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e5db313494
Restore the SIMD optimization for 4.19.38 LTS, 4.14.120 LTS, and 5.0 and newer kernels. This is accomplished by leveraging the fact that by definition dedicated kernel threads never need to concern themselves with saving and restoring the user FPU state. Therefore, they may use the FPU as long as we can guarantee user tasks always restore their FPU state before context switching back to user space. For the 5.0 and 5.1 kernels disabling preemption and local interrupts is sufficient to allow the FPU to be used. All non-kernel threads will restore the preserved user FPU state. For 5.2 and latter kernels the user FPU state restoration will be skipped if the kernel determines the registers have not changed. Therefore, for these kernels we need to perform the additional step of saving and restoring the FPU registers. Invalidating the per-cpu global tracking the FPU state would force a restore but that functionality is private to the core x86 FPU implementation and unavailable. In practice, restricting SIMD to kernel threads is not a major restriction for ZFS. The vast majority of SIMD operations are already performed by the IO pipeline. The remaining cases are relatively infrequent and can be handled by the generic code without significant impact. The two most noteworthy cases are: 1) Decrypting the wrapping key for an encrypted dataset, i.e. `zfs load-key`. All other encryption and decryption operations will use the SIMD optimized implementations. 2) Generating the payload checksums for a `zfs send` stream. In order to avoid making any changes to the higher layers of ZFS all of the `*_get_ops()` functions were updated to take in to consideration the calling context. This allows for the fastest implementation to be used as appropriate (see kfpu_allowed()). The only other notable instance of SIMD operations being used outside a kernel thread was at module load time. This code was moved in to a taskq in order to accommodate the new kernel thread restriction. Finally, a few other modifications were made in order to further harden this code and facilitate testing. They include updating each implementations operations structure to be declared as a constant. And allowing "cycle" to be set when selecting the preferred ops in the kernel as well as user space. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #8754 Closes #8793 Closes #8965
233 lines
5.4 KiB
C
233 lines
5.4 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 Romain Dolbeau. All rights reserved.
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*/
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#include <sys/isa_defs.h>
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#if defined(__aarch64__)
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#include "vdev_raidz_math_aarch64_neon_common.h"
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#define SYN_STRIDE 4
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#define ZERO_STRIDE 8
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#define ZERO_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7()
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#define ZERO_D 0, 1, 2, 3, 4, 5, 6, 7
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#define COPY_STRIDE 8
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#define COPY_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7()
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#define COPY_D 0, 1, 2, 3, 4, 5, 6, 7
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#define ADD_STRIDE 8
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#define ADD_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7()
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#define ADD_D 0, 1, 2, 3, 4, 5, 6, 7
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#define MUL_STRIDE 4
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#define MUL_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_33_36()
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#define MUL_D 0, 1, 2, 3
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#define GEN_P_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_33_36()
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#define GEN_P_STRIDE 4
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#define GEN_P_P 0, 1, 2, 3
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#define GEN_PQ_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define GEN_PQ_STRIDE 4
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#define GEN_PQ_D 0, 1, 2, 3
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#define GEN_PQ_C 4, 5, 6, 7
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#define GEN_PQR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define GEN_PQR_STRIDE 4
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#define GEN_PQR_D 0, 1, 2, 3
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#define GEN_PQR_C 4, 5, 6, 7
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#define SYN_Q_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_Q_STRIDE 4
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#define SYN_Q_D 0, 1, 2, 3
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#define SYN_Q_X 4, 5, 6, 7
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#define SYN_R_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_R_STRIDE 4
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#define SYN_R_D 0, 1, 2, 3
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#define SYN_R_X 4, 5, 6, 7
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#define SYN_PQ_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_PQ_STRIDE 4
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#define SYN_PQ_D 0, 1, 2, 3
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#define SYN_PQ_X 4, 5, 6, 7
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#define REC_PQ_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_8_9() \
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GEN_X_DEFINE_22_23() \
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GEN_X_DEFINE_33_36()
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#define REC_PQ_STRIDE 4
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#define REC_PQ_X 0, 1, 2, 3
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#define REC_PQ_Y 4, 5, 6, 7
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#define REC_PQ_T 8, 9, 22, 23
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#define SYN_PR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_PR_STRIDE 4
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#define SYN_PR_D 0, 1, 2, 3
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#define SYN_PR_X 4, 5, 6, 7
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#define REC_PR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_8_9() \
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GEN_X_DEFINE_22_23() \
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GEN_X_DEFINE_33_36()
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#define REC_PR_STRIDE 4
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#define REC_PR_X 0, 1, 2, 3
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#define REC_PR_Y 4, 5, 6, 7
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#define REC_PR_T 8, 9, 22, 23
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#define SYN_QR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_QR_STRIDE 4
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#define SYN_QR_D 0, 1, 2, 3
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#define SYN_QR_X 4, 5, 6, 7
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#define REC_QR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_8_9() \
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GEN_X_DEFINE_22_23() \
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GEN_X_DEFINE_33_36()
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#define REC_QR_STRIDE 4
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#define REC_QR_X 0, 1, 2, 3
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#define REC_QR_Y 4, 5, 6, 7
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#define REC_QR_T 8, 9, 22, 23
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#define SYN_PQR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_16() \
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GEN_X_DEFINE_17() \
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GEN_X_DEFINE_33_36()
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#define SYN_PQR_STRIDE 4
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#define SYN_PQR_D 0, 1, 2, 3
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#define SYN_PQR_X 4, 5, 6, 7
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#define REC_PQR_DEFINE() \
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GEN_X_DEFINE_0_3() \
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GEN_X_DEFINE_4_5() \
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GEN_X_DEFINE_6_7() \
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GEN_X_DEFINE_8_9() \
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GEN_X_DEFINE_31() \
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GEN_X_DEFINE_32() \
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GEN_X_DEFINE_33_36()
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#define REC_PQR_STRIDE 2
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#define REC_PQR_X 0, 1
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#define REC_PQR_Y 2, 3
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#define REC_PQR_Z 4, 5
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#define REC_PQR_XS 6, 7
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#define REC_PQR_YS 8, 9
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#include <sys/vdev_raidz_impl.h>
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#include "vdev_raidz_math_impl.h"
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DEFINE_GEN_METHODS(aarch64_neonx2);
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/*
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* If compiled with -O0, gcc doesn't do any stack frame coalescing
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* and -Wframe-larger-than=1024 is triggered in debug mode.
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*/
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#pragma GCC diagnostic ignored "-Wframe-larger-than="
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DEFINE_REC_METHODS(aarch64_neonx2);
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#pragma GCC diagnostic pop
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static boolean_t
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raidz_will_aarch64_neonx2_work(void)
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{
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return (kfpu_allowed());
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}
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const raidz_impl_ops_t vdev_raidz_aarch64_neonx2_impl = {
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.init = NULL,
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.fini = NULL,
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.gen = RAIDZ_GEN_METHODS(aarch64_neonx2),
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.rec = RAIDZ_REC_METHODS(aarch64_neonx2),
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.is_supported = &raidz_will_aarch64_neonx2_work,
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.name = "aarch64_neonx2"
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};
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#endif /* defined(__aarch64__) */
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