qemu-iotests: Remove MIG_SOCKET from non-migration tests
[qemu/ar7.git] / block / vvfat.c
blob662dca0114097ffd2a99831a96bd3242e4348af4
1 /* vim:set shiftwidth=4 ts=4: */
2 /*
3 * QEMU Block driver for virtual VFAT (shadows a local directory)
5 * Copyright (c) 2004,2005 Johannes E. Schindelin
7 * Permission is hereby granted, free of charge, to any person obtaining a copy
8 * of this software and associated documentation files (the "Software"), to deal
9 * in the Software without restriction, including without limitation the rights
10 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
11 * copies of the Software, and to permit persons to whom the Software is
12 * furnished to do so, subject to the following conditions:
14 * The above copyright notice and this permission notice shall be included in
15 * all copies or substantial portions of the Software.
17 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
18 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
20 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
21 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
22 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
23 * THE SOFTWARE.
26 #include "qemu/osdep.h"
27 #include <dirent.h>
28 #include "qapi/error.h"
29 #include "block/block_int.h"
30 #include "qemu/module.h"
31 #include "qemu/option.h"
32 #include "qemu/bswap.h"
33 #include "migration/blocker.h"
34 #include "qapi/qmp/qdict.h"
35 #include "qapi/qmp/qstring.h"
36 #include "qemu/cutils.h"
37 #include "qemu/error-report.h"
39 #ifndef S_IWGRP
40 #define S_IWGRP 0
41 #endif
42 #ifndef S_IWOTH
43 #define S_IWOTH 0
44 #endif
46 /* TODO: add ":bootsector=blabla.img:" */
47 /* LATER TODO: add automatic boot sector generation from
48 BOOTEASY.ASM and Ranish Partition Manager
49 Note that DOS assumes the system files to be the first files in the
50 file system (test if the boot sector still relies on that fact)! */
51 /* MAYBE TODO: write block-visofs.c */
52 /* TODO: call try_commit() only after a timeout */
54 /* #define DEBUG */
56 #ifdef DEBUG
58 #define DLOG(a) a
60 static void checkpoint(void);
62 #else
64 #define DLOG(a)
66 #endif
68 /* bootsector OEM name. see related compatibility problems at:
69 * https://jdebp.eu/FGA/volume-boot-block-oem-name-field.html
70 * http://seasip.info/Misc/oemid.html
72 #define BOOTSECTOR_OEM_NAME "MSWIN4.1"
74 #define DIR_DELETED 0xe5
75 #define DIR_KANJI DIR_DELETED
76 #define DIR_KANJI_FAKE 0x05
77 #define DIR_FREE 0x00
79 /* dynamic array functions */
80 typedef struct array_t {
81 char* pointer;
82 unsigned int size,next,item_size;
83 } array_t;
85 static inline void array_init(array_t* array,unsigned int item_size)
87 array->pointer = NULL;
88 array->size=0;
89 array->next=0;
90 array->item_size=item_size;
93 static inline void array_free(array_t* array)
95 g_free(array->pointer);
96 array->size=array->next=0;
99 /* does not automatically grow */
100 static inline void* array_get(array_t* array,unsigned int index) {
101 assert(index < array->next);
102 return array->pointer + index * array->item_size;
105 static inline int array_ensure_allocated(array_t* array, int index)
107 if((index + 1) * array->item_size > array->size) {
108 int new_size = (index + 32) * array->item_size;
109 array->pointer = g_realloc(array->pointer, new_size);
110 if (!array->pointer)
111 return -1;
112 memset(array->pointer + array->size, 0, new_size - array->size);
113 array->size = new_size;
114 array->next = index + 1;
117 return 0;
120 static inline void* array_get_next(array_t* array) {
121 unsigned int next = array->next;
123 if (array_ensure_allocated(array, next) < 0)
124 return NULL;
126 array->next = next + 1;
127 return array_get(array, next);
130 static inline void* array_insert(array_t* array,unsigned int index,unsigned int count) {
131 if((array->next+count)*array->item_size>array->size) {
132 int increment=count*array->item_size;
133 array->pointer=g_realloc(array->pointer,array->size+increment);
134 if(!array->pointer)
135 return NULL;
136 array->size+=increment;
138 memmove(array->pointer+(index+count)*array->item_size,
139 array->pointer+index*array->item_size,
140 (array->next-index)*array->item_size);
141 array->next+=count;
142 return array->pointer+index*array->item_size;
145 /* this performs a "roll", so that the element which was at index_from becomes
146 * index_to, but the order of all other elements is preserved. */
147 static inline int array_roll(array_t* array,int index_to,int index_from,int count)
149 char* buf;
150 char* from;
151 char* to;
152 int is;
154 if(!array ||
155 index_to<0 || index_to>=array->next ||
156 index_from<0 || index_from>=array->next)
157 return -1;
159 if(index_to==index_from)
160 return 0;
162 is=array->item_size;
163 from=array->pointer+index_from*is;
164 to=array->pointer+index_to*is;
165 buf=g_malloc(is*count);
166 memcpy(buf,from,is*count);
168 if(index_to<index_from)
169 memmove(to+is*count,to,from-to);
170 else
171 memmove(from,from+is*count,to-from);
173 memcpy(to,buf,is*count);
175 g_free(buf);
177 return 0;
180 static inline int array_remove_slice(array_t* array,int index, int count)
182 assert(index >=0);
183 assert(count > 0);
184 assert(index + count <= array->next);
185 if(array_roll(array,array->next-1,index,count))
186 return -1;
187 array->next -= count;
188 return 0;
191 static int array_remove(array_t* array,int index)
193 return array_remove_slice(array, index, 1);
196 /* return the index for a given member */
197 static int array_index(array_t* array, void* pointer)
199 size_t offset = (char*)pointer - array->pointer;
200 assert((offset % array->item_size) == 0);
201 assert(offset/array->item_size < array->next);
202 return offset/array->item_size;
205 /* These structures are used to fake a disk and the VFAT filesystem.
206 * For this reason we need to use QEMU_PACKED. */
208 typedef struct bootsector_t {
209 uint8_t jump[3];
210 uint8_t name[8];
211 uint16_t sector_size;
212 uint8_t sectors_per_cluster;
213 uint16_t reserved_sectors;
214 uint8_t number_of_fats;
215 uint16_t root_entries;
216 uint16_t total_sectors16;
217 uint8_t media_type;
218 uint16_t sectors_per_fat;
219 uint16_t sectors_per_track;
220 uint16_t number_of_heads;
221 uint32_t hidden_sectors;
222 uint32_t total_sectors;
223 union {
224 struct {
225 uint8_t drive_number;
226 uint8_t reserved1;
227 uint8_t signature;
228 uint32_t id;
229 uint8_t volume_label[11];
230 uint8_t fat_type[8];
231 uint8_t ignored[0x1c0];
232 } QEMU_PACKED fat16;
233 struct {
234 uint32_t sectors_per_fat;
235 uint16_t flags;
236 uint8_t major,minor;
237 uint32_t first_cluster_of_root_dir;
238 uint16_t info_sector;
239 uint16_t backup_boot_sector;
240 uint8_t reserved[12];
241 uint8_t drive_number;
242 uint8_t reserved1;
243 uint8_t signature;
244 uint32_t id;
245 uint8_t volume_label[11];
246 uint8_t fat_type[8];
247 uint8_t ignored[0x1a4];
248 } QEMU_PACKED fat32;
249 } u;
250 uint8_t magic[2];
251 } QEMU_PACKED bootsector_t;
253 typedef struct {
254 uint8_t head;
255 uint8_t sector;
256 uint8_t cylinder;
257 } mbr_chs_t;
259 typedef struct partition_t {
260 uint8_t attributes; /* 0x80 = bootable */
261 mbr_chs_t start_CHS;
262 uint8_t fs_type; /* 0x1 = FAT12, 0x6 = FAT16, 0xe = FAT16_LBA, 0xb = FAT32, 0xc = FAT32_LBA */
263 mbr_chs_t end_CHS;
264 uint32_t start_sector_long;
265 uint32_t length_sector_long;
266 } QEMU_PACKED partition_t;
268 typedef struct mbr_t {
269 uint8_t ignored[0x1b8];
270 uint32_t nt_id;
271 uint8_t ignored2[2];
272 partition_t partition[4];
273 uint8_t magic[2];
274 } QEMU_PACKED mbr_t;
276 typedef struct direntry_t {
277 uint8_t name[8 + 3];
278 uint8_t attributes;
279 uint8_t reserved[2];
280 uint16_t ctime;
281 uint16_t cdate;
282 uint16_t adate;
283 uint16_t begin_hi;
284 uint16_t mtime;
285 uint16_t mdate;
286 uint16_t begin;
287 uint32_t size;
288 } QEMU_PACKED direntry_t;
290 /* this structure are used to transparently access the files */
292 typedef struct mapping_t {
293 /* begin is the first cluster, end is the last+1 */
294 uint32_t begin,end;
295 /* as s->directory is growable, no pointer may be used here */
296 unsigned int dir_index;
297 /* the clusters of a file may be in any order; this points to the first */
298 int first_mapping_index;
299 union {
300 /* offset is
301 * - the offset in the file (in clusters) for a file, or
302 * - the next cluster of the directory for a directory
304 struct {
305 uint32_t offset;
306 } file;
307 struct {
308 int parent_mapping_index;
309 int first_dir_index;
310 } dir;
311 } info;
312 /* path contains the full path, i.e. it always starts with s->path */
313 char* path;
315 enum {
316 MODE_UNDEFINED = 0,
317 MODE_NORMAL = 1,
318 MODE_MODIFIED = 2,
319 MODE_DIRECTORY = 4,
320 MODE_DELETED = 8,
321 } mode;
322 int read_only;
323 } mapping_t;
325 #ifdef DEBUG
326 static void print_direntry(const struct direntry_t*);
327 static void print_mapping(const struct mapping_t* mapping);
328 #endif
330 /* here begins the real VVFAT driver */
332 typedef struct BDRVVVFATState {
333 CoMutex lock;
334 BlockDriverState* bs; /* pointer to parent */
335 unsigned char first_sectors[0x40*0x200];
337 int fat_type; /* 16 or 32 */
338 array_t fat,directory,mapping;
339 char volume_label[11];
341 uint32_t offset_to_bootsector; /* 0 for floppy, 0x3f for disk */
343 unsigned int cluster_size;
344 unsigned int sectors_per_cluster;
345 unsigned int sectors_per_fat;
346 uint32_t last_cluster_of_root_directory;
347 /* how many entries are available in root directory (0 for FAT32) */
348 uint16_t root_entries;
349 uint32_t sector_count; /* total number of sectors of the partition */
350 uint32_t cluster_count; /* total number of clusters of this partition */
351 uint32_t max_fat_value;
352 uint32_t offset_to_fat;
353 uint32_t offset_to_root_dir;
355 int current_fd;
356 mapping_t* current_mapping;
357 unsigned char* cluster; /* points to current cluster */
358 unsigned char* cluster_buffer; /* points to a buffer to hold temp data */
359 unsigned int current_cluster;
361 /* write support */
362 char* qcow_filename;
363 BdrvChild* qcow;
364 void* fat2;
365 char* used_clusters;
366 array_t commits;
367 const char* path;
368 int downcase_short_names;
370 Error *migration_blocker;
371 } BDRVVVFATState;
373 /* take the sector position spos and convert it to Cylinder/Head/Sector position
374 * if the position is outside the specified geometry, fill maximum value for CHS
375 * and return 1 to signal overflow.
377 static int sector2CHS(mbr_chs_t *chs, int spos, int cyls, int heads, int secs)
379 int head,sector;
380 sector = spos % secs; spos /= secs;
381 head = spos % heads; spos /= heads;
382 if (spos >= cyls) {
383 /* Overflow,
384 it happens if 32bit sector positions are used, while CHS is only 24bit.
385 Windows/Dos is said to take 1023/255/63 as nonrepresentable CHS */
386 chs->head = 0xFF;
387 chs->sector = 0xFF;
388 chs->cylinder = 0xFF;
389 return 1;
391 chs->head = (uint8_t)head;
392 chs->sector = (uint8_t)( (sector+1) | ((spos>>8)<<6) );
393 chs->cylinder = (uint8_t)spos;
394 return 0;
397 static void init_mbr(BDRVVVFATState *s, int cyls, int heads, int secs)
399 /* TODO: if the files mbr.img and bootsect.img exist, use them */
400 mbr_t* real_mbr=(mbr_t*)s->first_sectors;
401 partition_t* partition = &(real_mbr->partition[0]);
402 int lba;
404 memset(s->first_sectors,0,512);
406 /* Win NT Disk Signature */
407 real_mbr->nt_id= cpu_to_le32(0xbe1afdfa);
409 partition->attributes=0x80; /* bootable */
411 /* LBA is used when partition is outside the CHS geometry */
412 lba = sector2CHS(&partition->start_CHS, s->offset_to_bootsector,
413 cyls, heads, secs);
414 lba |= sector2CHS(&partition->end_CHS, s->bs->total_sectors - 1,
415 cyls, heads, secs);
417 /*LBA partitions are identified only by start/length_sector_long not by CHS*/
418 partition->start_sector_long = cpu_to_le32(s->offset_to_bootsector);
419 partition->length_sector_long = cpu_to_le32(s->bs->total_sectors
420 - s->offset_to_bootsector);
422 /* FAT12/FAT16/FAT32 */
423 /* DOS uses different types when partition is LBA,
424 probably to prevent older versions from using CHS on them */
425 partition->fs_type = s->fat_type == 12 ? 0x1 :
426 s->fat_type == 16 ? (lba ? 0xe : 0x06) :
427 /*s->fat_type == 32*/ (lba ? 0xc : 0x0b);
429 real_mbr->magic[0]=0x55; real_mbr->magic[1]=0xaa;
432 /* direntry functions */
434 static direntry_t *create_long_filename(BDRVVVFATState *s, const char *filename)
436 int number_of_entries, i;
437 glong length;
438 direntry_t *entry;
440 gunichar2 *longname = g_utf8_to_utf16(filename, -1, NULL, &length, NULL);
441 if (!longname) {
442 fprintf(stderr, "vvfat: invalid UTF-8 name: %s\n", filename);
443 return NULL;
446 number_of_entries = DIV_ROUND_UP(length * 2, 26);
448 for(i=0;i<number_of_entries;i++) {
449 entry=array_get_next(&(s->directory));
450 entry->attributes=0xf;
451 entry->reserved[0]=0;
452 entry->begin=0;
453 entry->name[0]=(number_of_entries-i)|(i==0?0x40:0);
455 for(i=0;i<26*number_of_entries;i++) {
456 int offset=(i%26);
457 if(offset<10) offset=1+offset;
458 else if(offset<22) offset=14+offset-10;
459 else offset=28+offset-22;
460 entry=array_get(&(s->directory),s->directory.next-1-(i/26));
461 if (i >= 2 * length + 2) {
462 entry->name[offset] = 0xff;
463 } else if (i % 2 == 0) {
464 entry->name[offset] = longname[i / 2] & 0xff;
465 } else {
466 entry->name[offset] = longname[i / 2] >> 8;
469 g_free(longname);
470 return array_get(&(s->directory),s->directory.next-number_of_entries);
473 static char is_free(const direntry_t* direntry)
475 return direntry->name[0] == DIR_DELETED || direntry->name[0] == DIR_FREE;
478 static char is_volume_label(const direntry_t* direntry)
480 return direntry->attributes == 0x28;
483 static char is_long_name(const direntry_t* direntry)
485 return direntry->attributes == 0xf;
488 static char is_short_name(const direntry_t* direntry)
490 return !is_volume_label(direntry) && !is_long_name(direntry)
491 && !is_free(direntry);
494 static char is_directory(const direntry_t* direntry)
496 return direntry->attributes & 0x10 && direntry->name[0] != DIR_DELETED;
499 static inline char is_dot(const direntry_t* direntry)
501 return is_short_name(direntry) && direntry->name[0] == '.';
504 static char is_file(const direntry_t* direntry)
506 return is_short_name(direntry) && !is_directory(direntry);
509 static inline uint32_t begin_of_direntry(const direntry_t* direntry)
511 return le16_to_cpu(direntry->begin)|(le16_to_cpu(direntry->begin_hi)<<16);
514 static inline uint32_t filesize_of_direntry(const direntry_t* direntry)
516 return le32_to_cpu(direntry->size);
519 static void set_begin_of_direntry(direntry_t* direntry, uint32_t begin)
521 direntry->begin = cpu_to_le16(begin & 0xffff);
522 direntry->begin_hi = cpu_to_le16((begin >> 16) & 0xffff);
525 static uint8_t to_valid_short_char(gunichar c)
527 c = g_unichar_toupper(c);
528 if ((c >= '0' && c <= '9') ||
529 (c >= 'A' && c <= 'Z') ||
530 strchr("$%'-_@~`!(){}^#&", c) != 0) {
531 return c;
532 } else {
533 return 0;
537 static direntry_t *create_short_filename(BDRVVVFATState *s,
538 const char *filename,
539 unsigned int directory_start)
541 int i, j = 0;
542 direntry_t *entry = array_get_next(&(s->directory));
543 const gchar *p, *last_dot = NULL;
544 gunichar c;
545 bool lossy_conversion = false;
546 char tail[8];
548 if (!entry) {
549 return NULL;
551 memset(entry->name, 0x20, sizeof(entry->name));
553 /* copy filename and search last dot */
554 for (p = filename; ; p = g_utf8_next_char(p)) {
555 c = g_utf8_get_char(p);
556 if (c == '\0') {
557 break;
558 } else if (c == '.') {
559 if (j == 0) {
560 /* '.' at start of filename */
561 lossy_conversion = true;
562 } else {
563 if (last_dot) {
564 lossy_conversion = true;
566 last_dot = p;
568 } else if (!last_dot) {
569 /* first part of the name; copy it */
570 uint8_t v = to_valid_short_char(c);
571 if (j < 8 && v) {
572 entry->name[j++] = v;
573 } else {
574 lossy_conversion = true;
579 /* copy extension (if any) */
580 if (last_dot) {
581 j = 0;
582 for (p = g_utf8_next_char(last_dot); ; p = g_utf8_next_char(p)) {
583 c = g_utf8_get_char(p);
584 if (c == '\0') {
585 break;
586 } else {
587 /* extension; copy it */
588 uint8_t v = to_valid_short_char(c);
589 if (j < 3 && v) {
590 entry->name[8 + (j++)] = v;
591 } else {
592 lossy_conversion = true;
598 if (entry->name[0] == DIR_KANJI) {
599 entry->name[0] = DIR_KANJI_FAKE;
602 /* numeric-tail generation */
603 for (j = 0; j < 8; j++) {
604 if (entry->name[j] == ' ') {
605 break;
608 for (i = lossy_conversion ? 1 : 0; i < 999999; i++) {
609 direntry_t *entry1;
610 if (i > 0) {
611 int len = snprintf(tail, sizeof(tail), "~%u", (unsigned)i);
612 assert(len <= 7);
613 memcpy(entry->name + MIN(j, 8 - len), tail, len);
615 for (entry1 = array_get(&(s->directory), directory_start);
616 entry1 < entry; entry1++) {
617 if (!is_long_name(entry1) &&
618 !memcmp(entry1->name, entry->name, 11)) {
619 break; /* found dupe */
622 if (entry1 == entry) {
623 /* no dupe found */
624 return entry;
627 return NULL;
630 /* fat functions */
632 static inline uint8_t fat_chksum(const direntry_t* entry)
634 uint8_t chksum=0;
635 int i;
637 for (i = 0; i < ARRAY_SIZE(entry->name); i++) {
638 chksum = (((chksum & 0xfe) >> 1) |
639 ((chksum & 0x01) ? 0x80 : 0)) + entry->name[i];
642 return chksum;
645 /* if return_time==0, this returns the fat_date, else the fat_time */
646 static uint16_t fat_datetime(time_t time,int return_time) {
647 struct tm* t;
648 struct tm t1;
649 t = &t1;
650 localtime_r(&time,t);
651 if(return_time)
652 return cpu_to_le16((t->tm_sec/2)|(t->tm_min<<5)|(t->tm_hour<<11));
653 return cpu_to_le16((t->tm_mday)|((t->tm_mon+1)<<5)|((t->tm_year-80)<<9));
656 static inline void fat_set(BDRVVVFATState* s,unsigned int cluster,uint32_t value)
658 if(s->fat_type==32) {
659 uint32_t* entry=array_get(&(s->fat),cluster);
660 *entry=cpu_to_le32(value);
661 } else if(s->fat_type==16) {
662 uint16_t* entry=array_get(&(s->fat),cluster);
663 *entry=cpu_to_le16(value&0xffff);
664 } else {
665 int offset = (cluster*3/2);
666 unsigned char* p = array_get(&(s->fat), offset);
667 switch (cluster&1) {
668 case 0:
669 p[0] = value&0xff;
670 p[1] = (p[1]&0xf0) | ((value>>8)&0xf);
671 break;
672 case 1:
673 p[0] = (p[0]&0xf) | ((value&0xf)<<4);
674 p[1] = (value>>4);
675 break;
680 static inline uint32_t fat_get(BDRVVVFATState* s,unsigned int cluster)
682 if(s->fat_type==32) {
683 uint32_t* entry=array_get(&(s->fat),cluster);
684 return le32_to_cpu(*entry);
685 } else if(s->fat_type==16) {
686 uint16_t* entry=array_get(&(s->fat),cluster);
687 return le16_to_cpu(*entry);
688 } else {
689 const uint8_t* x=(uint8_t*)(s->fat.pointer)+cluster*3/2;
690 return ((x[0]|(x[1]<<8))>>(cluster&1?4:0))&0x0fff;
694 static inline int fat_eof(BDRVVVFATState* s,uint32_t fat_entry)
696 if(fat_entry>s->max_fat_value-8)
697 return -1;
698 return 0;
701 static inline void init_fat(BDRVVVFATState* s)
703 if (s->fat_type == 12) {
704 array_init(&(s->fat),1);
705 array_ensure_allocated(&(s->fat),
706 s->sectors_per_fat * 0x200 * 3 / 2 - 1);
707 } else {
708 array_init(&(s->fat),(s->fat_type==32?4:2));
709 array_ensure_allocated(&(s->fat),
710 s->sectors_per_fat * 0x200 / s->fat.item_size - 1);
712 memset(s->fat.pointer,0,s->fat.size);
714 switch(s->fat_type) {
715 case 12: s->max_fat_value=0xfff; break;
716 case 16: s->max_fat_value=0xffff; break;
717 case 32: s->max_fat_value=0x0fffffff; break;
718 default: s->max_fat_value=0; /* error... */
723 static inline direntry_t* create_short_and_long_name(BDRVVVFATState* s,
724 unsigned int directory_start, const char* filename, int is_dot)
726 int long_index = s->directory.next;
727 direntry_t* entry = NULL;
728 direntry_t* entry_long = NULL;
730 if(is_dot) {
731 entry=array_get_next(&(s->directory));
732 memset(entry->name, 0x20, sizeof(entry->name));
733 memcpy(entry->name,filename,strlen(filename));
734 return entry;
737 entry_long=create_long_filename(s,filename);
738 entry = create_short_filename(s, filename, directory_start);
740 /* calculate checksum; propagate to long name */
741 if(entry_long) {
742 uint8_t chksum=fat_chksum(entry);
744 /* calculate anew, because realloc could have taken place */
745 entry_long=array_get(&(s->directory),long_index);
746 while(entry_long<entry && is_long_name(entry_long)) {
747 entry_long->reserved[1]=chksum;
748 entry_long++;
752 return entry;
756 * Read a directory. (the index of the corresponding mapping must be passed).
758 static int read_directory(BDRVVVFATState* s, int mapping_index)
760 mapping_t* mapping = array_get(&(s->mapping), mapping_index);
761 direntry_t* direntry;
762 const char* dirname = mapping->path;
763 int first_cluster = mapping->begin;
764 int parent_index = mapping->info.dir.parent_mapping_index;
765 mapping_t* parent_mapping = (mapping_t*)
766 (parent_index >= 0 ? array_get(&(s->mapping), parent_index) : NULL);
767 int first_cluster_of_parent = parent_mapping ? parent_mapping->begin : -1;
769 DIR* dir=opendir(dirname);
770 struct dirent* entry;
771 int i;
773 assert(mapping->mode & MODE_DIRECTORY);
775 if(!dir) {
776 mapping->end = mapping->begin;
777 return -1;
780 i = mapping->info.dir.first_dir_index =
781 first_cluster == 0 ? 0 : s->directory.next;
783 if (first_cluster != 0) {
784 /* create the top entries of a subdirectory */
785 (void)create_short_and_long_name(s, i, ".", 1);
786 (void)create_short_and_long_name(s, i, "..", 1);
789 /* actually read the directory, and allocate the mappings */
790 while((entry=readdir(dir))) {
791 unsigned int length=strlen(dirname)+2+strlen(entry->d_name);
792 char* buffer;
793 direntry_t* direntry;
794 struct stat st;
795 int is_dot=!strcmp(entry->d_name,".");
796 int is_dotdot=!strcmp(entry->d_name,"..");
798 if (first_cluster == 0 && s->directory.next >= s->root_entries - 1) {
799 fprintf(stderr, "Too many entries in root directory\n");
800 closedir(dir);
801 return -2;
804 if(first_cluster == 0 && (is_dotdot || is_dot))
805 continue;
807 buffer = g_malloc(length);
808 snprintf(buffer,length,"%s/%s",dirname,entry->d_name);
810 if(stat(buffer,&st)<0) {
811 g_free(buffer);
812 continue;
815 /* create directory entry for this file */
816 if (!is_dot && !is_dotdot) {
817 direntry = create_short_and_long_name(s, i, entry->d_name, 0);
818 } else {
819 direntry = array_get(&(s->directory), is_dot ? i : i + 1);
821 direntry->attributes=(S_ISDIR(st.st_mode)?0x10:0x20);
822 direntry->reserved[0]=direntry->reserved[1]=0;
823 direntry->ctime=fat_datetime(st.st_ctime,1);
824 direntry->cdate=fat_datetime(st.st_ctime,0);
825 direntry->adate=fat_datetime(st.st_atime,0);
826 direntry->begin_hi=0;
827 direntry->mtime=fat_datetime(st.st_mtime,1);
828 direntry->mdate=fat_datetime(st.st_mtime,0);
829 if(is_dotdot)
830 set_begin_of_direntry(direntry, first_cluster_of_parent);
831 else if(is_dot)
832 set_begin_of_direntry(direntry, first_cluster);
833 else
834 direntry->begin=0; /* do that later */
835 if (st.st_size > 0x7fffffff) {
836 fprintf(stderr, "File %s is larger than 2GB\n", buffer);
837 g_free(buffer);
838 closedir(dir);
839 return -2;
841 direntry->size=cpu_to_le32(S_ISDIR(st.st_mode)?0:st.st_size);
843 /* create mapping for this file */
844 if(!is_dot && !is_dotdot && (S_ISDIR(st.st_mode) || st.st_size)) {
845 s->current_mapping = array_get_next(&(s->mapping));
846 s->current_mapping->begin=0;
847 s->current_mapping->end=st.st_size;
849 * we get the direntry of the most recent direntry, which
850 * contains the short name and all the relevant information.
852 s->current_mapping->dir_index=s->directory.next-1;
853 s->current_mapping->first_mapping_index = -1;
854 if (S_ISDIR(st.st_mode)) {
855 s->current_mapping->mode = MODE_DIRECTORY;
856 s->current_mapping->info.dir.parent_mapping_index =
857 mapping_index;
858 } else {
859 s->current_mapping->mode = MODE_UNDEFINED;
860 s->current_mapping->info.file.offset = 0;
862 s->current_mapping->path=buffer;
863 s->current_mapping->read_only =
864 (st.st_mode & (S_IWUSR | S_IWGRP | S_IWOTH)) == 0;
865 } else {
866 g_free(buffer);
869 closedir(dir);
871 /* fill with zeroes up to the end of the cluster */
872 while(s->directory.next%(0x10*s->sectors_per_cluster)) {
873 direntry_t* direntry=array_get_next(&(s->directory));
874 memset(direntry,0,sizeof(direntry_t));
877 if (s->fat_type != 32 &&
878 mapping_index == 0 &&
879 s->directory.next < s->root_entries) {
880 /* root directory */
881 int cur = s->directory.next;
882 array_ensure_allocated(&(s->directory), s->root_entries - 1);
883 s->directory.next = s->root_entries;
884 memset(array_get(&(s->directory), cur), 0,
885 (s->root_entries - cur) * sizeof(direntry_t));
888 /* re-get the mapping, since s->mapping was possibly realloc()ed */
889 mapping = array_get(&(s->mapping), mapping_index);
890 first_cluster += (s->directory.next - mapping->info.dir.first_dir_index)
891 * 0x20 / s->cluster_size;
892 mapping->end = first_cluster;
894 direntry = array_get(&(s->directory), mapping->dir_index);
895 set_begin_of_direntry(direntry, mapping->begin);
897 return 0;
900 static inline uint32_t sector2cluster(BDRVVVFATState* s,off_t sector_num)
902 return (sector_num - s->offset_to_root_dir) / s->sectors_per_cluster;
905 static inline off_t cluster2sector(BDRVVVFATState* s, uint32_t cluster_num)
907 return s->offset_to_root_dir + s->sectors_per_cluster * cluster_num;
910 static int init_directories(BDRVVVFATState* s,
911 const char *dirname, int heads, int secs,
912 Error **errp)
914 bootsector_t* bootsector;
915 mapping_t* mapping;
916 unsigned int i;
917 unsigned int cluster;
919 memset(&(s->first_sectors[0]),0,0x40*0x200);
921 s->cluster_size=s->sectors_per_cluster*0x200;
922 s->cluster_buffer=g_malloc(s->cluster_size);
925 * The formula: sc = spf+1+spf*spc*(512*8/fat_type),
926 * where sc is sector_count,
927 * spf is sectors_per_fat,
928 * spc is sectors_per_clusters, and
929 * fat_type = 12, 16 or 32.
931 i = 1+s->sectors_per_cluster*0x200*8/s->fat_type;
932 s->sectors_per_fat=(s->sector_count+i)/i; /* round up */
934 s->offset_to_fat = s->offset_to_bootsector + 1;
935 s->offset_to_root_dir = s->offset_to_fat + s->sectors_per_fat * 2;
937 array_init(&(s->mapping),sizeof(mapping_t));
938 array_init(&(s->directory),sizeof(direntry_t));
940 /* add volume label */
942 direntry_t* entry=array_get_next(&(s->directory));
943 entry->attributes=0x28; /* archive | volume label */
944 memcpy(entry->name, s->volume_label, sizeof(entry->name));
947 /* Now build FAT, and write back information into directory */
948 init_fat(s);
950 /* TODO: if there are more entries, bootsector has to be adjusted! */
951 s->root_entries = 0x02 * 0x10 * s->sectors_per_cluster;
952 s->cluster_count=sector2cluster(s, s->sector_count);
954 mapping = array_get_next(&(s->mapping));
955 mapping->begin = 0;
956 mapping->dir_index = 0;
957 mapping->info.dir.parent_mapping_index = -1;
958 mapping->first_mapping_index = -1;
959 mapping->path = g_strdup(dirname);
960 i = strlen(mapping->path);
961 if (i > 0 && mapping->path[i - 1] == '/')
962 mapping->path[i - 1] = '\0';
963 mapping->mode = MODE_DIRECTORY;
964 mapping->read_only = 0;
965 s->path = mapping->path;
967 for (i = 0, cluster = 0; i < s->mapping.next; i++) {
968 /* MS-DOS expects the FAT to be 0 for the root directory
969 * (except for the media byte). */
970 /* LATER TODO: still true for FAT32? */
971 int fix_fat = (i != 0);
972 mapping = array_get(&(s->mapping), i);
974 if (mapping->mode & MODE_DIRECTORY) {
975 mapping->begin = cluster;
976 if(read_directory(s, i)) {
977 error_setg(errp, "Could not read directory %s",
978 mapping->path);
979 return -1;
981 mapping = array_get(&(s->mapping), i);
982 } else {
983 assert(mapping->mode == MODE_UNDEFINED);
984 mapping->mode=MODE_NORMAL;
985 mapping->begin = cluster;
986 if (mapping->end > 0) {
987 direntry_t* direntry = array_get(&(s->directory),
988 mapping->dir_index);
990 mapping->end = cluster + 1 + (mapping->end-1)/s->cluster_size;
991 set_begin_of_direntry(direntry, mapping->begin);
992 } else {
993 mapping->end = cluster + 1;
994 fix_fat = 0;
998 assert(mapping->begin < mapping->end);
1000 /* next free cluster */
1001 cluster = mapping->end;
1003 if(cluster > s->cluster_count) {
1004 error_setg(errp,
1005 "Directory does not fit in FAT%d (capacity %.2f MB)",
1006 s->fat_type, s->sector_count / 2000.0);
1007 return -1;
1010 /* fix fat for entry */
1011 if (fix_fat) {
1012 int j;
1013 for(j = mapping->begin; j < mapping->end - 1; j++)
1014 fat_set(s, j, j+1);
1015 fat_set(s, mapping->end - 1, s->max_fat_value);
1019 mapping = array_get(&(s->mapping), 0);
1020 s->last_cluster_of_root_directory = mapping->end;
1022 /* the FAT signature */
1023 fat_set(s,0,s->max_fat_value);
1024 fat_set(s,1,s->max_fat_value);
1026 s->current_mapping = NULL;
1028 bootsector = (bootsector_t *)(s->first_sectors
1029 + s->offset_to_bootsector * 0x200);
1030 bootsector->jump[0]=0xeb;
1031 bootsector->jump[1]=0x3e;
1032 bootsector->jump[2]=0x90;
1033 memcpy(bootsector->name, BOOTSECTOR_OEM_NAME, 8);
1034 bootsector->sector_size=cpu_to_le16(0x200);
1035 bootsector->sectors_per_cluster=s->sectors_per_cluster;
1036 bootsector->reserved_sectors=cpu_to_le16(1);
1037 bootsector->number_of_fats=0x2; /* number of FATs */
1038 bootsector->root_entries = cpu_to_le16(s->root_entries);
1039 bootsector->total_sectors16=s->sector_count>0xffff?0:cpu_to_le16(s->sector_count);
1040 /* media descriptor: hard disk=0xf8, floppy=0xf0 */
1041 bootsector->media_type = (s->offset_to_bootsector > 0 ? 0xf8 : 0xf0);
1042 s->fat.pointer[0] = bootsector->media_type;
1043 bootsector->sectors_per_fat=cpu_to_le16(s->sectors_per_fat);
1044 bootsector->sectors_per_track = cpu_to_le16(secs);
1045 bootsector->number_of_heads = cpu_to_le16(heads);
1046 bootsector->hidden_sectors = cpu_to_le32(s->offset_to_bootsector);
1047 bootsector->total_sectors=cpu_to_le32(s->sector_count>0xffff?s->sector_count:0);
1049 /* LATER TODO: if FAT32, this is wrong */
1050 /* drive_number: fda=0, hda=0x80 */
1051 bootsector->u.fat16.drive_number = s->offset_to_bootsector == 0 ? 0 : 0x80;
1052 bootsector->u.fat16.signature=0x29;
1053 bootsector->u.fat16.id=cpu_to_le32(0xfabe1afd);
1055 memcpy(bootsector->u.fat16.volume_label, s->volume_label,
1056 sizeof(bootsector->u.fat16.volume_label));
1057 memcpy(bootsector->u.fat16.fat_type,
1058 s->fat_type == 12 ? "FAT12 " : "FAT16 ", 8);
1059 bootsector->magic[0]=0x55; bootsector->magic[1]=0xaa;
1061 return 0;
1064 #ifdef DEBUG
1065 static BDRVVVFATState *vvv = NULL;
1066 #endif
1068 static int enable_write_target(BlockDriverState *bs, Error **errp);
1069 static int is_consistent(BDRVVVFATState *s);
1071 static QemuOptsList runtime_opts = {
1072 .name = "vvfat",
1073 .head = QTAILQ_HEAD_INITIALIZER(runtime_opts.head),
1074 .desc = {
1076 .name = "dir",
1077 .type = QEMU_OPT_STRING,
1078 .help = "Host directory to map to the vvfat device",
1081 .name = "fat-type",
1082 .type = QEMU_OPT_NUMBER,
1083 .help = "FAT type (12, 16 or 32)",
1086 .name = "floppy",
1087 .type = QEMU_OPT_BOOL,
1088 .help = "Create a floppy rather than a hard disk image",
1091 .name = "label",
1092 .type = QEMU_OPT_STRING,
1093 .help = "Use a volume label other than QEMU VVFAT",
1096 .name = "rw",
1097 .type = QEMU_OPT_BOOL,
1098 .help = "Make the image writable",
1100 { /* end of list */ }
1104 static void vvfat_parse_filename(const char *filename, QDict *options,
1105 Error **errp)
1107 int fat_type = 0;
1108 bool floppy = false;
1109 bool rw = false;
1110 int i;
1112 if (!strstart(filename, "fat:", NULL)) {
1113 error_setg(errp, "File name string must start with 'fat:'");
1114 return;
1117 /* Parse options */
1118 if (strstr(filename, ":32:")) {
1119 fat_type = 32;
1120 } else if (strstr(filename, ":16:")) {
1121 fat_type = 16;
1122 } else if (strstr(filename, ":12:")) {
1123 fat_type = 12;
1126 if (strstr(filename, ":floppy:")) {
1127 floppy = true;
1130 if (strstr(filename, ":rw:")) {
1131 rw = true;
1134 /* Get the directory name without options */
1135 i = strrchr(filename, ':') - filename;
1136 assert(i >= 3);
1137 if (filename[i - 2] == ':' && qemu_isalpha(filename[i - 1])) {
1138 /* workaround for DOS drive names */
1139 filename += i - 1;
1140 } else {
1141 filename += i + 1;
1144 /* Fill in the options QDict */
1145 qdict_put_str(options, "dir", filename);
1146 qdict_put_int(options, "fat-type", fat_type);
1147 qdict_put_bool(options, "floppy", floppy);
1148 qdict_put_bool(options, "rw", rw);
1151 static int vvfat_open(BlockDriverState *bs, QDict *options, int flags,
1152 Error **errp)
1154 BDRVVVFATState *s = bs->opaque;
1155 int cyls, heads, secs;
1156 bool floppy;
1157 const char *dirname, *label;
1158 QemuOpts *opts;
1159 Error *local_err = NULL;
1160 int ret;
1162 #ifdef DEBUG
1163 vvv = s;
1164 #endif
1166 opts = qemu_opts_create(&runtime_opts, NULL, 0, &error_abort);
1167 qemu_opts_absorb_qdict(opts, options, &local_err);
1168 if (local_err) {
1169 error_propagate(errp, local_err);
1170 ret = -EINVAL;
1171 goto fail;
1174 dirname = qemu_opt_get(opts, "dir");
1175 if (!dirname) {
1176 error_setg(errp, "vvfat block driver requires a 'dir' option");
1177 ret = -EINVAL;
1178 goto fail;
1181 s->fat_type = qemu_opt_get_number(opts, "fat-type", 0);
1182 floppy = qemu_opt_get_bool(opts, "floppy", false);
1184 memset(s->volume_label, ' ', sizeof(s->volume_label));
1185 label = qemu_opt_get(opts, "label");
1186 if (label) {
1187 size_t label_length = strlen(label);
1188 if (label_length > 11) {
1189 error_setg(errp, "vvfat label cannot be longer than 11 bytes");
1190 ret = -EINVAL;
1191 goto fail;
1193 memcpy(s->volume_label, label, label_length);
1194 } else {
1195 memcpy(s->volume_label, "QEMU VVFAT", 10);
1198 if (floppy) {
1199 /* 1.44MB or 2.88MB floppy. 2.88MB can be FAT12 (default) or FAT16. */
1200 if (!s->fat_type) {
1201 s->fat_type = 12;
1202 secs = 36;
1203 s->sectors_per_cluster = 2;
1204 } else {
1205 secs = s->fat_type == 12 ? 18 : 36;
1206 s->sectors_per_cluster = 1;
1208 cyls = 80;
1209 heads = 2;
1210 } else {
1211 /* 32MB or 504MB disk*/
1212 if (!s->fat_type) {
1213 s->fat_type = 16;
1215 s->offset_to_bootsector = 0x3f;
1216 cyls = s->fat_type == 12 ? 64 : 1024;
1217 heads = 16;
1218 secs = 63;
1221 switch (s->fat_type) {
1222 case 32:
1223 warn_report("FAT32 has not been tested. You are welcome to do so!");
1224 break;
1225 case 16:
1226 case 12:
1227 break;
1228 default:
1229 error_setg(errp, "Valid FAT types are only 12, 16 and 32");
1230 ret = -EINVAL;
1231 goto fail;
1235 s->bs = bs;
1237 /* LATER TODO: if FAT32, adjust */
1238 s->sectors_per_cluster=0x10;
1240 s->current_cluster=0xffffffff;
1242 s->qcow = NULL;
1243 s->qcow_filename = NULL;
1244 s->fat2 = NULL;
1245 s->downcase_short_names = 1;
1247 fprintf(stderr, "vvfat %s chs %d,%d,%d\n",
1248 dirname, cyls, heads, secs);
1250 s->sector_count = cyls * heads * secs - s->offset_to_bootsector;
1252 if (qemu_opt_get_bool(opts, "rw", false)) {
1253 if (!bdrv_is_read_only(bs)) {
1254 ret = enable_write_target(bs, errp);
1255 if (ret < 0) {
1256 goto fail;
1258 } else {
1259 ret = -EPERM;
1260 error_setg(errp,
1261 "Unable to set VVFAT to 'rw' when drive is read-only");
1262 goto fail;
1264 } else if (!bdrv_is_read_only(bs)) {
1265 error_report("Opening non-rw vvfat images without an explicit "
1266 "read-only=on option is deprecated. Future versions "
1267 "will refuse to open the image instead of "
1268 "automatically marking the image read-only.");
1269 /* read only is the default for safety */
1270 ret = bdrv_set_read_only(bs, true, &local_err);
1271 if (ret < 0) {
1272 error_propagate(errp, local_err);
1273 goto fail;
1277 bs->total_sectors = cyls * heads * secs;
1279 if (init_directories(s, dirname, heads, secs, errp)) {
1280 ret = -EIO;
1281 goto fail;
1284 s->sector_count = s->offset_to_root_dir
1285 + s->sectors_per_cluster * s->cluster_count;
1287 /* Disable migration when vvfat is used rw */
1288 if (s->qcow) {
1289 error_setg(&s->migration_blocker,
1290 "The vvfat (rw) format used by node '%s' "
1291 "does not support live migration",
1292 bdrv_get_device_or_node_name(bs));
1293 ret = migrate_add_blocker(s->migration_blocker, &local_err);
1294 if (local_err) {
1295 error_propagate(errp, local_err);
1296 error_free(s->migration_blocker);
1297 goto fail;
1301 if (s->offset_to_bootsector > 0) {
1302 init_mbr(s, cyls, heads, secs);
1305 qemu_co_mutex_init(&s->lock);
1307 ret = 0;
1308 fail:
1309 qemu_opts_del(opts);
1310 return ret;
1313 static void vvfat_refresh_limits(BlockDriverState *bs, Error **errp)
1315 bs->bl.request_alignment = BDRV_SECTOR_SIZE; /* No sub-sector I/O */
1318 static inline void vvfat_close_current_file(BDRVVVFATState *s)
1320 if(s->current_mapping) {
1321 s->current_mapping = NULL;
1322 if (s->current_fd) {
1323 qemu_close(s->current_fd);
1324 s->current_fd = 0;
1327 s->current_cluster = -1;
1330 /* mappings between index1 and index2-1 are supposed to be ordered
1331 * return value is the index of the last mapping for which end>cluster_num
1333 static inline int find_mapping_for_cluster_aux(BDRVVVFATState* s,int cluster_num,int index1,int index2)
1335 while(1) {
1336 int index3;
1337 mapping_t* mapping;
1338 index3=(index1+index2)/2;
1339 mapping=array_get(&(s->mapping),index3);
1340 assert(mapping->begin < mapping->end);
1341 if(mapping->begin>=cluster_num) {
1342 assert(index2!=index3 || index2==0);
1343 if(index2==index3)
1344 return index1;
1345 index2=index3;
1346 } else {
1347 if(index1==index3)
1348 return mapping->end<=cluster_num ? index2 : index1;
1349 index1=index3;
1351 assert(index1<=index2);
1352 DLOG(mapping=array_get(&(s->mapping),index1);
1353 assert(mapping->begin<=cluster_num);
1354 assert(index2 >= s->mapping.next ||
1355 ((mapping = array_get(&(s->mapping),index2)) &&
1356 mapping->end>cluster_num)));
1360 static inline mapping_t* find_mapping_for_cluster(BDRVVVFATState* s,int cluster_num)
1362 int index=find_mapping_for_cluster_aux(s,cluster_num,0,s->mapping.next);
1363 mapping_t* mapping;
1364 if(index>=s->mapping.next)
1365 return NULL;
1366 mapping=array_get(&(s->mapping),index);
1367 if(mapping->begin>cluster_num)
1368 return NULL;
1369 assert(mapping->begin<=cluster_num && mapping->end>cluster_num);
1370 return mapping;
1373 static int open_file(BDRVVVFATState* s,mapping_t* mapping)
1375 if(!mapping)
1376 return -1;
1377 if(!s->current_mapping ||
1378 strcmp(s->current_mapping->path,mapping->path)) {
1379 /* open file */
1380 int fd = qemu_open(mapping->path, O_RDONLY | O_BINARY | O_LARGEFILE);
1381 if(fd<0)
1382 return -1;
1383 vvfat_close_current_file(s);
1384 s->current_fd = fd;
1385 s->current_mapping = mapping;
1387 return 0;
1390 static inline int read_cluster(BDRVVVFATState *s,int cluster_num)
1392 if(s->current_cluster != cluster_num) {
1393 int result=0;
1394 off_t offset;
1395 assert(!s->current_mapping || s->current_fd || (s->current_mapping->mode & MODE_DIRECTORY));
1396 if(!s->current_mapping
1397 || s->current_mapping->begin>cluster_num
1398 || s->current_mapping->end<=cluster_num) {
1399 /* binary search of mappings for file */
1400 mapping_t* mapping=find_mapping_for_cluster(s,cluster_num);
1402 assert(!mapping || (cluster_num>=mapping->begin && cluster_num<mapping->end));
1404 if (mapping && mapping->mode & MODE_DIRECTORY) {
1405 vvfat_close_current_file(s);
1406 s->current_mapping = mapping;
1407 read_cluster_directory:
1408 offset = s->cluster_size*(cluster_num-s->current_mapping->begin);
1409 s->cluster = (unsigned char*)s->directory.pointer+offset
1410 + 0x20*s->current_mapping->info.dir.first_dir_index;
1411 assert(((s->cluster-(unsigned char*)s->directory.pointer)%s->cluster_size)==0);
1412 assert((char*)s->cluster+s->cluster_size <= s->directory.pointer+s->directory.next*s->directory.item_size);
1413 s->current_cluster = cluster_num;
1414 return 0;
1417 if(open_file(s,mapping))
1418 return -2;
1419 } else if (s->current_mapping->mode & MODE_DIRECTORY)
1420 goto read_cluster_directory;
1422 assert(s->current_fd);
1424 offset=s->cluster_size*(cluster_num-s->current_mapping->begin)+s->current_mapping->info.file.offset;
1425 if(lseek(s->current_fd, offset, SEEK_SET)!=offset)
1426 return -3;
1427 s->cluster=s->cluster_buffer;
1428 result=read(s->current_fd,s->cluster,s->cluster_size);
1429 if(result<0) {
1430 s->current_cluster = -1;
1431 return -1;
1433 s->current_cluster = cluster_num;
1435 return 0;
1438 #ifdef DEBUG
1439 static void print_direntry(const direntry_t* direntry)
1441 int j = 0;
1442 char buffer[1024];
1444 fprintf(stderr, "direntry %p: ", direntry);
1445 if(!direntry)
1446 return;
1447 if(is_long_name(direntry)) {
1448 unsigned char* c=(unsigned char*)direntry;
1449 int i;
1450 for(i=1;i<11 && c[i] && c[i]!=0xff;i+=2)
1451 #define ADD_CHAR(c) {buffer[j] = (c); if (buffer[j] < ' ') buffer[j] = 0xb0; j++;}
1452 ADD_CHAR(c[i]);
1453 for(i=14;i<26 && c[i] && c[i]!=0xff;i+=2)
1454 ADD_CHAR(c[i]);
1455 for(i=28;i<32 && c[i] && c[i]!=0xff;i+=2)
1456 ADD_CHAR(c[i]);
1457 buffer[j] = 0;
1458 fprintf(stderr, "%s\n", buffer);
1459 } else {
1460 int i;
1461 for(i=0;i<11;i++)
1462 ADD_CHAR(direntry->name[i]);
1463 buffer[j] = 0;
1464 fprintf(stderr,"%s attributes=0x%02x begin=%d size=%d\n",
1465 buffer,
1466 direntry->attributes,
1467 begin_of_direntry(direntry),le32_to_cpu(direntry->size));
1471 static void print_mapping(const mapping_t* mapping)
1473 fprintf(stderr, "mapping (%p): begin, end = %d, %d, dir_index = %d, "
1474 "first_mapping_index = %d, name = %s, mode = 0x%x, " ,
1475 mapping, mapping->begin, mapping->end, mapping->dir_index,
1476 mapping->first_mapping_index, mapping->path, mapping->mode);
1478 if (mapping->mode & MODE_DIRECTORY)
1479 fprintf(stderr, "parent_mapping_index = %d, first_dir_index = %d\n", mapping->info.dir.parent_mapping_index, mapping->info.dir.first_dir_index);
1480 else
1481 fprintf(stderr, "offset = %d\n", mapping->info.file.offset);
1483 #endif
1485 static int vvfat_read(BlockDriverState *bs, int64_t sector_num,
1486 uint8_t *buf, int nb_sectors)
1488 BDRVVVFATState *s = bs->opaque;
1489 int i;
1491 for(i=0;i<nb_sectors;i++,sector_num++) {
1492 if (sector_num >= bs->total_sectors)
1493 return -1;
1494 if (s->qcow) {
1495 int64_t n;
1496 int ret;
1497 ret = bdrv_is_allocated(s->qcow->bs, sector_num * BDRV_SECTOR_SIZE,
1498 (nb_sectors - i) * BDRV_SECTOR_SIZE, &n);
1499 if (ret < 0) {
1500 return ret;
1502 if (ret) {
1503 DLOG(fprintf(stderr, "sectors %" PRId64 "+%" PRId64
1504 " allocated\n", sector_num,
1505 n >> BDRV_SECTOR_BITS));
1506 if (bdrv_read(s->qcow, sector_num, buf + i * 0x200,
1507 n >> BDRV_SECTOR_BITS)) {
1508 return -1;
1510 i += (n >> BDRV_SECTOR_BITS) - 1;
1511 sector_num += (n >> BDRV_SECTOR_BITS) - 1;
1512 continue;
1514 DLOG(fprintf(stderr, "sector %" PRId64 " not allocated\n",
1515 sector_num));
1517 if (sector_num < s->offset_to_root_dir) {
1518 if (sector_num < s->offset_to_fat) {
1519 memcpy(buf + i * 0x200,
1520 &(s->first_sectors[sector_num * 0x200]),
1521 0x200);
1522 } else if (sector_num < s->offset_to_fat + s->sectors_per_fat) {
1523 memcpy(buf + i * 0x200,
1524 &(s->fat.pointer[(sector_num
1525 - s->offset_to_fat) * 0x200]),
1526 0x200);
1527 } else if (sector_num < s->offset_to_root_dir) {
1528 memcpy(buf + i * 0x200,
1529 &(s->fat.pointer[(sector_num - s->offset_to_fat
1530 - s->sectors_per_fat) * 0x200]),
1531 0x200);
1533 } else {
1534 uint32_t sector = sector_num - s->offset_to_root_dir,
1535 sector_offset_in_cluster=(sector%s->sectors_per_cluster),
1536 cluster_num=sector/s->sectors_per_cluster;
1537 if(cluster_num > s->cluster_count || read_cluster(s, cluster_num) != 0) {
1538 /* LATER TODO: strict: return -1; */
1539 memset(buf+i*0x200,0,0x200);
1540 continue;
1542 memcpy(buf+i*0x200,s->cluster+sector_offset_in_cluster*0x200,0x200);
1545 return 0;
1548 static int coroutine_fn
1549 vvfat_co_preadv(BlockDriverState *bs, uint64_t offset, uint64_t bytes,
1550 QEMUIOVector *qiov, int flags)
1552 int ret;
1553 BDRVVVFATState *s = bs->opaque;
1554 uint64_t sector_num = offset >> BDRV_SECTOR_BITS;
1555 int nb_sectors = bytes >> BDRV_SECTOR_BITS;
1556 void *buf;
1558 assert((offset & (BDRV_SECTOR_SIZE - 1)) == 0);
1559 assert((bytes & (BDRV_SECTOR_SIZE - 1)) == 0);
1561 buf = g_try_malloc(bytes);
1562 if (bytes && buf == NULL) {
1563 return -ENOMEM;
1566 qemu_co_mutex_lock(&s->lock);
1567 ret = vvfat_read(bs, sector_num, buf, nb_sectors);
1568 qemu_co_mutex_unlock(&s->lock);
1570 qemu_iovec_from_buf(qiov, 0, buf, bytes);
1571 g_free(buf);
1573 return ret;
1576 /* LATER TODO: statify all functions */
1579 * Idea of the write support (use snapshot):
1581 * 1. check if all data is consistent, recording renames, modifications,
1582 * new files and directories (in s->commits).
1584 * 2. if the data is not consistent, stop committing
1586 * 3. handle renames, and create new files and directories (do not yet
1587 * write their contents)
1589 * 4. walk the directories, fixing the mapping and direntries, and marking
1590 * the handled mappings as not deleted
1592 * 5. commit the contents of the files
1594 * 6. handle deleted files and directories
1598 typedef struct commit_t {
1599 char* path;
1600 union {
1601 struct { uint32_t cluster; } rename;
1602 struct { int dir_index; uint32_t modified_offset; } writeout;
1603 struct { uint32_t first_cluster; } new_file;
1604 struct { uint32_t cluster; } mkdir;
1605 } param;
1606 /* DELETEs and RMDIRs are handled differently: see handle_deletes() */
1607 enum {
1608 ACTION_RENAME, ACTION_WRITEOUT, ACTION_NEW_FILE, ACTION_MKDIR
1609 } action;
1610 } commit_t;
1612 static void clear_commits(BDRVVVFATState* s)
1614 int i;
1615 DLOG(fprintf(stderr, "clear_commits (%d commits)\n", s->commits.next));
1616 for (i = 0; i < s->commits.next; i++) {
1617 commit_t* commit = array_get(&(s->commits), i);
1618 assert(commit->path || commit->action == ACTION_WRITEOUT);
1619 if (commit->action != ACTION_WRITEOUT) {
1620 assert(commit->path);
1621 g_free(commit->path);
1622 } else
1623 assert(commit->path == NULL);
1625 s->commits.next = 0;
1628 static void schedule_rename(BDRVVVFATState* s,
1629 uint32_t cluster, char* new_path)
1631 commit_t* commit = array_get_next(&(s->commits));
1632 commit->path = new_path;
1633 commit->param.rename.cluster = cluster;
1634 commit->action = ACTION_RENAME;
1637 static void schedule_writeout(BDRVVVFATState* s,
1638 int dir_index, uint32_t modified_offset)
1640 commit_t* commit = array_get_next(&(s->commits));
1641 commit->path = NULL;
1642 commit->param.writeout.dir_index = dir_index;
1643 commit->param.writeout.modified_offset = modified_offset;
1644 commit->action = ACTION_WRITEOUT;
1647 static void schedule_new_file(BDRVVVFATState* s,
1648 char* path, uint32_t first_cluster)
1650 commit_t* commit = array_get_next(&(s->commits));
1651 commit->path = path;
1652 commit->param.new_file.first_cluster = first_cluster;
1653 commit->action = ACTION_NEW_FILE;
1656 static void schedule_mkdir(BDRVVVFATState* s, uint32_t cluster, char* path)
1658 commit_t* commit = array_get_next(&(s->commits));
1659 commit->path = path;
1660 commit->param.mkdir.cluster = cluster;
1661 commit->action = ACTION_MKDIR;
1664 typedef struct {
1666 * Since the sequence number is at most 0x3f, and the filename
1667 * length is at most 13 times the sequence number, the maximal
1668 * filename length is 0x3f * 13 bytes.
1670 unsigned char name[0x3f * 13 + 1];
1671 gunichar2 name2[0x3f * 13 + 1];
1672 int checksum, len;
1673 int sequence_number;
1674 } long_file_name;
1676 static void lfn_init(long_file_name* lfn)
1678 lfn->sequence_number = lfn->len = 0;
1679 lfn->checksum = 0x100;
1682 /* return 0 if parsed successfully, > 0 if no long name, < 0 if error */
1683 static int parse_long_name(long_file_name* lfn,
1684 const direntry_t* direntry)
1686 int i, j, offset;
1687 const unsigned char* pointer = (const unsigned char*)direntry;
1689 if (!is_long_name(direntry))
1690 return 1;
1692 if (pointer[0] & 0x40) {
1693 /* first entry; do some initialization */
1694 lfn->sequence_number = pointer[0] & 0x3f;
1695 lfn->checksum = pointer[13];
1696 lfn->name[0] = 0;
1697 lfn->name[lfn->sequence_number * 13] = 0;
1698 } else if ((pointer[0] & 0x3f) != --lfn->sequence_number) {
1699 /* not the expected sequence number */
1700 return -1;
1701 } else if (pointer[13] != lfn->checksum) {
1702 /* not the expected checksum */
1703 return -2;
1704 } else if (pointer[12] || pointer[26] || pointer[27]) {
1705 /* invalid zero fields */
1706 return -3;
1709 offset = 13 * (lfn->sequence_number - 1);
1710 for (i = 0, j = 1; i < 13; i++, j+=2) {
1711 if (j == 11)
1712 j = 14;
1713 else if (j == 26)
1714 j = 28;
1716 if (pointer[j] == 0 && pointer[j + 1] == 0) {
1717 /* end of long file name */
1718 break;
1720 gunichar2 c = (pointer[j + 1] << 8) + pointer[j];
1721 lfn->name2[offset + i] = c;
1724 if (pointer[0] & 0x40) {
1725 /* first entry; set len */
1726 lfn->len = offset + i;
1728 if ((pointer[0] & 0x3f) == 0x01) {
1729 /* last entry; finalize entry */
1730 glong olen;
1731 gchar *utf8 = g_utf16_to_utf8(lfn->name2, lfn->len, NULL, &olen, NULL);
1732 if (!utf8) {
1733 return -4;
1735 lfn->len = olen;
1736 memcpy(lfn->name, utf8, olen + 1);
1737 g_free(utf8);
1740 return 0;
1743 /* returns 0 if successful, >0 if no short_name, and <0 on error */
1744 static int parse_short_name(BDRVVVFATState* s,
1745 long_file_name* lfn, direntry_t* direntry)
1747 int i, j;
1749 if (!is_short_name(direntry))
1750 return 1;
1752 for (j = 7; j >= 0 && direntry->name[j] == ' '; j--);
1753 for (i = 0; i <= j; i++) {
1754 uint8_t c = direntry->name[i];
1755 if (c != to_valid_short_char(c)) {
1756 return -1;
1757 } else if (s->downcase_short_names) {
1758 lfn->name[i] = qemu_tolower(direntry->name[i]);
1759 } else {
1760 lfn->name[i] = direntry->name[i];
1764 for (j = 2; j >= 0 && direntry->name[8 + j] == ' '; j--) {
1766 if (j >= 0) {
1767 lfn->name[i++] = '.';
1768 lfn->name[i + j + 1] = '\0';
1769 for (;j >= 0; j--) {
1770 uint8_t c = direntry->name[8 + j];
1771 if (c != to_valid_short_char(c)) {
1772 return -2;
1773 } else if (s->downcase_short_names) {
1774 lfn->name[i + j] = qemu_tolower(c);
1775 } else {
1776 lfn->name[i + j] = c;
1779 } else
1780 lfn->name[i + j + 1] = '\0';
1782 if (lfn->name[0] == DIR_KANJI_FAKE) {
1783 lfn->name[0] = DIR_KANJI;
1785 lfn->len = strlen((char*)lfn->name);
1787 return 0;
1790 static inline uint32_t modified_fat_get(BDRVVVFATState* s,
1791 unsigned int cluster)
1793 if (cluster < s->last_cluster_of_root_directory) {
1794 if (cluster + 1 == s->last_cluster_of_root_directory)
1795 return s->max_fat_value;
1796 else
1797 return cluster + 1;
1800 if (s->fat_type==32) {
1801 uint32_t* entry=((uint32_t*)s->fat2)+cluster;
1802 return le32_to_cpu(*entry);
1803 } else if (s->fat_type==16) {
1804 uint16_t* entry=((uint16_t*)s->fat2)+cluster;
1805 return le16_to_cpu(*entry);
1806 } else {
1807 const uint8_t* x=s->fat2+cluster*3/2;
1808 return ((x[0]|(x[1]<<8))>>(cluster&1?4:0))&0x0fff;
1812 static inline bool cluster_was_modified(BDRVVVFATState *s,
1813 uint32_t cluster_num)
1815 int was_modified = 0;
1816 int i;
1818 if (s->qcow == NULL) {
1819 return 0;
1822 for (i = 0; !was_modified && i < s->sectors_per_cluster; i++) {
1823 was_modified = bdrv_is_allocated(s->qcow->bs,
1824 (cluster2sector(s, cluster_num) +
1825 i) * BDRV_SECTOR_SIZE,
1826 BDRV_SECTOR_SIZE, NULL);
1830 * Note that this treats failures to learn allocation status the
1831 * same as if an allocation has occurred. It's as safe as
1832 * anything else, given that a failure to learn allocation status
1833 * will probably result in more failures.
1835 return !!was_modified;
1838 static const char* get_basename(const char* path)
1840 char* basename = strrchr(path, '/');
1841 if (basename == NULL)
1842 return path;
1843 else
1844 return basename + 1; /* strip '/' */
1848 * The array s->used_clusters holds the states of the clusters. If it is
1849 * part of a file, it has bit 2 set, in case of a directory, bit 1. If it
1850 * was modified, bit 3 is set.
1851 * If any cluster is allocated, but not part of a file or directory, this
1852 * driver refuses to commit.
1854 typedef enum {
1855 USED_DIRECTORY = 1, USED_FILE = 2, USED_ANY = 3, USED_ALLOCATED = 4
1856 } used_t;
1859 * get_cluster_count_for_direntry() not only determines how many clusters
1860 * are occupied by direntry, but also if it was renamed or modified.
1862 * A file is thought to be renamed *only* if there already was a file with
1863 * exactly the same first cluster, but a different name.
1865 * Further, the files/directories handled by this function are
1866 * assumed to be *not* deleted (and *only* those).
1868 static uint32_t get_cluster_count_for_direntry(BDRVVVFATState* s,
1869 direntry_t* direntry, const char* path)
1872 * This is a little bit tricky:
1873 * IF the guest OS just inserts a cluster into the file chain,
1874 * and leaves the rest alone, (i.e. the original file had clusters
1875 * 15 -> 16, but now has 15 -> 32 -> 16), then the following happens:
1877 * - do_commit will write the cluster into the file at the given
1878 * offset, but
1880 * - the cluster which is overwritten should be moved to a later
1881 * position in the file.
1883 * I am not aware that any OS does something as braindead, but this
1884 * situation could happen anyway when not committing for a long time.
1885 * Just to be sure that this does not bite us, detect it, and copy the
1886 * contents of the clusters to-be-overwritten into the qcow.
1888 int copy_it = 0;
1889 int was_modified = 0;
1890 int32_t ret = 0;
1892 uint32_t cluster_num = begin_of_direntry(direntry);
1893 uint32_t offset = 0;
1894 int first_mapping_index = -1;
1895 mapping_t* mapping = NULL;
1896 const char* basename2 = NULL;
1898 vvfat_close_current_file(s);
1900 /* the root directory */
1901 if (cluster_num == 0)
1902 return 0;
1904 /* write support */
1905 if (s->qcow) {
1906 basename2 = get_basename(path);
1908 mapping = find_mapping_for_cluster(s, cluster_num);
1910 if (mapping) {
1911 const char* basename;
1913 assert(mapping->mode & MODE_DELETED);
1914 mapping->mode &= ~MODE_DELETED;
1916 basename = get_basename(mapping->path);
1918 assert(mapping->mode & MODE_NORMAL);
1920 /* rename */
1921 if (strcmp(basename, basename2))
1922 schedule_rename(s, cluster_num, g_strdup(path));
1923 } else if (is_file(direntry))
1924 /* new file */
1925 schedule_new_file(s, g_strdup(path), cluster_num);
1926 else {
1927 abort();
1928 return 0;
1932 while(1) {
1933 if (s->qcow) {
1934 if (!copy_it && cluster_was_modified(s, cluster_num)) {
1935 if (mapping == NULL ||
1936 mapping->begin > cluster_num ||
1937 mapping->end <= cluster_num)
1938 mapping = find_mapping_for_cluster(s, cluster_num);
1941 if (mapping &&
1942 (mapping->mode & MODE_DIRECTORY) == 0) {
1944 /* was modified in qcow */
1945 if (offset != mapping->info.file.offset + s->cluster_size
1946 * (cluster_num - mapping->begin)) {
1947 /* offset of this cluster in file chain has changed */
1948 abort();
1949 copy_it = 1;
1950 } else if (offset == 0) {
1951 const char* basename = get_basename(mapping->path);
1953 if (strcmp(basename, basename2))
1954 copy_it = 1;
1955 first_mapping_index = array_index(&(s->mapping), mapping);
1958 if (mapping->first_mapping_index != first_mapping_index
1959 && mapping->info.file.offset > 0) {
1960 abort();
1961 copy_it = 1;
1964 /* need to write out? */
1965 if (!was_modified && is_file(direntry)) {
1966 was_modified = 1;
1967 schedule_writeout(s, mapping->dir_index, offset);
1972 if (copy_it) {
1973 int i;
1975 * This is horribly inefficient, but that is okay, since
1976 * it is rarely executed, if at all.
1978 int64_t offset = cluster2sector(s, cluster_num);
1980 vvfat_close_current_file(s);
1981 for (i = 0; i < s->sectors_per_cluster; i++) {
1982 int res;
1984 res = bdrv_is_allocated(s->qcow->bs,
1985 (offset + i) * BDRV_SECTOR_SIZE,
1986 BDRV_SECTOR_SIZE, NULL);
1987 if (res < 0) {
1988 return -1;
1990 if (!res) {
1991 res = vvfat_read(s->bs, offset, s->cluster_buffer, 1);
1992 if (res) {
1993 return -1;
1995 res = bdrv_write(s->qcow, offset, s->cluster_buffer, 1);
1996 if (res) {
1997 return -2;
2004 ret++;
2005 if (s->used_clusters[cluster_num] & USED_ANY)
2006 return 0;
2007 s->used_clusters[cluster_num] = USED_FILE;
2009 cluster_num = modified_fat_get(s, cluster_num);
2011 if (fat_eof(s, cluster_num))
2012 return ret;
2013 else if (cluster_num < 2 || cluster_num > s->max_fat_value - 16)
2014 return -1;
2016 offset += s->cluster_size;
2021 * This function looks at the modified data (qcow).
2022 * It returns 0 upon inconsistency or error, and the number of clusters
2023 * used by the directory, its subdirectories and their files.
2025 static int check_directory_consistency(BDRVVVFATState *s,
2026 int cluster_num, const char* path)
2028 int ret = 0;
2029 unsigned char* cluster = g_malloc(s->cluster_size);
2030 direntry_t* direntries = (direntry_t*)cluster;
2031 mapping_t* mapping = find_mapping_for_cluster(s, cluster_num);
2033 long_file_name lfn;
2034 int path_len = strlen(path);
2035 char path2[PATH_MAX + 1];
2037 assert(path_len < PATH_MAX); /* len was tested before! */
2038 pstrcpy(path2, sizeof(path2), path);
2039 path2[path_len] = '/';
2040 path2[path_len + 1] = '\0';
2042 if (mapping) {
2043 const char* basename = get_basename(mapping->path);
2044 const char* basename2 = get_basename(path);
2046 assert(mapping->mode & MODE_DIRECTORY);
2048 assert(mapping->mode & MODE_DELETED);
2049 mapping->mode &= ~MODE_DELETED;
2051 if (strcmp(basename, basename2))
2052 schedule_rename(s, cluster_num, g_strdup(path));
2053 } else
2054 /* new directory */
2055 schedule_mkdir(s, cluster_num, g_strdup(path));
2057 lfn_init(&lfn);
2058 do {
2059 int i;
2060 int subret = 0;
2062 ret++;
2064 if (s->used_clusters[cluster_num] & USED_ANY) {
2065 fprintf(stderr, "cluster %d used more than once\n", (int)cluster_num);
2066 goto fail;
2068 s->used_clusters[cluster_num] = USED_DIRECTORY;
2070 DLOG(fprintf(stderr, "read cluster %d (sector %d)\n", (int)cluster_num, (int)cluster2sector(s, cluster_num)));
2071 subret = vvfat_read(s->bs, cluster2sector(s, cluster_num), cluster,
2072 s->sectors_per_cluster);
2073 if (subret) {
2074 fprintf(stderr, "Error fetching direntries\n");
2075 fail:
2076 g_free(cluster);
2077 return 0;
2080 for (i = 0; i < 0x10 * s->sectors_per_cluster; i++) {
2081 int cluster_count = 0;
2083 DLOG(fprintf(stderr, "check direntry %d:\n", i); print_direntry(direntries + i));
2084 if (is_volume_label(direntries + i) || is_dot(direntries + i) ||
2085 is_free(direntries + i))
2086 continue;
2088 subret = parse_long_name(&lfn, direntries + i);
2089 if (subret < 0) {
2090 fprintf(stderr, "Error in long name\n");
2091 goto fail;
2093 if (subret == 0 || is_free(direntries + i))
2094 continue;
2096 if (fat_chksum(direntries+i) != lfn.checksum) {
2097 subret = parse_short_name(s, &lfn, direntries + i);
2098 if (subret < 0) {
2099 fprintf(stderr, "Error in short name (%d)\n", subret);
2100 goto fail;
2102 if (subret > 0 || !strcmp((char*)lfn.name, ".")
2103 || !strcmp((char*)lfn.name, ".."))
2104 continue;
2106 lfn.checksum = 0x100; /* cannot use long name twice */
2108 if (path_len + 1 + lfn.len >= PATH_MAX) {
2109 fprintf(stderr, "Name too long: %s/%s\n", path, lfn.name);
2110 goto fail;
2112 pstrcpy(path2 + path_len + 1, sizeof(path2) - path_len - 1,
2113 (char*)lfn.name);
2115 if (is_directory(direntries + i)) {
2116 if (begin_of_direntry(direntries + i) == 0) {
2117 DLOG(fprintf(stderr, "invalid begin for directory: %s\n", path2); print_direntry(direntries + i));
2118 goto fail;
2120 cluster_count = check_directory_consistency(s,
2121 begin_of_direntry(direntries + i), path2);
2122 if (cluster_count == 0) {
2123 DLOG(fprintf(stderr, "problem in directory %s:\n", path2); print_direntry(direntries + i));
2124 goto fail;
2126 } else if (is_file(direntries + i)) {
2127 /* check file size with FAT */
2128 cluster_count = get_cluster_count_for_direntry(s, direntries + i, path2);
2129 if (cluster_count !=
2130 DIV_ROUND_UP(le32_to_cpu(direntries[i].size), s->cluster_size)) {
2131 DLOG(fprintf(stderr, "Cluster count mismatch\n"));
2132 goto fail;
2134 } else
2135 abort(); /* cluster_count = 0; */
2137 ret += cluster_count;
2140 cluster_num = modified_fat_get(s, cluster_num);
2141 } while(!fat_eof(s, cluster_num));
2143 g_free(cluster);
2144 return ret;
2147 /* returns 1 on success */
2148 static int is_consistent(BDRVVVFATState* s)
2150 int i, check;
2151 int used_clusters_count = 0;
2153 DLOG(checkpoint());
2155 * - get modified FAT
2156 * - compare the two FATs (TODO)
2157 * - get buffer for marking used clusters
2158 * - recurse direntries from root (using bs->bdrv_read to make
2159 * sure to get the new data)
2160 * - check that the FAT agrees with the size
2161 * - count the number of clusters occupied by this directory and
2162 * its files
2163 * - check that the cumulative used cluster count agrees with the
2164 * FAT
2165 * - if all is fine, return number of used clusters
2167 if (s->fat2 == NULL) {
2168 int size = 0x200 * s->sectors_per_fat;
2169 s->fat2 = g_malloc(size);
2170 memcpy(s->fat2, s->fat.pointer, size);
2172 check = vvfat_read(s->bs,
2173 s->offset_to_fat, s->fat2, s->sectors_per_fat);
2174 if (check) {
2175 fprintf(stderr, "Could not copy fat\n");
2176 return 0;
2178 assert (s->used_clusters);
2179 for (i = 0; i < sector2cluster(s, s->sector_count); i++)
2180 s->used_clusters[i] &= ~USED_ANY;
2182 clear_commits(s);
2184 /* mark every mapped file/directory as deleted.
2185 * (check_directory_consistency() will unmark those still present). */
2186 if (s->qcow)
2187 for (i = 0; i < s->mapping.next; i++) {
2188 mapping_t* mapping = array_get(&(s->mapping), i);
2189 if (mapping->first_mapping_index < 0)
2190 mapping->mode |= MODE_DELETED;
2193 used_clusters_count = check_directory_consistency(s, 0, s->path);
2194 if (used_clusters_count <= 0) {
2195 DLOG(fprintf(stderr, "problem in directory\n"));
2196 return 0;
2199 check = s->last_cluster_of_root_directory;
2200 for (i = check; i < sector2cluster(s, s->sector_count); i++) {
2201 if (modified_fat_get(s, i)) {
2202 if(!s->used_clusters[i]) {
2203 DLOG(fprintf(stderr, "FAT was modified (%d), but cluster is not used?\n", i));
2204 return 0;
2206 check++;
2209 if (s->used_clusters[i] == USED_ALLOCATED) {
2210 /* allocated, but not used... */
2211 DLOG(fprintf(stderr, "unused, modified cluster: %d\n", i));
2212 return 0;
2216 if (check != used_clusters_count)
2217 return 0;
2219 return used_clusters_count;
2222 static inline void adjust_mapping_indices(BDRVVVFATState* s,
2223 int offset, int adjust)
2225 int i;
2227 for (i = 0; i < s->mapping.next; i++) {
2228 mapping_t* mapping = array_get(&(s->mapping), i);
2230 #define ADJUST_MAPPING_INDEX(name) \
2231 if (mapping->name >= offset) \
2232 mapping->name += adjust
2234 ADJUST_MAPPING_INDEX(first_mapping_index);
2235 if (mapping->mode & MODE_DIRECTORY)
2236 ADJUST_MAPPING_INDEX(info.dir.parent_mapping_index);
2240 /* insert or update mapping */
2241 static mapping_t* insert_mapping(BDRVVVFATState* s,
2242 uint32_t begin, uint32_t end)
2245 * - find mapping where mapping->begin >= begin,
2246 * - if mapping->begin > begin: insert
2247 * - adjust all references to mappings!
2248 * - else: adjust
2249 * - replace name
2251 int index = find_mapping_for_cluster_aux(s, begin, 0, s->mapping.next);
2252 mapping_t* mapping = NULL;
2253 mapping_t* first_mapping = array_get(&(s->mapping), 0);
2255 if (index < s->mapping.next && (mapping = array_get(&(s->mapping), index))
2256 && mapping->begin < begin) {
2257 mapping->end = begin;
2258 index++;
2259 mapping = array_get(&(s->mapping), index);
2261 if (index >= s->mapping.next || mapping->begin > begin) {
2262 mapping = array_insert(&(s->mapping), index, 1);
2263 mapping->path = NULL;
2264 adjust_mapping_indices(s, index, +1);
2267 mapping->begin = begin;
2268 mapping->end = end;
2270 DLOG(mapping_t* next_mapping;
2271 assert(index + 1 >= s->mapping.next ||
2272 ((next_mapping = array_get(&(s->mapping), index + 1)) &&
2273 next_mapping->begin >= end)));
2275 if (s->current_mapping && first_mapping != (mapping_t*)s->mapping.pointer)
2276 s->current_mapping = array_get(&(s->mapping),
2277 s->current_mapping - first_mapping);
2279 return mapping;
2282 static int remove_mapping(BDRVVVFATState* s, int mapping_index)
2284 mapping_t* mapping = array_get(&(s->mapping), mapping_index);
2285 mapping_t* first_mapping = array_get(&(s->mapping), 0);
2287 /* free mapping */
2288 if (mapping->first_mapping_index < 0) {
2289 g_free(mapping->path);
2292 /* remove from s->mapping */
2293 array_remove(&(s->mapping), mapping_index);
2295 /* adjust all references to mappings */
2296 adjust_mapping_indices(s, mapping_index, -1);
2298 if (s->current_mapping && first_mapping != (mapping_t*)s->mapping.pointer)
2299 s->current_mapping = array_get(&(s->mapping),
2300 s->current_mapping - first_mapping);
2302 return 0;
2305 static void adjust_dirindices(BDRVVVFATState* s, int offset, int adjust)
2307 int i;
2308 for (i = 0; i < s->mapping.next; i++) {
2309 mapping_t* mapping = array_get(&(s->mapping), i);
2310 if (mapping->dir_index >= offset)
2311 mapping->dir_index += adjust;
2312 if ((mapping->mode & MODE_DIRECTORY) &&
2313 mapping->info.dir.first_dir_index >= offset)
2314 mapping->info.dir.first_dir_index += adjust;
2318 static direntry_t* insert_direntries(BDRVVVFATState* s,
2319 int dir_index, int count)
2322 * make room in s->directory,
2323 * adjust_dirindices
2325 direntry_t* result = array_insert(&(s->directory), dir_index, count);
2326 if (result == NULL)
2327 return NULL;
2328 adjust_dirindices(s, dir_index, count);
2329 return result;
2332 static int remove_direntries(BDRVVVFATState* s, int dir_index, int count)
2334 int ret = array_remove_slice(&(s->directory), dir_index, count);
2335 if (ret)
2336 return ret;
2337 adjust_dirindices(s, dir_index, -count);
2338 return 0;
2342 * Adapt the mappings of the cluster chain starting at first cluster
2343 * (i.e. if a file starts at first_cluster, the chain is followed according
2344 * to the modified fat, and the corresponding entries in s->mapping are
2345 * adjusted)
2347 static int commit_mappings(BDRVVVFATState* s,
2348 uint32_t first_cluster, int dir_index)
2350 mapping_t* mapping = find_mapping_for_cluster(s, first_cluster);
2351 direntry_t* direntry = array_get(&(s->directory), dir_index);
2352 uint32_t cluster = first_cluster;
2354 vvfat_close_current_file(s);
2356 assert(mapping);
2357 assert(mapping->begin == first_cluster);
2358 mapping->first_mapping_index = -1;
2359 mapping->dir_index = dir_index;
2360 mapping->mode = (dir_index <= 0 || is_directory(direntry)) ?
2361 MODE_DIRECTORY : MODE_NORMAL;
2363 while (!fat_eof(s, cluster)) {
2364 uint32_t c, c1;
2366 for (c = cluster, c1 = modified_fat_get(s, c); c + 1 == c1;
2367 c = c1, c1 = modified_fat_get(s, c1));
2369 c++;
2370 if (c > mapping->end) {
2371 int index = array_index(&(s->mapping), mapping);
2372 int i, max_i = s->mapping.next - index;
2373 for (i = 1; i < max_i && mapping[i].begin < c; i++);
2374 while (--i > 0)
2375 remove_mapping(s, index + 1);
2377 assert(mapping == array_get(&(s->mapping), s->mapping.next - 1)
2378 || mapping[1].begin >= c);
2379 mapping->end = c;
2381 if (!fat_eof(s, c1)) {
2382 int i = find_mapping_for_cluster_aux(s, c1, 0, s->mapping.next);
2383 mapping_t* next_mapping = i >= s->mapping.next ? NULL :
2384 array_get(&(s->mapping), i);
2386 if (next_mapping == NULL || next_mapping->begin > c1) {
2387 int i1 = array_index(&(s->mapping), mapping);
2389 next_mapping = insert_mapping(s, c1, c1+1);
2391 if (c1 < c)
2392 i1++;
2393 mapping = array_get(&(s->mapping), i1);
2396 next_mapping->dir_index = mapping->dir_index;
2397 next_mapping->first_mapping_index =
2398 mapping->first_mapping_index < 0 ?
2399 array_index(&(s->mapping), mapping) :
2400 mapping->first_mapping_index;
2401 next_mapping->path = mapping->path;
2402 next_mapping->mode = mapping->mode;
2403 next_mapping->read_only = mapping->read_only;
2404 if (mapping->mode & MODE_DIRECTORY) {
2405 next_mapping->info.dir.parent_mapping_index =
2406 mapping->info.dir.parent_mapping_index;
2407 next_mapping->info.dir.first_dir_index =
2408 mapping->info.dir.first_dir_index +
2409 0x10 * s->sectors_per_cluster *
2410 (mapping->end - mapping->begin);
2411 } else
2412 next_mapping->info.file.offset = mapping->info.file.offset +
2413 mapping->end - mapping->begin;
2415 mapping = next_mapping;
2418 cluster = c1;
2421 return 0;
2424 static int commit_direntries(BDRVVVFATState* s,
2425 int dir_index, int parent_mapping_index)
2427 direntry_t* direntry = array_get(&(s->directory), dir_index);
2428 uint32_t first_cluster = dir_index == 0 ? 0 : begin_of_direntry(direntry);
2429 mapping_t* mapping = find_mapping_for_cluster(s, first_cluster);
2431 int factor = 0x10 * s->sectors_per_cluster;
2432 int old_cluster_count, new_cluster_count;
2433 int current_dir_index = mapping->info.dir.first_dir_index;
2434 int first_dir_index = current_dir_index;
2435 int ret, i;
2436 uint32_t c;
2438 DLOG(fprintf(stderr, "commit_direntries for %s, parent_mapping_index %d\n", mapping->path, parent_mapping_index));
2440 assert(direntry);
2441 assert(mapping);
2442 assert(mapping->begin == first_cluster);
2443 assert(mapping->info.dir.first_dir_index < s->directory.next);
2444 assert(mapping->mode & MODE_DIRECTORY);
2445 assert(dir_index == 0 || is_directory(direntry));
2447 mapping->info.dir.parent_mapping_index = parent_mapping_index;
2449 if (first_cluster == 0) {
2450 old_cluster_count = new_cluster_count =
2451 s->last_cluster_of_root_directory;
2452 } else {
2453 for (old_cluster_count = 0, c = first_cluster; !fat_eof(s, c);
2454 c = fat_get(s, c))
2455 old_cluster_count++;
2457 for (new_cluster_count = 0, c = first_cluster; !fat_eof(s, c);
2458 c = modified_fat_get(s, c))
2459 new_cluster_count++;
2462 if (new_cluster_count > old_cluster_count) {
2463 if (insert_direntries(s,
2464 current_dir_index + factor * old_cluster_count,
2465 factor * (new_cluster_count - old_cluster_count)) == NULL)
2466 return -1;
2467 } else if (new_cluster_count < old_cluster_count)
2468 remove_direntries(s,
2469 current_dir_index + factor * new_cluster_count,
2470 factor * (old_cluster_count - new_cluster_count));
2472 for (c = first_cluster; !fat_eof(s, c); c = modified_fat_get(s, c)) {
2473 direntry_t *first_direntry;
2474 void* direntry = array_get(&(s->directory), current_dir_index);
2475 int ret = vvfat_read(s->bs, cluster2sector(s, c), direntry,
2476 s->sectors_per_cluster);
2477 if (ret)
2478 return ret;
2480 /* The first directory entry on the filesystem is the volume name */
2481 first_direntry = (direntry_t*) s->directory.pointer;
2482 assert(!memcmp(first_direntry->name, s->volume_label, 11));
2484 current_dir_index += factor;
2487 ret = commit_mappings(s, first_cluster, dir_index);
2488 if (ret)
2489 return ret;
2491 /* recurse */
2492 for (i = 0; i < factor * new_cluster_count; i++) {
2493 direntry = array_get(&(s->directory), first_dir_index + i);
2494 if (is_directory(direntry) && !is_dot(direntry)) {
2495 mapping = find_mapping_for_cluster(s, first_cluster);
2496 assert(mapping->mode & MODE_DIRECTORY);
2497 ret = commit_direntries(s, first_dir_index + i,
2498 array_index(&(s->mapping), mapping));
2499 if (ret)
2500 return ret;
2504 return 0;
2507 /* commit one file (adjust contents, adjust mapping),
2508 return first_mapping_index */
2509 static int commit_one_file(BDRVVVFATState* s,
2510 int dir_index, uint32_t offset)
2512 direntry_t* direntry = array_get(&(s->directory), dir_index);
2513 uint32_t c = begin_of_direntry(direntry);
2514 uint32_t first_cluster = c;
2515 mapping_t* mapping = find_mapping_for_cluster(s, c);
2516 uint32_t size = filesize_of_direntry(direntry);
2517 char* cluster = g_malloc(s->cluster_size);
2518 uint32_t i;
2519 int fd = 0;
2521 assert(offset < size);
2522 assert((offset % s->cluster_size) == 0);
2524 for (i = s->cluster_size; i < offset; i += s->cluster_size)
2525 c = modified_fat_get(s, c);
2527 fd = qemu_open(mapping->path, O_RDWR | O_CREAT | O_BINARY, 0666);
2528 if (fd < 0) {
2529 fprintf(stderr, "Could not open %s... (%s, %d)\n", mapping->path,
2530 strerror(errno), errno);
2531 g_free(cluster);
2532 return fd;
2534 if (offset > 0) {
2535 if (lseek(fd, offset, SEEK_SET) != offset) {
2536 qemu_close(fd);
2537 g_free(cluster);
2538 return -3;
2542 while (offset < size) {
2543 uint32_t c1;
2544 int rest_size = (size - offset > s->cluster_size ?
2545 s->cluster_size : size - offset);
2546 int ret;
2548 c1 = modified_fat_get(s, c);
2550 assert((size - offset == 0 && fat_eof(s, c)) ||
2551 (size > offset && c >=2 && !fat_eof(s, c)));
2553 ret = vvfat_read(s->bs, cluster2sector(s, c),
2554 (uint8_t*)cluster, DIV_ROUND_UP(rest_size, 0x200));
2556 if (ret < 0) {
2557 qemu_close(fd);
2558 g_free(cluster);
2559 return ret;
2562 if (write(fd, cluster, rest_size) < 0) {
2563 qemu_close(fd);
2564 g_free(cluster);
2565 return -2;
2568 offset += rest_size;
2569 c = c1;
2572 if (ftruncate(fd, size)) {
2573 perror("ftruncate()");
2574 qemu_close(fd);
2575 g_free(cluster);
2576 return -4;
2578 qemu_close(fd);
2579 g_free(cluster);
2581 return commit_mappings(s, first_cluster, dir_index);
2584 #ifdef DEBUG
2585 /* test, if all mappings point to valid direntries */
2586 static void check1(BDRVVVFATState* s)
2588 int i;
2589 for (i = 0; i < s->mapping.next; i++) {
2590 mapping_t* mapping = array_get(&(s->mapping), i);
2591 if (mapping->mode & MODE_DELETED) {
2592 fprintf(stderr, "deleted\n");
2593 continue;
2595 assert(mapping->dir_index < s->directory.next);
2596 direntry_t* direntry = array_get(&(s->directory), mapping->dir_index);
2597 assert(mapping->begin == begin_of_direntry(direntry) || mapping->first_mapping_index >= 0);
2598 if (mapping->mode & MODE_DIRECTORY) {
2599 assert(mapping->info.dir.first_dir_index + 0x10 * s->sectors_per_cluster * (mapping->end - mapping->begin) <= s->directory.next);
2600 assert((mapping->info.dir.first_dir_index % (0x10 * s->sectors_per_cluster)) == 0);
2605 /* test, if all direntries have mappings */
2606 static void check2(BDRVVVFATState* s)
2608 int i;
2609 int first_mapping = -1;
2611 for (i = 0; i < s->directory.next; i++) {
2612 direntry_t* direntry = array_get(&(s->directory), i);
2614 if (is_short_name(direntry) && begin_of_direntry(direntry)) {
2615 mapping_t* mapping = find_mapping_for_cluster(s, begin_of_direntry(direntry));
2616 assert(mapping);
2617 assert(mapping->dir_index == i || is_dot(direntry));
2618 assert(mapping->begin == begin_of_direntry(direntry) || is_dot(direntry));
2621 if ((i % (0x10 * s->sectors_per_cluster)) == 0) {
2622 /* cluster start */
2623 int j, count = 0;
2625 for (j = 0; j < s->mapping.next; j++) {
2626 mapping_t* mapping = array_get(&(s->mapping), j);
2627 if (mapping->mode & MODE_DELETED)
2628 continue;
2629 if (mapping->mode & MODE_DIRECTORY) {
2630 if (mapping->info.dir.first_dir_index <= i && mapping->info.dir.first_dir_index + 0x10 * s->sectors_per_cluster > i) {
2631 assert(++count == 1);
2632 if (mapping->first_mapping_index == -1)
2633 first_mapping = array_index(&(s->mapping), mapping);
2634 else
2635 assert(first_mapping == mapping->first_mapping_index);
2636 if (mapping->info.dir.parent_mapping_index < 0)
2637 assert(j == 0);
2638 else {
2639 mapping_t* parent = array_get(&(s->mapping), mapping->info.dir.parent_mapping_index);
2640 assert(parent->mode & MODE_DIRECTORY);
2641 assert(parent->info.dir.first_dir_index < mapping->info.dir.first_dir_index);
2646 if (count == 0)
2647 first_mapping = -1;
2651 #endif
2653 static int handle_renames_and_mkdirs(BDRVVVFATState* s)
2655 int i;
2657 #ifdef DEBUG
2658 fprintf(stderr, "handle_renames\n");
2659 for (i = 0; i < s->commits.next; i++) {
2660 commit_t* commit = array_get(&(s->commits), i);
2661 fprintf(stderr, "%d, %s (%d, %d)\n", i, commit->path ? commit->path : "(null)", commit->param.rename.cluster, commit->action);
2663 #endif
2665 for (i = 0; i < s->commits.next;) {
2666 commit_t* commit = array_get(&(s->commits), i);
2667 if (commit->action == ACTION_RENAME) {
2668 mapping_t* mapping = find_mapping_for_cluster(s,
2669 commit->param.rename.cluster);
2670 char* old_path = mapping->path;
2672 assert(commit->path);
2673 mapping->path = commit->path;
2674 if (rename(old_path, mapping->path))
2675 return -2;
2677 if (mapping->mode & MODE_DIRECTORY) {
2678 int l1 = strlen(mapping->path);
2679 int l2 = strlen(old_path);
2680 int diff = l1 - l2;
2681 direntry_t* direntry = array_get(&(s->directory),
2682 mapping->info.dir.first_dir_index);
2683 uint32_t c = mapping->begin;
2684 int i = 0;
2686 /* recurse */
2687 while (!fat_eof(s, c)) {
2688 do {
2689 direntry_t* d = direntry + i;
2691 if (is_file(d) || (is_directory(d) && !is_dot(d))) {
2692 mapping_t* m = find_mapping_for_cluster(s,
2693 begin_of_direntry(d));
2694 int l = strlen(m->path);
2695 char* new_path = g_malloc(l + diff + 1);
2697 assert(!strncmp(m->path, mapping->path, l2));
2699 pstrcpy(new_path, l + diff + 1, mapping->path);
2700 pstrcpy(new_path + l1, l + diff + 1 - l1,
2701 m->path + l2);
2703 schedule_rename(s, m->begin, new_path);
2705 i++;
2706 } while((i % (0x10 * s->sectors_per_cluster)) != 0);
2707 c = fat_get(s, c);
2711 g_free(old_path);
2712 array_remove(&(s->commits), i);
2713 continue;
2714 } else if (commit->action == ACTION_MKDIR) {
2715 mapping_t* mapping;
2716 int j, parent_path_len;
2718 #ifdef __MINGW32__
2719 if (mkdir(commit->path))
2720 return -5;
2721 #else
2722 if (mkdir(commit->path, 0755))
2723 return -5;
2724 #endif
2726 mapping = insert_mapping(s, commit->param.mkdir.cluster,
2727 commit->param.mkdir.cluster + 1);
2728 if (mapping == NULL)
2729 return -6;
2731 mapping->mode = MODE_DIRECTORY;
2732 mapping->read_only = 0;
2733 mapping->path = commit->path;
2734 j = s->directory.next;
2735 assert(j);
2736 insert_direntries(s, s->directory.next,
2737 0x10 * s->sectors_per_cluster);
2738 mapping->info.dir.first_dir_index = j;
2740 parent_path_len = strlen(commit->path)
2741 - strlen(get_basename(commit->path)) - 1;
2742 for (j = 0; j < s->mapping.next; j++) {
2743 mapping_t* m = array_get(&(s->mapping), j);
2744 if (m->first_mapping_index < 0 && m != mapping &&
2745 !strncmp(m->path, mapping->path, parent_path_len) &&
2746 strlen(m->path) == parent_path_len)
2747 break;
2749 assert(j < s->mapping.next);
2750 mapping->info.dir.parent_mapping_index = j;
2752 array_remove(&(s->commits), i);
2753 continue;
2756 i++;
2758 return 0;
2762 * TODO: make sure that the short name is not matching *another* file
2764 static int handle_commits(BDRVVVFATState* s)
2766 int i, fail = 0;
2768 vvfat_close_current_file(s);
2770 for (i = 0; !fail && i < s->commits.next; i++) {
2771 commit_t* commit = array_get(&(s->commits), i);
2772 switch(commit->action) {
2773 case ACTION_RENAME: case ACTION_MKDIR:
2774 abort();
2775 fail = -2;
2776 break;
2777 case ACTION_WRITEOUT: {
2778 #ifndef NDEBUG
2779 /* these variables are only used by assert() below */
2780 direntry_t* entry = array_get(&(s->directory),
2781 commit->param.writeout.dir_index);
2782 uint32_t begin = begin_of_direntry(entry);
2783 mapping_t* mapping = find_mapping_for_cluster(s, begin);
2784 #endif
2786 assert(mapping);
2787 assert(mapping->begin == begin);
2788 assert(commit->path == NULL);
2790 if (commit_one_file(s, commit->param.writeout.dir_index,
2791 commit->param.writeout.modified_offset))
2792 fail = -3;
2794 break;
2796 case ACTION_NEW_FILE: {
2797 int begin = commit->param.new_file.first_cluster;
2798 mapping_t* mapping = find_mapping_for_cluster(s, begin);
2799 direntry_t* entry;
2800 int i;
2802 /* find direntry */
2803 for (i = 0; i < s->directory.next; i++) {
2804 entry = array_get(&(s->directory), i);
2805 if (is_file(entry) && begin_of_direntry(entry) == begin)
2806 break;
2809 if (i >= s->directory.next) {
2810 fail = -6;
2811 continue;
2814 /* make sure there exists an initial mapping */
2815 if (mapping && mapping->begin != begin) {
2816 mapping->end = begin;
2817 mapping = NULL;
2819 if (mapping == NULL) {
2820 mapping = insert_mapping(s, begin, begin+1);
2822 /* most members will be fixed in commit_mappings() */
2823 assert(commit->path);
2824 mapping->path = commit->path;
2825 mapping->read_only = 0;
2826 mapping->mode = MODE_NORMAL;
2827 mapping->info.file.offset = 0;
2829 if (commit_one_file(s, i, 0))
2830 fail = -7;
2832 break;
2834 default:
2835 abort();
2838 if (i > 0 && array_remove_slice(&(s->commits), 0, i))
2839 return -1;
2840 return fail;
2843 static int handle_deletes(BDRVVVFATState* s)
2845 int i, deferred = 1, deleted = 1;
2847 /* delete files corresponding to mappings marked as deleted */
2848 /* handle DELETEs and unused mappings (modified_fat_get(s, mapping->begin) == 0) */
2849 while (deferred && deleted) {
2850 deferred = 0;
2851 deleted = 0;
2853 for (i = 1; i < s->mapping.next; i++) {
2854 mapping_t* mapping = array_get(&(s->mapping), i);
2855 if (mapping->mode & MODE_DELETED) {
2856 direntry_t* entry = array_get(&(s->directory),
2857 mapping->dir_index);
2859 if (is_free(entry)) {
2860 /* remove file/directory */
2861 if (mapping->mode & MODE_DIRECTORY) {
2862 int j, next_dir_index = s->directory.next,
2863 first_dir_index = mapping->info.dir.first_dir_index;
2865 if (rmdir(mapping->path) < 0) {
2866 if (errno == ENOTEMPTY) {
2867 deferred++;
2868 continue;
2869 } else
2870 return -5;
2873 for (j = 1; j < s->mapping.next; j++) {
2874 mapping_t* m = array_get(&(s->mapping), j);
2875 if (m->mode & MODE_DIRECTORY &&
2876 m->info.dir.first_dir_index >
2877 first_dir_index &&
2878 m->info.dir.first_dir_index <
2879 next_dir_index)
2880 next_dir_index =
2881 m->info.dir.first_dir_index;
2883 remove_direntries(s, first_dir_index,
2884 next_dir_index - first_dir_index);
2886 deleted++;
2888 } else {
2889 if (unlink(mapping->path))
2890 return -4;
2891 deleted++;
2893 DLOG(fprintf(stderr, "DELETE (%d)\n", i); print_mapping(mapping); print_direntry(entry));
2894 remove_mapping(s, i);
2899 return 0;
2903 * synchronize mapping with new state:
2905 * - copy FAT (with bdrv_read)
2906 * - mark all filenames corresponding to mappings as deleted
2907 * - recurse direntries from root (using bs->bdrv_read)
2908 * - delete files corresponding to mappings marked as deleted
2910 static int do_commit(BDRVVVFATState* s)
2912 int ret = 0;
2914 /* the real meat are the commits. Nothing to do? Move along! */
2915 if (s->commits.next == 0)
2916 return 0;
2918 vvfat_close_current_file(s);
2920 ret = handle_renames_and_mkdirs(s);
2921 if (ret) {
2922 fprintf(stderr, "Error handling renames (%d)\n", ret);
2923 abort();
2924 return ret;
2927 /* copy FAT (with bdrv_read) */
2928 memcpy(s->fat.pointer, s->fat2, 0x200 * s->sectors_per_fat);
2930 /* recurse direntries from root (using bs->bdrv_read) */
2931 ret = commit_direntries(s, 0, -1);
2932 if (ret) {
2933 fprintf(stderr, "Fatal: error while committing (%d)\n", ret);
2934 abort();
2935 return ret;
2938 ret = handle_commits(s);
2939 if (ret) {
2940 fprintf(stderr, "Error handling commits (%d)\n", ret);
2941 abort();
2942 return ret;
2945 ret = handle_deletes(s);
2946 if (ret) {
2947 fprintf(stderr, "Error deleting\n");
2948 abort();
2949 return ret;
2952 if (s->qcow->bs->drv && s->qcow->bs->drv->bdrv_make_empty) {
2953 s->qcow->bs->drv->bdrv_make_empty(s->qcow->bs);
2956 memset(s->used_clusters, 0, sector2cluster(s, s->sector_count));
2958 DLOG(checkpoint());
2959 return 0;
2962 static int try_commit(BDRVVVFATState* s)
2964 vvfat_close_current_file(s);
2965 DLOG(checkpoint());
2966 if(!is_consistent(s))
2967 return -1;
2968 return do_commit(s);
2971 static int vvfat_write(BlockDriverState *bs, int64_t sector_num,
2972 const uint8_t *buf, int nb_sectors)
2974 BDRVVVFATState *s = bs->opaque;
2975 int i, ret;
2977 DLOG(checkpoint());
2979 /* Check if we're operating in read-only mode */
2980 if (s->qcow == NULL) {
2981 return -EACCES;
2984 vvfat_close_current_file(s);
2987 * Some sanity checks:
2988 * - do not allow writing to the boot sector
2991 if (sector_num < s->offset_to_fat)
2992 return -1;
2994 for (i = sector2cluster(s, sector_num);
2995 i <= sector2cluster(s, sector_num + nb_sectors - 1);) {
2996 mapping_t* mapping = find_mapping_for_cluster(s, i);
2997 if (mapping) {
2998 if (mapping->read_only) {
2999 fprintf(stderr, "Tried to write to write-protected file %s\n",
3000 mapping->path);
3001 return -1;
3004 if (mapping->mode & MODE_DIRECTORY) {
3005 int begin = cluster2sector(s, i);
3006 int end = begin + s->sectors_per_cluster, k;
3007 int dir_index;
3008 const direntry_t* direntries;
3009 long_file_name lfn;
3011 lfn_init(&lfn);
3013 if (begin < sector_num)
3014 begin = sector_num;
3015 if (end > sector_num + nb_sectors)
3016 end = sector_num + nb_sectors;
3017 dir_index = mapping->dir_index +
3018 0x10 * (begin - mapping->begin * s->sectors_per_cluster);
3019 direntries = (direntry_t*)(buf + 0x200 * (begin - sector_num));
3021 for (k = 0; k < (end - begin) * 0x10; k++) {
3022 /* no access to the direntry of a read-only file */
3023 if (is_short_name(direntries + k) &&
3024 (direntries[k].attributes & 1)) {
3025 if (memcmp(direntries + k,
3026 array_get(&(s->directory), dir_index + k),
3027 sizeof(direntry_t))) {
3028 warn_report("tried to write to write-protected "
3029 "file");
3030 return -1;
3035 i = mapping->end;
3036 } else
3037 i++;
3041 * Use qcow backend. Commit later.
3043 DLOG(fprintf(stderr, "Write to qcow backend: %d + %d\n", (int)sector_num, nb_sectors));
3044 ret = bdrv_write(s->qcow, sector_num, buf, nb_sectors);
3045 if (ret < 0) {
3046 fprintf(stderr, "Error writing to qcow backend\n");
3047 return ret;
3050 for (i = sector2cluster(s, sector_num);
3051 i <= sector2cluster(s, sector_num + nb_sectors - 1); i++)
3052 if (i >= 0)
3053 s->used_clusters[i] |= USED_ALLOCATED;
3055 DLOG(checkpoint());
3056 /* TODO: add timeout */
3057 try_commit(s);
3059 DLOG(checkpoint());
3060 return 0;
3063 static int coroutine_fn
3064 vvfat_co_pwritev(BlockDriverState *bs, uint64_t offset, uint64_t bytes,
3065 QEMUIOVector *qiov, int flags)
3067 int ret;
3068 BDRVVVFATState *s = bs->opaque;
3069 uint64_t sector_num = offset >> BDRV_SECTOR_BITS;
3070 int nb_sectors = bytes >> BDRV_SECTOR_BITS;
3071 void *buf;
3073 assert((offset & (BDRV_SECTOR_SIZE - 1)) == 0);
3074 assert((bytes & (BDRV_SECTOR_SIZE - 1)) == 0);
3076 buf = g_try_malloc(bytes);
3077 if (bytes && buf == NULL) {
3078 return -ENOMEM;
3080 qemu_iovec_to_buf(qiov, 0, buf, bytes);
3082 qemu_co_mutex_lock(&s->lock);
3083 ret = vvfat_write(bs, sector_num, buf, nb_sectors);
3084 qemu_co_mutex_unlock(&s->lock);
3086 g_free(buf);
3088 return ret;
3091 static int coroutine_fn vvfat_co_block_status(BlockDriverState *bs,
3092 bool want_zero, int64_t offset,
3093 int64_t bytes, int64_t *n,
3094 int64_t *map,
3095 BlockDriverState **file)
3097 *n = bytes;
3098 return BDRV_BLOCK_DATA;
3101 static int coroutine_fn
3102 write_target_commit(BlockDriverState *bs, uint64_t offset, uint64_t bytes,
3103 QEMUIOVector *qiov, int flags)
3105 int ret;
3107 BDRVVVFATState* s = *((BDRVVVFATState**) bs->opaque);
3108 qemu_co_mutex_lock(&s->lock);
3109 ret = try_commit(s);
3110 qemu_co_mutex_unlock(&s->lock);
3112 return ret;
3115 static void write_target_close(BlockDriverState *bs) {
3116 BDRVVVFATState* s = *((BDRVVVFATState**) bs->opaque);
3117 bdrv_unref_child(s->bs, s->qcow);
3118 g_free(s->qcow_filename);
3121 static BlockDriver vvfat_write_target = {
3122 .format_name = "vvfat_write_target",
3123 .instance_size = sizeof(void*),
3124 .bdrv_co_pwritev = write_target_commit,
3125 .bdrv_close = write_target_close,
3128 static void vvfat_qcow_options(int *child_flags, QDict *child_options,
3129 int parent_flags, QDict *parent_options)
3131 qdict_set_default_str(child_options, BDRV_OPT_READ_ONLY, "off");
3132 qdict_set_default_str(child_options, BDRV_OPT_CACHE_NO_FLUSH, "on");
3135 static const BdrvChildRole child_vvfat_qcow = {
3136 .inherit_options = vvfat_qcow_options,
3139 static int enable_write_target(BlockDriverState *bs, Error **errp)
3141 BDRVVVFATState *s = bs->opaque;
3142 BlockDriver *bdrv_qcow = NULL;
3143 BlockDriverState *backing;
3144 QemuOpts *opts = NULL;
3145 int ret;
3146 int size = sector2cluster(s, s->sector_count);
3147 QDict *options;
3149 s->used_clusters = calloc(size, 1);
3151 array_init(&(s->commits), sizeof(commit_t));
3153 s->qcow_filename = g_malloc(PATH_MAX);
3154 ret = get_tmp_filename(s->qcow_filename, PATH_MAX);
3155 if (ret < 0) {
3156 error_setg_errno(errp, -ret, "can't create temporary file");
3157 goto err;
3160 bdrv_qcow = bdrv_find_format("qcow");
3161 if (!bdrv_qcow) {
3162 error_setg(errp, "Failed to locate qcow driver");
3163 ret = -ENOENT;
3164 goto err;
3167 opts = qemu_opts_create(bdrv_qcow->create_opts, NULL, 0, &error_abort);
3168 qemu_opt_set_number(opts, BLOCK_OPT_SIZE, s->sector_count * 512,
3169 &error_abort);
3170 qemu_opt_set(opts, BLOCK_OPT_BACKING_FILE, "fat:", &error_abort);
3172 ret = bdrv_create(bdrv_qcow, s->qcow_filename, opts, errp);
3173 qemu_opts_del(opts);
3174 if (ret < 0) {
3175 goto err;
3178 options = qdict_new();
3179 qdict_put_str(options, "write-target.driver", "qcow");
3180 s->qcow = bdrv_open_child(s->qcow_filename, options, "write-target", bs,
3181 &child_vvfat_qcow, false, errp);
3182 qobject_unref(options);
3183 if (!s->qcow) {
3184 ret = -EINVAL;
3185 goto err;
3188 #ifndef _WIN32
3189 unlink(s->qcow_filename);
3190 #endif
3192 backing = bdrv_new_open_driver(&vvfat_write_target, NULL, BDRV_O_ALLOW_RDWR,
3193 &error_abort);
3194 *(void**) backing->opaque = s;
3196 bdrv_set_backing_hd(s->bs, backing, &error_abort);
3197 bdrv_unref(backing);
3199 return 0;
3201 err:
3202 g_free(s->qcow_filename);
3203 s->qcow_filename = NULL;
3204 return ret;
3207 static void vvfat_child_perm(BlockDriverState *bs, BdrvChild *c,
3208 const BdrvChildRole *role,
3209 BlockReopenQueue *reopen_queue,
3210 uint64_t perm, uint64_t shared,
3211 uint64_t *nperm, uint64_t *nshared)
3213 BDRVVVFATState *s = bs->opaque;
3215 assert(c == s->qcow || role == &child_backing);
3217 if (c == s->qcow) {
3218 /* This is a private node, nobody should try to attach to it */
3219 *nperm = BLK_PERM_CONSISTENT_READ | BLK_PERM_WRITE;
3220 *nshared = BLK_PERM_WRITE_UNCHANGED;
3221 } else {
3222 /* The backing file is there so 'commit' can use it. vvfat doesn't
3223 * access it in any way. */
3224 *nperm = 0;
3225 *nshared = BLK_PERM_ALL;
3229 static void vvfat_close(BlockDriverState *bs)
3231 BDRVVVFATState *s = bs->opaque;
3233 vvfat_close_current_file(s);
3234 array_free(&(s->fat));
3235 array_free(&(s->directory));
3236 array_free(&(s->mapping));
3237 g_free(s->cluster_buffer);
3239 if (s->qcow) {
3240 migrate_del_blocker(s->migration_blocker);
3241 error_free(s->migration_blocker);
3245 static BlockDriver bdrv_vvfat = {
3246 .format_name = "vvfat",
3247 .protocol_name = "fat",
3248 .instance_size = sizeof(BDRVVVFATState),
3250 .bdrv_parse_filename = vvfat_parse_filename,
3251 .bdrv_file_open = vvfat_open,
3252 .bdrv_refresh_limits = vvfat_refresh_limits,
3253 .bdrv_close = vvfat_close,
3254 .bdrv_child_perm = vvfat_child_perm,
3256 .bdrv_co_preadv = vvfat_co_preadv,
3257 .bdrv_co_pwritev = vvfat_co_pwritev,
3258 .bdrv_co_block_status = vvfat_co_block_status,
3261 static void bdrv_vvfat_init(void)
3263 bdrv_register(&bdrv_vvfat);
3266 block_init(bdrv_vvfat_init);
3268 #ifdef DEBUG
3269 static void checkpoint(void)
3271 assert(((mapping_t*)array_get(&(vvv->mapping), 0))->end == 2);
3272 check1(vvv);
3273 check2(vvv);
3274 assert(!vvv->current_mapping || vvv->current_fd || (vvv->current_mapping->mode & MODE_DIRECTORY));
3276 #endif