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f701d589aa
Move the raid6 data processing routines into a standalone module (raid6_pq) to prepare them to be called from async_tx wrappers and other non-md drivers/modules. This precludes a circular dependency of raid456 needing the async modules for data processing while those modules in turn depend on raid456 for the base level synchronous raid6 routines. To support this move: 1/ The exportable definitions in raid6.h move to include/linux/raid/pq.h 2/ The raid6_call, recovery calls, and table symbols are exported 3/ Extra #ifdef __KERNEL__ statements to enable the userspace raid6test to compile Signed-off-by: Dan Williams <dan.j.williams@intel.com> Signed-off-by: NeilBrown <neilb@suse.de>
125 lines
2.6 KiB
C
125 lines
2.6 KiB
C
/* -*- linux-c -*- ------------------------------------------------------- *
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*
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* Copyright 2002-2007 H. Peter Anvin - All Rights Reserved
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*
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* This file is part of the Linux kernel, and is made available under
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* the terms of the GNU General Public License version 2 or (at your
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* option) any later version; incorporated herein by reference.
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*
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* ----------------------------------------------------------------------- */
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/*
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* raid6test.c
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*
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* Test RAID-6 recovery with various algorithms
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <linux/raid/pq.h>
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#define NDISKS 16 /* Including P and Q */
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const char raid6_empty_zero_page[PAGE_SIZE] __attribute__((aligned(256)));
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struct raid6_calls raid6_call;
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char *dataptrs[NDISKS];
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char data[NDISKS][PAGE_SIZE];
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char recovi[PAGE_SIZE], recovj[PAGE_SIZE];
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static void makedata(void)
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{
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int i, j;
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for (i = 0; i < NDISKS; i++) {
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for (j = 0; j < PAGE_SIZE; j++)
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data[i][j] = rand();
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dataptrs[i] = data[i];
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}
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}
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static char disk_type(int d)
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{
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switch (d) {
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case NDISKS-2:
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return 'P';
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case NDISKS-1:
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return 'Q';
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default:
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return 'D';
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}
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}
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static int test_disks(int i, int j)
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{
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int erra, errb;
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memset(recovi, 0xf0, PAGE_SIZE);
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memset(recovj, 0xba, PAGE_SIZE);
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dataptrs[i] = recovi;
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dataptrs[j] = recovj;
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raid6_dual_recov(NDISKS, PAGE_SIZE, i, j, (void **)&dataptrs);
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erra = memcmp(data[i], recovi, PAGE_SIZE);
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errb = memcmp(data[j], recovj, PAGE_SIZE);
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if (i < NDISKS-2 && j == NDISKS-1) {
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/* We don't implement the DQ failure scenario, since it's
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equivalent to a RAID-5 failure (XOR, then recompute Q) */
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erra = errb = 0;
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} else {
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printf("algo=%-8s faila=%3d(%c) failb=%3d(%c) %s\n",
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raid6_call.name,
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i, disk_type(i),
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j, disk_type(j),
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(!erra && !errb) ? "OK" :
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!erra ? "ERRB" :
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!errb ? "ERRA" : "ERRAB");
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}
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dataptrs[i] = data[i];
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dataptrs[j] = data[j];
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return erra || errb;
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}
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int main(int argc, char *argv[])
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{
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const struct raid6_calls *const *algo;
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int i, j;
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int err = 0;
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makedata();
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for (algo = raid6_algos; *algo; algo++) {
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if (!(*algo)->valid || (*algo)->valid()) {
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raid6_call = **algo;
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/* Nuke syndromes */
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memset(data[NDISKS-2], 0xee, 2*PAGE_SIZE);
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/* Generate assumed good syndrome */
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raid6_call.gen_syndrome(NDISKS, PAGE_SIZE,
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(void **)&dataptrs);
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for (i = 0; i < NDISKS-1; i++)
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for (j = i+1; j < NDISKS; j++)
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err += test_disks(i, j);
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}
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printf("\n");
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}
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printf("\n");
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/* Pick the best algorithm test */
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raid6_select_algo();
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if (err)
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printf("\n*** ERRORS FOUND ***\n");
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return err;
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}
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