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|
/* $OpenBSD: subr_disk.c,v 1.273 2024/10/30 06:16:27 jsg Exp $ */
/* $NetBSD: subr_disk.c,v 1.17 1996/03/16 23:17:08 christos Exp $ */
/*
* Copyright (c) 1995 Jason R. Thorpe. All rights reserved.
* Copyright (c) 1982, 1986, 1988, 1993
* The Regents of the University of California. All rights reserved.
* (c) UNIX System Laboratories, Inc.
* All or some portions of this file are derived from material licensed
* to the University of California by American Telephone and Telegraph
* Co. or Unix System Laboratories, Inc. and are reproduced herein with
* the permission of UNIX System Laboratories, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)ufs_disksubr.c 8.5 (Berkeley) 1/21/94
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/fcntl.h>
#include <sys/buf.h>
#include <sys/stat.h>
#include <sys/syslog.h>
#include <sys/device.h>
#include <sys/time.h>
#include <sys/disklabel.h>
#include <sys/conf.h>
#include <sys/disk.h>
#include <sys/reboot.h>
#include <sys/dkio.h>
#include <sys/vnode.h>
#include <sys/task.h>
#include <sys/stdint.h>
#include <sys/socket.h>
#include <net/if.h>
#include <dev/cons.h>
#include <lib/libz/zlib.h>
#include "softraid.h"
#ifdef DEBUG
#define DPRINTF(x...) printf(x)
#else
#define DPRINTF(x...)
#endif
/*
* A global list of all disks attached to the system. May grow or
* shrink over time.
*/
struct disklist_head disklist; /* TAILQ_HEAD */
int disk_count; /* number of drives in global disklist */
int disk_change; /* set if a disk has been attached/detached
* since last we looked at this variable. This
* is reset by hw_sysctl()
*/
#define DUID_SIZE 8
u_char bootduid[DUID_SIZE]; /* DUID of boot disk. */
u_char rootduid[DUID_SIZE]; /* DUID of root disk. */
struct device *rootdv;
/* softraid callback, do not use! */
void (*softraid_disk_attach)(struct disk *, int);
void sr_map_root(void);
struct disk_attach_task {
struct task task;
struct disk *dk;
};
void disk_attach_callback(void *);
int spoofgpt(struct buf *, void (*)(struct buf *), const uint8_t *,
struct disklabel *, daddr_t *);
void spoofmbr(struct buf *, void (*)(struct buf *), const uint8_t *,
struct disklabel *, daddr_t *);
void spooffat(const uint8_t *, struct disklabel *, daddr_t *);
int gpt_chk_mbr(struct dos_partition *, uint64_t);
int gpt_get_hdr(struct buf *, void (*)(struct buf *), struct disklabel *,
uint64_t, struct gpt_header *);
int gpt_get_parts(struct buf *, void (*)(struct buf *),
struct disklabel *, const struct gpt_header *, struct gpt_partition **);
int gpt_get_fstype(const struct uuid *);
int mbr_get_fstype(const uint8_t);
int duid_equal(u_char *, u_char *);
/*
* Compute checksum for disk label.
*/
u_int
dkcksum(struct disklabel *lp)
{
u_int16_t *start, *end;
u_int16_t sum = 0;
start = (u_int16_t *)lp;
end = (u_int16_t *)&lp->d_partitions[lp->d_npartitions];
while (start < end)
sum ^= *start++;
return (sum);
}
int
initdisklabel(struct disklabel *lp)
{
int i;
/* minimal requirements for archetypal disk label */
if (lp->d_secsize < DEV_BSIZE)
lp->d_secsize = DEV_BSIZE;
if (DL_GETDSIZE(lp) == 0)
DL_SETDSIZE(lp, MAXDISKSIZE);
if (lp->d_secpercyl == 0)
return (ERANGE);
lp->d_npartitions = MAXPARTITIONS;
for (i = 0; i < RAW_PART; i++) {
DL_SETPSIZE(&lp->d_partitions[i], 0);
DL_SETPOFFSET(&lp->d_partitions[i], 0);
}
if (DL_GETPSIZE(&lp->d_partitions[RAW_PART]) == 0)
DL_SETPSIZE(&lp->d_partitions[RAW_PART], DL_GETDSIZE(lp));
DL_SETPOFFSET(&lp->d_partitions[RAW_PART], 0);
DL_SETBSTART(lp, 0);
DL_SETBEND(lp, DL_GETDSIZE(lp));
lp->d_version = 1;
return (0);
}
/*
* Check an incoming block to make sure it is a disklabel, convert it to
* a newer version if needed, etc etc.
*/
int
checkdisklabel(dev_t dev, void *rlp, struct disklabel *lp, u_int64_t boundstart,
u_int64_t boundend)
{
struct disklabel *dlp = rlp;
struct __partitionv0 *v0pp;
struct partition *pp;
const char *blkname;
u_int64_t disksize;
int error = 0;
int i;
if (dlp->d_magic != DISKMAGIC || dlp->d_magic2 != DISKMAGIC)
error = ENOENT; /* no disk label */
else if (dlp->d_npartitions > MAXPARTITIONS)
error = E2BIG; /* too many partitions */
else if (dlp->d_secpercyl == 0)
error = EINVAL; /* invalid label */
else if (dlp->d_secsize == 0)
error = ENOSPC; /* disk too small */
else if (dkcksum(dlp) != 0)
error = EINVAL; /* incorrect checksum */
if (error) {
u_int16_t *start, *end, sum = 0;
/* If it is byte-swapped, attempt to convert it */
if (swap32(dlp->d_magic) != DISKMAGIC ||
swap32(dlp->d_magic2) != DISKMAGIC ||
swap16(dlp->d_npartitions) > MAXPARTITIONS)
return (error);
/*
* Need a byte-swap aware dkcksum variant
* inlined, because dkcksum uses a sub-field
*/
start = (u_int16_t *)dlp;
end = (u_int16_t *)&dlp->d_partitions[
swap16(dlp->d_npartitions)];
while (start < end)
sum ^= *start++;
if (sum != 0)
return (error);
dlp->d_magic = swap32(dlp->d_magic);
dlp->d_type = swap16(dlp->d_type);
/* d_typename and d_packname are strings */
dlp->d_secsize = swap32(dlp->d_secsize);
dlp->d_nsectors = swap32(dlp->d_nsectors);
dlp->d_ntracks = swap32(dlp->d_ntracks);
dlp->d_ncylinders = swap32(dlp->d_ncylinders);
dlp->d_secpercyl = swap32(dlp->d_secpercyl);
dlp->d_secperunit = swap32(dlp->d_secperunit);
/* d_uid is a string */
dlp->d_acylinders = swap32(dlp->d_acylinders);
dlp->d_flags = swap32(dlp->d_flags);
dlp->d_secperunith = swap16(dlp->d_secperunith);
dlp->d_version = swap16(dlp->d_version);
for (i = 0; i < NSPARE; i++)
dlp->d_spare[i] = swap32(dlp->d_spare[i]);
dlp->d_magic2 = swap32(dlp->d_magic2);
dlp->d_npartitions = swap16(dlp->d_npartitions);
for (i = 0; i < MAXPARTITIONS; i++) {
pp = &dlp->d_partitions[i];
pp->p_size = swap32(pp->p_size);
pp->p_offset = swap32(pp->p_offset);
if (dlp->d_version == 0) {
v0pp = (struct __partitionv0 *)pp;
v0pp->p_fsize = swap32(v0pp->p_fsize);
} else {
pp->p_offseth = swap16(pp->p_offseth);
pp->p_sizeh = swap16(pp->p_sizeh);
}
pp->p_cpg = swap16(pp->p_cpg);
}
dlp->d_checksum = 0;
dlp->d_checksum = dkcksum(dlp);
error = 0;
}
/* XXX should verify lots of other fields and whine a lot */
/* Initial passed in lp contains the real disk size. */
disksize = DL_GETDSIZE(lp);
if (lp != dlp)
*lp = *dlp;
if (lp->d_version == 0) {
blkname = findblkname(major(dev));
if (blkname == NULL)
blkname = findblkname(major(chrtoblk(dev)));
printf("%s%d has legacy label, please rewrite using "
"disklabel(8)\n", blkname, DISKUNIT(dev));
lp->d_version = 1;
lp->d_secperunith = 0;
v0pp = (struct __partitionv0 *)lp->d_partitions;
pp = lp->d_partitions;
for (i = 0; i < lp->d_npartitions; i++, pp++, v0pp++) {
pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(v0pp->
p_fsize, v0pp->p_frag);
pp->p_offseth = 0;
pp->p_sizeh = 0;
}
}
#ifdef DEBUG
if (DL_GETDSIZE(lp) != disksize)
printf("on-disk disklabel has incorrect disksize (%llu)\n",
DL_GETDSIZE(lp));
if (DL_GETPSIZE(&lp->d_partitions[RAW_PART]) != disksize)
printf("on-disk disklabel RAW_PART has incorrect size (%llu)\n",
DL_GETPSIZE(&lp->d_partitions[RAW_PART]));
if (DL_GETPOFFSET(&lp->d_partitions[RAW_PART]) != 0)
printf("on-disk disklabel RAW_PART offset != 0 (%llu)\n",
DL_GETPOFFSET(&lp->d_partitions[RAW_PART]));
#endif
DL_SETDSIZE(lp, disksize);
DL_SETPSIZE(&lp->d_partitions[RAW_PART], disksize);
DL_SETPOFFSET(&lp->d_partitions[RAW_PART], 0);
DL_SETBSTART(lp, boundstart);
DL_SETBEND(lp, boundend < DL_GETDSIZE(lp) ? boundend : DL_GETDSIZE(lp));
lp->d_checksum = 0;
lp->d_checksum = dkcksum(lp);
return (0);
}
/*
* Read a disk sector.
*/
int
readdisksector(struct buf *bp, void (*strat)(struct buf *),
struct disklabel *lp, u_int64_t sector)
{
bp->b_blkno = DL_SECTOBLK(lp, sector);
bp->b_bcount = lp->d_secsize;
bp->b_error = 0;
CLR(bp->b_flags, B_READ | B_WRITE | B_DONE | B_ERROR);
SET(bp->b_flags, B_BUSY | B_READ | B_RAW);
(*strat)(bp);
return (biowait(bp));
}
int
readdoslabel(struct buf *bp, void (*strat)(struct buf *), struct disklabel *lp,
daddr_t *partoffp, int spoofonly)
{
uint8_t dosbb[DEV_BSIZE];
struct disklabel nlp;
struct disklabel *rlp;
daddr_t partoff;
int error;
#ifdef DEBUG
char devname[32];
const char *blkname;
blkname = findblkname(major(bp->b_dev));
if (blkname == NULL)
blkname = findblkname(major(chrtoblk(bp->b_dev)));
if (blkname == NULL)
snprintf(devname, sizeof(devname), "<%d, %d>", major(bp->b_dev),
minor(bp->b_dev));
else
snprintf(devname, sizeof(devname), "%s%d", blkname,
DISKUNIT(bp->b_dev));
printf("readdoslabel enter: %s, spoofonly %d, partoffp %sNULL\n",
devname, spoofonly, (partoffp == NULL) ? "" : "not ");
#endif /* DEBUG */
error = readdisksector(bp, strat, lp, DOSBBSECTOR);
if (error) {
DPRINTF("readdoslabel return: %s, %d -- lp unchanged, "
"DOSBBSECTOR read error\n", devname, error);
return error;
}
memcpy(dosbb, bp->b_data, sizeof(dosbb));
nlp = *lp;
memset(nlp.d_partitions, 0, sizeof(nlp.d_partitions));
nlp.d_partitions[RAW_PART] = lp->d_partitions[RAW_PART];
nlp.d_magic = 0;
error = spoofgpt(bp, strat, dosbb, &nlp, &partoff);
if (error)
return error;
if (nlp.d_magic != DISKMAGIC)
spoofmbr(bp, strat, dosbb, &nlp, &partoff);
if (nlp.d_magic != DISKMAGIC)
spooffat(dosbb, &nlp, &partoff);
if (nlp.d_magic != DISKMAGIC) {
DPRINTF("readdoslabel: N/A -- label partition @ "
"daddr_t 0 (default)\n");
partoff = 0;
}
if (partoffp != NULL) {
/*
* If a non-zero value is returned writedisklabel() exits with
* EIO. If 0 is returned the label sector is read from disk and
* lp is copied into it. So leave lp alone!
*/
if (partoff == -1) {
DPRINTF("readdoslabel return: %s, ENXIO, lp "
"unchanged, *partoffp unchanged\n", devname);
return ENXIO;
}
*partoffp = partoff;
DPRINTF("readdoslabel return: %s, 0, lp unchanged, "
"*partoffp set to %lld\n", devname, *partoffp);
return 0;
}
nlp.d_magic = lp->d_magic;
*lp = nlp;
lp->d_checksum = 0;
lp->d_checksum = dkcksum(lp);
if (spoofonly || partoff == -1) {
DPRINTF("readdoslabel return: %s, 0, lp spoofed\n",
devname);
return 0;
}
partoff += DOS_LABELSECTOR;
error = readdisksector(bp, strat, lp, DL_BLKTOSEC(lp, partoff));
if (error) {
DPRINTF("readdoslabel return: %s, %d, lp read failed\n",
devname, error);
return bp->b_error;
}
rlp = (struct disklabel *)(bp->b_data + DL_BLKOFFSET(lp, partoff));
error = checkdisklabel(bp->b_dev, rlp, lp, DL_GETBSTART(rlp),
DL_GETBEND(rlp));
DPRINTF("readdoslabel return: %s, %d, checkdisklabel() of daddr_t "
"%lld %s\n", devname, error, partoff, error ? "failed" : "ok");
return error;
}
/*
* Return the index into dp[] of the EFI GPT (0xEE) partition, or -1 if no such
* partition exists.
*
* Copied into sbin/fdisk/mbr.c.
*/
int
gpt_chk_mbr(struct dos_partition *dp, uint64_t dsize)
{
struct dos_partition *dp2;
int efi, eficnt, found, i;
uint32_t psize;
found = efi = eficnt = 0;
for (dp2 = dp, i = 0; i < NDOSPART; i++, dp2++) {
if (dp2->dp_typ == DOSPTYP_UNUSED)
continue;
found++;
if (dp2->dp_typ != DOSPTYP_EFI)
continue;
if (letoh32(dp2->dp_start) != GPTSECTOR)
continue;
psize = letoh32(dp2->dp_size);
if (psize <= (dsize - GPTSECTOR) || psize == UINT32_MAX) {
efi = i;
eficnt++;
}
}
if (found == 1 && eficnt == 1)
return (efi);
return (-1);
}
int
gpt_get_hdr(struct buf *bp, void (*strat)(struct buf *), struct disklabel *lp,
uint64_t sector, struct gpt_header *gh)
{
struct gpt_header ngh;
int error;
uint64_t lbaend, lbastart;
uint32_t csum;
uint32_t size, partsize;
error = readdisksector(bp, strat, lp, sector);
if (error)
return error;
memcpy(&ngh, bp->b_data, sizeof(ngh));
size = letoh32(ngh.gh_size);
partsize = letoh32(ngh.gh_part_size);
lbaend = letoh64(ngh.gh_lba_end);
lbastart = letoh64(ngh.gh_lba_start);
csum = ngh.gh_csum;
ngh.gh_csum = 0;
ngh.gh_csum = htole32(crc32(0, (unsigned char *)&ngh, GPTMINHDRSIZE));
if (letoh64(ngh.gh_sig) == GPTSIGNATURE &&
letoh32(ngh.gh_rev) == GPTREVISION &&
size == GPTMINHDRSIZE && lbastart <= lbaend &&
partsize == GPTMINPARTSIZE && lp->d_secsize % partsize == 0 &&
csum == ngh.gh_csum)
*gh = ngh;
else
memset(gh, 0, sizeof(*gh));
return 0;
}
int
gpt_get_parts(struct buf *bp, void (*strat)(struct buf *), struct disklabel *lp,
const struct gpt_header *gh, struct gpt_partition **gp)
{
uint8_t *ngp;
int error, i;
uint64_t bytes, partlba, sectors;
uint32_t partnum, partsize, partcsum;
partlba = letoh64(gh->gh_part_lba);
partnum = letoh32(gh->gh_part_num);
partsize = letoh32(gh->gh_part_size);
sectors = ((uint64_t)partnum * partsize + lp->d_secsize - 1) /
lp->d_secsize;
ngp = mallocarray(sectors, lp->d_secsize, M_DEVBUF, M_NOWAIT | M_ZERO);
if (ngp == NULL) {
*gp = NULL;
return ENOMEM;
}
bytes = sectors * lp->d_secsize;
for (i = 0; i < sectors; i++) {
error = readdisksector(bp, strat, lp, partlba + i);
if (error) {
free(ngp, M_DEVBUF, bytes);
*gp = NULL;
return error;
}
memcpy(ngp + i * lp->d_secsize, bp->b_data, lp->d_secsize);
}
partcsum = htole32(crc32(0, ngp, partnum * partsize));
if (partcsum != gh->gh_part_csum) {
DPRINTF("invalid %s GPT partition array @ %llu\n",
(letoh64(gh->gh_lba_self) == GPTSECTOR) ? "Primary" :
"Secondary", partlba);
free(ngp, M_DEVBUF, bytes);
*gp = NULL;
} else {
*gp = (struct gpt_partition *)ngp;
}
return 0;
}
int
gpt_get_fstype(const struct uuid *uuid_part)
{
static int init = 0;
static struct uuid uuid_openbsd, uuid_msdos, uuid_chromefs,
uuid_linux, uuid_hfs, uuid_unused, uuid_efi_system, uuid_bios_boot;
static const uint8_t gpt_uuid_openbsd[] = GPT_UUID_OPENBSD;
static const uint8_t gpt_uuid_msdos[] = GPT_UUID_MSDOS;
static const uint8_t gpt_uuid_chromerootfs[] = GPT_UUID_CHROMEROOTFS;
static const uint8_t gpt_uuid_linux[] = GPT_UUID_LINUX;
static const uint8_t gpt_uuid_hfs[] = GPT_UUID_APPLE_HFS;
static const uint8_t gpt_uuid_unused[] = GPT_UUID_UNUSED;
static const uint8_t gpt_uuid_efi_system[] = GPT_UUID_EFI_SYSTEM;
static const uint8_t gpt_uuid_bios_boot[] = GPT_UUID_BIOS_BOOT;
if (init == 0) {
uuid_dec_be(gpt_uuid_openbsd, &uuid_openbsd);
uuid_dec_be(gpt_uuid_msdos, &uuid_msdos);
uuid_dec_be(gpt_uuid_chromerootfs, &uuid_chromefs);
uuid_dec_be(gpt_uuid_linux, &uuid_linux);
uuid_dec_be(gpt_uuid_hfs, &uuid_hfs);
uuid_dec_be(gpt_uuid_unused, &uuid_unused);
uuid_dec_be(gpt_uuid_efi_system, &uuid_efi_system);
uuid_dec_be(gpt_uuid_bios_boot, &uuid_bios_boot);
init = 1;
}
if (!memcmp(uuid_part, &uuid_unused, sizeof(struct uuid)))
return FS_UNUSED;
else if (!memcmp(uuid_part, &uuid_openbsd, sizeof(struct uuid)))
return FS_BSDFFS;
else if (!memcmp(uuid_part, &uuid_msdos, sizeof(struct uuid)))
return FS_MSDOS;
else if (!memcmp(uuid_part, &uuid_chromefs, sizeof(struct uuid)))
return FS_EXT2FS;
else if (!memcmp(uuid_part, &uuid_linux, sizeof(struct uuid)))
return FS_EXT2FS;
else if (!memcmp(uuid_part, &uuid_hfs, sizeof(struct uuid)))
return FS_HFS;
else if (!memcmp(uuid_part, &uuid_efi_system, sizeof(struct uuid)))
return FS_MSDOS;
else if (!memcmp(uuid_part, &uuid_bios_boot, sizeof(struct uuid)))
return FS_BOOT;
else
return FS_OTHER;
}
int
spoofgpt(struct buf *bp, void (*strat)(struct buf *), const uint8_t *dosbb,
struct disklabel *lp, daddr_t *partoffp)
{
struct dos_partition dp[NDOSPART];
struct gpt_header gh;
struct uuid gptype;
struct gpt_partition *gp;
struct partition *pp;
uint64_t lbaend, lbastart, labelsec;
uint64_t gpbytes, end, start;
daddr_t partoff;
unsigned int i, n;
int error, fstype, obsdfound;
uint32_t partnum;
uint16_t sig;
gp = NULL;
gpbytes = 0;
memcpy(dp, dosbb + DOSPARTOFF, sizeof(dp));
memcpy(&sig, dosbb + DOSMBR_SIGNATURE_OFF, sizeof(sig));
if (letoh16(sig) != DOSMBR_SIGNATURE ||
gpt_chk_mbr(dp, DL_GETDSIZE(lp)) == -1)
return 0;
error = gpt_get_hdr(bp, strat, lp, GPTSECTOR, &gh);
if (error == 0 && letoh64(gh.gh_sig) == GPTSIGNATURE)
error = gpt_get_parts(bp, strat, lp, &gh, &gp);
if (error || letoh64(gh.gh_sig) != GPTSIGNATURE || gp == NULL) {
error = gpt_get_hdr(bp, strat, lp, DL_GETDSIZE(lp) - 1, &gh);
if (error == 0 && letoh64(gh.gh_sig) == GPTSIGNATURE)
error = gpt_get_parts(bp, strat, lp, &gh, &gp);
}
if (error)
return error;
if (gp == NULL)
return ENXIO;
lbastart = letoh64(gh.gh_lba_start);
lbaend = letoh64(gh.gh_lba_end);
partnum = letoh32(gh.gh_part_num);
n = 'i' - 'a'; /* Start spoofing at 'i', a.k.a. 8. */
DL_SETBSTART(lp, lbastart);
DL_SETBEND(lp, lbaend + 1);
partoff = DL_SECTOBLK(lp, lbastart);
obsdfound = 0;
for (i = 0; i < partnum; i++) {
if (letoh64(gp[i].gp_attrs) & GPTPARTATTR_REQUIRED) {
DPRINTF("spoofgpt: Skipping partition %u (REQUIRED)\n",
i);
continue;
}
start = letoh64(gp[i].gp_lba_start);
if (start > lbaend || start < lbastart)
continue;
end = letoh64(gp[i].gp_lba_end);
if (start > end)
continue;
uuid_dec_le(&gp[i].gp_type, &gptype);
fstype = gpt_get_fstype(&gptype);
if (obsdfound && fstype == FS_BSDFFS)
continue;
if (fstype == FS_BSDFFS) {
obsdfound = 1;
partoff = DL_SECTOBLK(lp, start);
labelsec = DL_BLKTOSEC(lp, partoff + DOS_LABELSECTOR);
if (labelsec > ((end < lbaend) ? end : lbaend))
partoff = -1;
DL_SETBSTART(lp, start);
DL_SETBEND(lp, end + 1);
continue;
}
if (partoff != -1) {
labelsec = DL_BLKTOSEC(lp, partoff + DOS_LABELSECTOR);
if (labelsec >= start && labelsec <= end)
partoff = -1;
}
if (n < MAXPARTITIONS && end <= lbaend) {
pp = &lp->d_partitions[n];
n++;
pp->p_fstype = fstype;
DL_SETPOFFSET(pp, start);
DL_SETPSIZE(pp, end - start + 1);
}
}
lp->d_magic = DISKMAGIC;
*partoffp = partoff;
free(gp, M_DEVBUF, gpbytes);
#ifdef DEBUG
printf("readdoslabel: GPT -- ");
if (partoff == -1)
printf("no label partition\n");
else if (obsdfound == 0)
printf("label partition @ daddr_t %lld (free space)\n", partoff);
else
printf("label partition @ daddr_t %lld (A6)\n", partoff);
#endif /* DEBUG */
return 0;
}
int
mbr_get_fstype(const uint8_t dp_typ)
{
switch (dp_typ) {
case DOSPTYP_OPENBSD:
return FS_BSDFFS;
case DOSPTYP_UNUSED:
return FS_UNUSED;
case DOSPTYP_LINUX:
return FS_EXT2FS;
case DOSPTYP_NTFS:
return FS_NTFS;
case DOSPTYP_EFISYS:
case DOSPTYP_FAT12:
case DOSPTYP_FAT16S:
case DOSPTYP_FAT16B:
case DOSPTYP_FAT16L:
case DOSPTYP_FAT32:
case DOSPTYP_FAT32L:
return FS_MSDOS;
case DOSPTYP_EFI:
case DOSPTYP_EXTEND:
case DOSPTYP_EXTENDL:
default:
return FS_OTHER;
}
}
void
spoofmbr(struct buf *bp, void (*strat)(struct buf *), const uint8_t *dosbb,
struct disklabel *lp, daddr_t *partoffp)
{
struct dos_partition dp[NDOSPART];
struct partition *pp;
uint64_t sector = DOSBBSECTOR;
uint64_t start, end;
daddr_t labeloff, partoff;
unsigned int i, n, parts;
int wander = 1, ebr = 0;
int error, obsdfound;
uint32_t extoff = 0;
uint16_t sig;
uint8_t fstype;
memcpy(&sig, dosbb + DOSMBR_SIGNATURE_OFF, sizeof(sig));
if (letoh16(sig) != DOSMBR_SIGNATURE)
return;
memcpy(dp, dosbb + DOSPARTOFF, sizeof(dp));
obsdfound = 0;
partoff = 0;
parts = 0;
n = 'i' - 'a';
while (wander && ebr < DOS_MAXEBR) {
ebr++;
wander = 0;
if (sector < extoff)
sector = extoff;
error = 0;
if (sector != DOSBBSECTOR) {
error = readdisksector(bp, strat, lp, sector);
if (error)
break;
memcpy(&sig, bp->b_data + DOSMBR_SIGNATURE_OFF,
sizeof(sig));
if (letoh16(sig) != DOSMBR_SIGNATURE)
break;
memcpy(dp, bp->b_data + DOSPARTOFF, sizeof(dp));
}
for (i = 0; i < NDOSPART; i++) {
if (letoh32(dp[i].dp_size) == 0)
continue;
if (obsdfound && dp[i].dp_typ == DOSPTYP_OPENBSD)
continue;
if (dp[i].dp_typ != DOSPTYP_OPENBSD) {
if (letoh32(dp[i].dp_start) > DL_GETDSIZE(lp))
continue;
if (letoh32(dp[i].dp_size) > DL_GETDSIZE(lp))
continue;
}
start = sector + letoh32(dp[i].dp_start);
end = start + letoh32(dp[i].dp_size);
parts++;
if (obsdfound == 0) {
labeloff = partoff + DOS_LABELSECTOR;
if (labeloff >= DL_SECTOBLK(lp, start) &&
labeloff < DL_SECTOBLK(lp, end))
partoff = -1;
}
switch (dp[i].dp_typ) {
case DOSPTYP_OPENBSD:
obsdfound = 1;
partoff = DL_SECTOBLK(lp, start);
labeloff = partoff + DOS_LABELSECTOR;
if (labeloff >= DL_SECTOBLK(lp, end))
partoff = -1;
DL_SETBSTART(lp, start);
DL_SETBEND(lp, end);
continue;
case DOSPTYP_EFI:
continue;
case DOSPTYP_EXTEND:
case DOSPTYP_EXTENDL:
sector = start + extoff;
if (extoff == 0) {
extoff = start;
sector = 0;
}
wander = 1;
continue;
default:
break;
}
fstype = mbr_get_fstype(dp[i].dp_typ);
if (n < MAXPARTITIONS) {
pp = &lp->d_partitions[n++];
pp->p_fstype = fstype;
if (start)
DL_SETPOFFSET(pp, start);
DL_SETPSIZE(pp, end - start);
}
}
}
if (parts > 0) {
lp->d_magic = DISKMAGIC;
*partoffp = partoff;
#ifdef DEBUG
printf("readdoslabel: MBR -- ");
if (partoff == -1)
printf("no label partition\n");
else if (obsdfound == 0)
printf("label partition @ daddr_t %lld (free space)\n", partoff);
else
printf("label partition @ daddr_t %lld (A6)\n", partoff);
#endif /* DEBUG */
}
}
void
spooffat(const uint8_t *dosbb, struct disklabel *lp, daddr_t *partoffp)
{
uint16_t secsize;
#define VALID_JMP(_p) (((_p)[0] == 0xeb && (_p)[2] == 0x90) || (_p)[0] == 0xe9)
#define VALID_FAT(_p) ((_p)[16] == 1 || (_p)[16] == 2)
#define VALID_SEC(_s) ((_s) >= DEV_BSIZE && (_s) <= 4096 && ((_s) % 512 == 0))
memcpy(&secsize, dosbb + 11, sizeof(secsize));
secsize = letoh16(secsize);
if (VALID_JMP(dosbb) && VALID_SEC(secsize) && VALID_FAT(dosbb)) {
lp->d_partitions['i' - 'a'] = lp->d_partitions[RAW_PART];
lp->d_partitions['i' - 'a'].p_fstype = FS_MSDOS;
*partoffp = -1;
lp->d_magic = DISKMAGIC;
DPRINTF("readdoslabel: FAT -- no label partition\n");
}
}
/*
* Check new disk label for sensibility before setting it.
*/
int
setdisklabel(struct disklabel *olp, struct disklabel *nlp, u_int openmask)
{
struct partition *opp, *npp;
struct disk *dk;
int i;
/* sanity clause */
if (nlp->d_secpercyl == 0 || nlp->d_secsize == 0 ||
(nlp->d_secsize % DEV_BSIZE) != 0)
return (EINVAL);
/* special case to allow disklabel to be invalidated */
if (nlp->d_magic == 0xffffffff) {
*olp = *nlp;
return (0);
}
if (nlp->d_magic != DISKMAGIC || nlp->d_magic2 != DISKMAGIC ||
dkcksum(nlp) != 0)
return (EINVAL);
/* XXX missing check if other dos partitions will be overwritten */
for (i = 0; i < MAXPARTITIONS; i++) {
opp = &olp->d_partitions[i];
npp = &nlp->d_partitions[i];
if ((openmask & (1 << i)) &&
(DL_GETPOFFSET(npp) != DL_GETPOFFSET(opp) ||
DL_GETPSIZE(npp) < DL_GETPSIZE(opp)))
return (EBUSY);
/*
* Copy internally-set partition information
* if new label doesn't include it. XXX
*/
if (npp->p_fstype == FS_UNUSED && opp->p_fstype != FS_UNUSED) {
npp->p_fragblock = opp->p_fragblock;
npp->p_cpg = opp->p_cpg;
}
}
/* Generate a UID if the disklabel does not already have one. */
if (duid_iszero(nlp->d_uid)) {
do {
arc4random_buf(nlp->d_uid, sizeof(nlp->d_uid));
TAILQ_FOREACH(dk, &disklist, dk_link)
if (dk->dk_label &&
duid_equal(dk->dk_label->d_uid, nlp->d_uid))
break;
} while (dk != NULL || duid_iszero(nlp->d_uid));
}
/* Preserve the disk size and RAW_PART values. */
DL_SETDSIZE(nlp, DL_GETDSIZE(olp));
npp = &nlp->d_partitions[RAW_PART];
DL_SETPOFFSET(npp, 0);
DL_SETPSIZE(npp, DL_GETDSIZE(nlp));
nlp->d_checksum = 0;
nlp->d_checksum = dkcksum(nlp);
*olp = *nlp;
disk_change = 1;
return (0);
}
/*
* Determine the size of the transfer, and make sure it is within the
* boundaries of the partition. Adjust transfer if needed, and signal errors or
* early completion.
*/
int
bounds_check_with_label(struct buf *bp, struct disklabel *lp)
{
struct partition *p = &lp->d_partitions[DISKPART(bp->b_dev)];
daddr_t partblocks, sz;
/* Avoid division by zero, negative offsets, and negative sizes. */
if (lp->d_secpercyl == 0 || bp->b_blkno < 0 || bp->b_bcount < 0)
goto bad;
/* Ensure transfer is a whole number of aligned sectors. */
if ((bp->b_blkno % DL_BLKSPERSEC(lp)) != 0 ||
(bp->b_bcount % lp->d_secsize) != 0)
goto bad;
/* Ensure transfer starts within partition boundary. */
partblocks = DL_SECTOBLK(lp, DL_GETPSIZE(p));
if (bp->b_blkno > partblocks)
goto bad;
/* If exactly at end of partition or null transfer, return EOF. */
if (bp->b_blkno == partblocks || bp->b_bcount == 0)
goto done;
/* Truncate request if it extends past the end of the partition. */
sz = bp->b_bcount >> DEV_BSHIFT;
if (sz > partblocks - bp->b_blkno) {
sz = partblocks - bp->b_blkno;
bp->b_bcount = sz << DEV_BSHIFT;
}
return (0);
bad:
bp->b_error = EINVAL;
bp->b_flags |= B_ERROR;
done:
bp->b_resid = bp->b_bcount;
return (-1);
}
/*
* Disk error is the preface to plaintive error messages
* about failing disk transfers. It prints messages of the form
hp0g: hard error reading fsbn 12345 of 12344-12347 (hp0 bn %d cn %d tn %d sn %d)
* if the offset of the error in the transfer and a disk label
* are both available. blkdone should be -1 if the position of the error
* is unknown; the disklabel pointer may be null from drivers that have not
* been converted to use them. The message is printed with printf
* if pri is LOG_PRINTF, otherwise it uses log at the specified priority.
* The message should be completed (with at least a newline) with printf
* or addlog, respectively. There is no trailing space.
*/
void
diskerr(struct buf *bp, char *dname, char *what, int pri, int blkdone,
struct disklabel *lp)
{
int unit = DISKUNIT(bp->b_dev), part = DISKPART(bp->b_dev);
int (*pr)(const char *, ...) __attribute__((__format__(__kprintf__,1,2)));
char partname = 'a' + part;
daddr_t sn;
if (pri != LOG_PRINTF) {
log(pri, "%s", "");
pr = addlog;
} else
pr = printf;
(*pr)("%s%d%c: %s %sing fsbn ", dname, unit, partname, what,
bp->b_flags & B_READ ? "read" : "writ");
sn = bp->b_blkno;
if (bp->b_bcount <= DEV_BSIZE)
(*pr)("%lld", (long long)sn);
else {
if (blkdone >= 0) {
sn += blkdone;
(*pr)("%lld of ", (long long)sn);
}
(*pr)("%lld-%lld", (long long)bp->b_blkno,
(long long)(bp->b_blkno + (bp->b_bcount - 1) / DEV_BSIZE));
}
if (lp && (blkdone >= 0 || bp->b_bcount <= lp->d_secsize)) {
sn += DL_SECTOBLK(lp, DL_GETPOFFSET(&lp->d_partitions[part]));
(*pr)(" (%s%d bn %lld; cn %lld", dname, unit, (long long)sn,
(long long)(sn / DL_SECTOBLK(lp, lp->d_secpercyl)));
sn %= DL_SECTOBLK(lp, lp->d_secpercyl);
(*pr)(" tn %lld sn %lld)",
(long long)(sn / DL_SECTOBLK(lp, lp->d_nsectors)),
(long long)(sn % DL_SECTOBLK(lp, lp->d_nsectors)));
}
}
/*
* Initialize the disklist. Called by main() before autoconfiguration.
*/
void
disk_init(void)
{
TAILQ_INIT(&disklist);
disk_count = disk_change = 0;
}
int
disk_construct(struct disk *diskp)
{
rw_init_flags(&diskp->dk_lock, "dklk", RWL_IS_VNODE);
mtx_init(&diskp->dk_mtx, IPL_BIO);
diskp->dk_flags |= DKF_CONSTRUCTED;
return (0);
}
/*
* Attach a disk.
*/
void
disk_attach(struct device *dv, struct disk *diskp)
{
int majdev;
KERNEL_ASSERT_LOCKED();
if (!ISSET(diskp->dk_flags, DKF_CONSTRUCTED))
disk_construct(diskp);
/*
* Allocate and initialize the disklabel structures. Note that
* it's not safe to sleep here, since we're probably going to be
* called during autoconfiguration.
*/
diskp->dk_label = malloc(sizeof(struct disklabel), M_DEVBUF,
M_NOWAIT|M_ZERO);
if (diskp->dk_label == NULL)
panic("disk_attach: can't allocate storage for disklabel");
/*
* Set the attached timestamp.
*/
microuptime(&diskp->dk_attachtime);
/*
* Link into the disklist.
*/
TAILQ_INSERT_TAIL(&disklist, diskp, dk_link);
++disk_count;
disk_change = 1;
/*
* Store device structure and number for later use.
*/
diskp->dk_device = dv;
diskp->dk_devno = NODEV;
if (dv != NULL) {
majdev = findblkmajor(dv);
if (majdev >= 0)
diskp->dk_devno =
MAKEDISKDEV(majdev, dv->dv_unit, RAW_PART);
if (diskp->dk_devno != NODEV) {
struct disk_attach_task *dat;
dat = malloc(sizeof(*dat), M_TEMP, M_WAITOK);
/* XXX: Assumes dk is part of the device softc. */
device_ref(dv);
dat->dk = diskp;
task_set(&dat->task, disk_attach_callback, dat);
task_add(systq, &dat->task);
}
}
if (softraid_disk_attach)
softraid_disk_attach(diskp, 1);
}
void
disk_attach_callback(void *xdat)
{
struct disk_attach_task *dat = xdat;
struct disk *dk = dat->dk;
struct disklabel dl;
char errbuf[100];
free(dat, M_TEMP, sizeof(*dat));
if (dk->dk_flags & (DKF_OPENED | DKF_NOLABELREAD))
goto done;
/* Read disklabel. */
if (disk_readlabel(&dl, dk->dk_devno, errbuf, sizeof(errbuf)) == NULL) {
enqueue_randomness(dl.d_checksum);
}
done:
dk->dk_flags |= DKF_OPENED;
device_unref(dk->dk_device);
wakeup(dk);
}
/*
* Detach a disk.
*/
void
disk_detach(struct disk *diskp)
{
KERNEL_ASSERT_LOCKED();
if (softraid_disk_attach)
softraid_disk_attach(diskp, -1);
/*
* Free the space used by the disklabel structures.
*/
free(diskp->dk_label, M_DEVBUF, sizeof(*diskp->dk_label));
/*
* Remove from the disklist.
*/
TAILQ_REMOVE(&disklist, diskp, dk_link);
disk_change = 1;
if (--disk_count < 0)
panic("disk_detach: disk_count < 0");
}
int
disk_openpart(struct disk *dk, int part, int fmt, int haslabel)
{
KASSERT(part >= 0 && part < MAXPARTITIONS);
/* Unless opening the raw partition, check that the partition exists. */
if (part != RAW_PART && (!haslabel ||
part >= dk->dk_label->d_npartitions ||
dk->dk_label->d_partitions[part].p_fstype == FS_UNUSED))
return (ENXIO);
/* Ensure the partition doesn't get changed under our feet. */
switch (fmt) {
case S_IFCHR:
dk->dk_copenmask |= (1 << part);
break;
case S_IFBLK:
dk->dk_bopenmask |= (1 << part);
break;
}
dk->dk_openmask = dk->dk_copenmask | dk->dk_bopenmask;
return (0);
}
void
disk_closepart(struct disk *dk, int part, int fmt)
{
KASSERT(part >= 0 && part < MAXPARTITIONS);
switch (fmt) {
case S_IFCHR:
dk->dk_copenmask &= ~(1 << part);
break;
case S_IFBLK:
dk->dk_bopenmask &= ~(1 << part);
break;
}
dk->dk_openmask = dk->dk_copenmask | dk->dk_bopenmask;
}
void
disk_gone(int (*open)(dev_t, int, int, struct proc *), int unit)
{
int bmaj, cmaj, mn;
/* Locate the lowest minor number to be detached. */
mn = DISKMINOR(unit, 0);
for (bmaj = 0; bmaj < nblkdev; bmaj++)
if (bdevsw[bmaj].d_open == open)
vdevgone(bmaj, mn, mn + MAXPARTITIONS - 1, VBLK);
for (cmaj = 0; cmaj < nchrdev; cmaj++)
if (cdevsw[cmaj].d_open == open)
vdevgone(cmaj, mn, mn + MAXPARTITIONS - 1, VCHR);
}
/*
* Increment a disk's busy counter. If the counter is going from
* 0 to 1, set the timestamp.
*/
void
disk_busy(struct disk *diskp)
{
/*
* XXX We'd like to use something as accurate as microtime(),
* but that doesn't depend on the system TOD clock.
*/
mtx_enter(&diskp->dk_mtx);
if (diskp->dk_busy++ == 0)
microuptime(&diskp->dk_timestamp);
mtx_leave(&diskp->dk_mtx);
}
/*
* Decrement a disk's busy counter, increment the byte count, total busy
* time, and reset the timestamp.
*/
void
disk_unbusy(struct disk *diskp, long bcount, daddr_t blkno, int read)
{
struct timeval dv_time, diff_time;
mtx_enter(&diskp->dk_mtx);
if (diskp->dk_busy-- == 0)
printf("disk_unbusy: %s: dk_busy < 0\n", diskp->dk_name);
microuptime(&dv_time);
timersub(&dv_time, &diskp->dk_timestamp, &diff_time);
timeradd(&diskp->dk_time, &diff_time, &diskp->dk_time);
diskp->dk_timestamp = dv_time;
if (bcount > 0) {
if (read) {
diskp->dk_rbytes += bcount;
diskp->dk_rxfer++;
} else {
diskp->dk_wbytes += bcount;
diskp->dk_wxfer++;
}
} else
diskp->dk_seek++;
mtx_leave(&diskp->dk_mtx);
enqueue_randomness(bcount ^ diff_time.tv_usec ^
(blkno >> 32) ^ (blkno & 0xffffffff));
}
int
disk_lock(struct disk *dk)
{
return (rw_enter(&dk->dk_lock, RW_WRITE|RW_INTR));
}
void
disk_lock_nointr(struct disk *dk)
{
rw_enter_write(&dk->dk_lock);
}
void
disk_unlock(struct disk *dk)
{
rw_exit_write(&dk->dk_lock);
}
int
dk_mountroot(void)
{
char errbuf[100];
int part = DISKPART(rootdev);
int (*mountrootfn)(void);
struct disklabel dl;
char *error;
error = disk_readlabel(&dl, rootdev, errbuf, sizeof(errbuf));
if (error)
panic("%s", error);
if (DL_GETPSIZE(&dl.d_partitions[part]) == 0)
panic("root filesystem has size 0");
switch (dl.d_partitions[part].p_fstype) {
#ifdef EXT2FS
case FS_EXT2FS:
{
extern int ext2fs_mountroot(void);
mountrootfn = ext2fs_mountroot;
}
break;
#endif
#ifdef FFS
case FS_BSDFFS:
{
extern int ffs_mountroot(void);
mountrootfn = ffs_mountroot;
}
break;
#endif
#ifdef CD9660
case FS_ISO9660:
{
extern int cd9660_mountroot(void);
mountrootfn = cd9660_mountroot;
}
break;
#endif
default:
#ifdef FFS
{
extern int ffs_mountroot(void);
printf("filesystem type %d not known.. assuming ffs\n",
dl.d_partitions[part].p_fstype);
mountrootfn = ffs_mountroot;
}
#else
panic("disk 0x%x filesystem type %d not known",
rootdev, dl.d_partitions[part].p_fstype);
#endif
}
return (*mountrootfn)();
}
struct device *
getdisk(char *str, int len, int defpart, dev_t *devp)
{
struct device *dv;
if ((dv = parsedisk(str, len, defpart, devp)) == NULL) {
printf("use one of: exit");
TAILQ_FOREACH(dv, &alldevs, dv_list) {
if (dv->dv_class == DV_DISK)
printf(" %s[a-p]", dv->dv_xname);
#if defined(NFSCLIENT)
if (dv->dv_class == DV_IFNET)
printf(" %s", dv->dv_xname);
#endif
}
printf("\n");
}
return (dv);
}
struct device *
parsedisk(char *str, int len, int defpart, dev_t *devp)
{
struct device *dv;
int majdev, part = defpart;
char c;
if (len == 0)
return (NULL);
c = str[len-1];
if (c >= 'a' && (c - 'a') < MAXPARTITIONS) {
part = c - 'a';
len -= 1;
}
TAILQ_FOREACH(dv, &alldevs, dv_list) {
if (dv->dv_class == DV_DISK &&
strncmp(str, dv->dv_xname, len) == 0 &&
dv->dv_xname[len] == '\0') {
majdev = findblkmajor(dv);
if (majdev < 0)
return NULL;
*devp = MAKEDISKDEV(majdev, dv->dv_unit, part);
break;
}
#if defined(NFSCLIENT)
if (dv->dv_class == DV_IFNET &&
strncmp(str, dv->dv_xname, len) == 0 &&
dv->dv_xname[len] == '\0') {
*devp = NODEV;
break;
}
#endif
}
return (dv);
}
void
setroot(struct device *bootdv, int part, int exitflags)
{
int majdev, unit, len, s, slept = 0;
dev_t *swp;
struct device *dv;
dev_t nrootdev, nswapdev = NODEV, temp = NODEV;
struct ifnet *ifp = NULL;
struct disk *dk;
char buf[128];
#if defined(NFSCLIENT)
extern char *nfsbootdevname;
#endif
/* Ensure that all disk attach callbacks have completed. */
do {
TAILQ_FOREACH(dk, &disklist, dk_link) {
if (dk->dk_devno != NODEV &&
(dk->dk_flags & DKF_OPENED) == 0) {
tsleep_nsec(dk, 0, "dkopen", SEC_TO_NSEC(1));
slept++;
break;
}
}
} while (dk != NULL && slept < 5);
if (slept == 5) {
printf("disklabels not read:");
TAILQ_FOREACH(dk, &disklist, dk_link)
if (dk->dk_devno != NODEV &&
(dk->dk_flags & DKF_OPENED) == 0)
printf(" %s", dk->dk_name);
printf("\n");
}
if (duid_iszero(bootduid)) {
/* Locate DUID for boot disk since it was not provided. */
TAILQ_FOREACH(dk, &disklist, dk_link)
if (dk->dk_device == bootdv)
break;
if (dk)
bcopy(dk->dk_label->d_uid, bootduid, sizeof(bootduid));
} else if (bootdv == NULL) {
/* Locate boot disk based on the provided DUID. */
TAILQ_FOREACH(dk, &disklist, dk_link)
if (duid_equal(dk->dk_label->d_uid, bootduid))
break;
if (dk)
bootdv = dk->dk_device;
}
bcopy(bootduid, rootduid, sizeof(rootduid));
#if NSOFTRAID > 0
sr_map_root();
#endif
/*
* If `swap generic' and we couldn't determine boot device,
* ask the user.
*/
dk = NULL;
if (mountroot == NULL && bootdv == NULL)
boothowto |= RB_ASKNAME;
if (boothowto & RB_ASKNAME) {
while (1) {
printf("root device");
if (bootdv != NULL) {
printf(" (default %s", bootdv->dv_xname);
if (bootdv->dv_class == DV_DISK)
printf("%c", 'a' + part);
printf(")");
}
printf(": ");
s = splhigh();
cnpollc(1);
len = getsn(buf, sizeof(buf));
cnpollc(0);
splx(s);
if (strcmp(buf, "exit") == 0)
reboot(exitflags);
if (len == 0 && bootdv != NULL) {
strlcpy(buf, bootdv->dv_xname, sizeof buf);
len = strlen(buf);
}
if (len > 0 && buf[len - 1] == '*') {
buf[--len] = '\0';
dv = getdisk(buf, len, part, &nrootdev);
if (dv != NULL) {
rootdv = dv;
nswapdev = nrootdev;
goto gotswap;
}
}
dv = getdisk(buf, len, part, &nrootdev);
if (dv != NULL) {
rootdv = dv;
break;
}
}
if (rootdv->dv_class == DV_IFNET)
goto gotswap;
/* try to build swap device out of new root device */
while (1) {
printf("swap device");
if (rootdv != NULL)
printf(" (default %s%s)", rootdv->dv_xname,
rootdv->dv_class == DV_DISK ? "b" : "");
printf(": ");
s = splhigh();
cnpollc(1);
len = getsn(buf, sizeof(buf));
cnpollc(0);
splx(s);
if (strcmp(buf, "exit") == 0)
reboot(exitflags);
if (len == 0 && rootdv != NULL) {
switch (rootdv->dv_class) {
case DV_IFNET:
nswapdev = NODEV;
break;
case DV_DISK:
nswapdev = MAKEDISKDEV(major(nrootdev),
DISKUNIT(nrootdev), 1);
if (nswapdev == nrootdev)
continue;
break;
default:
break;
}
break;
}
dv = getdisk(buf, len, 1, &nswapdev);
if (dv) {
if (dv->dv_class == DV_IFNET)
nswapdev = NODEV;
if (nswapdev == nrootdev)
continue;
break;
}
}
gotswap:
rootdev = nrootdev;
dumpdev = nswapdev;
swdevt[0] = nswapdev;
swdevt[1] = NODEV;
#if defined(NFSCLIENT)
} else if (mountroot == nfs_mountroot) {
rootdv = bootdv;
rootdev = dumpdev = swapdev = NODEV;
#endif
} else if (mountroot == NULL && rootdev == NODEV) {
/*
* `swap generic'
*/
rootdv = bootdv;
if (bootdv->dv_class == DV_DISK) {
if (!duid_iszero(rootduid)) {
TAILQ_FOREACH(dk, &disklist, dk_link)
if (dk->dk_label && duid_equal(
dk->dk_label->d_uid, rootduid))
break;
if (dk == NULL)
panic("root device (%s) not found",
duid_format(rootduid));
rootdv = dk->dk_device;
}
}
majdev = findblkmajor(rootdv);
if (majdev >= 0) {
/*
* Root and swap are on the disk.
* Assume swap is on partition b.
*/
rootdev = MAKEDISKDEV(majdev, rootdv->dv_unit, part);
nswapdev = MAKEDISKDEV(majdev, rootdv->dv_unit, 1);
} else {
/*
* Root and swap are on a net.
*/
nswapdev = NODEV;
}
dumpdev = nswapdev;
swdevt[0] = nswapdev;
/* swdevt[1] = NODEV; */
} else {
/* Completely pre-configured, but we want rootdv .. */
majdev = major(rootdev);
if (findblkname(majdev) == NULL)
return;
unit = DISKUNIT(rootdev);
part = DISKPART(rootdev);
snprintf(buf, sizeof buf, "%s%d%c",
findblkname(majdev), unit, 'a' + part);
rootdv = parsedisk(buf, strlen(buf), 0, &nrootdev);
if (rootdv == NULL)
panic("root device (%s) not found", buf);
}
if (bootdv != NULL && bootdv->dv_class == DV_IFNET)
ifp = if_unit(bootdv->dv_xname);
if (ifp) {
if_addgroup(ifp, "netboot");
if_put(ifp);
}
switch (rootdv->dv_class) {
#if defined(NFSCLIENT)
case DV_IFNET:
mountroot = nfs_mountroot;
nfsbootdevname = rootdv->dv_xname;
return;
#endif
case DV_DISK:
mountroot = dk_mountroot;
part = DISKPART(rootdev);
break;
default:
printf("can't figure root, hope your kernel is right\n");
return;
}
printf("root on %s%c", rootdv->dv_xname, 'a' + part);
if (dk && dk->dk_device == rootdv)
printf(" (%s.%c)", duid_format(rootduid), 'a' + part);
/*
* Make the swap partition on the root drive the primary swap.
*/
for (swp = swdevt; *swp != NODEV; swp++) {
if (major(rootdev) == major(*swp) &&
DISKUNIT(rootdev) == DISKUNIT(*swp)) {
temp = swdevt[0];
swdevt[0] = *swp;
*swp = temp;
break;
}
}
if (*swp != NODEV) {
/*
* If dumpdev was the same as the old primary swap device,
* move it to the new primary swap device.
*/
if (temp == dumpdev)
dumpdev = swdevt[0];
}
if (swdevt[0] != NODEV)
printf(" swap on %s%d%c", findblkname(major(swdevt[0])),
DISKUNIT(swdevt[0]),
'a' + DISKPART(swdevt[0]));
if (dumpdev != NODEV)
printf(" dump on %s%d%c", findblkname(major(dumpdev)),
DISKUNIT(dumpdev), 'a' + DISKPART(dumpdev));
printf("\n");
}
extern const struct nam2blk nam2blk[];
int
findblkmajor(struct device *dv)
{
char buf[16], *p;
int i;
if (strlcpy(buf, dv->dv_xname, sizeof buf) >= sizeof buf)
return (-1);
for (p = buf; *p; p++)
if (*p >= '0' && *p <= '9')
*p = '\0';
for (i = 0; nam2blk[i].name; i++)
if (!strcmp(buf, nam2blk[i].name))
return (nam2blk[i].maj);
return (-1);
}
char *
findblkname(int maj)
{
int i;
for (i = 0; nam2blk[i].name; i++)
if (nam2blk[i].maj == maj)
return (nam2blk[i].name);
return (NULL);
}
char *
disk_readlabel(struct disklabel *dl, dev_t dev, char *errbuf, size_t errsize)
{
struct vnode *vn;
dev_t chrdev, rawdev;
int error;
chrdev = blktochr(dev);
rawdev = MAKEDISKDEV(major(chrdev), DISKUNIT(chrdev), RAW_PART);
#ifdef DEBUG
printf("dev=0x%x chrdev=0x%x rawdev=0x%x\n", dev, chrdev, rawdev);
#endif
if (cdevvp(rawdev, &vn)) {
snprintf(errbuf, errsize,
"cannot obtain vnode for 0x%x/0x%x", dev, rawdev);
return (errbuf);
}
error = VOP_OPEN(vn, FREAD, NOCRED, curproc);
if (error) {
snprintf(errbuf, errsize,
"cannot open disk, 0x%x/0x%x, error %d",
dev, rawdev, error);
goto done;
}
error = VOP_IOCTL(vn, DIOCGDINFO, (caddr_t)dl, FREAD, NOCRED, curproc);
if (error) {
snprintf(errbuf, errsize,
"cannot read disk label, 0x%x/0x%x, error %d",
dev, rawdev, error);
}
done:
VOP_CLOSE(vn, FREAD, NOCRED, curproc);
vput(vn);
if (error)
return (errbuf);
return (NULL);
}
int
disk_map(const char *path, char *mappath, int size, int flags)
{
struct disk *dk, *mdk;
u_char uid[8];
char c, part;
int i;
/*
* Attempt to map a request for a disklabel UID to the correct device.
* We should be supplied with a disklabel UID which has the following
* format:
*
* [disklabel uid] . [partition]
*
* Alternatively, if the DM_OPENPART flag is set the disklabel UID can
* based passed on its own.
*/
if (strchr(path, '/') != NULL)
return -1;
/* Verify that the device name is properly formed. */
if (!((strlen(path) == 16 && (flags & DM_OPENPART)) ||
(strlen(path) == 18 && path[16] == '.')))
return -1;
/* Get partition. */
if (flags & DM_OPENPART)
part = 'a' + RAW_PART;
else
part = path[17];
if (part < 'a' || part >= 'a' + MAXPARTITIONS)
return -1;
/* Derive label UID. */
memset(uid, 0, sizeof(uid));
for (i = 0; i < 16; i++) {
c = path[i];
if (c >= '0' && c <= '9')
c -= '0';
else if (c >= 'a' && c <= 'f')
c -= ('a' - 10);
else
return -1;
uid[i / 2] <<= 4;
uid[i / 2] |= c & 0xf;
}
mdk = NULL;
TAILQ_FOREACH(dk, &disklist, dk_link) {
if (dk->dk_label && memcmp(dk->dk_label->d_uid, uid,
sizeof(dk->dk_label->d_uid)) == 0) {
/* Fail if there are duplicate UIDs! */
if (mdk != NULL)
return -1;
mdk = dk;
}
}
if (mdk == NULL || mdk->dk_name == NULL)
return -1;
snprintf(mappath, size, "/dev/%s%s%c",
(flags & DM_OPENBLCK) ? "" : "r", mdk->dk_name, part);
return 0;
}
/*
* Lookup a disk device and verify that it has completed attaching.
*/
struct device *
disk_lookup(struct cfdriver *cd, int unit)
{
struct device *dv;
struct disk *dk;
dv = device_lookup(cd, unit);
if (dv == NULL)
return (NULL);
TAILQ_FOREACH(dk, &disklist, dk_link)
if (dk->dk_device == dv)
break;
if (dk == NULL) {
device_unref(dv);
return (NULL);
}
return (dv);
}
int
duid_equal(u_char *duid1, u_char *duid2)
{
return (memcmp(duid1, duid2, DUID_SIZE) == 0);
}
int
duid_iszero(u_char *duid)
{
u_char zeroduid[DUID_SIZE];
memset(zeroduid, 0, sizeof(zeroduid));
return (duid_equal(duid, zeroduid));
}
const char *
duid_format(u_char *duid)
{
static char duid_str[17];
KERNEL_ASSERT_LOCKED();
snprintf(duid_str, sizeof(duid_str),
"%02x%02x%02x%02x%02x%02x%02x%02x",
duid[0], duid[1], duid[2], duid[3],
duid[4], duid[5], duid[6], duid[7]);
return (duid_str);
}
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