) \
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{ \
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raidz_row_t *rr = (raidz_row_t *)rrp; \
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raidz_generate_## code ## _impl(rr); \
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}
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/*
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* Macro defines an RAIDZ data reconstruction method
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*
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* @code parity the function produce
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* @impl name of the implementation
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*/
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#define _RAIDZ_REC_WRAP(code, impl) \
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static int \
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impl ## _rec_ ## code(void *rrp, const int *tgtidx) \
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{ \
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raidz_row_t *rr = (raidz_row_t *)rrp; \
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return (raidz_reconstruct_## code ## _impl(rr, tgtidx)); \
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}
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/*
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* Define all gen methods for an implementation
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*
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* @impl name of the implementation
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*/
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#define DEFINE_GEN_METHODS(impl) \
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_RAIDZ_GEN_WRAP(p, impl); \
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_RAIDZ_GEN_WRAP(pq, impl); \
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_RAIDZ_GEN_WRAP(pqr, impl)
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/*
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* Define all rec functions for an implementation
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*
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* @impl name of the implementation
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*/
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#define DEFINE_REC_METHODS(impl) \
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_RAIDZ_REC_WRAP(p, impl); \
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_RAIDZ_REC_WRAP(q, impl); \
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_RAIDZ_REC_WRAP(r, impl); \
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_RAIDZ_REC_WRAP(pq, impl); \
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_RAIDZ_REC_WRAP(pr, impl); \
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_RAIDZ_REC_WRAP(qr, impl); \
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_RAIDZ_REC_WRAP(pqr, impl)
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#define RAIDZ_GEN_METHODS(impl) \
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{ \
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[RAIDZ_GEN_P] = & impl ## _gen_p, \
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[RAIDZ_GEN_PQ] = & impl ## _gen_pq, \
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[RAIDZ_GEN_PQR] = & impl ## _gen_pqr \
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}
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#define RAIDZ_REC_METHODS(impl) \
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{ \
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[RAIDZ_REC_P] = & impl ## _rec_p, \
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[RAIDZ_REC_Q] = & impl ## _rec_q, \
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[RAIDZ_REC_R] = & impl ## _rec_r, \
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[RAIDZ_REC_PQ] = & impl ## _rec_pq, \
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[RAIDZ_REC_PR] = & impl ## _rec_pr, \
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[RAIDZ_REC_QR] = & impl ## _rec_qr, \
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[RAIDZ_REC_PQR] = & impl ## _rec_pqr \
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}
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typedef struct raidz_impl_kstat {
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uint64_t gen[RAIDZ_GEN_NUM]; /* gen method speed B/s */
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uint64_t rec[RAIDZ_REC_NUM]; /* rec method speed B/s */
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} raidz_impl_kstat_t;
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/*
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* Enumerate various multiplication constants
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* used in reconstruction methods
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*/
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typedef enum raidz_mul_info {
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/* Reconstruct Q */
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MUL_Q_X = 0,
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/* Reconstruct R */
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MUL_R_X = 0,
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/* Reconstruct PQ */
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MUL_PQ_X = 0,
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MUL_PQ_Y = 1,
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/* Reconstruct PR */
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MUL_PR_X = 0,
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MUL_PR_Y = 1,
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/* Reconstruct QR */
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MUL_QR_XQ = 0,
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MUL_QR_X = 1,
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MUL_QR_YQ = 2,
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MUL_QR_Y = 3,
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/* Reconstruct PQR */
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MUL_PQR_XP = 0,
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MUL_PQR_XQ = 1,
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MUL_PQR_XR = 2,
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MUL_PQR_YU = 3,
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MUL_PQR_YP = 4,
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MUL_PQR_YQ = 5,
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MUL_CNT = 6
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} raidz_mul_info_t;
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/*
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* Powers of 2 in the Galois field.
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*/
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extern const uint8_t vdev_raidz_pow2[256] __attribute__((aligned(256)));
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/* Logs of 2 in the Galois field defined above. */
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extern const uint8_t vdev_raidz_log2[256] __attribute__((aligned(256)));
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/*
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* Multiply a given number by 2 raised to the given power.
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*/
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static inline uint8_t
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vdev_raidz_exp2(const uint8_t a, const unsigned exp)
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{
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if (a == 0)
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return (0);
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return (vdev_raidz_pow2[(exp + (unsigned)vdev_raidz_log2[a]) % 255]);
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}
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/*
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* Galois Field operations.
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*
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* gf_exp2 - computes 2 raised to the given power
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* gf_exp4 - computes 4 raised to the given power
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* gf_mul - multiplication
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* gf_div - division
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* gf_inv - multiplicative inverse
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*/
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typedef unsigned gf_t;
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typedef unsigned gf_log_t;
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static inline gf_t
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gf_mul(const gf_t a, const gf_t b)
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{
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gf_log_t logsum;
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if (a == 0 || b == 0)
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return (0);
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logsum = (gf_log_t)vdev_raidz_log2[a] + (gf_log_t)vdev_raidz_log2[b];
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return ((gf_t)vdev_raidz_pow2[logsum % 255]);
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}
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static inline gf_t
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gf_div(const gf_t a, const gf_t b)
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{
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gf_log_t logsum;
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ASSERT3U(b, >, 0);
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if (a == 0)
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return (0);
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logsum = (gf_log_t)255 + (gf_log_t)vdev_raidz_log2[a] -
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(gf_log_t)vdev_raidz_log2[b];
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return ((gf_t)vdev_raidz_pow2[logsum % 255]);
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}
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static inline gf_t
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gf_inv(const gf_t a)
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{
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gf_log_t logsum;
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ASSERT3U(a, >, 0);
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logsum = (gf_log_t)255 - (gf_log_t)vdev_raidz_log2[a];
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return ((gf_t)vdev_raidz_pow2[logsum]);
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}
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static inline gf_t
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gf_exp2(gf_log_t exp)
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{
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return (vdev_raidz_pow2[exp % 255]);
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}
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static inline gf_t
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gf_exp4(gf_log_t exp)
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{
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ASSERT3U(exp, <=, 255);
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return ((gf_t)vdev_raidz_pow2[(2 * exp) % 255]);
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}
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#ifdef __cplusplus
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}
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#endif
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#endif /* _VDEV_RAIDZ_H */
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