SIMD implementation of vdev_raidz generate and reconstruct routines
This is a new implementation of RAIDZ1/2/3 routines using x86_64
scalar, SSE, and AVX2 instruction sets. Included are 3 parity
generation routines (P, PQ, and PQR) and 7 reconstruction routines,
for all RAIDZ level. On module load, a quick benchmark of supported
routines will select the fastest for each operation and they will
be used at runtime. Original implementation is still present and
can be selected via module parameter.
Patch contains:
- specialized gen/rec routines for all RAIDZ levels,
- new scalar raidz implementation (unrolled),
- two x86_64 SIMD implementations (SSE and AVX2 instructions sets),
- fastest routines selected on module load (benchmark).
- cmd/raidz_test - verify and benchmark all implementations
- added raidz_test to the ZFS Test Suite
New zfs module parameters:
- zfs_vdev_raidz_impl (str): selects the implementation to use. On
module load, the parameter will only accept first 3 options, and
the other implementations can be set once module is finished
loading. Possible values for this option are:
"fastest" - use the fastest math available
"original" - use the original raidz code
"scalar" - new scalar impl
"sse" - new SSE impl if available
"avx2" - new AVX2 impl if available
See contents of `/sys/module/zfs/parameters/zfs_vdev_raidz_impl` to
get the list of supported values. If an implementation is not supported
on the system, it will not be shown. Currently selected option is
enclosed in `[]`.
Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #4328
2016-04-25 08:04:31 +00:00
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/*
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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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#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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#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 *raidz_gen_name[RAIDZ_GEN_NUM];
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extern const char *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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2016-07-17 17:41:11 +00:00
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#define RAIDZ_IMPL_NAME_MAX (16)
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SIMD implementation of vdev_raidz generate and reconstruct routines
This is a new implementation of RAIDZ1/2/3 routines using x86_64
scalar, SSE, and AVX2 instruction sets. Included are 3 parity
generation routines (P, PQ, and PQR) and 7 reconstruction routines,
for all RAIDZ level. On module load, a quick benchmark of supported
routines will select the fastest for each operation and they will
be used at runtime. Original implementation is still present and
can be selected via module parameter.
Patch contains:
- specialized gen/rec routines for all RAIDZ levels,
- new scalar raidz implementation (unrolled),
- two x86_64 SIMD implementations (SSE and AVX2 instructions sets),
- fastest routines selected on module load (benchmark).
- cmd/raidz_test - verify and benchmark all implementations
- added raidz_test to the ZFS Test Suite
New zfs module parameters:
- zfs_vdev_raidz_impl (str): selects the implementation to use. On
module load, the parameter will only accept first 3 options, and
the other implementations can be set once module is finished
loading. Possible values for this option are:
"fastest" - use the fastest math available
"original" - use the original raidz code
"scalar" - new scalar impl
"sse" - new SSE impl if available
"avx2" - new AVX2 impl if available
See contents of `/sys/module/zfs/parameters/zfs_vdev_raidz_impl` to
get the list of supported values. If an implementation is not supported
on the system, it will not be shown. Currently selected option is
enclosed in `[]`.
Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #4328
2016-04-25 08:04:31 +00:00
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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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2016-07-17 17:41:11 +00:00
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char name[RAIDZ_IMPL_NAME_MAX]; /* Name of the implementation */
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SIMD implementation of vdev_raidz generate and reconstruct routines
This is a new implementation of RAIDZ1/2/3 routines using x86_64
scalar, SSE, and AVX2 instruction sets. Included are 3 parity
generation routines (P, PQ, and PQR) and 7 reconstruction routines,
for all RAIDZ level. On module load, a quick benchmark of supported
routines will select the fastest for each operation and they will
be used at runtime. Original implementation is still present and
can be selected via module parameter.
Patch contains:
- specialized gen/rec routines for all RAIDZ levels,
- new scalar raidz implementation (unrolled),
- two x86_64 SIMD implementations (SSE and AVX2 instructions sets),
- fastest routines selected on module load (benchmark).
- cmd/raidz_test - verify and benchmark all implementations
- added raidz_test to the ZFS Test Suite
New zfs module parameters:
- zfs_vdev_raidz_impl (str): selects the implementation to use. On
module load, the parameter will only accept first 3 options, and
the other implementations can be set once module is finished
loading. Possible values for this option are:
"fastest" - use the fastest math available
"original" - use the original raidz code
"scalar" - new scalar impl
"sse" - new SSE impl if available
"avx2" - new AVX2 impl if available
See contents of `/sys/module/zfs/parameters/zfs_vdev_raidz_impl` to
get the list of supported values. If an implementation is not supported
on the system, it will not be shown. Currently selected option is
enclosed in `[]`.
Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #4328
2016-04-25 08:04:31 +00:00
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} raidz_impl_ops_t;
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typedef struct raidz_col {
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size_t rc_devidx; /* child device index for I/O */
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size_t rc_offset; /* device offset */
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size_t rc_size; /* I/O size */
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void *rc_data; /* I/O data */
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void *rc_gdata; /* used to store the "good" version */
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int rc_error; /* I/O error for this device */
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unsigned int rc_tried; /* Did we attempt this I/O column? */
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unsigned int rc_skipped; /* Did we skip this I/O column? */
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} raidz_col_t;
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typedef struct raidz_map {
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size_t rm_cols; /* Regular column count */
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size_t rm_scols; /* Count including skipped columns */
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size_t rm_bigcols; /* Number of oversized columns */
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size_t rm_asize; /* Actual total I/O size */
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size_t rm_missingdata; /* Count of missing data devices */
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size_t rm_missingparity; /* Count of missing parity devices */
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size_t rm_firstdatacol; /* First data column/parity count */
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size_t rm_nskip; /* Skipped sectors for padding */
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size_t rm_skipstart; /* Column index of padding start */
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void *rm_datacopy; /* rm_asize-buffer of copied data */
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size_t rm_reports; /* # of referencing checksum reports */
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unsigned int rm_freed; /* map no longer has referencing ZIO */
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unsigned int rm_ecksuminjected; /* checksum error was injected */
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raidz_impl_ops_t *rm_ops; /* RAIDZ math operations */
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raidz_col_t rm_col[1]; /* Flexible array of I/O columns */
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} raidz_map_t;
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2016-07-17 17:41:11 +00:00
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#define RAIDZ_ORIGINAL_IMPL (INT_MAX)
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2016-06-28 17:49:53 +00:00
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extern const raidz_impl_ops_t vdev_raidz_scalar_impl;
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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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SIMD implementation of vdev_raidz generate and reconstruct routines
This is a new implementation of RAIDZ1/2/3 routines using x86_64
scalar, SSE, and AVX2 instruction sets. Included are 3 parity
generation routines (P, PQ, and PQR) and 7 reconstruction routines,
for all RAIDZ level. On module load, a quick benchmark of supported
routines will select the fastest for each operation and they will
be used at runtime. Original implementation is still present and
can be selected via module parameter.
Patch contains:
- specialized gen/rec routines for all RAIDZ levels,
- new scalar raidz implementation (unrolled),
- two x86_64 SIMD implementations (SSE and AVX2 instructions sets),
- fastest routines selected on module load (benchmark).
- cmd/raidz_test - verify and benchmark all implementations
- added raidz_test to the ZFS Test Suite
New zfs module parameters:
- zfs_vdev_raidz_impl (str): selects the implementation to use. On
module load, the parameter will only accept first 3 options, and
the other implementations can be set once module is finished
loading. Possible values for this option are:
"fastest" - use the fastest math available
"original" - use the original raidz code
"scalar" - new scalar impl
"sse" - new SSE impl if available
"avx2" - new AVX2 impl if available
See contents of `/sys/module/zfs/parameters/zfs_vdev_raidz_impl` to
get the list of supported values. If an implementation is not supported
on the system, it will not be shown. Currently selected option is
enclosed in `[]`.
Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #4328
2016-04-25 08:04:31 +00:00
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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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* raidz_nbigcols Returns number of big columns 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_firstdatacol)
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#define raidz_ncols(rm) ((rm)->rm_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 *rmp) \
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{ \
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raidz_map_t *rm = (raidz_map_t *) rmp; \
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raidz_generate_## code ## _impl(rm); \
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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 *rmp, const int *tgtidx) \
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{ \
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raidz_map_t *rm = (raidz_map_t *) rmp; \
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return (raidz_reconstruct_## code ## _impl(rm, 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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2016-07-18 13:10:17 +00:00
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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 */
|
SIMD implementation of vdev_raidz generate and reconstruct routines
This is a new implementation of RAIDZ1/2/3 routines using x86_64
scalar, SSE, and AVX2 instruction sets. Included are 3 parity
generation routines (P, PQ, and PQR) and 7 reconstruction routines,
for all RAIDZ level. On module load, a quick benchmark of supported
routines will select the fastest for each operation and they will
be used at runtime. Original implementation is still present and
can be selected via module parameter.
Patch contains:
- specialized gen/rec routines for all RAIDZ levels,
- new scalar raidz implementation (unrolled),
- two x86_64 SIMD implementations (SSE and AVX2 instructions sets),
- fastest routines selected on module load (benchmark).
- cmd/raidz_test - verify and benchmark all implementations
- added raidz_test to the ZFS Test Suite
New zfs module parameters:
- zfs_vdev_raidz_impl (str): selects the implementation to use. On
module load, the parameter will only accept first 3 options, and
the other implementations can be set once module is finished
loading. Possible values for this option are:
"fastest" - use the fastest math available
"original" - use the original raidz code
"scalar" - new scalar impl
"sse" - new SSE impl if available
"avx2" - new AVX2 impl if available
See contents of `/sys/module/zfs/parameters/zfs_vdev_raidz_impl` to
get the list of supported values. If an implementation is not supported
on the system, it will not be shown. Currently selected option is
enclosed in `[]`.
Signed-off-by: Gvozden Neskovic <neskovic@gmail.com>
Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
Closes #4328
2016-04-25 08:04:31 +00:00
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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_exp2 - 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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