116c0c8eeSKirk McKusick /*
216c0c8eeSKirk McKusick * Copyright (c) 1998, 2003, 2013, 2018 Marshall Kirk McKusick.
316c0c8eeSKirk McKusick * All Rights Reserved.
416c0c8eeSKirk McKusick *
516c0c8eeSKirk McKusick * Redistribution and use in source and binary forms, with or without
616c0c8eeSKirk McKusick * modification, are permitted provided that the following conditions
716c0c8eeSKirk McKusick * are met:
816c0c8eeSKirk McKusick * 1. Redistributions of source code must retain the above copyright
916c0c8eeSKirk McKusick * notice, this list of conditions and the following disclaimer.
1016c0c8eeSKirk McKusick * 2. Redistributions in binary form must reproduce the above copyright
1116c0c8eeSKirk McKusick * notice, this list of conditions and the following disclaimer in the
1216c0c8eeSKirk McKusick * documentation and/or other materials provided with the distribution.
1316c0c8eeSKirk McKusick *
1416c0c8eeSKirk McKusick * THIS SOFTWARE IS PROVIDED BY MARSHALL KIRK MCKUSICK ``AS IS'' AND
1516c0c8eeSKirk McKusick * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1616c0c8eeSKirk McKusick * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1716c0c8eeSKirk McKusick * ARE DISCLAIMED. IN NO EVENT SHALL MARSHALL KIRK MCKUSICK BE LIABLE
1816c0c8eeSKirk McKusick * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1916c0c8eeSKirk McKusick * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
2016c0c8eeSKirk McKusick * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
2116c0c8eeSKirk McKusick * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
2216c0c8eeSKirk McKusick * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
2316c0c8eeSKirk McKusick * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
2416c0c8eeSKirk McKusick * SUCH DAMAGE.
2516c0c8eeSKirk McKusick */
2616c0c8eeSKirk McKusick
2716c0c8eeSKirk McKusick #include <sys/param.h>
2816c0c8eeSKirk McKusick #include <ufs/ffs/fs.h>
2916c0c8eeSKirk McKusick
3016c0c8eeSKirk McKusick #include <err.h>
3116c0c8eeSKirk McKusick #include <stdio.h>
3268d7185bSKirk McKusick #include <string.h>
330e3f58b6SKirk McKusick #include <libufs.h>
3416c0c8eeSKirk McKusick
3568d7185bSKirk McKusick #ifdef PRTBLKNOS
3668d7185bSKirk McKusick extern struct uufsd disk;
3768d7185bSKirk McKusick #else /* used by fsdb */
3868d7185bSKirk McKusick #include <fsck.h>
3968d7185bSKirk McKusick static struct bufarea *bp;
4068d7185bSKirk McKusick #endif
4116c0c8eeSKirk McKusick
4268d7185bSKirk McKusick void prtblknos(struct fs *fs, union dinode *dp);
4316c0c8eeSKirk McKusick
44d3009da8SKirk McKusick static const char *distance(struct fs *, ufs2_daddr_t, ufs2_daddr_t);
45d3009da8SKirk McKusick static void printblk(struct fs *, ufs_lbn_t, ufs2_daddr_t, int, ufs_lbn_t);
4668d7185bSKirk McKusick static void indirprt(struct fs *, int, ufs_lbn_t, ufs_lbn_t, ufs2_daddr_t,
47d3009da8SKirk McKusick ufs_lbn_t);
4816c0c8eeSKirk McKusick
490e3f58b6SKirk McKusick void
prtblknos(struct fs * fs,union dinode * dp)50*e5d0d1c5SKirk McKusick prtblknos(struct fs *fs, union dinode *dp)
5116c0c8eeSKirk McKusick {
52d3009da8SKirk McKusick int i, mode, frags;
53d3009da8SKirk McKusick ufs_lbn_t lbn, lastlbn, len, blksperindir;
5416c0c8eeSKirk McKusick ufs2_daddr_t blkno;
550e3f58b6SKirk McKusick off_t size;
5616c0c8eeSKirk McKusick
5715e4030eSKirk McKusick if (fs->fs_magic == FS_UFS1_MAGIC) {
580e3f58b6SKirk McKusick size = dp->dp1.di_size;
5915e4030eSKirk McKusick mode = dp->dp1.di_mode;
6015e4030eSKirk McKusick } else {
610e3f58b6SKirk McKusick size = dp->dp2.di_size;
6215e4030eSKirk McKusick mode = dp->dp2.di_mode;
6315e4030eSKirk McKusick }
6415e4030eSKirk McKusick switch (mode & IFMT) {
65d3009da8SKirk McKusick default:
66d3009da8SKirk McKusick printf("unknown inode type 0%d\n", (mode & IFMT));
67d3009da8SKirk McKusick return;
68d3009da8SKirk McKusick case 0:
69d3009da8SKirk McKusick printf("unallocated inode\n");
70d3009da8SKirk McKusick return;
7115e4030eSKirk McKusick case IFIFO:
7215e4030eSKirk McKusick printf("fifo\n");
7315e4030eSKirk McKusick return;
7415e4030eSKirk McKusick case IFCHR:
7515e4030eSKirk McKusick printf("character device\n");
7615e4030eSKirk McKusick return;
7715e4030eSKirk McKusick case IFBLK:
7815e4030eSKirk McKusick printf("block device\n");
7915e4030eSKirk McKusick return;
8015e4030eSKirk McKusick case IFSOCK:
8115e4030eSKirk McKusick printf("socket\n");
8215e4030eSKirk McKusick return;
8315e4030eSKirk McKusick case IFWHT:
8415e4030eSKirk McKusick printf("whiteout\n");
8515e4030eSKirk McKusick return;
8615e4030eSKirk McKusick case IFLNK:
8715e4030eSKirk McKusick if (size == 0) {
8815e4030eSKirk McKusick printf("empty symbolic link\n");
8915e4030eSKirk McKusick return;
9015e4030eSKirk McKusick }
9115e4030eSKirk McKusick if (size < fs->fs_maxsymlinklen) {
9215e4030eSKirk McKusick printf("symbolic link referencing %s\n",
9315e4030eSKirk McKusick (fs->fs_magic == FS_UFS1_MAGIC) ?
945b13fa79SJessica Clarke dp->dp1.di_shortlink :
955b13fa79SJessica Clarke dp->dp2.di_shortlink);
9615e4030eSKirk McKusick return;
9715e4030eSKirk McKusick }
9815e4030eSKirk McKusick printf("symbolic link\n");
9915e4030eSKirk McKusick break;
10015e4030eSKirk McKusick case IFREG:
10115e4030eSKirk McKusick if (size == 0) {
10216c0c8eeSKirk McKusick printf("empty file\n");
1030e3f58b6SKirk McKusick return;
10416c0c8eeSKirk McKusick }
105d3009da8SKirk McKusick printf("regular file, size %jd\n", (intmax_t)size);
10615e4030eSKirk McKusick break;
10715e4030eSKirk McKusick case IFDIR:
10815e4030eSKirk McKusick if (size == 0) {
10915e4030eSKirk McKusick printf("empty directory\n");
11015e4030eSKirk McKusick return;
11115e4030eSKirk McKusick }
112d3009da8SKirk McKusick printf("directory, size %jd\n", (intmax_t)size);
11315e4030eSKirk McKusick break;
11415e4030eSKirk McKusick }
115d3009da8SKirk McKusick lastlbn = howmany(size, fs->fs_bsize);
116d3009da8SKirk McKusick len = lastlbn < UFS_NDADDR ? lastlbn : UFS_NDADDR;
11716c0c8eeSKirk McKusick for (i = 0; i < len; i++) {
118d3009da8SKirk McKusick if (i < lastlbn - 1)
1190e3f58b6SKirk McKusick frags = fs->fs_frag;
12016c0c8eeSKirk McKusick else
12128ac2238SKirk McKusick frags = howmany(size - (lastlbn - 1) * fs->fs_bsize,
1220e3f58b6SKirk McKusick fs->fs_fsize);
1230e3f58b6SKirk McKusick if (fs->fs_magic == FS_UFS1_MAGIC)
1240e3f58b6SKirk McKusick blkno = dp->dp1.di_db[i];
12516c0c8eeSKirk McKusick else
1260e3f58b6SKirk McKusick blkno = dp->dp2.di_db[i];
127d3009da8SKirk McKusick printblk(fs, i, blkno, frags, lastlbn);
12816c0c8eeSKirk McKusick }
12916c0c8eeSKirk McKusick
13016c0c8eeSKirk McKusick blksperindir = 1;
131d3009da8SKirk McKusick len = lastlbn - UFS_NDADDR;
13216c0c8eeSKirk McKusick lbn = UFS_NDADDR;
13316c0c8eeSKirk McKusick for (i = 0; len > 0 && i < UFS_NIADDR; i++) {
1340e3f58b6SKirk McKusick if (fs->fs_magic == FS_UFS1_MAGIC)
1350e3f58b6SKirk McKusick blkno = dp->dp1.di_ib[i];
13616c0c8eeSKirk McKusick else
1370e3f58b6SKirk McKusick blkno = dp->dp2.di_ib[i];
13868d7185bSKirk McKusick indirprt(fs, i, blksperindir, lbn, blkno, lastlbn);
1390e3f58b6SKirk McKusick blksperindir *= NINDIR(fs);
14016c0c8eeSKirk McKusick lbn += blksperindir;
14116c0c8eeSKirk McKusick len -= blksperindir;
14216c0c8eeSKirk McKusick }
14316c0c8eeSKirk McKusick
14416c0c8eeSKirk McKusick /* dummy print to flush out last extent */
145d3009da8SKirk McKusick printblk(fs, lastlbn, 0, frags, 0);
14616c0c8eeSKirk McKusick }
14716c0c8eeSKirk McKusick
1480e3f58b6SKirk McKusick static void
indirprt(struct fs * fs,int level,ufs_lbn_t blksperindir,ufs_lbn_t lbn,ufs2_daddr_t blkno,ufs_lbn_t lastlbn)149*e5d0d1c5SKirk McKusick indirprt(struct fs *fs, int level, ufs_lbn_t blksperindir, ufs_lbn_t lbn,
150*e5d0d1c5SKirk McKusick ufs2_daddr_t blkno, ufs_lbn_t lastlbn)
15116c0c8eeSKirk McKusick {
15216c0c8eeSKirk McKusick char indir[MAXBSIZE];
153d3009da8SKirk McKusick ufs_lbn_t i, last;
15416c0c8eeSKirk McKusick
15515e4030eSKirk McKusick if (blkno == 0) {
15615e4030eSKirk McKusick printblk(fs, lbn, blkno,
15715e4030eSKirk McKusick blksperindir * NINDIR(fs) * fs->fs_frag, lastlbn);
15815e4030eSKirk McKusick return;
15915e4030eSKirk McKusick }
1600e3f58b6SKirk McKusick printblk(fs, lbn, blkno, fs->fs_frag, -level);
16116c0c8eeSKirk McKusick /* read in the indirect block. */
16268d7185bSKirk McKusick #ifdef PRTBLKNOS
16368d7185bSKirk McKusick if (bread(&disk, fsbtodb(fs, blkno), indir, fs->fs_bsize) == -1) {
16468d7185bSKirk McKusick #else /* used by fsdb */
16568d7185bSKirk McKusick bp = getdatablk(blkno, fs->fs_bsize, BT_LEVEL1 + level);
16668d7185bSKirk McKusick if (bp->b_errs == 0) {
16768d7185bSKirk McKusick memcpy(indir, bp->b_un.b_buf, fs->fs_bsize);
16868d7185bSKirk McKusick } else {
16968d7185bSKirk McKusick #endif
170c343fa81SKirk McKusick warn("Read of indirect block %jd failed", (intmax_t)blkno);
171c343fa81SKirk McKusick /* List the unreadable part as a hole */
172c343fa81SKirk McKusick printblk(fs, lbn, 0,
173c343fa81SKirk McKusick blksperindir * NINDIR(fs) * fs->fs_frag, lastlbn);
174c343fa81SKirk McKusick return;
175c343fa81SKirk McKusick }
1760e3f58b6SKirk McKusick last = howmany(lastlbn - lbn, blksperindir) < NINDIR(fs) ?
1770e3f58b6SKirk McKusick howmany(lastlbn - lbn, blksperindir) : NINDIR(fs);
17816c0c8eeSKirk McKusick if (blksperindir == 1) {
17916c0c8eeSKirk McKusick for (i = 0; i < last; i++) {
1800e3f58b6SKirk McKusick if (fs->fs_magic == FS_UFS1_MAGIC)
18116c0c8eeSKirk McKusick blkno = ((ufs1_daddr_t *)indir)[i];
18216c0c8eeSKirk McKusick else
18316c0c8eeSKirk McKusick blkno = ((ufs2_daddr_t *)indir)[i];
1840e3f58b6SKirk McKusick printblk(fs, lbn + i, blkno, fs->fs_frag, lastlbn);
18516c0c8eeSKirk McKusick }
18616c0c8eeSKirk McKusick return;
18716c0c8eeSKirk McKusick }
18816c0c8eeSKirk McKusick for (i = 0; i < last; i++) {
1890e3f58b6SKirk McKusick if (fs->fs_magic == FS_UFS1_MAGIC)
19016c0c8eeSKirk McKusick blkno = ((ufs1_daddr_t *)indir)[i];
19116c0c8eeSKirk McKusick else
19216c0c8eeSKirk McKusick blkno = ((ufs2_daddr_t *)indir)[i];
19368d7185bSKirk McKusick indirprt(fs, level - 1, blksperindir / NINDIR(fs),
19416c0c8eeSKirk McKusick lbn + blksperindir * i, blkno, lastlbn);
19516c0c8eeSKirk McKusick }
19616c0c8eeSKirk McKusick }
19716c0c8eeSKirk McKusick
198d3009da8SKirk McKusick static const char *
199*e5d0d1c5SKirk McKusick distance(struct fs *fs, ufs2_daddr_t lastblk, ufs2_daddr_t firstblk)
20016c0c8eeSKirk McKusick {
201d3009da8SKirk McKusick ufs2_daddr_t delta;
20216c0c8eeSKirk McKusick int firstcg, lastcg;
20316c0c8eeSKirk McKusick static char buf[100];
20416c0c8eeSKirk McKusick
20516c0c8eeSKirk McKusick if (lastblk == 0)
20616c0c8eeSKirk McKusick return ("");
20716c0c8eeSKirk McKusick delta = firstblk - lastblk - 1;
2080e3f58b6SKirk McKusick firstcg = dtog(fs, firstblk);
2090e3f58b6SKirk McKusick lastcg = dtog(fs, lastblk);
21016c0c8eeSKirk McKusick if (firstcg == lastcg) {
21116c0c8eeSKirk McKusick snprintf(buf, 100, " distance %jd", (intmax_t)delta);
21216c0c8eeSKirk McKusick return (&buf[0]);
21316c0c8eeSKirk McKusick }
21416c0c8eeSKirk McKusick snprintf(buf, 100, " cg %d blk %jd to cg %d blk %jd",
215f33fbc18SKirk McKusick lastcg, (intmax_t)dtogd(fs, lastblk), firstcg,
216f33fbc18SKirk McKusick (intmax_t)dtogd(fs, firstblk));
21716c0c8eeSKirk McKusick return (&buf[0]);
21816c0c8eeSKirk McKusick }
21916c0c8eeSKirk McKusick
22016c0c8eeSKirk McKusick
221d3009da8SKirk McKusick static const char *indirname[UFS_NIADDR] = { "First", "Second", "Third" };
22216c0c8eeSKirk McKusick
2230e3f58b6SKirk McKusick static void
224*e5d0d1c5SKirk McKusick printblk(struct fs *fs, ufs_lbn_t lbn, ufs2_daddr_t blkno, int numfrags,
225*e5d0d1c5SKirk McKusick ufs_lbn_t lastlbn)
22616c0c8eeSKirk McKusick {
22716c0c8eeSKirk McKusick static int seq;
228d3009da8SKirk McKusick static ufs2_daddr_t totfrags, lastindirblk, lastblk, firstblk;
22916c0c8eeSKirk McKusick
23016c0c8eeSKirk McKusick if (lastlbn <= 0)
23116c0c8eeSKirk McKusick goto flush;
23216c0c8eeSKirk McKusick if (seq == 0) {
233d3009da8SKirk McKusick seq = howmany(numfrags, fs->fs_frag);
234d3009da8SKirk McKusick totfrags = numfrags;
23516c0c8eeSKirk McKusick firstblk = blkno;
23616c0c8eeSKirk McKusick return;
23716c0c8eeSKirk McKusick }
23816c0c8eeSKirk McKusick if (lbn == 0) {
239d3009da8SKirk McKusick seq = howmany(numfrags, fs->fs_frag);
240d3009da8SKirk McKusick totfrags = numfrags;
24116c0c8eeSKirk McKusick lastblk = 0;
24216c0c8eeSKirk McKusick firstblk = blkno;
24316c0c8eeSKirk McKusick lastindirblk = 0;
24416c0c8eeSKirk McKusick return;
24516c0c8eeSKirk McKusick }
24616c0c8eeSKirk McKusick if (lbn < lastlbn && ((firstblk == 0 && blkno == 0) ||
24716c0c8eeSKirk McKusick (firstblk == BLK_NOCOPY && blkno == BLK_NOCOPY) ||
24816c0c8eeSKirk McKusick (firstblk == BLK_SNAP && blkno == BLK_SNAP) ||
24915e4030eSKirk McKusick blkno == firstblk + seq * fs->fs_frag)) {
250d3009da8SKirk McKusick seq += howmany(numfrags, fs->fs_frag);
251d3009da8SKirk McKusick totfrags += numfrags;
25216c0c8eeSKirk McKusick return;
25316c0c8eeSKirk McKusick }
25416c0c8eeSKirk McKusick flush:
25516c0c8eeSKirk McKusick if (seq == 0)
25616c0c8eeSKirk McKusick goto prtindir;
25716c0c8eeSKirk McKusick if (firstblk <= BLK_SNAP) {
25816c0c8eeSKirk McKusick if (seq == 1)
259d3009da8SKirk McKusick printf("\tlbn %jd %s\n", (intmax_t)(lbn - seq),
26016c0c8eeSKirk McKusick firstblk == 0 ? "hole" :
26116c0c8eeSKirk McKusick firstblk == BLK_NOCOPY ? "nocopy" :
26216c0c8eeSKirk McKusick "snapblk");
26316c0c8eeSKirk McKusick else
264d3009da8SKirk McKusick printf("\tlbn %jd-%jd %s\n",
265d3009da8SKirk McKusick (intmax_t)lbn - seq, (intmax_t)lbn - 1,
26616c0c8eeSKirk McKusick firstblk == 0 ? "hole" :
26716c0c8eeSKirk McKusick firstblk == BLK_NOCOPY ? "nocopy" :
26816c0c8eeSKirk McKusick "snapblk");
26916c0c8eeSKirk McKusick } else if (seq == 1) {
270d3009da8SKirk McKusick if (totfrags == 1)
271d3009da8SKirk McKusick printf("\tlbn %jd blkno %jd%s\n", (intmax_t)(lbn - seq),
2720e3f58b6SKirk McKusick (intmax_t)firstblk, distance(fs, lastblk, firstblk));
27316c0c8eeSKirk McKusick else
274d3009da8SKirk McKusick printf("\tlbn %jd blkno %jd-%jd%s\n",
275d3009da8SKirk McKusick (intmax_t)(lbn - seq), (intmax_t)firstblk,
276d3009da8SKirk McKusick (intmax_t)(firstblk + totfrags - 1),
2770e3f58b6SKirk McKusick distance(fs, lastblk, firstblk));
278d3009da8SKirk McKusick lastblk = firstblk + totfrags - 1;
27916c0c8eeSKirk McKusick } else {
280d3009da8SKirk McKusick printf("\tlbn %jd-%jd blkno %jd-%jd%s\n", (intmax_t)(lbn - seq),
281d3009da8SKirk McKusick (intmax_t)(lbn - 1), (intmax_t)firstblk,
282d3009da8SKirk McKusick (intmax_t)(firstblk + totfrags - 1),
2830e3f58b6SKirk McKusick distance(fs, lastblk, firstblk));
284d3009da8SKirk McKusick lastblk = firstblk + totfrags - 1;
28516c0c8eeSKirk McKusick }
28616c0c8eeSKirk McKusick if (lastlbn > 0 || blkno == 0) {
28716c0c8eeSKirk McKusick seq = 1;
288d3009da8SKirk McKusick totfrags = numfrags;
28916c0c8eeSKirk McKusick firstblk = blkno;
29016c0c8eeSKirk McKusick return;
29116c0c8eeSKirk McKusick }
29216c0c8eeSKirk McKusick prtindir:
2930e3f58b6SKirk McKusick if (seq != 0 && (fs->fs_metaspace == 0 || lastindirblk == 0))
29416c0c8eeSKirk McKusick lastindirblk = lastblk;
29516c0c8eeSKirk McKusick printf("%s-level indirect, blkno %jd-%jd%s\n", indirname[-lastlbn],
296d3009da8SKirk McKusick (intmax_t)blkno, (intmax_t)(blkno + numfrags - 1),
2970e3f58b6SKirk McKusick distance(fs, lastindirblk, blkno));
298d3009da8SKirk McKusick lastindirblk = blkno + numfrags - 1;
2990e3f58b6SKirk McKusick if (fs->fs_metaspace == 0)
30016c0c8eeSKirk McKusick lastblk = lastindirblk;
30116c0c8eeSKirk McKusick seq = 0;
30216c0c8eeSKirk McKusick }
303