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|
/* $OpenBSD: softraid_raidp.c,v 1.35 2013/03/29 12:00:59 jsing Exp $ */
/*
* Copyright (c) 2009 Marco Peereboom <marco@peereboom.us>
* Copyright (c) 2009 Jordan Hargrave <jordan@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "bio.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/buf.h>
#include <sys/device.h>
#include <sys/ioctl.h>
#include <sys/proc.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
#include <sys/disk.h>
#include <sys/rwlock.h>
#include <sys/queue.h>
#include <sys/fcntl.h>
#include <sys/disklabel.h>
#include <sys/mount.h>
#include <sys/sensors.h>
#include <sys/stat.h>
#include <sys/conf.h>
#include <sys/uio.h>
#include <scsi/scsi_all.h>
#include <scsi/scsiconf.h>
#include <scsi/scsi_disk.h>
#include <dev/softraidvar.h>
#include <dev/rndvar.h>
/* RAID P functions. */
int sr_raidp_create(struct sr_discipline *, struct bioc_createraid *,
int, int64_t);
int sr_raidp_assemble(struct sr_discipline *, struct bioc_createraid *,
int, void *);
int sr_raidp_alloc_resources(struct sr_discipline *);
int sr_raidp_free_resources(struct sr_discipline *);
int sr_raidp_rw(struct sr_workunit *);
int sr_raidp_openings(struct sr_discipline *);
void sr_raidp_intr(struct buf *);
void sr_raidp_set_chunk_state(struct sr_discipline *, int, int);
void sr_raidp_set_vol_state(struct sr_discipline *);
void sr_raidp_xor(void *, void *, int);
int sr_raidp_addio(struct sr_workunit *wu, int, daddr64_t, daddr64_t,
void *, int, int, void *);
void sr_dump(void *, int);
void sr_raidp_scrub(struct sr_discipline *);
void *sr_get_block(struct sr_discipline *, int);
void sr_put_block(struct sr_discipline *, void *, int);
/* discipline initialisation. */
void
sr_raidp_discipline_init(struct sr_discipline *sd, u_int8_t type)
{
/* Fill out discipline members. */
sd->sd_type = type;
if (sd->sd_type == SR_MD_RAID4)
strlcpy(sd->sd_name, "RAID 4", sizeof(sd->sd_name));
else
strlcpy(sd->sd_name, "RAID 5", sizeof(sd->sd_name));
sd->sd_capabilities = SR_CAP_SYSTEM_DISK | SR_CAP_AUTO_ASSEMBLE |
SR_CAP_REDUNDANT;
sd->sd_max_ccb_per_wu = 4; /* only if stripsize <= MAXPHYS */
sd->sd_max_wu = SR_RAIDP_NOWU;
/* Setup discipline specific function pointers. */
sd->sd_alloc_resources = sr_raidp_alloc_resources;
sd->sd_assemble = sr_raidp_assemble;
sd->sd_create = sr_raidp_create;
sd->sd_free_resources = sr_raidp_free_resources;
sd->sd_openings = sr_raidp_openings;
sd->sd_scsi_rw = sr_raidp_rw;
sd->sd_scsi_intr = sr_raidp_intr;
sd->sd_set_chunk_state = sr_raidp_set_chunk_state;
sd->sd_set_vol_state = sr_raidp_set_vol_state;
}
int
sr_raidp_create(struct sr_discipline *sd, struct bioc_createraid *bc,
int no_chunk, int64_t coerced_size)
{
if (no_chunk < 3)
return EINVAL;
/*
* XXX add variable strip size later even though MAXPHYS is really
* the clever value, users like to tinker with that type of stuff.
*/
sd->sd_meta->ssdi.ssd_strip_size = MAXPHYS;
sd->sd_meta->ssdi.ssd_size = (coerced_size &
~((sd->sd_meta->ssdi.ssd_strip_size >> DEV_BSHIFT) - 1)) *
(no_chunk - 1);
return 0;
}
int
sr_raidp_assemble(struct sr_discipline *sd, struct bioc_createraid *bc,
int no_chunk, void *data)
{
return 0;
}
int
sr_raidp_openings(struct sr_discipline *sd)
{
return (sd->sd_max_wu >> 1); /* 2 wu's per IO */
}
int
sr_raidp_alloc_resources(struct sr_discipline *sd)
{
int rv = EINVAL;
DNPRINTF(SR_D_DIS, "%s: sr_raidp_alloc_resources\n",
DEVNAME(sd->sd_sc));
if (sr_wu_alloc(sd))
goto bad;
if (sr_ccb_alloc(sd))
goto bad;
/* setup runtime values */
sd->mds.mdd_raidp.srp_strip_bits =
sr_validate_stripsize(sd->sd_meta->ssdi.ssd_strip_size);
if (sd->mds.mdd_raidp.srp_strip_bits == -1)
goto bad;
rv = 0;
bad:
return (rv);
}
int
sr_raidp_free_resources(struct sr_discipline *sd)
{
int rv = EINVAL;
DNPRINTF(SR_D_DIS, "%s: sr_raidp_free_resources\n",
DEVNAME(sd->sd_sc));
sr_wu_free(sd);
sr_ccb_free(sd);
rv = 0;
return (rv);
}
void
sr_raidp_set_chunk_state(struct sr_discipline *sd, int c, int new_state)
{
int old_state, s;
DNPRINTF(SR_D_STATE, "%s: %s: %s: sr_raid_set_chunk_state %d -> %d\n",
DEVNAME(sd->sd_sc), sd->sd_meta->ssd_devname,
sd->sd_vol.sv_chunks[c]->src_meta.scmi.scm_devname, c, new_state);
/* ok to go to splbio since this only happens in error path */
s = splbio();
old_state = sd->sd_vol.sv_chunks[c]->src_meta.scm_status;
/* multiple IOs to the same chunk that fail will come through here */
if (old_state == new_state)
goto done;
switch (old_state) {
case BIOC_SDONLINE:
switch (new_state) {
case BIOC_SDOFFLINE:
case BIOC_SDSCRUB:
break;
default:
goto die;
}
break;
case BIOC_SDOFFLINE:
if (new_state == BIOC_SDREBUILD) {
;
} else
goto die;
break;
case BIOC_SDSCRUB:
switch (new_state) {
case BIOC_SDONLINE:
case BIOC_SDOFFLINE:
break;
default:
goto die;
}
break;
case BIOC_SDREBUILD:
switch (new_state) {
case BIOC_SDONLINE:
case BIOC_SDOFFLINE:
break;
default:
goto die;
}
break;
default:
die:
splx(s); /* XXX */
panic("%s: %s: %s: invalid chunk state transition "
"%d -> %d", DEVNAME(sd->sd_sc),
sd->sd_meta->ssd_devname,
sd->sd_vol.sv_chunks[c]->src_meta.scmi.scm_devname,
old_state, new_state);
/* NOTREACHED */
}
sd->sd_vol.sv_chunks[c]->src_meta.scm_status = new_state;
sd->sd_set_vol_state(sd);
sd->sd_must_flush = 1;
workq_add_task(NULL, 0, sr_meta_save_callback, sd, NULL);
done:
splx(s);
}
void
sr_raidp_set_vol_state(struct sr_discipline *sd)
{
int states[SR_MAX_STATES];
int new_state, i, s, nd;
int old_state = sd->sd_vol_status;
DNPRINTF(SR_D_STATE, "%s: %s: sr_raid_set_vol_state\n",
DEVNAME(sd->sd_sc), sd->sd_meta->ssd_devname);
nd = sd->sd_meta->ssdi.ssd_chunk_no;
for (i = 0; i < SR_MAX_STATES; i++)
states[i] = 0;
for (i = 0; i < nd; i++) {
s = sd->sd_vol.sv_chunks[i]->src_meta.scm_status;
if (s >= SR_MAX_STATES)
panic("%s: %s: %s: invalid chunk state",
DEVNAME(sd->sd_sc),
sd->sd_meta->ssd_devname,
sd->sd_vol.sv_chunks[i]->src_meta.scmi.scm_devname);
states[s]++;
}
if (states[BIOC_SDONLINE] == nd)
new_state = BIOC_SVONLINE;
else if (states[BIOC_SDONLINE] < nd - 1)
new_state = BIOC_SVOFFLINE;
else if (states[BIOC_SDSCRUB] != 0)
new_state = BIOC_SVSCRUB;
else if (states[BIOC_SDREBUILD] != 0)
new_state = BIOC_SVREBUILD;
else if (states[BIOC_SDONLINE] == nd - 1)
new_state = BIOC_SVDEGRADED;
else {
#ifdef SR_DEBUG
DNPRINTF(SR_D_STATE, "%s: invalid volume state, old state "
"was %d\n", DEVNAME(sd->sd_sc), old_state);
for (i = 0; i < nd; i++)
DNPRINTF(SR_D_STATE, "%s: chunk %d status = %d\n",
DEVNAME(sd->sd_sc), i,
sd->sd_vol.sv_chunks[i]->src_meta.scm_status);
#endif
panic("invalid volume state");
}
DNPRINTF(SR_D_STATE, "%s: %s: sr_raidp_set_vol_state %d -> %d\n",
DEVNAME(sd->sd_sc), sd->sd_meta->ssd_devname,
old_state, new_state);
switch (old_state) {
case BIOC_SVONLINE:
switch (new_state) {
case BIOC_SVONLINE: /* can go to same state */
case BIOC_SVDEGRADED:
case BIOC_SVREBUILD: /* happens on boot */
break;
default:
goto die;
}
break;
case BIOC_SVOFFLINE:
/* XXX this might be a little too much */
goto die;
case BIOC_SVSCRUB:
switch (new_state) {
case BIOC_SVONLINE:
case BIOC_SVOFFLINE:
case BIOC_SVDEGRADED:
case BIOC_SVSCRUB: /* can go to same state */
break;
default:
goto die;
}
break;
case BIOC_SVREBUILD:
switch (new_state) {
case BIOC_SVONLINE:
case BIOC_SVOFFLINE:
case BIOC_SVDEGRADED:
case BIOC_SVREBUILD: /* can go to the same state */
break;
default:
goto die;
}
break;
case BIOC_SVDEGRADED:
switch (new_state) {
case BIOC_SVOFFLINE:
case BIOC_SVREBUILD:
case BIOC_SVDEGRADED: /* can go to the same state */
break;
default:
goto die;
}
break;
default:
die:
panic("%s: %s: invalid volume state transition %d -> %d",
DEVNAME(sd->sd_sc), sd->sd_meta->ssd_devname,
old_state, new_state);
/* NOTREACHED */
}
sd->sd_vol_status = new_state;
}
int
sr_raidp_rw(struct sr_workunit *wu)
{
struct sr_workunit *wu_r = NULL;
struct sr_discipline *sd = wu->swu_dis;
struct scsi_xfer *xs = wu->swu_xs;
struct sr_chunk *scp;
int s, i;
daddr64_t blk, lbaoffs, strip_no, chunk, row_size;
daddr64_t strip_size, no_chunk, lba, chunk_offs, phys_offs;
daddr64_t strip_bits, length, parity, strip_offs, datalen;
void *xorbuf, *data;
/* blk and scsi error will be handled by sr_validate_io */
if (sr_validate_io(wu, &blk, "sr_raidp_rw"))
goto bad;
strip_size = sd->sd_meta->ssdi.ssd_strip_size;
strip_bits = sd->mds.mdd_raidp.srp_strip_bits;
no_chunk = sd->sd_meta->ssdi.ssd_chunk_no - 1;
row_size = (no_chunk << strip_bits) >> DEV_BSHIFT;
data = xs->data;
datalen = xs->datalen;
lbaoffs = blk << DEV_BSHIFT;
if (xs->flags & SCSI_DATA_OUT)
/* create write workunit */
if ((wu_r = scsi_io_get(&sd->sd_iopool, SCSI_NOSLEEP)) == NULL){
printf("%s: can't get wu_r", DEVNAME(sd->sd_sc));
goto bad;
}
wu->swu_blk_start = 0;
while (datalen != 0) {
strip_no = lbaoffs >> strip_bits;
strip_offs = lbaoffs & (strip_size - 1);
chunk_offs = (strip_no / no_chunk) << strip_bits;
phys_offs = chunk_offs + strip_offs +
(sd->sd_meta->ssd_data_offset << DEV_BSHIFT);
/* get size remaining in this stripe */
length = MIN(strip_size - strip_offs, datalen);
/* map disk offset to parity/data drive */
chunk = strip_no % no_chunk;
if (sd->sd_type == SR_MD_RAID4)
parity = no_chunk; /* RAID4: Parity is always drive N */
else {
/* RAID5: left asymmetric algorithm */
parity = no_chunk - ((strip_no / no_chunk) %
(no_chunk + 1));
if (chunk >= parity)
chunk++;
}
lba = phys_offs >> DEV_BSHIFT;
/* XXX big hammer.. exclude I/O from entire stripe */
if (wu->swu_blk_start == 0)
wu->swu_blk_start = (strip_no / no_chunk) * row_size;
wu->swu_blk_end = (strip_no / no_chunk) * row_size + (row_size - 1);
scp = sd->sd_vol.sv_chunks[chunk];
if (xs->flags & SCSI_DATA_IN) {
switch (scp->src_meta.scm_status) {
case BIOC_SDONLINE:
case BIOC_SDSCRUB:
/* drive is good. issue single read request */
if (sr_raidp_addio(wu, chunk, lba, length,
data, xs->flags, 0, NULL))
goto bad;
break;
case BIOC_SDOFFLINE:
case BIOC_SDREBUILD:
case BIOC_SDHOTSPARE:
/*
* XXX only works if this LBA has already
* been scrubbed
*/
printf("Disk %llx offline, "
"regenerating buffer\n", chunk);
memset(data, 0, length);
for (i = 0; i <= no_chunk; i++) {
/*
* read all other drives: xor result
* into databuffer.
*/
if (i != chunk) {
if (sr_raidp_addio(wu, i, lba,
length, NULL, SCSI_DATA_IN,
SR_CCBF_FREEBUF, data))
goto bad;
}
}
break;
default:
printf("%s: is offline, can't read\n",
DEVNAME(sd->sd_sc));
goto bad;
}
} else {
/* XXX handle writes to failed/offline disk? */
if (scp->src_meta.scm_status == BIOC_SDOFFLINE)
goto bad;
/*
* initialize XORBUF with contents of new data to be
* written. This will be XORed with old data and old
* parity in the intr routine. The result in xorbuf
* is the new parity data.
*/
xorbuf = sr_get_block(sd, length);
if (xorbuf == NULL)
goto bad;
memcpy(xorbuf, data, length);
/* xor old data */
if (sr_raidp_addio(wu_r, chunk, lba, length, NULL,
SCSI_DATA_IN, SR_CCBF_FREEBUF, xorbuf))
goto bad;
/* xor old parity */
if (sr_raidp_addio(wu_r, parity, lba, length, NULL,
SCSI_DATA_IN, SR_CCBF_FREEBUF, xorbuf))
goto bad;
/* write new data */
if (sr_raidp_addio(wu, chunk, lba, length, data,
xs->flags, 0, NULL))
goto bad;
/* write new parity */
if (sr_raidp_addio(wu, parity, lba, length, xorbuf,
xs->flags, SR_CCBF_FREEBUF, NULL))
goto bad;
}
/* advance to next block */
lbaoffs += length;
datalen -= length;
data += length;
}
s = splbio();
if (wu_r) {
/* collide write request with reads */
wu_r->swu_blk_start = wu->swu_blk_start;
wu_r->swu_blk_end = wu->swu_blk_end;
wu->swu_state = SR_WU_DEFERRED;
wu_r->swu_collider = wu;
TAILQ_INSERT_TAIL(&sd->sd_wu_defq, wu, swu_link);
wu = wu_r;
}
/* rebuild io, let rebuild routine deal with it */
if (wu->swu_flags & SR_WUF_REBUILD)
goto queued;
/* current io failed, restart */
if (wu->swu_state == SR_WU_RESTART)
goto start;
/* deferred io failed, don't restart */
if (wu->swu_state == SR_WU_REQUEUE)
goto queued;
if (sr_check_io_collision(wu))
goto queued;
start:
sr_raid_startwu(wu);
queued:
splx(s);
return (0);
bad:
/* wu is unwound by sr_wu_put */
if (wu_r)
scsi_io_put(&sd->sd_iopool, wu_r);
return (1);
}
void
sr_raidp_intr(struct buf *bp)
{
struct sr_ccb *ccb = (struct sr_ccb *)bp;
struct sr_workunit *wu = ccb->ccb_wu, *wup;
struct sr_discipline *sd = wu->swu_dis;
struct scsi_xfer *xs = wu->swu_xs;
struct sr_softc *sc = sd->sd_sc;
int s;
DNPRINTF(SR_D_INTR, "%s: sr_intr bp %p xs %p\n",
DEVNAME(sc), bp, xs);
DNPRINTF(SR_D_INTR, "%s: sr_intr: b_bcount: %d b_resid: %d"
" b_flags: 0x%0x block: %lld target: %d\n", DEVNAME(sc),
ccb->ccb_buf.b_bcount, ccb->ccb_buf.b_resid, ccb->ccb_buf.b_flags,
ccb->ccb_buf.b_blkno, ccb->ccb_target);
s = splbio();
if (ccb->ccb_buf.b_flags & B_ERROR) {
DNPRINTF(SR_D_INTR, "%s: i/o error on block %lld target: %d\n",
DEVNAME(sc), ccb->ccb_buf.b_blkno, ccb->ccb_target);
printf("io error: disk %x\n", ccb->ccb_target);
wu->swu_ios_failed++;
ccb->ccb_state = SR_CCB_FAILED;
if (ccb->ccb_target != -1)
sd->sd_set_chunk_state(sd, ccb->ccb_target,
BIOC_SDOFFLINE);
else
panic("%s: invalid target on wu: %p", DEVNAME(sc), wu);
} else {
ccb->ccb_state = SR_CCB_OK;
wu->swu_ios_succeeded++;
/* XOR data to result */
if (ccb->ccb_opaque)
sr_raidp_xor(ccb->ccb_opaque, ccb->ccb_buf.b_data,
ccb->ccb_buf.b_bcount);
}
/* free allocated data buffer */
if (ccb->ccb_flag & SR_CCBF_FREEBUF) {
sr_put_block(sd, ccb->ccb_buf.b_data, ccb->ccb_buf.b_bcount);
ccb->ccb_buf.b_data = NULL;
}
wu->swu_ios_complete++;
DNPRINTF(SR_D_INTR, "%s: sr_intr: comp: %d count: %d failed: %d\n",
DEVNAME(sc), wu->swu_ios_complete, wu->swu_io_count,
wu->swu_ios_failed);
if (wu->swu_ios_complete < wu->swu_io_count)
goto done;
if (xs != NULL)
xs->error = XS_NOERROR;
/* if all ios failed, retry reads and give up on writes */
if (wu->swu_ios_failed == wu->swu_ios_complete) {
/* XXX xs could be NULL here. */
if (xs->flags & SCSI_DATA_IN) {
printf("%s: retrying read on block %lld\n",
DEVNAME(sc), ccb->ccb_buf.b_blkno);
sr_ccb_put(ccb);
TAILQ_INIT(&wu->swu_ccb);
wu->swu_state = SR_WU_RESTART;
if (sd->sd_scsi_rw(wu) == 0)
goto done;
xs->error = XS_DRIVER_STUFFUP;
} else {
printf("%s: permanently fail write on block %lld\n",
DEVNAME(sc), ccb->ccb_buf.b_blkno);
xs->error = XS_DRIVER_STUFFUP;
}
}
TAILQ_FOREACH(wup, &sd->sd_wu_pendq, swu_link)
if (wu == wup)
break;
if (wup == NULL)
panic("%s: wu %p not on pending queue",
DEVNAME(sd->sd_sc), wu);
TAILQ_REMOVE(&sd->sd_wu_pendq, wu, swu_link);
if (wu->swu_collider) {
if (wu->swu_ios_failed)
sr_raid_recreate_wu(wu->swu_collider);
/* XXX Should the collider be failed if this xs failed? */
/* restart deferred wu */
wu->swu_collider->swu_state = SR_WU_INPROGRESS;
TAILQ_REMOVE(&sd->sd_wu_defq, wu->swu_collider, swu_link);
sr_raid_startwu(wu->swu_collider);
}
if (wu->swu_flags & SR_WUF_REBUILD)
wu->swu_flags |= SR_WUF_REBUILDIOCOMP;
if (wu->swu_flags & SR_WUF_WAKEUP)
wakeup(wu);
if (!(wu->swu_flags & SR_WUF_REBUILD)) {
if (xs == NULL) {
scsi_io_put(&sd->sd_iopool, wu);
if (sd->sd_sync && sd->sd_wu_pending == 0)
wakeup(sd);
} else {
sr_scsi_done(sd, xs);
}
}
done:
splx(s);
}
int
sr_raidp_addio(struct sr_workunit *wu, int dsk, daddr64_t blk, daddr64_t len,
void *data, int flag, int ccbflag, void *xorbuf)
{
struct sr_discipline *sd = wu->swu_dis;
struct sr_ccb *ccb;
ccb = sr_ccb_get(sd);
if (!ccb)
return (-1);
/* allocate temporary buffer */
if (data == NULL) {
data = sr_get_block(sd, len);
if (data == NULL)
return (-1);
}
DNPRINTF(0, "%sio: %d.%llx %llx %s\n",
flag & SCSI_DATA_IN ? "read" : "write",
dsk, blk, len,
xorbuf ? "X0R" : "-");
ccb->ccb_flag = ccbflag;
if (flag & SCSI_POLL) {
ccb->ccb_buf.b_flags = 0;
ccb->ccb_buf.b_iodone = NULL;
} else {
ccb->ccb_buf.b_flags = B_CALL;
ccb->ccb_buf.b_iodone = sr_raidp_intr;
}
if (flag & SCSI_DATA_IN)
ccb->ccb_buf.b_flags |= B_READ;
else
ccb->ccb_buf.b_flags |= B_WRITE;
/* add offset for metadata */
ccb->ccb_buf.b_flags |= B_PHYS;
ccb->ccb_buf.b_blkno = blk;
ccb->ccb_buf.b_bcount = len;
ccb->ccb_buf.b_bufsize = len;
ccb->ccb_buf.b_resid = len;
ccb->ccb_buf.b_data = data;
ccb->ccb_buf.b_error = 0;
ccb->ccb_buf.b_proc = curproc;
ccb->ccb_buf.b_dev = sd->sd_vol.sv_chunks[dsk]->src_dev_mm;
ccb->ccb_buf.b_vp = sd->sd_vol.sv_chunks[dsk]->src_vn;
ccb->ccb_buf.b_bq = NULL;
if ((ccb->ccb_buf.b_flags & B_READ) == 0)
ccb->ccb_buf.b_vp->v_numoutput++;
ccb->ccb_wu = wu;
ccb->ccb_target = dsk;
ccb->ccb_opaque = xorbuf;
LIST_INIT(&ccb->ccb_buf.b_dep);
TAILQ_INSERT_TAIL(&wu->swu_ccb, ccb, ccb_link);
DNPRINTF(SR_D_DIS, "%s: %s: sr_raidp: b_bcount: %d "
"b_blkno: %x b_flags 0x%0x b_data %p\n",
DEVNAME(sd->sd_sc), sd->sd_meta->ssd_devname,
ccb->ccb_buf.b_bcount, ccb->ccb_buf.b_blkno,
ccb->ccb_buf.b_flags, ccb->ccb_buf.b_data);
wu->swu_io_count++;
return (0);
}
void
sr_dump(void *blk, int len)
{
uint8_t *b = blk;
int i, j, c;
for (i = 0; i < len; i += 16) {
for (j = 0; j < 16; j++)
printf("%.2x ", b[i + j]);
printf(" ");
for (j = 0; j < 16; j++) {
c = b[i + j];
if (c < ' ' || c > 'z' || i + j > len)
c = '.';
printf("%c", c);
}
printf("\n");
}
}
void
sr_raidp_xor(void *a, void *b, int len)
{
uint32_t *xa = a, *xb = b;
len >>= 2;
while (len--)
*xa++ ^= *xb++;
}
#if 0
void
sr_raidp_scrub(struct sr_discipline *sd)
{
daddr64_t strip_no, strip_size, no_chunk, parity, max_strip, strip_bits;
daddr64_t i;
struct sr_workunit *wu_r, *wu_w;
int s, slept;
void *xorbuf;
if ((wu_w = scsi_io_get(&sd->sd_iopool, 0)) == NULL)
goto done;
if ((wu_r = scsi_io_get(&sd->sd_iopool, 0)) == NULL)
goto done;
no_chunk = sd->sd_meta->ssdi.ssd_chunk_no - 1;
strip_size = sd->sd_meta->ssdi.ssd_strip_size;
strip_bits = sd->mds.mdd_raidp.srp_strip_bits;
max_strip = sd->sd_meta->ssdi.ssd_size >> strip_bits;
for (strip_no = 0; strip_no < max_strip; strip_no++) {
if (sd->sd_type == SR_MD_RAID4)
parity = no_chunk;
else
parity = no_chunk - ((strip_no / no_chunk) %
(no_chunk + 1));
xorbuf = sr_get_block(sd, strip_size);
for (i = 0; i <= no_chunk; i++) {
if (i != parity)
sr_raidp_addio(wu_r, i, 0xBADCAFE, strip_size,
NULL, SCSI_DATA_IN, SR_CCBF_FREEBUF,
xorbuf);
}
sr_raidp_addio(wu_w, parity, 0xBADCAFE, strip_size, xorbuf,
SCSI_DATA_OUT, SR_CCBF_FREEBUF, NULL);
wu_r->swu_flags |= SR_WUF_REBUILD;
/* Collide wu_w with wu_r */
wu_w->swu_state = SR_WU_DEFERRED;
wu_w->swu_flags |= SR_WUF_REBUILD | SR_WUF_WAKEUP;
wu_r->swu_collider = wu_w;
s = splbio();
TAILQ_INSERT_TAIL(&sd->sd_wu_defq, wu_w, swu_link);
if (sr_check_io_collision(wu_r))
goto queued;
sr_raid_startwu(wu_r);
queued:
splx(s);
slept = 0;
while ((wu_w->swu_flags & SR_WUF_REBUILDIOCOMP) == 0) {
tsleep(wu_w, PRIBIO, "sr_scrub", 0);
slept = 1;
}
if (!slept)
tsleep(sd->sd_sc, PWAIT, "sr_yield", 1);
}
done:
return;
}
#endif
void *
sr_get_block(struct sr_discipline *sd, int length)
{
return dma_alloc(length, PR_NOWAIT | PR_ZERO);
}
void
sr_put_block(struct sr_discipline *sd, void *ptr, int length)
{
dma_free(ptr, length);
}
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