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      1 /*
      2  * Copyright (C) 1995, 1996, 1997 Wolfgang Solfrank
      3  * Copyright (c) 1995 Martin Husemann
      4  * Some structure declaration borrowed from Paul Popelka
      5  * (paulp (at) uts.amdahl.com), see /sys/msdosfs/ for reference.
      6  *
      7  * Redistribution and use in source and binary forms, with or without
      8  * modification, are permitted provided that the following conditions
      9  * are met:
     10  * 1. Redistributions of source code must retain the above copyright
     11  *    notice, this list of conditions and the following disclaimer.
     12  * 2. Redistributions in binary form must reproduce the above copyright
     13  *    notice, this list of conditions and the following disclaimer in the
     14  *    documentation and/or other materials provided with the distribution.
     15  * 3. All advertising materials mentioning features or use of this software
     16  *    must display the following acknowledgement:
     17  *	This product includes software developed by Martin Husemann
     18  *	and Wolfgang Solfrank.
     19  * 4. Neither the name of the University nor the names of its contributors
     20  *    may be used to endorse or promote products derived from this software
     21  *    without specific prior written permission.
     22  *
     23  * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
     24  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     25  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     26  * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
     27  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     28  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     29  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     30  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     31  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     32  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     33  */
     34 
     35 
     36 #include <sys/cdefs.h>
     37 #ifndef lint
     38 __RCSID("$NetBSD: dir.c,v 1.14 1998/08/25 19:18:15 ross Exp $");
     39 static const char rcsid[] =
     40   "$FreeBSD: src/sbin/fsck_msdosfs/dir.c,v 1.3 2003/12/26 17:24:37 trhodes Exp $";
     41 #endif /* not lint */
     42 
     43 #include <stdio.h>
     44 #include <stdlib.h>
     45 #include <string.h>
     46 #include <ctype.h>
     47 #include <stdio.h>
     48 #include <unistd.h>
     49 #include <time.h>
     50 
     51 #include <sys/param.h>
     52 
     53 #include "ext.h"
     54 #include "fsutil.h"
     55 
     56 #define	SLOT_EMPTY	0x00		/* slot has never been used */
     57 #define	SLOT_E5		0x05		/* the real value is 0xe5 */
     58 #define	SLOT_DELETED	0xe5		/* file in this slot deleted */
     59 
     60 #define	ATTR_NORMAL	0x00		/* normal file */
     61 #define	ATTR_READONLY	0x01		/* file is readonly */
     62 #define	ATTR_HIDDEN	0x02		/* file is hidden */
     63 #define	ATTR_SYSTEM	0x04		/* file is a system file */
     64 #define	ATTR_VOLUME	0x08		/* entry is a volume label */
     65 #define	ATTR_DIRECTORY	0x10		/* entry is a directory name */
     66 #define	ATTR_ARCHIVE	0x20		/* file is new or modified */
     67 
     68 #define	ATTR_WIN95	0x0f		/* long name record */
     69 
     70 /*
     71  * This is the format of the contents of the deTime field in the direntry
     72  * structure.
     73  * We don't use bitfields because we don't know how compilers for
     74  * arbitrary machines will lay them out.
     75  */
     76 #define DT_2SECONDS_MASK	0x1F	/* seconds divided by 2 */
     77 #define DT_2SECONDS_SHIFT	0
     78 #define DT_MINUTES_MASK		0x7E0	/* minutes */
     79 #define DT_MINUTES_SHIFT	5
     80 #define DT_HOURS_MASK		0xF800	/* hours */
     81 #define DT_HOURS_SHIFT		11
     82 
     83 /*
     84  * This is the format of the contents of the deDate field in the direntry
     85  * structure.
     86  */
     87 #define DD_DAY_MASK		0x1F	/* day of month */
     88 #define DD_DAY_SHIFT		0
     89 #define DD_MONTH_MASK		0x1E0	/* month */
     90 #define DD_MONTH_SHIFT		5
     91 #define DD_YEAR_MASK		0xFE00	/* year - 1980 */
     92 #define DD_YEAR_SHIFT		9
     93 
     94 
     95 /* dir.c */
     96 static struct dosDirEntry *newDosDirEntry(void);
     97 static void freeDosDirEntry(struct dosDirEntry *);
     98 static struct dirTodoNode *newDirTodo(void);
     99 static void freeDirTodo(struct dirTodoNode *);
    100 static char *fullpath(struct dosDirEntry *);
    101 static u_char calcShortSum(u_char *);
    102 static int delete(int, struct bootblock *, struct fatEntry *, cl_t, int,
    103     cl_t, int, int);
    104 static int removede(int, struct bootblock *, struct fatEntry *, u_char *,
    105     u_char *, cl_t, cl_t, cl_t, char *, int);
    106 static int checksize(struct bootblock *, struct fatEntry *, u_char *,
    107     struct dosDirEntry *);
    108 static int readDosDirSection(int, struct bootblock *, struct fatEntry *,
    109     struct dosDirEntry *);
    110 
    111 /*
    112  * Manage free dosDirEntry structures.
    113  */
    114 static struct dosDirEntry *freede;
    115 
    116 static struct dosDirEntry *
    117 newDosDirEntry(void)
    118 {
    119 	struct dosDirEntry *de;
    120 
    121 	if (!(de = freede)) {
    122 		if (!(de = (struct dosDirEntry *)malloc(sizeof *de)))
    123 			return 0;
    124 	} else
    125 		freede = de->next;
    126 	return de;
    127 }
    128 
    129 static void
    130 freeDosDirEntry(struct dosDirEntry *de)
    131 {
    132 	de->next = freede;
    133 	freede = de;
    134 }
    135 
    136 /*
    137  * The same for dirTodoNode structures.
    138  */
    139 static struct dirTodoNode *freedt;
    140 
    141 static struct dirTodoNode *
    142 newDirTodo(void)
    143 {
    144 	struct dirTodoNode *dt;
    145 
    146 	if (!(dt = freedt)) {
    147 		if (!(dt = (struct dirTodoNode *)malloc(sizeof *dt)))
    148 			return 0;
    149 	} else
    150 		freedt = dt->next;
    151 	return dt;
    152 }
    153 
    154 static void
    155 freeDirTodo(struct dirTodoNode *dt)
    156 {
    157 	dt->next = freedt;
    158 	freedt = dt;
    159 }
    160 
    161 /*
    162  * The stack of unread directories
    163  */
    164 struct dirTodoNode *pendingDirectories = NULL;
    165 
    166 /*
    167  * Return the full pathname for a directory entry.
    168  */
    169 static char *
    170 fullpath(struct dosDirEntry *dir)
    171 {
    172 	static char namebuf[MAXPATHLEN + 1];
    173 	char *cp, *np;
    174 	int nl;
    175 
    176 	cp = namebuf + sizeof namebuf - 1;
    177 	*cp = '\0';
    178 	do {
    179 		np = dir->lname[0] ? dir->lname : dir->name;
    180 		nl = strlen(np);
    181 		if ((cp -= nl) <= namebuf + 1)
    182 			break;
    183 		memcpy(cp, np, nl);
    184 		*--cp = '/';
    185 	} while ((dir = dir->parent) != NULL);
    186 	if (dir)
    187 		*--cp = '?';
    188 	else
    189 		cp++;
    190 	return cp;
    191 }
    192 
    193 /*
    194  * Calculate a checksum over an 8.3 alias name
    195  */
    196 static u_char
    197 calcShortSum(u_char *p)
    198 {
    199 	u_char sum = 0;
    200 	int i;
    201 
    202 	for (i = 0; i < 11; i++) {
    203 		sum = (sum << 7)|(sum >> 1);	/* rotate right */
    204 		sum += p[i];
    205 	}
    206 
    207 	return sum;
    208 }
    209 
    210 /*
    211  * Global variables temporarily used during a directory scan
    212  */
    213 static char longName[DOSLONGNAMELEN] = "";
    214 static u_char *buffer = NULL;
    215 static u_char *delbuf = NULL;
    216 
    217 struct dosDirEntry *rootDir;
    218 static struct dosDirEntry *lostDir;
    219 
    220 /*
    221  * Init internal state for a new directory scan.
    222  */
    223 int
    224 resetDosDirSection(struct bootblock *boot, struct fatEntry *fat)
    225 {
    226 	int b1, b2;
    227 	cl_t cl;
    228 	int ret = FSOK;
    229 
    230 	b1 = boot->RootDirEnts * 32;
    231 	b2 = boot->SecPerClust * boot->BytesPerSec;
    232 
    233 	if (!(buffer = malloc(b1 > b2 ? b1 : b2))
    234 	    || !(delbuf = malloc(b2))
    235 	    || !(rootDir = newDosDirEntry())) {
    236 		perror("No space for directory");
    237 		return FSFATAL;
    238 	}
    239 	memset(rootDir, 0, sizeof *rootDir);
    240 	if (boot->flags & FAT32) {
    241 		if (boot->RootCl < CLUST_FIRST || boot->RootCl >= boot->NumClusters) {
    242 			pfatal("Root directory starts with cluster out of range(%u)",
    243 			       boot->RootCl);
    244 			return FSFATAL;
    245 		}
    246 		cl = fat[boot->RootCl].next;
    247 		if (cl < CLUST_FIRST
    248 		    || (cl >= CLUST_RSRVD && cl< CLUST_EOFS)
    249 		    || fat[boot->RootCl].head != boot->RootCl) {
    250 			if (cl == CLUST_FREE)
    251 				pwarn("Root directory starts with free cluster\n");
    252 			else if (cl >= CLUST_RSRVD)
    253 				pwarn("Root directory starts with cluster marked %s\n",
    254 				      rsrvdcltype(cl));
    255 			else {
    256 				pfatal("Root directory doesn't start a cluster chain");
    257 				return FSFATAL;
    258 			}
    259 			if (ask(1, "Fix")) {
    260 				fat[boot->RootCl].next = CLUST_FREE;
    261 				ret = FSFATMOD;
    262 			} else
    263 				ret = FSFATAL;
    264 		}
    265 
    266 		fat[boot->RootCl].flags |= FAT_USED;
    267 		rootDir->head = boot->RootCl;
    268 	}
    269 
    270 	return ret;
    271 }
    272 
    273 /*
    274  * Cleanup after a directory scan
    275  */
    276 void
    277 finishDosDirSection(void)
    278 {
    279 	struct dirTodoNode *p, *np;
    280 	struct dosDirEntry *d, *nd;
    281 
    282 	for (p = pendingDirectories; p; p = np) {
    283 		np = p->next;
    284 		freeDirTodo(p);
    285 	}
    286 	pendingDirectories = 0;
    287 	for (d = rootDir; d; d = nd) {
    288 		if ((nd = d->child) != NULL) {
    289 			d->child = 0;
    290 			continue;
    291 		}
    292 		if (!(nd = d->next))
    293 			nd = d->parent;
    294 		freeDosDirEntry(d);
    295 	}
    296 	rootDir = lostDir = NULL;
    297 	free(buffer);
    298 	free(delbuf);
    299 	buffer = NULL;
    300 	delbuf = NULL;
    301 }
    302 
    303 /*
    304  * Delete directory entries between startcl, startoff and endcl, endoff.
    305  */
    306 static int
    307 delete(int f, struct bootblock *boot, struct fatEntry *fat, cl_t startcl,
    308     int startoff, cl_t endcl, int endoff, int notlast)
    309 {
    310 	u_char *s, *e;
    311 	loff_t off;
    312 	int clsz = boot->SecPerClust * boot->BytesPerSec;
    313 
    314 	s = delbuf + startoff;
    315 	e = delbuf + clsz;
    316 	while (startcl >= CLUST_FIRST && startcl < boot->NumClusters) {
    317 		if (startcl == endcl) {
    318 			if (notlast)
    319 				break;
    320 			e = delbuf + endoff;
    321 		}
    322 		off = startcl * boot->SecPerClust + boot->ClusterOffset;
    323 		off *= boot->BytesPerSec;
    324 		if (lseek64(f, off, SEEK_SET) != off) {
    325 			printf("off = %llu\n", off);
    326 			perror("Unable to lseek64");
    327 			return FSFATAL;
    328 		}
    329 		if (read(f, delbuf, clsz) != clsz) {
    330 			perror("Unable to read directory");
    331 			return FSFATAL;
    332 		}
    333 		while (s < e) {
    334 			*s = SLOT_DELETED;
    335 			s += 32;
    336 		}
    337 		if (lseek64(f, off, SEEK_SET) != off) {
    338 			printf("off = %llu\n", off);
    339 			perror("Unable to lseek64");
    340 			return FSFATAL;
    341 		}
    342 		if (write(f, delbuf, clsz) != clsz) {
    343 			perror("Unable to write directory");
    344 			return FSFATAL;
    345 		}
    346 		if (startcl == endcl)
    347 			break;
    348 		startcl = fat[startcl].next;
    349 		s = delbuf;
    350 	}
    351 	return FSOK;
    352 }
    353 
    354 static int
    355 removede(int f, struct bootblock *boot, struct fatEntry *fat, u_char *start,
    356     u_char *end, cl_t startcl, cl_t endcl, cl_t curcl, char *path, int type)
    357 {
    358 	switch (type) {
    359 	case 0:
    360 		pwarn("Invalid long filename entry for %s\n", path);
    361 		break;
    362 	case 1:
    363 		pwarn("Invalid long filename entry at end of directory %s\n", path);
    364 		break;
    365 	case 2:
    366 		pwarn("Invalid long filename entry for volume label\n");
    367 		break;
    368 	}
    369 	if (ask(1, "Remove")) {
    370 		if (startcl != curcl) {
    371 			if (delete(f, boot, fat,
    372 				   startcl, start - buffer,
    373 				   endcl, end - buffer,
    374 				   endcl == curcl) == FSFATAL)
    375 				return FSFATAL;
    376 			start = buffer;
    377 		}
    378 		if (endcl == curcl)
    379 			for (; start < end; start += 32)
    380 				*start = SLOT_DELETED;
    381 		return FSDIRMOD;
    382 	}
    383 	return FSERROR;
    384 }
    385 
    386 /*
    387  * Check an in-memory file entry
    388  */
    389 static int
    390 checksize(struct bootblock *boot, struct fatEntry *fat, u_char *p,
    391     struct dosDirEntry *dir)
    392 {
    393 	/*
    394 	 * Check size on ordinary files
    395 	 */
    396 	int32_t physicalSize;
    397 
    398 	if (dir->head == CLUST_FREE)
    399 		physicalSize = 0;
    400 	else {
    401 		if (dir->head < CLUST_FIRST || dir->head >= boot->NumClusters)
    402 			return FSERROR;
    403 		physicalSize = fat[dir->head].length * boot->ClusterSize;
    404 	}
    405 	if (physicalSize < dir->size) {
    406 		pwarn("size of %s is %u, should at most be %u\n",
    407 		      fullpath(dir), dir->size, physicalSize);
    408 		if (ask(1, "Truncate")) {
    409 			dir->size = physicalSize;
    410 			p[28] = (u_char)physicalSize;
    411 			p[29] = (u_char)(physicalSize >> 8);
    412 			p[30] = (u_char)(physicalSize >> 16);
    413 			p[31] = (u_char)(physicalSize >> 24);
    414 			return FSDIRMOD;
    415 		} else
    416 			return FSERROR;
    417 	} else if (physicalSize - dir->size >= boot->ClusterSize) {
    418 		pwarn("%s has too many clusters allocated\n",
    419 		      fullpath(dir));
    420 		if (ask(1, "Drop superfluous clusters")) {
    421 			cl_t cl;
    422 			u_int32_t sz = 0;
    423 
    424 			for (cl = dir->head; (sz += boot->ClusterSize) < dir->size;)
    425 				cl = fat[cl].next;
    426 			clearchain(boot, fat, fat[cl].next);
    427 			fat[cl].next = CLUST_EOF;
    428 			return FSFATMOD;
    429 		} else
    430 			return FSERROR;
    431 	}
    432 	return FSOK;
    433 }
    434 
    435 
    436 static u_char  dot_header[16]={0x2E, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x10, 0x00, 0x00, 0x00, 0x00};
    437 static u_char  dot_dot_header[16]={0x2E, 0x2E, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x10, 0x00, 0x00, 0x00, 0x00};
    438 
    439 /*
    440  * Check for missing or broken '.' and '..' entries.
    441  */
    442 static int
    443 check_dot_dot(int f, struct bootblock *boot, struct fatEntry *fat,struct dosDirEntry *dir)
    444 {
    445 	u_char *p, *buf;
    446 	loff_t off;
    447 	int last;
    448 	cl_t cl;
    449 	int rc=0, n_count;
    450 
    451 	int dot, dotdot;
    452 	dot = dotdot = 0;
    453 	cl = dir->head;
    454 
    455 	if (dir->parent && (cl < CLUST_FIRST || cl >= boot->NumClusters)) {
    456 		return rc;
    457 	}
    458 
    459 	do {
    460 		if (!(boot->flags & FAT32) && !dir->parent) {
    461 			last = boot->RootDirEnts * 32;
    462 			off = boot->ResSectors + boot->FATs * boot->FATsecs;
    463 		} else {
    464 			last = boot->SecPerClust * boot->BytesPerSec;
    465 			off = cl * boot->SecPerClust + boot->ClusterOffset;
    466 		}
    467 
    468 		off *= boot->BytesPerSec;
    469 		buf = malloc(last);
    470 		if (!buf) {
    471 			perror("Unable to malloc");
    472 			return FSFATAL;
    473 		}
    474 		if (lseek64(f, off, SEEK_SET) != off) {
    475 			printf("off = %llu\n", off);
    476 			perror("Unable to lseek64");
    477 			return FSFATAL;
    478 		}
    479 		if (read(f, buf, last) != last) {
    480 			perror("Unable to read");
    481 			return FSFATAL;
    482 		}
    483 		last /= 32;
    484 		p = buf;
    485 		for (n_count=0, rc=0; n_count < 11; n_count++) {
    486 			if (dot_header[n_count] != p[n_count]) {
    487 				rc=-1;
    488 				break;
    489 			}
    490 		}
    491 		 if(!rc)
    492 			dot=1;
    493 
    494 		for (n_count = 0, rc = 0; n_count < 11; n_count++) {
    495 			if (dot_dot_header[n_count] != p[n_count+32]) {
    496 				rc=-1;
    497 				break;
    498 			}
    499 		}
    500 		if(!rc)
    501 			dotdot=1;
    502 		free(buf);
    503 	} while ((cl = fat[cl].next) >= CLUST_FIRST && cl < boot->NumClusters);
    504 
    505 	if (!dot || !dotdot) {
    506 		if (!dot)
    507 			pwarn("%s: '.' absent for %s.\n",__func__,dir->name);
    508 
    509 		if (!dotdot)
    510 			pwarn("%s: '..' absent for %s. \n",__func__,dir->name);
    511 		return -1;
    512 	}
    513 	return 0;
    514 }
    515 
    516 /*
    517  * Read a directory and
    518  *   - resolve long name records
    519  *   - enter file and directory records into the parent's list
    520  *   - push directories onto the todo-stack
    521  */
    522 static int
    523 readDosDirSection(int f, struct bootblock *boot, struct fatEntry *fat,
    524     struct dosDirEntry *dir)
    525 {
    526 	struct dosDirEntry dirent, *d;
    527 	u_char *p, *vallfn, *invlfn, *empty;
    528 	loff_t off;
    529 	int i, j, k, last;
    530 	cl_t cl, valcl = ~0, invcl = ~0, empcl = ~0;
    531 	char *t;
    532 	u_int lidx = 0;
    533 	int shortSum;
    534 	int mod = FSOK;
    535 	int n_count=0;
    536 	int rc=0;
    537 #define	THISMOD	0x8000			/* Only used within this routine */
    538 
    539 	cl = dir->head;
    540 	if (dir->parent && (cl < CLUST_FIRST || cl >= boot->NumClusters)) {
    541 		/*
    542 		 * Already handled somewhere else.
    543 		 */
    544 		return FSOK;
    545 	}
    546 	shortSum = -1;
    547 	vallfn = invlfn = empty = NULL;
    548 	int dot,dotdot;
    549 	dot = dotdot = 0;
    550 
    551 	do {
    552 		if (!(boot->flags & FAT32) && !dir->parent) {
    553 			last = boot->RootDirEnts * 32;
    554 			off = boot->ResSectors + boot->FATs * boot->FATsecs;
    555 		} else {
    556 			last = boot->SecPerClust * boot->BytesPerSec;
    557 			off = cl * boot->SecPerClust + boot->ClusterOffset;
    558 		}
    559 
    560 		off *= boot->BytesPerSec;
    561 		if (lseek64(f, off, SEEK_SET) != off) {
    562                         printf("off = %llu\n", off);
    563 			perror("Unable to lseek64");
    564 			return FSFATAL;
    565                 }
    566                 if (read(f, buffer, last) != last) {
    567 			perror("Unable to read");
    568 			return FSFATAL;
    569                 }
    570 		last /= 32;
    571 		for (p = buffer, i = 0; i < last; i++, p += 32) {
    572 			if (dir->fsckflags & DIREMPWARN) {
    573 				*p = SLOT_EMPTY;
    574 				continue;
    575 			}
    576 
    577 			if (*p == SLOT_EMPTY || *p == SLOT_DELETED) {
    578 				if (*p == SLOT_EMPTY) {
    579 					dir->fsckflags |= DIREMPTY;
    580 					empty = p;
    581 					empcl = cl;
    582 				}
    583 				continue;
    584 			}
    585 
    586 			if (dir->fsckflags & DIREMPTY) {
    587 				if (!(dir->fsckflags & DIREMPWARN)) {
    588 					pwarn("%s has entries after end of directory\n",
    589 					      fullpath(dir));
    590 					if (ask(1, "Extend")) {
    591 						u_char *q;
    592 
    593 						dir->fsckflags &= ~DIREMPTY;
    594 						if (delete(f, boot, fat,
    595 							   empcl, empty - buffer,
    596 							   cl, p - buffer, 1) == FSFATAL)
    597 							return FSFATAL;
    598 						q = empcl == cl ? empty : buffer;
    599 						for (; q < p; q += 32)
    600 							*q = SLOT_DELETED;
    601 						mod |= THISMOD|FSDIRMOD;
    602 					} else if (ask(1, "Truncate"))
    603 						dir->fsckflags |= DIREMPWARN;
    604 				}
    605 				if (dir->fsckflags & DIREMPWARN) {
    606 					*p = SLOT_DELETED;
    607 					mod |= THISMOD|FSDIRMOD;
    608 					continue;
    609 				} else if (dir->fsckflags & DIREMPTY)
    610 					mod |= FSERROR;
    611 				empty = NULL;
    612 			}
    613 
    614 			if (p[11] == ATTR_WIN95) {
    615 				if (*p & LRFIRST) {
    616 					if (shortSum != -1) {
    617 						if (!invlfn) {
    618 							invlfn = vallfn;
    619 							invcl = valcl;
    620 						}
    621 					}
    622 					memset(longName, 0, sizeof longName);
    623 					shortSum = p[13];
    624 					vallfn = p;
    625 					valcl = cl;
    626 				} else if (shortSum != p[13]
    627 					   || lidx != (*p & LRNOMASK)) {
    628 					if (!invlfn) {
    629 						invlfn = vallfn;
    630 						invcl = valcl;
    631 					}
    632 					if (!invlfn) {
    633 						invlfn = p;
    634 						invcl = cl;
    635 					}
    636 					vallfn = NULL;
    637 				}
    638 				lidx = *p & LRNOMASK;
    639 				t = longName + --lidx * 13;
    640 				for (k = 1; k < 11 && t < longName + sizeof(longName); k += 2) {
    641 					if (!p[k] && !p[k + 1])
    642 						break;
    643 					*t++ = p[k];
    644 					/*
    645 					 * Warn about those unusable chars in msdosfs here?	XXX
    646 					 */
    647 					if (p[k + 1])
    648 						t[-1] = '?';
    649 				}
    650 				if (k >= 11)
    651 					for (k = 14; k < 26 && t < longName + sizeof(longName); k += 2) {
    652 						if (!p[k] && !p[k + 1])
    653 							break;
    654 						*t++ = p[k];
    655 						if (p[k + 1])
    656 							t[-1] = '?';
    657 					}
    658 				if (k >= 26)
    659 					for (k = 28; k < 32 && t < longName + sizeof(longName); k += 2) {
    660 						if (!p[k] && !p[k + 1])
    661 							break;
    662 						*t++ = p[k];
    663 						if (p[k + 1])
    664 							t[-1] = '?';
    665 					}
    666 				if (t >= longName + sizeof(longName)) {
    667 					pwarn("long filename too long\n");
    668 					if (!invlfn) {
    669 						invlfn = vallfn;
    670 						invcl = valcl;
    671 					}
    672 					vallfn = NULL;
    673 				}
    674 				if (p[26] | (p[27] << 8)) {
    675 					pwarn("long filename record cluster start != 0\n");
    676 					if (!invlfn) {
    677 						invlfn = vallfn;
    678 						invcl = cl;
    679 					}
    680 					vallfn = NULL;
    681 				}
    682 				continue;	/* long records don't carry further
    683 						 * information */
    684 			}
    685 
    686 			/*
    687 			 * This is a standard msdosfs directory entry.
    688 			 */
    689 			memset(&dirent, 0, sizeof dirent);
    690 
    691 			/*
    692 			 * it's a short name record, but we need to know
    693 			 * more, so get the flags first.
    694 			 */
    695 			dirent.flags = p[11];
    696 
    697 			/*
    698 			 * Translate from 850 to ISO here		XXX
    699 			 */
    700 			for (j = 0; j < 8; j++)
    701 				dirent.name[j] = p[j];
    702 			dirent.name[8] = '\0';
    703 			for (k = 7; k >= 0 && dirent.name[k] == ' '; k--)
    704 				dirent.name[k] = '\0';
    705 			if (dirent.name[k] != '\0')
    706 				k++;
    707 			if (dirent.name[0] == SLOT_E5)
    708 				dirent.name[0] = 0xe5;
    709 
    710 			if (dirent.flags & ATTR_VOLUME) {
    711 				if (vallfn || invlfn) {
    712 					mod |= removede(f, boot, fat,
    713 							invlfn ? invlfn : vallfn, p,
    714 							invlfn ? invcl : valcl, -1, 0,
    715 							fullpath(dir), 2);
    716 					vallfn = NULL;
    717 					invlfn = NULL;
    718 				}
    719 				continue;
    720 			}
    721 
    722 			if (p[8] != ' ')
    723 				dirent.name[k++] = '.';
    724 			for (j = 0; j < 3; j++)
    725 				dirent.name[k++] = p[j+8];
    726 			dirent.name[k] = '\0';
    727 			for (k--; k >= 0 && dirent.name[k] == ' '; k--)
    728 				dirent.name[k] = '\0';
    729 
    730 			if (vallfn && shortSum != calcShortSum(p)) {
    731 				if (!invlfn) {
    732 					invlfn = vallfn;
    733 					invcl = valcl;
    734 				}
    735 				vallfn = NULL;
    736 			}
    737 			dirent.head = p[26] | (p[27] << 8);
    738 			if (boot->ClustMask == CLUST32_MASK)
    739 				dirent.head |= (p[20] << 16) | (p[21] << 24);
    740 			dirent.size = p[28] | (p[29] << 8) | (p[30] << 16) | (p[31] << 24);
    741 			if (vallfn) {
    742 				strcpy(dirent.lname, longName);
    743 				longName[0] = '\0';
    744 				shortSum = -1;
    745 			}
    746 
    747 			dirent.parent = dir;
    748 			dirent.next = dir->child;
    749 
    750 			if (invlfn) {
    751 				mod |= k = removede(f, boot, fat,
    752 						    invlfn, vallfn ? vallfn : p,
    753 						    invcl, vallfn ? valcl : cl, cl,
    754 						    fullpath(&dirent), 0);
    755 				if (mod & FSFATAL)
    756 					return FSFATAL;
    757 				if (vallfn
    758 				    ? (valcl == cl && vallfn != buffer)
    759 				    : p != buffer)
    760 					if (k & FSDIRMOD)
    761 						mod |= THISMOD;
    762 			}
    763 
    764 			vallfn = NULL; /* not used any longer */
    765 			invlfn = NULL;
    766 
    767 			if (dirent.size == 0 && !(dirent.flags & ATTR_DIRECTORY)) {
    768 				if (dirent.head != 0) {
    769 					pwarn("%s has clusters, but size 0\n",
    770 					      fullpath(&dirent));
    771 					if (ask(1, "Drop allocated clusters")) {
    772 						p[26] = p[27] = 0;
    773 						if (boot->ClustMask == CLUST32_MASK)
    774 							p[20] = p[21] = 0;
    775 						clearchain(boot, fat, dirent.head);
    776 						dirent.head = 0;
    777 						mod |= THISMOD|FSDIRMOD|FSFATMOD;
    778 					} else
    779 						mod |= FSERROR;
    780 				}
    781 			} else if (dirent.head == 0
    782 				   && !strcmp(dirent.name, "..")
    783 				   && dir->parent			/* XXX */
    784 				   && !dir->parent->parent) {
    785 				/*
    786 				 *  Do nothing, the parent is the root
    787 				 */
    788 			} else if (dirent.head < CLUST_FIRST
    789 				   || dirent.head >= boot->NumClusters
    790 				   || fat[dirent.head].next == CLUST_FREE
    791 				   || (fat[dirent.head].next >= CLUST_RSRVD
    792 				       && fat[dirent.head].next < CLUST_EOFS)
    793 				   || fat[dirent.head].head != dirent.head) {
    794 				if (dirent.head == 0)
    795 					pwarn("%s has no clusters\n",
    796 					      fullpath(&dirent));
    797 				else if (dirent.head < CLUST_FIRST
    798 					 || dirent.head >= boot->NumClusters)
    799 					pwarn("%s starts with cluster out of range(%u)\n",
    800 					      fullpath(&dirent),
    801 					      dirent.head);
    802 				else if (fat[dirent.head].next == CLUST_FREE)
    803 					pwarn("%s starts with free cluster\n",
    804 					      fullpath(&dirent));
    805 				else if (fat[dirent.head].next >= CLUST_RSRVD)
    806 					pwarn("%s starts with cluster marked %s\n",
    807 					      fullpath(&dirent),
    808 					      rsrvdcltype(fat[dirent.head].next));
    809 				else
    810 					pwarn("%s doesn't start a cluster chain\n",
    811 					      fullpath(&dirent));
    812 				if (dirent.flags & ATTR_DIRECTORY) {
    813 					if (ask(1, "Remove")) {
    814 						*p = SLOT_DELETED;
    815 						mod |= THISMOD|FSDIRMOD;
    816 					} else
    817 						mod |= FSERROR;
    818 					continue;
    819 				} else {
    820 					if (ask(1, "Truncate")) {
    821 						p[28] = p[29] = p[30] = p[31] = 0;
    822 						p[26] = p[27] = 0;
    823 						if (boot->ClustMask == CLUST32_MASK)
    824 							p[20] = p[21] = 0;
    825 						dirent.size = 0;
    826 						mod |= THISMOD|FSDIRMOD;
    827 					} else
    828 						mod |= FSERROR;
    829 				}
    830 			}
    831 
    832 			if (dirent.head >= CLUST_FIRST && dirent.head < boot->NumClusters)
    833 				fat[dirent.head].flags |= FAT_USED;
    834 
    835 			if (dirent.flags & ATTR_DIRECTORY) {
    836 				/*
    837 				 * gather more info for directories
    838 				 */
    839 				struct dirTodoNode *n;
    840 
    841 				if (dirent.size) {
    842 					pwarn("Directory %s has size != 0\n",
    843 					      fullpath(&dirent));
    844 					if (ask(1, "Correct")) {
    845 						p[28] = p[29] = p[30] = p[31] = 0;
    846 						dirent.size = 0;
    847 						mod |= THISMOD|FSDIRMOD;
    848 					} else
    849 						mod |= FSERROR;
    850 				}
    851 				/*
    852 				 * handle '.' and '..' specially
    853 				 */
    854 				if (strcmp(dirent.name, ".") == 0) {
    855 					if (dirent.head != dir->head) {
    856 						pwarn("'.' entry in %s has incorrect start cluster\n",
    857 						      fullpath(dir));
    858 						if (ask(1, "Correct")) {
    859 							dirent.head = dir->head;
    860 							p[26] = (u_char)dirent.head;
    861 							p[27] = (u_char)(dirent.head >> 8);
    862 							if (boot->ClustMask == CLUST32_MASK) {
    863 								p[20] = (u_char)(dirent.head >> 16);
    864 								p[21] = (u_char)(dirent.head >> 24);
    865 							}
    866 							mod |= THISMOD|FSDIRMOD;
    867 						} else
    868 							mod |= FSERROR;
    869 					}
    870 					continue;
    871                 } else if (strcmp(dirent.name, "..") == 0) {
    872 					if (dir->parent) {		/* XXX */
    873 						if (!dir->parent->parent) {
    874 							if (dirent.head) {
    875 								pwarn("'..' entry in %s has non-zero start cluster\n",
    876 								      fullpath(dir));
    877 								if (ask(1, "Correct")) {
    878 									dirent.head = 0;
    879 									p[26] = p[27] = 0;
    880 									if (boot->ClustMask == CLUST32_MASK)
    881 										p[20] = p[21] = 0;
    882 									mod |= THISMOD|FSDIRMOD;
    883 								} else
    884 									mod |= FSERROR;
    885 							}
    886 						} else if (dirent.head != dir->parent->head) {
    887 							pwarn("'..' entry in %s has incorrect start cluster\n",
    888 							      fullpath(dir));
    889 							if (ask(1, "Correct")) {
    890 								dirent.head = dir->parent->head;
    891 								p[26] = (u_char)dirent.head;
    892 								p[27] = (u_char)(dirent.head >> 8);
    893 								if (boot->ClustMask == CLUST32_MASK) {
    894 									p[20] = (u_char)(dirent.head >> 16);
    895 									p[21] = (u_char)(dirent.head >> 24);
    896 								}
    897 								mod |= THISMOD|FSDIRMOD;
    898 							} else
    899 								mod |= FSERROR;
    900 						}
    901 					}
    902 					continue;
    903 				} else { //only one directory entry can point to dir->head, it's  '.'
    904 					if (dirent.head == dir->head) {
    905 						pwarn("%s entry in %s has incorrect start cluster.remove\n",
    906 								dirent.name, fullpath(dir));
    907 						//we have to remove this directory entry rigth now rigth here
    908 						if (ask(1, "Remove")) {
    909 							*p = SLOT_DELETED;
    910 							mod |= THISMOD|FSDIRMOD;
    911 						} else
    912 							mod |= FSERROR;
    913 						continue;
    914 					}
    915 					/* Consistency checking. a directory must have at least two entries:
    916 					   a dot (.) entry that points to itself, and a dot-dot (..)
    917 					   entry that points to its parent.
    918 					 */
    919 					if (check_dot_dot(f,boot,fat,&dirent)) {
    920 						//mark directory entry as deleted.
    921 						if (ask(1, "Remove")) {
    922 							*p = SLOT_DELETED;
    923 							mod |= THISMOD|FSDIRMOD;
    924 						} else
    925 							mod |= FSERROR;
    926 						continue;
    927                     }
    928 				}
    929 
    930 				/* create directory tree node */
    931 				if (!(d = newDosDirEntry())) {
    932 					perror("No space for directory");
    933 					return FSFATAL;
    934 				}
    935 				memcpy(d, &dirent, sizeof(struct dosDirEntry));
    936 				/* link it into the tree */
    937 				dir->child = d;
    938 #if 0
    939 				printf("%s: %s : 0x%02x:head %d, next 0x%0x parent 0x%0x child 0x%0x\n",
    940 						__func__,d->name,d->flags,d->head,d->next,d->parent,d->child);
    941 #endif
    942 				/* Enter this directory into the todo list */
    943 				if (!(n = newDirTodo())) {
    944 					perror("No space for todo list");
    945 					return FSFATAL;
    946 				}
    947 				n->next = pendingDirectories;
    948 				n->dir = d;
    949 				pendingDirectories = n;
    950 			} else {
    951 				mod |= k = checksize(boot, fat, p, &dirent);
    952 				if (k & FSDIRMOD)
    953 					mod |= THISMOD;
    954 			}
    955 			boot->NumFiles++;
    956 		}
    957 		if (mod & THISMOD) {
    958 			last *= 32;
    959 			if (lseek64(f, off, SEEK_SET) != off
    960 			    || write(f, buffer, last) != last) {
    961 				perror("Unable to write directory");
    962 				return FSFATAL;
    963 			}
    964 			mod &= ~THISMOD;
    965 		}
    966 	} while ((cl = fat[cl].next) >= CLUST_FIRST && cl < boot->NumClusters);
    967 	if (invlfn || vallfn)
    968 		mod |= removede(f, boot, fat,
    969 				invlfn ? invlfn : vallfn, p,
    970 				invlfn ? invcl : valcl, -1, 0,
    971 				fullpath(dir), 1);
    972 	return mod & ~THISMOD;
    973 }
    974 
    975 int
    976 handleDirTree(int dosfs, struct bootblock *boot, struct fatEntry *fat)
    977 {
    978 	int mod;
    979 
    980 	mod = readDosDirSection(dosfs, boot, fat, rootDir);
    981 	if (mod & FSFATAL)
    982 		return FSFATAL;
    983 
    984 	/*
    985 	 * process the directory todo list
    986 	 */
    987 	while (pendingDirectories) {
    988 		struct dosDirEntry *dir = pendingDirectories->dir;
    989 		struct dirTodoNode *n = pendingDirectories->next;
    990 
    991 		/*
    992 		 * remove TODO entry now, the list might change during
    993 		 * directory reads
    994 		 */
    995 		freeDirTodo(pendingDirectories);
    996 		pendingDirectories = n;
    997 
    998 		/*
    999 		 * handle subdirectory
   1000 		 */
   1001 		mod |= readDosDirSection(dosfs, boot, fat, dir);
   1002 		if (mod & FSFATAL)
   1003 			return FSFATAL;
   1004 	}
   1005 
   1006 	return mod;
   1007 }
   1008 
   1009 /*
   1010  * Try to reconnect a FAT chain into dir
   1011  */
   1012 static u_char *lfbuf;
   1013 static cl_t lfcl;
   1014 static loff_t lfoff;
   1015 
   1016 int
   1017 reconnect(int dosfs, struct bootblock *boot, struct fatEntry *fat, cl_t head)
   1018 {
   1019 	struct dosDirEntry d;
   1020 	u_char *p;
   1021 
   1022 	if (!ask(1, "Reconnect"))
   1023 		return FSERROR;
   1024 
   1025 	if (!lostDir) {
   1026 		for (lostDir = rootDir->child; lostDir; lostDir = lostDir->next) {
   1027 			if (!strcmp(lostDir->name, LOSTDIR))
   1028 				break;
   1029 		}
   1030 		if (!lostDir) {		/* Create LOSTDIR?		XXX */
   1031 			pwarn("No %s directory\n", LOSTDIR);
   1032 			return FSERROR;
   1033 		}
   1034 	}
   1035 	if (!lfbuf) {
   1036 		lfbuf = malloc(boot->ClusterSize);
   1037 		if (!lfbuf) {
   1038 			perror("No space for buffer");
   1039 			return FSFATAL;
   1040 		}
   1041 		p = NULL;
   1042 	} else
   1043 		p = lfbuf;
   1044 	while (1) {
   1045 		if (p)
   1046 			for (; p < lfbuf + boot->ClusterSize; p += 32)
   1047 				if (*p == SLOT_EMPTY
   1048 				    || *p == SLOT_DELETED)
   1049 					break;
   1050 		if (p && p < lfbuf + boot->ClusterSize)
   1051 			break;
   1052 		lfcl = p ? fat[lfcl].next : lostDir->head;
   1053 		if (lfcl < CLUST_FIRST || lfcl >= boot->NumClusters) {
   1054 			/* Extend LOSTDIR?				XXX */
   1055 			pwarn("No space in %s\n", LOSTDIR);
   1056 			lfcl = (lostDir->head < boot->NumClusters) ? lostDir->head : 0;
   1057 			return FSERROR;
   1058 		}
   1059 		lfoff = lfcl * boot->ClusterSize
   1060 		    + boot->ClusterOffset * boot->BytesPerSec;
   1061 		if (lseek64(dosfs, lfoff, SEEK_SET) != lfoff
   1062 		    || read(dosfs, lfbuf, boot->ClusterSize) != boot->ClusterSize) {
   1063 			perror("could not read LOST.DIR");
   1064 			return FSFATAL;
   1065 		}
   1066 		p = lfbuf;
   1067 	}
   1068 
   1069 	boot->NumFiles++;
   1070 	/* Ensure uniqueness of entry here!				XXX */
   1071 	memset(&d, 0, sizeof d);
   1072 	(void)snprintf(d.name, sizeof(d.name), "%u", head);
   1073 	d.flags = 0;
   1074 	d.head = head;
   1075 	d.size = fat[head].length * boot->ClusterSize;
   1076 
   1077 	memset(p, 0, 32);
   1078 	memset(p, ' ', 11);
   1079 	memcpy(p, d.name, strlen(d.name));
   1080 	p[26] = (u_char)d.head;
   1081 	p[27] = (u_char)(d.head >> 8);
   1082 	if (boot->ClustMask == CLUST32_MASK) {
   1083 		p[20] = (u_char)(d.head >> 16);
   1084 		p[21] = (u_char)(d.head >> 24);
   1085 	}
   1086 	p[28] = (u_char)d.size;
   1087 	p[29] = (u_char)(d.size >> 8);
   1088 	p[30] = (u_char)(d.size >> 16);
   1089 	p[31] = (u_char)(d.size >> 24);
   1090 	fat[head].flags |= FAT_USED;
   1091 	if (lseek64(dosfs, lfoff, SEEK_SET) != lfoff
   1092 	    || write(dosfs, lfbuf, boot->ClusterSize) != boot->ClusterSize) {
   1093 		perror("could not write LOST.DIR");
   1094 		return FSFATAL;
   1095 	}
   1096 	return FSDIRMOD;
   1097 }
   1098 
   1099 void
   1100 finishlf(void)
   1101 {
   1102 	if (lfbuf)
   1103 		free(lfbuf);
   1104 	lfbuf = NULL;
   1105 }
   1106