5 * Brad Boyer (flar@allandria.com)
6 * (C) 2003 Ardis Technologies <roman@ardistech.com>
8 * Handle individual btree records
13 static struct hfs_bnode
*hfs_bnode_split(struct hfs_find_data
*fd
);
14 static int hfs_brec_update_parent(struct hfs_find_data
*fd
);
15 static int hfs_btree_inc_height(struct hfs_btree
*tree
);
17 /* Get the length and offset of the given record in the given node */
18 u16
hfs_brec_lenoff(struct hfs_bnode
*node
, u16 rec
, u16
*off
)
23 dataoff
= node
->tree
->node_size
- (rec
+ 2) * 2;
24 hfs_bnode_read(node
, retval
, dataoff
, 4);
25 *off
= be16_to_cpu(retval
[1]);
26 return be16_to_cpu(retval
[0]) - *off
;
29 /* Get the length of the key from a keyed record */
30 u16
hfs_brec_keylen(struct hfs_bnode
*node
, u16 rec
)
34 if (node
->type
!= HFS_NODE_INDEX
&& node
->type
!= HFS_NODE_LEAF
)
37 if ((node
->type
== HFS_NODE_INDEX
) &&
38 !(node
->tree
->attributes
& HFS_TREE_VARIDXKEYS
)) {
39 if (node
->tree
->attributes
& HFS_TREE_BIGKEYS
)
40 retval
= node
->tree
->max_key_len
+ 2;
42 retval
= node
->tree
->max_key_len
+ 1;
44 recoff
= hfs_bnode_read_u16(node
, node
->tree
->node_size
- (rec
+ 1) * 2);
47 if (node
->tree
->attributes
& HFS_TREE_BIGKEYS
) {
48 retval
= hfs_bnode_read_u16(node
, recoff
) + 2;
49 if (retval
> node
->tree
->max_key_len
+ 2) {
50 printk(KERN_ERR
"hfs: keylen %d too large\n",
52 retval
= HFS_BAD_KEYLEN
;
55 retval
= (hfs_bnode_read_u8(node
, recoff
) | 1) + 1;
56 if (retval
> node
->tree
->max_key_len
+ 1) {
57 printk(KERN_ERR
"hfs: keylen %d too large\n",
59 retval
= HFS_BAD_KEYLEN
;
66 int hfs_brec_insert(struct hfs_find_data
*fd
, void *entry
, int entry_len
)
68 struct hfs_btree
*tree
;
69 struct hfs_bnode
*node
, *new_node
;
70 int size
, key_len
, rec
;
71 int data_off
, end_off
;
72 int idx_rec_off
, data_rec_off
, end_rec_off
;
78 hfs_btree_inc_height(tree
);
79 fd
->bnode
= hfs_bnode_find(tree
, tree
->leaf_head
);
80 if (IS_ERR(fd
->bnode
))
81 return PTR_ERR(fd
->bnode
);
85 key_len
= (fd
->search_key
->key_len
| 1) + 1;
87 /* new record idx and complete record size */
89 size
= key_len
+ entry_len
;
94 end_rec_off
= tree
->node_size
- (node
->num_recs
+ 1) * 2;
95 end_off
= hfs_bnode_read_u16(node
, end_rec_off
);
97 dprint(DBG_BNODE_MOD
, "insert_rec: %d, %d, %d, %d\n", rec
, size
, end_off
, end_rec_off
);
98 if (size
> end_rec_off
- end_off
) {
100 panic("not enough room!\n");
101 new_node
= hfs_bnode_split(fd
);
102 if (IS_ERR(new_node
))
103 return PTR_ERR(new_node
);
106 if (node
->type
== HFS_NODE_LEAF
) {
108 mark_inode_dirty(tree
->inode
);
111 /* write new last offset */
112 hfs_bnode_write_u16(node
, offsetof(struct hfs_bnode_desc
, num_recs
), node
->num_recs
);
113 hfs_bnode_write_u16(node
, end_rec_off
, end_off
+ size
);
115 data_rec_off
= end_rec_off
+ 2;
116 idx_rec_off
= tree
->node_size
- (rec
+ 1) * 2;
117 if (idx_rec_off
== data_rec_off
)
119 /* move all following entries */
121 data_off
= hfs_bnode_read_u16(node
, data_rec_off
+ 2);
122 hfs_bnode_write_u16(node
, data_rec_off
, data_off
+ size
);
124 } while (data_rec_off
< idx_rec_off
);
127 hfs_bnode_move(node
, data_off
+ size
, data_off
,
131 hfs_bnode_write(node
, fd
->search_key
, data_off
, key_len
);
132 hfs_bnode_write(node
, entry
, data_off
+ key_len
, entry_len
);
133 hfs_bnode_dump(node
);
136 /* update parent key if we inserted a key
137 * at the start of the first node
139 if (!rec
&& new_node
!= node
)
140 hfs_brec_update_parent(fd
);
142 hfs_bnode_put(fd
->bnode
);
143 if (!new_node
->parent
) {
144 hfs_btree_inc_height(tree
);
145 new_node
->parent
= tree
->root
;
147 fd
->bnode
= hfs_bnode_find(tree
, new_node
->parent
);
149 /* create index data entry */
150 cnid
= cpu_to_be32(new_node
->this);
152 entry_len
= sizeof(cnid
);
155 hfs_bnode_read_key(new_node
, fd
->search_key
, 14);
156 __hfs_brec_find(fd
->bnode
, fd
);
158 hfs_bnode_put(new_node
);
161 if (tree
->attributes
& HFS_TREE_VARIDXKEYS
)
162 key_len
= fd
->search_key
->key_len
+ 1;
164 fd
->search_key
->key_len
= tree
->max_key_len
;
165 key_len
= tree
->max_key_len
+ 1;
171 hfs_brec_update_parent(fd
);
176 int hfs_brec_remove(struct hfs_find_data
*fd
)
178 struct hfs_btree
*tree
;
179 struct hfs_bnode
*node
, *parent
;
180 int end_off
, rec_off
, data_off
, size
;
185 rec_off
= tree
->node_size
- (fd
->record
+ 2) * 2;
186 end_off
= tree
->node_size
- (node
->num_recs
+ 1) * 2;
188 if (node
->type
== HFS_NODE_LEAF
) {
190 mark_inode_dirty(tree
->inode
);
192 hfs_bnode_dump(node
);
193 dprint(DBG_BNODE_MOD
, "remove_rec: %d, %d\n", fd
->record
, fd
->keylength
+ fd
->entrylength
);
194 if (!--node
->num_recs
) {
195 hfs_bnode_unlink(node
);
198 parent
= hfs_bnode_find(tree
, node
->parent
);
200 return PTR_ERR(parent
);
202 node
= fd
->bnode
= parent
;
204 __hfs_brec_find(node
, fd
);
207 hfs_bnode_write_u16(node
, offsetof(struct hfs_bnode_desc
, num_recs
), node
->num_recs
);
209 if (rec_off
== end_off
)
211 size
= fd
->keylength
+ fd
->entrylength
;
214 data_off
= hfs_bnode_read_u16(node
, rec_off
);
215 hfs_bnode_write_u16(node
, rec_off
+ 2, data_off
- size
);
217 } while (rec_off
>= end_off
);
220 hfs_bnode_move(node
, fd
->keyoffset
, fd
->keyoffset
+ size
,
221 data_off
- fd
->keyoffset
- size
);
223 hfs_bnode_dump(node
);
225 hfs_brec_update_parent(fd
);
229 static struct hfs_bnode
*hfs_bnode_split(struct hfs_find_data
*fd
)
231 struct hfs_btree
*tree
;
232 struct hfs_bnode
*node
, *new_node
;
233 struct hfs_bnode_desc node_desc
;
234 int num_recs
, new_rec_off
, new_off
, old_rec_off
;
235 int data_start
, data_end
, size
;
239 new_node
= hfs_bmap_alloc(tree
);
240 if (IS_ERR(new_node
))
243 dprint(DBG_BNODE_MOD
, "split_nodes: %d - %d - %d\n",
244 node
->this, new_node
->this, node
->next
);
245 new_node
->next
= node
->next
;
246 new_node
->prev
= node
->this;
247 new_node
->parent
= node
->parent
;
248 new_node
->type
= node
->type
;
249 new_node
->height
= node
->height
;
251 size
= tree
->node_size
/ 2 - node
->num_recs
* 2 - 14;
252 old_rec_off
= tree
->node_size
- 4;
255 data_start
= hfs_bnode_read_u16(node
, old_rec_off
);
256 if (data_start
> size
)
259 if (++num_recs
< node
->num_recs
)
263 hfs_bnode_put(new_node
);
264 return ERR_PTR(-ENOSPC
);
267 if (fd
->record
+ 1 < num_recs
) {
268 /* new record is in the lower half,
269 * so leave some more space there
273 data_start
= hfs_bnode_read_u16(node
, old_rec_off
);
276 hfs_bnode_get(new_node
);
277 fd
->bnode
= new_node
;
278 fd
->record
-= num_recs
;
279 fd
->keyoffset
-= data_start
- 14;
280 fd
->entryoffset
-= data_start
- 14;
282 new_node
->num_recs
= node
->num_recs
- num_recs
;
283 node
->num_recs
= num_recs
;
285 new_rec_off
= tree
->node_size
- 2;
287 size
= data_start
- new_off
;
288 num_recs
= new_node
->num_recs
;
289 data_end
= data_start
;
291 hfs_bnode_write_u16(new_node
, new_rec_off
, new_off
);
294 data_end
= hfs_bnode_read_u16(node
, old_rec_off
);
295 new_off
= data_end
- size
;
298 hfs_bnode_write_u16(new_node
, new_rec_off
, new_off
);
299 hfs_bnode_copy(new_node
, 14, node
, data_start
, data_end
- data_start
);
301 /* update new bnode header */
302 node_desc
.next
= cpu_to_be32(new_node
->next
);
303 node_desc
.prev
= cpu_to_be32(new_node
->prev
);
304 node_desc
.type
= new_node
->type
;
305 node_desc
.height
= new_node
->height
;
306 node_desc
.num_recs
= cpu_to_be16(new_node
->num_recs
);
307 node_desc
.reserved
= 0;
308 hfs_bnode_write(new_node
, &node_desc
, 0, sizeof(node_desc
));
310 /* update previous bnode header */
311 node
->next
= new_node
->this;
312 hfs_bnode_read(node
, &node_desc
, 0, sizeof(node_desc
));
313 node_desc
.next
= cpu_to_be32(node
->next
);
314 node_desc
.num_recs
= cpu_to_be16(node
->num_recs
);
315 hfs_bnode_write(node
, &node_desc
, 0, sizeof(node_desc
));
317 /* update next bnode header */
318 if (new_node
->next
) {
319 struct hfs_bnode
*next_node
= hfs_bnode_find(tree
, new_node
->next
);
320 next_node
->prev
= new_node
->this;
321 hfs_bnode_read(next_node
, &node_desc
, 0, sizeof(node_desc
));
322 node_desc
.prev
= cpu_to_be32(next_node
->prev
);
323 hfs_bnode_write(next_node
, &node_desc
, 0, sizeof(node_desc
));
324 hfs_bnode_put(next_node
);
325 } else if (node
->this == tree
->leaf_tail
) {
326 /* if there is no next node, this might be the new tail */
327 tree
->leaf_tail
= new_node
->this;
328 mark_inode_dirty(tree
->inode
);
331 hfs_bnode_dump(node
);
332 hfs_bnode_dump(new_node
);
338 static int hfs_brec_update_parent(struct hfs_find_data
*fd
)
340 struct hfs_btree
*tree
;
341 struct hfs_bnode
*node
, *new_node
, *parent
;
343 int rec
, rec_off
, end_rec_off
;
344 int start_off
, end_off
;
353 parent
= hfs_bnode_find(tree
, node
->parent
);
355 return PTR_ERR(parent
);
356 __hfs_brec_find(parent
, fd
);
357 hfs_bnode_dump(parent
);
360 /* size difference between old and new key */
361 if (tree
->attributes
& HFS_TREE_VARIDXKEYS
)
362 newkeylen
= (hfs_bnode_read_u8(node
, 14) | 1) + 1;
364 fd
->keylength
= newkeylen
= tree
->max_key_len
+ 1;
365 dprint(DBG_BNODE_MOD
, "update_rec: %d, %d, %d\n", rec
, fd
->keylength
, newkeylen
);
367 rec_off
= tree
->node_size
- (rec
+ 2) * 2;
368 end_rec_off
= tree
->node_size
- (parent
->num_recs
+ 1) * 2;
369 diff
= newkeylen
- fd
->keylength
;
373 end_off
= hfs_bnode_read_u16(parent
, end_rec_off
);
374 if (end_rec_off
- end_off
< diff
) {
376 printk(KERN_DEBUG
"hfs: splitting index node...\n");
378 new_node
= hfs_bnode_split(fd
);
379 if (IS_ERR(new_node
))
380 return PTR_ERR(new_node
);
383 rec_off
= tree
->node_size
- (rec
+ 2) * 2;
384 end_rec_off
= tree
->node_size
- (parent
->num_recs
+ 1) * 2;
388 end_off
= start_off
= hfs_bnode_read_u16(parent
, rec_off
);
389 hfs_bnode_write_u16(parent
, rec_off
, start_off
+ diff
);
390 start_off
-= 4; /* move previous cnid too */
392 while (rec_off
> end_rec_off
) {
394 end_off
= hfs_bnode_read_u16(parent
, rec_off
);
395 hfs_bnode_write_u16(parent
, rec_off
, end_off
+ diff
);
397 hfs_bnode_move(parent
, start_off
+ diff
, start_off
,
398 end_off
- start_off
);
400 hfs_bnode_copy(parent
, fd
->keyoffset
, node
, 14, newkeylen
);
401 if (!(tree
->attributes
& HFS_TREE_VARIDXKEYS
))
402 hfs_bnode_write_u8(parent
, fd
->keyoffset
, newkeylen
- 1);
403 hfs_bnode_dump(parent
);
411 fd
->bnode
= hfs_bnode_find(tree
, new_node
->parent
);
412 /* create index key and entry */
413 hfs_bnode_read_key(new_node
, fd
->search_key
, 14);
414 cnid
= cpu_to_be32(new_node
->this);
416 __hfs_brec_find(fd
->bnode
, fd
);
417 hfs_brec_insert(fd
, &cnid
, sizeof(cnid
));
418 hfs_bnode_put(fd
->bnode
);
419 hfs_bnode_put(new_node
);
422 if (new_node
== node
)
424 /* restore search_key */
425 hfs_bnode_read_key(node
, fd
->search_key
, 14);
429 if (!rec
&& node
->parent
)
436 static int hfs_btree_inc_height(struct hfs_btree
*tree
)
438 struct hfs_bnode
*node
, *new_node
;
439 struct hfs_bnode_desc node_desc
;
445 node
= hfs_bnode_find(tree
, tree
->root
);
447 return PTR_ERR(node
);
449 new_node
= hfs_bmap_alloc(tree
);
450 if (IS_ERR(new_node
)) {
452 return PTR_ERR(new_node
);
455 tree
->root
= new_node
->this;
457 tree
->leaf_head
= tree
->leaf_tail
= new_node
->this;
458 new_node
->type
= HFS_NODE_LEAF
;
459 new_node
->num_recs
= 0;
461 new_node
->type
= HFS_NODE_INDEX
;
462 new_node
->num_recs
= 1;
464 new_node
->parent
= 0;
467 new_node
->height
= ++tree
->depth
;
469 node_desc
.next
= cpu_to_be32(new_node
->next
);
470 node_desc
.prev
= cpu_to_be32(new_node
->prev
);
471 node_desc
.type
= new_node
->type
;
472 node_desc
.height
= new_node
->height
;
473 node_desc
.num_recs
= cpu_to_be16(new_node
->num_recs
);
474 node_desc
.reserved
= 0;
475 hfs_bnode_write(new_node
, &node_desc
, 0, sizeof(node_desc
));
477 rec
= tree
->node_size
- 2;
478 hfs_bnode_write_u16(new_node
, rec
, 14);
481 /* insert old root idx into new root */
482 node
->parent
= tree
->root
;
483 if (node
->type
== HFS_NODE_LEAF
||
484 tree
->attributes
& HFS_TREE_VARIDXKEYS
)
485 key_size
= hfs_bnode_read_u8(node
, 14) + 1;
487 key_size
= tree
->max_key_len
+ 1;
488 hfs_bnode_copy(new_node
, 14, node
, 14, key_size
);
490 if (!(tree
->attributes
& HFS_TREE_VARIDXKEYS
)) {
491 key_size
= tree
->max_key_len
+ 1;
492 hfs_bnode_write_u8(new_node
, 14, tree
->max_key_len
);
494 key_size
= (key_size
+ 1) & -2;
495 cnid
= cpu_to_be32(node
->this);
496 hfs_bnode_write(new_node
, &cnid
, 14 + key_size
, 4);
499 hfs_bnode_write_u16(new_node
, rec
, 14 + key_size
+ 4);
503 hfs_bnode_put(new_node
);
504 mark_inode_dirty(tree
->inode
);