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|
/****************************************************************************
*
* CFDISK
*
* cfdisk is a curses based disk drive partitioning program that can
* create partitions for a wide variety of operating systems including
* Linux, MS-DOS and OS/2.
*
* cfdisk was inspired by the fdisk program, by A. V. Le Blanc
* (LeBlanc@mcc.ac.uk).
*
* Copyright (C) 1994 Kevin E. Martin (martin@cs.unc.edu)
*
* cfdisk is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* cfdisk is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Created: Fri Jan 28 22:46:58 1994, martin@cs.unc.edu
* >2GB patches: Sat Feb 11 09:08:10 1995, faith@cs.unc.edu
* Prettier menus: Sat Feb 11 09:08:25 1995, Janne Kukonlehto
* <jtklehto@stekt.oulu.fi>
* Versions 0.8e-p: aeb@cwi.nl
* Rebaptised 2.9p, following util-linux versioning.
*
* Recognition of NTFS / HPFS difference inspired by patches
* from Marty Leisner <leisner@sdsp.mc.xerox.com>
* Exit codes by Enrique Zanardi <ezanardi@ull.es>:
* 0: all went well
* 1: command line error, out of memory
* 2: hardware problems [Cannot open/seek/read/write disk drive].
* 3: ioctl(fd, HDIO_GETGEO,...) failed. (Probably it is not a disk.)
* 4: bad partition table on disk. [Bad primary/logical partition].
*
* Sat, 23 Jan 1999 19:34:45 +0100 <Vincent.Renardias@ldsol.com>
* Internationalized + provided initial French translation.
* Sat Mar 20 09:26:34 EST 1999 <acme@conectiva.com.br>
* Some more i18n.
* Sun Jul 18 03:19:42 MEST 1999 <aeb@cwi.nl>
* Terabyte-sized disks.
* Sat Jun 30 05:23:19 EST 2001 <nathans@sgi.com>
* XFS label recognition.
* Thu Nov 22 15:42:56 CET 2001 <flavio.stanchina@tin.it>
* ext3 and ReiserFS recognition.
* Sun Oct 12 17:43:43 CEST 2003 <flavio.stanchina@tin.it>
* JFS recognition; ReiserFS label recognition.
*
****************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <unistd.h>
#include <ctype.h>
#include <errno.h>
#include <getopt.h>
#include <fcntl.h>
#ifdef HAVE_SLANG_H
#include <slang.h>
#elif defined(HAVE_SLANG_SLANG_H)
#include <slang/slang.h>
#endif
#ifdef HAVE_SLCURSES_H
#include <slcurses.h>
#elif defined(HAVE_SLANG_SLCURSES_H)
#include <slang/slcurses.h>
#elif defined(HAVE_NCURSESW_NCURSES_H) && defined(HAVE_WIDECHAR)
#include <ncursesw/ncurses.h>
#elif defined(HAVE_NCURSES_H)
#include <ncurses.h>
#elif defined(HAVE_NCURSES_NCURSES_H)
#include <ncurses/ncurses.h>
#endif
#include <signal.h>
#include <math.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#ifdef HAVE_LIBBLKID
#include <blkid.h>
#endif
#ifdef HAVE_WIDECHAR
#include <wctype.h>
#endif
#include "closestream.h"
#include "nls.h"
#include "rpmatch.h"
#include "blkdev.h"
#include "strutils.h"
#include "common.h"
#include "gpt.h"
#include "mbsalign.h"
#include "widechar.h"
#ifdef __GNU__
#define DEFAULT_DEVICE "/dev/hd0"
#define ALTERNATE_DEVICE "/dev/sd0"
#elif defined(__FreeBSD__)
#define DEFAULT_DEVICE "/dev/ad0"
#define ALTERNATE_DEVICE "/dev/da0"
#else
#define DEFAULT_DEVICE "/dev/hda"
#define ALTERNATE_DEVICE "/dev/sda"
#endif
/* With K=1024 we have `binary' megabytes, gigabytes, etc.
Some misguided hackers like that.
With K=1000 we have MB and GB that follow the standards
[SI, ATA, IEEE etc] and the disk manufacturers and the law. */
#define K 1000
#define LINE_LENGTH 80
#define MAXIMUM_PARTS 60
#define SECTOR_SIZE 512
#define MAX_HEADS 256
#define MAX_SECTORS 63
#define ACTIVE_FLAG 0x80
#define PART_TABLE_FLAG0 0x55
#define PART_TABLE_FLAG1 0xAA
#define UNUSABLE -1
#define FREE_SPACE 0x00
#define DOS_EXTENDED 0x05
#define OS2_OR_NTFS 0x07
#define WIN98_EXTENDED 0x0f
#define LINUX_EXTENDED 0x85
#define LINUX_MINIX 0x81
#define LINUX_SWAP 0x82
#define LINUX 0x83
#define PRI_OR_LOG -1
#define PRIMARY -2
#define LOGICAL -3
#define COL_ID_WIDTH 25
#define ESC '\033'
#define DEL '\177'
#define BELL '\007'
#define REDRAWKEY '\014' /* ^L */
/* Display units */
#define GIGABYTES 1
#define MEGABYTES 2
#define SECTORS 3
#define CYLINDERS 4
#define GS_DEFAULT -1
#define GS_ESCAPE -2
#define PRINT_RAW_TABLE 1
#define PRINT_SECTOR_TABLE 2
#define PRINT_PARTITION_TABLE 4
#define IS_PRIMARY(p) ((p) >= 0 && (p) < 4)
#define IS_LOGICAL(p) ((p) > 3)
#define round_int(d) ((double)((int)(d+0.5)))
#define ceiling(d) ((double)(((d) != (int)(d)) ? (int)(d+1.0) : (int)(d)))
struct partition {
unsigned char boot_ind; /* 0x80 - active */
unsigned char head; /* starting head */
unsigned char sector; /* starting sector */
unsigned char cyl; /* starting cylinder */
unsigned char sys_ind; /* What partition type */
unsigned char end_head; /* end head */
unsigned char end_sector; /* end sector */
unsigned char end_cyl; /* end cylinder */
unsigned char start4[4]; /* starting sector counting from 0 */
unsigned char size4[4]; /* nr of sectors in partition */
};
int heads = 0;
int sectors = 0;
long long cylinders = 0;
int cylinder_size = 0; /* heads * sectors */
long long actual_size = 0; /* (in 512-byte sectors) - set using ioctl */
/* explicitly given user values */
int user_heads = 0, user_sectors = 0;
long long user_cylinders = 0;
/* kernel values; ignore the cylinders */
int kern_heads = 0, kern_sectors = 0;
/* partition-table derived values */
int pt_heads = 0, pt_sectors = 0;
static void
set_hsc0(unsigned char *h, unsigned char *s, int *c, long long sector) {
*s = sector % sectors + 1;
sector /= sectors;
*h = sector % heads;
sector /= heads;
*c = sector;
}
static void
set_hsc(unsigned char *h, unsigned char *s, unsigned char *c,
long long sector) {
int cc;
if (sector >= 1024*cylinder_size)
sector = 1024*cylinder_size - 1;
set_hsc0(h, s, &cc, sector);
*c = cc & 0xFF;
*s |= (cc >> 2) & 0xC0;
}
static void
set_hsc_begin(struct partition *p, long long sector) {
set_hsc(& p->head, & p->sector, & p->cyl, sector);
}
static void
set_hsc_end(struct partition *p, long long sector) {
set_hsc(& p->end_head, & p->end_sector, & p->end_cyl, sector);
}
#define is_extended(x) ((x) == DOS_EXTENDED || (x) == WIN98_EXTENDED || \
(x) == LINUX_EXTENDED)
/* start_sect and nr_sects are stored little endian on all machines */
/* moreover, they are not aligned correctly */
static void
store4_little_endian(unsigned char *cp, unsigned int val) {
cp[0] = (val & 0xff);
cp[1] = ((val >> 8) & 0xff);
cp[2] = ((val >> 16) & 0xff);
cp[3] = ((val >> 24) & 0xff);
}
static unsigned int
read4_little_endian(unsigned char *cp) {
return (unsigned int)(cp[0]) + ((unsigned int)(cp[1]) << 8)
+ ((unsigned int)(cp[2]) << 16)
+ ((unsigned int)(cp[3]) << 24);
}
static void
set_start_sect(struct partition *p, unsigned int start_sect) {
store4_little_endian(p->start4, start_sect);
}
static unsigned int
get_start_sect(struct partition *p) {
return read4_little_endian(p->start4);
}
static void
set_nr_sects(struct partition *p, unsigned int nr_sects) {
store4_little_endian(p->size4, nr_sects);
}
static unsigned int
get_nr_sects(struct partition *p) {
return read4_little_endian(p->size4);
}
#define ALIGNMENT 2
typedef union {
struct {
unsigned char align[ALIGNMENT];
unsigned char b[SECTOR_SIZE];
} c;
struct {
unsigned char align[ALIGNMENT];
unsigned char buffer[0x1BE];
struct partition part[4];
unsigned char magicflag[2];
} p;
} partition_table;
typedef struct {
long long first_sector; /* first sector in partition */
long long last_sector; /* last sector in partition */
long offset; /* offset from first sector to start of data */
int flags; /* active == 0x80 */
int id; /* filesystem type */
int num; /* number of partition -- primary vs. logical */
#define LABELSZ 16
char volume_label[LABELSZ+1];
#define OSTYPESZ 8
char ostype[OSTYPESZ+1];
#define FSTYPESZ 12
char fstype[FSTYPESZ+1];
} partition_info;
char *disk_device = DEFAULT_DEVICE;
int fd;
int changed = FALSE;
int opened = FALSE;
int opentype;
int curses_started = 0;
partition_info p_info[MAXIMUM_PARTS];
partition_info ext_info;
int num_parts = 0;
int logical = 0;
long long logical_sectors[MAXIMUM_PARTS];
__sighandler_t old_SIGINT, old_SIGTERM;
int arrow_cursor = FALSE;
int display_units = MEGABYTES;
int zero_table = FALSE;
int use_partition_table_geometry = FALSE;
int print_only = 0;
/* Curses screen information */
int cur_part = 0;
int warning_last_time = FALSE;
int defined = FALSE;
int COLUMNS = 80;
int NUM_ON_SCREEN = 1;
/* Y coordinates */
int HEADER_START = 0;
int DISK_TABLE_START = 6;
int WARNING_START = 23;
int COMMAND_LINE_Y = 21;
/* X coordinates */
int NAME_START = 4;
int FLAGS_START = 16;
int PTYPE_START = 28;
int FSTYPE_START = 38;
int LABEL_START = 54;
int SIZE_START = 68;
int COMMAND_LINE_X = 5;
static void die_x(int ret);
static void draw_screen(void);
/* Guaranteed alloc */
static void *
xmalloc (size_t size) {
void *t;
if (size == 0)
return NULL;
t = malloc (size);
if (t == NULL) {
fprintf (stderr, _("%s: Out of memory!\n"), "cfdisk");
die_x(1);
}
return t;
}
/* Some libc's have their own basename() */
static char *
my_basename(char *devname) {
char *s = strrchr(devname, '/');
return s ? s+1 : devname;
}
static char *
partition_type_name(unsigned char type) {
struct systypes *s = i386_sys_types;
while(s->name && s->type != type)
s++;
return s->name;
}
static char *
partition_type_text(int i) {
if (p_info[i].id == UNUSABLE)
return _("Unusable");
else if (p_info[i].id == FREE_SPACE)
return _("Free Space");
else if (*p_info[i].fstype)
return p_info[i].fstype;
else
return _(partition_type_name(p_info[i].id));
}
static void
fdexit(int ret) {
if (opened) {
if (changed)
fsync(fd);
close(fd);
}
if (changed) {
fprintf(stderr, _("Disk has been changed.\n"));
#if 0
fprintf(stderr, _("Reboot the system to ensure the partition "
"table is correctly updated.\n"));
#endif
fprintf( stderr, _("\nWARNING: If you have created or modified any\n"
"DOS 6.x partitions, please see the cfdisk manual\n"
"page for additional information.\n") );
}
exit(ret);
}
/*
* Note that @len is size of @str buffer.
*
* Returns number of read bytes (without \0).
*/
static int
get_string(char *str, int len, char *def) {
size_t cells = 0;
ssize_t i = 0;
int x, y;
int use_def = FALSE;
wint_t c;
getyx(stdscr, y, x);
clrtoeol();
str[i] = 0;
if (def != NULL) {
mvaddstr(y, x, def);
move(y, x);
use_def = TRUE;
}
refresh();
while (1) {
#if !defined(HAVE_SLCURSES_H) && !defined(HAVE_SLANG_SLCURSES_H) && \
defined(HAVE_LIBNCURSESW) && defined(HAVE_WIDECHAR)
if (get_wch(&c) == ERR) {
#else
if ((c = getch()) == ERR) {
#endif
if (!isatty(STDIN_FILENO))
exit(2);
else
break;
}
if (c == '\r' || c == '\n' || c == KEY_ENTER)
break;
switch (c) {
case ESC:
move(y, x);
clrtoeol();
refresh();
return GS_ESCAPE;
case DEL:
case '\b':
case KEY_BACKSPACE:
if (i > 0) {
cells--;
i = mbs_truncate(str, &cells);
if (i < 0)
return GS_ESCAPE;
mvaddch(y, x + cells, ' ');
move(y, x + cells);
} else if (use_def) {
clrtoeol();
use_def = FALSE;
} else
putchar(BELL);
break;
default:
#if defined(HAVE_LIBNCURSESW) && defined(HAVE_WIDECHAR)
if (i + 1 < len && iswprint(c)) {
wchar_t wc = (wchar_t) c;
char s[MB_CUR_MAX + 1];
int sz = wctomb(s, wc);
if (sz > 0 && sz + i < len) {
s[sz] = '\0';
mvaddnstr(y, x + cells, s, sz);
if (use_def) {
clrtoeol();
use_def = FALSE;
}
memcpy(str + i, s, sz);
i += sz;
str[i] = '\0';
cells += wcwidth(wc);
} else
putchar(BELL);
}
#else
if (i + 1 < len && isprint(c)) {
mvaddch(y, x + cells, c);
if (use_def) {
clrtoeol();
use_def = FALSE;
}
str[i++] = c;
str[i] = 0;
cells++;
}
#endif
else
putchar(BELL);
}
refresh();
}
if (use_def)
return GS_DEFAULT;
else
return i;
}
static void
clear_warning(void) {
int i;
if (!curses_started || !warning_last_time)
return;
move(WARNING_START,0);
for (i = 0; i < COLS; i++)
addch(' ');
warning_last_time = FALSE;
}
static void
print_warning(char *s) {
if (!curses_started) {
fprintf(stderr, "%s\n", s);
} else {
mvaddstr(WARNING_START, (COLS-strlen(s))/2, s);
putchar(BELL); /* CTRL-G */
warning_last_time = TRUE;
}
}
static void
fatal(char *s, int ret) {
char *err1 = _("FATAL ERROR");
char *err2 = _("Press any key to exit cfdisk");
if (curses_started) {
char *str = xmalloc(strlen(s) + strlen(err1) + strlen(err2) + 10);
sprintf(str, "%s: %s", err1, s);
if (strlen(str) > (size_t) COLS)
str[COLS] = 0;
mvaddstr(WARNING_START, (COLS-strlen(str))/2, str);
sprintf(str, "%s", err2);
if (strlen(str) > (size_t) COLS)
str[COLS] = 0;
mvaddstr(WARNING_START+1, (COLS-strlen(str))/2, str);
putchar(BELL); /* CTRL-G */
refresh();
(void)getch();
die_x(ret);
} else {
fprintf(stderr, "%s: %s\n", err1, s);
exit(ret);
}
}
static void
die(int dummy __attribute__((__unused__))) {
die_x(0);
}
static void
die_x(int ret) {
signal(SIGINT, old_SIGINT);
signal(SIGTERM, old_SIGTERM);
#if defined(HAVE_SLCURSES_H) || defined(HAVE_SLANG_SLCURSES_H)
SLsmg_gotorc(LINES-1, 0);
SLsmg_refresh();
#else
mvcur(0, COLS-1, LINES-1, 0);
#endif
nl();
endwin();
printf("\n");
fdexit(ret);
}
static void
read_sector(unsigned char *buffer, long long sect_num) {
if (lseek(fd, sect_num*SECTOR_SIZE, SEEK_SET) < 0)
fatal(_("Cannot seek on disk drive"), 2);
if (read(fd, buffer, SECTOR_SIZE) != SECTOR_SIZE)
fatal(_("Cannot read disk drive"), 2);
}
static void
write_sector(unsigned char *buffer, long long sect_num) {
if (lseek(fd, sect_num*SECTOR_SIZE, SEEK_SET) < 0)
fatal(_("Cannot seek on disk drive"), 2);
if (write(fd, buffer, SECTOR_SIZE) != SECTOR_SIZE)
fatal(_("Cannot write disk drive"), 2);
}
#ifdef HAVE_LIBBLKID
static void
get_fsinfo(int i)
{
blkid_probe pr;
blkid_loff_t offset, size;
const char *data;
offset = (p_info[i].first_sector + p_info[i].offset) * SECTOR_SIZE;
size = (p_info[i].last_sector - p_info[i].first_sector + 1) * SECTOR_SIZE;
pr = blkid_new_probe();
if (!pr)
return;
blkid_probe_enable_superblocks(pr, 1);
blkid_probe_set_superblocks_flags(pr, BLKID_SUBLKS_LABEL |
BLKID_SUBLKS_TYPE);
if (blkid_probe_set_device(pr, fd, offset, size))
goto done;
if (blkid_do_safeprobe(pr))
goto done;
if (!blkid_probe_lookup_value(pr, "TYPE", &data, 0))
strncpy(p_info[i].fstype, data, FSTYPESZ);
if (!blkid_probe_lookup_value(pr, "LABEL", &data, 0))
strncpy(p_info[i].volume_label, data, LABELSZ);
done:
blkid_free_probe(pr);
}
#endif
static void
check_part_info(void) {
int i, pri = 0, log = 0;
for (i = 0; i < num_parts; i++)
if (p_info[i].id > 0 && IS_PRIMARY(p_info[i].num))
pri++;
else if (p_info[i].id > 0 && IS_LOGICAL(p_info[i].num))
log++;
if (is_extended(ext_info.id)) {
if (log > 0)
pri++;
else {
ext_info.first_sector = 0;
ext_info.last_sector = 0;
ext_info.offset = 0;
ext_info.flags = 0;
ext_info.id = FREE_SPACE;
ext_info.num = PRIMARY;
}
}
if (pri >= 4) {
for (i = 0; i < num_parts; i++)
if (p_info[i].id == FREE_SPACE || p_info[i].id == UNUSABLE) {
if (is_extended(ext_info.id)) {
if (p_info[i].first_sector >= ext_info.first_sector &&
p_info[i].last_sector <= ext_info.last_sector) {
p_info[i].id = FREE_SPACE;
p_info[i].num = LOGICAL;
} else if (i > 0 &&
p_info[i-1].first_sector >=
ext_info.first_sector &&
p_info[i-1].last_sector <=
ext_info.last_sector) {
p_info[i].id = FREE_SPACE;
p_info[i].num = LOGICAL;
} else if (i < num_parts-1 &&
p_info[i+1].first_sector >=
ext_info.first_sector &&
p_info[i+1].last_sector <=
ext_info.last_sector) {
p_info[i].id = FREE_SPACE;
p_info[i].num = LOGICAL;
} else
p_info[i].id = UNUSABLE;
} else /* if (!is_extended(ext_info.id)) */
p_info[i].id = UNUSABLE;
} else /* if (p_info[i].id > 0) */
while (0); /* Leave these alone */
} else { /* if (pri < 4) */
for (i = 0; i < num_parts; i++) {
if (p_info[i].id == UNUSABLE)
p_info[i].id = FREE_SPACE;
if (p_info[i].id == FREE_SPACE) {
if (is_extended(ext_info.id)) {
if (p_info[i].first_sector >= ext_info.first_sector &&
p_info[i].last_sector <= ext_info.last_sector)
p_info[i].num = LOGICAL;
else if (i > 0 &&
p_info[i-1].first_sector >=
ext_info.first_sector &&
p_info[i-1].last_sector <=
ext_info.last_sector)
p_info[i].num = PRI_OR_LOG;
else if (i < num_parts-1 &&
p_info[i+1].first_sector >=
ext_info.first_sector &&
p_info[i+1].last_sector <=
ext_info.last_sector)
p_info[i].num = PRI_OR_LOG;
else
p_info[i].num = PRIMARY;
} else /* if (!is_extended(ext_info.id)) */
p_info[i].num = PRI_OR_LOG;
} else /* if (p_info[i].id > 0) */
while (0); /* Leave these alone */
}
}
}
static void
remove_part(int i) {
int p;
for (p = i; p < num_parts; p++)
p_info[p] = p_info[p+1];
num_parts--;
if (cur_part == num_parts)
cur_part--;
}
static void
insert_empty_part(int i, long long first, long long last) {
int p;
for (p = num_parts; p > i; p--)
p_info[p] = p_info[p-1];
p_info[i].first_sector = first;
p_info[i].last_sector = last;
p_info[i].offset = 0;
p_info[i].flags = 0;
p_info[i].id = FREE_SPACE;
p_info[i].num = PRI_OR_LOG;
p_info[i].volume_label[0] = 0;
p_info[i].fstype[0] = 0;
p_info[i].ostype[0] = 0;
num_parts++;
}
static void
del_part(int i) {
int num = p_info[i].num;
if (i > 0 && (p_info[i-1].id == FREE_SPACE ||
p_info[i-1].id == UNUSABLE)) {
/* Merge with previous partition */
p_info[i-1].last_sector = p_info[i].last_sector;
remove_part(i--);
}
if (i < num_parts - 1 && (p_info[i+1].id == FREE_SPACE ||
p_info[i+1].id == UNUSABLE)) {
/* Merge with next partition */
p_info[i+1].first_sector = p_info[i].first_sector;
remove_part(i);
}
if (i > 0)
p_info[i].first_sector = p_info[i-1].last_sector + 1;
else
p_info[i].first_sector = 0;
if (i < num_parts - 1)
p_info[i].last_sector = p_info[i+1].first_sector - 1;
else
p_info[i].last_sector = actual_size - 1;
p_info[i].offset = 0;
p_info[i].flags = 0;
p_info[i].id = FREE_SPACE;
p_info[i].num = PRI_OR_LOG;
if (IS_LOGICAL(num)) {
/* We have a logical partition --> shrink the extended partition
* if (1) this is the first logical drive, or (2) this is the
* last logical drive; and if there are any other logical drives
* then renumber the ones after "num".
*/
if (i == 0 || (i > 0 && IS_PRIMARY(p_info[i-1].num))) {
ext_info.first_sector = p_info[i].last_sector + 1;
ext_info.offset = 0;
}
if (i == num_parts-1 ||
(i < num_parts-1 && IS_PRIMARY(p_info[i+1].num)))
ext_info.last_sector = p_info[i].first_sector - 1;
for (i = 0; i < num_parts; i++)
if (p_info[i].num > num)
p_info[i].num--;
}
/* Clean up the rest of the partitions */
check_part_info();
}
static int
add_part(int num, int id, int flags, long long first, long long last,
long long offset, int want_label, char **errmsg) {
int i, pri = 0, log = 0;
if (num_parts == MAXIMUM_PARTS) {
*errmsg = _("Too many partitions");
return -1;
}
if (first < 0) {
*errmsg = _("Partition begins before sector 0");
return -1;
}
if (last < 0) {
*errmsg = _("Partition ends before sector 0");
return -1;
}
if (first >= actual_size) {
*errmsg = _("Partition begins after end-of-disk");
return -1;
}
if (last >= actual_size) {
*errmsg = _("Partition ends after end-of-disk");
return -1;
}
for (i = 0; i < num_parts; i++) {
if (p_info[i].id > 0 && IS_PRIMARY(p_info[i].num))
pri++;
else if (p_info[i].id > 0 && IS_LOGICAL(p_info[i].num))
log++;
}
if (is_extended(ext_info.id) && log > 0)
pri++;
if (IS_PRIMARY(num)) {
if (pri >= 4) {
return -1; /* no room for more */
} else
pri++;
}
for (i = 0; i < num_parts && p_info[i].last_sector < first; i++);
if (i < num_parts && p_info[i].id != FREE_SPACE) {
if (last < p_info[i].first_sector)
*errmsg = _("logical partitions not in disk order");
else if (first + offset <= p_info[i].last_sector &&
p_info[i].first_sector + p_info[i].offset <= last)
*errmsg = _("logical partitions overlap");
else
/* the enlarged logical partition starts at the
partition table sector that defines it */
*errmsg = _("enlarged logical partitions overlap");
return -1;
}
if (i == num_parts || last > p_info[i].last_sector) {
return -1;
}
if (is_extended(id)) {
if (ext_info.id != FREE_SPACE) {
return -1; /* second extended */
}
else if (IS_PRIMARY(num)) {
ext_info.first_sector = first;
ext_info.last_sector = last;
ext_info.offset = offset;
ext_info.flags = flags;
ext_info.id = id;
ext_info.num = num;
ext_info.volume_label[0] = 0;
ext_info.fstype[0] = 0;
ext_info.ostype[0] = 0;
return 0;
} else {
return -1; /* explicit extended logical */
}
}
if (IS_LOGICAL(num)) {
if (!is_extended(ext_info.id)) {
print_warning(_("!!!! Internal error creating logical "
"drive with no extended partition !!!!"));
} else {
/* We might have a logical partition outside of the extended
* partition's range --> we have to extend the extended
* partition's range to encompass this new partition, but we
* must make sure that there are no primary partitions between
* it and the closest logical drive in extended partition.
*/
if (first < ext_info.first_sector) {
if (i < num_parts-1 && IS_PRIMARY(p_info[i+1].num)) {
print_warning(_("Cannot create logical drive here -- would create two extended partitions"));
return -1;
} else {
if (first == 0) {
ext_info.first_sector = 0;
ext_info.offset = first = offset;
} else {
ext_info.first_sector = first;
}
}
} else if (last > ext_info.last_sector) {
if (i > 0 && IS_PRIMARY(p_info[i-1].num)) {
print_warning(_("Cannot create logical drive here -- would create two extended partitions"));
return -1;
} else {
ext_info.last_sector = last;
}
}
}
}
if (first != p_info[i].first_sector &&
!(IS_LOGICAL(num) && first == offset)) {
insert_empty_part(i, p_info[i].first_sector, first-1);
i++;
}
if (last != p_info[i].last_sector)
insert_empty_part(i+1, last+1, p_info[i].last_sector);
p_info[i].first_sector = first;
p_info[i].last_sector = last;
p_info[i].offset = offset;
p_info[i].flags = flags;
p_info[i].id = id;
p_info[i].num = num;
p_info[i].volume_label[0] = 0;
p_info[i].fstype[0] = 0;
p_info[i].ostype[0] = 0;
#ifdef HAVE_LIBBLKID
if (want_label)
get_fsinfo(i);
#endif
check_part_info();
return 0;
}
static int
find_primary(void) {
int num = 0, cur = 0;
while (cur < num_parts && IS_PRIMARY(num))
if ((p_info[cur].id > 0 && p_info[cur].num == num) ||
(is_extended(ext_info.id) && ext_info.num == num)) {
num++;
cur = 0;
} else
cur++;
if (!IS_PRIMARY(num))
return -1;
else
return num;
}
static int
find_logical(int i) {
int num = -1;
int j;
for (j = i; j < num_parts && num == -1; j++)
if (p_info[j].id > 0 && IS_LOGICAL(p_info[j].num))
num = p_info[j].num;
if (num == -1) {
num = 4;
for (j = 0; j < num_parts; j++)
if (p_info[j].id > 0 && p_info[j].num == num)
num++;
}
return num;
}
/*
* Command menu support by Janne Kukonlehto <jtklehto@phoenix.oulu.fi>
* September 1994
*/
/* Constants for menuType parameter of menuSelect function */
#define MENU_ACCEPT_OTHERS 4
#define MENU_BUTTON 8
/* Miscellenous constants */
#define MENU_SPACING 2
#define MENU_MAX_ITEMS 256 /* for simpleMenu function */
struct MenuItem
{
int key; /* Keyboard shortcut; if zero, then there is no more items in the menu item table */
char *name; /* Item name, should be eight characters with current implementation */
char *desc; /* Item description to be printed when item is selected */
};
/*
* Actual function which prints the button bar and highlights the active button
* Should not be called directly. Call function menuSelect instead.
*/
static int
menuUpdate( int y, int x, struct MenuItem *menuItems, int itemLength,
char *available, int menuType, int current ) {
int i, lmargin = x;
char *mcd;
/* Print available buttons */
move( y, x ); clrtoeol();
for( i = 0; menuItems[i].key; i++ ) {
char buff[20];
int lenName;
const char *mi;
/* Search next available button */
while( menuItems[i].key && !strchr(available, menuItems[i].key) )
i++;
if( !menuItems[i].key ) break; /* No more menu items */
/* If selected item is not available and we have bypassed it,
make current item selected */
if( current < i && menuItems[current].key < 0 ) current = i;
/* If current item is selected, highlight it */
if( current == i ) /*attron( A_REVERSE )*/ standout ();
/* Print item */
/* Because of a bug in gettext() we must not translate empty strings */
if (menuItems[i].name[0])
mi = _(menuItems[i].name);
else
mi = "";
lenName = strlen( mi );
#if 0
if(lenName > itemLength || lenName >= sizeof(buff))
print_warning(_("Menu item too long. Menu may look odd."));
#endif
if ((size_t) lenName >= sizeof(buff)) { /* truncate ridiculously long string */
xstrncpy(buff, mi, sizeof(buff));
} else if (lenName >= itemLength) {
snprintf(buff, sizeof(buff),
(menuType & MENU_BUTTON) ? "[%s]" : "%s", mi);
} else {
snprintf(buff, sizeof(buff),
(menuType & MENU_BUTTON) ? "[%*s%-*s]" : "%*s%-*s",
(itemLength - lenName) / 2, "",
(itemLength - lenName + 1) / 2 + lenName, mi);
}
mvaddstr( y, x, buff );
/* Lowlight after selected item */
if( current == i ) /*attroff( A_REVERSE )*/ standend ();
/* Calculate position for the next item */
x += itemLength + MENU_SPACING;
if( menuType & MENU_BUTTON ) x += 2;
if( x > COLUMNS - lmargin - 12 )
{
x = lmargin;
y ++ ;
}
}
/* Print the description of selected item */
mcd = _(menuItems[current].desc);
mvaddstr( WARNING_START + 1, (COLUMNS - strlen( mcd )) / 2, mcd );
return y;
}
/* This function takes a list of menu items, lets the user choose one *
* and returns the keyboard shortcut value of the selected menu item */
static int
menuSelect( int y, int x, struct MenuItem *menuItems, int itemLength,
char *available, int menuType, int menuDefault ) {
int i, ylast = y, key = 0, current = menuDefault;
/* Make sure that the current is one of the available items */
while( !strchr(available, menuItems[current].key) ) {
current ++ ;
if( !menuItems[current].key ) current = 0;
}
keypad(stdscr, TRUE);
/* Repeat until allowable choice has been made */
while( !key ) {
/* Display the menu and read a command */
ylast = menuUpdate( y, x, menuItems, itemLength, available,
menuType, current );
refresh();
key = getch();
if (key == ERR)
if (!isatty(STDIN_FILENO))
exit(2);
/* Clear out all prompts and such */
clear_warning();
for (i = y; i < ylast; i++) {
move(i, x);
clrtoeol();
}
move( WARNING_START + 1, 0 );
clrtoeol();
switch (key) {
case KEY_RIGHT:
case '\t':
/* Select next menu item */
do {
current++;
if (!menuItems[current].key)
current = 0;
} while (!strchr(available, menuItems[current].key));
key = 0;
break;
case KEY_LEFT:
#ifdef KEY_BTAB
case KEY_BTAB: /* Back tab */
#endif
/* Select previous menu item */
do {
current--;
if (current < 0) {
while (menuItems[current + 1].key)
current++;
}
} while (!strchr(available, menuItems[current].key));
key = 0;
break;
case KEY_ENTER:
case '\n':
case '\r':
/* Enter equals the keyboard shortcut of current menu item */
key = menuItems[current].key;
break;
}
/* Should all keys to be accepted? */
if( key && (menuType & MENU_ACCEPT_OTHERS) ) break;
/* Is pressed key among acceptable ones? */
if( key && (strchr(available, tolower(key)) || strchr(available, key)))
break;
/* The key has not been accepted so far -> let's reject it */
if (key) {
key = 0;
putchar( BELL );
print_warning(_("Illegal key"));
}
}
keypad(stdscr, FALSE);
/* Clear out prompts and such */
clear_warning();
for( i = y; i <= ylast; i ++ ) {
move( i, x );
clrtoeol();
}
move( WARNING_START + 1, 0 );
clrtoeol();
return key;
}
/* A function which displays "Press a key to continue" *
* and waits for a keypress. *
* Perhaps calling function menuSelect is a bit overkill but who cares? */
static void
menuContinue(void) {
static struct MenuItem menuContinueBtn[]=
{
{ 'c', "", N_("Press a key to continue") },
{ 0, NULL, NULL }
};
menuSelect(COMMAND_LINE_Y, COMMAND_LINE_X,
menuContinueBtn, 0, "c", MENU_ACCEPT_OTHERS, 0 );
}
/* Function menuSelect takes way too many parameters *
* Luckily, most of time we can do with this function */
static int
menuSimple(struct MenuItem *menuItems, int menuDefault) {
int i, j, itemLength = 0;
char available[MENU_MAX_ITEMS];
for(i = 0; menuItems[i].key; i++)
{
j = strlen( _(menuItems[i].name) );
if( j > itemLength ) itemLength = j;
available[i] = menuItems[i].key;
}
available[i] = 0;
return menuSelect(COMMAND_LINE_Y, COMMAND_LINE_X, menuItems, itemLength,
available, MENU_BUTTON, menuDefault);
}
/* End of command menu support code */
static void
new_part(int i) {
char response[LINE_LENGTH], def[LINE_LENGTH];
char c;
long long first = p_info[i].first_sector;
long long last = p_info[i].last_sector;
long long offset = 0;
int flags = 0;
int id = LINUX;
int num = -1;
long long num_sects = last - first + 1;
int len, ext, j;
char *errmsg;
double sectors_per_MB = K*K / 512.0;
if (p_info[i].num == PRI_OR_LOG) {
static struct MenuItem menuPartType[]=
{
{ 'p', N_("Primary"), N_("Create a new primary partition") },
{ 'l', N_("Logical"), N_("Create a new logical partition") },
{ ESC, N_("Cancel"), N_("Don't create a partition") },
{ 0, NULL, NULL }
};
c = menuSimple( menuPartType, 0 );
if (toupper(c) == 'P')
num = find_primary();
else if (toupper(c) == 'L')
num = find_logical(i);
else
return;
} else if (p_info[i].num == PRIMARY)
num = find_primary();
else if (p_info[i].num == LOGICAL)
num = find_logical(i);
else
print_warning(_("!!! Internal error !!!"));
snprintf(def, sizeof(def), "%.2f", num_sects/sectors_per_MB);
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X, _("Size (in MB): "));
if ((len = get_string(response, LINE_LENGTH, def)) <= 0 &&
len != GS_DEFAULT)
return;
else if (len > 0) {
#define num_cyls(bytes) (round_int(bytes/SECTOR_SIZE/cylinder_size))
for (j = 0;
j < len-1 && (isdigit(response[j]) || response[j] == '.');
j++);
if (toupper(response[j]) == 'K') {
num_sects = num_cyls(atof(response)*K)*cylinder_size;
} else if (toupper(response[j]) == 'M') {
num_sects = num_cyls(atof(response)*K*K)*cylinder_size;
} else if (toupper(response[j]) == 'G') {
num_sects = num_cyls(atof(response)*K*K*K)*cylinder_size;
} else if (toupper(response[j]) == 'C') {
num_sects = round_int(atof(response))*cylinder_size;
} else if (toupper(response[j]) == 'S') {
num_sects = round_int(atof(response));
} else {
num_sects = num_cyls(atof(response)*K*K)*cylinder_size;
}
}
if (num_sects <= 0 ||
num_sects > p_info[i].last_sector - p_info[i].first_sector + 1)
return;
move( COMMAND_LINE_Y, COMMAND_LINE_X ); clrtoeol();
if (num_sects < p_info[i].last_sector - p_info[i].first_sector + 1) {
/* Determine where inside free space to put partition.
*/
static struct MenuItem menuPlace[]=
{
{ 'b', N_("Beginning"), N_("Add partition at beginning of free space") },
{ 'e', N_("End"), N_("Add partition at end of free space") },
{ ESC, N_("Cancel"), N_("Don't create a partition") },
{ 0, NULL, NULL }
};
c = menuSimple( menuPlace, 0 );
if (toupper(c) == 'B')
last = first + num_sects - 1;
else if (toupper(c) == 'E')
first = last - num_sects + 1;
else
return;
}
if (IS_LOGICAL(num) && !is_extended(ext_info.id)) {
/* We want to add a logical partition, but need to create an
* extended partition first.
*/
if ((ext = find_primary()) < 0) {
print_warning(_("No room to create the extended partition"));
return;
}
errmsg = 0;
if (add_part(ext, DOS_EXTENDED, 0, first, last,
(first == 0 ? sectors : 0), 0, &errmsg) && errmsg)
print_warning(errmsg);
first = ext_info.first_sector + ext_info.offset;
}
/* increment number of all partitions past this one */
if (IS_LOGICAL(num)) {
#if 0
/* original text - ok, but fails when partitions not in disk order */
for (j = i; j < num_parts; j++)
if (p_info[j].id > 0 && IS_LOGICAL(p_info[j].num))
p_info[j].num++;
#else
/* always ok */
for (j = 0; j < num_parts; j++)
if (p_info[j].id > 0 && p_info[j].num >= num)
p_info[j].num++;
#endif
}
/* Now we have a complete partition to ourselves */
if (first == 0 || IS_LOGICAL(num))
offset = sectors;
errmsg = 0;
if (add_part(num, id, flags, first, last, offset, 0, &errmsg) && errmsg)
print_warning(errmsg);
}
static void
get_kernel_geometry(void) {
#ifdef HDIO_GETGEO
struct hd_geometry geometry;
if (!ioctl(fd, HDIO_GETGEO, &geometry)) {
kern_heads = geometry.heads;
kern_sectors = geometry.sectors;
}
#endif
}
static int
said_yes(char answer) {
char reply[2];
reply[0] = answer;
reply[1] = 0;
return (rpmatch(reply) == 1) ? 1 : 0;
}
static void
get_partition_table_geometry(partition_table *bufp) {
struct partition *p;
int i,h,s,hh,ss;
int first = TRUE;
int bad = FALSE;
for (i=0; i<66; i++)
if (bufp->c.b[446+i])
goto nonz;
/* zero table */
if (!curses_started) {
fatal(_("No partition table.\n"), 3);
return;
} else {
mvaddstr(WARNING_START, 0,
_("No partition table. Starting with zero table."));
putchar(BELL);
refresh();
zero_table = TRUE;
return;
}
nonz:
if (bufp->p.magicflag[0] != PART_TABLE_FLAG0 ||
bufp->p.magicflag[1] != PART_TABLE_FLAG1) {
if (!curses_started)
fatal(_("Bad signature on partition table"), 3);
/* Matthew Wilcox */
mvaddstr(WARNING_START, 0,
_("Unknown partition table type"));
mvaddstr(WARNING_START+1, 0,
_("Do you wish to start with a zero table [y/N] ?"));
putchar(BELL);
refresh();
{
int cont = getch();
if (cont == EOF || !said_yes(cont))
die_x(3);
}
zero_table = TRUE;
return;
}
hh = ss = 0;
for (i=0; i<4; i++) {
p = &(bufp->p.part[i]);
if (p->sys_ind != 0) {
h = p->end_head + 1;
s = (p->end_sector & 077);
if (first) {
hh = h;
ss = s;
first = FALSE;
} else if (hh != h || ss != s)
bad = TRUE;
}
}
if (!first && !bad) {
pt_heads = hh;
pt_sectors = ss;
}
}
static void
decide_on_geometry(void) {
heads = (user_heads ? user_heads :
pt_heads ? pt_heads :
kern_heads ? kern_heads : 255);
sectors = (user_sectors ? user_sectors :
pt_sectors ? pt_sectors :
kern_sectors ? kern_sectors : 63);
cylinder_size = heads*sectors;
cylinders = actual_size/cylinder_size;
if (user_cylinders > 0)
cylinders = user_cylinders;
if (cylinder_size * cylinders > actual_size)
print_warning(_("You specified more cylinders than fit on disk"));
}
static void
clear_p_info(void) {
num_parts = 1;
p_info[0].first_sector = 0;
p_info[0].last_sector = actual_size - 1;
p_info[0].offset = 0;
p_info[0].flags = 0;
p_info[0].id = FREE_SPACE;
p_info[0].num = PRI_OR_LOG;
ext_info.first_sector = 0;
ext_info.last_sector = 0;
ext_info.offset = 0;
ext_info.flags = 0;
ext_info.id = FREE_SPACE;
ext_info.num = PRIMARY;
}
static void
fill_p_info(void) {
int pn, i;
long long bs, bsz;
unsigned long long llsectors;
struct partition *p;
partition_table buffer;
partition_info tmp_ext;
memset(&tmp_ext, 0, sizeof tmp_ext);
tmp_ext.id = FREE_SPACE;
tmp_ext.num = PRIMARY;
if ((fd = open(disk_device, O_RDWR)) < 0) {
if ((fd = open(disk_device, O_RDONLY)) < 0)
fatal(_("Cannot open disk drive"), 2);
opentype = O_RDONLY;
print_warning(_("Opened disk read-only - you have no permission to write"));
if (curses_started) {
refresh();
getch();
clear_warning();
}
} else
opentype = O_RDWR;
opened = TRUE;
if (gpt_probe_signature_fd(fd)) {
print_warning(_("Warning!! Unsupported GPT (GUID Partition Table) detected. Use GNU Parted."));
refresh();
getch();
clear_warning();
}
#ifdef BLKFLSBUF
/* Blocks are visible in more than one way:
e.g. as block on /dev/hda and as block on /dev/hda3
By a bug in the Linux buffer cache, we will see the old
contents of /dev/hda when the change was made to /dev/hda3.
In order to avoid this, discard all blocks on /dev/hda.
Note that partition table blocks do not live in /dev/hdaN,
so this only plays a role if we want to show volume labels. */
ioctl(fd, BLKFLSBUF); /* ignore errors */
/* e.g. Permission Denied */
#endif
if (blkdev_get_sectors(fd, &llsectors) == -1)
fatal(_("Cannot get disk size"), 3);
actual_size = llsectors;
read_sector(buffer.c.b, 0);
get_kernel_geometry();
if (!zero_table || use_partition_table_geometry)
get_partition_table_geometry(& buffer);
decide_on_geometry();
clear_p_info();
if (!zero_table) {
char *errmsg = "";
for (i = 0; i < 4; i++) {
p = & buffer.p.part[i];
bs = get_start_sect(p);
bsz = get_nr_sects(p);
if (p->sys_ind > 0 &&
add_part(i, p->sys_ind, p->boot_ind,
((bs <= sectors) ? 0 : bs), bs + bsz - 1,
((bs <= sectors) ? bs : 0), 1, &errmsg)) {
char *bad = _("Bad primary partition");
char *msg = (char *) xmalloc(strlen(bad) + strlen(errmsg) + 30);
sprintf(msg, "%s %d: %s", bad, i + 1, errmsg);
fatal(msg, 4);
}
if (is_extended(buffer.p.part[i].sys_ind))
tmp_ext = ext_info;
}
if (is_extended(tmp_ext.id)) {
ext_info = tmp_ext;
logical_sectors[logical] =
ext_info.first_sector + ext_info.offset;
read_sector(buffer.c.b, logical_sectors[logical++]);
i = 4;
do {
for (pn = 0;
pn < 4 && (!buffer.p.part[pn].sys_ind ||
is_extended(buffer.p.part[pn].sys_ind));
pn++);
if (pn < 4) {
p = & buffer.p.part[pn];
bs = get_start_sect(p);
bsz = get_nr_sects(p);
if (add_part(i++, p->sys_ind, p->boot_ind,
logical_sectors[logical-1],
logical_sectors[logical-1] + bs + bsz - 1,
bs, 1, &errmsg)) {
char *bad = _("Bad logical partition");
char *msg = (char *) xmalloc(strlen(bad) + strlen(errmsg) + 30);
sprintf(msg, "%s %d: %s", bad, i, errmsg);
fatal(msg, 4);
}
}
for (pn = 0;
pn < 4 && !is_extended(buffer.p.part[pn].sys_ind);
pn++);
if (pn < 4) {
p = & buffer.p.part[pn];
bs = get_start_sect(p);
logical_sectors[logical] = ext_info.first_sector
+ ext_info.offset + bs;
read_sector(buffer.c.b, logical_sectors[logical++]);
}
} while (pn < 4 && logical < MAXIMUM_PARTS-4);
}
}
}
static void
fill_part_table(struct partition *p, partition_info *pi) {
long long begin;
p->boot_ind = pi->flags;
p->sys_ind = pi->id;
begin = pi->first_sector + pi->offset;
if (IS_LOGICAL(pi->num))
set_start_sect(p,pi->offset);
else
set_start_sect(p,begin);
set_nr_sects(p, pi->last_sector - begin + 1);
set_hsc_begin(p, begin);
set_hsc_end(p, pi->last_sector);
}
static void
fill_primary_table(partition_table *buffer) {
int i;
/* Zero out existing table */
for (i = 0x1BE; i < SECTOR_SIZE; i++)
buffer->c.b[i] = 0;
for (i = 0; i < num_parts; i++)
if (IS_PRIMARY(p_info[i].num))
fill_part_table(&(buffer->p.part[p_info[i].num]), &(p_info[i]));
if (is_extended(ext_info.id))
fill_part_table(&(buffer->p.part[ext_info.num]), &ext_info);
buffer->p.magicflag[0] = PART_TABLE_FLAG0;
buffer->p.magicflag[1] = PART_TABLE_FLAG1;
}
static void
fill_logical_table(partition_table *buffer, partition_info *pi) {
struct partition *p;
int i;
for (i = 0; i < logical && pi->first_sector != logical_sectors[i]; i++);
if (i == logical || buffer->p.magicflag[0] != PART_TABLE_FLAG0
|| buffer->p.magicflag[1] != PART_TABLE_FLAG1)
for (i = 0; i < SECTOR_SIZE; i++)
buffer->c.b[i] = 0;
/* Zero out existing table */
for (i = 0x1BE; i < SECTOR_SIZE; i++)
buffer->c.b[i] = 0;
fill_part_table(&(buffer->p.part[0]), pi);
for (i = 0;
i < num_parts && pi->num != p_info[i].num - 1;
i++);
if (i < num_parts) {
p = &(buffer->p.part[1]);
pi = &(p_info[i]);
p->boot_ind = 0;
p->sys_ind = DOS_EXTENDED;
set_start_sect(p, pi->first_sector - ext_info.first_sector - ext_info.offset);
set_nr_sects(p, pi->last_sector - pi->first_sector + 1);
set_hsc_begin(p, pi->first_sector);
set_hsc_end(p, pi->last_sector);
}
buffer->p.magicflag[0] = PART_TABLE_FLAG0;
buffer->p.magicflag[1] = PART_TABLE_FLAG1;
}
static void
write_part_table(void) {
int i, ct, done = FALSE, len;
partition_table buffer;
struct stat s;
int is_bdev;
char response[LINE_LENGTH];
if (opentype == O_RDONLY) {
print_warning(_("Opened disk read-only - you have no permission to write"));
refresh();
getch();
clear_warning();
return;
}
is_bdev = 0;
if(fstat(fd, &s) == 0 && S_ISBLK(s.st_mode))
is_bdev = 1;
if (is_bdev) {
print_warning(_("Warning!! This may destroy data on your disk!"));
while (!done) {
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Are you sure you want to write the partition table "
"to disk? (yes or no): "));
len = get_string(response, LINE_LENGTH, NULL);
clear_warning();
if (len == GS_ESCAPE)
return;
else if (strcasecmp(response, _("no")) == 0 ||
strcasecmp(response, "no") == 0) {
print_warning(_("Did not write partition table to disk"));
return;
} else if (strcasecmp(response, _("yes")) == 0 ||
strcasecmp(response, "yes") == 0)
done = TRUE;
else
print_warning(_("Please enter `yes' or `no'"));
}
clear_warning();
print_warning(_("Writing partition table to disk..."));
refresh();
}
read_sector(buffer.c.b, 0);
fill_primary_table(&buffer);
write_sector(buffer.c.b, 0);
for (i = 0; i < num_parts; i++)
if (IS_LOGICAL(p_info[i].num)) {
read_sector(buffer.c.b, p_info[i].first_sector);
fill_logical_table(&buffer, &(p_info[i]));
write_sector(buffer.c.b, p_info[i].first_sector);
}
if (is_bdev) {
#ifdef BLKRRPART
sync();
if (!ioctl(fd,BLKRRPART))
changed = TRUE;
#endif
sync();
clear_warning();
if (changed)
print_warning(_("Wrote partition table to disk"));
else
print_warning(_("Wrote partition table, but re-read table failed. Run partprobe(8), kpartx(8) or reboot to update table."));
} else
print_warning(_("Wrote partition table to disk"));
/* Check: unique bootable primary partition? */
ct = 0;
for (i = 0; i < num_parts; i++)
if (IS_PRIMARY(i) && p_info[i].flags == ACTIVE_FLAG)
ct++;
if (ct == 0)
print_warning(_("No primary partitions are marked bootable. DOS MBR cannot boot this."));
if (ct > 1)
print_warning(_("More than one primary partition is marked bootable. DOS MBR cannot boot this."));
}
static void
fp_printf(FILE *fp, char *format, ...) {
va_list args;
char buf[1024];
int y, x __attribute__((unused));
va_start(args, format);
vsnprintf(buf, sizeof(buf), format, args);
va_end(args);
if (fp == NULL) {
/* The following works best if the string to be printed has at
most only one newline. */
printw("%s", buf);
getyx(stdscr, y, x);
if (y >= COMMAND_LINE_Y-2) {
menuContinue();
erase();
move(0, 0);
}
} else
fprintf(fp, "%s", buf);
}
#define MAX_PER_LINE 16
static void
print_file_buffer(FILE *fp, unsigned char *buffer) {
int i,l;
for (i = 0, l = 0; i < SECTOR_SIZE; i++, l++) {
if (l == 0)
fp_printf(fp, "0x%03X:", i);
fp_printf(fp, " %02X", buffer[i]);
if (l == MAX_PER_LINE - 1) {
fp_printf(fp, "\n");
l = -1;
}
}
if (l > 0)
fp_printf(fp, "\n");
fp_printf(fp, "\n");
}
static void
print_raw_table(void) {
int i, to_file;
partition_table buffer;
char fname[LINE_LENGTH];
FILE *fp;
if (print_only) {
fp = stdout;
to_file = TRUE;
} else {
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter filename or press RETURN to display on screen: "));
if ((to_file = get_string(fname, LINE_LENGTH, NULL)) < 0)
return;
if (to_file) {
if ((fp = fopen(fname, "w")) == NULL) {
char errstr[LINE_LENGTH];
snprintf(errstr, sizeof(errstr),
_("cannot open %s"), fname);
print_warning(errstr);
return;
}
} else {
fp = NULL;
erase();
move(0, 0);
}
}
fp_printf(fp, _("Disk Drive: %s\n"), disk_device);
fp_printf(fp, _("Sector 0:\n"));
read_sector(buffer.c.b, 0);
fill_primary_table(&buffer);
print_file_buffer(fp, buffer.c.b);
for (i = 0; i < num_parts; i++)
if (IS_LOGICAL(p_info[i].num)) {
fp_printf(fp, _("Sector %d:\n"), p_info[i].first_sector);
read_sector(buffer.c.b, p_info[i].first_sector);
fill_logical_table(&buffer, &(p_info[i]));
print_file_buffer(fp, buffer.c.b);
}
if (to_file) {
if (!print_only)
fclose(fp);
} else {
menuContinue();
}
}
static void
print_p_info_entry(FILE *fp, partition_info *p) {
long long size;
char part_str[40];
if (p->id == UNUSABLE)
fp_printf(fp, _(" None "));
else if (p->id == FREE_SPACE && p->num == PRI_OR_LOG)
fp_printf(fp, _(" Pri/Log"));
else if (p->id == FREE_SPACE && p->num == PRIMARY)
fp_printf(fp, _(" Primary"));
else if (p->id == FREE_SPACE && p->num == LOGICAL)
fp_printf(fp, _(" Logical"));
else
fp_printf(fp, "%2d %-7.7s", p->num+1,
IS_LOGICAL(p->num) ? _("Logical") : _("Primary"));
fp_printf(fp, " ");
fp_printf(fp, "%11lld%c", p->first_sector,
((p->first_sector/cylinder_size) !=
((float)p->first_sector/cylinder_size) ?
'*' : ' '));
fp_printf(fp, "%11lld%c", p->last_sector,
(((p->last_sector+1)/cylinder_size) !=
((float)(p->last_sector+1)/cylinder_size) ?
'*' : ' '));
fp_printf(fp, "%6ld%c", p->offset,
((((p->first_sector == 0 || IS_LOGICAL(p->num)) &&
(p->offset != sectors)) ||
(p->first_sector != 0 && IS_PRIMARY(p->num) &&
p->offset != 0)) ?
'#' : ' '));
size = p->last_sector - p->first_sector + 1;
fp_printf(fp, "%11lld%c", size,
((size/cylinder_size) != ((float)size/cylinder_size) ?
'*' : ' '));
/* fp_printf(fp, " "); */
if (p->id == UNUSABLE)
sprintf(part_str, "%.15s", _("Unusable"));
else if (p->id == FREE_SPACE)
sprintf(part_str, "%.15s", _("Free Space"));
else if (partition_type_name(p->id))
sprintf(part_str, "%.15s (%02X)", _(partition_type_name(p->id)), p->id);
else
sprintf(part_str, "%.15s (%02X)", _("Unknown"), p->id);
fp_printf(fp, "%-20.20s", part_str);
fp_printf(fp, " ");
if (p->flags == ACTIVE_FLAG)
fp_printf(fp, _("Boot"), p->flags);
else if (p->flags != 0)
fp_printf(fp, _("(%02X)"), p->flags);
else
fp_printf(fp, _("None"), p->flags);
fp_printf(fp, "\n");
}
static void
print_p_info(void) {
char fname[LINE_LENGTH];
FILE *fp;
int i, to_file, pext = is_extended(ext_info.id);
if (print_only) {
fp = stdout;
to_file = TRUE;
} else {
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter filename or press RETURN to display on screen: "));
if ((to_file = get_string(fname, LINE_LENGTH, NULL)) < 0)
return;
if (to_file) {
if ((fp = fopen(fname, "w")) == NULL) {
char errstr[LINE_LENGTH];
snprintf(errstr, LINE_LENGTH, _("cannot open %s"), fname);
print_warning(errstr);
return;
}
} else {
fp = NULL;
erase();
move(0, 0);
}
}
fp_printf(fp, _("Partition Table for %s\n"), disk_device);
fp_printf(fp, "\n");
fp_printf(fp, _(" First Last\n"));
fp_printf(fp, _(" # Type Sector Sector Offset Length Filesystem Type (ID) Flag\n"));
fp_printf(fp, _("-- ------- ----------- ----------- ------ ----------- -------------------- ----\n"));
for (i = 0; i < num_parts; i++) {
if (pext && (p_info[i].first_sector >= ext_info.first_sector)) {
print_p_info_entry(fp,&ext_info);
pext = FALSE;
}
print_p_info_entry(fp, &(p_info[i]));
}
if (to_file) {
if (!print_only)
fclose(fp);
} else {
menuContinue();
}
}
static void
print_part_entry(FILE *fp, int num, partition_info *pi) {
long long first = 0, start = 0, end = 0, size = 0;
unsigned char ss, es, sh, eh;
int sc, ec;
int flags = 0, id = 0;
ss = sh = es = eh = 0;
sc = ec = 0;
if (pi != NULL) {
flags = pi->flags;
id = pi->id;
if (IS_LOGICAL(num))
first = pi->offset;
else
first = pi->first_sector + pi->offset;
start = pi->first_sector + pi->offset;
end = pi->last_sector;
size = end - start + 1;
set_hsc0(&sh, &ss, &sc, start);
set_hsc0(&eh, &es, &ec, end);
}
fp_printf(fp, "%2d 0x%02X %4d %4d %5d 0x%02X %4d %4d %5d %11lld %11lld\n",
num+1, flags, sh, ss, sc, id, eh, es, ec, first, size);
}
static void
print_part_table(void) {
int i, j, to_file;
char fname[LINE_LENGTH];
FILE *fp;
if (print_only) {
fp = stdout;
to_file = TRUE;
} else {
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter filename or press RETURN to display on screen: "));
if ((to_file = get_string(fname, LINE_LENGTH, NULL)) < 0)
return;
if (to_file) {
if ((fp = fopen(fname, "w")) == NULL) {
char errstr[LINE_LENGTH];
snprintf(errstr, LINE_LENGTH, _("cannot open %s"), fname);
print_warning(errstr);
return;
}
} else {
fp = NULL;
erase();
move(0, 0);
}
}
fp_printf(fp, _("Partition Table for %s\n"), disk_device);
fp_printf(fp, "\n");
/* Three-line heading. Read "Start Sector" etc vertically. */
fp_printf(fp, _(" ---Starting---- ----Ending----- Start Number of\n"));
fp_printf(fp, _(" # Flags Head Sect Cyl ID Head Sect Cyl Sector Sectors\n"));
fp_printf(fp, _("-- ----- ---- ---- ----- ---- ---- ---- ----- ----------- -----------\n"));
for (i = 0; i < 4; i++) {
for (j = 0;
j < num_parts && (p_info[j].id <= 0 || p_info[j].num != i);
j++);
if (j < num_parts) {
print_part_entry(fp, i, &(p_info[j]));
} else if (is_extended(ext_info.id) && ext_info.num == i) {
print_part_entry(fp, i, &ext_info);
} else {
print_part_entry(fp, i, NULL);
}
}
for (i = 0; i < num_parts; i++)
if (IS_LOGICAL(p_info[i].num))
print_part_entry(fp, p_info[i].num, &(p_info[i]));
if (to_file) {
if (!print_only)
fclose(fp);
} else {
menuContinue();
}
}
static void
print_tables(void) {
int done = FALSE;
static struct MenuItem menuFormat[]=
{
{ 'r', N_("Raw"), N_("Print the table using raw data format") },
{ 's', N_("Sectors"), N_("Print the table ordered by sectors") },
{ 't', N_("Table"), N_("Just print the partition table") },
{ ESC, N_("Cancel"), N_("Don't print the table") },
{ 0, NULL, NULL }
};
while (!done)
switch ( toupper(menuSimple( menuFormat, 2)) ) {
case 'R':
print_raw_table();
done = TRUE;
break;
case 'S':
print_p_info();
done = TRUE;
break;
case 'T':
print_part_table();
done = TRUE;
break;
case ESC:
done = TRUE;
break;
}
}
#define END_OF_HELP "EOHS!"
static void
display_help(void) {
char *help_text[] = {
N_("Help Screen for cfdisk"),
"",
N_("This is cfdisk, a curses based disk partitioning program, which"),
N_("allows you to create, delete and modify partitions on your hard"),
N_("disk drive."),
"",
N_("Copyright (C) 1994-1999 Kevin E. Martin & aeb"),
"",
N_("Command Meaning"),
N_("------- -------"),
N_(" b Toggle bootable flag of the current partition"),
N_(" d Delete the current partition"),
N_(" g Change cylinders, heads, sectors-per-track parameters"),
N_(" WARNING: This option should only be used by people who"),
N_(" know what they are doing."),
N_(" h Print this screen"),
N_(" m Maximize disk usage of the current partition"),
N_(" Note: This may make the partition incompatible with"),
N_(" DOS, OS/2, ..."),
N_(" n Create new partition from free space"),
N_(" p Print partition table to the screen or to a file"),
N_(" There are several different formats for the partition"),
N_(" that you can choose from:"),
N_(" r - Raw data (exactly what would be written to disk)"),
N_(" s - Table ordered by sectors"),
N_(" t - Table in raw format"),
N_(" q Quit program without writing partition table"),
N_(" t Change the filesystem type"),
N_(" u Change units of the partition size display"),
N_(" Rotates through MB, sectors and cylinders"),
N_(" W Write partition table to disk (must enter upper case W)"),
N_(" Since this might destroy data on the disk, you must"),
N_(" either confirm or deny the write by entering `yes' or"),
N_(" `no'"),
N_("Up Arrow Move cursor to the previous partition"),
N_("Down Arrow Move cursor to the next partition"),
N_("CTRL-L Redraws the screen"),
N_(" ? Print this screen"),
"",
N_("Note: All of the commands can be entered with either upper or lower"),
N_("case letters (except for Writes)."),
END_OF_HELP
};
int cur_line = 0;
FILE *fp = NULL;
erase();
move(0, 0);
while (strcmp(help_text[cur_line], END_OF_HELP)) {
if (help_text[cur_line][0])
fp_printf(fp, "%s\n", _(help_text[cur_line]));
else
fp_printf(fp, "\n");
cur_line++;
}
menuContinue();
}
static int
change_geometry(void) {
int ret_val = FALSE;
int done = FALSE;
char def[LINE_LENGTH];
char response[LINE_LENGTH];
long long tmp_val;
int i;
while (!done) {
static struct MenuItem menuGeometry[]=
{
{ 'c', N_("Cylinders"), N_("Change cylinder geometry") },
{ 'h', N_("Heads"), N_("Change head geometry") },
{ 's', N_("Sectors"), N_("Change sector geometry") },
{ 'd', N_("Done"), N_("Done with changing geometry") },
{ 0, NULL, NULL }
};
move(COMMAND_LINE_Y, COMMAND_LINE_X);
clrtoeol();
refresh();
clear_warning();
switch (toupper( menuSimple(menuGeometry, 3) )) {
case 'C':
sprintf(def, "%llu", actual_size/cylinder_size);
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter the number of cylinders: "));
i = get_string(response, LINE_LENGTH, def);
if (i == GS_DEFAULT) {
user_cylinders = actual_size/cylinder_size;
ret_val = TRUE;
} else if (i > 0) {
tmp_val = atoll(response);
if (tmp_val > 0) {
user_cylinders = tmp_val;
ret_val = TRUE;
} else
print_warning(_("Illegal cylinders value"));
}
break;
case 'H':
sprintf(def, "%d", heads);
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter the number of heads: "));
if (get_string(response, LINE_LENGTH, def) > 0) {
tmp_val = atoll(response);
if (tmp_val > 0 && tmp_val <= MAX_HEADS) {
user_heads = tmp_val;
ret_val = TRUE;
} else
print_warning(_("Illegal heads value"));
}
break;
case 'S':
sprintf(def, "%d", sectors);
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X,
_("Enter the number of sectors per track: "));
if (get_string(response, LINE_LENGTH, def) > 0) {
tmp_val = atoll(response);
if (tmp_val > 0 && tmp_val <= MAX_SECTORS) {
user_sectors = tmp_val;
ret_val = TRUE;
} else
print_warning(_("Illegal sectors value"));
}
break;
case ESC:
case 'D':
done = TRUE;
break;
default:
putchar(BELL);
break;
}
if (ret_val) {
decide_on_geometry();
draw_screen();
}
}
if (ret_val) {
long long disk_end;
disk_end = actual_size-1;
if (p_info[num_parts-1].last_sector > disk_end) {
while (p_info[num_parts-1].first_sector > disk_end) {
if (p_info[num_parts-1].id == FREE_SPACE ||
p_info[num_parts-1].id == UNUSABLE)
remove_part(num_parts-1);
else
del_part(num_parts-1);
}
p_info[num_parts-1].last_sector = disk_end;
if (ext_info.last_sector > disk_end)
ext_info.last_sector = disk_end;
} else if (p_info[num_parts-1].last_sector < disk_end) {
if (p_info[num_parts-1].id == FREE_SPACE ||
p_info[num_parts-1].id == UNUSABLE) {
p_info[num_parts-1].last_sector = disk_end;
} else {
insert_empty_part(num_parts,
p_info[num_parts-1].last_sector+1,
disk_end);
}
}
/* Make sure the partitions are correct */
check_part_info();
}
return ret_val;
}
static void
change_id(int i) {
char id[LINE_LENGTH], def[LINE_LENGTH];
int num_types = 0;
int num_across, num_down;
int len, new_id = ((p_info[i].id == LINUX) ? LINUX_SWAP : LINUX);
int y_start, y_end, row, row_min, row_max, row_offset, j, needmore;
for (j = 1; i386_sys_types[j].name; j++) ;
num_types = j-1; /* do not count the Empty type */
num_across = COLS/COL_ID_WIDTH;
num_down = (((float)num_types)/num_across + 1);
y_start = COMMAND_LINE_Y - 1 - num_down;
if (y_start < 1) {
y_start = 1;
y_end = COMMAND_LINE_Y - 2;
} else {
if (y_start > DISK_TABLE_START+cur_part+4)
y_start = DISK_TABLE_START+cur_part+4;
y_end = y_start + num_down - 1;
}
row_min = 1;
row_max = COMMAND_LINE_Y - 2;
row_offset = 0;
do {
for (j = y_start - 1; j <= y_end + 1; j++) {
move(j, 0);
clrtoeol();
}
needmore = 0;
for (j = 1; i386_sys_types[j].name; j++) {
row = y_start + (j-1) % num_down - row_offset;
if (row >= row_min && row <= row_max) {
move(row, ((j-1)/num_down)*COL_ID_WIDTH + 1);
printw("%02X %-20.20s",
i386_sys_types[j].type,
_(i386_sys_types[j].name));
}
if (row > row_max)
needmore = 1;
}
if (needmore)
menuContinue();
row_offset += (row_max - row_min + 1);
} while(needmore);
sprintf(def, "%02X", new_id);
mvaddstr(COMMAND_LINE_Y, COMMAND_LINE_X, _("Enter filesystem type: "));
if ((len = get_string(id, 3, def)) <= 0 && len != GS_DEFAULT)
return;
if (len != GS_DEFAULT) {
if (!isxdigit(id[0]))
return;
new_id = (isdigit(id[0]) ? id[0] - '0' : tolower(id[0]) - 'a' + 10);
if (len == 2) {
if (isxdigit(id[1]))
new_id = new_id*16 +
(isdigit(id[1]) ? id[1] - '0' : tolower(id[1]) - 'a' + 10);
else
return;
}
}
if (new_id == 0)
print_warning(_("Cannot change FS Type to empty"));
else if (is_extended(new_id))
print_warning(_("Cannot change FS Type to extended"));
else
p_info[i].id = new_id;
}
static void
draw_partition(int i) {
int j;
int y = i + DISK_TABLE_START + 2 - (cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN;
char *t;
long long size;
double fsize;
if (!arrow_cursor) {
move(y, 0);
for (j = 0; j < COLS; j++)
addch(' ');
}
if (p_info[i].id > 0) {
char *dbn = my_basename(disk_device);
int l = strlen(dbn);
int digit_last = isdigit(dbn[l-1]);
mvprintw(y, NAME_START,
"%s%s%d", dbn, (digit_last ? "p" : ""),
p_info[i].num+1);
if (p_info[i].flags) {
if (p_info[i].flags == ACTIVE_FLAG)
mvaddstr(y, FLAGS_START, _("Boot"));
else
mvprintw(y, FLAGS_START, _("Unk(%02X)"), p_info[i].flags);
if (p_info[i].first_sector == 0 || IS_LOGICAL(p_info[i].num)) {
if (p_info[i].offset != sectors)
addstr(_(", NC"));
} else {
if (p_info[i].offset != 0)
addstr(_(", NC"));
}
} else {
if (p_info[i].first_sector == 0 || IS_LOGICAL(p_info[i].num)) {
if (p_info[i].offset != sectors)
mvaddstr(y, FLAGS_START, _("NC"));
} else {
if (p_info[i].offset != 0)
mvaddstr(y, FLAGS_START, _("NC"));
}
}
}
mvaddstr(y, PTYPE_START,
(p_info[i].id == UNUSABLE ? "" :
(IS_LOGICAL(p_info[i].num) ? _("Logical") :
(p_info[i].num >= 0 ? _("Primary") :
(p_info[i].num == PRI_OR_LOG ? _("Pri/Log") :
(p_info[i].num == PRIMARY ? _("Primary") : _("Logical")))))));
t = partition_type_text(i);
if (t)
mvaddstr(y, FSTYPE_START, t);
else
mvprintw(y, FSTYPE_START, _("Unknown (%02X)"), p_info[i].id);
if (p_info[i].volume_label[0]) {
int l = strlen(p_info[i].volume_label);
int s = SIZE_START-5-l;
mvprintw(y, (s > LABEL_START) ? LABEL_START : s,
" [%s] ", p_info[i].volume_label);
}
size = p_info[i].last_sector - p_info[i].first_sector + 1;
fsize = (double) size * SECTOR_SIZE;
if (display_units == SECTORS)
mvprintw(y, SIZE_START, "%11lld", size);
else if (display_units == CYLINDERS)
mvprintw(y, SIZE_START, "%11lld", size/cylinder_size);
else if (display_units == MEGABYTES)
mvprintw(y, SIZE_START, "%11.2f", ceiling((100*fsize)/(K*K))/100);
else if (display_units == GIGABYTES)
mvprintw(y, SIZE_START, "%11.2f", ceiling((100*fsize)/(K*K*K))/100);
if (size % cylinder_size != 0 ||
p_info[i].first_sector % cylinder_size != 0)
mvprintw(y, COLUMNS-1, "*");
}
static void
init_const(void) {
if (!defined) {
NAME_START = (((float)NAME_START)/COLUMNS)*COLS;
FLAGS_START = (((float)FLAGS_START)/COLUMNS)*COLS;
PTYPE_START = (((float)PTYPE_START)/COLUMNS)*COLS;
FSTYPE_START = (((float)FSTYPE_START)/COLUMNS)*COLS;
LABEL_START = (((float)LABEL_START)/COLUMNS)*COLS;
SIZE_START = (((float)SIZE_START)/COLUMNS)*COLS;
COMMAND_LINE_X = (((float)COMMAND_LINE_X)/COLUMNS)*COLS;
COMMAND_LINE_Y = LINES - 4;
WARNING_START = LINES - 2;
if ((NUM_ON_SCREEN = COMMAND_LINE_Y - DISK_TABLE_START - 3) <= 0)
NUM_ON_SCREEN = 1;
COLUMNS = COLS;
defined = TRUE;
}
}
static void
draw_screen(void) {
int i;
char *line;
line = (char *) xmalloc((COLS+1)*sizeof(char));
if (warning_last_time) {
for (i = 0; i < COLS; i++) {
move(WARNING_START, i);
line[i] = inch();
}
line[COLS] = 0;
}
erase();
if (warning_last_time)
mvaddstr(WARNING_START, 0, line);
snprintf(line, COLS+1, "cfdisk (%s)", PACKAGE_STRING);
mvaddstr(HEADER_START, (COLS-strlen(line))/2, line);
snprintf(line, COLS+1, _("Disk Drive: %s"), disk_device);
mvaddstr(HEADER_START+2, (COLS-strlen(line))/2, line);
{
long long bytes = actual_size*(long long) SECTOR_SIZE;
long long megabytes = bytes/(K*K);
if (megabytes < 10000)
sprintf(line, _("Size: %lld bytes, %lld MB"),
bytes, megabytes);
else
sprintf(line, _("Size: %lld bytes, %lld.%lld GB"),
bytes, megabytes/K, (10*megabytes/K)%10);
}
mvaddstr(HEADER_START+3, (COLS-strlen(line))/2, line);
snprintf(line, COLS+1, _("Heads: %d Sectors per Track: %d Cylinders: %lld"),
heads, sectors, cylinders);
mvaddstr(HEADER_START+4, (COLS-strlen(line))/2, line);
mvaddstr(DISK_TABLE_START, NAME_START, _("Name"));
mvaddstr(DISK_TABLE_START, FLAGS_START, _("Flags"));
mvaddstr(DISK_TABLE_START, PTYPE_START-1, _("Part Type"));
mvaddstr(DISK_TABLE_START, FSTYPE_START, _("FS Type"));
mvaddstr(DISK_TABLE_START, LABEL_START+1, _("[Label]"));
if (display_units == SECTORS)
mvaddstr(DISK_TABLE_START, SIZE_START, _(" Sectors"));
else if (display_units == CYLINDERS)
mvaddstr(DISK_TABLE_START, SIZE_START, _(" Cylinders"));
else if (display_units == MEGABYTES)
mvaddstr(DISK_TABLE_START, SIZE_START, _(" Size (MB)"));
else if (display_units == GIGABYTES)
mvaddstr(DISK_TABLE_START, SIZE_START, _(" Size (GB)"));
move(DISK_TABLE_START+1, 1);
for (i = 1; i < COLS-1; i++)
addch('-');
if (NUM_ON_SCREEN >= num_parts)
for (i = 0; i < num_parts; i++)
draw_partition(i);
else
for (i = (cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN;
i < NUM_ON_SCREEN + (cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN &&
i < num_parts;
i++)
draw_partition(i);
free(line);
}
static void
draw_cursor(int move) {
if (move != 0 && (cur_part + move < 0 || cur_part + move >= num_parts)) {
print_warning(_("No more partitions"));
return;
}
if (arrow_cursor)
mvaddstr(DISK_TABLE_START + cur_part + 2
- (cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN, 0, " ");
else
draw_partition(cur_part);
cur_part += move;
if (((cur_part - move)/NUM_ON_SCREEN)*NUM_ON_SCREEN !=
(cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN)
draw_screen();
if (arrow_cursor)
mvaddstr(DISK_TABLE_START + cur_part + 2
- (cur_part/NUM_ON_SCREEN)*NUM_ON_SCREEN, 0, "-->");
else {
standout();
draw_partition(cur_part);
standend();
}
}
static void
do_curses_fdisk(void) {
int done = FALSE;
int command;
int is_first_run = TRUE;
static struct MenuItem menuMain[] = {
{ 'b', N_("Bootable"), N_("Toggle bootable flag of the current partition") },
{ 'd', N_("Delete"), N_("Delete the current partition") },
{ 'g', N_("Geometry"), N_("Change disk geometry (experts only)") },
{ 'h', N_("Help"), N_("Print help screen") },
{ 'm', N_("Maximize"), N_("Maximize disk usage of the current partition (experts only)") },
{ 'n', N_("New"), N_("Create new partition from free space") },
{ 'p', N_("Print"), N_("Print partition table to the screen or to a file") },
{ 'q', N_("Quit"), N_("Quit program without writing partition table") },
{ 't', N_("Type"), N_("Change the filesystem type (DOS, Linux, OS/2 and so on)") },
{ 'u', N_("Units"), N_("Change units of the partition size display (MB, sect, cyl)") },
{ 'W', N_("Write"), N_("Write partition table to disk (this might destroy data)") },
{ 0, NULL, NULL }
};
curses_started = 1;
initscr();
init_const();
old_SIGINT = signal(SIGINT, die);
old_SIGTERM = signal(SIGTERM, die);
#ifdef DEBUG
signal(SIGINT, old_SIGINT);
signal(SIGTERM, old_SIGTERM);
#endif
cbreak();
noecho();
nonl();
fill_p_info();
draw_screen();
while (!done) {
char *s;
draw_cursor(0);
if (p_info[cur_part].id == FREE_SPACE) {
s = ((opentype == O_RDWR) ? "hnpquW" : "hnpqu");
command = menuSelect(COMMAND_LINE_Y, COMMAND_LINE_X, menuMain, 10,
s, MENU_BUTTON | MENU_ACCEPT_OTHERS, 5);
} else if (p_info[cur_part].id > 0) {
s = ((opentype == O_RDWR) ? "bdhmpqtuW" : "bdhmpqtu");
command = menuSelect(COMMAND_LINE_Y, COMMAND_LINE_X, menuMain, 10,
s, MENU_BUTTON | MENU_ACCEPT_OTHERS, is_first_run ? 7 : 0);
} else {
s = ((opentype == O_RDWR) ? "hpquW" : "hpqu");
command = menuSelect(COMMAND_LINE_Y, COMMAND_LINE_X, menuMain, 10,
s, MENU_BUTTON | MENU_ACCEPT_OTHERS, 0);
}
is_first_run = FALSE;
switch ( command ) {
case 'B':
case 'b':
if (p_info[cur_part].id > 0)
p_info[cur_part].flags ^= 0x80;
else
print_warning(_("Cannot make this partition bootable"));
break;
case 'D':
case 'd':
if (p_info[cur_part].id > 0) {
del_part(cur_part);
if (cur_part >= num_parts)
cur_part = num_parts - 1;
draw_screen();
} else
print_warning(_("Cannot delete an empty partition"));
break;
case 'G':
case 'g':
if (change_geometry())
draw_screen();
break;
case 'M':
case 'm':
if (p_info[cur_part].id > 0) {
if (p_info[cur_part].first_sector == 0 ||
IS_LOGICAL(p_info[cur_part].num)) {
if (p_info[cur_part].offset == sectors)
p_info[cur_part].offset = 1;
else
p_info[cur_part].offset = sectors;
draw_screen();
} else if (p_info[cur_part].offset != 0)
p_info[cur_part].offset = 0;
else
print_warning(_("Cannot maximize this partition"));
} else
print_warning(_("Cannot maximize this partition"));
break;
case 'N':
case 'n':
if (p_info[cur_part].id == FREE_SPACE) {
new_part(cur_part);
draw_screen();
} else if (p_info[cur_part].id == UNUSABLE)
print_warning(_("This partition is unusable"));
else
print_warning(_("This partition is already in use"));
break;
case 'P':
case 'p':
print_tables();
draw_screen();
break;
case 'Q':
case 'q':
done = TRUE;
break;
case 'T':
case 't':
if (p_info[cur_part].id > 0) {
change_id(cur_part);
draw_screen();
} else
print_warning(_("Cannot change the type of an empty partition"));
break;
case 'U':
case 'u':
if (display_units == GIGABYTES)
display_units = MEGABYTES;
else if (display_units == MEGABYTES)
display_units = SECTORS;
else if (display_units == SECTORS)
display_units = CYLINDERS;
else if (display_units == CYLINDERS)
display_units = MEGABYTES; /* not yet GIGA */
draw_screen();
break;
case 'W':
write_part_table();
break;
case 'H':
case 'h':
case '?':
display_help();
draw_screen();
break;
case KEY_UP: /* Up arrow key */
case '\020': /* ^P */
case 'k': /* Vi-like alternative */
draw_cursor(-1);
break;
case KEY_DOWN: /* Down arrow key */
case '\016': /* ^N */
case 'j': /* Vi-like alternative */
draw_cursor(1);
break;
case REDRAWKEY:
clear();
draw_screen();
break;
case KEY_HOME:
draw_cursor(-cur_part);
break;
case KEY_END:
draw_cursor(num_parts - cur_part - 1);
break;
default:
print_warning(_("Illegal command"));
putchar(BELL); /* CTRL-G */
}
}
die_x(0);
}
static void
copyright(void) {
fprintf(stderr, _("Copyright (C) 1994-2002 Kevin E. Martin & aeb\n"));
}
static void
usage(char *prog_name) {
/* Unfortunately, xgettext does not handle multi-line strings */
/* so, let's use explicit \n's instead */
fprintf(stderr, _("\n"
"Usage:\n"
"Print version:\n"
" %s -v\n"
"Print partition table:\n"
" %s -P {r|s|t} [options] device\n"
"Interactive use:\n"
" %s [options] device\n"
"\n"
"Options:\n"
"-a: Use arrow instead of highlighting;\n"
"-z: Start with a zero partition table, instead of reading the pt from disk;\n"
"-c C -h H -s S: Override the kernel's idea of the number of cylinders,\n"
" the number of heads and the number of sectors/track.\n\n"),
prog_name, prog_name, prog_name);
copyright();
}
int
main(int argc, char **argv)
{
int c;
int i, len;
setlocale(LC_ALL, "");
bindtextdomain(PACKAGE, LOCALEDIR);
textdomain(PACKAGE);
atexit(close_stdout);
while ((c = getopt(argc, argv, "ac:gh:s:vzP:")) != -1)
switch (c) {
case 'a':
arrow_cursor = TRUE;
break;
case 'c':
user_cylinders = cylinders = strtos64_or_err(optarg, _("cannot parse number of cylinders"));
if (cylinders <= 0) {
fprintf(stderr, "%s: %s\n", argv[0], _("Illegal cylinders value"));
exit(1);
}
break;
case 'g':
use_partition_table_geometry = TRUE;
break;
case 'h':
user_heads = heads = strtol_or_err(optarg, _("cannot parse number of heads"));
if (heads <= 0 || heads > MAX_HEADS) {
fprintf(stderr, "%s: %s\n", argv[0], _("Illegal heads value"));
exit(1);
}
break;
case 's':
user_sectors = sectors = strtol_or_err(optarg, _("cannot parse number of sectors"));
if (sectors <= 0 || sectors > MAX_SECTORS) {
fprintf(stderr, "%s: %s\n", argv[0], _("Illegal sectors value"));
exit(1);
}
break;
case 'v':
fprintf(stderr, "cfdisk (%s)\n", PACKAGE_STRING);
copyright();
exit(0);
case 'z':
zero_table = TRUE;
break;
case 'P':
len = strlen(optarg);
for (i = 0; i < len; i++) {
switch (optarg[i]) {
case 'r':
print_only |= PRINT_RAW_TABLE;
break;
case 's':
print_only |= PRINT_SECTOR_TABLE;
break;
case 't':
print_only |= PRINT_PARTITION_TABLE;
break;
default:
usage(argv[0]);
exit(1);
}
}
break;
default:
usage(argv[0]);
exit(1);
}
if (argc-optind == 1)
disk_device = argv[optind];
else if (argc-optind != 0) {
usage(argv[0]);
exit(1);
} else if ((fd = open(DEFAULT_DEVICE, O_RDONLY)) < 0)
disk_device = ALTERNATE_DEVICE;
else close(fd);
if (print_only) {
fill_p_info();
if (print_only & PRINT_RAW_TABLE)
print_raw_table();
if (print_only & PRINT_SECTOR_TABLE)
print_p_info();
if (print_only & PRINT_PARTITION_TABLE)
print_part_table();
} else
do_curses_fdisk();
return 0;
}
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