usr.sbin/dumplfs/dumplfs.c

1.1  mycroft /*-
1.1  mycroft  * Copyright (c) 1991, 1993
1.1  mycroft  *	The Regents of the University of California.  All rights reserved.
1.1  mycroft  *
1.1  mycroft  * Redistribution and use in source and binary forms, with or without
1.1  mycroft  * modification, are permitted provided that the following conditions
1.1  mycroft  * are met:
1.1  mycroft  * 1. Redistributions of source code must retain the above copyright
1.1  mycroft  *    notice, this list of conditions and the following disclaimer.
1.1  mycroft  * 2. Redistributions in binary form must reproduce the above copyright
1.1  mycroft  *    notice, this list of conditions and the following disclaimer in the
1.1  mycroft  *    documentation and/or other materials provided with the distribution.
1.1  mycroft  * 3. All advertising materials mentioning features or use of this software
1.1  mycroft  *    must display the following acknowledgement:
1.1  mycroft  *	This product includes software developed by the University of
1.1  mycroft  *	California, Berkeley and its contributors.
1.1  mycroft  * 4. Neither the name of the University nor the names of its contributors
1.1  mycroft  *    may be used to endorse or promote products derived from this software
1.1  mycroft  *    without specific prior written permission.
1.1  mycroft  *
1.1  mycroft  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  mycroft  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  mycroft  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  mycroft  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  mycroft  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  mycroft  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  mycroft  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  mycroft  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  mycroft  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  mycroft  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  mycroft  * SUCH DAMAGE.
1.1  mycroft  */
1.1  mycroft
1.1  mycroft #ifndef lint
1.1  mycroft static char copyright[] =
1.1  mycroft "@(#) Copyright (c) 1991, 1993\n\
1.1  mycroft 	The Regents of the University of California.  All rights reserved.\n";
1.1  mycroft #endif /* not lint */
1.1  mycroft
1.1  mycroft #ifndef lint
1.1  mycroft /*static char sccsid[] = "from: @(#)dumplfs.c	8.1 (Berkeley) 6/5/93";*/
1.1  mycroft static char *rcsid = "$Id: dumplfs.c,v 1.1 1994/06/08 18:58:50 mycroft Exp $";
1.1  mycroft #endif /* not lint */
1.1  mycroft
1.1  mycroft #include <sys/param.h>
1.1  mycroft #include <sys/ucred.h>
1.1  mycroft #include <sys/mount.h>
1.1  mycroft #include <sys/time.h>
1.1  mycroft
1.1  mycroft #include <ufs/ufs/dinode.h>
1.1  mycroft #include <ufs/lfs/lfs.h>
1.1  mycroft
1.1  mycroft #include <fcntl.h>
1.1  mycroft #include <fstab.h>
1.1  mycroft #include <errno.h>
1.1  mycroft #include <unistd.h>
1.1  mycroft #include <stdlib.h>
1.1  mycroft #include <stdio.h>
1.1  mycroft #include <string.h>
1.1  mycroft #include "extern.h"
1.1  mycroft
1.1  mycroft static void	addseg __P((char *));
1.1  mycroft static void	dump_cleaner_info __P((struct lfs *, void *));
1.1  mycroft static void	dump_dinode __P((struct dinode *));
1.1  mycroft static void	dump_ifile __P((int, struct lfs *, int));
1.1  mycroft static int	dump_ipage_ifile __P((int, IFILE *, int));
1.1  mycroft static int	dump_ipage_segusage __P((struct lfs *, int, IFILE *, int));
1.1  mycroft static void	dump_segment __P((int, int, daddr_t, struct lfs *, int));
1.1  mycroft static int	dump_sum __P((int, struct lfs *, SEGSUM *, int, daddr_t));
1.1  mycroft static void	dump_super __P((struct lfs *));
1.1  mycroft static void	usage __P((void));
1.1  mycroft
1.1  mycroft typedef struct seglist SEGLIST;
1.1  mycroft struct seglist {
1.1  mycroft         SEGLIST *next;
1.1  mycroft 	int num;
1.1  mycroft };
1.1  mycroft SEGLIST	*seglist;
1.1  mycroft
1.1  mycroft int daddr_shift;
1.1  mycroft char *special;
1.1  mycroft
1.1  mycroft /* Segment Usage formats */
1.1  mycroft #define print_suheader \
1.1  mycroft 	(void)printf("segnum\tflags\tnbytes\tninos\tnsums\tlastmod\n")
1.1  mycroft
1.1  mycroft #define print_suentry(i, sp) \
1.1  mycroft 	(void)printf("%d\t%c%c%c\t%d\t%d\t%d\t%s", i, \
1.1  mycroft 	    (((sp)->su_flags & SEGUSE_ACTIVE) ? 'A' : ' '), \
1.1  mycroft 	    (((sp)->su_flags & SEGUSE_DIRTY) ? 'D' : 'C'), \
1.1  mycroft 	    (((sp)->su_flags & SEGUSE_SUPERBLOCK) ? 'S' : ' '), \
1.1  mycroft 	    (sp)->su_nbytes, (sp)->su_ninos, (sp)->su_nsums, \
1.1  mycroft 	    ctime((time_t *)&(sp)->su_lastmod))
1.1  mycroft
1.1  mycroft /* Ifile formats */
1.1  mycroft #define print_iheader \
1.1  mycroft 	(void)printf("inum\tstatus\tversion\tdaddr\t\tfreeptr\n")
1.1  mycroft #define print_ientry(i, ip) \
1.1  mycroft 	if (ip->if_daddr == LFS_UNUSED_DADDR) \
1.1  mycroft 		(void)printf("%d\tFREE\t%d\t \t\t%d\n", \
1.1  mycroft 		    i, ip->if_version, ip->if_nextfree); \
1.1  mycroft 	else \
1.1  mycroft 		(void)printf("%d\tINUSE\t%d\t%8X    \n", \
1.1  mycroft 		    i, ip->if_version, ip->if_daddr)
1.1  mycroft int
1.1  mycroft main(argc, argv)
1.1  mycroft 	int argc;
1.1  mycroft 	char *argv[];
1.1  mycroft {
1.1  mycroft 	struct lfs lfs_sb1, lfs_sb2, *lfs_master;
1.1  mycroft 	daddr_t seg_addr;
1.1  mycroft 	int ch, do_allsb, do_ientries, fd, segnum;
1.1  mycroft
1.1  mycroft 	do_allsb = 0;
1.1  mycroft 	do_ientries = 0;
1.1  mycroft 	while ((ch = getopt(argc, argv, "ais:")) != EOF)
1.1  mycroft 		switch(ch) {
1.1  mycroft 		case 'a':		/* Dump all superblocks */
1.1  mycroft 			do_allsb = 1;
1.1  mycroft 			break;
1.1  mycroft 		case 'i':		/* Dump ifile entries */
1.1  mycroft 			do_ientries = 1;
1.1  mycroft 			break;
1.1  mycroft 		case 's':		/* Dump out these segments */
1.1  mycroft 			addseg(optarg);
1.1  mycroft 			break;
1.1  mycroft 		default:
1.1  mycroft 			usage();
1.1  mycroft 		}
1.1  mycroft 	argc -= optind;
1.1  mycroft 	argv += optind;
1.1  mycroft
1.1  mycroft 	if (argc != 1)
1.1  mycroft 		usage();
1.1  mycroft
1.1  mycroft 	special = argv[0];
1.1  mycroft 	if ((fd = open(special, O_RDONLY, 0)) < 0)
1.1  mycroft 		err("%s: %s", special, strerror(errno));
1.1  mycroft
1.1  mycroft 	/* Read the first superblock */
1.1  mycroft 	get(fd, LFS_LABELPAD, &lfs_sb1, sizeof(struct lfs));
1.1  mycroft 	daddr_shift = lfs_sb1.lfs_bshift - lfs_sb1.lfs_fsbtodb;
1.1  mycroft
1.1  mycroft 	/*
1.1  mycroft 	 * Read the second superblock and figure out which check point is
1.1  mycroft 	 * most up to date.
1.1  mycroft 	 */
1.1  mycroft 	get(fd,
1.1  mycroft 	    lfs_sb1.lfs_sboffs[1] << daddr_shift, &lfs_sb2, sizeof(struct lfs));
1.1  mycroft
1.1  mycroft 	lfs_master = &lfs_sb1;
1.1  mycroft 	if (lfs_sb1.lfs_tstamp < lfs_sb2.lfs_tstamp)
1.1  mycroft 		lfs_master = &lfs_sb2;
1.1  mycroft
1.1  mycroft 	(void)printf("Master Superblock:\n");
1.1  mycroft 	dump_super(lfs_master);
1.1  mycroft
1.1  mycroft 	dump_ifile(fd, lfs_master, do_ientries);
1.1  mycroft
1.1  mycroft 	if (seglist != NULL)
1.1  mycroft 		for (; seglist != NULL; seglist = seglist->next) {
1.1  mycroft 			seg_addr = lfs_master->lfs_sboffs[0] + seglist->num *
1.1  mycroft 			    (lfs_master->lfs_ssize << lfs_master->lfs_fsbtodb);
1.1  mycroft 			dump_segment(fd,
1.1  mycroft 			    seglist->num, seg_addr, lfs_master, do_allsb);
1.1  mycroft 		}
1.1  mycroft 	else
1.1  mycroft 		for (segnum = 0, seg_addr = lfs_master->lfs_sboffs[0];
1.1  mycroft 		    segnum < lfs_master->lfs_nseg; segnum++, seg_addr +=
1.1  mycroft 		    lfs_master->lfs_ssize << lfs_master->lfs_fsbtodb)
1.1  mycroft 			dump_segment(fd,
1.1  mycroft 			    segnum, seg_addr, lfs_master, do_allsb);
1.1  mycroft
1.1  mycroft 	(void)close(fd);
1.1  mycroft 	exit(0);
1.1  mycroft }
1.1  mycroft
1.1  mycroft /*
1.1  mycroft  * We are reading all the blocks of an inode and dumping out the ifile table.
1.1  mycroft  * This code could be tighter, but this is a first pass at getting the stuff
1.1  mycroft  * printed out rather than making this code incredibly efficient.
1.1  mycroft  */
1.1  mycroft static void
1.1  mycroft dump_ifile(fd, lfsp, do_ientries)
1.1  mycroft 	int fd;
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft 	int do_ientries;
1.1  mycroft {
1.1  mycroft 	IFILE *ipage;
1.1  mycroft 	struct dinode *dip, *dpage;
1.1  mycroft 	daddr_t addr, *addrp, *dindir, *iaddrp, *indir;
1.1  mycroft 	int block_limit, i, inum, j, nblocks, nsupb, psize;
1.1  mycroft
1.1  mycroft 	psize = lfsp->lfs_bsize;
1.1  mycroft 	addr = lfsp->lfs_idaddr;
1.1  mycroft
1.1  mycroft 	if (!(dpage = malloc(psize)))
1.1  mycroft 		err("%s", strerror(errno));
1.1  mycroft 	get(fd, addr << daddr_shift, dpage, psize);
1.1  mycroft
1.1  mycroft 	for (dip = dpage + INOPB(lfsp) - 1; dip >= dpage; --dip)
1.1  mycroft 		if (dip->di_inumber == LFS_IFILE_INUM)
1.1  mycroft 			break;
1.1  mycroft
1.1  mycroft 	if (dip < dpage)
1.1  mycroft 		err("unable to locate ifile inode");
1.1  mycroft
1.1  mycroft 	(void)printf("\nIFILE inode\n");
1.1  mycroft 	dump_dinode(dip);
1.1  mycroft
1.1  mycroft 	(void)printf("\nIFILE contents\n");
1.1  mycroft 	nblocks = dip->di_size >> lfsp->lfs_bshift;
1.1  mycroft 	block_limit = MIN(nblocks, NDADDR);
1.1  mycroft
1.1  mycroft 	/* Get the direct block */
1.1  mycroft 	if ((ipage = malloc(psize)) == NULL)
1.1  mycroft 		err("%s", strerror(errno));
1.1  mycroft 	for (inum = 0, addrp = dip->di_db, i = 0; i < block_limit;
1.1  mycroft 	    i++, addrp++) {
1.1  mycroft 		get(fd, *addrp << daddr_shift, ipage, psize);
1.1  mycroft 		if (i < lfsp->lfs_cleansz) {
1.1  mycroft 			dump_cleaner_info(lfsp, ipage);
1.1  mycroft 			print_suheader;
1.1  mycroft 			continue;
1.1  mycroft 		}
1.1  mycroft
1.1  mycroft 		if (i < (lfsp->lfs_segtabsz + lfsp->lfs_cleansz)) {
1.1  mycroft 			inum = dump_ipage_segusage(lfsp, inum, ipage,
1.1  mycroft 			    lfsp->lfs_sepb);
1.1  mycroft 			if (!inum)
1.1  mycroft 				if(!do_ientries)
1.1  mycroft 					goto e0;
1.1  mycroft 				else
1.1  mycroft 					print_iheader;
1.1  mycroft 		} else
1.1  mycroft 			inum = dump_ipage_ifile(inum, ipage, lfsp->lfs_ifpb);
1.1  mycroft
1.1  mycroft 	}
1.1  mycroft
1.1  mycroft 	if (nblocks <= NDADDR)
1.1  mycroft 		goto e0;
1.1  mycroft
1.1  mycroft 	/* Dump out blocks off of single indirect block */
1.1  mycroft 	if (!(indir = malloc(psize)))
1.1  mycroft 		err("%s", strerror(errno));
1.1  mycroft 	get(fd, dip->di_ib[0] << daddr_shift, indir, psize);
1.1  mycroft 	block_limit = MIN(i + lfsp->lfs_nindir, nblocks);
1.1  mycroft 	for (addrp = indir; i < block_limit; i++, addrp++) {
1.1  mycroft 		if (*addrp == LFS_UNUSED_DADDR)
1.1  mycroft 			break;
1.1  mycroft 		get(fd, *addrp << daddr_shift,ipage, psize);
1.1  mycroft 		if (i < lfsp->lfs_cleansz) {
1.1  mycroft 			dump_cleaner_info(lfsp, ipage);
1.1  mycroft 			continue;
1.1  mycroft 		} else
1.1  mycroft 			i -= lfsp->lfs_cleansz;
1.1  mycroft
1.1  mycroft 		if (i < lfsp->lfs_segtabsz) {
1.1  mycroft 			inum = dump_ipage_segusage(lfsp, inum, ipage,
1.1  mycroft 			    lfsp->lfs_sepb);
1.1  mycroft 			if (!inum)
1.1  mycroft 				if(!do_ientries)
1.1  mycroft 					goto e1;
1.1  mycroft 				else
1.1  mycroft 					print_iheader;
1.1  mycroft 		} else
1.1  mycroft 			inum = dump_ipage_ifile(inum, ipage, lfsp->lfs_ifpb);
1.1  mycroft 	}
1.1  mycroft
1.1  mycroft 	if (nblocks <= lfsp->lfs_nindir * lfsp->lfs_ifpb)
1.1  mycroft 		goto e1;
1.1  mycroft
1.1  mycroft 	/* Get the double indirect block */
1.1  mycroft 	if (!(dindir = malloc(psize)))
1.1  mycroft 		err("%s", strerror(errno));
1.1  mycroft 	get(fd, dip->di_ib[1] << daddr_shift, dindir, psize);
1.1  mycroft 	for (iaddrp = dindir, j = 0; j < lfsp->lfs_nindir; j++, iaddrp++) {
1.1  mycroft 		if (*iaddrp == LFS_UNUSED_DADDR)
1.1  mycroft 			break;
1.1  mycroft 		get(fd, *iaddrp << daddr_shift, indir, psize);
1.1  mycroft 		block_limit = MIN(i + lfsp->lfs_nindir, nblocks);
1.1  mycroft 		for (addrp = indir; i < block_limit; i++, addrp++) {
1.1  mycroft 			if (*addrp == LFS_UNUSED_DADDR)
1.1  mycroft 				break;
1.1  mycroft 			get(fd, *addrp << daddr_shift, ipage, psize);
1.1  mycroft 			if (i < lfsp->lfs_cleansz) {
1.1  mycroft 				dump_cleaner_info(lfsp, ipage);
1.1  mycroft 				continue;
1.1  mycroft 			} else
1.1  mycroft 				i -= lfsp->lfs_cleansz;
1.1  mycroft
1.1  mycroft 			if (i < lfsp->lfs_segtabsz) {
1.1  mycroft 				inum = dump_ipage_segusage(lfsp,
1.1  mycroft 				    inum, ipage, lfsp->lfs_sepb);
1.1  mycroft 				if (!inum)
1.1  mycroft 					if(!do_ientries)
1.1  mycroft 						goto e2;
1.1  mycroft 					else
1.1  mycroft 						print_iheader;
1.1  mycroft 			} else
1.1  mycroft 				inum = dump_ipage_ifile(inum,
1.1  mycroft 				    ipage, lfsp->lfs_ifpb);
1.1  mycroft 		}
1.1  mycroft 	}
1.1  mycroft e2:	free(dindir);
1.1  mycroft e1:	free(indir);
1.1  mycroft e0:	free(dpage);
1.1  mycroft 	free(ipage);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static int
1.1  mycroft dump_ipage_ifile(i, pp, tot)
1.1  mycroft 	int i;
1.1  mycroft 	IFILE *pp;
1.1  mycroft 	int tot;
1.1  mycroft {
1.1  mycroft 	IFILE *ip;
1.1  mycroft 	int cnt, max;
1.1  mycroft
1.1  mycroft 	max = i + tot;
1.1  mycroft
1.1  mycroft 	for (ip = pp, cnt = i; cnt < max; cnt++, ip++)
1.1  mycroft 		print_ientry(cnt, ip);
1.1  mycroft 	return (max);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static int
1.1  mycroft dump_ipage_segusage(lfsp, i, pp, tot)
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft 	int i;
1.1  mycroft 	IFILE *pp;
1.1  mycroft 	int tot;
1.1  mycroft {
1.1  mycroft 	SEGUSE *sp;
1.1  mycroft 	int cnt, max;
1.1  mycroft
1.1  mycroft 	max = i + tot;
1.1  mycroft 	for (sp = (SEGUSE *)pp, cnt = i;
1.1  mycroft 	     cnt < lfsp->lfs_nseg && cnt < max; cnt++, sp++)
1.1  mycroft 		print_suentry(cnt, sp);
1.1  mycroft 	if (max >= lfsp->lfs_nseg)
1.1  mycroft 		return (0);
1.1  mycroft 	else
1.1  mycroft 		return (max);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft dump_dinode(dip)
1.1  mycroft 	struct dinode *dip;
1.1  mycroft {
1.1  mycroft 	int i;
1.1  mycroft
1.1  mycroft 	(void)printf("%s%d\t%s%d\t%s%d\t%s%d\t%s%d\n",
1.1  mycroft 		"mode  ", dip->di_mode,
1.1  mycroft 		"nlink ", dip->di_nlink,
1.1  mycroft 		"uid   ", dip->di_uid,
1.1  mycroft 		"gid   ", dip->di_gid,
1.1  mycroft 		"size  ", dip->di_size);
1.1  mycroft 	(void)printf("%s%s%s%s%s%s",
1.1  mycroft 		"atime ", ctime(&dip->di_atime.ts_sec),
1.1  mycroft 		"mtime ", ctime(&dip->di_mtime.ts_sec),
1.1  mycroft 		"ctime ", ctime(&dip->di_ctime.ts_sec));
1.1  mycroft 	(void)printf("inum  %d\n", dip->di_inumber);
1.1  mycroft 	(void)printf("Direct Addresses\n");
1.1  mycroft 	for (i = 0; i < NDADDR; i++) {
1.1  mycroft 		(void)printf("\t0x%X", dip->di_db[i]);
1.1  mycroft 		if ((i % 6) == 5)
1.1  mycroft 			(void)printf("\n");
1.1  mycroft 	}
1.1  mycroft 	for (i = 0; i < NIADDR; i++)
1.1  mycroft 		(void)printf("\t0x%X", dip->di_ib[i]);
1.1  mycroft 	(void)printf("\n");
1.1  mycroft }
1.1  mycroft
1.1  mycroft static int
1.1  mycroft dump_sum(fd, lfsp, sp, segnum, addr)
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft 	SEGSUM *sp;
1.1  mycroft 	int fd, segnum;
1.1  mycroft 	daddr_t addr;
1.1  mycroft {
1.1  mycroft 	FINFO *fp;
1.1  mycroft 	long *dp;
1.1  mycroft 	int i, j;
1.1  mycroft 	int ck;
1.1  mycroft 	int numblocks;
1.1  mycroft 	struct dinode *inop;
1.1  mycroft
1.1  mycroft 	if (sp->ss_sumsum != (ck = cksum(&sp->ss_datasum,
1.1  mycroft 	    LFS_SUMMARY_SIZE - sizeof(sp->ss_sumsum)))) {
1.1  mycroft 		(void)printf("dumplfs: %s %d address 0x%lx\n",
1.1  mycroft 		    "corrupt summary block; segment", segnum, addr);
1.1  mycroft 		return(0);
1.1  mycroft 	}
1.1  mycroft
1.1  mycroft 	(void)printf("Segment Summary Info at 0x%lx\n", addr);
1.1  mycroft 	(void)printf("    %s0x%X\t%s%d\t%s%d\n    %s0x%X\t%s0x%X",
1.1  mycroft 		"next     ", sp->ss_next,
1.1  mycroft 		"nfinfo   ", sp->ss_nfinfo,
1.1  mycroft 		"ninos    ", sp->ss_ninos,
1.1  mycroft 		"sumsum   ", sp->ss_sumsum,
1.1  mycroft 		"datasum  ", sp->ss_datasum );
1.1  mycroft 	(void)printf("\tcreate   %s", ctime((time_t *)&sp->ss_create));
1.1  mycroft
1.1  mycroft 	numblocks = (sp->ss_ninos + INOPB(lfsp) - 1) / INOPB(lfsp);
1.1  mycroft
1.1  mycroft 	/* Dump out inode disk addresses */
1.1  mycroft 	dp = (daddr_t *)sp;
1.1  mycroft 	dp += LFS_SUMMARY_SIZE / sizeof(daddr_t);
1.1  mycroft 	inop = malloc(1 << lfsp->lfs_bshift);
1.1  mycroft 	printf("    Inode addresses:");
1.1  mycroft 	for (dp--, i = 0; i < sp->ss_ninos; dp--) {
1.1  mycroft 		printf("\t0x%X {", *dp);
1.1  mycroft 		get(fd, *dp << (lfsp->lfs_bshift - lfsp->lfs_fsbtodb), inop,
1.1  mycroft 		    (1 << lfsp->lfs_bshift));
1.1  mycroft 		for (j = 0; i < sp->ss_ninos && j < INOPB(lfsp); j++, i++) {
1.1  mycroft 			if (j > 0)
1.1  mycroft 				(void)printf(", ");
1.1  mycroft 			(void)printf("%d", inop[j].di_inumber);
1.1  mycroft 		}
1.1  mycroft 		(void)printf("}");
1.1  mycroft 		if (((i/INOPB(lfsp)) % 4) == 3)
1.1  mycroft 			(void)printf("\n");
1.1  mycroft 	}
1.1  mycroft 	free(inop);
1.1  mycroft
1.1  mycroft 	printf("\n");
1.1  mycroft 	for (fp = (FINFO *)(sp + 1), i = 0; i < sp->ss_nfinfo; i++) {
1.1  mycroft 		numblocks += fp->fi_nblocks;
1.1  mycroft 		(void)printf("    FINFO for inode: %d version %d nblocks %d\n",
1.1  mycroft 		    fp->fi_ino, fp->fi_version, fp->fi_nblocks);
1.1  mycroft 		dp = &(fp->fi_blocks[0]);
1.1  mycroft 		for (j = 0; j < fp->fi_nblocks; j++, dp++) {
1.1  mycroft 			(void)printf("\t%d", *dp);
1.1  mycroft 			if ((j % 8) == 7)
1.1  mycroft 				(void)printf("\n");
1.1  mycroft 		}
1.1  mycroft 		if ((j % 8) != 0)
1.1  mycroft 			(void)printf("\n");
1.1  mycroft 		fp = (FINFO *)dp;
1.1  mycroft 	}
1.1  mycroft 	return (numblocks);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft dump_segment(fd, segnum, addr, lfsp, dump_sb)
1.1  mycroft 	int fd, segnum;
1.1  mycroft 	daddr_t addr;
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft 	int dump_sb;
1.1  mycroft {
1.1  mycroft 	struct lfs lfs_sb, *sbp;
1.1  mycroft 	SEGSUM *sump;
1.1  mycroft 	char sumblock[LFS_SUMMARY_SIZE];
1.1  mycroft 	int did_one, nblocks, sb;
1.1  mycroft 	off_t sum_offset, super_off;
1.1  mycroft
1.1  mycroft 	(void)printf("\nSEGMENT %d (Disk Address 0x%X)\n",
1.1  mycroft 	    addr >> (lfsp->lfs_segshift - daddr_shift), addr);
1.1  mycroft 	sum_offset = (addr << (lfsp->lfs_bshift - lfsp->lfs_fsbtodb));
1.1  mycroft
1.1  mycroft 	sb = 0;
1.1  mycroft 	did_one = 0;
1.1  mycroft 	do {
1.1  mycroft 		get(fd, sum_offset, sumblock, LFS_SUMMARY_SIZE);
1.1  mycroft 		sump = (SEGSUM *)sumblock;
1.1  mycroft 		if (sump->ss_sumsum != cksum (&sump->ss_datasum,
1.1  mycroft 			LFS_SUMMARY_SIZE - sizeof(sump->ss_sumsum))) {
1.1  mycroft 			sbp = (struct lfs *)sump;
1.1  mycroft 			if (sb = (sbp->lfs_magic == LFS_MAGIC)) {
1.1  mycroft 				super_off = sum_offset;
1.1  mycroft 				sum_offset += LFS_SBPAD;
1.1  mycroft 			} else if (did_one)
1.1  mycroft 				break;
1.1  mycroft 			else {
1.1  mycroft 				printf("Segment at 0x%X corrupt\n", addr);
1.1  mycroft 				break;
1.1  mycroft 			}
1.1  mycroft 		} else {
1.1  mycroft 			nblocks = dump_sum(fd, lfsp, sump, segnum, sum_offset >>
1.1  mycroft 			     (lfsp->lfs_bshift - lfsp->lfs_fsbtodb));
1.1  mycroft 			if (nblocks)
1.1  mycroft 				sum_offset += LFS_SUMMARY_SIZE +
1.1  mycroft 					(nblocks << lfsp->lfs_bshift);
1.1  mycroft 			else
1.1  mycroft 				sum_offset = 0;
1.1  mycroft 			did_one = 1;
1.1  mycroft 		}
1.1  mycroft 	} while (sum_offset);
1.1  mycroft
1.1  mycroft 	if (dump_sb && sb)  {
1.1  mycroft 		get(fd, super_off, &lfs_sb, sizeof(struct lfs));
1.1  mycroft 		dump_super(&lfs_sb);
1.1  mycroft 	}
1.1  mycroft 	return;
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft dump_super(lfsp)
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft {
1.1  mycroft 	int i;
1.1  mycroft
1.1  mycroft 	(void)printf("%s0x%X\t%s0x%X\t%s%d\t%s%d\n",
1.1  mycroft 		"magic    ", lfsp->lfs_magic,
1.1  mycroft 		"version  ", lfsp->lfs_version,
1.1  mycroft 		"size     ", lfsp->lfs_size,
1.1  mycroft 		"ssize    ", lfsp->lfs_ssize);
1.1  mycroft 	(void)printf("%s%d\t\t%s%d\t%s%d\t%s%d\n",
1.1  mycroft 		"dsize    ", lfsp->lfs_dsize,
1.1  mycroft 		"bsize    ", lfsp->lfs_bsize,
1.1  mycroft 		"fsize    ", lfsp->lfs_fsize,
1.1  mycroft 		"frag     ", lfsp->lfs_frag);
1.1  mycroft
1.1  mycroft 	(void)printf("%s%d\t\t%s%d\t%s%d\t%s%d\n",
1.1  mycroft 		"minfree  ", lfsp->lfs_minfree,
1.1  mycroft 		"inopb    ", lfsp->lfs_inopb,
1.1  mycroft 		"ifpb     ", lfsp->lfs_ifpb,
1.1  mycroft 		"nindir   ", lfsp->lfs_nindir);
1.1  mycroft
1.1  mycroft 	(void)printf("%s%d\t\t%s%d\t%s%d\t%s%d\n",
1.1  mycroft 		"nseg     ", lfsp->lfs_nseg,
1.1  mycroft 		"nspf     ", lfsp->lfs_nspf,
1.1  mycroft 		"cleansz  ", lfsp->lfs_cleansz,
1.1  mycroft 		"segtabsz ", lfsp->lfs_segtabsz);
1.1  mycroft
1.1  mycroft 	(void)printf("%s0x%X\t%s%d\t%s0x%X\t%s%d\n",
1.1  mycroft 		"segmask  ", lfsp->lfs_segmask,
1.1  mycroft 		"segshift ", lfsp->lfs_segshift,
1.1  mycroft 		"bmask    ", lfsp->lfs_bmask,
1.1  mycroft 		"bshift   ", lfsp->lfs_bshift);
1.1  mycroft
1.1  mycroft 	(void)printf("%s0x%X\t\t%s%d\t%s0x%X\t%s%d\n",
1.1  mycroft 		"ffmask   ", lfsp->lfs_ffmask,
1.1  mycroft 		"ffshift  ", lfsp->lfs_ffshift,
1.1  mycroft 		"fbmask   ", lfsp->lfs_fbmask,
1.1  mycroft 		"fbshift  ", lfsp->lfs_fbshift);
1.1  mycroft
1.1  mycroft 	(void)printf("%s%d\t%s%d\t%s0x%X\t%s0x%qx\n",
1.1  mycroft 		"sushift  ", lfsp->lfs_sushift,
1.1  mycroft 		"fsbtodb  ", lfsp->lfs_fsbtodb,
1.1  mycroft 		"cksum    ", lfsp->lfs_cksum,
1.1  mycroft 		"maxfilesize  ", lfsp->lfs_maxfilesize);
1.1  mycroft
1.1  mycroft 	(void)printf("Superblock disk addresses:\t");
1.1  mycroft 	for (i = 0; i < LFS_MAXNUMSB; i++) {
1.1  mycroft 		(void)printf(" 0x%X", lfsp->lfs_sboffs[i]);
1.1  mycroft 		if ( i == (LFS_MAXNUMSB >> 1))
1.1  mycroft 			(void)printf("\n\t\t\t\t");
1.1  mycroft 	}
1.1  mycroft 	(void)printf("\n");
1.1  mycroft
1.1  mycroft 	(void)printf("Checkpoint Info\n");
1.1  mycroft 	(void)printf("%s%d\t%s0x%X\t%s%d\n",
1.1  mycroft 		"free     ", lfsp->lfs_free,
1.1  mycroft 		"idaddr   ", lfsp->lfs_idaddr,
1.1  mycroft 		"ifile    ", lfsp->lfs_ifile);
1.1  mycroft 	(void)printf("%s%d\t%s%d\t%s%d\n",
1.1  mycroft 		"bfree    ", lfsp->lfs_bfree,
1.1  mycroft 		"avail    ", lfsp->lfs_avail,
1.1  mycroft 		"uinodes  ", lfsp->lfs_uinodes);
1.1  mycroft 	(void)printf("%s%d\t%s0x%X\t%s0x%X\n%s0x%X\t%s0x%X\t",
1.1  mycroft 		"nfiles   ", lfsp->lfs_nfiles,
1.1  mycroft 		"lastseg  ", lfsp->lfs_lastseg,
1.1  mycroft 		"nextseg  ", lfsp->lfs_nextseg,
1.1  mycroft 		"curseg   ", lfsp->lfs_curseg,
1.1  mycroft 		"offset   ", lfsp->lfs_offset);
1.1  mycroft 	(void)printf("tstamp   %s", ctime((time_t *)&lfsp->lfs_tstamp));
1.1  mycroft 	(void)printf("\nIn-Memory Information\n");
1.1  mycroft 	(void)printf("%s%d\t%s0x%X\t%s%d%s%d\t%s%d\n",
1.1  mycroft 		"seglock  ", lfsp->lfs_seglock,
1.1  mycroft 		"iocount  ", lfsp->lfs_iocount,
1.1  mycroft 		"writer   ", lfsp->lfs_writer,
1.1  mycroft 		"dirops   ", lfsp->lfs_dirops,
1.1  mycroft 		"doifile  ", lfsp->lfs_doifile);
1.1  mycroft 	(void)printf("%s%d\t%s%d\t%s0x%X\t%s%d\n",
1.1  mycroft 		"nactive  ", lfsp->lfs_nactive,
1.1  mycroft 		"fmod     ", lfsp->lfs_fmod,
1.1  mycroft 		"clean    ", lfsp->lfs_clean,
1.1  mycroft 		"ronly    ", lfsp->lfs_ronly);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft addseg(arg)
1.1  mycroft 	char *arg;
1.1  mycroft {
1.1  mycroft 	SEGLIST *p;
1.1  mycroft
1.1  mycroft 	if ((p = malloc(sizeof(SEGLIST))) == NULL)
1.1  mycroft 		err("%s", strerror(errno));
1.1  mycroft 	p->next = seglist;
1.1  mycroft 	p->num = atoi(arg);
1.1  mycroft 	seglist = p;
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft dump_cleaner_info(lfsp, ipage)
1.1  mycroft 	struct lfs *lfsp;
1.1  mycroft 	void *ipage;
1.1  mycroft {
1.1  mycroft 	CLEANERINFO *cip;
1.1  mycroft
1.1  mycroft 	cip = (CLEANERINFO *)ipage;
1.1  mycroft 	(void)printf("segments clean\t%d\tsegments dirty\t%d\n\n",
1.1  mycroft 	    cip->clean, cip->dirty);
1.1  mycroft }
1.1  mycroft
1.1  mycroft static void
1.1  mycroft usage()
1.1  mycroft {
1.1  mycroft 	(void)fprintf(stderr, "usage: dumplfs [-ai] [-s segnum] file\n");
1.1  mycroft 	exit(1);
1.1  mycroft }