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|
/*
* Copyright (C) 2013 Karel Zak <kzak@redhat.com>
*
* Based on original code from fdisk:
* Jakub Jelinek (jj@sunsite.mff.cuni.cz), July 1996
* Merged with fdisk for other architectures, aeb, June 1998.
* Arnaldo Carvalho de Melo <acme@conectiva.com.br> Mar 1999, Internationalization
*/
#include <stdio.h> /* stderr */
#include <stdlib.h> /* qsort */
#include <string.h> /* strstr */
#include <unistd.h> /* write */
#include <sys/ioctl.h> /* ioctl */
#include "blkdev.h"
#include "bitops.h"
#include "fdiskP.h"
#include "pt-sun.h"
#include "all-io.h"
/**
* SECTION: sun
* @title: SUN
* @short_description: disk label specific functions
*
*/
/*
* in-memory fdisk SUN stuff
*/
struct fdisk_sun_label {
struct fdisk_label head; /* generic part */
struct sun_disklabel *header; /* on-disk data (pointer to cxt->firstsector) */
};
static struct fdisk_parttype sun_parttypes[] = {
{SUN_TAG_UNASSIGNED, N_("Unassigned")},
{SUN_TAG_BOOT, N_("Boot")},
{SUN_TAG_ROOT, N_("SunOS root")},
{SUN_TAG_SWAP, N_("SunOS swap")},
{SUN_TAG_USR, N_("SunOS usr")},
{SUN_TAG_WHOLEDISK, N_("Whole disk")},
{SUN_TAG_STAND, N_("SunOS stand")},
{SUN_TAG_VAR, N_("SunOS var")},
{SUN_TAG_HOME, N_("SunOS home")},
{SUN_TAG_ALTSCTR, N_("SunOS alt sectors")},
{SUN_TAG_CACHE, N_("SunOS cachefs")},
{SUN_TAG_RESERVED, N_("SunOS reserved")},
{SUN_TAG_LINUX_SWAP, N_("Linux swap")},
{SUN_TAG_LINUX_NATIVE, N_("Linux native")},
{SUN_TAG_LINUX_LVM, N_("Linux LVM")},
{SUN_TAG_LINUX_RAID, N_("Linux raid autodetect")},
{ 0, NULL }
};
/* return pointer buffer with on-disk data */
static inline struct sun_disklabel *self_disklabel(struct fdisk_context *cxt)
{
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
return ((struct fdisk_sun_label *) cxt->label)->header;
}
/* return in-memory sun fdisk data */
static inline struct fdisk_sun_label *self_label(struct fdisk_context *cxt)
{
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
return (struct fdisk_sun_label *) cxt->label;
}
static void set_partition(struct fdisk_context *cxt, size_t i,
uint32_t start,uint32_t stop, uint16_t sysid)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
struct fdisk_parttype *t =
fdisk_label_get_parttype_from_code(cxt->label, sysid);
sunlabel->vtoc.infos[i].id = cpu_to_be16(sysid);
sunlabel->vtoc.infos[i].flags = cpu_to_be16(0);
sunlabel->partitions[i].start_cylinder =
cpu_to_be32(start / (cxt->geom.heads * cxt->geom.sectors));
sunlabel->partitions[i].num_sectors = cpu_to_be32(stop - start);
fdisk_label_set_changed(cxt->label, 1);
fdisk_info_new_partition(cxt, i + 1, start, stop, t);
}
static size_t count_used_partitions(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
size_t ct = 0, i;
assert(sunlabel);
for (i = 0; i < cxt->label->nparts_max; i++) {
if (sunlabel->partitions[i].num_sectors)
ct++;
}
return ct;
}
static int sun_probe_label(struct fdisk_context *cxt)
{
struct fdisk_sun_label *sun;
struct sun_disklabel *sunlabel;
int need_fixing = 0;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
/* map first sector to header */
sun = self_label(cxt);
sun->header = (struct sun_disklabel *) cxt->firstsector;
sunlabel = sun->header;
if (be16_to_cpu(sunlabel->magic) != SUN_LABEL_MAGIC) {
sun->header = NULL;
return 0; /* failed */
}
if (sun_pt_checksum(sunlabel)) {
fdisk_warnx(cxt, _("Detected sun disklabel with wrong checksum. "
"Probably you'll have to set all the values, "
"e.g. heads, sectors, cylinders and partitions "
"or force a fresh label (s command in main menu)"));
return 1;
}
cxt->label->nparts_max = SUN_MAXPARTITIONS;
cxt->geom.heads = be16_to_cpu(sunlabel->nhead);
cxt->geom.cylinders = be16_to_cpu(sunlabel->ncyl);
cxt->geom.sectors = be16_to_cpu(sunlabel->nsect);
/* we have on label geom, but user has to win */
if (fdisk_has_user_device_geometry(cxt))
fdisk_apply_user_device_properties(cxt);
if (be32_to_cpu(sunlabel->vtoc.version) != SUN_VTOC_VERSION) {
fdisk_warnx(cxt, _("Detected sun disklabel with wrong version [%d]."),
be32_to_cpu(sunlabel->vtoc.version));
need_fixing = 1;
}
if (be32_to_cpu(sunlabel->vtoc.sanity) != SUN_VTOC_SANITY) {
fdisk_warnx(cxt, _("Detected sun disklabel with wrong vtoc.sanity [0x%08x]."),
be32_to_cpu(sunlabel->vtoc.sanity));
need_fixing = 1;
}
if (be16_to_cpu(sunlabel->vtoc.nparts) != SUN_MAXPARTITIONS) {
fdisk_warnx(cxt, _("Detected sun disklabel with wrong vtoc.nparts [%u]."),
be16_to_cpu(sunlabel->vtoc.nparts));
need_fixing = 1;
}
if (need_fixing) {
fdisk_warnx(cxt, _("Warning: Wrong values need to be fixed up and "
"will be corrected by w(rite)"));
sunlabel->vtoc.version = cpu_to_be32(SUN_VTOC_VERSION);
sunlabel->vtoc.sanity = cpu_to_be32(SUN_VTOC_SANITY);
sunlabel->vtoc.nparts = cpu_to_be16(SUN_MAXPARTITIONS);
sunlabel->csum = 0;
sunlabel->csum = sun_pt_checksum(sunlabel);
fdisk_label_set_changed(cxt->label, 1);
}
cxt->label->nparts_cur = count_used_partitions(cxt);
return 1;
}
static void ask_geom(struct fdisk_context *cxt)
{
uintmax_t res;
assert(cxt);
if (fdisk_ask_number(cxt, cxt->label->geom_min.heads, 1,
cxt->label->geom_max.heads,
_("Heads"), &res) == 0)
cxt->geom.heads = res;
if (fdisk_ask_number(cxt, cxt->label->geom_min.sectors, 1,
cxt->label->geom_max.sectors,
_("Sectors/track"), &res) == 0)
cxt->geom.sectors = res;
if (fdisk_ask_number(cxt, cxt->label->geom_min.cylinders, 1,
cxt->label->geom_max.cylinders,
_("Cylinders"), &res) == 0)
cxt->geom.cylinders = res;
}
static int sun_create_disklabel(struct fdisk_context *cxt)
{
unsigned int ndiv;
struct fdisk_sun_label *sun; /* libfdisk sun handler */
struct sun_disklabel *sunlabel; /* on disk data */
int rc = 0;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
/* map first sector to header */
rc = fdisk_init_firstsector_buffer(cxt, 0, 0);
if (rc)
return rc;
sun = self_label(cxt);
sun->header = (struct sun_disklabel *) cxt->firstsector;
sunlabel = sun->header;
cxt->label->nparts_max = SUN_MAXPARTITIONS;
sunlabel->magic = cpu_to_be16(SUN_LABEL_MAGIC);
sunlabel->vtoc.version = cpu_to_be32(SUN_VTOC_VERSION);
sunlabel->vtoc.sanity = cpu_to_be32(SUN_VTOC_SANITY);
sunlabel->vtoc.nparts = cpu_to_be16(SUN_MAXPARTITIONS);
if (cxt->geom.heads && cxt->geom.sectors) {
fdisk_sector_t llsectors;
if (blkdev_get_sectors(cxt->dev_fd, (unsigned long long *) &llsectors) == 0) {
int sec_fac = cxt->sector_size / 512;
fdisk_sector_t llcyls;
llcyls = llsectors / (cxt->geom.heads * cxt->geom.sectors * sec_fac);
cxt->geom.cylinders = llcyls;
if (cxt->geom.cylinders != llcyls)
cxt->geom.cylinders = ~0;
} else {
fdisk_warnx(cxt,
_("BLKGETSIZE ioctl failed on %s. "
"Using geometry cylinder value of %llu. "
"This value may be truncated for devices "
"> 33.8 GB."),
cxt->dev_path, cxt->geom.cylinders);
}
} else
ask_geom(cxt);
sunlabel->acyl = cpu_to_be16(0);
sunlabel->pcyl = cpu_to_be16(cxt->geom.cylinders);
sunlabel->rpm = cpu_to_be16(5400);
sunlabel->intrlv = cpu_to_be16(1);
sunlabel->apc = cpu_to_be16(0);
sunlabel->nhead = cpu_to_be16(cxt->geom.heads);
sunlabel->nsect = cpu_to_be16(cxt->geom.sectors);
sunlabel->ncyl = cpu_to_be16(cxt->geom.cylinders);
snprintf((char *) sunlabel->label_id, sizeof(sunlabel->label_id),
"Linux cyl %ju alt %u hd %u sec %ju",
(uintmax_t) cxt->geom.cylinders,
be16_to_cpu(sunlabel->acyl),
cxt->geom.heads,
(uintmax_t) cxt->geom.sectors);
if (cxt->geom.cylinders * cxt->geom.heads * cxt->geom.sectors >= 150 * 2048) {
ndiv = cxt->geom.cylinders - (50 * 2048 / (cxt->geom.heads * cxt->geom.sectors)); /* 50M swap */
} else
ndiv = cxt->geom.cylinders * 2 / 3;
/* create the default layout only if no-script defined */
if (!cxt->script) {
set_partition(cxt, 0, 0, ndiv * cxt->geom.heads * cxt->geom.sectors,
SUN_TAG_LINUX_NATIVE);
set_partition(cxt, 1, ndiv * cxt->geom.heads * cxt->geom.sectors,
cxt->geom.cylinders * cxt->geom.heads * cxt->geom.sectors,
SUN_TAG_LINUX_SWAP);
sunlabel->vtoc.infos[1].flags |= cpu_to_be16(SUN_FLAG_UNMNT);
set_partition(cxt, 2, 0,
cxt->geom.cylinders * cxt->geom.heads * cxt->geom.sectors,
SUN_TAG_WHOLEDISK);
}
sunlabel->csum = 0;
sunlabel->csum = sun_pt_checksum(sunlabel);
fdisk_label_set_changed(cxt->label, 1);
cxt->label->nparts_cur = count_used_partitions(cxt);
fdisk_info(cxt, _("Created a new Sun disklabel."));
return 0;
}
static int sun_toggle_partition_flag(struct fdisk_context *cxt, size_t i, unsigned long flag)
{
struct sun_disklabel *sunlabel;
struct sun_info *p;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
if (i >= cxt->label->nparts_max)
return -EINVAL;
sunlabel = self_disklabel(cxt);
p = &sunlabel->vtoc.infos[i];
switch (flag) {
case SUN_FLAG_UNMNT:
p->flags ^= cpu_to_be16(SUN_FLAG_UNMNT);
fdisk_label_set_changed(cxt->label, 1);
break;
case SUN_FLAG_RONLY:
p->flags ^= cpu_to_be16(SUN_FLAG_RONLY);
fdisk_label_set_changed(cxt->label, 1);
break;
default:
return 1;
}
return 0;
}
static void fetch_sun(struct fdisk_context *cxt,
uint32_t *starts,
uint32_t *lens,
uint32_t *start,
uint32_t *stop)
{
struct sun_disklabel *sunlabel;
int continuous = 1;
size_t i;
int sectors_per_cylinder = cxt->geom.heads * cxt->geom.sectors;
assert(cxt);
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
sunlabel = self_disklabel(cxt);
*start = 0;
*stop = cxt->geom.cylinders * sectors_per_cylinder;
for (i = 0; i < cxt->label->nparts_max; i++) {
struct sun_partition *part = &sunlabel->partitions[i];
struct sun_info *info = &sunlabel->vtoc.infos[i];
if (part->num_sectors &&
be16_to_cpu(info->id) != SUN_TAG_UNASSIGNED &&
be16_to_cpu(info->id) != SUN_TAG_WHOLEDISK) {
starts[i] = be32_to_cpu(part->start_cylinder) *
sectors_per_cylinder;
lens[i] = be32_to_cpu(part->num_sectors);
if (continuous) {
if (starts[i] == *start) {
*start += lens[i];
int remained_sectors = *start % sectors_per_cylinder;
if (remained_sectors) {
*start += sectors_per_cylinder - remained_sectors;
}
} else if (starts[i] + lens[i] >= *stop)
*stop = starts[i];
else
continuous = 0;
/* There will be probably more gaps
than one, so lets check afterwards */
}
} else {
starts[i] = 0;
lens[i] = 0;
}
}
}
/* non-Linux qsort_r(3) has usually differently ordered arguments */
#if !defined (__linux__) || !defined (__GLIBC__)
# undef HAVE_QSORT_R
#endif
#ifdef HAVE_QSORT_R
static int verify_sun_cmp(int *a, int *b, void *data)
{
unsigned int *verify_sun_starts = (unsigned int *) data;
if (*a == -1)
return 1;
if (*b == -1)
return -1;
if (verify_sun_starts[*a] > verify_sun_starts[*b])
return 1;
return -1;
}
#endif
static int sun_verify_disklabel(struct fdisk_context *cxt)
{
uint32_t starts[SUN_MAXPARTITIONS], lens[SUN_MAXPARTITIONS], start, stop;
uint32_t i,j,k,starto,endo;
#ifdef HAVE_QSORT_R
int array[SUN_MAXPARTITIONS];
unsigned int *verify_sun_starts;
#endif
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
fetch_sun(cxt, starts, lens, &start, &stop);
for (k = 0; k < 7; k++) {
for (i = 0; i < SUN_MAXPARTITIONS; i++) {
if (k && (lens[i] % (cxt->geom.heads * cxt->geom.sectors)))
fdisk_warnx(cxt, _("Partition %u doesn't end on cylinder boundary."), i+1);
if (lens[i]) {
for (j = 0; j < i; j++)
if (lens[j]) {
if (starts[j] == starts[i]+lens[i]) {
starts[j] = starts[i]; lens[j] += lens[i];
lens[i] = 0;
} else if (starts[i] == starts[j]+lens[j]){
lens[j] += lens[i];
lens[i] = 0;
} else if (!k) {
if (starts[i] < starts[j]+lens[j] &&
starts[j] < starts[i]+lens[i]) {
starto = starts[i];
if (starts[j] > starto)
starto = starts[j];
endo = starts[i]+lens[i];
if (starts[j]+lens[j] < endo)
endo = starts[j]+lens[j];
fdisk_warnx(cxt, _("Partition %u overlaps with others in "
"sectors %u-%u."), i+1, starto, endo);
}
}
}
}
}
}
#ifdef HAVE_QSORT_R
for (i = 0; i < SUN_MAXPARTITIONS; i++) {
if (lens[i])
array[i] = i;
else
array[i] = -1;
}
verify_sun_starts = starts;
qsort_r(array,ARRAY_SIZE(array),sizeof(array[0]),
(int (*)(const void *,const void *,void *)) verify_sun_cmp,
verify_sun_starts);
if (array[0] == -1) {
fdisk_info(cxt, _("No partitions defined."));
return 0;
}
stop = cxt->geom.cylinders * cxt->geom.heads * cxt->geom.sectors;
if (starts[array[0]])
fdisk_warnx(cxt, _("Unused gap - sectors 0-%u."), starts[array[0]]);
for (i = 0; i < 7 && array[i+1] != -1; i++) {
fdisk_warnx(cxt, _("Unused gap - sectors %u-%u."),
(starts[array[i]] + lens[array[i]]),
starts[array[i+1]]);
}
start = (starts[array[i]] + lens[array[i]]);
if (start < stop)
fdisk_warnx(cxt, _("Unused gap - sectors %u-%u."), start, stop);
#endif
return 0;
}
static int is_free_sector(struct fdisk_context *cxt,
fdisk_sector_t s, uint32_t starts[], uint32_t lens[])
{
size_t i;
for (i = 0; i < cxt->label->nparts_max; i++) {
if (lens[i] && starts[i] <= s
&& starts[i] + lens[i] > s)
return 0;
}
return 1;
}
static int sun_add_partition(
struct fdisk_context *cxt,
struct fdisk_partition *pa,
size_t *partno)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uint32_t starts[SUN_MAXPARTITIONS], lens[SUN_MAXPARTITIONS];
struct sun_partition *part;
struct sun_info *info;
uint32_t start, stop, stop2;
int whole_disk = 0;
int sys = pa && pa->type ? pa->type->code : SUN_TAG_LINUX_NATIVE;
int rc;
size_t n;
char mesg[256];
size_t i;
unsigned int first, last;
DBG(LABEL, ul_debug("SUN adding partition"));
rc = fdisk_partition_next_partno(pa, cxt, &n);
if (rc)
return rc;
part = &sunlabel->partitions[n];
info = &sunlabel->vtoc.infos[n];
if (part->num_sectors && be16_to_cpu(info->id) != SUN_TAG_UNASSIGNED) {
fdisk_info(cxt, _("Partition %zu is already defined. Delete "
"it before re-adding it."), n + 1);
return -EINVAL;
}
fetch_sun(cxt, starts, lens, &start, &stop);
if (pa && pa->type && pa->type->code == SUN_TAG_WHOLEDISK)
whole_disk = 1;
if (stop <= start) {
if (n == 2)
whole_disk = 1;
else {
fdisk_info(cxt, _("Other partitions already cover the "
"whole disk. Delete some/shrink them before retry."));
return -EINVAL;
}
}
if (pa && pa->start_follow_default)
first = start;
else if (pa && fdisk_partition_has_start(pa)) {
first = pa->start;
if (!whole_disk && !is_free_sector(cxt, first, starts, lens))
return -ERANGE;
} else {
struct fdisk_ask *ask;
if (n == 2)
fdisk_info(cxt, _("It is highly recommended that the "
"third partition covers the whole disk "
"and is of type `Whole disk'"));
snprintf(mesg, sizeof(mesg), _("First %s"),
fdisk_get_unit(cxt, FDISK_SINGULAR));
for (;;) {
ask = fdisk_new_ask();
if (!ask)
return -ENOMEM;
fdisk_ask_set_query(ask, mesg);
fdisk_ask_set_type(ask, FDISK_ASKTYPE_NUMBER);
if (whole_disk) {
fdisk_ask_number_set_low(ask, 0); /* minimal */
fdisk_ask_number_set_default(ask, 0); /* default */
fdisk_ask_number_set_high(ask, 0); /* maximal */
} else if (n == 2) {
fdisk_ask_number_set_low(ask, 0); /* minimal */
fdisk_ask_number_set_default(ask, 0); /* default */
fdisk_ask_number_set_high(ask, fdisk_scround(cxt, stop)); /* maximal */
} else {
fdisk_ask_number_set_low(ask, fdisk_scround(cxt, start)); /* minimal */
fdisk_ask_number_set_default(ask, fdisk_scround(cxt, start)); /* default */
fdisk_ask_number_set_high(ask, fdisk_scround(cxt, stop)); /* maximal */
}
rc = fdisk_do_ask(cxt, ask);
first = fdisk_ask_number_get_result(ask);
fdisk_unref_ask(ask);
if (rc)
return rc;
if (fdisk_use_cylinders(cxt))
first *= fdisk_get_units_per_sector(cxt);
if (!fdisk_use_cylinders(cxt)) {
/* Starting sector has to be properly aligned */
int cs = cxt->geom.heads * cxt->geom.sectors;
int x = first % cs;
if (x) {
fdisk_info(cxt, _("Aligning the first sector from %u to %u "
"to be on cylinder boundary."),
first, first + cs - x);
first += cs - x;
}
}
/* ewt asks to add: "don't start a partition at cyl 0"
However, edmundo@rano.demon.co.uk writes:
"In addition to having a Sun partition table, to be able to
boot from the disc, the first partition, /dev/sdX1, must
start at cylinder 0. This means that /dev/sdX1 contains
the partition table and the boot block, as these are the
first two sectors of the disc. Therefore you must be
careful what you use /dev/sdX1 for. In particular, you must
not use a partition starting at cylinder 0 for Linux swap,
as that would overwrite the partition table and the boot
block. You may, however, use such a partition for a UFS
or EXT2 file system, as these file systems leave the first
1024 bytes undisturbed. */
/* On the other hand, one should not use partitions
starting at block 0 in an md, or the label will
be trashed. */
if (!is_free_sector(cxt, first, starts, lens) && !whole_disk) {
if (n == 2 && !first) {
whole_disk = 1;
break;
}
fdisk_warnx(cxt, _("Sector %d is already allocated"), first);
} else
break;
}
}
stop = cxt->geom.cylinders * cxt->geom.heads * cxt->geom.sectors; /* ancient */
stop2 = stop;
for (i = 0; i < cxt->label->nparts_max; i++) {
if (starts[i] > first && starts[i] < stop)
stop = starts[i];
}
/* last */
if (pa && pa->end_follow_default)
last = whole_disk || (n == 2 && !first) ? stop2 : stop;
else if (pa && fdisk_partition_has_size(pa)) {
last = first + pa->size;
if (!whole_disk && last > stop)
return -ERANGE;
} else {
struct fdisk_ask *ask = fdisk_new_ask();
if (!ask)
return -ENOMEM;
snprintf(mesg, sizeof(mesg),
_("Last %s or +/-%s or +/-size{K,M,G,T,P}"),
fdisk_get_unit(cxt, FDISK_SINGULAR),
fdisk_get_unit(cxt, FDISK_PLURAL));
fdisk_ask_set_query(ask, mesg);
fdisk_ask_set_type(ask, FDISK_ASKTYPE_OFFSET);
if (whole_disk) {
fdisk_ask_number_set_low(ask, fdisk_scround(cxt, stop2)); /* minimal */
fdisk_ask_number_set_default(ask, fdisk_scround(cxt, stop2)); /* default */
fdisk_ask_number_set_high(ask, fdisk_scround(cxt, stop2)); /* maximal */
fdisk_ask_number_set_base(ask, 0);
} else if (n == 2 && !first) {
fdisk_ask_number_set_low(ask, fdisk_scround(cxt, first)); /* minimal */
fdisk_ask_number_set_default(ask, fdisk_scround(cxt, stop2)); /* default */
fdisk_ask_number_set_high(ask, fdisk_scround(cxt, stop2)); /* maximal */
fdisk_ask_number_set_base(ask, fdisk_scround(cxt, first));
} else {
fdisk_ask_number_set_low(ask, fdisk_scround(cxt, first)); /* minimal */
fdisk_ask_number_set_default(ask, fdisk_scround(cxt, stop)); /* default */
fdisk_ask_number_set_high(ask, fdisk_scround(cxt, stop)); /* maximal */
fdisk_ask_number_set_base(ask, fdisk_scround(cxt, first));
}
fdisk_ask_number_set_wrap_negative(ask, 1); /* wrap negative around high */
if (fdisk_use_cylinders(cxt))
fdisk_ask_number_set_unit(ask,
cxt->sector_size *
fdisk_get_units_per_sector(cxt));
else
fdisk_ask_number_set_unit(ask, cxt->sector_size);
rc = fdisk_do_ask(cxt, ask);
last = fdisk_ask_number_get_result(ask);
fdisk_unref_ask(ask);
if (rc)
return rc;
if (fdisk_use_cylinders(cxt))
last *= fdisk_get_units_per_sector(cxt);
}
if (n == 2 && !first) {
if (last >= stop2) {
whole_disk = 1;
last = stop2;
} else if (last > stop) {
fdisk_warnx(cxt,
_("You haven't covered the whole disk with the 3rd partition, but your value\n"
"%lu %s covers some other partition. Your entry has been changed\n"
"to %lu %s"),
(unsigned long) fdisk_scround(cxt, last), fdisk_get_unit(cxt, FDISK_SINGULAR),
(unsigned long) fdisk_scround(cxt, stop), fdisk_get_unit(cxt, FDISK_SINGULAR));
last = stop;
}
} else if (!whole_disk && last > stop)
last = stop;
if (whole_disk)
sys = SUN_TAG_WHOLEDISK;
DBG(LABEL, ul_debug("SUN new partition #%zu: first=%u, last=%u, sys=%d", n, first, last, sys));
set_partition(cxt, n, first, last, sys);
cxt->label->nparts_cur = count_used_partitions(cxt);
if (partno)
*partno = n;
return 0;
}
static int sun_delete_partition(struct fdisk_context *cxt,
size_t partnum)
{
struct sun_disklabel *sunlabel;
struct sun_partition *part;
struct sun_info *info;
unsigned int nsec;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
sunlabel = self_disklabel(cxt);
part = &sunlabel->partitions[partnum];
info = &sunlabel->vtoc.infos[partnum];
if (partnum == 2 &&
be16_to_cpu(info->id) == SUN_TAG_WHOLEDISK &&
!part->start_cylinder &&
(nsec = be32_to_cpu(part->num_sectors))
== cxt->geom.heads * cxt->geom.sectors * cxt->geom.cylinders)
fdisk_info(cxt, _("If you want to maintain SunOS/Solaris compatibility, "
"consider leaving this "
"partition as Whole disk (5), starting at 0, with %u "
"sectors"), nsec);
info->id = cpu_to_be16(SUN_TAG_UNASSIGNED);
part->num_sectors = 0;
cxt->label->nparts_cur = count_used_partitions(cxt);
fdisk_label_set_changed(cxt->label, 1);
return 0;
}
static int sun_get_disklabel_item(struct fdisk_context *cxt, struct fdisk_labelitem *item)
{
struct sun_disklabel *sunlabel;
int rc = 0;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
sunlabel = self_disklabel(cxt);
switch (item->id) {
case SUN_LABELITEM_LABELID:
item->name =_("Label ID");
item->type = 's';
item->data.str = *sunlabel->label_id ? strndup((char *)sunlabel->label_id, sizeof(sunlabel->label_id)) : NULL;
break;
case SUN_LABELITEM_VTOCID:
item->name =_("Volume ID");
item->type = 's';
item->data.str = *sunlabel->vtoc.volume_id ? strndup((char *)sunlabel->vtoc.volume_id, sizeof(sunlabel->vtoc.volume_id)) : NULL;
break;
case SUN_LABELITEM_RPM:
item->name =_("Rpm");
item->type = 'j';
item->data.num64 = be16_to_cpu(sunlabel->rpm);
break;
case SUN_LABELITEM_ACYL:
item->name =_("Alternate cylinders");
item->type = 'j';
item->data.num64 = be16_to_cpu(sunlabel->acyl);
break;
case SUN_LABELITEM_PCYL:
item->name =_("Physical cylinders");
item->type = 'j';
item->data.num64 = be16_to_cpu(sunlabel->pcyl);
break;
case SUN_LABELITEM_APC:
item->name =_("Extra sects/cyl");
item->type = 'j';
item->data.num64 = be16_to_cpu(sunlabel->apc);
break;
case SUN_LABELITEM_INTRLV:
item->name =_("Interleave");
item->type = 'j';
item->data.num64 = be16_to_cpu(sunlabel->intrlv);
break;
default:
if (item->id < __FDISK_NLABELITEMS)
rc = 1; /* unsupported generic item */
else
rc = 2; /* out of range */
break;
}
return rc;
}
static struct fdisk_parttype *sun_get_parttype(
struct fdisk_context *cxt,
size_t n)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
struct fdisk_parttype *t;
if (n >= cxt->label->nparts_max)
return NULL;
t = fdisk_label_get_parttype_from_code(cxt->label,
be16_to_cpu(sunlabel->vtoc.infos[n].id));
return t ? : fdisk_new_unknown_parttype(be16_to_cpu(sunlabel->vtoc.infos[n].id), NULL);
}
static int sun_get_partition(struct fdisk_context *cxt, size_t n,
struct fdisk_partition *pa)
{
struct sun_disklabel *sunlabel;
struct sun_partition *part;
uint16_t flags;
uint32_t start, len;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
if (n >= cxt->label->nparts_max)
return -EINVAL;
sunlabel = self_disklabel(cxt);
part = &sunlabel->partitions[n];
pa->used = part->num_sectors ? 1 : 0;
if (!pa->used)
return 0;
flags = be16_to_cpu(sunlabel->vtoc.infos[n].flags);
start = be32_to_cpu(part->start_cylinder)
* cxt->geom.heads * cxt->geom.sectors;
len = be32_to_cpu(part->num_sectors);
pa->type = sun_get_parttype(cxt, n);
if (pa->type && pa->type->code == SUN_TAG_WHOLEDISK)
pa->wholedisk = 1;
if (flags & SUN_FLAG_UNMNT || flags & SUN_FLAG_RONLY) {
if (asprintf(&pa->attrs, "%c%c",
flags & SUN_FLAG_UNMNT ? 'u' : ' ',
flags & SUN_FLAG_RONLY ? 'r' : ' ') < 0)
return -ENOMEM;
}
pa->start = start;
pa->size = len;
return 0;
}
/**
* fdisk_sun_set_alt_cyl:
* @cxt: context
*
* Sets number of alternative cylinders. This function uses libfdisk Ask API
* for dialog with user.
*
* Returns: 0 on success, <0 on error.
*/
int fdisk_sun_set_alt_cyl(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uintmax_t res;
int rc = fdisk_ask_number(cxt, 0, /* low */
be16_to_cpu(sunlabel->acyl), /* default */
65535, /* high */
_("Number of alternate cylinders"), /* query */
&res); /* result */
if (rc)
return rc;
sunlabel->acyl = cpu_to_be16(res);
return 0;
}
/**
* fdisk_sun_set_xcyl:
* @cxt: context
*
* Sets number of extra sectors per cylinder. This function uses libfdisk Ask API
* for dialog with user.
*
* Returns: 0 on success, <0 on error.
*/
int fdisk_sun_set_xcyl(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uintmax_t res;
int rc = fdisk_ask_number(cxt, 0, /* low */
be16_to_cpu(sunlabel->apc), /* default */
cxt->geom.sectors, /* high */
_("Extra sectors per cylinder"), /* query */
&res); /* result */
if (rc)
return rc;
sunlabel->apc = cpu_to_be16(res);
return 0;
}
/**
* fdisk_sun_set_ilfact:
* @cxt: context
*
* Sets interleave factor. This function uses libfdisk Ask API for dialog with
* user.
*
* Returns: 0 on success, <0 on error.
*/
int fdisk_sun_set_ilfact(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uintmax_t res;
int rc = fdisk_ask_number(cxt, 1, /* low */
be16_to_cpu(sunlabel->intrlv), /* default */
32, /* high */
_("Interleave factor"), /* query */
&res); /* result */
if (rc)
return rc;
sunlabel->intrlv = cpu_to_be16(res);
return 0;
}
/**
* fdisk_sun_set_rspeed
* @cxt: context
*
* Sets rotation speed. This function uses libfdisk Ask API for dialog with
* user.
*
* Returns: 0 on success, <0 on error.
*/
int fdisk_sun_set_rspeed(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uintmax_t res;
int rc = fdisk_ask_number(cxt, 1, /* low */
be16_to_cpu(sunlabel->rpm), /* default */
USHRT_MAX, /* high */
_("Rotation speed (rpm)"), /* query */
&res); /* result */
if (rc)
return rc;
sunlabel->rpm = cpu_to_be16(res);
return 0;
}
/**
* fdisk_sun_set_pcylcount
* @cxt: context
*
* Sets number of physical cylinders. This function uses libfdisk Ask API for
* dialog with user.
*
* Returns: 0 on success, <0 on error.
*/
int fdisk_sun_set_pcylcount(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel = self_disklabel(cxt);
uintmax_t res;
int rc = fdisk_ask_number(cxt, 0, /* low */
be16_to_cpu(sunlabel->pcyl), /* default */
USHRT_MAX, /* high */
_("Number of physical cylinders"), /* query */
&res); /* result */
if (!rc)
return rc;
sunlabel->pcyl = cpu_to_be16(res);
return 0;
}
static int sun_write_disklabel(struct fdisk_context *cxt)
{
struct sun_disklabel *sunlabel;
const size_t sz = sizeof(struct sun_disklabel);
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
sunlabel = self_disklabel(cxt);
/* Maybe geometry has been modified */
sunlabel->nhead = cpu_to_be16(cxt->geom.heads);
sunlabel->nsect = cpu_to_be16(cxt->geom.sectors);
if (cxt->geom.cylinders != be16_to_cpu(sunlabel->ncyl)) {
int a = cpu_to_be16(cxt->geom.cylinders);
int b = be16_to_cpu(sunlabel->acyl);
sunlabel->ncyl = a - b;
}
sunlabel->csum = 0;
sunlabel->csum = sun_pt_checksum(sunlabel);
if (lseek(cxt->dev_fd, 0, SEEK_SET) < 0)
return -errno;
if (write_all(cxt->dev_fd, sunlabel, sz) != 0)
return -errno;
return 0;
}
static int sun_set_partition(
struct fdisk_context *cxt,
size_t i,
struct fdisk_partition *pa)
{
struct sun_disklabel *sunlabel;
struct sun_partition *part;
struct sun_info *info;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
sunlabel = self_disklabel(cxt);
if (i >= cxt->label->nparts_max)
return -EINVAL;
if (pa->type) {
struct fdisk_parttype *t = pa->type;
if (t->code > UINT16_MAX)
return -EINVAL;
if (i == 2 && t->code != SUN_TAG_WHOLEDISK)
fdisk_info(cxt, _("Consider leaving partition 3 as Whole disk (5),\n"
"as SunOS/Solaris expects it and even Linux likes it.\n"));
part = &sunlabel->partitions[i];
info = &sunlabel->vtoc.infos[i];
if (cxt->script == NULL &&
t->code == SUN_TAG_LINUX_SWAP && !part->start_cylinder) {
int yes, rc;
rc = fdisk_ask_yesno(cxt,
_("It is highly recommended that the partition at offset 0\n"
"is UFS, EXT2FS filesystem or SunOS swap. Putting Linux swap\n"
"there may destroy your partition table and bootblock.\n"
"Are you sure you want to tag the partition as Linux swap?"), &yes);
if (rc)
return rc;
if (!yes)
return 1;
}
switch (t->code) {
case SUN_TAG_SWAP:
case SUN_TAG_LINUX_SWAP:
/* swaps are not mountable by default */
info->flags |= cpu_to_be16(SUN_FLAG_UNMNT);
break;
default:
/* assume other types are mountable;
user can change it anyway */
info->flags &= ~cpu_to_be16(SUN_FLAG_UNMNT);
break;
}
info->id = cpu_to_be16(t->code);
}
if (fdisk_partition_has_start(pa))
sunlabel->partitions[i].start_cylinder =
cpu_to_be32(pa->start / (cxt->geom.heads * cxt->geom.sectors));
if (fdisk_partition_has_size(pa))
sunlabel->partitions[i].num_sectors = cpu_to_be32(pa->size);
fdisk_label_set_changed(cxt->label, 1);
return 0;
}
static int sun_reset_alignment(struct fdisk_context *cxt __attribute__((__unused__)))
{
fdisk_set_first_lba(cxt, 0);
return 0;
}
static int sun_partition_is_used(
struct fdisk_context *cxt,
size_t i)
{
struct sun_disklabel *sunlabel;
assert(cxt);
assert(cxt->label);
assert(fdisk_is_label(cxt, SUN));
if (i >= cxt->label->nparts_max)
return 0;
sunlabel = self_disklabel(cxt);
return sunlabel->partitions[i].num_sectors ? 1 : 0;
}
static const struct fdisk_field sun_fields[] =
{
{ FDISK_FIELD_DEVICE, N_("Device"), 10, 0 },
{ FDISK_FIELD_START, N_("Start"), 5, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_END, N_("End"), 5, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_SECTORS, N_("Sectors"), 5, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_CYLINDERS,N_("Cylinders"), 5, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_SIZE, N_("Size"), 5, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_TYPEID, N_("Id"), 2, FDISK_FIELDFL_NUMBER },
{ FDISK_FIELD_TYPE, N_("Type"), 0.1, 0 },
{ FDISK_FIELD_ATTR, N_("Flags"), 0, FDISK_FIELDFL_NUMBER }
};
static const struct fdisk_label_operations sun_operations =
{
.probe = sun_probe_label,
.write = sun_write_disklabel,
.verify = sun_verify_disklabel,
.create = sun_create_disklabel,
.get_item = sun_get_disklabel_item,
.get_part = sun_get_partition,
.set_part = sun_set_partition,
.add_part = sun_add_partition,
.del_part = sun_delete_partition,
.part_is_used = sun_partition_is_used,
.part_toggle_flag = sun_toggle_partition_flag,
.reset_alignment = sun_reset_alignment,
};
/*
* allocates SUN label driver
*/
struct fdisk_label *fdisk_new_sun_label(struct fdisk_context *cxt __attribute__ ((__unused__)))
{
struct fdisk_label *lb;
struct fdisk_sun_label *sun;
sun = calloc(1, sizeof(*sun));
if (!sun)
return NULL;
/* initialize generic part of the driver */
lb = (struct fdisk_label *) sun;
lb->name = "sun";
lb->id = FDISK_DISKLABEL_SUN;
lb->op = &sun_operations;
lb->parttypes = sun_parttypes;
lb->nparttypes = ARRAY_SIZE(sun_parttypes) - 1;
lb->fields = sun_fields;
lb->nfields = ARRAY_SIZE(sun_fields);
lb->flags |= FDISK_LABEL_FL_REQUIRE_GEOMETRY;
lb->geom_min.sectors = 1;
lb->geom_min.heads = 1;
lb->geom_min.cylinders = 1;
lb->geom_max.sectors = 1024;
lb->geom_max.heads = 1024;
lb->geom_max.cylinders = USHRT_MAX;
return lb;
}
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