1392Sswilcox /*
2392Sswilcox * CDDL HEADER START
3392Sswilcox *
4392Sswilcox * The contents of this file are subject to the terms of the
5*6106Sowenr * Common Development and Distribution License (the "License").
6*6106Sowenr * You may not use this file except in compliance with the License.
7392Sswilcox *
8392Sswilcox * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9392Sswilcox * or http://www.opensolaris.org/os/licensing.
10392Sswilcox * See the License for the specific language governing permissions
11392Sswilcox * and limitations under the License.
12392Sswilcox *
13392Sswilcox * When distributing Covered Code, include this CDDL HEADER in each
14392Sswilcox * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15392Sswilcox * If applicable, add the following below this CDDL HEADER, with the
16392Sswilcox * fields enclosed by brackets "[]" replaced with your own identifying
17392Sswilcox * information: Portions Copyright [yyyy] [name of copyright owner]
18392Sswilcox *
19392Sswilcox * CDDL HEADER END
20392Sswilcox */
21392Sswilcox /*
22*6106Sowenr * Copyright 2008 Sun Microsystems, Inc. All rights reserved.
23392Sswilcox * Use is subject to license terms.
24392Sswilcox */
25392Sswilcox
26392Sswilcox #pragma ident "%Z%%M% %I% %E% SMI"
27392Sswilcox
28392Sswilcox /*
29392Sswilcox * Keep track of duplicate fragment references (elsewhere called
30392Sswilcox * blocks for ancient historical reasons).
31392Sswilcox *
32392Sswilcox * The duplicates are kept in a binary tree to attempt to minimize
33392Sswilcox * search times when checking the block lists of all active inodes
34392Sswilcox * for multiple uses. This is opposed to using a simple linear list
35392Sswilcox * that is traversed for every block, as is used in the traditional
36392Sswilcox * fsck. It can be very time-expensive if there's more than just a
37392Sswilcox * very few duplicates, and typically there are either none or lots.
38392Sswilcox *
39392Sswilcox * For each multiply-claimed fragment, we note all of the claiming
40392Sswilcox * inodes and their corresponding logical block numbers. This allows
41392Sswilcox * reporting exactly which parts of which files were damaged, which
42392Sswilcox * provides at least a chance of recovering the bulk of the data on
43392Sswilcox * a seriously-corrupted filesystem.
44392Sswilcox */
45392Sswilcox #include <stdio.h>
46392Sswilcox #include <stdlib.h>
47392Sswilcox #include <unistd.h>
48392Sswilcox #include <sys/avl.h>
49392Sswilcox #define _KERNEL
50392Sswilcox #include <sys/fs/ufs_fsdir.h> /* for struct direct */
51392Sswilcox #undef _KERNEL
52392Sswilcox #include <sys/debug.h>
53392Sswilcox #include "fsck.h"
54392Sswilcox
55392Sswilcox #define OFFSETOF(type, elt) ((size_t)(&((type *)NULL)->elt))
56392Sswilcox
57392Sswilcox /*
58392Sswilcox * For each physical fragment with multiple claimants, the specifics
59392Sswilcox * of each claim are recorded. This means there are N+1 AVL trees in
60392Sswilcox * use: one for each fragment's claimant table, plus one that orders
61392Sswilcox * the fragments themselves.
62392Sswilcox *
63392Sswilcox * The table of fragments simply has the physical fragment number
64392Sswilcox * (pfn) and has the root of the tree of the associated claimants. It
65392Sswilcox * is keyed by the pfn and called dup_frags.
66392Sswilcox *
67392Sswilcox * The subsidiary trees list inodes and logical fragment number (lfn)
68392Sswilcox * for each claimant. They are keyed first by inode number and then
69392Sswilcox * by lfn. Both are needed, as it is possible for one inode to have
70392Sswilcox * multiple claims on the same fragment.
71392Sswilcox */
72392Sswilcox
73392Sswilcox typedef struct claimant {
74392Sswilcox fsck_ino_t cl_inode;
75392Sswilcox daddr32_t cl_lfn;
76392Sswilcox avl_node_t cl_avl;
77392Sswilcox } claimant_t;
78392Sswilcox
79392Sswilcox typedef struct fragment {
80392Sswilcox daddr32_t fr_pfn;
81392Sswilcox avl_tree_t fr_claimants;
82392Sswilcox avl_node_t fr_avl;
83392Sswilcox } fragment_t;
84392Sswilcox
85392Sswilcox typedef struct reference {
86392Sswilcox daddr32_t ref_lfn;
87392Sswilcox daddr32_t ref_pfn;
88392Sswilcox avl_node_t ref_avl;
89392Sswilcox } reference_t;
90392Sswilcox
91392Sswilcox typedef struct inode_dup {
92392Sswilcox fsck_ino_t id_ino;
93392Sswilcox avl_tree_t id_fragments;
94392Sswilcox avl_node_t id_avl;
95392Sswilcox } inode_dup_t;
96392Sswilcox
97392Sswilcox static avl_tree_t dup_frags;
98392Sswilcox
99392Sswilcox static void free_invert_frags(avl_tree_t *);
100392Sswilcox static void report_dup_lfn_pfn(daddr32_t, daddr32_t, daddr32_t, daddr32_t);
101392Sswilcox static inode_dup_t *new_inode_dup(fsck_ino_t);
102392Sswilcox static void invert_frags(avl_tree_t *, avl_tree_t *);
103392Sswilcox static void report_inode_dups(inode_dup_t *);
104392Sswilcox static int by_ino_cmp(const void *, const void *);
105392Sswilcox static int by_lfn_cmp(const void *, const void *);
106392Sswilcox static claimant_t *alloc_claimant(fsck_ino_t, daddr32_t);
107392Sswilcox static fragment_t *alloc_dup(daddr32_t);
108392Sswilcox static int claimant_cmp(const void *, const void *);
109392Sswilcox static int fragment_cmp(const void *, const void *);
110392Sswilcox static int decrement_claimant(fragment_t *, fsck_ino_t, daddr32_t);
111392Sswilcox static int increment_claimant(fragment_t *, fsck_ino_t, daddr32_t);
112392Sswilcox
113392Sswilcox /*
114392Sswilcox * Simple accessor function for the outside world so only we need to
115392Sswilcox * see and interpret our data structures.
116392Sswilcox */
117392Sswilcox int
have_dups(void)118392Sswilcox have_dups(void)
119392Sswilcox {
120392Sswilcox return (avl_numnodes(&dup_frags) > 0);
121392Sswilcox }
122392Sswilcox
123392Sswilcox /*
124392Sswilcox * Locates, creates, and deletes a record of a duplicate reference.
125392Sswilcox *
126392Sswilcox * For DB_INCR, returns true if the dup was added to the tree.
127392Sswilcox * For DB_DECR, returns true if the dup was in the tree.
128392Sswilcox */
129392Sswilcox int
find_dup_ref(daddr32_t fragno,fsck_ino_t ino,daddr32_t lfn,int flags)130392Sswilcox find_dup_ref(daddr32_t fragno, fsck_ino_t ino, daddr32_t lfn, int flags)
131392Sswilcox {
132392Sswilcox fragment_t key;
133392Sswilcox fragment_t *dup;
134392Sswilcox avl_index_t where;
135392Sswilcox int added = 0;
136392Sswilcox int removed = 0;
137392Sswilcox
138392Sswilcox if (avl_first(&dup_frags) == NULL) {
139392Sswilcox if (flags & DB_CREATE)
140392Sswilcox avl_create(&dup_frags, fragment_cmp,
141392Sswilcox sizeof (fragment_t),
142392Sswilcox OFFSETOF(fragment_t, fr_avl));
143392Sswilcox else
144392Sswilcox return (0);
145392Sswilcox }
146392Sswilcox
147392Sswilcox key.fr_pfn = fragno;
148392Sswilcox dup = avl_find(&dup_frags, (void *)&key, &where);
149392Sswilcox if ((dup == NULL) & (flags & DB_CREATE)) {
150392Sswilcox dup = alloc_dup(fragno);
151392Sswilcox avl_insert(&dup_frags, (void *)dup, where);
152392Sswilcox }
153392Sswilcox
154392Sswilcox if (dup != NULL) {
155392Sswilcox if (flags & DB_INCR) {
156392Sswilcox if (debug)
157392Sswilcox (void) printf(
158392Sswilcox "adding claim by ino %d as lfn %d\n",
159392Sswilcox ino, lfn);
160392Sswilcox added = increment_claimant(dup, ino, lfn);
161392Sswilcox } else if (flags & DB_DECR) {
162392Sswilcox /*
163392Sswilcox * Note that dup may be invalidated by this call.
164392Sswilcox */
165392Sswilcox removed = decrement_claimant(dup, ino, lfn);
166392Sswilcox if (debug)
167392Sswilcox (void) printf(
168392Sswilcox "check for claimant ino %d lfn %d returned %d\n",
169392Sswilcox ino, lfn, removed);
170392Sswilcox }
171392Sswilcox }
172392Sswilcox
173392Sswilcox return (added || removed || (dup != NULL));
174392Sswilcox }
175392Sswilcox
176392Sswilcox /*
177392Sswilcox * Dump the duplicates table in a relatively user-friendly form.
178392Sswilcox * The idea is that the output can be useful when trying to manually
179392Sswilcox * work out which block belongs to which of the claiming inodes.
180392Sswilcox *
181392Sswilcox * What we have is a tree of duplicates indexed by physical
182392Sswilcox * fragment number. What we want to report is:
183392Sswilcox *
184392Sswilcox * Inode %d:
185392Sswilcox * Logical Offset 0x%08llx, Physical Fragment %d
186392Sswilcox * Logical Offsets 0x%08llx - 0x%08llx, Physical Fragments %d - %d
187392Sswilcox * ...
188392Sswilcox * Inode %d:
189392Sswilcox * Logical Offsets 0x%08llx - 0x%08llx, Physical Fragments %d - %d
190392Sswilcox * ...
191392Sswilcox */
192392Sswilcox int
report_dups(int quiet)193392Sswilcox report_dups(int quiet)
194392Sswilcox {
195392Sswilcox int overlaps;
196392Sswilcox inode_dup_t *inode;
197392Sswilcox fragment_t *dup;
198392Sswilcox avl_tree_t inode_frags;
199392Sswilcox
200392Sswilcox overlaps = 0;
201392Sswilcox ASSERT(have_dups());
202392Sswilcox /*
203392Sswilcox * Figure out how many actual dups are still around.
204392Sswilcox * This tells us whether or not we can mark the
205392Sswilcox * filesystem clean.
206392Sswilcox */
207392Sswilcox dup = avl_first(&dup_frags);
208392Sswilcox while (dup != NULL) {
209392Sswilcox if (avl_numnodes(&dup->fr_claimants) > 1) {
210392Sswilcox overlaps++;
211392Sswilcox break;
212392Sswilcox }
213392Sswilcox dup = AVL_NEXT(&dup_frags, dup);
214392Sswilcox }
215392Sswilcox
216392Sswilcox /*
217392Sswilcox * Now report on every object that still exists that
218392Sswilcox * had *any* dups associated with it.
219392Sswilcox */
220392Sswilcox if (!quiet) {
221392Sswilcox (void) puts("\nSome blocks that were found to be in "
222*6106Sowenr "multiple files are still\nassigned to "
223*6106Sowenr "file(s).\nFragments sorted by inode and "
224*6106Sowenr "logical offsets:");
225392Sswilcox
226392Sswilcox invert_frags(&dup_frags, &inode_frags);
227392Sswilcox inode = avl_first(&inode_frags);
228392Sswilcox while (inode != NULL) {
229392Sswilcox report_inode_dups(inode);
230392Sswilcox inode = AVL_NEXT(&inode_frags, inode);
231392Sswilcox }
232392Sswilcox (void) printf("\n");
233392Sswilcox
234392Sswilcox free_invert_frags(&inode_frags);
235392Sswilcox }
236392Sswilcox
237392Sswilcox return (overlaps);
238392Sswilcox }
239392Sswilcox
240392Sswilcox static void
report_inode_dups(inode_dup_t * inode)241392Sswilcox report_inode_dups(inode_dup_t *inode)
242392Sswilcox {
243392Sswilcox reference_t *dup;
244392Sswilcox daddr32_t first_lfn, last_lfn, first_pfn, last_pfn;
245392Sswilcox
246392Sswilcox (void) printf("Inode %d:\n", inode->id_ino);
247392Sswilcox dup = avl_first(&inode->id_fragments);
248392Sswilcox first_lfn = last_lfn = dup->ref_lfn;
249392Sswilcox first_pfn = last_pfn = dup->ref_pfn;
250392Sswilcox while ((dup = AVL_NEXT(&inode->id_fragments, dup)) != NULL) {
251392Sswilcox if (((last_lfn + 1) != dup->ref_lfn) ||
252392Sswilcox ((last_pfn + 1) != dup->ref_pfn)) {
253392Sswilcox report_dup_lfn_pfn(first_lfn, last_lfn,
254392Sswilcox first_pfn, last_pfn);
255392Sswilcox first_lfn = last_lfn = dup->ref_lfn;
256392Sswilcox first_pfn = last_pfn = dup->ref_pfn;
257392Sswilcox }
258392Sswilcox }
259392Sswilcox report_dup_lfn_pfn(first_lfn, last_lfn, first_pfn, last_pfn);
260392Sswilcox }
261392Sswilcox
262392Sswilcox static void
report_dup_lfn_pfn(daddr32_t first_lfn,daddr32_t last_lfn,daddr32_t first_pfn,daddr32_t last_pfn)263392Sswilcox report_dup_lfn_pfn(daddr32_t first_lfn, daddr32_t last_lfn,
264392Sswilcox daddr32_t first_pfn, daddr32_t last_pfn)
265392Sswilcox {
266392Sswilcox if ((first_lfn == last_lfn) && (first_pfn == last_pfn)) {
267392Sswilcox (void) printf(
268392Sswilcox " Logical Offset 0x%08llx Physical Fragment %d\n",
269392Sswilcox (longlong_t)first_lfn * sblock.fs_fsize, first_pfn);
270392Sswilcox } else {
271392Sswilcox (void) printf(
272392Sswilcox " Logical Offsets 0x%08llx - 0x%08llx, "
273392Sswilcox "Physical Fragments %d - %d\n",
274392Sswilcox (longlong_t)first_lfn * sblock.fs_fsize,
275392Sswilcox (longlong_t)last_lfn * sblock.fs_fsize,
276392Sswilcox first_pfn, last_pfn);
277392Sswilcox }
278392Sswilcox }
279392Sswilcox
280392Sswilcox /*
281392Sswilcox * Given a tree of fragment_ts, each element of which has an integral
282392Sswilcox * sub-tree of claimant_ts, produce a tree of inode_dup_ts, each element
283392Sswilcox * of which has an integral sub-tree of reference_ts.
284392Sswilcox */
285392Sswilcox static void
invert_frags(avl_tree_t * source,avl_tree_t * target)286392Sswilcox invert_frags(avl_tree_t *source, avl_tree_t *target)
287392Sswilcox {
288392Sswilcox fragment_t *src_frag;
289392Sswilcox claimant_t *src_claim;
290392Sswilcox inode_dup_t *tgt_inode;
291392Sswilcox inode_dup_t tgt_inode_key;
292392Sswilcox reference_t *tgt_ref;
293392Sswilcox reference_t tgt_ref_key;
294392Sswilcox avl_index_t where;
295392Sswilcox
296392Sswilcox avl_create(target, by_ino_cmp, sizeof (inode_dup_t),
297392Sswilcox OFFSETOF(inode_dup_t, id_avl));
298392Sswilcox
299392Sswilcox src_frag = avl_first(source);
300392Sswilcox while (src_frag != NULL) {
301392Sswilcox src_claim = avl_first(&src_frag->fr_claimants);
302392Sswilcox while (src_claim != NULL) {
303392Sswilcox /*
304392Sswilcox * Have we seen this inode before?
305392Sswilcox */
306392Sswilcox tgt_inode_key.id_ino = src_claim->cl_inode;
307392Sswilcox tgt_inode = avl_find(target, (void *)&tgt_inode_key,
308392Sswilcox &where);
309392Sswilcox if (tgt_inode == NULL) {
310392Sswilcox /*
311392Sswilcox * No, so set up a record for it.
312392Sswilcox */
313392Sswilcox tgt_inode = new_inode_dup(src_claim->cl_inode);
314392Sswilcox avl_insert(target, (void *)tgt_inode, where);
315392Sswilcox }
316392Sswilcox /*
317392Sswilcox * Now, how about this logical fragment? In
318392Sswilcox * theory, we should never see a duplicate, since
319392Sswilcox * a given lfn only exists once for a given inode.
320392Sswilcox * As such, we ignore duplicate hits.
321392Sswilcox */
322392Sswilcox tgt_ref_key.ref_lfn = src_claim->cl_lfn;
323392Sswilcox tgt_ref = avl_find(&tgt_inode->id_fragments,
324392Sswilcox (void *)&tgt_ref_key, &where);
325392Sswilcox if (tgt_ref == NULL) {
326392Sswilcox /*
327392Sswilcox * Haven't seen it, add it.
328392Sswilcox */
329392Sswilcox tgt_ref = (reference_t *)malloc(
330392Sswilcox sizeof (reference_t));
331392Sswilcox if (tgt_ref == NULL)
332392Sswilcox errexit("Out of memory in "
333392Sswilcox "invert_frags\n");
334392Sswilcox tgt_ref->ref_lfn = src_claim->cl_lfn;
335392Sswilcox tgt_ref->ref_pfn = src_frag->fr_pfn;
336392Sswilcox avl_insert(&tgt_inode->id_fragments,
337392Sswilcox (void *)tgt_ref, where);
338392Sswilcox }
339392Sswilcox src_claim = AVL_NEXT(&src_frag->fr_claimants,
340392Sswilcox src_claim);
341392Sswilcox }
342392Sswilcox src_frag = AVL_NEXT(source, src_frag);
343392Sswilcox }
344392Sswilcox }
345392Sswilcox
346392Sswilcox /*
347392Sswilcox * Discard memory associated with the inverted fragments tree created
348392Sswilcox * by report_dups() via invert_frags().
349392Sswilcox */
350392Sswilcox static void
free_invert_frags(avl_tree_t * tree)351392Sswilcox free_invert_frags(avl_tree_t *tree)
352392Sswilcox {
353392Sswilcox void *outer = NULL; /* traversal cookie */
354392Sswilcox void *inner; /* traversal cookie */
355392Sswilcox inode_dup_t *inode_dup;
356392Sswilcox reference_t *ref_dup;
357392Sswilcox
358392Sswilcox while ((inode_dup = avl_destroy_nodes(tree, &outer)) != NULL) {
359392Sswilcox inner = NULL;
360392Sswilcox while ((ref_dup = avl_destroy_nodes(&inode_dup->id_fragments,
361392Sswilcox &inner)) != NULL) {
362392Sswilcox free((void *)ref_dup);
363392Sswilcox }
364392Sswilcox avl_destroy(&inode_dup->id_fragments);
365392Sswilcox free((void *)inode_dup);
366392Sswilcox }
367392Sswilcox avl_destroy(tree);
368392Sswilcox }
369392Sswilcox
370392Sswilcox /*
371392Sswilcox * Discard all memory allocations associated with the current duplicates
372392Sswilcox * table.
373392Sswilcox */
374392Sswilcox void
free_dup_state(void)375392Sswilcox free_dup_state(void)
376392Sswilcox {
377392Sswilcox void *dup_cookie = NULL;
378392Sswilcox void *claim_cookie;
379392Sswilcox fragment_t *fragv;
380392Sswilcox claimant_t *claimv;
381392Sswilcox
382392Sswilcox while ((fragv = avl_destroy_nodes(&dup_frags, &dup_cookie)) != NULL) {
383392Sswilcox claim_cookie = NULL;
384392Sswilcox while ((claimv = avl_destroy_nodes(&fragv->fr_claimants,
385392Sswilcox &claim_cookie)) != NULL) {
386392Sswilcox free((void *)claimv);
387392Sswilcox }
388392Sswilcox avl_destroy(&fragv->fr_claimants);
389392Sswilcox free((void *)fragv);
390392Sswilcox }
391392Sswilcox avl_destroy(&dup_frags);
392392Sswilcox }
393392Sswilcox
394392Sswilcox /*
395392Sswilcox * If the given claimant has not been seen before, add it to DUP's
396392Sswilcox * list of them. It's not fatal for the same PFN/INODE/LFN to get
397392Sswilcox * added twice, because pass1b() will add the same dups that pass1()
398392Sswilcox * did, plus one.
399392Sswilcox */
400392Sswilcox static int
increment_claimant(fragment_t * dup,fsck_ino_t ino,daddr32_t lfn)401392Sswilcox increment_claimant(fragment_t *dup, fsck_ino_t ino, daddr32_t lfn)
402392Sswilcox {
403392Sswilcox avl_index_t where;
404392Sswilcox claimant_t *claimant;
405392Sswilcox claimant_t key;
406392Sswilcox int added = 0;
407392Sswilcox
408392Sswilcox key.cl_inode = ino;
409392Sswilcox key.cl_lfn = lfn;
410392Sswilcox claimant = avl_find(&dup->fr_claimants, &key, &where);
411392Sswilcox if (claimant == NULL) {
412392Sswilcox if (debug)
413392Sswilcox (void) printf("inserting claimant\n");
414392Sswilcox claimant = alloc_claimant(ino, lfn);
415392Sswilcox avl_insert(&dup->fr_claimants, (void *)claimant, where);
416392Sswilcox statemap[ino] |= INCLEAR;
417*6106Sowenr /*
418*6106Sowenr * If the inode is to be cleared and has zero links then remove
419*6106Sowenr * the zero link bit as it will be cleared anyway. If INZLINK
420*6106Sowenr * is being removed and it's a directory inode then add the
421*6106Sowenr * inode to the orphan directory list.
422*6106Sowenr */
423*6106Sowenr if (statemap[ino] & INZLINK) {
424*6106Sowenr statemap[ino] &= ~INZLINK;
425*6106Sowenr if (statemap[ino] & DSTATE) {
426*6106Sowenr add_orphan_dir(ino);
427*6106Sowenr }
428*6106Sowenr }
429392Sswilcox added = 1;
430392Sswilcox }
431392Sswilcox
432392Sswilcox return (added);
433392Sswilcox }
434392Sswilcox
435392Sswilcox /*
436392Sswilcox * If the given claimant is on DUP's list, remove it. It is not
437392Sswilcox * an error for the claimant to not be on the list.
438392Sswilcox */
439392Sswilcox static int
decrement_claimant(fragment_t * dup,fsck_ino_t ino,daddr32_t lfn)440392Sswilcox decrement_claimant(fragment_t *dup, fsck_ino_t ino, daddr32_t lfn)
441392Sswilcox {
442392Sswilcox avl_index_t where;
443392Sswilcox claimant_t *claimant;
444392Sswilcox claimant_t key;
445392Sswilcox int busy = 0;
446392Sswilcox
447392Sswilcox key.cl_inode = ino;
448392Sswilcox key.cl_lfn = lfn;
449392Sswilcox claimant = avl_find(&dup->fr_claimants, &key, &where);
450392Sswilcox if (claimant != NULL) {
451392Sswilcox avl_remove(&dup->fr_claimants, claimant);
452392Sswilcox if (avl_numnodes(&dup->fr_claimants) == 0) {
453392Sswilcox avl_destroy(&dup->fr_claimants);
454392Sswilcox avl_remove(&dup_frags, (void *)dup);
455392Sswilcox free((void *)dup);
456392Sswilcox } else {
457392Sswilcox busy = 1;
458392Sswilcox }
459392Sswilcox }
460392Sswilcox
461392Sswilcox return (busy);
462392Sswilcox }
463392Sswilcox
464392Sswilcox static claimant_t *
alloc_claimant(fsck_ino_t inode,daddr32_t lfn)465392Sswilcox alloc_claimant(fsck_ino_t inode, daddr32_t lfn)
466392Sswilcox {
467392Sswilcox claimant_t *new = (claimant_t *)malloc(sizeof (claimant_t));
468392Sswilcox
469392Sswilcox if (new == NULL)
470392Sswilcox errexit("Out of memory in alloc_claimant()\n");
471392Sswilcox
472392Sswilcox new->cl_inode = inode;
473392Sswilcox new->cl_lfn = lfn;
474392Sswilcox
475392Sswilcox return (new);
476392Sswilcox }
477392Sswilcox
478392Sswilcox static fragment_t *
alloc_dup(daddr32_t pfn)479392Sswilcox alloc_dup(daddr32_t pfn)
480392Sswilcox {
481392Sswilcox fragment_t *new = (fragment_t *)malloc(sizeof (fragment_t));
482392Sswilcox
483392Sswilcox if (new == NULL)
484392Sswilcox errexit("Out of memory in alloc_dup()\n");
485392Sswilcox
486392Sswilcox new->fr_pfn = pfn;
487392Sswilcox avl_create(&new->fr_claimants, claimant_cmp, sizeof (fragment_t),
488392Sswilcox OFFSETOF(claimant_t, cl_avl));
489392Sswilcox
490392Sswilcox return (new);
491392Sswilcox }
492392Sswilcox
493392Sswilcox /*
494392Sswilcox * Compare two fragment_t instances for avl_find(). It requires a
495392Sswilcox * return value of -1/0/1, so we can't just hand back left - right.
496392Sswilcox */
497392Sswilcox static int
fragment_cmp(const void * vlp,const void * vrp)498392Sswilcox fragment_cmp(const void *vlp, const void *vrp)
499392Sswilcox {
500392Sswilcox const fragment_t *lp = (const fragment_t *)vlp;
501392Sswilcox const fragment_t *rp = (const fragment_t *)vrp;
502392Sswilcox int cmp = lp->fr_pfn - rp->fr_pfn;
503392Sswilcox
504392Sswilcox if (cmp < 0)
505392Sswilcox cmp = -1;
506392Sswilcox else if (cmp > 0)
507392Sswilcox cmp = 1;
508392Sswilcox
509392Sswilcox return (cmp);
510392Sswilcox }
511392Sswilcox
512392Sswilcox /*
513392Sswilcox * Compare two claimant_t instances for avl_find(). It requires a
514392Sswilcox * return value of -1/0/1, so we can't just hand back left - right.
515392Sswilcox */
516392Sswilcox static int
claimant_cmp(const void * vlp,const void * vrp)517392Sswilcox claimant_cmp(const void *vlp, const void *vrp)
518392Sswilcox {
519392Sswilcox const claimant_t *lp = (const claimant_t *)vlp;
520392Sswilcox const claimant_t *rp = (const claimant_t *)vrp;
521392Sswilcox int cmp;
522392Sswilcox
523392Sswilcox cmp = lp->cl_inode - rp->cl_inode;
524392Sswilcox if (cmp == 0) {
525392Sswilcox /*
526392Sswilcox * lfn < 0 is a wildcard lfn match.
527392Sswilcox */
528392Sswilcox if ((lp->cl_lfn >= 0) && (rp->cl_lfn >= 0))
529392Sswilcox cmp = lp->cl_lfn - rp->cl_lfn;
530392Sswilcox }
531392Sswilcox
532392Sswilcox if (cmp < 0)
533392Sswilcox cmp = -1;
534392Sswilcox else if (cmp > 0)
535392Sswilcox cmp = 1;
536392Sswilcox
537392Sswilcox return (cmp);
538392Sswilcox }
539392Sswilcox
540392Sswilcox static int
by_ino_cmp(const void * vlp,const void * vrp)541392Sswilcox by_ino_cmp(const void *vlp, const void *vrp)
542392Sswilcox {
543392Sswilcox const inode_dup_t *lp = (const inode_dup_t *)vlp;
544392Sswilcox const inode_dup_t *rp = (const inode_dup_t *)vrp;
545392Sswilcox int cmp;
546392Sswilcox
547392Sswilcox cmp = lp->id_ino - rp->id_ino;
548392Sswilcox
549392Sswilcox if (cmp < 0)
550392Sswilcox cmp = -1;
551392Sswilcox else if (cmp > 0)
552392Sswilcox cmp = 1;
553392Sswilcox
554392Sswilcox return (cmp);
555392Sswilcox }
556392Sswilcox
557392Sswilcox static int
by_lfn_cmp(const void * vlp,const void * vrp)558392Sswilcox by_lfn_cmp(const void *vlp, const void *vrp)
559392Sswilcox {
560392Sswilcox const reference_t *lp = (const reference_t *)vlp;
561392Sswilcox const reference_t *rp = (const reference_t *)vrp;
562392Sswilcox int cmp;
563392Sswilcox
564392Sswilcox cmp = lp->ref_lfn - rp->ref_lfn;
565392Sswilcox
566392Sswilcox if (cmp < 0)
567392Sswilcox cmp = -1;
568392Sswilcox else if (cmp > 0)
569392Sswilcox cmp = 1;
570392Sswilcox
571392Sswilcox return (cmp);
572392Sswilcox }
573392Sswilcox
574392Sswilcox static inode_dup_t *
new_inode_dup(fsck_ino_t inode)575392Sswilcox new_inode_dup(fsck_ino_t inode)
576392Sswilcox {
577392Sswilcox inode_dup_t *new;
578392Sswilcox
579392Sswilcox new = (inode_dup_t *)malloc(sizeof (inode_dup_t));
580392Sswilcox if (new == NULL)
581392Sswilcox errexit("Out of memory in new_inode_dup\n");
582392Sswilcox new->id_ino = inode;
583392Sswilcox avl_create(&new->id_fragments, by_lfn_cmp, sizeof (reference_t),
584392Sswilcox OFFSETOF(reference_t, ref_avl));
585392Sswilcox
586392Sswilcox return (new);
587392Sswilcox }
588