static int sgi_set_parttype(struct fdisk_context *cxt, int i,
struct fdisk_parttype *t)
{
if (i >= partitions || !t || t->type > UINT32_MAX)
return -EINVAL;
if (sgi_get_num_sectors(cxt, i) == 0) /* caught already before, ... */ {
printf(_("Sorry, only for non-empty partitions you can change the tag.\n"));
return -EINVAL;
}
if ((i == 10 && t->type != ENTIRE_DISK) || (i == 8 && t->type != 0))
printf(_("Consider leaving partition 9 as volume header (0), "
"and partition 11 as entire volume (6), as IRIX "
"expects it.\n\n"));
if (((t->type != ENTIRE_DISK) && (t->type != SGI_VOLHDR))
&& (sgi_get_start_sector(cxt, i) < 1)) {
read_chars(
_("It is highly recommended that the partition at offset 0\n"
"is of type \"SGI volhdr\", the IRIX system will rely on it to\n"
"retrieve from its directory standalone tools like sash and fx.\n"
"Only the \"SGI volume\" entire disk section may violate this.\n"
"Type YES if you are sure about tagging this partition differently.\n"));
if (strcmp (line_ptr, _("YES\n")))
return 1;
}
sgilabel->partitions[i].id = SSWAP32(t->type);
return 0;
}
/* fdisk_get_partition() backend */
static int sgi_get_partition(struct fdisk_context *cxt, size_t n, struct fdisk_partition *pa)
{
uint64_t start, len;
pa->used = sgi_get_num_sectors(cxt, n) > 0;
if (!pa->used)
return 0;
start = sgi_get_start_sector(cxt, n);
len = sgi_get_num_sectors(cxt, n);
pa->type = sgi_get_parttype(cxt, n);
pa->size = len;
pa->start = start;
pa->end = start + len - (len ? 1 : 0);
if (pa->type && pa->type->type == SGI_TYPE_ENTIRE_DISK)
pa->wholedisk = 1;
pa->attrs = sgi_get_swappartition(cxt) == (int) n ? "swap" :
sgi_get_bootpartition(cxt) == (int) n ? "boot" : NULL;
if (pa->attrs)
pa->attrs = strdup(pa->attrs);
return 0;
}
static int compare_start(struct fdisk_context *cxt,
const void *x, const void *y)
{
/*
* sort according to start sectors and prefers largest partition: entry
* zero is entire disk entry
*/
unsigned int i = *(int *) x;
unsigned int j = *(int *) y;
unsigned int a = sgi_get_start_sector(cxt, i);
unsigned int b = sgi_get_start_sector(cxt, j);
unsigned int c = sgi_get_num_sectors(cxt, i);
unsigned int d = sgi_get_num_sectors(cxt, j);
if (a == b)
return (d > c) ? 1 : (d == c) ? 0 : -1;
return (a > b) ? 1 : -1;
}
static int
compare_start(int *x, int *y) {
/*
* sort according to start sectors
* and prefers largest partition:
* entry zero is entire disk entry
*/
unsigned int i = *x;
unsigned int j = *y;
unsigned int a = sgi_get_start_sector(i);
unsigned int b = sgi_get_start_sector(j);
unsigned int c = sgi_get_num_sectors(i);
unsigned int d = sgi_get_num_sectors(j);
if (a == b)
return (d > c) ? 1 : (d == c) ? 0 : -1;
return (a > b) ? 1 : -1;
}
static int sgi_set_partition(struct fdisk_context *cxt,
size_t i,
struct fdisk_partition *pa)
{
struct sgi_disklabel *sgilabel;
if (i >= cxt->label->nparts_max)
return -EINVAL;
sgilabel = self_disklabel(cxt);
if (pa->type) {
struct fdisk_parttype *t = pa->type;
if (sgi_get_num_sectors(cxt, i) == 0) /* caught already before, ... */ {
fdisk_warnx(cxt, _("Sorry, only for non-empty partitions you can change the tag."));
return -EINVAL;
}
if ((i == 10 && t->code != SGI_TYPE_ENTIRE_DISK)
|| (i == 8 && t->code != 0))
fdisk_info(cxt, _("Consider leaving partition 9 as volume header (0), "
"and partition 11 as entire volume (6), "
"as IRIX expects it."));
if (cxt->script == NULL
&& ((t->code != SGI_TYPE_ENTIRE_DISK) && (t->code != SGI_TYPE_VOLHDR))
&& (sgi_get_start_sector(cxt, i) < 1)) {
int yes = 0;
fdisk_ask_yesno(cxt,
_("It is highly recommended that the partition at offset 0 "
"is of type \"SGI volhdr\", the IRIX system will rely on it to "
"retrieve from its directory standalone tools like sash and fx. "
"Only the \"SGI volume\" entire disk section may violate this. "
"Are you sure about tagging this partition differently?"), &yes);
if (!yes)
return 1;
}
sgilabel->partitions[i].type = cpu_to_be32(t->code);
}
if (fdisk_partition_has_start(pa))
sgilabel->partitions[i].first_block = cpu_to_be32(pa->start);
if (fdisk_partition_has_size(pa))
sgilabel->partitions[i].num_blocks = cpu_to_be32(pa->size);
fdisk_label_set_changed(cxt->label, 1);
return 0;
}
static void
sgi_change_sysid(int i, int sys)
{
if (sgi_get_num_sectors(i) == 0 ) { /* caught already before, ... */
printf("Sorry you may change the Tag of non-empty partitions\n");
return;
}
if ((sys != SGI_ENTIRE_DISK) && (sys != SGI_VOLHDR)
&& (sgi_get_start_sector(i) < 1)
) {
read_maybe_empty(
"It is highly recommended that the partition at offset 0\n"
"is of type \"SGI volhdr\", the IRIX system will rely on it to\n"
"retrieve from its directory standalone tools like sash and fx.\n"
"Only the \"SGI volume\" entire disk section may violate this.\n"
"Type YES if you are sure about tagging this partition differently.\n");
if (strcmp(line_ptr, "YES\n") != 0)
return;
}
sgilabel->partitions[i].id = SGI_SSWAP32(sys);
}
static int
verify_sgi(int verbose)
{
int Index[16]; /* list of valid partitions */
int sortcount = 0; /* number of used partitions, i.e. non-zero lengths */
int entire = 0, i = 0;
unsigned int start = 0;
long long gap = 0; /* count unused blocks */
unsigned int lastblock = sgi_get_lastblock();
clearfreelist();
for (i = 0; i < 16; i++) {
if (sgi_get_num_sectors(i) != 0) {
Index[sortcount++] = i;
if (sgi_get_sysid(i) == SGI_ENTIRE_DISK) {
if (entire++ == 1) {
if (verbose)
printf("More than one entire disk entry present\n");
}
}
}
}
if (sortcount == 0) {
if (verbose)
printf("No partitions defined\n");
return (lastblock > 0) ? 1 : (lastblock == 0) ? 0 : -1;
}
qsort(Index, sortcount, sizeof(Index[0]), (void*)compare_start);
if (sgi_get_sysid(Index[0]) == SGI_ENTIRE_DISK) {
if ((Index[0] != 10) && verbose)
printf("IRIX likes when Partition 11 covers the entire disk\n");
if ((sgi_get_start_sector(Index[0]) != 0) && verbose)
printf("The entire disk partition should start "
"at block 0,\n"
"not at diskblock %d\n",
sgi_get_start_sector(Index[0]));
if (debug) /* I do not understand how some disks fulfil it */
if ((sgi_get_num_sectors(Index[0]) != lastblock) && verbose)
printf("The entire disk partition is only %d diskblock large,\n"
"but the disk is %d diskblocks long\n",
sgi_get_num_sectors(Index[0]), lastblock);
lastblock = sgi_get_num_sectors(Index[0]);
} else {
if (verbose)
printf("One Partition (#11) should cover the entire disk\n");
if (debug > 2)
printf("sysid=%d\tpartition=%d\n",
sgi_get_sysid(Index[0]), Index[0]+1);
}
for (i = 1, start = 0; i < sortcount; i++) {
int cylsize = sgi_get_nsect() * sgi_get_ntrks();
if ((sgi_get_start_sector(Index[i]) % cylsize) != 0) {
if (debug) /* I do not understand how some disks fulfil it */
if (verbose)
printf("Partition %d does not start on cylinder boundary\n",
Index[i]+1);
}
if (sgi_get_num_sectors(Index[i]) % cylsize != 0) {
if (debug) /* I do not understand how some disks fulfil it */
if (verbose)
printf("Partition %d does not end on cylinder boundary\n",
Index[i]+1);
}
/* We cannot handle several "entire disk" entries. */
if (sgi_get_sysid(Index[i]) == SGI_ENTIRE_DISK) continue;
if (start > sgi_get_start_sector(Index[i])) {
if (verbose)
printf("Partitions %d and %d overlap by %d sectors\n",
Index[i-1]+1, Index[i]+1,
start - sgi_get_start_sector(Index[i]));
if (gap > 0) gap = -gap;
if (gap == 0) gap = -1;
}
if (start < sgi_get_start_sector(Index[i])) {
if (verbose)
printf("Unused gap of %8u sectors - sectors %8u-%8u\n",
sgi_get_start_sector(Index[i]) - start,
start, sgi_get_start_sector(Index[i])-1);
gap += sgi_get_start_sector(Index[i]) - start;
add2freelist(start, sgi_get_start_sector(Index[i]));
}
start = sgi_get_start_sector(Index[i])
+ sgi_get_num_sectors(Index[i]);
if (debug > 1) {
if (verbose)
printf("%2d:%12d\t%12d\t%12d\n", Index[i],
sgi_get_start_sector(Index[i]),
sgi_get_num_sectors(Index[i]),
sgi_get_sysid(Index[i]));
}
}
if (start < lastblock) {
if (verbose)
printf("Unused gap of %8u sectors - sectors %8u-%8u\n",
lastblock - start, start, lastblock-1);
gap += lastblock - start;
add2freelist(start, lastblock);
}
/*
* Done with arithmetics
* Go for details now
*/
if (verbose) {
if (!sgi_get_num_sectors(sgi_get_bootpartition())) {
printf("\nThe boot partition does not exist\n");
}
if (!sgi_get_num_sectors(sgi_get_swappartition())) {
printf("\nThe swap partition does not exist\n");
} else {
if ((sgi_get_sysid(sgi_get_swappartition()) != SGI_SWAP)
&& (sgi_get_sysid(sgi_get_swappartition()) != LINUX_SWAP))
printf("\nThe swap partition has no swap type\n");
}
if (sgi_check_bootfile("/unix"))
printf("\tYou have chosen an unusual boot file name\n");
}
return (gap > 0) ? 1 : (gap == 0) ? 0 : -1;
}
static void
sgi_list_table(int xtra)
{
int i, w, wd;
int kpi = 0; /* kernel partition ID */
if (xtra) {
printf("\nDisk %s (SGI disk label): %d heads, %d sectors\n"
"%d cylinders, %d physical cylinders\n"
"%d extra sects/cyl, interleave %d:1\n"
"%s\n"
"Units = %s of %d * 512 bytes\n\n",
disk_device, heads, sectors, cylinders,
SGI_SSWAP16(sgiparam.pcylcount),
SGI_SSWAP16(sgiparam.sparecyl),
SGI_SSWAP16(sgiparam.ilfact),
(char *)sgilabel,
str_units(PLURAL), units_per_sector);
} else {
printf("\nDisk %s (SGI disk label): "
"%d heads, %d sectors, %d cylinders\n"
"Units = %s of %d * 512 bytes\n\n",
disk_device, heads, sectors, cylinders,
str_units(PLURAL), units_per_sector );
}
w = strlen(disk_device);
wd = sizeof("Device") - 1;
if (w < wd)
w = wd;
printf("----- partitions -----\n"
"Pt# %*s Info Start End Sectors Id System\n",
w + 2, "Device");
for (i = 0 ; i < partitions; i++) {
if (sgi_get_num_sectors(i) || debug ) {
uint32_t start = sgi_get_start_sector(i);
uint32_t len = sgi_get_num_sectors(i);
kpi++; /* only count nonempty partitions */
printf(
"%2d: %s %4s %9ld %9ld %9ld %2x %s\n",
/* fdisk part number */ i+1,
/* device */ partname(disk_device, kpi, w+3),
/* flags */ (sgi_get_swappartition() == i) ? "swap" :
/* flags */ (sgi_get_bootpartition() == i) ? "boot" : " ",
/* start */ (long) scround(start),
/* end */ (long) scround(start+len)-1,
/* no odd flag on end */(long) len,
/* type id */ sgi_get_sysid(i),
/* type name */ partition_type(sgi_get_sysid(i)));
}
}
printf("----- Bootinfo -----\nBootfile: %s\n"
"----- Directory Entries -----\n",
sgilabel->boot_file);
for (i = 0 ; i < sgi_volumes; i++) {
if (sgilabel->directory[i].vol_file_size) {
uint32_t start = SGI_SSWAP32(sgilabel->directory[i].vol_file_start);
uint32_t len = SGI_SSWAP32(sgilabel->directory[i].vol_file_size);
unsigned char *name = sgilabel->directory[i].vol_file_name;
printf("%2d: %-10s sector%5u size%8u\n",
i, (char*)name, (unsigned int) start, (unsigned int) len);
}
}
}
static int verify_disklabel(struct fdisk_context *cxt, int verbose)
{
int Index[SGI_MAXPARTITIONS]; /* list of valid partitions */
int sortcount = 0; /* number of used partitions, i.e. non-zero lengths */
int entire = 0, i = 0;
unsigned int start = 0;
long long gap = 0; /* count unused blocks */
unsigned int lastblock = sgi_get_lastblock(cxt);
assert(cxt);
assert(cxt->label);
assert(fdisk_is_disklabel(cxt, SGI));
clear_freelist(cxt);
memset(Index, 0, sizeof(Index));
for (i=0; i < SGI_MAXPARTITIONS; i++) {
if (sgi_get_num_sectors(cxt, i) != 0) {
Index[sortcount++] = i;
if (sgi_get_sysid(cxt, i) == SGI_TYPE_ENTIRE_DISK
&& entire++ == 1) {
if (verbose)
fdisk_info(cxt, _("More than one entire "
"disk entry present."));
}
}
}
if (sortcount == 0) {
if (verbose)
fdisk_info(cxt, _("No partitions defined"));
return (lastblock > 0) ? 1 : (lastblock == 0) ? 0 : -1;
}
sort(Index, sortcount, sizeof(Index[0]), cxt, compare_start);
if (sgi_get_sysid(cxt, Index[0]) == SGI_TYPE_ENTIRE_DISK) {
if (verbose && Index[0] != 10)
fdisk_info(cxt, _("IRIX likes when Partition 11 "
"covers the entire disk."));
if (verbose && sgi_get_start_sector(cxt, Index[0]) != 0)
fdisk_info(cxt, _("The entire disk partition should "
"start at block 0, not at diskblock %d."),
sgi_get_start_sector(cxt, Index[0]));
if (verbose && sgi_get_num_sectors(cxt, Index[0]) != lastblock)
DBG(LABEL, dbgprint(
"entire disk partition=%ds, but disk=%ds",
sgi_get_num_sectors(cxt, Index[0]),
lastblock));
lastblock = sgi_get_num_sectors(cxt, Index[0]);
} else if (verbose) {
fdisk_info(cxt, _("Partition 11 should cover the entire disk."));
DBG(LABEL, dbgprint("sysid=%d\tpartition=%d",
sgi_get_sysid(cxt, Index[0]), Index[0]+1));
}
for (i=1, start=0; i<sortcount; i++) {
int cylsize = sgi_get_nsect(cxt) * sgi_get_ntrks(cxt);
if (verbose && cylsize
&& (sgi_get_start_sector(cxt, Index[i]) % cylsize) != 0)
DBG(LABEL, dbgprint("partition %d does not start on "
"cylinder boundary.", Index[i]+1));
if (verbose && cylsize
&& sgi_get_num_sectors(cxt, Index[i]) % cylsize != 0)
DBG(LABEL, dbgprint("partition %d does not end on "
"cylinder boundary.", Index[i]+1));
/* We cannot handle several "entire disk" entries. */
if (sgi_get_sysid(cxt, Index[i]) == SGI_TYPE_ENTIRE_DISK)
continue;
if (start > sgi_get_start_sector(cxt, Index[i])) {
if (verbose)
fdisk_info(cxt, _("The Partition %d and %d overlap "
"by %d sectors."),
Index[i-1]+1, Index[i]+1,
start - sgi_get_start_sector(cxt, Index[i]));
if (gap > 0) gap = -gap;
if (gap == 0) gap = -1;
}
if (start < sgi_get_start_sector(cxt, Index[i])) {
if (verbose)
fdisk_info(cxt, _("Unused gap of %8u sectors "
"- sectors %8u-%u"),
sgi_get_start_sector(cxt, Index[i]) - start,
start, sgi_get_start_sector(cxt, Index[i])-1);
gap += sgi_get_start_sector(cxt, Index[i]) - start;
add_to_freelist(cxt, start,
sgi_get_start_sector(cxt, Index[i]));
}
start = sgi_get_start_sector(cxt, Index[i])
+ sgi_get_num_sectors(cxt, Index[i]);
/* Align free space on cylinder boundary */
if (cylsize && start % cylsize)
start += cylsize - (start % cylsize);
DBG(LABEL, dbgprint("%2d:%12d\t%12d\t%12d", Index[i],
sgi_get_start_sector(cxt, Index[i]),
sgi_get_num_sectors(cxt, Index[i]),
sgi_get_sysid(cxt, Index[i])));
}
if (start < lastblock) {
if (verbose)
fdisk_info(cxt, _("Unused gap of %8u sectors - sectors %8u-%u"),
lastblock - start, start, lastblock-1);
gap += lastblock - start;
add_to_freelist(cxt, start, lastblock);
}
/*
* Done with arithmetics. Go for details now
*/
if (verbose) {
if (sgi_get_bootpartition(cxt) < 0
|| !sgi_get_num_sectors(cxt, sgi_get_bootpartition(cxt)))
fdisk_info(cxt, _("The boot partition does not exist."));
if (sgi_get_swappartition(cxt) < 0
|| !sgi_get_num_sectors(cxt, sgi_get_swappartition(cxt)))
fdisk_info(cxt, _("The swap partition does not exist."));
else if (sgi_get_sysid(cxt, sgi_get_swappartition(cxt)) != SGI_TYPE_SWAP
&& sgi_get_sysid(cxt, sgi_get_swappartition(cxt)) != MBR_LINUX_SWAP_PARTITION)
fdisk_info(cxt, _("The swap partition has no swap type."));
if (sgi_check_bootfile(cxt, "/unix"))
fdisk_info(cxt, _("You have chosen an unusual boot "
"file name."));
}
return (gap > 0) ? 1 : (gap == 0) ? 0 : -1;
}
static int sgi_list_table(struct fdisk_context *cxt)
{
struct tt *tb = NULL;
struct sgi_disklabel *sgilabel = self_disklabel(cxt);
struct sgi_device_parameter *sgiparam = &sgilabel->devparam;
size_t i, used;
char *p;
int rc;
if (fdisk_context_display_details(cxt))
fdisk_colon(cxt, _(
"Label geometry: %d heads, %llu sectors\n"
" %llu cylinders, %d physical cylinders\n"
" %d extra sects/cyl, interleave %d:1\n"),
cxt->geom.heads, cxt->geom.sectors,
cxt->geom.cylinders, be16_to_cpu(sgiparam->pcylcount),
(int) sgiparam->sparecyl, be16_to_cpu(sgiparam->ilfact));
/*
* Partitions
*/
tb = tt_new_table(TT_FL_FREEDATA);
if (!tb)
return -ENOMEM;
tt_define_column(tb, _("Pt#"), 3, TT_FL_RIGHT);
tt_define_column(tb, _("Device"), 0.2, 0);
tt_define_column(tb, _("Info"), 2, 0);
tt_define_column(tb, _("Start"), 9, TT_FL_RIGHT);
tt_define_column(tb, _("End"), 9, TT_FL_RIGHT);
tt_define_column(tb, _("Sectors"), 9, TT_FL_RIGHT);
tt_define_column(tb, _("Id"), 2, TT_FL_RIGHT);
tt_define_column(tb, _("System"), 0.2, TT_FL_TRUNC);
for (i = 0, used = 1; i < cxt->label->nparts_max; i++) {
uint32_t start, len;
struct fdisk_parttype *t;
struct tt_line *ln;
if (sgi_get_num_sectors(cxt, i) == 0)
continue;
ln = tt_add_line(tb, NULL);
if (!ln)
continue;
start = sgi_get_start_sector(cxt, i);
len = sgi_get_num_sectors(cxt, i);
t = fdisk_get_partition_type(cxt, i);
if (asprintf(&p, "%zu:", i + 1) > 0)
tt_line_set_data(ln, 0, p); /* # */
p = fdisk_partname(cxt->dev_path, used++);
if (p)
tt_line_set_data(ln, 1, p); /* Device */
p = sgi_get_swappartition(cxt) == (int) i ? "swap" :
sgi_get_bootpartition(cxt) == (int) i ? "boot" : NULL;
if (p)
tt_line_set_data(ln, 2, strdup(p)); /* Info */
if (asprintf(&p, "%ju", (uintmax_t) fdisk_scround(cxt, start)) > 0)
tt_line_set_data(ln, 3, p); /* Start */
if (asprintf(&p, "%ju", (uintmax_t) fdisk_scround(cxt, start + len) - 1) > 0)
tt_line_set_data(ln, 4, p); /* End */
if (asprintf(&p, "%ju", (uintmax_t) len) > 0)
tt_line_set_data(ln, 5, p); /* Sectors*/
if (asprintf(&p, "%2x", t->type) > 0)
tt_line_set_data(ln, 6, p); /* type ID */
if (t->name)
tt_line_set_data(ln, 7, strdup(t->name)); /* type Name */
fdisk_free_parttype(t);
}
rc = fdisk_print_table(cxt, tb);
tt_free_table(tb);
if (rc)
return rc;
/*
* Volumes
*/
tb = tt_new_table(TT_FL_FREEDATA);
if (!tb)
return -ENOMEM;
tt_define_column(tb, _("#"), 3, TT_FL_RIGHT);
tt_define_column(tb, _("Name"), 0.2, 0);
tt_define_column(tb, _("Sector"), 2, TT_FL_RIGHT);
tt_define_column(tb, _("Size"), 9, TT_FL_RIGHT);
for (i = 0, used = 0; i < SGI_MAXVOLUMES; i++) {
struct tt_line *ln;
uint32_t start = be32_to_cpu(sgilabel->volume[i].block_num),
len = be32_to_cpu(sgilabel->volume[i].num_bytes);
if (!len)
continue;
ln = tt_add_line(tb, NULL);
if (!ln)
continue;
if (asprintf(&p, "%zu:", i) > 0)
tt_line_set_data(ln, 0, p); /* # */
if (*sgilabel->volume[i].name)
tt_line_set_data(ln, 1,
strndup((char *) sgilabel->volume[i].name,
sizeof(sgilabel->volume[i].name))); /* Name */
if (asprintf(&p, "%ju", (uintmax_t) start) > 0)
tt_line_set_data(ln, 2, p); /* Sector */
if (asprintf(&p, "%ju", (uintmax_t) len) > 0)
tt_line_set_data(ln, 3, p); /* Size */
used++;
}
if (used)
rc = fdisk_print_table(cxt, tb);
tt_free_table(tb);
fdisk_colon(cxt, _("Bootfile: %s"), sgilabel->boot_file);
return rc;
}
void
sgi_list_table(struct fdisk_context *cxt, int xtra) {
int i, w;
int kpi = 0; /* kernel partition ID */
w = strlen(cxt->dev_path);
if (xtra) {
printf(_("\nDisk %s (SGI disk label): %d heads, %llu sectors\n"
"%llu cylinders, %d physical cylinders\n"
"%d extra sects/cyl, interleave %d:1\n"
"%s\n"
"Units = %s of %d * %ld bytes\n\n"),
cxt->dev_path, cxt->geom.heads, cxt->geom.sectors, cxt->geom.cylinders,
SSWAP16(sgiparam.pcylcount),
(int) sgiparam.sparecyl, SSWAP16(sgiparam.ilfact),
(char *)sgilabel,
str_units(PLURAL), units_per_sector,
cxt->sector_size);
} else {
printf(_("\nDisk %s (SGI disk label): "
"%d heads, %llu sectors, %llu cylinders\n"
"Units = %s of %d * %ld bytes\n\n"),
cxt->dev_path, cxt->geom.heads, cxt->geom.sectors, cxt->geom.cylinders,
str_units(PLURAL), units_per_sector,
cxt->sector_size);
}
printf(_("----- partitions -----\n"
"Pt# %*s Info Start End Sectors Id System\n"),
w + 1, _("Device"));
for (i = 0 ; i < partitions; i++) {
if (sgi_get_num_sectors(cxt, i) || debug) {
uint32_t start = sgi_get_start_sector(cxt, i);
uint32_t len = sgi_get_num_sectors(cxt, i);
struct fdisk_parttype *t = fdisk_get_partition_type(cxt, i);
kpi++; /* only count nonempty partitions */
printf(
"%2d: %s %4s %9ld %9ld %9ld %2x %s\n",
/* fdisk part number */ i+1,
/* device */ partname(cxt->dev_path, kpi, w+2),
/* flags */ (sgi_get_swappartition(cxt) == i) ? "swap" :
/* flags */ (sgi_get_bootpartition(cxt) == i) ? "boot" : " ",
/* start */ (long) scround(start),
/* end */ (long) scround(start+len)-1,
/* no odd flag on end */ (long) len,
/* type id */ t->type,
/* type name */ t->name);
fdisk_free_parttype(t);
}
}
printf(_("----- Bootinfo -----\nBootfile: %s\n"
"----- Directory Entries -----\n"),
sgilabel->boot_file);
for (i = 0 ; i < volumes; i++) {
if (sgilabel->directory[i].vol_file_size) {
uint32_t start = SSWAP32(sgilabel->directory[i].vol_file_start);
uint32_t len = SSWAP32(sgilabel->directory[i].vol_file_size);
unsigned char *name = sgilabel->directory[i].vol_file_name;
printf(_("%2d: %-10s sector%5u size%8u\n"),
i, name, (unsigned int) start,
(unsigned int) len);
}
}
}
