sbin/scan_ffs/scan_ffs.c

1.21.12.1       tls /* $NetBSD: scan_ffs.c,v 1.21.12.2 2014/08/20 00:02:27 tls Exp $ */
      1.1   xtraeme
      1.1   xtraeme /*
     1.19   xtraeme  * Copyright (c) 2005-2007 Juan Romero Pardines
      1.1   xtraeme  * Copyright (c) 1998 Niklas Hallqvist, Tobias Weingartner
      1.1   xtraeme  * All rights reserved.
      1.1   xtraeme  *
      1.1   xtraeme  * Redistribution and use in source and binary forms, with or without
      1.1   xtraeme  * modification, are permitted provided that the following conditions
      1.1   xtraeme  * are met:
      1.1   xtraeme  * 1. Redistributions of source code must retain the above copyright
      1.1   xtraeme  *    notice, this list of conditions and the following disclaimer.
      1.1   xtraeme  * 2. Redistributions in binary form must reproduce the above copyright
      1.1   xtraeme  *    notice, this list of conditions and the following disclaimer in the
      1.1   xtraeme  *    documentation and/or other materials provided with the distribution.
      1.1   xtraeme  *
      1.1   xtraeme  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
      1.1   xtraeme  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
      1.1   xtraeme  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
      1.1   xtraeme  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
      1.1   xtraeme  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
      1.1   xtraeme  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
      1.1   xtraeme  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
      1.1   xtraeme  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
      1.1   xtraeme  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
      1.1   xtraeme  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
      1.1   xtraeme  */
      1.1   xtraeme
      1.1   xtraeme /*
     1.14   xtraeme  * Currently it can detect FFS and LFS partitions (version 1 or 2)
     1.14   xtraeme  * up to 8192/65536 fragsize/blocksize.
      1.1   xtraeme  */
      1.1   xtraeme
      1.1   xtraeme #include <sys/cdefs.h>
      1.1   xtraeme #ifndef lint
1.21.12.1       tls __RCSID("$NetBSD: scan_ffs.c,v 1.21.12.2 2014/08/20 00:02:27 tls Exp $");
      1.1   xtraeme #endif /* not lint */
      1.1   xtraeme
      1.1   xtraeme #include <sys/types.h>
      1.1   xtraeme #include <sys/param.h>
      1.1   xtraeme #include <sys/disklabel.h>
      1.1   xtraeme #include <sys/dkio.h>
      1.1   xtraeme #include <sys/ioctl.h>
      1.1   xtraeme #include <sys/fcntl.h>
      1.5   xtraeme #include <sys/mount.h>
      1.5   xtraeme
      1.5   xtraeme #include <ufs/lfs/lfs.h>
     1.17  perseant #include <ufs/lfs/lfs_extern.h>
      1.8        he
1.21.12.2       tls #include <ufs/ufs/dinode.h>
      1.1   xtraeme #include <ufs/ffs/fs.h>
      1.5   xtraeme
      1.1   xtraeme #include <unistd.h>
      1.1   xtraeme #include <stdlib.h>
      1.1   xtraeme #include <stdio.h>
      1.1   xtraeme #include <string.h>
      1.1   xtraeme #include <err.h>
      1.1   xtraeme #include <util.h>
      1.1   xtraeme
     1.14   xtraeme #define BLK_CNT		(blk + (n / 512))
     1.14   xtraeme
      1.5   xtraeme /* common struct for FFS/LFS */
      1.5   xtraeme struct sblockinfo {
      1.5   xtraeme 	struct lfs	*lfs;
      1.5   xtraeme 	struct fs	*ffs;
     1.12   xtraeme 	uint64_t	lfs_off;
     1.12   xtraeme 	uint64_t	ffs_off;
      1.5   xtraeme 	char		lfs_path[MAXMNTLEN];
      1.5   xtraeme 	char		ffs_path[MAXMNTLEN];
     1.14   xtraeme };
      1.1   xtraeme
      1.5   xtraeme static daddr_t	blk, lastblk;
      1.1   xtraeme
      1.5   xtraeme static int	eflag = 0;
     1.10   xtraeme static int	fflag = 0;
      1.5   xtraeme static int	flags = 0;
     1.14   xtraeme static int	sbaddr = 0; /* counter for the LFS superblocks */
      1.1   xtraeme
      1.1   xtraeme static char	device[MAXPATHLEN];
     1.16   xtraeme static const char *fstypes[] = { "NONE", "FFSv1", "FFSv2" };
      1.5   xtraeme
      1.5   xtraeme #define FSTYPE_NONE	0
      1.5   xtraeme #define FSTYPE_FFSV1	1
      1.5   xtraeme #define FSTYPE_FFSV2	2
      1.1   xtraeme
     1.16   xtraeme #define SBCOUNT		128 /* may be changed */
      1.5   xtraeme #define SBPASS		(SBCOUNT * SBLOCKSIZE / 512)
      1.1   xtraeme
      1.5   xtraeme /* This is only useful for LFS */
      1.1   xtraeme
      1.5   xtraeme /* first sblock address contains the correct offset */
      1.5   xtraeme #define FIRST_SBLOCK_ADDRESS    1
      1.5   xtraeme /* second and third sblock address contain lfs_fsmnt[MAXMNTLEN] */
      1.5   xtraeme #define SECOND_SBLOCK_ADDRESS   2
      1.5   xtraeme /* last sblock address in a LFS partition */
      1.5   xtraeme #define MAX_SBLOCK_ADDRESS      10
      1.1   xtraeme
     1.17  perseant enum { NADA=0, VERBOSE=1, LABELS=2, BLOCKS=4 };
      1.3  christos
      1.5   xtraeme /* FFS functions */
     1.14   xtraeme static void	ffs_printpart(struct sblockinfo *, int, size_t, int);
     1.14   xtraeme static void	ffs_scan(struct sblockinfo *, int);
     1.14   xtraeme static int	ffs_checkver(struct sblockinfo *);
      1.5   xtraeme /* LFS functions */
     1.14   xtraeme static void	lfs_printpart(struct sblockinfo *, int, int);
     1.14   xtraeme static void	lfs_scan(struct sblockinfo *, int);
      1.5   xtraeme /* common functions */
     1.20     perry static void	usage(void) __dead;
      1.5   xtraeme static int	scan_disk(int, daddr_t, daddr_t, int);
      1.3  christos
      1.1   xtraeme static int
     1.14   xtraeme ffs_checkver(struct sblockinfo *sbi)
      1.1   xtraeme {
     1.14   xtraeme 	switch (sbi->ffs->fs_magic) {
      1.1   xtraeme 		case FS_UFS1_MAGIC:
      1.1   xtraeme 		case FS_UFS1_MAGIC_SWAPPED:
     1.14   xtraeme 			sbi->ffs->fs_size = sbi->ffs->fs_old_size;
      1.3  christos 			return FSTYPE_FFSV1;
      1.1   xtraeme 		case FS_UFS2_MAGIC:
      1.1   xtraeme 		case FS_UFS2_MAGIC_SWAPPED:
      1.3  christos 			return FSTYPE_FFSV2;
      1.1   xtraeme 		default:
      1.3  christos 			return FSTYPE_NONE;
      1.1   xtraeme 	}
      1.1   xtraeme }
      1.1   xtraeme
      1.1   xtraeme static void
     1.14   xtraeme ffs_printpart(struct sblockinfo *sbi, int flag, size_t ffsize, int n)
      1.1   xtraeme {
     1.17  perseant 	int offset, ver;
      1.1   xtraeme
      1.3  christos 	switch (flag) {
      1.3  christos 	case VERBOSE:
     1.16   xtraeme 		switch (ffs_checkver(sbi)) {
     1.14   xtraeme 		case FSTYPE_FFSV1:
     1.14   xtraeme 			(void)printf("offset: %" PRIu64 " n: %d "
     1.16   xtraeme 			    "id: %x,%x size: %" PRIu64 "\n",
     1.14   xtraeme 			    BLK_CNT - (2 * SBLOCKSIZE / 512), n,
     1.14   xtraeme 			    sbi->ffs->fs_id[0], sbi->ffs->fs_id[1],
     1.16   xtraeme 			    (uint64_t)sbi->ffs->fs_size *
     1.14   xtraeme 			    sbi->ffs->fs_fsize / 512);
     1.14   xtraeme 			break;
     1.14   xtraeme 		case FSTYPE_FFSV2:
     1.14   xtraeme 			(void)printf("offset: %" PRIu64 " n: %d "
     1.16   xtraeme 			    "id: %x,%x size: %" PRIu64 "\n",
     1.14   xtraeme 			    BLK_CNT - (ffsize * SBLOCKSIZE / 512+128),
     1.14   xtraeme 			    n, sbi->ffs->fs_id[0], sbi->ffs->fs_id[1],
     1.16   xtraeme 			    (uint64_t)sbi->ffs->fs_size *
     1.14   xtraeme 			    sbi->ffs->fs_fsize / 512);
     1.14   xtraeme 			break;
     1.14   xtraeme 		default:
     1.14   xtraeme 			break;
     1.14   xtraeme 		}
      1.3  christos 		break;
      1.3  christos 	case LABELS:
      1.3  christos 		(void)printf("X:  %9" PRIu64,
     1.16   xtraeme 			(uint64_t)(sbi->ffs->fs_size *
     1.14   xtraeme 			sbi->ffs->fs_fsize / 512));
     1.16   xtraeme 		switch (ffs_checkver(sbi)) {
      1.3  christos 		case FSTYPE_FFSV1:
      1.3  christos 			(void)printf(" %9" PRIu64,
     1.14   xtraeme 			    BLK_CNT - (ffsize * SBLOCKSIZE / 512));
      1.3  christos 			break;
      1.3  christos 		case FSTYPE_FFSV2:
      1.3  christos 			(void)printf(" %9" PRIu64,
     1.14   xtraeme 			    BLK_CNT - (ffsize * SBLOCKSIZE / 512 + 128));
      1.3  christos 			break;
      1.3  christos 		default:
      1.3  christos 			break;
      1.3  christos 		}
      1.7   xtraeme 		(void)printf(" 4.2BSD %6d %5d %7d # %s [%s]\n",
     1.14   xtraeme 			sbi->ffs->fs_fsize, sbi->ffs->fs_bsize,
     1.14   xtraeme 			sbi->ffs->fs_old_cpg,
     1.16   xtraeme 			sbi->ffs_path, fstypes[ffs_checkver(sbi)]);
      1.3  christos 		break;
     1.17  perseant 	case BLOCKS:
      1.3  christos 	default:
     1.16   xtraeme 		(void)printf("%s ", fstypes[ffs_checkver(sbi)]);
     1.17  perseant 		ver = ffs_checkver(sbi);
     1.17  perseant 		if (ver == FSTYPE_NONE)
      1.3  christos 			break;
     1.17  perseant
     1.17  perseant 		offset = 0;
     1.17  perseant 		if (flag == BLOCKS)
     1.17  perseant 			(void)printf("sb ");
     1.17  perseant 		else if (ver == FSTYPE_FFSV1)
     1.17  perseant 			offset = (2 * SBLOCKSIZE / 512);
     1.17  perseant 		else if (ver == FSTYPE_FFSV2)
     1.17  perseant 			offset = (ffsize * SBLOCKSIZE / 512 + 128);
     1.17  perseant
     1.17  perseant 		(void)printf("at %" PRIu64, BLK_CNT - offset);
      1.1   xtraeme 		(void)printf(" size %" PRIu64 ", last mounted on %s\n",
     1.16   xtraeme 			(uint64_t)(sbi->ffs->fs_size *
     1.14   xtraeme 			sbi->ffs->fs_fsize / 512), sbi->ffs_path);
      1.3  christos 		break;
      1.1   xtraeme 	}
      1.1   xtraeme }
      1.1   xtraeme
      1.1   xtraeme static void
     1.14   xtraeme ffs_scan(struct sblockinfo *sbi, int n)
      1.1   xtraeme {
     1.14   xtraeme 	size_t i = 0;
      1.1   xtraeme
     1.17  perseant 	if (flags & BLOCKS) {
     1.17  perseant 		ffs_printpart(sbi, BLOCKS, 0, n);
     1.17  perseant 		return;
     1.17  perseant 	}
      1.1   xtraeme 	if (flags & VERBOSE)
     1.14   xtraeme 		ffs_printpart(sbi, VERBOSE, NADA, n);
     1.16   xtraeme 	switch (ffs_checkver(sbi)) {
      1.3  christos 	case FSTYPE_FFSV1:
     1.14   xtraeme 		/* fsize/bsize > 512/4096 and < 4096/32768. */
     1.14   xtraeme 		if ((BLK_CNT - lastblk) == (SBLOCKSIZE / 512)) {
     1.14   xtraeme 			i = 2;
     1.14   xtraeme 		/* fsize/bsize 4096/32768. */
     1.14   xtraeme 		} else if ((BLK_CNT - lastblk) == (SBLOCKSIZE / 170)) {
     1.14   xtraeme 			i = 4;
     1.14   xtraeme 		/* fsize/bsize 8192/65536 */
     1.14   xtraeme 		} else if ((BLK_CNT - lastblk) == (SBLOCKSIZE / 73)) {
     1.14   xtraeme 			i = 8;
     1.14   xtraeme 		} else
     1.14   xtraeme 			break;
     1.14   xtraeme
     1.14   xtraeme 		if (flags & LABELS)
     1.14   xtraeme 			ffs_printpart(sbi, LABELS, i, n);
     1.14   xtraeme 		else
     1.14   xtraeme 			ffs_printpart(sbi, NADA, i, n);
     1.14   xtraeme
      1.3  christos 		break;
      1.3  christos 	case FSTYPE_FFSV2:
      1.3  christos 		/*
      1.3  christos 		 * That checks for FFSv2 partitions with fragsize/blocksize:
      1.3  christos 		 * 512/4096, 1024/8192, 2048/16384, 4096/32768 and 8192/65536.
      1.3  christos 		 * Really enough for now.
      1.3  christos 		 */
      1.3  christos 		for (i = 1; i < 16; i <<= 1)
     1.21     lukem 			if ((BLK_CNT - lastblk) == (daddr_t)(i * SBLOCKSIZE / 512)) {
      1.3  christos 				if (flags & LABELS)
     1.14   xtraeme 					ffs_printpart(sbi, LABELS, i, n);
      1.3  christos 				else
     1.14   xtraeme 					ffs_printpart(sbi, NADA, i, n);
      1.3  christos 			}
      1.5   xtraeme 		break;
      1.5   xtraeme 	}
      1.5   xtraeme }
      1.5   xtraeme
      1.5   xtraeme static void
     1.14   xtraeme lfs_printpart(struct sblockinfo *sbi, int flag, int n)
      1.5   xtraeme {
      1.5   xtraeme 	if (flags & VERBOSE)
     1.17  perseant                	(void)printf("offset: %" PRIu64 " size %" PRIu32
     1.17  perseant 			" fsid %" PRIx32 "\n", sbi->lfs_off, sbi->lfs->lfs_size,
     1.17  perseant 			sbi->lfs->lfs_ident);
      1.5   xtraeme 	switch (flag) {
      1.5   xtraeme 	case LABELS:
      1.5   xtraeme 		(void)printf("X:  %9" PRIu64,
     1.16   xtraeme                		(uint64_t)(sbi->lfs->lfs_size *
      1.5   xtraeme                		sbi->lfs->lfs_fsize / 512));
      1.5   xtraeme 		(void)printf(" %9" PRIu64, sbi->lfs_off);
      1.7   xtraeme 		(void)printf(" 4.4LFS %6d %5d %7d # %s [LFSv%d]\n",
      1.5   xtraeme 			sbi->lfs->lfs_fsize, sbi->lfs->lfs_bsize,
      1.5   xtraeme 			sbi->lfs->lfs_nseg, sbi->lfs_path,
      1.5   xtraeme 			sbi->lfs->lfs_version);
      1.5   xtraeme 		break;
     1.17  perseant 	case BLOCKS:
     1.17  perseant 		(void)printf("LFSv%d", sbi->lfs->lfs_version);
     1.17  perseant 		(void)printf(" sb at %" PRIu64, sbi->lfs_off + btodb(LFS_LABELPAD));
     1.17  perseant 		(void)printf(" fsid %" PRIx32, sbi->lfs->lfs_ident);
     1.17  perseant 		(void)printf(" size %" PRIu64 ", last mounted on %s\n",
     1.17  perseant 			(uint64_t)(sbi->lfs->lfs_size *
     1.17  perseant 			sbi->lfs->lfs_fsize / 512), sbi->lfs_path);
     1.17  perseant 		break;
      1.5   xtraeme 	default:
     1.14   xtraeme 		(void)printf("LFSv%d ", sbi->lfs->lfs_version);
     1.14   xtraeme 		(void)printf("at %" PRIu64, sbi->lfs_off);
      1.5   xtraeme 		(void)printf(" size %" PRIu64 ", last mounted on %s\n",
     1.16   xtraeme 			(uint64_t)(sbi->lfs->lfs_size *
     1.14   xtraeme 			sbi->lfs->lfs_fsize / 512), sbi->lfs_path);
      1.5   xtraeme 		break;
      1.5   xtraeme 	}
      1.5   xtraeme }
      1.5   xtraeme
      1.5   xtraeme static void
     1.14   xtraeme lfs_scan(struct sblockinfo *sbi, int n)
      1.5   xtraeme {
     1.17  perseant 	/* Check to see if the sb checksums correctly */
     1.17  perseant 	if (lfs_sb_cksum(&(sbi->lfs->lfs_dlfs)) != sbi->lfs->lfs_cksum) {
     1.17  perseant 		if (flags & VERBOSE)
     1.17  perseant 			printf("LFS bad superblock at %" PRIu64 "\n",
     1.17  perseant 				BLK_CNT);
     1.17  perseant 		return;
     1.17  perseant 	}
     1.17  perseant
      1.5   xtraeme 	/* backup offset */
     1.14   xtraeme 	lastblk = BLK_CNT - (LFS_SBPAD / 512);
      1.5   xtraeme 	/* increment counter */
      1.5   xtraeme         ++sbaddr;
      1.5   xtraeme
     1.17  perseant 	if (flags & BLOCKS) {
     1.17  perseant 		sbi->lfs_off = BLK_CNT - btodb(LFS_LABELPAD);
     1.17  perseant 		lfs_printpart(sbi, BLOCKS, n);
     1.17  perseant 		return;
     1.17  perseant 	}
     1.17  perseant
      1.5   xtraeme 	switch (sbaddr) {
      1.5   xtraeme 	/*
      1.5   xtraeme 	 * first superblock contains the right offset, but lfs_fsmnt is
     1.17  perseant 	 * empty... fortunately the next superblock address has it.
      1.5   xtraeme 	 */
      1.5   xtraeme 	case FIRST_SBLOCK_ADDRESS:
      1.5   xtraeme 		/* copy partition offset */
     1.21     lukem 		if ((daddr_t)sbi->lfs_off != lastblk)
     1.17  perseant 			sbi->lfs_off = BLK_CNT - (LFS_LABELPAD / 512);
      1.5   xtraeme 		break;
      1.5   xtraeme 	case SECOND_SBLOCK_ADDRESS:
      1.5   xtraeme 		/* copy the path of last mount */
     1.14   xtraeme 		(void)memcpy(sbi->lfs_path, sbi->lfs->lfs_fsmnt, MAXMNTLEN);
      1.5   xtraeme 		/* print now that we have the info */
      1.5   xtraeme 		if (flags & LABELS)
     1.14   xtraeme 			lfs_printpart(sbi, LABELS, n);
      1.5   xtraeme 		else
     1.14   xtraeme 			lfs_printpart(sbi, NADA, n);
      1.5   xtraeme 		/* clear our struct */
     1.14   xtraeme 		(void)memset(sbi, 0, sizeof(*sbi));
      1.5   xtraeme 		break;
      1.5   xtraeme 	case MAX_SBLOCK_ADDRESS:
      1.5   xtraeme 		/*
      1.5   xtraeme 		 * reset the counter, this is the last superblock address,
      1.5   xtraeme 		 * the next one will be another partition maybe.
      1.5   xtraeme 		 */
      1.5   xtraeme 		sbaddr = 0;
      1.5   xtraeme 		break;
      1.5   xtraeme 	default:
      1.5   xtraeme 		break;
      1.1   xtraeme 	}
      1.1   xtraeme }
      1.1   xtraeme
      1.1   xtraeme static int
      1.5   xtraeme scan_disk(int fd, daddr_t beg, daddr_t end, int fflags)
      1.1   xtraeme {
     1.14   xtraeme 	struct sblockinfo sbinfo;
     1.10   xtraeme 	uint8_t buf[SBLOCKSIZE * SBCOUNT];
     1.16   xtraeme 	int n;
      1.1   xtraeme
     1.16   xtraeme 	n = 0;
      1.1   xtraeme 	lastblk = -1;
      1.5   xtraeme
      1.5   xtraeme 	/* clear our struct before using it */
      1.5   xtraeme 	(void)memset(&sbinfo, 0, sizeof(sbinfo));
      1.1   xtraeme
      1.1   xtraeme 	if (fflags & LABELS)
      1.3  christos 		(void)printf(
      1.5   xtraeme 		    "#        size    offset fstype [fsize bsize cpg/sgs]\n");
      1.1   xtraeme
     1.16   xtraeme 	for (blk = beg; blk <= end; blk += SBPASS) {
     1.16   xtraeme 		if (pread(fd, buf, sizeof(buf), blk * 512) == -1) {
     1.16   xtraeme 			if (fflag && fd >= 0)
     1.16   xtraeme 				(void)close(fd);
      1.7   xtraeme 			err(1, "pread");
     1.16   xtraeme 		}
      1.1   xtraeme
      1.1   xtraeme 		for (n = 0; n < (SBLOCKSIZE * SBCOUNT); n += 512) {
     1.16   xtraeme 			sbinfo.ffs = (struct fs *)&buf[n];
     1.16   xtraeme 			sbinfo.lfs = (struct lfs *)&buf[n];
     1.16   xtraeme
     1.16   xtraeme 			switch (ffs_checkver(&sbinfo)) {
      1.5   xtraeme 			case FSTYPE_FFSV1:
      1.5   xtraeme 			case FSTYPE_FFSV2:
     1.14   xtraeme 				ffs_scan(&sbinfo, n);
     1.14   xtraeme 				lastblk = BLK_CNT;
      1.5   xtraeme 				(void)memcpy(sbinfo.ffs_path,
      1.5   xtraeme 					sbinfo.ffs->fs_fsmnt, MAXMNTLEN);
      1.5   xtraeme 				break;
      1.5   xtraeme 			case FSTYPE_NONE:
      1.5   xtraeme 				/* maybe LFS? */
      1.5   xtraeme 				if (sbinfo.lfs->lfs_magic == LFS_MAGIC)
     1.14   xtraeme 					lfs_scan(&sbinfo, n);
      1.5   xtraeme 				break;
      1.5   xtraeme 			default:
      1.5   xtraeme 				break;
      1.5   xtraeme 			}
      1.1   xtraeme 		}
      1.1   xtraeme 	}
     1.16   xtraeme
     1.16   xtraeme 	if (fflag && fd >= 0)
     1.16   xtraeme 		(void)close(fd);
     1.16   xtraeme
      1.2    kleink 	return EXIT_SUCCESS;
      1.1   xtraeme }
      1.1   xtraeme
      1.1   xtraeme
      1.1   xtraeme static void
      1.6  christos usage(void)
      1.1   xtraeme {
      1.1   xtraeme 	(void)fprintf(stderr,
     1.18   xtraeme 		"Usage: %s [-blv] [-e end] [-F file] [-s start] "
     1.10   xtraeme 		"device\n", getprogname());
      1.2    kleink 	exit(EXIT_FAILURE);
      1.1   xtraeme }
      1.1   xtraeme
      1.1   xtraeme
      1.1   xtraeme int
      1.1   xtraeme main(int argc, char **argv)
      1.1   xtraeme {
      1.1   xtraeme 	int ch, fd;
     1.10   xtraeme 	const char *fpath;
      1.1   xtraeme 	daddr_t end = -1, beg = 0;
      1.1   xtraeme 	struct disklabel dl;
      1.1   xtraeme
     1.10   xtraeme 	fpath = NULL;
     1.10   xtraeme
      1.6  christos 	setprogname(*argv);
     1.17  perseant 	while ((ch = getopt(argc, argv, "be:F:ls:v")) != -1)
      1.1   xtraeme 		switch(ch) {
     1.17  perseant 		case 'b':
     1.17  perseant 			flags |= BLOCKS;
     1.17  perseant 			flags &= ~LABELS;
     1.17  perseant 			break;
      1.1   xtraeme 		case 'e':
      1.1   xtraeme 			eflag = 1;
      1.1   xtraeme 			end = atoi(optarg);
      1.1   xtraeme 			break;
     1.11   xtraeme 		case 'F':
     1.10   xtraeme 			fflag = 1;
     1.10   xtraeme 			fpath = optarg;
     1.10   xtraeme 			break;
      1.1   xtraeme 		case 'l':
      1.1   xtraeme 			flags |= LABELS;
     1.17  perseant 			flags &= ~BLOCKS;
      1.1   xtraeme 			break;
      1.1   xtraeme 		case 's':
      1.1   xtraeme 			beg = atoi(optarg);
      1.1   xtraeme 			break;
      1.1   xtraeme 		case 'v':
      1.1   xtraeme 			flags |= VERBOSE;
      1.1   xtraeme 			break;
      1.1   xtraeme 		default:
      1.6  christos 			usage();
      1.1   xtraeme 			/* NOTREACHED */
      1.3  christos 		}
      1.3  christos
      1.1   xtraeme 	argc -= optind;
      1.1   xtraeme 	argv += optind;
      1.1   xtraeme
     1.10   xtraeme 	if (fflag) {
     1.10   xtraeme 		struct stat stp;
      1.1   xtraeme
     1.10   xtraeme 		if (stat(fpath, &stp))
     1.10   xtraeme 			err(1, "Cannot stat `%s'", fpath);
      1.1   xtraeme
     1.10   xtraeme 		if (!eflag)
     1.12   xtraeme 			end = (uint64_t)stp.st_size;
      1.1   xtraeme
     1.16   xtraeme 		(void)printf("Total file size: %" PRIu64 "\n\n",
     1.16   xtraeme 		    (uint64_t)stp.st_size);
     1.16   xtraeme
     1.15   xtraeme 		fd = open(fpath, O_RDONLY | O_DIRECT);
      1.3  christos 	} else {
     1.10   xtraeme 		if (argc != 1)
     1.10   xtraeme 			usage();
     1.10   xtraeme
     1.10   xtraeme 		fd = opendisk(argv[0], O_RDONLY, device, sizeof(device), 0);
     1.10   xtraeme
     1.10   xtraeme 		if (ioctl(fd, DIOCGDINFO, &dl) == -1) {
     1.10   xtraeme 			warn("Couldn't retrieve disklabel");
     1.10   xtraeme 			(void)memset(&dl, 0, sizeof(dl));
     1.10   xtraeme 			dl.d_secperunit = 0x7fffffff;
     1.10   xtraeme 		} else {
     1.10   xtraeme 			(void)printf("Disk: %s\n", dl.d_typename);
     1.10   xtraeme 			(void)printf("Total sectors on disk: %" PRIu32 "\n\n",
     1.10   xtraeme 			    dl.d_secperunit);
     1.10   xtraeme 		}
      1.1   xtraeme 	}
     1.10   xtraeme
     1.10   xtraeme 	if (!eflag && !fflag)
      1.1   xtraeme 		end = dl.d_secperunit; /* default to max sectors */
      1.1   xtraeme
     1.10   xtraeme 	if (fd == -1)
     1.10   xtraeme 		err(1, "Cannot open `%s'", device);
     1.10   xtraeme 		/* NOTREACHED */
     1.10   xtraeme
      1.5   xtraeme 	return scan_disk(fd, beg, end, flags);
      1.1   xtraeme }