2 * This file is part of UBIFS.
4 * Copyright (C) 2006-2008 Nokia Corporation.
6 * This program is free software; you can redistribute it and/or modify it
7 * under the terms of the GNU General Public License version 2 as published by
8 * the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful, but WITHOUT
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
15 * You should have received a copy of the GNU General Public License along with
16 * this program; if not, write to the Free Software Foundation, Inc., 51
17 * Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
19 * Authors: Artem Bityutskiy (Битюцкий Артём)
23 /* This file implements reading and writing the master node */
28 * scan_for_master - search the valid master node.
29 * @c: UBIFS file-system description object
31 * This function scans the master node LEBs and search for the latest master
32 * node. Returns zero in case of success, %-EUCLEAN if there master area is
33 * corrupted and requires recovery, and a negative error code in case of
36 static int scan_for_master(struct ubifs_info
*c
)
38 struct ubifs_scan_leb
*sleb
;
39 struct ubifs_scan_node
*snod
;
40 int lnum
, offs
= 0, nodes_cnt
;
42 lnum
= UBIFS_MST_LNUM
;
44 sleb
= ubifs_scan(c
, lnum
, 0, c
->sbuf
, 1);
47 nodes_cnt
= sleb
->nodes_cnt
;
49 snod
= list_entry(sleb
->nodes
.prev
, struct ubifs_scan_node
,
51 if (snod
->type
!= UBIFS_MST_NODE
)
53 memcpy(c
->mst_node
, snod
->node
, snod
->len
);
56 ubifs_scan_destroy(sleb
);
60 sleb
= ubifs_scan(c
, lnum
, 0, c
->sbuf
, 1);
63 if (sleb
->nodes_cnt
!= nodes_cnt
)
67 snod
= list_entry(sleb
->nodes
.prev
, struct ubifs_scan_node
, list
);
68 if (snod
->type
!= UBIFS_MST_NODE
)
70 if (snod
->offs
!= offs
)
72 if (memcmp((void *)c
->mst_node
+ UBIFS_CH_SZ
,
73 (void *)snod
->node
+ UBIFS_CH_SZ
,
74 UBIFS_MST_NODE_SZ
- UBIFS_CH_SZ
))
77 ubifs_scan_destroy(sleb
);
81 ubifs_scan_destroy(sleb
);
85 ubifs_err(c
, "unexpected node type %d master LEB %d:%d",
86 snod
->type
, lnum
, snod
->offs
);
87 ubifs_scan_destroy(sleb
);
92 * validate_master - validate master node.
93 * @c: UBIFS file-system description object
95 * This function validates data which was read from master node. Returns zero
96 * if the data is all right and %-EINVAL if not.
98 static int validate_master(const struct ubifs_info
*c
)
103 if (c
->max_sqnum
>= SQNUM_WATERMARK
) {
108 if (c
->cmt_no
>= c
->max_sqnum
) {
113 if (c
->highest_inum
>= INUM_WATERMARK
) {
118 if (c
->lhead_lnum
< UBIFS_LOG_LNUM
||
119 c
->lhead_lnum
>= UBIFS_LOG_LNUM
+ c
->log_lebs
||
120 c
->lhead_offs
< 0 || c
->lhead_offs
>= c
->leb_size
||
121 c
->lhead_offs
& (c
->min_io_size
- 1)) {
126 if (c
->zroot
.lnum
>= c
->leb_cnt
|| c
->zroot
.lnum
< c
->main_first
||
127 c
->zroot
.offs
>= c
->leb_size
|| c
->zroot
.offs
& 7) {
132 if (c
->zroot
.len
< c
->ranges
[UBIFS_IDX_NODE
].min_len
||
133 c
->zroot
.len
> c
->ranges
[UBIFS_IDX_NODE
].max_len
) {
138 if (c
->gc_lnum
>= c
->leb_cnt
|| c
->gc_lnum
< c
->main_first
) {
143 if (c
->ihead_lnum
>= c
->leb_cnt
|| c
->ihead_lnum
< c
->main_first
||
144 c
->ihead_offs
% c
->min_io_size
|| c
->ihead_offs
< 0 ||
145 c
->ihead_offs
> c
->leb_size
|| c
->ihead_offs
& 7) {
150 main_sz
= (long long)c
->main_lebs
* c
->leb_size
;
151 if (c
->bi
.old_idx_sz
& 7 || c
->bi
.old_idx_sz
>= main_sz
) {
156 if (c
->lpt_lnum
< c
->lpt_first
|| c
->lpt_lnum
> c
->lpt_last
||
157 c
->lpt_offs
< 0 || c
->lpt_offs
+ c
->nnode_sz
> c
->leb_size
) {
162 if (c
->nhead_lnum
< c
->lpt_first
|| c
->nhead_lnum
> c
->lpt_last
||
163 c
->nhead_offs
< 0 || c
->nhead_offs
% c
->min_io_size
||
164 c
->nhead_offs
> c
->leb_size
) {
169 if (c
->ltab_lnum
< c
->lpt_first
|| c
->ltab_lnum
> c
->lpt_last
||
171 c
->ltab_offs
+ c
->ltab_sz
> c
->leb_size
) {
176 if (c
->big_lpt
&& (c
->lsave_lnum
< c
->lpt_first
||
177 c
->lsave_lnum
> c
->lpt_last
|| c
->lsave_offs
< 0 ||
178 c
->lsave_offs
+ c
->lsave_sz
> c
->leb_size
)) {
183 if (c
->lscan_lnum
< c
->main_first
|| c
->lscan_lnum
>= c
->leb_cnt
) {
188 if (c
->lst
.empty_lebs
< 0 || c
->lst
.empty_lebs
> c
->main_lebs
- 2) {
193 if (c
->lst
.idx_lebs
< 0 || c
->lst
.idx_lebs
> c
->main_lebs
- 1) {
198 if (c
->lst
.total_free
< 0 || c
->lst
.total_free
> main_sz
||
199 c
->lst
.total_free
& 7) {
204 if (c
->lst
.total_dirty
< 0 || (c
->lst
.total_dirty
& 7)) {
209 if (c
->lst
.total_used
< 0 || (c
->lst
.total_used
& 7)) {
214 if (c
->lst
.total_free
+ c
->lst
.total_dirty
+
215 c
->lst
.total_used
> main_sz
) {
220 if (c
->lst
.total_dead
+ c
->lst
.total_dark
+
221 c
->lst
.total_used
+ c
->bi
.old_idx_sz
> main_sz
) {
226 if (c
->lst
.total_dead
< 0 ||
227 c
->lst
.total_dead
> c
->lst
.total_free
+ c
->lst
.total_dirty
||
228 c
->lst
.total_dead
& 7) {
233 if (c
->lst
.total_dark
< 0 ||
234 c
->lst
.total_dark
> c
->lst
.total_free
+ c
->lst
.total_dirty
||
235 c
->lst
.total_dark
& 7) {
243 ubifs_err(c
, "bad master node at offset %d error %d", c
->mst_offs
, err
);
244 ubifs_dump_node(c
, c
->mst_node
);
249 * ubifs_read_master - read master node.
250 * @c: UBIFS file-system description object
252 * This function finds and reads the master node during file-system mount. If
253 * the flash is empty, it creates default master node as well. Returns zero in
254 * case of success and a negative error code in case of failure.
256 int ubifs_read_master(struct ubifs_info
*c
)
258 int err
, old_leb_cnt
;
260 c
->mst_node
= kzalloc(c
->mst_node_alsz
, GFP_KERNEL
);
264 err
= scan_for_master(c
);
267 err
= ubifs_recover_master_node(c
);
270 * Note, we do not free 'c->mst_node' here because the
271 * unmount routine will take care of this.
276 /* Make sure that the recovery flag is clear */
277 c
->mst_node
->flags
&= cpu_to_le32(~UBIFS_MST_RCVRY
);
279 c
->max_sqnum
= le64_to_cpu(c
->mst_node
->ch
.sqnum
);
280 c
->highest_inum
= le64_to_cpu(c
->mst_node
->highest_inum
);
281 c
->cmt_no
= le64_to_cpu(c
->mst_node
->cmt_no
);
282 c
->zroot
.lnum
= le32_to_cpu(c
->mst_node
->root_lnum
);
283 c
->zroot
.offs
= le32_to_cpu(c
->mst_node
->root_offs
);
284 c
->zroot
.len
= le32_to_cpu(c
->mst_node
->root_len
);
285 c
->lhead_lnum
= le32_to_cpu(c
->mst_node
->log_lnum
);
286 c
->gc_lnum
= le32_to_cpu(c
->mst_node
->gc_lnum
);
287 c
->ihead_lnum
= le32_to_cpu(c
->mst_node
->ihead_lnum
);
288 c
->ihead_offs
= le32_to_cpu(c
->mst_node
->ihead_offs
);
289 c
->bi
.old_idx_sz
= le64_to_cpu(c
->mst_node
->index_size
);
290 c
->lpt_lnum
= le32_to_cpu(c
->mst_node
->lpt_lnum
);
291 c
->lpt_offs
= le32_to_cpu(c
->mst_node
->lpt_offs
);
292 c
->nhead_lnum
= le32_to_cpu(c
->mst_node
->nhead_lnum
);
293 c
->nhead_offs
= le32_to_cpu(c
->mst_node
->nhead_offs
);
294 c
->ltab_lnum
= le32_to_cpu(c
->mst_node
->ltab_lnum
);
295 c
->ltab_offs
= le32_to_cpu(c
->mst_node
->ltab_offs
);
296 c
->lsave_lnum
= le32_to_cpu(c
->mst_node
->lsave_lnum
);
297 c
->lsave_offs
= le32_to_cpu(c
->mst_node
->lsave_offs
);
298 c
->lscan_lnum
= le32_to_cpu(c
->mst_node
->lscan_lnum
);
299 c
->lst
.empty_lebs
= le32_to_cpu(c
->mst_node
->empty_lebs
);
300 c
->lst
.idx_lebs
= le32_to_cpu(c
->mst_node
->idx_lebs
);
301 old_leb_cnt
= le32_to_cpu(c
->mst_node
->leb_cnt
);
302 c
->lst
.total_free
= le64_to_cpu(c
->mst_node
->total_free
);
303 c
->lst
.total_dirty
= le64_to_cpu(c
->mst_node
->total_dirty
);
304 c
->lst
.total_used
= le64_to_cpu(c
->mst_node
->total_used
);
305 c
->lst
.total_dead
= le64_to_cpu(c
->mst_node
->total_dead
);
306 c
->lst
.total_dark
= le64_to_cpu(c
->mst_node
->total_dark
);
308 c
->calc_idx_sz
= c
->bi
.old_idx_sz
;
310 if (c
->mst_node
->flags
& cpu_to_le32(UBIFS_MST_NO_ORPHS
))
313 if (old_leb_cnt
!= c
->leb_cnt
) {
314 /* The file system has been resized */
315 int growth
= c
->leb_cnt
- old_leb_cnt
;
317 if (c
->leb_cnt
< old_leb_cnt
||
318 c
->leb_cnt
< UBIFS_MIN_LEB_CNT
) {
319 ubifs_err(c
, "bad leb_cnt on master node");
320 ubifs_dump_node(c
, c
->mst_node
);
324 dbg_mnt("Auto resizing (master) from %d LEBs to %d LEBs",
325 old_leb_cnt
, c
->leb_cnt
);
326 c
->lst
.empty_lebs
+= growth
;
327 c
->lst
.total_free
+= growth
* (long long)c
->leb_size
;
328 c
->lst
.total_dark
+= growth
* (long long)c
->dark_wm
;
331 * Reflect changes back onto the master node. N.B. the master
332 * node gets written immediately whenever mounting (or
333 * remounting) in read-write mode, so we do not need to write it
336 c
->mst_node
->leb_cnt
= cpu_to_le32(c
->leb_cnt
);
337 c
->mst_node
->empty_lebs
= cpu_to_le32(c
->lst
.empty_lebs
);
338 c
->mst_node
->total_free
= cpu_to_le64(c
->lst
.total_free
);
339 c
->mst_node
->total_dark
= cpu_to_le64(c
->lst
.total_dark
);
342 err
= validate_master(c
);
346 err
= dbg_old_index_check_init(c
, &c
->zroot
);
352 * ubifs_write_master - write master node.
353 * @c: UBIFS file-system description object
355 * This function writes the master node. Returns zero in case of success and a
356 * negative error code in case of failure. The master node is written twice to
359 int ubifs_write_master(struct ubifs_info
*c
)
361 int err
, lnum
, offs
, len
;
363 ubifs_assert(c
, !c
->ro_media
&& !c
->ro_mount
);
367 lnum
= UBIFS_MST_LNUM
;
368 offs
= c
->mst_offs
+ c
->mst_node_alsz
;
369 len
= UBIFS_MST_NODE_SZ
;
371 if (offs
+ UBIFS_MST_NODE_SZ
> c
->leb_size
) {
372 err
= ubifs_leb_unmap(c
, lnum
);
379 c
->mst_node
->highest_inum
= cpu_to_le64(c
->highest_inum
);
381 err
= ubifs_write_node(c
, c
->mst_node
, len
, lnum
, offs
);
388 err
= ubifs_leb_unmap(c
, lnum
);
392 err
= ubifs_write_node(c
, c
->mst_node
, len
, lnum
, offs
);