Merge from upstream at 4189ef5d from https://github.com/onetrueawk/awk.git

[FreeBSD/FreeBSD.git] / sbin / fdisk / fdisk.c

/*
 * Mach Operating System
 * Copyright (c) 1992 Carnegie Mellon University
 * All Rights Reserved.
 *
 * Permission to use, copy, modify and distribute this software and its
 * documentation is hereby granted, provided that both the copyright
 * notice and this permission notice appear in all copies of the
 * software, derivative works or modified versions, and any portions
 * thereof, and that both notices appear in supporting documentation.
 *
 * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
 * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
 * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
 *
 * Carnegie Mellon requests users of this software to return to
 *
 *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
 *  School of Computer Science
 *  Carnegie Mellon University
 *  Pittsburgh PA 15213-3890
 *
 * any improvements or extensions that they make and grant Carnegie Mellon
 * the rights to redistribute these changes.
 */

#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");

#include <sys/disk.h>
#include <sys/disklabel.h>
#include <sys/diskmbr.h>
#include <sys/endian.h>
#include <sys/param.h>
#include <sys/stat.h>
#include <sys/mount.h>
#include <ctype.h>
#include <fcntl.h>
#include <err.h>
#include <errno.h>
#include <libgeom.h>
#include <paths.h>
#include <regex.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>

static int iotest;

#define NO_DISK_SECTORS ((u_int32_t)-1)
#define NO_TRACK_CYLINDERS 1023
#define NO_TRACK_HEADS 255
#define NO_TRACK_SECTORS 63
#define LBUF 100
static char lbuf[LBUF];

/*
 *
 * Ported to 386bsd by Julian Elischer  Thu Oct 15 20:26:46 PDT 1992
 *
 * 14-Dec-89  Robert Baron (rvb) at Carnegie-Mellon University
 *      Copyright (c) 1989      Robert. V. Baron
 *      Created.
 */

#define Decimal(str, ans, tmp, maxval) if (decimal(str, &tmp, ans, maxval)) ans = tmp

#define MAX_SEC_SIZE 65536      /* maximum sector size that is supported */
#define MIN_SEC_SIZE 512        /* the sector size to start sensing at */
static int secsize = 0;         /* the sensed sector size */

static char *disk;

static int cyls, sectors, heads, cylsecs;
static u_int32_t disksecs;

struct mboot {
        unsigned char *bootinst;  /* boot code */
        off_t bootinst_size;
        struct  dos_partition parts[NDOSPART];
};

static struct mboot mboot;
static int fd;

#define ACTIVE 0x80

static uint dos_cyls;
static uint dos_heads;
static uint dos_sectors;
static uint dos_cylsecs;

#define DOSSECT(s,c) ((s & 0x3f) | ((c >> 2) & 0xc0))
#define DOSCYL(c)       (c & 0xff)

#define MAX_ARGS        10

static int      current_line_number;

static int      geom_processed = 0;
static int      part_processed = 0;
static int      active_processed = 0;

typedef struct cmd {
    char                cmd;
    int                 n_args;
    struct arg {
        char            argtype;
        unsigned long   arg_val;
        char *          arg_str;
    }                   args[MAX_ARGS];
} CMD;

static int B_flag  = 0;         /* replace boot code */
static int I_flag  = 0;         /* use entire disk for FreeBSD */
static int a_flag  = 0;         /* set active partition */
static char *b_flag = NULL;     /* path to boot code */
static int i_flag  = 0;         /* replace partition data */
static int q_flag  = 0;         /* Be quiet */
static int u_flag  = 0;         /* update partition data */
static int s_flag  = 0;         /* Print a summary and exit */
static int t_flag  = 0;         /* test only */
static char *f_flag = NULL;     /* Read config info from file */
static int v_flag  = 0;         /* Be verbose */
static int print_config_flag = 0;

/*
 * A list of partition types, probably outdated.
 */
static const char *const part_types[256] = {
        [0x00] = "unused",
        [0x01] = "Primary DOS with 12 bit FAT",
        [0x02] = "XENIX / file system",
        [0x03] = "XENIX /usr file system",
        [0x04] = "Primary DOS with 16 bit FAT (< 32MB)",
        [0x05] = "Extended DOS",
        [0x06] = "Primary DOS, 16 bit FAT (>= 32MB)",
        [0x07] = "NTFS, OS/2 HPFS, QNX-2 (16 bit) or Advanced UNIX",
        [0x08] = "AIX file system or SplitDrive",
        [0x09] = "AIX boot partition or Coherent",
        [0x0A] = "OS/2 Boot Manager, OPUS or Coherent swap",
        [0x0B] = "DOS or Windows 95 with 32 bit FAT",
        [0x0C] = "DOS or Windows 95 with 32 bit FAT (LBA)",
        [0x0E] = "Primary 'big' DOS (>= 32MB, LBA)",
        [0x0F] = "Extended DOS (LBA)",
        [0x10] = "OPUS",
        [0x11] = "OS/2 BM: hidden DOS with 12-bit FAT",
        [0x12] = "Compaq diagnostics",
        [0x14] = "OS/2 BM: hidden DOS with 16-bit FAT (< 32MB)",
        [0x16] = "OS/2 BM: hidden DOS with 16-bit FAT (>= 32MB)",
        [0x17] = "OS/2 BM: hidden IFS (e.g. HPFS)",
        [0x18] = "AST Windows swapfile",
        [0x1b] = "ASUS Recovery partition (NTFS)",
        [0x24] = "NEC DOS",
        [0x3C] = "PartitionMagic recovery",
        [0x39] = "plan9",
        [0x40] = "VENIX 286",
        [0x41] = "Linux/MINIX (sharing disk with DRDOS)",
        [0x42] = "SFS or Linux swap (sharing disk with DRDOS)",
        [0x43] = "Linux native (sharing disk with DRDOS)",
        [0x4D] = "QNX 4.2 Primary",
        [0x4E] = "QNX 4.2 Secondary",
        [0x4F] = "QNX 4.2 Tertiary",
        [0x50] = "DM (disk manager)",
        [0x51] = "DM6 Aux1 (or Novell)",
        [0x52] = "CP/M or Microport SysV/AT",
        [0x53] = "DM6 Aux3",
        [0x54] = "DM6",
        [0x55] = "EZ-Drive (disk manager)",
        [0x56] = "Golden Bow (disk manager)",
        [0x5c] = "Priam Edisk (disk manager)", /* according to S. Widlake */
        [0x61] = "SpeedStor",
        [0x63] = "System V/386 (such as ISC UNIX), GNU HURD or Mach",
        [0x64] = "Novell Netware/286 2.xx",
        [0x65] = "Novell Netware/386 3.xx",
        [0x6C] = "DragonFlyBSD",
        [0x70] = "DiskSecure Multi-Boot",
        [0x75] = "PCIX",
        [0x77] = "QNX4.x",
        [0x78] = "QNX4.x 2nd part",
        [0x79] = "QNX4.x 3rd part",
        [0x80] = "Minix until 1.4a",
        [0x81] = "Minix since 1.4b, early Linux partition or Mitac disk manager",
        [0x82] = "Linux swap or Solaris x86",
        [0x83] = "Linux native",
        [0x84] = "OS/2 hidden C: drive",
        [0x85] = "Linux extended",
        [0x86] = "NTFS volume set??",
        [0x87] = "NTFS volume set??",
        [0x93] = "Amoeba file system",
        [0x94] = "Amoeba bad block table",
        [0x9F] = "BSD/OS",
        [0xA0] = "Suspend to Disk",
        [0xA5] = "FreeBSD/NetBSD/386BSD",
        [0xA6] = "OpenBSD",
        [0xA7] = "NeXTSTEP",
        [0xA9] = "NetBSD",
        [0xAC] = "IBM JFS",
        [0xAF] = "HFS+",
        [0xB7] = "BSDI BSD/386 file system",
        [0xB8] = "BSDI BSD/386 swap",
        [0xBE] = "Solaris x86 boot",
        [0xBF] = "Solaris x86 (new)",
        [0xC1] = "DRDOS/sec with 12-bit FAT",
        [0xC4] = "DRDOS/sec with 16-bit FAT (< 32MB)",
        [0xC6] = "DRDOS/sec with 16-bit FAT (>= 32MB)",
        [0xC7] = "Syrinx",
        [0xDB] = "CP/M, Concurrent CP/M, Concurrent DOS or CTOS",
        [0xDE] = "DELL Utilities - FAT filesystem",
        [0xE1] = "DOS access or SpeedStor with 12-bit FAT extended partition",
        [0xE3] = "DOS R/O or SpeedStor",
        [0xE4] = "SpeedStor with 16-bit FAT extended partition < 1024 cyl.",
        [0xEB] = "BeOS file system",
        [0xEE] = "EFI GPT",
        [0xEF] = "EFI System Partition",
        [0xF1] = "SpeedStor",
        [0xF2] = "DOS 3.3+ Secondary",
        [0xF4] = "SpeedStor large partition",
        [0xFB] = "VMware VMFS",
        [0xFE] = "SpeedStor >1024 cyl. or LANstep",
        [0xFF] = "Xenix bad blocks table",
};

static const char *
get_type(int t)
{
        const char *ret;

        ret = (t >= 0 && t <= 255) ? part_types[t] : NULL;
        return ret ? ret : "unknown";
}


static int geom_class_available(const char *);
static void print_s0(void);
static void print_part(const struct dos_partition *);
static void init_sector0(unsigned long start);
static void init_boot(void);
static void change_part(int i);
static void print_params(void);
static void change_active(int which);
static void change_code(void);
static void get_params_to_use(void);
static char *get_rootdisk(void);
static void dos(struct dos_partition *partp);
static int open_disk(int flag);
static ssize_t read_disk(off_t sector, void *buf);
static int write_disk(off_t sector, void *buf);
static int get_params(void);
static int read_s0(void);
static int write_s0(void);
static int ok(const char *str);
static int decimal(const char *str, int *num, int deflt, uint32_t maxval);
static int read_config(char *config_file);
static void reset_boot(void);
static int sanitize_partition(struct dos_partition *);
static void usage(void);

int
main(int argc, char *argv[])
{
        int     c, i;
        int     partition = -1;
        struct  dos_partition *partp;

        while ((c = getopt(argc, argv, "BIab:f:ipqstuv1234")) != -1)
                switch (c) {
                case 'B':
                        B_flag = 1;
                        break;
                case 'I':
                        I_flag = 1;
                        break;
                case 'a':
                        a_flag = 1;
                        break;
                case 'b':
                        b_flag = optarg;
                        break;
                case 'f':
                        f_flag = optarg;
                        break;
                case 'i':
                        i_flag = 1;
                        break;
                case 'p':
                        print_config_flag = 1;
                        break;
                case 'q':
                        q_flag = 1;
                        break;
                case 's':
                        s_flag = 1;
                        break;
                case 't':
                        t_flag = 1;
                        break;
                case 'u':
                        u_flag = 1;
                        break;
                case 'v':
                        v_flag = 1;
                        break;
                case '1':
                case '2':
                case '3':
                case '4':
                        partition = c - '0';
                        break;
                default:
                        usage();
                }
        if (f_flag || i_flag)
                u_flag = 1;
        if (t_flag)
                v_flag = 1;
        argc -= optind;
        argv += optind;

        if (argc == 0) {
                disk = get_rootdisk();
        } else {
                disk = g_device_path(argv[0]);
                if (disk == NULL)
                        err(1, "unable to get correct path for %s", argv[0]);
        }
        if (open_disk(u_flag) < 0)
                err(1, "cannot open disk %s", disk);

        /* (abu)use mboot.bootinst to probe for the sector size */
        if ((mboot.bootinst = malloc(MAX_SEC_SIZE)) == NULL)
                err(1, "cannot allocate buffer to determine disk sector size");
        if (read_disk(0, mboot.bootinst) == -1)
                errx(1, "could not detect sector size");
        free(mboot.bootinst);
        mboot.bootinst = NULL;

        if (print_config_flag) {
                if (read_s0())
                        err(1, "read_s0");

                printf("# %s\n", disk);
                printf("g c%d h%d s%d\n", dos_cyls, dos_heads, dos_sectors);

                for (i = 0; i < NDOSPART; i++) {
                        partp = &mboot.parts[i];

                        if (partp->dp_start == 0 && partp->dp_size == 0)
                                continue;

                        printf("p %d 0x%02x %lu %lu\n", i + 1, partp->dp_typ,
                            (u_long)partp->dp_start, (u_long)partp->dp_size);

                        /* Fill flags for the partition. */
                        if (partp->dp_flag & 0x80)
                                printf("a %d\n", i + 1);
                }
                exit(0);
        }
        if (s_flag) {
                if (read_s0())
                        err(1, "read_s0");
                printf("%s: %d cyl %d hd %d sec\n", disk, dos_cyls, dos_heads,
                    dos_sectors);
                printf("Part  %11s %11s Type Flags\n", "Start", "Size");
                for (i = 0; i < NDOSPART; i++) {
                        partp = &mboot.parts[i];
                        if (partp->dp_start == 0 && partp->dp_size == 0)
                                continue;
                        printf("%4d: %11lu %11lu 0x%02x 0x%02x\n", i + 1,
                            (u_long) partp->dp_start,
                            (u_long) partp->dp_size, partp->dp_typ,
                            partp->dp_flag);
                }
                exit(0);
        }

        printf("******* Working on device %s *******\n",disk);

        if (I_flag) {
                read_s0();
                reset_boot();
                partp = &mboot.parts[0];
                partp->dp_typ = DOSPTYP_386BSD;
                partp->dp_flag = ACTIVE;
                partp->dp_start = dos_sectors;
                partp->dp_size = rounddown(disksecs, dos_cylsecs) -
                    dos_sectors;
                dos(partp);
                if (v_flag)
                        print_s0();
                if (!t_flag)
                        write_s0();
                exit(0);
        }
        if (f_flag) {
            if (read_s0() || i_flag)
                reset_boot();
            if (!read_config(f_flag))
                exit(1);
            if (v_flag)
                print_s0();
            if (!t_flag)
                write_s0();
        } else {
            if(u_flag)
                get_params_to_use();
            else
                print_params();

            if (read_s0())
                init_sector0(dos_sectors);

            printf("Media sector size is %d\n", secsize);
            printf("Warning: BIOS sector numbering starts with sector 1\n");
            printf("Information from DOS bootblock is:\n");
            if (partition == -1)
                for (i = 1; i <= NDOSPART; i++)
                    change_part(i);
            else
                change_part(partition);

            if (u_flag || a_flag)
                change_active(partition);

            if (B_flag)
                change_code();

            if (u_flag || a_flag || B_flag) {
                if (!t_flag) {
                    printf("\nWe haven't changed the partition table yet.  ");
                    printf("This is your last chance.\n");
                }
                print_s0();
                if (!t_flag) {
                    if (ok("Should we write new partition table?"))
                        write_s0();
                } else {
                    printf("\n-t flag specified -- partition table not written.\n");
                }
            }
        }

        exit(0);
}

static void
usage()
{
        fprintf(stderr, "%s%s",
                "usage: fdisk [-BIaipqstu] [-b bootcode] [-1234] [disk]\n",
                "       fdisk -f configfile [-itv] [disk]\n");
        exit(1);
}

static void
print_s0(void)
{
        int     i;

        print_params();
        printf("Information from DOS bootblock is:\n");
        for (i = 1; i <= NDOSPART; i++) {
                printf("%d: ", i);
                print_part(&mboot.parts[i - 1]);
        }
}

static struct dos_partition mtpart;

static void
print_part(const struct dos_partition *partp)
{
        u_int64_t part_mb;

        if (!bcmp(partp, &mtpart, sizeof (struct dos_partition))) {
                printf("<UNUSED>\n");
                return;
        }
        /*
         * Be careful not to overflow.
         */
        part_mb = partp->dp_size;
        part_mb *= secsize;
        part_mb /= (1024 * 1024);
        printf("sysid %d (%#04x),(%s)\n", partp->dp_typ, partp->dp_typ,
            get_type(partp->dp_typ));
        printf("    start %lu, size %lu (%ju Meg), flag %x%s\n",
                (u_long)partp->dp_start,
                (u_long)partp->dp_size,
                (uintmax_t)part_mb,
                partp->dp_flag,
                partp->dp_flag == ACTIVE ? " (active)" : "");
        printf("\tbeg: cyl %d/ head %d/ sector %d;\n\tend: cyl %d/ head %d/ sector %d\n"
                ,DPCYL(partp->dp_scyl, partp->dp_ssect)
                ,partp->dp_shd
                ,DPSECT(partp->dp_ssect)
                ,DPCYL(partp->dp_ecyl, partp->dp_esect)
                ,partp->dp_ehd
                ,DPSECT(partp->dp_esect));
}


static void
init_boot(void)
{
        const char *fname;
        int fdesc, n;
        struct stat sb;

        fname = b_flag ? b_flag : "/boot/mbr";
        if ((fdesc = open(fname, O_RDONLY)) == -1 ||
            fstat(fdesc, &sb) == -1)
                err(1, "%s", fname);
        if (sb.st_size == 0)
                errx(1, "%s is empty, must not be.", fname);
        if ((mboot.bootinst_size = sb.st_size) % secsize != 0)
                errx(1, "%s: length must be a multiple of sector size", fname);
        if (mboot.bootinst != NULL)
                free(mboot.bootinst);
        if ((mboot.bootinst = malloc(mboot.bootinst_size = sb.st_size)) == NULL)
                errx(1, "%s: unable to allocate read buffer", fname);
        if ((n = read(fdesc, mboot.bootinst, mboot.bootinst_size)) == -1 ||
            close(fdesc))
                err(1, "%s", fname);
        if (n != mboot.bootinst_size)
                errx(1, "%s: short read", fname);
}


static void
init_sector0(unsigned long start)
{
        struct dos_partition *partp = &mboot.parts[0];

        init_boot();

        partp->dp_typ = DOSPTYP_386BSD;
        partp->dp_flag = ACTIVE;
        start = roundup(start, dos_sectors);
        if(start == 0)
                start = dos_sectors;
        partp->dp_start = start;
        partp->dp_size = rounddown(disksecs, dos_cylsecs) - start;

        dos(partp);
}

static void
change_part(int i)
{
    struct dos_partition *partp = &mboot.parts[i - 1];

    printf("The data for partition %d is:\n", i);
    print_part(partp);

    if (u_flag && ok("Do you want to change it?")) {
        int tmp;

        if (i_flag) {
            bzero(partp, sizeof (*partp));
            if (i == 1) {
                init_sector0(1);
                printf("\nThe static data for the slice 1 has been reinitialized to:\n");
                print_part(partp);
            }
        }

        do {
                Decimal("sysid (165=FreeBSD)", partp->dp_typ, tmp, 255);
                Decimal("start", partp->dp_start, tmp, NO_DISK_SECTORS);
                Decimal("size", partp->dp_size, tmp, NO_DISK_SECTORS);
                if (!sanitize_partition(partp)) {
                        warnx("ERROR: failed to adjust; setting sysid to 0");
                        partp->dp_typ = 0;
                }

                if (ok("Explicitly specify beg/end address ?"))
                {
                        int     tsec,tcyl,thd;
                        tcyl = DPCYL(partp->dp_scyl,partp->dp_ssect);
                        thd = partp->dp_shd;
                        tsec = DPSECT(partp->dp_ssect);
                        Decimal("beginning cylinder", tcyl, tmp, NO_TRACK_CYLINDERS);
                        Decimal("beginning head", thd, tmp, NO_TRACK_HEADS);
                        Decimal("beginning sector", tsec, tmp, NO_TRACK_SECTORS);
                        partp->dp_scyl = DOSCYL(tcyl);
                        partp->dp_ssect = DOSSECT(tsec,tcyl);
                        partp->dp_shd = thd;

                        tcyl = DPCYL(partp->dp_ecyl,partp->dp_esect);
                        thd = partp->dp_ehd;
                        tsec = DPSECT(partp->dp_esect);
                        Decimal("ending cylinder", tcyl, tmp, NO_TRACK_CYLINDERS);
                        Decimal("ending head", thd, tmp, NO_TRACK_HEADS);
                        Decimal("ending sector", tsec, tmp, NO_TRACK_SECTORS);
                        partp->dp_ecyl = DOSCYL(tcyl);
                        partp->dp_esect = DOSSECT(tsec,tcyl);
                        partp->dp_ehd = thd;
                } else
                        dos(partp);

                print_part(partp);
        } while (!ok("Are we happy with this entry?"));
    }
}

static void
print_params()
{
        printf("parameters extracted from in-core disklabel are:\n");
        printf("cylinders=%d heads=%d sectors/track=%d (%d blks/cyl)\n\n"
                        ,cyls,heads,sectors,cylsecs);
        if (dos_cyls > 1023 || dos_heads > 255 || dos_sectors > 63)
                printf("Figures below won't work with BIOS for partitions not in cyl 1\n");
        printf("parameters to be used for BIOS calculations are:\n");
        printf("cylinders=%d heads=%d sectors/track=%d (%d blks/cyl)\n\n"
                ,dos_cyls,dos_heads,dos_sectors,dos_cylsecs);
}

static void
change_active(int which)
{
        struct dos_partition *partp = &mboot.parts[0];
        int active, i, new, tmp;

        active = -1;
        for (i = 0; i < NDOSPART; i++) {
                if ((partp[i].dp_flag & ACTIVE) == 0)
                        continue;
                printf("Partition %d is marked active\n", i + 1);
                if (active == -1)
                        active = i + 1;
        }
        if (a_flag && which != -1)
                active = which;
        else if (active == -1)
                active = 1;

        if (!ok("Do you want to change the active partition?"))
                return;
setactive:
        do {
                new = active;
                Decimal("active partition", new, tmp, 0);
                if (new < 1 || new > 4) {
                        printf("Active partition number must be in range 1-4."
                                        "  Try again.\n");
                        goto setactive;
                }
                active = new;
        } while (!ok("Are you happy with this choice"));
        for (i = 0; i < NDOSPART; i++)
                partp[i].dp_flag = 0;
        if (active > 0 && active <= NDOSPART)
                partp[active-1].dp_flag = ACTIVE;
}

static void
change_code()
{
        if (ok("Do you want to change the boot code?"))
                init_boot();
}

void
get_params_to_use()
{
        int     tmp;
        print_params();
        if (ok("Do you want to change our idea of what BIOS thinks ?"))
        {
                do
                {
                        Decimal("BIOS's idea of #cylinders", dos_cyls, tmp, 0);
                        Decimal("BIOS's idea of #heads", dos_heads, tmp, 0);
                        Decimal("BIOS's idea of #sectors", dos_sectors, tmp, 0);
                        dos_cylsecs = dos_heads * dos_sectors;
                        print_params();
                }
                while(!ok("Are you happy with this choice"));
        }
}


/***********************************************\
* Change real numbers into strange dos numbers  *
\***********************************************/
static void
dos(struct dos_partition *partp)
{
        int cy, sec;
        u_int32_t end;

        if (partp->dp_typ == 0 && partp->dp_start == 0 && partp->dp_size == 0) {
                memcpy(partp, &mtpart, sizeof(*partp));
                return;
        }

        /* Start c/h/s. */
        partp->dp_shd = partp->dp_start % dos_cylsecs / dos_sectors;
        cy = partp->dp_start / dos_cylsecs;
        sec = partp->dp_start % dos_sectors + 1;
        partp->dp_scyl = DOSCYL(cy);
        partp->dp_ssect = DOSSECT(sec, cy);

        /* End c/h/s. */
        end = partp->dp_start + partp->dp_size - 1;
        partp->dp_ehd = end % dos_cylsecs / dos_sectors;
        cy = end / dos_cylsecs;
        sec = end % dos_sectors + 1;
        partp->dp_ecyl = DOSCYL(cy);
        partp->dp_esect = DOSSECT(sec, cy);
}

static int
open_disk(int flag)
{
        int rwmode;

        /* Write mode if one of these flags are set. */
        rwmode = (a_flag || I_flag || B_flag || flag);
        fd = g_open(disk, rwmode);
        /* If the mode fails, try read-only if we didn't. */
        if (fd == -1 && errno == EPERM && rwmode)
                fd = g_open(disk, 0);
        if (fd == -1 && errno == ENXIO)
                return -2;
        if (fd == -1) {
                warnx("can't open device %s", disk);
                return -1;
        }
        if (get_params() == -1) {
                warnx("can't get disk parameters on %s", disk);
                return -1;
        }
        return fd;
}

static ssize_t
read_disk(off_t sector, void *buf)
{

        lseek(fd, (sector * 512), 0);
        if (secsize == 0)
                for (secsize = MIN_SEC_SIZE; secsize <= MAX_SEC_SIZE;
                     secsize *= 2) {
                        /* try the read */
                        int size = read(fd, buf, secsize);
                        if (size == secsize)
                                /* it worked so return */
                                return secsize;
                }
        else
                return read(fd, buf, secsize);

        /* we failed to read at any of the sizes */
        return -1;
}

static int
geom_class_available(const char *name)
{
        struct gclass *class;
        struct gmesh mesh;
        int error;

        error = geom_gettree(&mesh);
        if (error != 0)
                errc(1, error, "Cannot get GEOM tree");

        LIST_FOREACH(class, &mesh.lg_class, lg_class) {
                if (strcmp(class->lg_name, name) == 0) {
                        geom_deletetree(&mesh);
                        return (1);
                }
        }

        geom_deletetree(&mesh);

        return (0);
}

static int
write_disk(off_t sector, void *buf)
{
        struct gctl_req *grq;
        const char *errmsg;
        char *pname;
        int error;

        /* Check that GEOM_MBR is available */
        if (geom_class_available("MBR") != 0) {
                grq = gctl_get_handle();
                gctl_ro_param(grq, "verb", -1, "write MBR");
                gctl_ro_param(grq, "class", -1, "MBR");
                pname = g_providername(fd);
                if (pname == NULL) {
                        warn("Error getting providername for %s", disk);
                        return (-1);
                }
                gctl_ro_param(grq, "geom", -1, pname);
                gctl_ro_param(grq, "data", secsize, buf);
                errmsg = gctl_issue(grq);
                free(pname);
                if (errmsg == NULL) {
                        gctl_free(grq);
                        return(0);
                }
                if (!q_flag)
                        warnx("GEOM_MBR: %s", errmsg);
                gctl_free(grq);
        } else {
                /*
                 * Try to write MBR directly. This may help when disk
                 * is not in use.
                 * XXX: hardcoded sectorsize
                 */
                error = pwrite(fd, buf, secsize, (sector * 512));
                if (error == secsize)
                        return (0);
        }

        /*
         * GEOM_MBR is not available or failed to write MBR.
         * Now check that we have GEOM_PART and recommend to use gpart (8).
         */
        if (geom_class_available("PART") != 0)
                warnx("Failed to write MBR. Try to use gpart(8).");
        else
                warnx("Failed to write sector zero");
        return(EINVAL);
}

static int
get_params()
{
        int error;
        u_int u;
        off_t o;

        error = ioctl(fd, DIOCGFWSECTORS, &u);
        if (error == 0)
                sectors = dos_sectors = u;
        else
                sectors = dos_sectors = 63;

        error = ioctl(fd, DIOCGFWHEADS, &u);
        if (error == 0)
                heads = dos_heads = u;
        else
                heads = dos_heads = 255;

        dos_cylsecs = cylsecs = heads * sectors;
        disksecs = cyls * heads * sectors;

        u = g_sectorsize(fd);
        if (u <= 0)
                return (-1);

        o = g_mediasize(fd);
        if (o < 0)
                return (-1);
        if (o / u <= NO_DISK_SECTORS)
                disksecs = o / u;
        else
                disksecs = NO_DISK_SECTORS;
        cyls = dos_cyls = o / (u * dos_heads * dos_sectors);

        return (0);
}

static int
read_s0()
{
        int i;

        mboot.bootinst_size = secsize;
        if (mboot.bootinst != NULL)
                free(mboot.bootinst);
        if ((mboot.bootinst = malloc(mboot.bootinst_size)) == NULL) {
                warnx("unable to allocate buffer to read fdisk "
                      "partition table");
                return -1;
        }
        if (read_disk(0, mboot.bootinst) == -1) {
                warnx("can't read fdisk partition table");
                return -1;
        }
        if (le16dec(&mboot.bootinst[DOSMAGICOFFSET]) != DOSMAGIC) {
                warnx("invalid fdisk partition table found");
                /* So should we initialize things */
                return -1;
        }
        for (i = 0; i < NDOSPART; i++)
                dos_partition_dec(
                    &mboot.bootinst[DOSPARTOFF + i * DOSPARTSIZE],
                    &mboot.parts[i]);
        return 0;
}

static int
write_s0()
{
        int     sector, i;

        if (iotest) {
                print_s0();
                return 0;
        }
        for(i = 0; i < NDOSPART; i++)
                dos_partition_enc(&mboot.bootinst[DOSPARTOFF + i * DOSPARTSIZE],
                    &mboot.parts[i]);
        le16enc(&mboot.bootinst[DOSMAGICOFFSET], DOSMAGIC);
        for(sector = 0; sector < mboot.bootinst_size / secsize; sector++)
                if (write_disk(sector,
                               &mboot.bootinst[sector * secsize]) == -1) {
                        warn("can't write fdisk partition table");
                        return -1;
                }
        return(0);
}


static int
ok(const char *str)
{
        printf("%s [n] ", str);
        fflush(stdout);
        if (fgets(lbuf, LBUF, stdin) == NULL)
                exit(1);
        lbuf[strlen(lbuf)-1] = 0;

        if (*lbuf &&
                (!strcmp(lbuf, "yes") || !strcmp(lbuf, "YES") ||
                 !strcmp(lbuf, "y") || !strcmp(lbuf, "Y")))
                return 1;
        else
                return 0;
}

static int
decimal(const char *str, int *num, int deflt, uint32_t maxval)
{
        long long acc;
        int c;
        char *cp;

        while (1) {
                acc = 0;
                printf("Supply a decimal value for \"%s\" [%d] ", str, deflt);
                fflush(stdout);
                if (fgets(lbuf, LBUF, stdin) == NULL)
                        exit(1);
                lbuf[strlen(lbuf)-1] = 0;

                if (!*lbuf)
                        return 0;

                cp = lbuf;
                while ((c = *cp) && (c == ' ' || c == '\t')) cp++;
                if (!c)
                        return 0;
                while ((c = *cp++)) {
                        if (c <= '9' && c >= '0') {
                                if (acc <= maxval || maxval == 0)
                                        acc = acc * 10 + c - '0';
                        } else
                                break;
                }
                if (c == ' ' || c == '\t')
                        while ((c = *cp) && (c == ' ' || c == '\t')) cp++;
                if (!c) {
                        if (maxval > 0 && acc > maxval) {
                                acc = maxval;
                                printf("%s exceeds maximum value allowed for "
                                  "this field. The value has been reduced "
                                  "to %lld\n", lbuf, acc);
                        }
                        *num = acc;
                        return 1;
                } else
                        printf("%s is an invalid decimal number.  Try again.\n",
                                lbuf);
        }
}


static void
parse_config_line(char *line, CMD *command)
{
    char        *cp, *end;

    cp = line;
    while (1) {
        memset(command, 0, sizeof(*command));

        while (isspace(*cp)) ++cp;
        if (*cp == '\0' || *cp == '#')
            break;
        command->cmd = *cp++;

        /*
         * Parse args
         */
            while (1) {
            while (isspace(*cp)) ++cp;
            if (*cp == '\0')
                break;          /* eol */
            if (*cp == '#')
                break;          /* found comment */
            if (isalpha(*cp))
                command->args[command->n_args].argtype = *cp++;
            end = NULL;
            command->args[command->n_args].arg_val = strtoul(cp, &end, 0);
            if (cp == end || (!isspace(*end) && *end != '\0')) {
                char ch;
                end = cp;
                while (!isspace(*end) && *end != '\0') ++end;
                ch = *end; *end = '\0';
                command->args[command->n_args].arg_str = strdup(cp);
                *end = ch;
            } else
                command->args[command->n_args].arg_str = NULL;
            cp = end;
            command->n_args++;
        }
        break;
    }
}


static int
process_geometry(CMD *command)
{
    int         status = 1, i;

    while (1) {
        geom_processed = 1;
            if (part_processed) {
            warnx(
        "ERROR line %d: the geometry specification line must occur before\n\
    all partition specifications",
                    current_line_number);
            status = 0;
            break;
        }
            if (command->n_args != 3) {
            warnx("ERROR line %d: incorrect number of geometry args",
                    current_line_number);
            status = 0;
            break;
        }
            dos_cyls = 0;
            dos_heads = 0;
            dos_sectors = 0;
            for (i = 0; i < 3; ++i) {
                    switch (command->args[i].argtype) {
            case 'c':
                dos_cyls = command->args[i].arg_val;
                break;
            case 'h':
                dos_heads = command->args[i].arg_val;
                break;
            case 's':
                dos_sectors = command->args[i].arg_val;
                break;
            default:
                warnx(
                "ERROR line %d: unknown geometry arg type: '%c' (0x%02x)",
                        current_line_number, command->args[i].argtype,
                        command->args[i].argtype);
                status = 0;
                break;
            }
        }
        if (status == 0)
            break;

        dos_cylsecs = dos_heads * dos_sectors;

        /*
         * Do sanity checks on parameter values
         */
            if (dos_cyls == 0) {
            warnx("ERROR line %d: number of cylinders not specified",
                    current_line_number);
            status = 0;
        }
            if (dos_cyls > 1024) {
            warnx(
        "WARNING line %d: number of cylinders (%d) may be out-of-range\n\
    (must be within 1-1024 for normal BIOS operation, unless the entire disk\n\
    is dedicated to FreeBSD)",
                    current_line_number, dos_cyls);
        }

            if (dos_heads == 0) {
            warnx("ERROR line %d: number of heads not specified",
                    current_line_number);
            status = 0;
            } else if (dos_heads > 256) {
            warnx("ERROR line %d: number of heads must be within (1-256)",
                    current_line_number);
            status = 0;
        }

            if (dos_sectors == 0) {
            warnx("ERROR line %d: number of sectors not specified",
                    current_line_number);
            status = 0;
            } else if (dos_sectors > 63) {
            warnx("ERROR line %d: number of sectors must be within (1-63)",
                    current_line_number);
            status = 0;
        }

        break;
    }
    return (status);
}

static u_int32_t
str2sectors(const char *str)
{
        char *end;
        unsigned long val;

        val = strtoul(str, &end, 0);
        if (str == end || *end == '\0') {
                warnx("ERROR line %d: unexpected size: \'%s\'",
                    current_line_number, str);
                return NO_DISK_SECTORS;
        }

        if (*end == 'K')
                val *= 1024UL / secsize;
        else if (*end == 'M')
                val *= 1024UL * 1024UL / secsize;
        else if (*end == 'G')
                val *= 1024UL * 1024UL * 1024UL / secsize;
        else {
                warnx("ERROR line %d: unexpected modifier: %c "
                    "(not K/M/G)", current_line_number, *end);
                return NO_DISK_SECTORS;
        }

        return val;
}

static int
process_partition(CMD *command)
{
    int                         status = 0, partition;
    u_int32_t                   prev_head_boundary, prev_cyl_boundary;
    u_int32_t                   adj_size, max_end;
    struct dos_partition        *partp;

        while (1) {
        part_processed = 1;
                if (command->n_args != 4) {
            warnx("ERROR line %d: incorrect number of partition args",
                    current_line_number);
            break;
        }
        partition = command->args[0].arg_val;
                if (partition < 1 || partition > 4) {
            warnx("ERROR line %d: invalid partition number %d",
                    current_line_number, partition);
            break;
        }
        partp = &mboot.parts[partition - 1];
        bzero(partp, sizeof (*partp));
        partp->dp_typ = command->args[1].arg_val;
        if (command->args[2].arg_str != NULL) {
                if (strcmp(command->args[2].arg_str, "*") == 0) {
                        int i;
                        partp->dp_start = dos_sectors;
                        for (i = 1; i < partition; i++) {
                                struct dos_partition *prev_partp;
                                prev_partp = ((struct dos_partition *)
                                    &mboot.parts) + i - 1;
                                if (prev_partp->dp_typ != 0)
                                        partp->dp_start = prev_partp->dp_start +
                                            prev_partp->dp_size;
                        }
                        if (partp->dp_start % dos_sectors != 0) {
                                prev_head_boundary = rounddown(partp->dp_start,
                                    dos_sectors);
                                partp->dp_start = prev_head_boundary +
                                    dos_sectors;
                        }
                } else {
                        partp->dp_start = str2sectors(command->args[2].arg_str);
                        if (partp->dp_start == NO_DISK_SECTORS)
                                break;
                }
        } else
                partp->dp_start = command->args[2].arg_val;

        if (command->args[3].arg_str != NULL) {
                if (strcmp(command->args[3].arg_str, "*") == 0)
                        partp->dp_size = rounddown(disksecs, dos_cylsecs) -
                            partp->dp_start;
                else {
                        partp->dp_size = str2sectors(command->args[3].arg_str);
                        if (partp->dp_size == NO_DISK_SECTORS)
                                break;
                }
                prev_cyl_boundary = rounddown(partp->dp_start + partp->dp_size,
                    dos_cylsecs);
                if (prev_cyl_boundary > partp->dp_start)
                        partp->dp_size = prev_cyl_boundary - partp->dp_start;
        } else
                partp->dp_size = command->args[3].arg_val;

        max_end = partp->dp_start + partp->dp_size;

        if (partp->dp_typ == 0) {
            /*
             * Get out, the partition is marked as unused.
             */
            /*
             * Insure that it's unused.
             */
            bzero(partp, sizeof(*partp));
            status = 1;
            break;
        }

        /*
         * Adjust start upwards, if necessary, to fall on a head boundary.
         */
                if (partp->dp_start % dos_sectors != 0) {
            prev_head_boundary = rounddown(partp->dp_start, dos_sectors);
            if (max_end < dos_sectors ||
                            prev_head_boundary > max_end - dos_sectors) {
                /*
                 * Can't go past end of partition
                 */
                warnx(
        "ERROR line %d: unable to adjust start of partition %d to fall on\n\
    a head boundary",
                        current_line_number, partition);
                break;
            }
            warnx(
        "WARNING: adjusting start offset of partition %d\n\
    from %u to %u, to fall on a head boundary",
                    partition, (u_int)partp->dp_start,
                    (u_int)(prev_head_boundary + dos_sectors));
            partp->dp_start = prev_head_boundary + dos_sectors;
        }

        /*
         * Adjust size downwards, if necessary, to fall on a cylinder
         * boundary.
         */
        prev_cyl_boundary = rounddown(partp->dp_start + partp->dp_size,
            dos_cylsecs);
        if (prev_cyl_boundary > partp->dp_start)
            adj_size = prev_cyl_boundary - partp->dp_start;
                else {
            warnx(
        "ERROR: could not adjust partition to start on a head boundary\n\
    and end on a cylinder boundary.");
            return (0);
        }
                if (adj_size != partp->dp_size) {
            warnx(
        "WARNING: adjusting size of partition %d from %u to %u\n\
    to end on a cylinder boundary",
                    partition, (u_int)partp->dp_size, (u_int)adj_size);
            partp->dp_size = adj_size;
        }
                if (partp->dp_size == 0) {
            warnx("ERROR line %d: size of partition %d is zero",
                    current_line_number, partition);
            break;
        }

        dos(partp);
        status = 1;
        break;
    }
    return (status);
}


static int
process_active(CMD *command)
{
    int                         status = 0, partition, i;
    struct dos_partition        *partp;

        while (1) {
        active_processed = 1;
                if (command->n_args != 1) {
            warnx("ERROR line %d: incorrect number of active args",
                    current_line_number);
            status = 0;
            break;
        }
        partition = command->args[0].arg_val;
                if (partition < 1 || partition > 4) {
            warnx("ERROR line %d: invalid partition number %d",
                    current_line_number, partition);
            break;
        }
        /*
         * Reset active partition
         */
        partp = mboot.parts;
        for (i = 0; i < NDOSPART; i++)
            partp[i].dp_flag = 0;
        partp[partition-1].dp_flag = ACTIVE;

        status = 1;
        break;
    }
    return (status);
}


static int
process_line(char *line)
{
    CMD         command;
    int         status = 1;

        while (1) {
        parse_config_line(line, &command);
                switch (command.cmd) {
        case 0:
            /*
             * Comment or blank line
             */
            break;
        case 'g':
            /*
             * Set geometry
             */
            status = process_geometry(&command);
            break;
        case 'p':
            status = process_partition(&command);
            break;
        case 'a':
            status = process_active(&command);
            break;
        default:
            status = 0;
            break;
        }
        break;
    }
    return (status);
}


static int
read_config(char *config_file)
{
    FILE        *fp = NULL;
    int         status = 1;
    char        buf[1010];

        while (1) {
                if (strcmp(config_file, "-") != 0) {
            /*
             * We're not reading from stdin
             */
                        if ((fp = fopen(config_file, "r")) == NULL) {
                status = 0;
                break;
            }
                } else {
            fp = stdin;
        }
        current_line_number = 0;
                while (!feof(fp)) {
            if (fgets(buf, sizeof(buf), fp) == NULL)
                break;
            ++current_line_number;
            status = process_line(buf);
            if (status == 0)
                break;
            }
        break;
    }
        if (fp) {
        /*
         * It doesn't matter if we're reading from stdin, as we've reached EOF
         */
        fclose(fp);
    }
    return (status);
}


static void
reset_boot(void)
{
    int                         i;
    struct dos_partition        *partp;

    init_boot();
    for (i = 0; i < 4; ++i) {
        partp = &mboot.parts[i];
        bzero(partp, sizeof(*partp));
    }
}

static int
sanitize_partition(struct dos_partition *partp)
{
    u_int32_t                   prev_head_boundary, prev_cyl_boundary;
    u_int32_t                   max_end, size, start;

    start = partp->dp_start;
    size = partp->dp_size;
    max_end = start + size;
    /* Only allow a zero size if the partition is being marked unused. */
    if (size == 0) {
        if (start == 0 && partp->dp_typ == 0)
            return (1);
        warnx("ERROR: size of partition is zero");
        return (0);
    }
    /* Return if no adjustment is necessary. */
    if (start % dos_sectors == 0 && (start + size) % dos_sectors == 0)
        return (1);

    if (start == 0) {
            warnx("WARNING: partition overlaps with partition table");
            if (ok("Correct this automatically?"))
                    start = dos_sectors;
    }
    if (start % dos_sectors != 0)
        warnx("WARNING: partition does not start on a head boundary");
    if ((start  +size) % dos_sectors != 0)
        warnx("WARNING: partition does not end on a cylinder boundary");
    warnx("WARNING: this may confuse the BIOS or some operating systems");
    if (!ok("Correct this automatically?"))
        return (1);

    /*
     * Adjust start upwards, if necessary, to fall on a head boundary.
     */
    if (start % dos_sectors != 0) {
        prev_head_boundary = rounddown(start, dos_sectors);
        if (max_end < dos_sectors ||
            prev_head_boundary >= max_end - dos_sectors) {
            /*
             * Can't go past end of partition
             */
            warnx(
    "ERROR: unable to adjust start of partition to fall on a head boundary");
            return (0);
        }
        start = prev_head_boundary + dos_sectors;
    }

    /*
     * Adjust size downwards, if necessary, to fall on a cylinder
     * boundary.
     */
    prev_cyl_boundary = rounddown(start + size, dos_cylsecs);
    if (prev_cyl_boundary > start)
        size = prev_cyl_boundary - start;
    else {
        warnx("ERROR: could not adjust partition to start on a head boundary\n\
    and end on a cylinder boundary.");
        return (0);
    }

    /* Finally, commit any changes to partp and return. */
    if (start != partp->dp_start) {
        warnx("WARNING: adjusting start offset of partition to %u",
            (u_int)start);
        partp->dp_start = start;
    }
    if (size != partp->dp_size) {
        warnx("WARNING: adjusting size of partition to %u", (u_int)size);
        partp->dp_size = size;
    }

    return (1);
}

/*
 * Try figuring out the root device's canonical disk name.
 * The following choices are considered:
 *   /dev/ad0s1a     => /dev/ad0
 *   /dev/da0a       => /dev/da0
 *   /dev/vinum/root => /dev/vinum/root
 * A ".eli" part is removed if it exists (see geli(8)).
 * A ".journal" ending is removed if it exists (see gjournal(8)).
 */
static char *
get_rootdisk(void)
{
        struct statfs rootfs;
        regex_t re;
#define NMATCHES 2
        regmatch_t rm[NMATCHES];
        char dev[PATH_MAX], *s;
        int rv;

        if (statfs("/", &rootfs) == -1)
                err(1, "statfs(\"/\")");

        if ((rv = regcomp(&re, "^(/dev/[a-z/]+[0-9]*)([sp][0-9]+)?[a-h]?(\\.journal)?$",
                    REG_EXTENDED)) != 0)
                errx(1, "regcomp() failed (%d)", rv);
        strlcpy(dev, rootfs.f_mntfromname, sizeof (dev));
        if ((s = strstr(dev, ".eli")) != NULL)
            memmove(s, s+4, strlen(s + 4) + 1);

        if ((rv = regexec(&re, dev, NMATCHES, rm, 0)) != 0)
                errx(1,
"mounted root fs resource doesn't match expectations (regexec returned %d)",
                    rv);
        if ((s = malloc(rm[1].rm_eo - rm[1].rm_so + 1)) == NULL)
                errx(1, "out of memory");
        memcpy(s, rootfs.f_mntfromname + rm[1].rm_so,
            rm[1].rm_eo - rm[1].rm_so);
        s[rm[1].rm_eo - rm[1].rm_so] = 0;

        return s;
}