1*b1c18296Sandvar /* $NetBSD: chfs_scan.c,v 1.10 2021/07/16 21:18:41 andvar Exp $ */
2288addd0Sahoka
3288addd0Sahoka /*-
4288addd0Sahoka * Copyright (c) 2010 Department of Software Engineering,
5288addd0Sahoka * University of Szeged, Hungary
6288addd0Sahoka * Copyright (c) 2010 David Tengeri <dtengeri@inf.u-szeged.hu>
7288addd0Sahoka * All rights reserved.
8288addd0Sahoka *
9288addd0Sahoka * This code is derived from software contributed to The NetBSD Foundation
10288addd0Sahoka * by the Department of Software Engineering, University of Szeged, Hungary
11288addd0Sahoka *
12288addd0Sahoka * Redistribution and use in source and binary forms, with or without
13288addd0Sahoka * modification, are permitted provided that the following conditions
14288addd0Sahoka * are met:
15288addd0Sahoka * 1. Redistributions of source code must retain the above copyright
16288addd0Sahoka * notice, this list of conditions and the following disclaimer.
17288addd0Sahoka * 2. Redistributions in binary form must reproduce the above copyright
18288addd0Sahoka * notice, this list of conditions and the following disclaimer in the
19288addd0Sahoka * documentation and/or other materials provided with the distribution.
20288addd0Sahoka *
21288addd0Sahoka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
22288addd0Sahoka * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
23288addd0Sahoka * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
24288addd0Sahoka * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
25288addd0Sahoka * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
26288addd0Sahoka * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
27288addd0Sahoka * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
28288addd0Sahoka * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
29288addd0Sahoka * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
30288addd0Sahoka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31288addd0Sahoka * SUCH DAMAGE.
32288addd0Sahoka */
33288addd0Sahoka
34288addd0Sahoka #include "chfs.h"
35288addd0Sahoka
36bca84b9eSttoth /*
37288addd0Sahoka * chfs_scan_make_vnode_cache - makes a new vnode cache during scan
38288addd0Sahoka * This function returns a vnode cache belonging to @vno.
39288addd0Sahoka */
40288addd0Sahoka struct chfs_vnode_cache *
chfs_scan_make_vnode_cache(struct chfs_mount * chmp,ino_t vno)41288addd0Sahoka chfs_scan_make_vnode_cache(struct chfs_mount *chmp, ino_t vno)
42288addd0Sahoka {
43288addd0Sahoka struct chfs_vnode_cache *vc;
44288addd0Sahoka
45288addd0Sahoka KASSERT(mutex_owned(&chmp->chm_lock_vnocache));
46288addd0Sahoka
47bca84b9eSttoth /* vnode cache already exists */
48288addd0Sahoka vc = chfs_vnode_cache_get(chmp, vno);
49288addd0Sahoka if (vc) {
50288addd0Sahoka return vc;
51288addd0Sahoka }
52288addd0Sahoka
53bca84b9eSttoth /* update max vnode number if needed */
54288addd0Sahoka if (vno > chmp->chm_max_vno) {
55288addd0Sahoka chmp->chm_max_vno = vno;
56288addd0Sahoka }
57288addd0Sahoka
58bca84b9eSttoth /* create new vnode cache */
59288addd0Sahoka vc = chfs_vnode_cache_alloc(vno);
60288addd0Sahoka
61288addd0Sahoka chfs_vnode_cache_add(chmp, vc);
62288addd0Sahoka
63288addd0Sahoka if (vno == CHFS_ROOTINO) {
64288addd0Sahoka vc->nlink = 2;
65288addd0Sahoka vc->pvno = CHFS_ROOTINO;
663fae61eeSttoth vc->state = VNO_STATE_CHECKEDABSENT;
67288addd0Sahoka }
68288addd0Sahoka
69288addd0Sahoka return vc;
70288addd0Sahoka }
71288addd0Sahoka
72bca84b9eSttoth /*
73288addd0Sahoka * chfs_scan_check_node_hdr - checks node magic and crc
74288addd0Sahoka * Returns 0 if everything is OK, error code otherwise.
75288addd0Sahoka */
76288addd0Sahoka int
chfs_scan_check_node_hdr(struct chfs_flash_node_hdr * nhdr)77288addd0Sahoka chfs_scan_check_node_hdr(struct chfs_flash_node_hdr *nhdr)
78288addd0Sahoka {
79288addd0Sahoka uint16_t magic;
80288addd0Sahoka uint32_t crc, hdr_crc;
81288addd0Sahoka
82288addd0Sahoka magic = le16toh(nhdr->magic);
83288addd0Sahoka
84288addd0Sahoka if (magic != CHFS_FS_MAGIC_BITMASK) {
85288addd0Sahoka dbg("bad magic\n");
86288addd0Sahoka return CHFS_NODE_BADMAGIC;
87288addd0Sahoka }
88288addd0Sahoka
89288addd0Sahoka hdr_crc = le32toh(nhdr->hdr_crc);
90288addd0Sahoka crc = crc32(0, (uint8_t *)nhdr, CHFS_NODE_HDR_SIZE - 4);
91288addd0Sahoka
92288addd0Sahoka if (crc != hdr_crc) {
93288addd0Sahoka dbg("bad crc\n");
94288addd0Sahoka return CHFS_NODE_BADCRC;
95288addd0Sahoka }
96288addd0Sahoka
97288addd0Sahoka return CHFS_NODE_OK;
98288addd0Sahoka }
99288addd0Sahoka
100bca84b9eSttoth /* chfs_scan_check_vnode - check vnode crc and add it to vnode cache */
101288addd0Sahoka int
chfs_scan_check_vnode(struct chfs_mount * chmp,struct chfs_eraseblock * cheb,void * buf,off_t ofs)102288addd0Sahoka chfs_scan_check_vnode(struct chfs_mount *chmp,
103288addd0Sahoka struct chfs_eraseblock *cheb, void *buf, off_t ofs)
104288addd0Sahoka {
105288addd0Sahoka KASSERT(mutex_owned(&chmp->chm_lock_mountfields));
106288addd0Sahoka struct chfs_vnode_cache *vc;
107288addd0Sahoka struct chfs_flash_vnode *vnode = buf;
108288addd0Sahoka struct chfs_node_ref *nref;
109288addd0Sahoka int err;
110288addd0Sahoka uint32_t crc;
111288addd0Sahoka ino_t vno;
112288addd0Sahoka
113288addd0Sahoka crc = crc32(0, (uint8_t *)vnode,
114288addd0Sahoka sizeof(struct chfs_flash_vnode) - 4);
115288addd0Sahoka
116bca84b9eSttoth /* check node crc */
117288addd0Sahoka if (crc != le32toh(vnode->node_crc)) {
118288addd0Sahoka err = chfs_update_eb_dirty(chmp,
119288addd0Sahoka cheb, le32toh(vnode->length));
120288addd0Sahoka if (err) {
121288addd0Sahoka return err;
122288addd0Sahoka }
123288addd0Sahoka
124288addd0Sahoka return CHFS_NODE_BADCRC;
125288addd0Sahoka }
126288addd0Sahoka
127288addd0Sahoka vno = le64toh(vnode->vno);
128288addd0Sahoka
129bca84b9eSttoth /* find the corresponding vnode cache */
130288addd0Sahoka mutex_enter(&chmp->chm_lock_vnocache);
131288addd0Sahoka vc = chfs_vnode_cache_get(chmp, vno);
132288addd0Sahoka if (!vc) {
133288addd0Sahoka vc = chfs_scan_make_vnode_cache(chmp, vno);
134288addd0Sahoka if (!vc) {
135288addd0Sahoka mutex_exit(&chmp->chm_lock_vnocache);
136288addd0Sahoka return ENOMEM;
137288addd0Sahoka }
138288addd0Sahoka }
139288addd0Sahoka
140288addd0Sahoka nref = chfs_alloc_node_ref(cheb);
141288addd0Sahoka
142288addd0Sahoka nref->nref_offset = ofs;
143288addd0Sahoka
144288addd0Sahoka KASSERT(nref->nref_lnr == cheb->lnr);
145288addd0Sahoka
146bca84b9eSttoth /* check version of vnode */
147288addd0Sahoka if ((struct chfs_vnode_cache *)vc->v != vc) {
148288addd0Sahoka if (le64toh(vnode->version) > *vc->vno_version) {
149288addd0Sahoka *vc->vno_version = le64toh(vnode->version);
150288addd0Sahoka chfs_add_vnode_ref_to_vc(chmp, vc, nref);
151288addd0Sahoka } else {
152288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb,
153288addd0Sahoka sizeof(struct chfs_flash_vnode));
1546ca8aaa3Sandvar mutex_exit(&chmp->chm_lock_vnocache);
155288addd0Sahoka return CHFS_NODE_OK;
156288addd0Sahoka }
157288addd0Sahoka } else {
158288addd0Sahoka vc->vno_version = kmem_alloc(sizeof(uint64_t), KM_SLEEP);
159288addd0Sahoka *vc->vno_version = le64toh(vnode->version);
160288addd0Sahoka chfs_add_vnode_ref_to_vc(chmp, vc, nref);
161288addd0Sahoka }
1623fae61eeSttoth mutex_exit(&chmp->chm_lock_vnocache);
163288addd0Sahoka
164bca84b9eSttoth /* update sizes */
165288addd0Sahoka mutex_enter(&chmp->chm_lock_sizes);
166288addd0Sahoka chfs_change_size_free(chmp, cheb, -le32toh(vnode->length));
167288addd0Sahoka chfs_change_size_used(chmp, cheb, le32toh(vnode->length));
168288addd0Sahoka mutex_exit(&chmp->chm_lock_sizes);
169288addd0Sahoka
170288addd0Sahoka KASSERT(cheb->used_size <= chmp->chm_ebh->eb_size);
171288addd0Sahoka
172288addd0Sahoka KASSERT(cheb->used_size + cheb->free_size + cheb->dirty_size + cheb->unchecked_size + cheb->wasted_size == chmp->chm_ebh->eb_size);
173288addd0Sahoka
174288addd0Sahoka return CHFS_NODE_OK;
175288addd0Sahoka }
176288addd0Sahoka
177bca84b9eSttoth /* chfs_scan_mark_dirent_obsolete - marks a directory entry "obsolete" */
178288addd0Sahoka int
chfs_scan_mark_dirent_obsolete(struct chfs_mount * chmp,struct chfs_vnode_cache * vc,struct chfs_dirent * fd)179288addd0Sahoka chfs_scan_mark_dirent_obsolete(struct chfs_mount *chmp,
180288addd0Sahoka struct chfs_vnode_cache *vc, struct chfs_dirent *fd)
181288addd0Sahoka {
182cadfcb39Sryoon struct chfs_eraseblock *cheb __diagused;
183288addd0Sahoka struct chfs_node_ref *prev, *nref;
184288addd0Sahoka
185288addd0Sahoka nref = fd->nref;
186288addd0Sahoka cheb = &chmp->chm_blocks[fd->nref->nref_lnr];
187288addd0Sahoka
188bca84b9eSttoth /* remove dirent's node ref from vnode cache */
189288addd0Sahoka prev = vc->dirents;
190288addd0Sahoka if (prev && prev == nref) {
191288addd0Sahoka vc->dirents = prev->nref_next;
192288addd0Sahoka } else if (prev && prev != (void *)vc) {
1933fae61eeSttoth while (prev->nref_next && prev->nref_next != (void *)vc) {
194288addd0Sahoka if (prev->nref_next == nref) {
195288addd0Sahoka prev->nref_next = nref->nref_next;
1963fae61eeSttoth break;
1973fae61eeSttoth }
1983fae61eeSttoth prev = prev->nref_next;
199288addd0Sahoka }
200288addd0Sahoka }
2013fae61eeSttoth
202288addd0Sahoka KASSERT(cheb->used_size + cheb->free_size + cheb->dirty_size +
203288addd0Sahoka cheb->unchecked_size + cheb->wasted_size == chmp->chm_ebh->eb_size);
204288addd0Sahoka
205288addd0Sahoka return 0;
206288addd0Sahoka }
207288addd0Sahoka
208bca84b9eSttoth /* chfs_add_fd_to_list - adds a directory entry to its parent's vnode cache */
209288addd0Sahoka void
chfs_add_fd_to_list(struct chfs_mount * chmp,struct chfs_dirent * new,struct chfs_vnode_cache * pvc)210288addd0Sahoka chfs_add_fd_to_list(struct chfs_mount *chmp,
211288addd0Sahoka struct chfs_dirent *new, struct chfs_vnode_cache *pvc)
212288addd0Sahoka {
213288addd0Sahoka KASSERT(mutex_owned(&chmp->chm_lock_mountfields));
214288addd0Sahoka int size;
215288addd0Sahoka struct chfs_eraseblock *cheb, *oldcheb;
216288addd0Sahoka struct chfs_dirent *fd, *tmpfd;
217288addd0Sahoka
218288addd0Sahoka dbg("adding fd to list: %s\n", new->name);
219288addd0Sahoka
220bca84b9eSttoth /* update highest version if needed */
221288addd0Sahoka if ((new->version > pvc->highest_version))
222288addd0Sahoka pvc->highest_version = new->version;
223288addd0Sahoka
224288addd0Sahoka size = CHFS_PAD(sizeof(struct chfs_flash_dirent_node) +
225288addd0Sahoka new->nsize);
226288addd0Sahoka cheb = &chmp->chm_blocks[new->nref->nref_lnr];
227288addd0Sahoka
228288addd0Sahoka mutex_enter(&chmp->chm_lock_sizes);
229288addd0Sahoka TAILQ_FOREACH_SAFE(fd, &pvc->scan_dirents, fds, tmpfd) {
230288addd0Sahoka if (fd->nhash > new->nhash) {
231288addd0Sahoka /* insert new before fd */
232288addd0Sahoka TAILQ_INSERT_BEFORE(fd, new, fds);
233288addd0Sahoka goto out;
234288addd0Sahoka } else if (fd->nhash == new->nhash &&
235288addd0Sahoka !strcmp(fd->name, new->name)) {
236288addd0Sahoka if (new->version > fd->version) {
237288addd0Sahoka /* replace fd with new */
238288addd0Sahoka TAILQ_INSERT_BEFORE(fd, new, fds);
239288addd0Sahoka chfs_change_size_free(chmp, cheb, -size);
240288addd0Sahoka chfs_change_size_used(chmp, cheb, size);
241288addd0Sahoka
242288addd0Sahoka TAILQ_REMOVE(&pvc->scan_dirents, fd, fds);
243288addd0Sahoka if (fd->nref) {
244288addd0Sahoka size = CHFS_PAD(sizeof(struct chfs_flash_dirent_node) + fd->nsize);
245288addd0Sahoka chfs_scan_mark_dirent_obsolete(chmp, pvc, fd);
246288addd0Sahoka oldcheb = &chmp->chm_blocks[fd->nref->nref_lnr];
247288addd0Sahoka chfs_change_size_used(chmp, oldcheb, -size);
248288addd0Sahoka chfs_change_size_dirty(chmp, oldcheb, size);
249288addd0Sahoka }
250288addd0Sahoka chfs_free_dirent(fd);
251288addd0Sahoka } else {
252bca84b9eSttoth /* new dirent is older */
253288addd0Sahoka chfs_scan_mark_dirent_obsolete(chmp, pvc, new);
254288addd0Sahoka chfs_change_size_free(chmp, cheb, -size);
255288addd0Sahoka chfs_change_size_dirty(chmp, cheb, size);
256288addd0Sahoka chfs_free_dirent(new);
257288addd0Sahoka }
258288addd0Sahoka mutex_exit(&chmp->chm_lock_sizes);
259288addd0Sahoka return;
260288addd0Sahoka }
261288addd0Sahoka }
262288addd0Sahoka /* if we couldnt fit it elsewhere, lets add to the end */
263288addd0Sahoka TAILQ_INSERT_TAIL(&pvc->scan_dirents, new, fds);
264288addd0Sahoka
265288addd0Sahoka out:
266bca84b9eSttoth /* update sizes */
267288addd0Sahoka chfs_change_size_free(chmp, cheb, -size);
268288addd0Sahoka chfs_change_size_used(chmp, cheb, size);
269288addd0Sahoka mutex_exit(&chmp->chm_lock_sizes);
270288addd0Sahoka
271288addd0Sahoka KASSERT(cheb->used_size <= chmp->chm_ebh->eb_size);
272288addd0Sahoka
273288addd0Sahoka KASSERT(cheb->used_size + cheb->free_size + cheb->dirty_size + cheb->unchecked_size + cheb->wasted_size == chmp->chm_ebh->eb_size);
274288addd0Sahoka }
275bca84b9eSttoth
276bca84b9eSttoth /* chfs_scan_check_dirent_node - check vnode crc and add to vnode cache */
277288addd0Sahoka int
chfs_scan_check_dirent_node(struct chfs_mount * chmp,struct chfs_eraseblock * cheb,void * buf,off_t ofs)278288addd0Sahoka chfs_scan_check_dirent_node(struct chfs_mount *chmp,
279288addd0Sahoka struct chfs_eraseblock *cheb, void *buf, off_t ofs)
280288addd0Sahoka {
281288addd0Sahoka int err, namelen;
282288addd0Sahoka uint32_t crc;
283288addd0Sahoka struct chfs_dirent *fd;
2843fae61eeSttoth struct chfs_vnode_cache *parentvc;
285288addd0Sahoka struct chfs_flash_dirent_node *dirent = buf;
286288addd0Sahoka
287bca84b9eSttoth /* check crc */
288288addd0Sahoka crc = crc32(0, (uint8_t *)dirent, sizeof(*dirent) - 4);
289288addd0Sahoka if (crc != le32toh(dirent->node_crc)) {
290288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb, le32toh(dirent->length));
291288addd0Sahoka if (err)
292288addd0Sahoka return err;
293288addd0Sahoka return CHFS_NODE_BADCRC;
294288addd0Sahoka }
295bca84b9eSttoth
296bca84b9eSttoth /* allocate space for name */
297288addd0Sahoka namelen = dirent->nsize;
298288addd0Sahoka
299288addd0Sahoka fd = chfs_alloc_dirent(namelen + 1);
300288addd0Sahoka if (!fd)
301288addd0Sahoka return ENOMEM;
302288addd0Sahoka
303bca84b9eSttoth /* allocate an nref */
304288addd0Sahoka fd->nref = chfs_alloc_node_ref(cheb);
305288addd0Sahoka if (!fd->nref)
306288addd0Sahoka return ENOMEM;
307288addd0Sahoka
308288addd0Sahoka KASSERT(fd->nref->nref_lnr == cheb->lnr);
309288addd0Sahoka
310288addd0Sahoka memcpy(&fd->name, dirent->name, namelen);
311288addd0Sahoka fd->nsize = namelen;
312288addd0Sahoka fd->name[namelen] = 0;
313288addd0Sahoka crc = crc32(0, fd->name, dirent->nsize);
314288addd0Sahoka if (crc != le32toh(dirent->name_crc)) {
315288addd0Sahoka chfs_err("Directory entry's name has bad crc: read: 0x%x, "
316288addd0Sahoka "calculated: 0x%x\n", le32toh(dirent->name_crc), crc);
317288addd0Sahoka chfs_free_dirent(fd);
318288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb, le32toh(dirent->length));
319288addd0Sahoka if (err)
320288addd0Sahoka return err;
321288addd0Sahoka return CHFS_NODE_BADNAMECRC;
322288addd0Sahoka }
323288addd0Sahoka
324bca84b9eSttoth /* check vnode_cache of parent node */
325288addd0Sahoka mutex_enter(&chmp->chm_lock_vnocache);
3263fae61eeSttoth parentvc = chfs_scan_make_vnode_cache(chmp, le64toh(dirent->pvno));
3273fae61eeSttoth if (!parentvc) {
328288addd0Sahoka chfs_free_dirent(fd);
3296ca8aaa3Sandvar mutex_exit(&chmp->chm_lock_vnocache);
330288addd0Sahoka return ENOMEM;
331288addd0Sahoka }
332288addd0Sahoka
333288addd0Sahoka fd->nref->nref_offset = ofs;
334288addd0Sahoka
3353fae61eeSttoth dbg("add dirent to #%llu\n", (unsigned long long)parentvc->vno);
3363fae61eeSttoth chfs_add_node_to_list(chmp, parentvc, fd->nref, &parentvc->dirents);
3373fae61eeSttoth mutex_exit(&chmp->chm_lock_vnocache);
338288addd0Sahoka
339288addd0Sahoka fd->vno = le64toh(dirent->vno);
340288addd0Sahoka fd->version = le64toh(dirent->version);
341288addd0Sahoka fd->nhash = hash32_buf(fd->name, namelen, HASH32_BUF_INIT);
342288addd0Sahoka fd->type = dirent->dtype;
343288addd0Sahoka
3443fae61eeSttoth chfs_add_fd_to_list(chmp, fd, parentvc);
345288addd0Sahoka
346288addd0Sahoka return CHFS_NODE_OK;
347288addd0Sahoka }
348288addd0Sahoka
349bca84b9eSttoth /* chfs_scan_check_data_node - check vnode crc and add to vnode cache */
350288addd0Sahoka int
chfs_scan_check_data_node(struct chfs_mount * chmp,struct chfs_eraseblock * cheb,void * buf,off_t ofs)351288addd0Sahoka chfs_scan_check_data_node(struct chfs_mount *chmp,
352288addd0Sahoka struct chfs_eraseblock *cheb, void *buf, off_t ofs)
353288addd0Sahoka {
354288addd0Sahoka KASSERT(mutex_owned(&chmp->chm_lock_mountfields));
355288addd0Sahoka int err;
356288addd0Sahoka uint32_t crc, vno;
357288addd0Sahoka struct chfs_node_ref *nref;
358288addd0Sahoka struct chfs_vnode_cache *vc;
359288addd0Sahoka struct chfs_flash_data_node *dnode = buf;
360288addd0Sahoka
361bca84b9eSttoth /* check crc */
362288addd0Sahoka crc = crc32(0, (uint8_t *)dnode, sizeof(struct chfs_flash_data_node) - 4);
363288addd0Sahoka if (crc != le32toh(dnode->node_crc)) {
364288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb, le32toh(dnode->length));
365288addd0Sahoka if (err)
366288addd0Sahoka return err;
367288addd0Sahoka return CHFS_NODE_BADCRC;
368288addd0Sahoka }
369bca84b9eSttoth /*
370288addd0Sahoka * Don't check data nodes crc and version here, it will be done in
371288addd0Sahoka * the background GC thread.
372288addd0Sahoka */
373288addd0Sahoka nref = chfs_alloc_node_ref(cheb);
374288addd0Sahoka if (!nref)
375288addd0Sahoka return ENOMEM;
376288addd0Sahoka
3773fae61eeSttoth nref->nref_offset = CHFS_GET_OFS(ofs) | CHFS_UNCHECKED_NODE_MASK;
378288addd0Sahoka
379288addd0Sahoka KASSERT(nref->nref_lnr == cheb->lnr);
380288addd0Sahoka
381288addd0Sahoka vno = le64toh(dnode->vno);
382288addd0Sahoka mutex_enter(&chmp->chm_lock_vnocache);
383288addd0Sahoka vc = chfs_vnode_cache_get(chmp, vno);
384288addd0Sahoka if (!vc) {
385288addd0Sahoka vc = chfs_scan_make_vnode_cache(chmp, vno);
3866ca8aaa3Sandvar if (!vc) {
3876ca8aaa3Sandvar mutex_exit(&chmp->chm_lock_vnocache);
388288addd0Sahoka return ENOMEM;
389288addd0Sahoka }
3906ca8aaa3Sandvar }
391288addd0Sahoka chfs_add_node_to_list(chmp, vc, nref, &vc->dnode);
3923fae61eeSttoth mutex_exit(&chmp->chm_lock_vnocache);
393288addd0Sahoka
394288addd0Sahoka dbg("chmpfree: %u, chebfree: %u, dnode: %u\n", chmp->chm_free_size, cheb->free_size, dnode->length);
395288addd0Sahoka
396bca84b9eSttoth /* update sizes */
397288addd0Sahoka mutex_enter(&chmp->chm_lock_sizes);
398288addd0Sahoka chfs_change_size_free(chmp, cheb, -dnode->length);
399288addd0Sahoka chfs_change_size_unchecked(chmp, cheb, dnode->length);
400288addd0Sahoka mutex_exit(&chmp->chm_lock_sizes);
401288addd0Sahoka return CHFS_NODE_OK;
402288addd0Sahoka }
403288addd0Sahoka
404bca84b9eSttoth /* chfs_scan_classify_cheb - determine eraseblock's state */
405288addd0Sahoka int
chfs_scan_classify_cheb(struct chfs_mount * chmp,struct chfs_eraseblock * cheb)406288addd0Sahoka chfs_scan_classify_cheb(struct chfs_mount *chmp,
407288addd0Sahoka struct chfs_eraseblock *cheb)
408288addd0Sahoka {
409288addd0Sahoka if (cheb->free_size == chmp->chm_ebh->eb_size)
410288addd0Sahoka return CHFS_BLK_STATE_FREE;
411288addd0Sahoka else if (cheb->dirty_size < MAX_DIRTY_TO_CLEAN)
412288addd0Sahoka return CHFS_BLK_STATE_CLEAN;
413288addd0Sahoka else if (cheb->used_size || cheb->unchecked_size)
414288addd0Sahoka return CHFS_BLK_STATE_PARTDIRTY;
415288addd0Sahoka else
416288addd0Sahoka return CHFS_BLK_STATE_ALLDIRTY;
417288addd0Sahoka }
418288addd0Sahoka
419288addd0Sahoka
420bca84b9eSttoth /*
421288addd0Sahoka * chfs_scan_eraseblock - scans an eraseblock and looking for nodes
422288addd0Sahoka *
423288addd0Sahoka * This function scans a whole eraseblock, checks the nodes on it and add them
424288addd0Sahoka * to the vnode cache.
425288addd0Sahoka * Returns eraseblock state on success, error code if fails.
426288addd0Sahoka */
427288addd0Sahoka int
chfs_scan_eraseblock(struct chfs_mount * chmp,struct chfs_eraseblock * cheb)428288addd0Sahoka chfs_scan_eraseblock(struct chfs_mount *chmp,
429bca84b9eSttoth struct chfs_eraseblock *cheb)
430bca84b9eSttoth {
431288addd0Sahoka int err;
432288addd0Sahoka size_t len, retlen;
433288addd0Sahoka off_t ofs = 0;
434288addd0Sahoka int lnr = cheb->lnr;
435288addd0Sahoka u_char *buf;
436288addd0Sahoka struct chfs_flash_node_hdr *nhdr;
437288addd0Sahoka int read_free = 0;
438288addd0Sahoka struct chfs_node_ref *nref;
439288addd0Sahoka
440288addd0Sahoka dbg("scanning eraseblock content: %d free_size: %d\n", cheb->lnr, cheb->free_size);
441288addd0Sahoka dbg("scanned physical block: %d\n", chmp->chm_ebh->lmap[lnr]);
442288addd0Sahoka buf = kmem_alloc(CHFS_MAX_NODE_SIZE, KM_SLEEP);
443288addd0Sahoka
444288addd0Sahoka while((ofs + CHFS_NODE_HDR_SIZE) < chmp->chm_ebh->eb_size) {
445288addd0Sahoka memset(buf, 0 , CHFS_MAX_NODE_SIZE);
446288addd0Sahoka err = chfs_read_leb(chmp,
447288addd0Sahoka lnr, buf, ofs, CHFS_NODE_HDR_SIZE, &retlen);
44884353ac6She if (err)
44984353ac6She goto err_return;
450288addd0Sahoka
451288addd0Sahoka if (retlen != CHFS_NODE_HDR_SIZE) {
452288addd0Sahoka chfs_err("Error reading node header: "
453288addd0Sahoka "read: %zu instead of: %zu\n",
454288addd0Sahoka CHFS_NODE_HDR_SIZE, retlen);
45584353ac6She err = EIO;
45684353ac6She goto err_return;
457288addd0Sahoka }
458288addd0Sahoka
459288addd0Sahoka /* first we check if the buffer we read is full with 0xff, if yes maybe
460288addd0Sahoka * the blocks remaining area is free. We increase read_free and if it
461288addd0Sahoka * reaches MAX_READ_FREE we stop reading the block */
462288addd0Sahoka if (check_pattern(buf, 0xff, 0, CHFS_NODE_HDR_SIZE)) {
463288addd0Sahoka read_free += CHFS_NODE_HDR_SIZE;
464288addd0Sahoka if (read_free >= MAX_READ_FREE(chmp)) {
465288addd0Sahoka dbg("rest of the block is free. Size: %d\n", cheb->free_size);
466cc74afd9Schristos kmem_free(buf, CHFS_MAX_NODE_SIZE);
467288addd0Sahoka return chfs_scan_classify_cheb(chmp, cheb);
468288addd0Sahoka }
469288addd0Sahoka ofs += CHFS_NODE_HDR_SIZE;
470288addd0Sahoka continue;
471288addd0Sahoka } else {
472288addd0Sahoka chfs_update_eb_dirty(chmp, cheb, read_free);
473288addd0Sahoka read_free = 0;
474288addd0Sahoka }
475288addd0Sahoka
476288addd0Sahoka nhdr = (struct chfs_flash_node_hdr *)buf;
477288addd0Sahoka
478288addd0Sahoka err = chfs_scan_check_node_hdr(nhdr);
479288addd0Sahoka if (err) {
480288addd0Sahoka dbg("node hdr error\n");
481288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb, 4);
48284353ac6She if (err)
48384353ac6She goto err_return;
484288addd0Sahoka
485288addd0Sahoka ofs += 4;
486288addd0Sahoka continue;
487288addd0Sahoka }
488288addd0Sahoka ofs += CHFS_NODE_HDR_SIZE;
489288addd0Sahoka if (ofs > chmp->chm_ebh->eb_size) {
490288addd0Sahoka chfs_err("Second part of node is on the next eraseblock.\n");
49184353ac6She err = EIO;
49284353ac6She goto err_return;
493288addd0Sahoka }
494288addd0Sahoka switch (le16toh(nhdr->type)) {
495288addd0Sahoka case CHFS_NODETYPE_VNODE:
496bca84b9eSttoth /* vnode information */
497bca84b9eSttoth /* read up the node */
498288addd0Sahoka len = le32toh(nhdr->length) - CHFS_NODE_HDR_SIZE;
499288addd0Sahoka err = chfs_read_leb(chmp,
500288addd0Sahoka lnr, buf + CHFS_NODE_HDR_SIZE,
501288addd0Sahoka ofs, len, &retlen);
50284353ac6She if (err)
50384353ac6She goto err_return;
504288addd0Sahoka
505288addd0Sahoka if (retlen != len) {
506288addd0Sahoka chfs_err("Error reading vnode: read: %zu instead of: %zu\n",
507288addd0Sahoka len, retlen);
50884353ac6She err = EIO;
50984353ac6She goto err_return;
510288addd0Sahoka }
511288addd0Sahoka KASSERT(lnr == cheb->lnr);
512288addd0Sahoka err = chfs_scan_check_vnode(chmp,
513288addd0Sahoka cheb, buf, ofs - CHFS_NODE_HDR_SIZE);
51484353ac6She if (err)
51584353ac6She goto err_return;
516288addd0Sahoka
517288addd0Sahoka break;
518288addd0Sahoka case CHFS_NODETYPE_DIRENT:
519bca84b9eSttoth /* directory entry */
520bca84b9eSttoth /* read up the node */
521288addd0Sahoka len = le32toh(nhdr->length) - CHFS_NODE_HDR_SIZE;
522288addd0Sahoka
523288addd0Sahoka err = chfs_read_leb(chmp,
524288addd0Sahoka lnr, buf + CHFS_NODE_HDR_SIZE,
525288addd0Sahoka ofs, len, &retlen);
52684353ac6She if (err)
52784353ac6She goto err_return;
528288addd0Sahoka
529288addd0Sahoka if (retlen != len) {
530288addd0Sahoka chfs_err("Error reading dirent node: read: %zu "
531288addd0Sahoka "instead of: %zu\n", len, retlen);
53284353ac6She err = EIO;
53384353ac6She goto err_return;
534288addd0Sahoka }
535288addd0Sahoka
536288addd0Sahoka KASSERT(lnr == cheb->lnr);
537288addd0Sahoka
538288addd0Sahoka err = chfs_scan_check_dirent_node(chmp,
539288addd0Sahoka cheb, buf, ofs - CHFS_NODE_HDR_SIZE);
54084353ac6She if (err)
54184353ac6She goto err_return;
542288addd0Sahoka
543288addd0Sahoka break;
544288addd0Sahoka case CHFS_NODETYPE_DATA:
545bca84b9eSttoth /* data node */
546288addd0Sahoka len = sizeof(struct chfs_flash_data_node) -
547288addd0Sahoka CHFS_NODE_HDR_SIZE;
548288addd0Sahoka err = chfs_read_leb(chmp,
549288addd0Sahoka lnr, buf + CHFS_NODE_HDR_SIZE,
550288addd0Sahoka ofs, len, &retlen);
55184353ac6She if (err)
55284353ac6She goto err_return;
553288addd0Sahoka
554288addd0Sahoka if (retlen != len) {
555288addd0Sahoka chfs_err("Error reading data node: read: %zu "
556288addd0Sahoka "instead of: %zu\n", len, retlen);
55784353ac6She err = EIO;
55884353ac6She goto err_return;
559288addd0Sahoka }
560288addd0Sahoka KASSERT(lnr == cheb->lnr);
561288addd0Sahoka err = chfs_scan_check_data_node(chmp,
562288addd0Sahoka cheb, buf, ofs - CHFS_NODE_HDR_SIZE);
563288addd0Sahoka if (err)
56484353ac6She goto err_return;
565288addd0Sahoka
566288addd0Sahoka break;
567288addd0Sahoka case CHFS_NODETYPE_PADDING:
568bca84b9eSttoth /* padding node, set size and update dirty */
569288addd0Sahoka nref = chfs_alloc_node_ref(cheb);
570288addd0Sahoka nref->nref_offset = ofs - CHFS_NODE_HDR_SIZE;
571288addd0Sahoka nref->nref_offset = CHFS_GET_OFS(nref->nref_offset) |
572288addd0Sahoka CHFS_OBSOLETE_NODE_MASK;
573288addd0Sahoka
574288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb,
575288addd0Sahoka le32toh(nhdr->length));
576288addd0Sahoka if (err)
57784353ac6She goto err_return;
578288addd0Sahoka
579288addd0Sahoka break;
580288addd0Sahoka default:
581bca84b9eSttoth /* unknown node type, update dirty and skip */
582288addd0Sahoka err = chfs_update_eb_dirty(chmp, cheb,
583288addd0Sahoka le32toh(nhdr->length));
584288addd0Sahoka if (err)
58584353ac6She goto err_return;
586288addd0Sahoka
587288addd0Sahoka break;
588288addd0Sahoka }
589288addd0Sahoka ofs += le32toh(nhdr->length) - CHFS_NODE_HDR_SIZE;
590288addd0Sahoka }
591288addd0Sahoka
592288addd0Sahoka KASSERT(cheb->used_size + cheb->free_size + cheb->dirty_size +
593288addd0Sahoka cheb->unchecked_size + cheb->wasted_size == chmp->chm_ebh->eb_size);
594288addd0Sahoka
59584353ac6She err = chfs_scan_classify_cheb(chmp, cheb);
59684353ac6She /* FALLTHROUGH */
59784353ac6She err_return:
59884353ac6She kmem_free(buf, CHFS_MAX_NODE_SIZE);
59984353ac6She return err;
600288addd0Sahoka }
601