../../fatfs/dir.c

Bug Summary

File:	obj-scan-build/fatfs/../../fatfs/dir.c
Location:	line 863, column 3
Description:	Value stored to 'err' is never read

Annotated Source Code

1	/* dir.c - FAT filesystem.
2
3	Copyright (C) 1997, 1998, 1999, 2002, 2003, 2007
4	Free Software Foundation, Inc.
5
6	Written by Thomas Bushnell, n/BSG and Marcus Brinkmann.
7
8	This file is part of the GNU Hurd.
9
10	The GNU Hurd is free software; you can redistribute it and/or modify it
11	under the terms of the GNU General Public License as published by
12	the Free Software Foundation; either version 2, or (at your option)
13	any later version.
14
15	The GNU Hurd is distributed in the hope that it will be useful, but
16	WITHOUT ANY WARRANTY; without even the implied warranty of
17	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18	General Public License for more details.
19
20	You should have received a copy of the GNU General Public License
21	along with this program; if not, write to the Free Software
22	Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. */
23
24	#include <ctype.h>
25	#include <string.h>
26	#include <dirent.h>
27	#include <hurd/fsys.h>
28
29	#include "fatfs.h"
30
31	/* The size of a directory block is usually just the cluster size.
32	However, the root directory of FAT12/16 file systems is stored in
33	sectors in a special region, so we settle on the greatest common
34	divisor here. */
35	#define DIRBLKSIZbytes_per_sector bytes_per_sector
36	#define LOG2_DIRBLKSIZlog2_bytes_per_sector log2_bytes_per_sector
37
38	enum slot_status
39	{
40	/* This means we haven't yet found room for a new entry. */
41	LOOKING,
42
43	/* This means that the specified entry is free and should be used. */
44	TAKE,
45
46	/* This means that the specified entry has enough room at the end
47	to hold the new entry. */
48	SHRINK,
49
50	/* This means that there is enough space in the block, but not in
51	any one single entry, so they all have to be shifted to make
52	room. */
53	COMPRESS,
54
55	/* This means that the directory will have to be grown to hold the
56	entry. */
57	EXTEND,
58
59	/* For removal and rename, this means that this is the location
60	of the entry found. */
61	HERE_TIS,
62	};
63
64	struct dirstat
65	{
66	/* Type of followp operation expected. */
67	enum lookup_type type;
68
69	/* One of the statuses above. */
70	enum slot_status stat;
71
72	/* Mapped address and length of directory. */
73	vm_address_t mapbuf;
74	vm_size_t mapextent;
75
76	/* Index of this directory block. */
77	int idx;
78
79	/* For stat COMPRESS, this is the address (inside mapbuf)
80	of the first direct in the directory block to be compressed. */
81	/* For stat HERE_TIS, SHRINK, and TAKE, this is the entry referenced. */
82	struct dirrect *entry;
83
84	/* For stat HERE_TIS, type REMOVE, this is the address of the immediately
85	previous direct in this directory block, or zero if this is the first. */
86	struct dirrect *preventry;
87
88	/* For stat COMPRESS, this is the number of bytes needed to be copied
89	in order to undertake the compression. */
90	size_t nbytes;
91	};
92
93	const size_t diskfs_dirstat_size = sizeof (struct dirstat);
94
95	/* Initialize DS such that diskfs_drop_dirstat will ignore it. */
96	void
97	diskfs_null_dirstat (struct dirstat *ds)
98	{
99	ds->type = LOOKUP;
100	}
101
102	/* Forward declaration. */
103	static error_t
104	dirscanblock (vm_address_t blockoff, struct node *dp, int idx,
105	const char *name, int namelen, enum lookup_type type,
106	struct dirstat ds, ino_t inum);
107
108	static int
109	fatnamematch (const char dirname, const char username, size_t unamelen)
110	{
111	char *dn = strdup(dirname);
112	int dpos = 0;
113	int upos = 0;
114	int ext = 0;
115
116	/* Deleted files. */
117	if (dn[0] == FAT_DIR_NAME_DELETED'\xe5' \|\| dn[0] == FAT_DIR_NAME_LAST'\x00')
118	return 0;
119	if (dn[0] == FAT_DIR_NAME_REPLACE_DELETED'\x05')
120	dn[0] = FAT_DIR_NAME_DELETED'\xe5';
121
122	/* Special representations for `.' and `..'. */
123	if (!memcmp(dn, FAT_DIR_NAME_DOT". ", 11))
124	return unamelen == 1 && username[0] == '.';
125
126	if (!memcmp (dn, FAT_DIR_NAME_DOTDOT".. ", 11))
127	return unamelen == 2 && username[0] == '.' && username[1] == '.';
128
129	if (unamelen > 12)
130	return 0;
131
132	do
133	{
134	/* First check if we have reached the extension without coming
135	across blanks. */
136	if (dpos == 8 && !ext)
137	{
138	if (username[upos] == '.')
139	{
140	upos++;
141	ext = 1;
142	}
143	else
144	break;
145	}
146	/* Second, skip blanks in base part. */
147	if (dn[dpos] == ' ')
148	{
149	if (ext)
150	break;
151	while (dpos < 8 && dn[++dpos] == ' ');
152	if (username[upos] == '.')
153	upos++;
154	ext = 1;
155	}
156	else
157	{
158	if (tolower(dn[dpos]) == tolower(username[upos]))
159	{
160	dpos++;
161	upos++;
162	}
163	else
164	break;
165	}
166	} while (upos < unamelen && dpos < 11);
167	while (dpos < 11 && dn[dpos] == ' ')
168	dpos++;
169	return (upos == unamelen && dpos == 11);
170	}
171
172	/* Implement the diskfs_lookup callback from the diskfs library. See
173	<hurd/diskfs.h> for the interface specification. */
174	error_t
175	diskfs_lookup_hard (struct node dp, const char name, enum lookup_type type,
176	struct node *npp, struct dirstat ds, struct protid *cred)
177	{
178	error_t err;
179	ino_t inum;
180	int namelen;
181	int spec_dotdot;
182	struct node *np = 0;
183	int retry_dotdot = 0;
184	vm_prot_t prot =
185	(type == LOOKUP) ? VM_PROT_READ((vm_prot_t) 0x01) : (VM_PROT_READ((vm_prot_t) 0x01) \| VM_PROT_WRITE((vm_prot_t) 0x02));
186	memory_object_t memobj;
187	vm_address_t buf = 0;
188	vm_size_t buflen = 0;
189	int blockaddr;
190	int idx, lastidx;
191	int looped;
192
193	if ((type == REMOVE) \|\| (type == RENAME))
194	assert (npp)((npp) ? (void) (0) : __assert_fail ("npp", "../../fatfs/dir.c" , 194, __PRETTY_FUNCTION__));
195
196	if (npp)
197	*npp = 0;
198
199	spec_dotdot = type & SPEC_DOTDOT0x10000000;
200	type &= ~SPEC_DOTDOT0x10000000;
201
202	namelen = strlen (name);
203
204	if (namelen > FAT_NAME_MAX12)
205	return ENAMETOOLONG((0x10 << 26) \| ((63) & 0x3fff));
206
207	try_again:
208	if (ds)
209	{
210	ds->type = LOOKUP;
211	ds->mapbuf = 0;
212	ds->mapextent = 0;
213	}
214	if (buf)
215	{
216	munmap ((caddr_t) buf, buflen);
217	buf = 0;
218	}
219	if (ds && (type == CREATE \|\| type == RENAME))
220	ds->stat = LOOKING;
221
222	/* Map in the directory contents. */
223	memobj = diskfs_get_filemap (dp, prot);
224
225	if (memobj == MACH_PORT_NULL((mach_port_t) 0))
226	return errno(*__errno_location ());
227
228	buf = 0;
229	/* We allow extra space in case we have to do an EXTEND. */
230	buflen = round_page (dp->dn_stat.st_size + DIRBLKSIZ)((((vm_offset_t) (dp->dn_stat.st_size + bytes_per_sector) + __vm_page_size - 1) / __vm_page_size) * __vm_page_size);
231	err = vm_map (mach_task_self ()((__mach_task_self_ + 0)),
232	&buf, buflen, 0, 1, memobj, 0, 0, prot, prot, 0);
233	mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), memobj);
234
235	inum = 0;
236
237	diskfs_set_node_atime (dp);
238
239	/* Start the lookup at DP->dn->dir_idx. */
240	idx = dp->dn->dir_idx;
241	if (idx << LOG2_DIRBLKSIZlog2_bytes_per_sector > dp->dn_stat.st_size)
242	idx = 0; /* just in case */
243	blockaddr = buf + (idx << LOG2_DIRBLKSIZlog2_bytes_per_sector);
244	looped = (idx == 0);
245	lastidx = idx;
246	if (lastidx == 0)
247	lastidx = dp->dn_stat.st_size >> LOG2_DIRBLKSIZlog2_bytes_per_sector;
248
249	while (!looped \|\| idx < lastidx)
250	{
251	err = dirscanblock (blockaddr, dp, idx, name, namelen, type, ds, &inum);
252	if (!err)
253	{
254	dp->dn->dir_idx = idx;
255	break;
256	}
257	if (err != ENOENT((0x10 << 26) \| ((2) & 0x3fff)))
258	{
259	munmap ((caddr_t) buf, buflen);
260	return err;
261	}
262
263	blockaddr += DIRBLKSIZbytes_per_sector;
264	idx++;
265	if (blockaddr - buf >= dp->dn_stat.st_size && !looped)
266	{
267	/* We've gotten to the end; start back at the beginning. */
268	looped = 1;
269	blockaddr = buf;
270	idx = 0;
271	}
272	}
273
274	diskfs_set_node_atime (dp);
275	if (diskfs_synchronous)
276	diskfs_node_update (dp, 1);
277
278	/* If err is set here, it's ENOENT, and we don't want to
279	think about that as an error yet. */
280	err = 0;
281
282	if (inum && npp)
283	{
284	if (namelen != 2 \|\| name[0] != '.' \|\| name[1] != '.')
285	{
286	if (inum == dp->cache_id)
287	{
288	np = dp;
289	diskfs_nref (np);
290	}
291	else
292	{
293	err = diskfs_cached_lookup_in_dirbuf (inum, &np, buf);
294	if (err)
295	goto out;
296	}
297	}
298
299	/* We are looking up "..". */
300	/* Check to see if this is the root of the filesystem. */
301	else if (dp == diskfs_root_node)
302	{
303	err = EAGAIN((0x10 << 26) \| ((35) & 0x3fff));
304	goto out;
305	}
306
307	/* We can't just do diskfs_cached_lookup, because we would then
308	deadlock. So we do this. Ick. */
309	else if (retry_dotdot)
310	{
311	/* Check to see that we got the same answer as last time. */
312	if (inum != retry_dotdot)
313	{
314	/* Drop what we thought was .. (but isn't any more) and
315	try again. */
316	diskfs_nput (np);
317	pthread_mutex_unlock (&dp->lock);
318	err = diskfs_cached_lookup_in_dirbuf (inum, &np, buf);
319	pthread_mutex_lock (&dp->lock);
320	if (err)
321	goto out;
322	retry_dotdot = inum;
323	goto try_again;
324	}
325	/* Otherwise, we got it fine and np is already set properly. */
326	}
327	else if (!spec_dotdot)
328	{
329	/* Lock them in the proper order, and then
330	repeat the directory scan to see if this is still
331	right. */
332	pthread_mutex_unlock (&dp->lock);
333	err = diskfs_cached_lookup_in_dirbuf (inum, &np, buf);
334	pthread_mutex_lock (&dp->lock);
335	if (err)
336	goto out;
337	retry_dotdot = inum;
338	goto try_again;
339	}
340
341	/* Here below are the spec dotdot cases. */
342	else if (type == RENAME \|\| type == REMOVE)
343	np = ifind (inum);
344
345	else if (type == LOOKUP)
346	{
347	diskfs_nput (dp);
348	err = diskfs_cached_lookup_in_dirbuf (inum, &np, buf);
349	if (err)
350	goto out;
351	}
352	else
353	assert (0)((0) ? (void) (0) : __assert_fail ("0", "../../fatfs/dir.c", 353 , __PRETTY_FUNCTION__));
354	}
355
356	if ((type == CREATE \|\| type == RENAME) && !inum && ds && ds->stat == LOOKING)
357	{
358	/* We didn't find any room, so mark ds to extend the dir. */
359	ds->type = CREATE;
360	ds->stat = EXTEND;
361	ds->idx = dp->dn_stat.st_size >> LOG2_DIRBLKSIZlog2_bytes_per_sector;
362	}
363
364	/* Return to the user; if we can't, release the reference
365	(and lock) we acquired above. */
366	out:
367	/* Deallocate or save the mapping. */
368	if ((err && err != ENOENT((0x10 << 26) \| ((2) & 0x3fff)))
369	\|\| !ds
370	\|\| ds->type == LOOKUP)
371	{
372	munmap ((caddr_t) buf, buflen);
373	if (ds)
374	ds->type = LOOKUP; /* Set to be ignored by drop_dirstat. */
375	}
376	else
377	{
378	ds->mapbuf = buf;
379	ds->mapextent = buflen;
380	}
381
382	if (np)
383	{
384	assert (npp)((npp) ? (void) (0) : __assert_fail ("npp", "../../fatfs/dir.c" , 384, __PRETTY_FUNCTION__));
385	if (err)
386	{
387	if (!spec_dotdot)
388	{
389	/* Normal case. */
390	if (np == dp)
391	diskfs_nrele (np);
392	else
393	diskfs_nput (np);
394	}
395	else if (type == RENAME \|\| type == REMOVE)
396	/* We just did ifind to get np; that allocates
397	no new references, so we don't have anything to do. */
398	;
399	else if (type == LOOKUP)
400	/* We did diskfs_cached_lookup. */
401	diskfs_nput (np);
402	}
403	else
404	*npp = np;
405	}
406
407	return err ? : inum ? 0 : ENOENT((0x10 << 26) \| ((2) & 0x3fff));
408	}
409
410	/* Scan block at address BLKADDR (of node DP; block index IDX), for
411	name NAME of length NAMELEN. Args TYPE, DS are as for
412	diskfs_lookup. If found, set *INUM to the inode number, else
413	return ENOENT. */
414	static error_t
415	dirscanblock (vm_address_t blockaddr, struct node *dp, int idx,
416	const char *name, int namelen, enum lookup_type type,
417	struct dirstat ds, ino_t inum)
418	{
419	int nfree = 0;
420	int needed = 0;
421	vm_address_t currentoff, prevoff = 0;
422	struct dirrect *entry = 0;
423	size_t nbytes = 0;
424	int looking = 0;
425	int countcopies = 0;
426	int consider_compress = 0;
427	inode_t inode;
428	vi_key_t entry_key = vi_zero_key;
429
430	/* FAT lacks the "." and ".." directory record in the root directory,
431	so we emulate them here. */
432	if (idx == 0 && dp == diskfs_root_node
433	&& (fatnamematch (FAT_DIR_NAME_DOT". ", name, namelen)
434	\|\| fatnamematch (FAT_DIR_NAME_DOTDOT".. ", name, namelen)))
435	{
436	entry_key.dir_inode = diskfs_root_node->cache_id;
437	currentoff = blockaddr;
438	}
439	else
440	{
441	if (ds && (ds->stat == LOOKING
442	\|\| ds->stat == COMPRESS))
443	{
444	looking = 1;
445	countcopies = 1;
446	needed = FAT_DIR_RECORDS (namelen)32;
447	}
448
449	for (currentoff = blockaddr, prevoff = 0;
450	currentoff < blockaddr + DIRBLKSIZbytes_per_sector;
451	prevoff = currentoff, currentoff += FAT_DIR_REC_LEN32)
452	{
453	entry = (struct dirrect *)currentoff;
454
455	if (looking \|\| countcopies)
456	{
457	int thisfree;
458
459	/* Count how much free space this entry has in it. */
460	if ((char) entry->name[0] == FAT_DIR_NAME_LAST'\x00' \|\|
461	(char) entry->name[0] == FAT_DIR_NAME_DELETED'\xe5')
462	thisfree = FAT_DIR_REC_LEN32;
463	else
464	thisfree = 0;
465
466	/* If this isn't at the front of the block, then it will
467	have to be copied if we do a compression; count the
468	number of bytes there too. */
469	if (countcopies && currentoff != blockaddr)
470	nbytes += FAT_DIR_REC_LEN32;
471
472	if (ds->stat == COMPRESS && nbytes > ds->nbytes)
473	/* The previously found compress is better than this
474	one, so don't bother counting any more. */
475	countcopies = 0;
476
477	if (thisfree >= needed)
478	{
479	ds->type = CREATE;
480	ds->stat = TAKE;
481	ds->entry = entry;
482	ds->idx = idx;
483	looking = countcopies = 0;
484	}
485	else
486	{
487	nfree += thisfree;
488	if (nfree >= needed)
489	consider_compress = 1;
490	}
491	}
492
493	if (entry->attribute & FAT_DIR_ATTR_LABEL0x08)
494	/* Either the volume label in root dir or a long filename
495	component. */
496	continue;
497
498	if (fatnamematch (entry->name, name, namelen))
499	break;
500	}
501
502	if (consider_compress
503	&& (ds->type == LOOKING
504	\|\| (ds->type == COMPRESS && ds->nbytes > nbytes)))
505	{
506	ds->type = CREATE;
507	ds->stat = COMPRESS;
508	ds->entry = (struct dirrect *) blockaddr;
509	ds->idx = idx;
510	ds->nbytes = nbytes;
511	}
512	}
513
514	if (currentoff >= blockaddr + DIRBLKSIZbytes_per_sector)
515	{
516	/* The name is not in this block. */
517
518	return ENOENT((0x10 << 26) \| ((2) & 0x3fff));
519	}
520
521	/* We have found the required name. */
522
523	if (ds && type == CREATE)
524	ds->type = LOOKUP; /* It's invalid now. */
525	else if (ds && (type == REMOVE \|\| type == RENAME))
526	{
527	ds->type = type;
528	ds->stat = HERE_TIS;
529	ds->entry = entry;
530	ds->idx = idx;
531	ds->preventry = (struct dirrect *) prevoff;
532	}
533
534	if (entry_key.dir_inode)
535	{
536	/* The required name is "." or ".." in the root dir. */
537	*inum = entry_key.dir_inode;
538	}
539	else if ((entry->attribute & FAT_DIR_ATTR_DIR0x10)
540	&& !memcmp (entry->name, FAT_DIR_NAME_DOT". ", 11))
541	{
542	/* "." and ".." have to be treated special. We don't want their
543	directory records, but the records of the directories they
544	point to. */
545
546	*inum = dp->cache_id;
547	}
548	else if ((entry->attribute & FAT_DIR_ATTR_DIR0x10)
549	&& !memcmp (entry->name, FAT_DIR_NAME_DOTDOT".. ", 11))
550	{
551	if (entry->first_cluster_low[0] == 0
552	&& entry->first_cluster_low[1] == 0
553	&& entry->first_cluster_high[0] == 0
554	&& entry->first_cluster_high[1] == 0)
555	{
556	*inum = diskfs_root_node->cache_id;
557	}
558	else
559	{
560	struct vi_key vk = vi_key (dp->dn->inode);
561	*inum = vk.dir_inode;
562	}
563	}
564	else
565	{
566	entry_key.dir_inode = dp->cache_id;
567	entry_key.dir_offset = (currentoff - blockaddr) + (idx << LOG2_DIRBLKSIZlog2_bytes_per_sector);
568	return vi_rlookup(entry_key, inum, &inode, 1);
569	}
570	return 0;
571	}
572
573	/* Following a lookup call for CREATE, this adds a node to a
574	directory. DP is the directory to be modified; NAME is the name to
575	be entered; NP is the node being linked in; DS is the cached
576	information returned by lookup; CRED describes the user making the
577	call. This call may only be made if the directory has been held
578	locked continuously since the preceding lookup call, and only if
579	that call returned ENOENT. */
580	error_t
581	diskfs_direnter_hard (struct node dp, const char name, struct node *np,
582	struct dirstat ds, struct protid cred)
583	{
584	struct dirrect *new;
585	int namelen = strlen (name);
586	int needed = FAT_DIR_RECORDS (namelen)32;
587	error_t err;
588	loff_t oldsize = 0;
589
590	assert (ds->type == CREATE)((ds->type == CREATE) ? (void) (0) : __assert_fail ("ds->type == CREATE" , "../../fatfs/dir.c", 590, __PRETTY_FUNCTION__));
591
592	assert (!diskfs_readonly)((!diskfs_readonly) ? (void) (0) : __assert_fail ("!diskfs_readonly" , "../../fatfs/dir.c", 592, __PRETTY_FUNCTION__));
593
594	dp->dn_set_mtime = 1;
595
596	/* Select a location for the new directory entry. Each branch of
597	this switch is responsible for setting NEW to point to the
598	on-disk directory entry being written. */
599
600	switch (ds->stat)
601	{
602	case TAKE:
603	/* We are supposed to consume this slot. */
604	assert ((char)ds->entry->name[0] == FAT_DIR_NAME_LAST(((char)ds->entry->name[0] == '\x00' \|\| (char)ds->entry ->name[0] == '\xe5') ? (void) (0) : __assert_fail ("(char)ds->entry->name[0] == '\\x00' \|\| (char)ds->entry->name[0] == '\\xe5'" , "../../fatfs/dir.c", 605, __PRETTY_FUNCTION__))
605	\|\| (char)ds->entry->name[0] == FAT_DIR_NAME_DELETED)(((char)ds->entry->name[0] == '\x00' \|\| (char)ds->entry ->name[0] == '\xe5') ? (void) (0) : __assert_fail ("(char)ds->entry->name[0] == '\\x00' \|\| (char)ds->entry->name[0] == '\\xe5'" , "../../fatfs/dir.c", 605, __PRETTY_FUNCTION__));
606
607	new = ds->entry;
608	break;
609
610	case EXTEND:
611	/* Extend the file. */
612	assert (needed <= bytes_per_cluster)((needed <= bytes_per_cluster) ? (void) (0) : __assert_fail ("needed <= bytes_per_cluster", "../../fatfs/dir.c", 612, __PRETTY_FUNCTION__));
613
614	oldsize = dp->dn_stat.st_size;
615	while (oldsize + bytes_per_cluster > dp->allocsize)
616	{
617	err = diskfs_grow (dp, oldsize + bytes_per_cluster, cred);
618	if (err)
619	{
620	munmap ((caddr_t) ds->mapbuf, ds->mapextent);
621	return err;
622	}
623	memset ((caddr_t) ds->mapbuf + oldsize, 0, bytes_per_cluster);
624	}
625
626	new = (struct dirrect ) ((char ) ds->mapbuf + oldsize);
627
628	dp->dn_stat.st_size = oldsize + bytes_per_cluster;
629	dp->dn_set_ctime = 1;
630
631	break;
632
633	case SHRINK:
634	case COMPRESS:
635	default:
636	assert(0)((0) ? (void) (0) : __assert_fail ("0", "../../fatfs/dir.c", 636 , __PRETTY_FUNCTION__));
637
638	/* COMPRESS will be used later, with long filenames, but shrink
639	does not make sense on fat, as all entries have fixed
640	size. */
641	}
642
643	/* NEW points to the directory entry being written. Now fill in the
644	data. */
645
646	memcpy (new->name, " ", 11);
647	memcpy (new->name, name, namelen % 11); /* XXX */
648
649	write_word (new->first_cluster_low, np->dn->start_cluster & 0xffff);
650	write_word (new->first_cluster_high, np->dn->start_cluster >> 16);
651	write_dword (new->file_size, np->dn_stat.st_size);
652
653	if (!(name[0] == '.' && (name[1] == '\0'
654	\|\| (name[1] == '.' && name[2] =='\0'))))
655	{
656	vi_key_t entry_key;
657
658	entry_key.dir_inode = dp->cache_id;
659	entry_key.dir_offset = ((int) ds->entry) - ((int) ds->mapbuf);
660
661	/* Set the key for this inode now because it wasn't know when
662	the inode was initialized. */
663	vi_change (vi_lookup (np->cache_id), entry_key);
664
665	if (np->dn_stat.st_mode & S_IFDIR0040000)
666	new->attribute = FAT_DIR_ATTR_DIR0x10;
667	}
668	else
669	new->attribute = FAT_DIR_ATTR_DIR0x10;
670
671	/* Mark the directory inode has having been written. */
672	dp->dn_set_mtime = 1;
673
674	munmap ((caddr_t) ds->mapbuf, ds->mapextent);
675
676	diskfs_file_update (dp, 1);
677
678	return 0;
679	}
680
681	/* Following a lookup call for REMOVE, this removes the link from the
682	directory. DP is the directory being changed and DS is the cached
683	information returned from lookup. This call is only valid if the
684	directory has been locked continuously since the call to lookup, and
685	only if that call succeeded. */
686	error_t
687	diskfs_dirremove_hard (struct node dp, struct dirstat ds)
688	{
689	assert (ds->type == REMOVE)((ds->type == REMOVE) ? (void) (0) : __assert_fail ("ds->type == REMOVE" , "../../fatfs/dir.c", 689, __PRETTY_FUNCTION__));
690	assert (ds->stat == HERE_TIS)((ds->stat == HERE_TIS) ? (void) (0) : __assert_fail ("ds->stat == HERE_TIS" , "../../fatfs/dir.c", 690, __PRETTY_FUNCTION__));
691
692	assert (!diskfs_readonly)((!diskfs_readonly) ? (void) (0) : __assert_fail ("!diskfs_readonly" , "../../fatfs/dir.c", 692, __PRETTY_FUNCTION__));
693
694	dp->dn_set_mtime = 1;
695
696	ds->entry->name[0] = FAT_DIR_NAME_DELETED'\xe5';
697
698	/* XXX Do something with dirrect? inode? */
699
700	dp->dn_set_mtime = 1;
701
702	munmap ((caddr_t) ds->mapbuf, ds->mapextent);
703
704	diskfs_file_update (dp, 1);
705
706	return 0;
707	}
708
709	/* Following a lookup call for RENAME, this changes the inode number
710	on a directory entry. DP is the directory being changed; NP is the
711	new node being linked in; DP is the cached information returned by
712	lookup. This call is only valid if the directory has been locked
713	continuously since the call to lookup, and only if that call
714	succeeded. */
715	error_t
716	diskfs_dirrewrite_hard (struct node dp, struct node np, struct dirstat *ds)
717	{
718	error_t err;
719	vi_key_t entry_key;
720	mach_port_t control = MACH_PORT_NULL((mach_port_t) 0);
721	struct node *oldnp;
722	ino_t inode;
723	inode_t vinode;
724
725	/* We need the inode and vinode of the old node. */
726	entry_key.dir_inode = dp->cache_id;
727	entry_key.dir_offset = ((int) ds->entry) - ((int) ds->mapbuf);
728	err = vi_rlookup (entry_key, &inode, &vinode, 0);
729
730	assert (err != EINVAL)((err != ((0x10 << 26) \| ((22) & 0x3fff))) ? (void) (0) : __assert_fail ("err != ((0x10 << 26) \| ((22) & 0x3fff))" , "../../fatfs/dir.c", 730, __PRETTY_FUNCTION__));
731
732	/* Lookup the node, we already have a reference. */
733	oldnp = ifind (inode);
734
735	assert (ds->type == RENAME)((ds->type == RENAME) ? (void) (0) : __assert_fail ("ds->type == RENAME" , "../../fatfs/dir.c", 735, __PRETTY_FUNCTION__));
736	assert (ds->stat == HERE_TIS)((ds->stat == HERE_TIS) ? (void) (0) : __assert_fail ("ds->stat == HERE_TIS" , "../../fatfs/dir.c", 736, __PRETTY_FUNCTION__));
737
738	assert (!diskfs_readonly)((!diskfs_readonly) ? (void) (0) : __assert_fail ("!diskfs_readonly" , "../../fatfs/dir.c", 738, __PRETTY_FUNCTION__));
739
740	/* The link count must be 0 so the file will be removed and
741	the node will be dropped. */
742	oldnp->dn_stat.st_nlink--;
743	assert (!oldnp->dn_stat.st_nlink)((!oldnp->dn_stat.st_nlink) ? (void) (0) : __assert_fail ( "!oldnp->dn_stat.st_nlink", "../../fatfs/dir.c", 743, __PRETTY_FUNCTION__ ));
744
745	/* Close the file, free the referenced held by clients. */
746	fshelp_fetch_control (&oldnp->transbox, &control);
747
748	if (control)
749	{
750	fsys_goaway (control, FSYS_GOAWAY_UNLINK0x00000008);
751	mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), control);
752	}
753
754	/* Put the new key in the vinode. */
755	vi_change (vi_lookup (np->cache_id), entry_key);
756
757	munmap ((caddr_t) ds->mapbuf, ds->mapextent);
758
759	dp->dn_set_mtime = 1;
760	diskfs_file_update (dp, 1);
761
762	return 0;
763	}
764
765	/* Tell if DP is an empty directory (has only "." and ".." entries).
766	This routine must be called from inside a catch_exception (). */
767	int
768	diskfs_dirempty (struct node dp, struct protid cred)
769	{
770	error_t err;
771	vm_address_t buf = 0, curoff;
772	struct dirrect *entry;
773	int hit = 0; /* Found something in the directory. */
774	memory_object_t memobj = diskfs_get_filemap (dp, VM_PROT_READ((vm_prot_t) 0x01));
775
776	if (memobj == MACH_PORT_NULL((mach_port_t) 0))
777	/* XXX should reflect error properly. */
778	return 0;
779
780	err = vm_map (mach_task_self ()((__mach_task_self_ + 0)), &buf, dp->dn_stat.st_size, 0,
781	1, memobj, 0, 0, VM_PROT_READ((vm_prot_t) 0x01), VM_PROT_READ((vm_prot_t) 0x01), 0);
782	mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), memobj);
783	assert (!err)((!err) ? (void) (0) : __assert_fail ("!err", "../../fatfs/dir.c" , 783, __PRETTY_FUNCTION__));
784
785	diskfs_set_node_atime (dp);
786
787	for (curoff = buf;
788	!hit && curoff < buf + dp->dn_stat.st_size;
789	curoff += FAT_DIR_REC_LEN32)
790	{
791	entry = (struct dirrect *) curoff;
792
793	if (entry->name[0] == FAT_DIR_NAME_LAST'\x00')
794	break;
795	if ((char) entry->name[0] != FAT_DIR_NAME_DELETED'\xe5'
796	&& memcmp (entry->name, FAT_DIR_NAME_DOT". ", 11)
797	&& memcmp (entry->name, FAT_DIR_NAME_DOTDOT".. ", 11))
798	hit = 1;
799	}
800
801	diskfs_set_node_atime (dp);
802	if (diskfs_synchronous)
803	diskfs_node_update (dp, 1);
804
805	munmap ((caddr_t) buf, dp->dn_stat.st_size);
806
807	return !hit;
808	}
809
810	/* Make DS an invalid dirstat. */
811	error_t
812	diskfs_drop_dirstat (struct node dp, struct dirstat ds)
813	{
814	if (ds->type != LOOKUP)
815	{
816	assert (ds->mapbuf)((ds->mapbuf) ? (void) (0) : __assert_fail ("ds->mapbuf" , "../../fatfs/dir.c", 816, __PRETTY_FUNCTION__));
817	munmap ((caddr_t) ds->mapbuf, ds->mapextent);
818	ds->type = LOOKUP;
819	}
820	return 0;
821	}
822
823
824	/* Implement the diskfs_get_directs callback as described in
825	<hurd/diskfs.h>. */
826	error_t
827	diskfs_get_directs (struct node *dp,
828	int entry,
829	int nentries,
830	char **data,
831	u_int *datacnt,
832	vm_size_t bufsiz,
833	int *amt)
834	{
835	volatile vm_size_t allocsize;
836	struct dirrect *ep;
837	struct dirent *userp;
838	int i;
839	char *datap;
840	volatile int ouralloc = 0;
841	error_t err;
842	vm_prot_t prot = VM_PROT_READ((vm_prot_t) 0x01);
843	memory_object_t memobj;
844	vm_address_t buf = 0, bufp;
845	vm_size_t buflen = 0;
846
847	/* Allocate some space to hold the returned data. */
848	allocsize = bufsiz ? round_page (bufsiz)((((vm_offset_t) (bufsiz) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size) : vm_page_size * 4;
849	if (allocsize > *datacnt)
850	{
851	*data = mmap (0, allocsize, PROT_READ0x04\|PROT_WRITE0x02, MAP_ANON0x0002, 0, 0);
852	ouralloc = 1;
853	}
854
855	/* Map in the directory contents. */
856	memobj = diskfs_get_filemap (dp, prot);
857
858	if (memobj == MACH_PORT_NULL((mach_port_t) 0))
859	return errno(*__errno_location ());
860
861	/* We allow extra space in case we have to do an EXTEND. */
862	buflen = round_page (dp->dn_stat.st_size)((((vm_offset_t) (dp->dn_stat.st_size) + __vm_page_size - 1 ) / __vm_page_size) * __vm_page_size);
863	err = vm_map (mach_task_self ()((__mach_task_self_ + 0)),
	Value stored to 'err' is never read
864	&buf, buflen, 0, 1, memobj, 0, 0, prot, prot, 0);
865	mach_port_deallocate (mach_task_self ()((__mach_task_self_ + 0)), memobj);
866
867	bufp = buf;
868	for (i = 0; i < entry; i ++)
869	{
870	/* The root directory in FAT file systems doesn't contain
871	entries for DOT and DOTDOT, they are special cased below. */
872	if (dp == diskfs_root_node && i < 2)
873	continue;
874
875	ep = (struct dirrect *) bufp;
876
877	if (bufp >= buf + buflen \|\| (char)ep->name[0] == FAT_DIR_NAME_LAST'\x00')
878	{
879	/* Not that many entries in the directory; return nothing. */
880	if (allocsize > *datacnt)
881	munmap (data, allocsize);
882	munmap ((caddr_t) buf, buflen);
883	*datacnt = 0;
884	*amt = 0;
885	return 0;
886	}
887
888	/* Ignore and skip deleted and label entries (catches also long
889	filenames). */
890	if ((char)ep->name[0] == FAT_DIR_NAME_DELETED'\xe5'
891	\|\| (ep->attribute & FAT_DIR_ATTR_LABEL0x08))
892	i--;
893	bufp = bufp + FAT_DIR_REC_LEN32;
894	}
895
896	/* Now copy entries one at a time. */
897	i = 0;
898	datap = *data;
899	while (((nentries == -1) \|\| (i < nentries))
900	&& (!bufsiz \|\| datap - *data < bufsiz)
901	&& bufp < buf + buflen)
902	{
903	char name[13];
904	size_t namlen, reclen;
905	struct dirrect dot = { FAT_DIR_NAME_DOT". ", FAT_DIR_ATTR_DIR0x10 };
906	struct dirrect dotdot = { FAT_DIR_NAME_DOTDOT".. ", FAT_DIR_ATTR_DIR0x10 };
907
908	/* The root directory in FAT file systems doesn't contain
909	entries for DOT and DOTDOT, they are special cased below. */
910	if (dp == diskfs_root_node && (i + entry == 0))
911	ep = &dot;
912	else if (dp == diskfs_root_node && (i + entry == 1))
913	ep = &dotdot;
914	else
915	ep = (struct dirrect *) bufp;
916
917	if ((char)ep->name[0] == FAT_DIR_NAME_LAST'\x00')
918	{
919	/* Last entry. */
920	bufp = buf + buflen;
921	continue;
922	}
923
924	if ((char)ep->name[0] == FAT_DIR_NAME_DELETED'\xe5' \|\| (ep->attribute & FAT_DIR_ATTR_LABEL0x08))
925	{
926	bufp = bufp + FAT_DIR_REC_LEN32;
927	continue;
928	}
929
930	/* See if there's room to hold this one. */
931
932	fat_to_unix_filename(ep->name, name);
933	namlen = strlen(name);
934
935	/* Perhaps downcase it? */
936
937	reclen = sizeof (struct dirent) + namlen;
938	reclen = (reclen + 3) & ~3;
939
940	/* Expand buffer if necessary. */
941	if (datap - *data + reclen > allocsize)
942	{
943	vm_address_t newdata;
944
945	vm_allocate (mach_task_self ()((__mach_task_self_ + 0)), &newdata,
946	(ouralloc
947	? (allocsize *= 2)
948	: (allocsize = vm_page_size * 2)), 1);
949	memcpy ((void ) newdata, (void ) data, datap - data);
950
951	if (ouralloc)
952	munmap (*data, allocsize / 2);
953
954	datap = (char ) newdata + (datap - data);
955	data = (char ) newdata;
956	ouralloc = 1;
957	}
958
959	userp = (struct dirent *) datap;
960
961	/* Fill in entry. */
962	{
963	ino_t inode;
964	inode_t v_inode;
965	vi_key_t entry_key;
966
967	entry_key.dir_inode = dp->cache_id;
968	entry_key.dir_offset = bufp - buf;
969
970	vi_rlookup (entry_key, &inode, &v_inode, 1);
971	userp->d_filenod_ino = inode;
972	}
973	userp->d_type = DT_UNKNOWNDT_UNKNOWN;
974	userp->d_reclen = reclen;
975	userp->d_namlen = namlen;
976	memcpy (userp->d_name, name, namlen);
977	userp->d_name[namlen] = '\0';
978
979	/* And move along. */
980	datap = datap + reclen;
981	if (!(dp == diskfs_root_node && i + entry < 2))
982	bufp = bufp + FAT_DIR_REC_LEN32;
983	i++;
984	}
985
986	/* If we didn't use all the pages of a buffer we allocated, free
987	the excess. */
988	if (ouralloc
989	&& round_page (datap - data)((((vm_offset_t) (datap - data) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size) < round_page (allocsize)((((vm_offset_t) (allocsize) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size))
990	munmap ((caddr_t) round_page (datap)((((vm_offset_t) (datap) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size),
991	round_page (allocsize)((((vm_offset_t) (allocsize) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size) - round_page (datap - data)((((vm_offset_t) (datap - data) + __vm_page_size - 1) / __vm_page_size ) * __vm_page_size));
992
993	munmap ((caddr_t) buf, buflen);
994
995	/* Return. */
996	*amt = i;
997	datacnt = datap - data;
998	return 0;
999	}